PIPE HANGERS an d SUPPORT S SINCE 1909 CATALOGUE No .10 E . MYATT & CO . 101 Brisbane Rd ., Toronto, Ontario M3J 2K5 FOREWOR D Catalogue No . 10 is a revised edition of our general pip e hanger catalogue and replaces all previous issues . complete range of pipe hanger materials is illustrate d engineering and dimensional data tabulated for hanger components . Our dual purpose has been t o satisfy the requirements of the designer and to offe r suggestions and to supply all necessary information fo r the erector . AA with After almost '0 years in the piping industry thi s catalogue is a part of our constant effort to maintain an d improve our service . Integrity is perhaps best judged by the years of goo d reputation that a company enjoys with its customers an d in its industry . TERMS AND CONDITIONS OF SAL E All prices and designs are subject to change withou t notice . We will replace defective material when used for th e purpose recommended . No claims will be accepted fo r time, labour or other damages . Deliveries and contracts are subject to strikes, fires , accidents, or circumstances beyond our control . Materials are not returnable without written permission . Returned materials must be received in good conditio n with freight prepaid . A charge for handling an d restocking will be deducted from the credit for th e returned standard material . Orders covering material not normally carried in ou r stock are not subject to cancellation . FIGURE NUMBE R INDEX PsFig . Page 6 1 2 2 2 3 3 Section 1 PIPE ATTACHMEN T 120 4 122 4 124 124L 125 125L 126 5 6 7 7 8 128 130 131 132 133 134 135 136 137 140A 141A 142A 143A 150CT 151CT 8 9 9 9 10 10 11 152CT 153CT 154 17 17 18 155 18 156 19 157 159 160 161 162 170 172 173 174 175-180 182 183 190 191 19 20 20 21 21 22 22 23 23 24 25 25 26 26 Section 2 SADDLES and ROLL SUPPORTS 210-240 251 '251S Page Section 2 (cont . ) ECONOMICAL `FAMILY ' 1 2 3 4 5 Fig . 12 12 13 13 32 32 33 34 35 36 37 38 Section 3 BRACKETS an d SUPPORT S 300 302 304 306 308 310 312 314 315 320 321 322 325 39 39 40 40 41 42 42 43 43 44 44 45 45 14 14 15 16 Section 4 RODS and CONNECTOR S 46 46 46 414 420 47 48 422 424 426 430 432 434 440 442 48 450 50 455 460 461 462 470 50 50 50 51 51 52 52 52 52 53 53 53 53 480 480L 485 28 31 31 486 491 492 E . MYATT & CO . 493 494 48 48 49 49 49 49 49 TORONTO ONTARIO 53 53 Section 5 UPPER ATTACHMENTS 500 502 503 504 505 506 510 511 513 515 530 531 532 533 535 542 545 550 555 54 54 54 55 55 55 56 57 58 58 59 59 60 60 61 62 62 63 63 Section 6 AUXILIARY STEEL 600 650 400 402 403 475 4755 Page Section 4 (cont . ) RODS and CONNECTOR S SADDLES and ROL L SUPPORT S 255 256 258 261 262 264 265 266 Fig . 64 64 Section 7 ANCHORS and GUIDES 702 703 704 705 706 707 708 65 65 65 66 66 67 67 Section 8 SPRING and CONSTAN T SUPPORTS 805 810 820 870 880 890 68 68 68 69 69 68 Section 10 ALIGNMENT GUIDE 1267 70 I PICTORIAL INDEX Economical "Family " 0 0 steel ban d hange r Fig . 2 page 2 extension bar Fig . 1 page 1 flattened lag scre w flattened bol t Figs . 3, 4 page 2 eye socke t Fig . 5 page 3 Pipe Attachments light duty adjustable ring Fig . 120 page 4 clevis hangers Figs . 122, 124, 124L, 125, 125L, 126 pages 4 - 8 hook plate Fig . 154 page 18 offset pipe clamp Fig . 17 0 page 22 wall pip e support Fig . 15 5 page 1 8 Section 1 lug plate s Figs . 12 8 singl e 130-1-2 double pages 8, 9 2-bolt clamps 3-bolt clamp s Figs . 133, 13 4 140A, 141 A pages 10, 1 3 Figs . 135, 136, 13 7 142A, 143 A pages 11, 12, 14 hangers for copper tubing, rise r clamp, clevis hanger, adjustabl e ring hanger . single pipe h00 k 0ffset pipe ho ok Figs . 156, 15 7 page 1 9 trapeze saddl e hange r Fig . 17 2 page 22 E . MYATT & CO . 11 L .D . adjustable beam clamp Fig . 6 page 3 drive hook Fig . 15 9 page 20 trapeze hangers Figs . 173, 174 page 23 Figs . 15OCT, 151 CT, 152CT, 153CT . pages 15 to 1 7 single hol e pipe clamp Fig . 16 0 page 20 underground bell clamp Fig . 175 page 24 TORONTO ONTARI O soil pipe bracke t hvy duty pipe clip Figs . 161, 16 2 page 2 1 riser clamp s Figs . 182, 183 , 190, 19 1 pages 25 - 27 PICTORIA L INDEX Section 2 Saddles and Roll Supports 010.fififi.0 og pipe covering protection saddle s Figs . 210-240 pages 28 - 30 insulation shield s long pipe rol l short pipe roll Figs . 251, 251 S page 31 Fig . 25 5 page 32 Fig . 25 6 page 32 adjustable roll support Fig . 26 2 page 35 standard pip e roll chair Fig . 264 page 36 trapeze roller hange r Fig . 26 1 page 34 steel pipe chair Fig . 300 page 39 adjustable pipe saddle Fig . 302 page 39 short offset bracket long offset bracket Fig . 314 page 43 Fig . 315 page 43 pipe saddle support Fig . 304 page 40 light duty welded steel bracket Fig . 320 page 44 E . MYATT & CO . pipe stanchion saddl e Fig . 306 page 40 steel pip e roll stand Fig . 265 page 37 standard rolle r hange r Fig . 258 page 3 3 adjustable stee l pipe roll stand Fig . 26 6 page 3 8 adjustable pipe saddle support Fig. 308 page 41 steel anchor chair s Figs . 310, 31 2 page 4 2 heavy duty welded steel bracke t Fig . 322 page 45 welding angl e bracket standard welded steel bracket Fig . 321 page 44 Fig . 325 page 4 5 TORONTO ONTARIO ii i PICTORIAL INDE X Rods and Connectors Section 4 Jl.LLL18f P= U-hange r Fig . 400 page 46 U-bolts J-bolts eye rod s linked eye rod s not welded & welde d Figs . 420, 422 , 440, 44 2 pages 48, 49 Figs . 402, 403, 414 pages 46, 47 / hook ro d anchor bol t machine rod all thread rod continuous threa d rod Figs . 430, 432, 434 page 49 Figs . 424, 42 6 page 48 machine bolt s Fig . 45 5 page 50 4,_3 , coach screw rods coach screw & machine thread rods rod coupling forged steel clevis Fig . 46 2 page 51 Figs . 460, 46 1 page 50 Fig . 47 0 page 51 turnbuckle Figs . 475, 475S tie rods Fig . 45 0 weldless ey e nu t Fig . 48 0 page 52 pages 52, 5 0 expansion shield s compound masonry anchors Figs . 485, 486 , 491 to 494 page 5 3 ml ('__r L1J LI standard beam clamp Fig . 500 page 54 standard channel clamps Figs . 502, 503 page 54 diamond beam clam p heavy duty ceiling clip heavy duty beam attachmen t Fig. 51 3 Fig . 515 page 58 Figs . 530, 53 1 page 5 9 page 58 side beam clamp s Figs . 504, 50 5 page 55 E . MYATT & CO . iv beam hook Fig . 50 6 page 5 5 2-bolt wide flang e beam clam p Fig . 51 0 page 56 std . ceiling clip std . welded beam attachment Figs. 532, 53 3 page 60 TORONTO ONTARI O 2-bolt I-beam clam p Fig . 51 1 page 57 double angle clip c-clamps Fig . 53 5 page 61 Fig . 586, 588 page 6 3 PICTORIAL INDEX Auxiliary Steel Anchors and Guides Section 6 Section 7 .*- rigid base support sliding base support Figs . 703, 704 page 65 base ancho r Fig. 702 page 65 sliding support (welded) Fig. 705 page 66 sliding guide (welded) Fig . 706 page 6 6 Alignment Guide Section 1 0 pages 70, 7 1 sliding guide (non-welded ) Fig. 708 page 67 sliding support (non-welded ) Fig . 70 7 page 67 Springs and Constant Supports variable spring hangers Figs . 805, 810, 82 0 page 68 light duty spring hanger s Fig . 870 pages 68, 69 Section 8 spring cushion s Fig . 880 pages 68, 69 E . MYATT & CO . sway braces -Fig . 89 0 page 6 8 constant supports page 6 8 TORONTO ONTARIO v ALPHABETICA L INDEX CONDITION S of SAL E Alphabetical Inde x Page Alignment guide All thread rod Anchors - base - bolt - chair - masonry Angle - brackets - clips Auxiliary Steel 70 49 65 48 42 53 45 61 64 Page Expansion shields Extension bar Eye rods Eye sockets Flattened bolt Flattened lag screw 53 1 48-49 3 2 2 Guides - pipe 66-67 2 65 65 59-60 3, 54-5 8 55 43-4 5 Hanger rods Hanger spacing Hooks - beam - offset pipe - single pipe - Plate Hook rod 49-50 89 55 19 19 18 48 C-clamp 63 Ceiling clips 58, 60 Chairs - anchor 42 - pipe 39, 4 2 Clamps - beam 3, 54-58 - channel 54 - offset 22 - pipe . . . 10-14, 20, 22 - riser 25-27 Clevis - forged 51 - hangers 4-8 Clips - pipe 21 Coach screw rods 50 Coach & machine rods 50 Constant supports 68 Continuous thread rod 49 Conversion tables 88 Copper plated items 15-1 7 Couplings - rod 51 Insulation - saddles - shields 28-30 31 Band hangers Base anchors Base supports Beam attachments Beam clamps Beam hook Brackets Deflection of pipe Decimals - of inch - of foot Drive hooks Expansion coefficients vi 76-77 74 74 20 J-bolt 46 Lag screw, flattened Light duty springs Linked eye rods Lug plates 2 68-69 48-4 9 8-9 Page Rigid base supports Rings - adjustable Riser - clamps Rocker washers Rod couplings Rods - all types - load capacity Roll chairs Roll stands Roll supports Roller hangers Rolls - pipe 65 4 25-27 62, 63 51 48-50 74 36 37-38 35 33-34 32 Saddles - pipe 39-41 - pipe covering 28-30 - trapeze hanger 22 Shields - insulation 31 Sliding supports 65-67 Soil pipe brackets 21 Spring cushions 69 Steel - auxiliary 64 - dimensions 75 Sway braces 68 Trapeze hangers Trapeze roller hanger Turnbuckles Turnbuckle tie rods Technical section 22-23 34 52 50 72-89 Machine bolts Machine rods 50 49 Nuts 50 U-bolts 46-4 7 U-hanger 46 Underground bell clamp 24 Offset brackets Offset clamps Offset pipe hooks 43 22 19 Variable spring hangers Pipe - chairs 39, 42 - clamps . . .10-14, 20, 22 - clevises 4-8 - rolls 32 Plate washers 62 28-30 Protection saddles 73 E . MYATT & CO . TORONTO ONTARI O Wall pipe supports Washers - plate - rocker Weights - piping Welded eye rods Weldless eye nuts 68 18 62 62, 6 3 78-87 49 52 E. MYAfl & CO . INC. YOUR ALL CANADIAN HANGER MFG . ADJUSTABL E SWIVEL RING HANGE R FOR SUSPENSION OF LIGHT LOAD S MATERIAL • Carbon Stee l FINISH • Pre galv. hanger With zinc knurled nut . AN EXCELLENT, COST EFFECTIVE ALTERNATIVE TO A LIGHT DUTY CLEVIS HANGER IN MOST APPLICATIONS . ORDERING • Speafy pipe size, figure number and name . I— DIMENSIONAL DATA PIPE SIZE 112 3/4 A 3M B C 1 1 1 E 1 318 2 13116 213116 2 13/16 1 1/4 1 1/2 2 318 3/8 319 2 15/16 3 111 3 7116 2 1 /16 21/4 2 9/16 3 3/4 4 4 W16 1 3/16 1 1 /4 1 3/8 400 400 400 750 750 750 10 11 12 100 100 100 2 1 /2 3 4 3/8 3M 3/8 3 11116 4 4 546 2 13/16 3 1 /8 33/4 5 1/16 5 5/8 6 7/8 1 3/8 1 3/8 1 1/2 600 600 1000 850 1050 1500 28 30 37 50 50 25 5 6 8 112 112 1/2 S314 6 510 7314 4 3/4 5 9/16 6 11 /1 s 1000 1250 1250 2000 2650 4050 83 95 118 20 15 10 ale 15/16 15/16 15/16 D LOAD-OUANTiTY•WEIGHT — REOOM . UL • ULC AP'X INT. ICS . MAX .LOAD TEST PER.100 PER PKG. 3 1 /4 3 1/4 3 7/16 1 5/16 1318 1 114 400 400 400 750 750 750 9 9 9 100 100 100 8 1 /2 1 15/16 9 7/8 2 1 /4 12 1/1623I8 ADVANTAGES : WE'VE PUT A RIB ON THE INSIDE SURFACE OF THE HANGER CRADLE THROUGH DESIGN WE'VE MADE THE #41 SERIES LEANER THAN MOST SIMILAR HANGERS . EVEN SO . THEY AR E FOR EXTRA RIGIDITY AND EASY RATED FOR GREATER LOAD CAPACITY THAN A LIGHT DUT Y FEED OF PIPE OR TUBING . CLEVIS HANGER ( UP TO 4' ) WITHOUT THE BULK AND BOTHER . E . MYATT & CO . INC. YOUR ALL CANADIAN HANGER MFG . ADJUSTABL E SWIVEL RING HANGE R FOR SUSPENSION OF COPPER TUBIN G COPPER CLA D MATERIAL - Carbon Steel FINISH - Copper plated with zinc knurled nu t ORDERING - Specify nominal tubing size, figure number and name . DIMENSIONAL DAT A PIPE SIZE A B C D 12 3/4 3/8 3/8 3/8 2 13/16 1 2 13/16 2 13/16 1 1 1 1/4 3/8 2 13/16 1 1 1 /2 3/8 2 15/16 2 1 /16 3 3/4 2 3/8 3 7/16 2 9/16 2 1 /2 3 4 3/8 3/8 3/8 3 11/16 4 4 5/8 2 13/16 3 1 /8 3 3/4 1 15/16 15/16 — LOAD-QUANTITY-WEIGHT — 3 E 1 /4 1 /4 1 /4 1 1 5/ 16 5/ 16 15/16 3 3 1 15/16 3 7/16 1 RECOM . MAX-LOAD (LBS .) UL • ULC APP'X WT. PCS . TEST PERIOD PER PKG . LOAD (LBS) 3/8 400 400 400 750 750 750 1/4 9 9 9 100 100 100 400 750 9 10 0 4 9/16 3/ 16 1 3/8 400 400 750 750 10 12 100 10 0 5 1 /16 5 5/8 6 7/8 1 1 1 600 850 28 50 600 1050 30 50 1000 1500 37 25 3/8 3/8 1 /2 E. MYAfl & CO. INC. YOUR ALL CANADIAN HANGER MFG . ADJUSTABLE SWIVEL RING HANGE R FOR SUSPENSION OF COPPER TUBIN G EPDXY COATED MATERIAL - Carbon Stee l FINISH • Epoxy coated over pre gale . with zinc knurled nut . EPDXY COATING IS RECOMMENDED AS FAR SUPERIO R TO COPPER CLADDING WHERE RESISTANCE T O ELECTROLYSIS AND CORROSION IS OF CONCERN . ) ORDERING • Specify nominal tubing size, figure number and name . DIMENSIONAL DATA PIP E SIZE AB C -- LOAD-QUANTITY-WEIGHT — D E RECOI& . UL • ULC APP'X WE 1C& MAX.LOAD TEST PEII .1OO POI PKG . 112 3/4 3/8 3/8 3/8 2 13/16 1 15/16 2 13/16 1 15/16 2 13/16 1 15/16 3 1 /4 3 1 /4 3 1 /4 1 5/16 1 5/16 1 3/8 400 400 400 750 750 750 9 9 9 10 0 10 0 100 1 1 /4 3/8 2 13/16 1 15/16 3 7/16 1 1 /4 1 318 2 1S/16 2 1 /16 1 2 3/8 3 7/16 2 9/16 3 3/4 4 9/16 1 3/8 400 400 400 750 750 750 9 10 12 100 100 100 2 1 /2 3 3/8 3/8 3/8 3 11116 4 2 13/16 3 1 /8 5 1 /16 5 5/8 ' 13!8 1 3/8 600 600 850 1050 4 518 33/4 6 7/8 1 ,28 30 6o 50 1 4 112 3/16 112 1000 , 1500 37 25 E. MYATT & CO. INC . YOUR ALL CANADIAN HANGER MFG . Clevis Hangers are recommended Light where ne er tempertaure nor heavy loads are a factor. The upper rod nut must be tightened after erection to insure proper service . See Fig 151 CT copper plated clevis page 1 6 for use with copper tube . Material - Carbon Stee l Finish - Epoxy Coatin g Ordering - Specify pipe size, figure number , and name. EPDXY L i FIG S. CLriKS HANGER t IONAL DATA ' [C014X rOtiNG DATA PIPE SIZE RE C MAX LOAD LIS ""*Oci HGR .ROD REC HGR SPACING MATERIAL TAKE-OU1i ' 8 c 5 ! -1 . ..318 150 5 . _ .~ I 1 250 C 318 1 . 114 250 7 318 1 . 1/2 ' 250 8 250 4 1 . _ .1 _ ~1-7116 : . LQrHI .. 1 .718 114 16GAX718 16GAX718 1-114 ~ ._ 1: 314, . .. .1. . 2.114 114 . 16GAX7J6 16GAX716 _ ~ !~ I ._ 1 . 516 2. 114 APPROX WT PER loo O t PtR 150 . . .. .. -1 2.1511 6 14 1/4 3,4 13GAX716 13GAX718 1 . 314 • 2.318 ! ' 3118 114 3/4 13GAX718 • 13GAX718 , . 25 . .. ; 318 __x . . .3.318 .x . . 2 .15116 . 4 3.418 1/4 1... . 1'116 . 13GAX716 13GAX718. .316 13GAX716 13GAX718 1 0! - 3 1 ~ 3.314 ~ II 3°11116 5 114 4 .96 6 .1/4 114 1 .314 1OGM1 . 114' IOGAX1 . 114 _.1 ..-_112 ~- 3 401 350 ' 11 11`2 350 12 11`2 3 .3/4 4 . 3/4 6.5/8 114 350 13 1/2 4 . 1/4 5. 1116 7.1/4 5116 1 . 112 ~ 1 OGAX 1 . 1 /4 I OGAX 1 .114 11 7 400 14 1/2 . _; . 4 .112 , . 5/16 1 .3/4 14 1 .5. 318. ._ : . .7.13/16 90 .114 :.~.~10GAX1. . . 1/4_ IOGAX1 _ ter .' ,10 ~- 1 3116X1 . 1/4 10GAX1 .114 E . MYATT & CO . INC. YOUR ALL CANADIAN HANGER MFG . ASE3FSTOS CEIVIFNT CLFVIS HANGF R FIG 1?7AC Asbestos cement hangers are made to fit the special O .D. of the pipe as listed In th e hangers, ful l table. Typical of clevis visible adjustment is made after erection . The hangers are made full weight for complete safety with flash flood conditions . OTHER APPLICIATIONS FOR CLEWS HANGER S See Fig . 126 For Heavy Cast Iron Pipe See Fig . 124 For Steel and Soil Pip e See Fig . 151CT for Copper Pipe See Fig . 56 For Copper Pipe Material Carbon Stee l Finish • Blac k Ordering Specify pipe size, figure number and name . .- +....- ' nn- COPPER PIP E SIZE MAX LOAD L9 5 eSSOF MAX PIP E O.D. HGR ROD DNA HANGER ROD TAKEOUT -" C D E 5 7 112 8. 114 112 F mAlt-iITAL— MWOk-WT PER Igo uss ....3 1130 4 .0" 4 1430 i 112 ' -3-314 5 .2" 518 4.1/8 5-3/4 1940 7 .5" 3/4 5:114 7-314 e 2200 9 .3 " 3/4 179/1A. 9-114 14-112 518_ . ..~ . . 2-518 318X1 .1!2 10 3770 11 .6" 718 i8-112 10-112 16-112 314 2-112 318X2 12 4600 14" 718 1x114 12.518 _ 19.314 718 3 14 4600 16" 1 11-118 14-314 22-1/4 7/8 16 48000 18 1 13 16 25-3/8 6 : : j_ii .__ . . Y; _. 1-112 2 1 .1I 3116X1 . 112 3116X1 . 112' 240 . 1-314 5/16 X 1-1121 3116 X 1 -117 1 355 114X1 .112 61 0 114X2 990 112X2 114X2 1450 4-112 112X2. 112 114X 2. 112 2000 4-1/4 112X2.112 : 114X 2. 112 2400 ! E. MYATT & CO. INC. YOUR ALL CANADIAN HANGER MFG . Split Ring Hanger #12 9 Malleable Iron (Galvanized Only) BA G APP. WEIGHT 1100 PCS QUANTITY PIPE SIZE ATHREAD B 3/8 318 0 .675 7 .2 100 1/2 318 0 .840 10 .6 100 3/4 3/8 1 .050 12 .4 100 1 318 1 .315 13 .6 100 1 114 318 1 .660 17 .2 100 1112 3/8 1 .900 21 .0 100 2 318 2.375 28.8 100 2112 1/2 2 .875 54 .0 50 3 112 3.50 66 .2 50 4 1 /2 4.50 80.6 50 E. MYATT & CO. INC . C YOUR ALL CANADIAN HANGER MFG . #16 3 GALVANIZED TINNED CLIP S Pipe Size Weight ,100 pcs. Bag Quantity 112 3.5 100 314 6.0 100 1 9.5 1 100 I 1 1/4 10.2 100 1 112 11 .5 100 2 14 .0 100 2112 17.5 2.5 3 19.0 2.5 This product is meant to enhance our line of fine products , and enable you to obtain your hanger requirements from one source , thus saving time and shipping expense . REMEMBER - E . Myatt & Co. Inc. is a "full line" hanger manufacturer, supporting wholesaling in Canada . E. MYATT & CO . INC. YOUR ALL CANADIAN HANGER MFG . MYATT# 164 CPVC "UL" LISTED 2 HOLE PIPE STRA P Size 3/4 1 1-1 /4 1-1/2 2 R 1 .050 1 .313 1 .660 1 .900 2 .375 Material 20 g . x 1-1/8 pre-Gals. Std . Box • . 100' 100' 100 ' 100' 100' Wei • h t 8 lbs ./c 9lbs ./c 10 lbs .lc 11 lbs ./ c 12lbs .lc DIMENSIONS IN INCHE S FUNCTION: The Fig . No . 164 two-hole strap Is manufactured with the companys uniqu e 'Per-Groove', which uses the classic design of the arch to add strength . Edges are flare d to protect the integnty of CPVC piping . To be installed by two ft 12 x 1' slotted hex hea d screws to be supplied by the manufacture r APPROVAL : Undecwnter's Laboratones approved for the support of CPVC & PB pipin g '200 #12x1 ' hex slotted screws su pp lied per box . BOX QUANTITY ONLY, ADD TO YOUR PREPAID ORDER TODA Y Section 3 BRACKETS and SUPPORTS Epoxy Pipe Stay Fig., 326 SINGLE 1/2 C x 3/81P 3/4 C x 1/2 IP 1 C x 3/41P 11/4 C x 1 IP 11/2Cx11/41P A 21/4 2114 21/2 21/2 33/4 A-1 17/16 17116 15/8 15/8 23/4 B 3114 3 1/4 3 3/4 3 3/4 - B-1 2 9/16 2 9/16 2 3/4 2 3/4 - 1 1/2 113 2 IP 41/4 4 3/8 213/16 2 3/4 - - A 1 7/8 A-1 1 1/8 C 2 1/2 D 1 3/4 E 11/16 F 3/4 C-C 3 _ 17/8 11/8 21/2 13/4 15/16 3/4 3 DOUBLE ii2 C x 3/8 IP lI4Cxl/21P . C 2112 2 1/2 31/4 31/4 D 13/4 1 3/4 2 2 E 11/16 15116 13/16 17116 F 3/4 3/4 7/8 7/8 FASTENER 1/4 114 1/4 1/4 4 41/2 5 3 3 3 112 111116 1 15/16 27/16 1 1 118 1 1/4 1/4 1/4 1/4 DIAMETER FASTENER 114 . 1/4 D c E. MYATT & CO. INC. 101 BRISBANE ROAD, DOWNSVIEW ONTARIO M3J 2K5 (416) 663-6280 FAX (416) 663-6377 40 6 • FIG . NO . 406 TOP BEAM CLAM P Material Finish .w•. Ordering - Malleable Iron - Blac k - Specify Rod Size. Fig . No. & Nam e Remarks - For use in attaching a hanger rod to the to p flange of a bar joist . 407 Note: Fig . Nos. 406 & 407 complete with lock nut . SERIES BEAM CLAM P 406 A Material : Malleable Iro n Material Standard : ASTM A 47 Grade 3251 0 Surface finish : Plain (Lacquer or machine oil ) Zinc-plate d Bolt Thread : 3/8 " – UN C *with carburation h'arding steel screw and nu t Ro d Size 3/8" 318a" 1/2" 518" 314" 407 A 1-7/8" 1-7/8" 2-1/16" 2-3/16 " 2-3/8" B C 1-7/32" ' 1-9116" 1-5/32" 1-21/32" 1-1/5" 1-5/8" 1-115" 1-3/4 " 1-1/5 " 1-3/4" D 7/8" 7/8" 31/32 " 1-1/16 " 1-1/16" E 13/32" 15/32" 7/16 " 1/2" 1/2" Max . Rec . Loadlibs . 40 0 400 . 50 0 60 0 120 0 WIDE MOUTH BEAM CLAM P D Material : Malleable Iro n Material Standard ASTM A 47 Grade 3251 0 Plai n Surface finish Zinc plate d *with carburation harding steel screw and nut . Rod Size A 3/8" "2"' 518" 314" B 1-1 /1 6" 1-1116" 1 1-3/8" 1-3/8" C 1-7/8" 1- 718" 2-5/16" 2-3/8" D 1-5/8" 1-5/8" 2-1/4" 2-3/8" E 1/2" 1/2" 3/4" 3/4" Max . Pipe Size 4" 4" 5" 6" Ma x Re c Load/lb s 40 0 50 0 85 0 900 R ALL CANADIAN HANGER MFG . FIG 425 HOOK TIE BOL T t USED WITH SLIP—ON AND MECHANICAL JOINTS O N PIPE, VALVES AND FITTING . REINFORCES THE JOINT IN THE EVENT OF STOPPAG E OR REVERSAL OF FLOW IN UNDERGROUND PIPE SYSTEMS . ROD . 3/4 DIMENSIONAL DATA H T L 3/4 4—3/4 3—3/4 ~ WT. ?E R g oo 13 5 MATERIAL — CARBON STEE L FINISH — BLAC K REMARKS — COMPLETE WITH ONE HEAVY HEX NU T ORDERING — SPECIFY FIGURE NUMBER FIG 520 c 'CLAM P Material : Malleable Iro n Material Standard : ASTM A 47 Grade 3251 0 Surface finish : Plai n Ma x Rod Size 2-3/8 718" 3-1/2" FIG 4g2 B Rod Take Out (Clamp only ) Beam Flange Width (inches ) 6 7 3 4 5 3-7/16" 1 3-5116" 1 2-15/16" 12-9116" 11-718" Max. Rec. Load/lb s 1365 EXTENSION PIECE Material Malleable Iro n Material Standard : ASTM A47 Grade 3251 0 Surface finish Plai n E *can be used with 630# Center Load Beam Clam p Ro d Siz e A 318" 1/2" 518" 3/4" 718 For Pipe Size B C D E F G 112" to 2" 2-112 to 3-112 4" to 5" 6" 8 to 12 1/2" 1/2" 112" 1/2" 9116 1/2" 5/8 518" 518" 3/4" 1-114" 1-318 1-112" 1-314" 1-718 2-1116" 2-5116 2-7116" 9116" 11116 314" 718" 7/8 1-114" 1-3/8 1-7116" 1-11116" 1-3/4 2-718" 3 Max . Rec . Load/lbs . 61 0 113 0 155 0 210 0 235 0 YOUR ALL CANADIAN HANGER MFG . FIG 59OURLINc LAMP' Material : Malleable Iron Material standard : ASTM A47 Grade 3251 0 Surface finish . 290P# - Plai n Bolt Thread : 3/8" UN C - with carburation harding steel screw and nu t Installation Instructio n A Hex Nut is provided for tightening adjustment purpose . Rod Size 3/8" Max . Pipe Size 4" Max . Rec . Load/lbs . 400 E. MYATT & CO . INC. YOUR ALL CANADIAN HANGER MFG . Rod Threaded Ceiling Flange (Galvanized Only ) #534 Fig. 534 NOMIALA SIZE A. Thread B C APP. WGT BAG (Lbs. per 100 pcs) QUANTITY D I 3/8 3/8 UNC 1/2 3-5/16 2.7/16 .14 .2 100 1 /2 1 /2 UNC 1 /2 3-5/16 2-7/16 13 .6 100 E. MYATT & CO . INC. YOUR ALL CANADIAN HANGER MFG . MYATT # 543 - 3/8 - 1/2 EYE SOCKET MYATT # 544 - 3/8 OFFSET EYE SOCKE T 2.15/1 6 DIMENSIONS IN INCHES a NOTE : This eye socket allows instillation lo bs lush, vela sable Nippon REGULARLY FURNISHED : MsW dsl is 11 ga. low carbon sisal, iIsc o Inc plead finish. FUNCTION: Designed for attaching hanger rod to a wood structure with a lag screw . lag sp ew . L by IMmwwrt* Lawman. A —*P I I ♦"".~B ...r UMW M UnIe wNir WIN - - - - M Gras Rod C 1 1'7/16 D .3/8 1 .7,8 13/32 1/2 2.3/4 11/16 11/16 REGULARLY FURNISHED : Material is 11 ga. low carbon steel. Nectro'zinc plated finish. • 1 E 3!8.16 112. 13 Std. F Box It ya. . 500 8• . 100 FUNCTION : Designed for attaching hanger rod to a wood structure with a lag screw . LMNd by I-bo imOdss. he Wise by Undeev r-ii' Wio~M1o~111 d Gases ADD TO YOUR PREPAID ORDER TODA Y Wt. Each .0 6 .14 ECONOMICA L FAMILY Fig, Material - Malleable cast iro n Finish - -- Blac k Ordering - Specify rod diameter , figure number and name . ILLUSTRATION 3 A Fig . 5 MALLEABLE EYE SOCKET FIG . 5 Eye Sockets are tapped with Nationa l Coarse thread for use with machine bolt s or hanger rods . ENGINEERING DATA PIPE HOLE DIAMETER SIZE ROD SIZE A 3/8 1/2 - 2 V2 2'/2 - 3 3 '/2 - 5 6 _8 5,''g 3i4 Fig, 122 DIMENSIONAL DATA C APPRO X WT PER 100 1X16 10 B % 3/8 7/8 '/2 S/8 2 14 1 Y/4 2 546 1% 2' 30 42 . ..Light Duty Clevis Hanger ; Light Duty Clevis Hangers are recommende d where neither temperature nor heavy loads ar e a factor . The upper hanger rod nut must b e tightened after erection to insure proper service . See Fig . 151 CT page 16 for use with copper tube . Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size , figure number and name . Fig . 12 2 LIGHT DUTY CLEVIS HANGE R FIG . 122 DIMENSIONAL DAT A ENGINEERING DATA PIPE SI PS REC HGR HGR SPACING ROD (FT) 9IA A ROD TAKE-OUT B MATERIAL C 0 E F 1 1 '/4 1% 1 K6 1 3/4 2 V4 1 2/8 2'/4 2% 1/4 1/4 V/4 % '/4 'l4 3/4 3/4 1/4 'l4 1 '/8 1 '/4 1% V/4 1/4 1 3/s 3/8 150 5 3/8 150 250 250 5 6 7 3/8 3/a 1 3/4 2% 3'/s 1'/a 1'/2 2 250 8 9 % % 3/a 2 % 2% 3 2% 3'/a 3K6 3% 4i6 5 2' /2 3 3'/2 350 350 350 1 1 12 13 '/2 3 3/4 3 3/4 4 '/4 4 5/8 4 3/4 6'/4 6% 4 400 14 4'/2 5% 1 250 250 , 10 % 3/8 V2 V2 57'/4 S/6 1 V2 1 '/T 7' 3/ M6 1 3/4 E . MYA~TT & CO . 4 APPRO X WT PE R 104 1 RECOM MAX LOAD LAS UPPER LOWS 2/s 16GA x 7/8 14 16GA x 13GA x 13GA x 2/8 7/s 7/8 15 24 13GA x 2/s 7/8 7/s 13 GA x 13GA x 13GA x ?/8 7/8 '/8 13GA x 13GA x 13GA x 7/8 7/s '/8 31 34 40 1 OGA x 1 ~/4 1 OGA x 1 I OGA x 1 1/a 10GAx1 1 OGA x 1 1 OGA x 1 '/4 1/4 1/4 90 10 1 11 7 6 x 1 '/4 I OGA x 1 16GA x 16GA x 13GA x TORONTO ONTARI O 25 141 Section 1 PIPE ATTACHMENT S Fig . 124 Standard Clevis Hange r Standard Clevis Hangers are recommended as the mos t satisfactory general purpose pipe hangers available for use with non-insulated pipe . Two or three hangers may be installed as temporar y supports while the line is being erected . Final hange r installation and adjustment may be made after the pipe is coupled or welded . There is adequate visible adjustment which may b e made after erection (see column F) . The hanger may be locked in position after adjustment by means of the upper nut on the hanger rod . The hinged upper section of the hanger provides fo r small longitudinal movements of the pipe . Pipe sizes over 12 inch are made with special cross bolt to prevent deformation of the clevis top . Fig . 12 4 Material - Carbon stee l Finish - - Black Ordering - Specify pipe size, figure number an d name . ILLUSTRATION 5 A Standard Clevis Hanger s are ideal for the support of soil pipe . Use standard sizes . Other Application s See Fig . 124L Page 6 for insulated pipe . See Fig . 125 Page 7 for heavy duty service . See Fig . 251 Page 31 for complete vapour barrier . See Fig . 151CT Page 16 for use with copper tubing . STD CLEVIS HANGE R FIG . 124 ENGINEERING DATA plp E SIZE 3/4 1 RECOM MA X LOAD LB 650°F 300 1 1/4 1 1/2 RECOM HANGER SPACING (FT) HANGER ROD DIA A 67 2 9 MATERIAL C 3/8 1 7/8 1 7/8 2 3/4 2 3/4 3/8 2 2 2 1 /2 2 7/8 2 7/8 3 5/8 8 610 DIMENSIONAL DATA HG R RO D TAKEOUT B 10 D 3 3 3 3 E 5/16 7/ 16 3/4 7/8 4 13/ 16 1130 11 12 13 1/2 2 1 /2 3 1 /2 3 3/4 3 3/4 4 3/4 5 5 3/16 6 1 /2 4 5 6 1430 14 5/8 3 7/8 1800 16 5/8 4 1 /2 1940 17 3/4 5 1 /8 5 1 /4 5 7/8 6 3/4 8 10 12 2200 19 3 770 3770 22 23 3/4 7/8 7/8 6 1 /2 8 9 14 16 4600 25 1 4600 27 1 18 20 4800 4800 28 1 1 /8 24 4800 30 6000 32 32 2 1 /2 3 31 /2 30 1 1 /4 F 5/16 7/8 3/8 3/4 3/4 UPPER LOWE R 1/8 X 1 1 /8 X 1 1 /8 X 1 1 /8 X 1 3/16 X 1 3/16 X 1 APPRO X WT PE R 10 0 33 36 68 73 81 1 1 /4 3/8 3/8 3/8 1 1 /4 1 5/8 1 1 /2 3/16 X 1 1 /4 3/16 X 1 1 /4 11 2 13 5 17 5 7 1 /2 8 11 /16 10 1/ 16 3/8 1 /2 1 /2 1 1 /2 1 5/8 2 3/16 X 1 1 /2 1 /4 X 1 1 /4 1 /4 X 1 1 /2 3/16 X 1 1 /2 3/16 X 1 1 /4 3/16 X 1 1 /2 18 7 22 6 31 5 9 10 11 1 /4 13 1 /4 15 3/8 17 5/8 5/8 3/4 3/4 2 7/8 2 3/4 2 7/8 1 /4 X 1 3/4 3/8 X 1 3/4 3/8 X 2 3/16 X 1 3/4 1 /4 X 1 3 /4 1 /4 X 2 560 950 1170 10 3/8 11 1 /8 13 12 3/4 14 3/4 ' 16 19 3/4 22 3/4 25 7/8 7/8 1 3 1 /8 41 /8 4 1 /4 1 /2 X 2 1 /2 X 21 /2 1 /2 X 2 1 /2 1 /4 X 2 1 /4 X 2 1 /2 1 /4 X 2 1 /2 2000 2400 14 7/8 18 7/8 18 1 /2 22 3/4 241 /4 28 28 1 /2 34 3/4 43 1 1 1 /8 1 1 /4 5 6 3/4 8 5/8 X 3 5/8 X 3 3/4 X 3 3/8 X 3 3/8 X 3 3/8 X 3 4000 496 0 6860 7 1450 12/9 6 E . MYATT & CO . TORONTO ONTARIO 5 Section 1 'PIPE ATTACHMENT S Fig . long Standard Clevis Hange r 124 L Material - Carbon stee l Finish - - Black Ordering - Specify pipe size, figur e number and name . Fig . 124L Long Standard Clevis Hangers are recommended for covered pipe up to a maximu m temperature of 650°F . The cross bolt is completely outside the insulation to prevent damage to the insulation from the hinging action of the hanger during pipe expansion or contraction . Pipe sizes over 12 inch are made with a special cross bolt to prevent deformatio n of the clevis top . Modified hangers are required for insulation thicker than that shown in the dat a table below . See Fig . 125L Page 7 for heavy duty service . See Fig . 251 Page 31 for complete vapour barrier . LONG STD CLEVIS HANGE R FIG. 124L DIMENSIONAL DATA ENGINEERING DATA PIP E SIZE 1 RECO M MA X LOAD LB 650°F 3/4 300 RECO M HANGE R HANGE R RO D DI A SPACIN G (FT) A 6 143 0 180 0 194 0 2200 8 9 10 _ 11 12 13 14 16 17 19 10 12 3770 3770 22 23 14 4600 4600 4800 25 27 28 1 1/4 1 1 /2 2 2 1 /2 3 31/2_ 4 5 b 8 16 18 20 24 61 0 ~ 1 130 4800 3/8 7 30 32 HG R RO D TAKE OU T B 2 3/ 4 2 7/ 8 3 7/8 1 /2 4 4 7/ 8 5 1/8 3/4 7/8 7/8 6 6 3/ 4 7 3/8 8 314 1 0 3/8 1 1 7/8 1 1 13 1 3 3/4 1 1/8 15 5/8 1 1/4 MATERIAL C 2 1 /2 25/8 3/8 5/ 8 5/ 8 3/4 , MAX INSU L THI(~ 16 3/4 20 5/8 1 1 1,'21 1 1/2 D E ~, , 3 3/ 4 4 1 /4 33/4 4 3/ 3 7/ 8 3 7/ 8 5 1 /8 4 // 8 -~ , 8 4 6 1/4 /8 5 1/ 4 6 5/ 8 3/8 6 /4 6 1/2 8 8 1/ 2 r7 / 4 2 1 /2 8 3/ 8 9 /4 f -- -UPPER F ;? / R ; .3, c1 ;!f ' ,e 2 , 2 1I2 2 1 /2 3 1 1 1 /2 1 2 1 /2 1 4 1 /4 ~ 1 5 3/4 1 7 7/8 20 5/8 5/8 2 7/8 3, 4 2 T1,4 2 7,'2 223/4 25 3/4 -7/8 ' '5 31/8 3 1`3,4 1 7 3/4 19 28 3 21 1/2 25 3/4 1 31 1/2 37 3/4 1 /8 X 1 /8X 1 40 50 :6 3,16 X 1 80 85 10 5 3,16 X 1 1 '4 3 / 1 6X1 ; 4 4 14 0 17 0 3 , 16X 1 1, 2 X 1 ;'4 X 1, 2 3 /16 X 1 1 / 1 3/16, X 1 1 / 4 3/ ; 6 X 1 1/2 19 0 23 0 27 0 39 5 1 i 4 X 1 3/4 7 X 1 3'4 X 2 3/ 16 X 1 3/4 1 /4 X 1 3/4 1 /4 X 2 f;i 0 98 5 162 5 11 ,/ .~ 1 ,' 2 1 1 1 /8 1 2 1/2 I/8 X 1 8X 3' 4 3/ 4 : LOWE R APPRO X WT PE R i 00 1 r 2 . 1/4X2 215 0 4 1 /8 1 /2 X 2 1/2 '2X2 1/4 X 2 1/2 256 0 1 4 1/4 1/2 X 2 1/2 1/4 X 2 1/2 350 0 1 1 1-8 5 6 3/4 5/8X3 3/8X ; 019 0 5150 12/9 6 . 6 1', ti11~AA fl . ( I ORON1'( ) Section 1 PIPE ATTACHMENT S Fig . 12 5 Fig . 125L Heavy Long Duty Clevis Hange r Heavy Duty Clevis Hange r Fig . 125 Heavy Duty Clevis Hanger is recommende d for support of very heavy pipe loads as listed in th e data table . All sizes are made with special cross rods with four nuts to prevent deformation of th e clevis top . Fig . 125L Long Heavy Duty Clevis Hanger is made to the same specification as Fig . 125 but with the lower strap extended for maximum insulation thickness a s shown in the table . The cross rod is completely outside the insulation to prevent damage to the insulatio n from the hinging action of the hanger due to pipe movement . Fig . 125 Fig . 125L Material - Carbon stee l Finish - - Prime coat corrosion resistant paint . Ordering - Specify pipe size, figure number and name . Modified hangers may be obtained for special O .D . pipes or for insulation thicke r than the maximum listed in the data table . See Fig . 126 Page 8 for use with cast iron pressure piping . See Fig . 124L Page 6 for Long Standard Clevis Hangers . See Fig . 124 Page 5 for normal service . FIG. 125 HEAVY DUTY CLEVIS HANGE R ENGINEERING DATA PIPE SIZE 3, 3½ 4 5 6 8 10 12 14 16 RECOM MAX LOAD Lt 650°F RECOM HANGER HANGER ROD SPACING DIA (FT) A 12 2700 3/4 3% 3% ~% 8 %/8 4 4 3/4 3300 3300 4960 4960 13 14 16 17 19 1 1 6000 22 8000 . 1 'h 23 25 1'/4 8000 DIMENSIONAL DATA HANGE R ROD TAKEOUT d 5'/2 6'h 8 9% 10 1 /2 27 PIPE SIZE 3 3%2 4 S RECOM MAX LOAD LB 650°F C D E 5'/8 5% 5 7/e 6 3/4 7 3/4 8 3/4 6 ~% e 7% F UPPER LOWE R '/2 1 '/2 3/8 x 1 1/2 '/4 x 1 '/2 8'/8 s/e 1 '/2 8/8 1 3/4 %x2 %x2 '/4 x 2 9{6 11 14 6 3/4 1 3/4 i/2 x 2 %x2 31(6 3/4 3/4 1 3/4 '/2 x 2'/2 % x 2'/2 145 0 2% '/2 x 2'/2 % x 2'/2 3 3 3% %x3 % x 3'/% 2 3/4 x 3'/2 '/2 x 3 '/2 x 3'/2 'h x 3'/2 173 0 328 0 4000 4770 10 '/2 15'/8 12 3/4 13 % 19 y8 20 23'/8 15'/8 .. 1 _ 1 x2 305 32 5 50 0 57 0 93 0 LONG HVY . DUTY CLEVIS HANGE R ENGINEERING DATA RECOM MG R MGR MGR ROD SPAC- ROD TAKEING DIA OUT (FT) A a 3300 3300 4960 6 ~ 4960 8 10 6000 12 13 14 16 17 19 22 12 8000 23 14 16 8000 25 27 2700 _ 11 % FIG. 125L APPRO X WT PE R 00 MATERIAL 3/4 7/e 2/8 1 1 1 'e 1 1/4 1y2 ' 4 7/8 5% DIMENSIONAL DAT A MAX INSUL THK C D E F UPPER 1'h 2 6% 7% 8% 9% 10 % 11 % 133f6 156 18 % 22'/8 23 % 26/8 , /2 , 1/2 , 3fex1/2 ,/4 3i 5/8 34 1 '/2 1 3/4 1 3/4 1 3/4 %x2 %x2 '/2 x 2 '/2 x 2'/2 '/4 6'/4 7'/e 7 7/6 9'/e 10' 12 3/ 13 148 8'/8 2'/2 2'/2 2'/2 3 APPRO X WT PE R 1 00 MATERIAL 9 10 11 '/4 13 15 3/4 16 % 18 /e E. MYATT & CO . 3/4 3/4 1 1 2% 3 3 3'/2 x 2' %x3 % x 3'/2 3/4 x 3'/2 LOWE R , x1/2 x2 x2 %x2 % x 2'/2 % x 2'/2 '/2 x 3 '/2 x 3'/2 '/2 x 3'/2 340 370 560 630 102 0 158 0 187 0 3500 425 0 505 0 TORONTO ONTARI O 7 Section 1 PIPE ATTACHMENT S Fig. 126 Special O .D . Heavy Duty Clevis Hange r (FOR HEAVY CAST IRON PIPE ONLY ) Special O .D . Heavy Duty Clevis Hangers are designed fo r use with flanged or bell and spigot cast iron pipe . The pipe O .D . is as shown in the data table . Material sizes and hanger rod diameters have been increased for this service . Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, figure number and name . For steel pipe see Fig . 125 page 7 (heavy dut y service) and Fig . 124 page 5 (normal service ) Fig . 126 SPECIAL O .D . HEAVY DUTY CLEVIS HANGER (FOR HVY CAST IRON PIPE ONLY ) FIG. 126 ENGINEERING DATA HANGE R RO D RO D TAKE RECOM DI A OUT MAX LOAD LBS A B PIP E SIZE 4 6 8 10 12 14 16 18 20 24 Fig . 3/4 3/4 2 710 2 710 3 770 3 770 4600 1 4600 4700 4800 4800 6400 1 1 1/4 1 1/4 1 1/4 1 Y2 '/8 '/8 4 5 1/2 7 8 9 1/2 1 1 '/4 12 1/2 14¼ 15 1/2 20 5/8 DIMENSIONAL DATA APPRO X WT PE R 10 0 MATERIA L PIPE O .D . C D E F 4 .8 6 .9 9 .0 11 .1 13 .2 15 .6 17 .8 20 .0 22 .0 26 .3 5 3/4 7 1/2 9 3/8 10 1/2 12 14 15% 17% 19% 23916 8 '/8 1 1 13'/8 1646 1 8 5/8 21 1 1 6 2 49;"6 27% 30% 36 3/4 5/8 S/8 3/4 3/4 7/8 1 1/8 1 5/8 2 1/2 2 3/8 2 ~i6 3/8 3/8 3/8 1/2 x 1 1/2 x 1 '/2 x2 x 2 x 2'/2 '/4 1/4 1/4 % % 7/8 2 1 S ~'6 '/2 x 2'/2 1/2 x 3 3/8 128 1 1 /8 1 /8 1 /4 UPPER 3'/8 3 1516 LOWE R 3/8 3/8 3/8 3/8 5/8 x 3 5/8 x 3 %x4 4 91 6 6 3/8 x 1 1/2 x 1 '/2 x2 x2 x 2'/2 x 2 1/2 x3 x3 x3 x4 42 5 50 5 85 5 1 31 0 197 5 230 0 313 5 400 5 433 0 6905 Single Lug Plate Single Lug Plates are a convenient and economical welded attachment to steel pipe or to structural steel . Four common application s are illustrated . The hole size and dimension 'B' may be modified to your requirements . TYPE C SPRIN G HANGE R Case I I Case 1 WELD TO STRUCTUR E Material - Carbon stee l Finish - - Blac k Ordering - Specify rod size, figure number and name . SINGLE LUG PLAT E FIG . 128 ENGINEERING DATA RO D SIAZE 3/8 5/8 3/4 7/8 610 113 0 1810 271 0 3770 1 1 1/8 1 1/4 1 3/8 1 1 3/4 2 4 960 6230 8000 94 70 1 1 63 0 15700 20700 '/2 Case I V Case III WELD TO- PIP E Fig . 128 RECOM MA X LOAD LB 650°F 750° F 5 40 4 3/4 1010 1610 2420 3360 4420 5 5 5'/4 5 1/4 6 1/2 6'/2 5 560 7140 8 400 1 0 3 70 14000 18 460 F . MA l - 1 & ( - O . 8 DIMENSIONAL DAT A HGR ROD TAKE-OU T CAS E CAS E CASE I, III* II IV * 6 7 7 8 9 1/2 3/4 3/4 1/2 2 16 B 1 3/4 2 C 3/4 2 2'',i'6 2 2'/4 2 1/4 2 1/2 2 1/2 2 1/2 2 3/4 2 3/4 2 3/4 3 3 1/2 4 4 3/8 4 7/8 2 3/4 2 3/4 2 1/4 2 1/4 3 5 5/8 3'/2 2'/2 3 TORONTO 3 3ii6 3'/4 3 1 1 1~6 3 3/4 3'/8 2 2 '/4 2 1/4 2'/2 2 '/2 2'/2 ON - I ,1 K I O 1 1 1 '/4 1 1/4 1 '/2 1 1/2 2 HOLE MATERIAL '/4 x 2 1/2 3/8 x 3 3/8x3 '/2 x 3 1/2 V2 X 3 1/2 5/8 x 4 3/4 x 4 3/4 X 4'/2 916 916 ' 46 13 j 6 1 16 1 '/8 1 1/4 1 3/8 1 '/2 1 5/8 1 '/8 1 1 2'/8 1' x3 x3 x3 X 4 x4 x4 x4 x4 APPRO X R W100 53 95 95 19 6 19 6 28 0 33 5 3 78 x 5 _ 52 5 x5 69 5 x 5'/2 x 5 76 5 x 6 1/2 x 6 12 5 0 3/4 x 5 xS Section 1 PIPE ATTACHMENT S Figs . 130, 131, 132 Double Lug Plate s Double Lug Plates for the support of variou s pipe bends may be obtained to any require d specifications . Standards are given here for your convenience covering a wide range o f applications . These lugs are designed t o allow the hanger rod to lie on the pipe cente r line and to develop the full strength of th e hanger rod in supporting the pipe . Supplied complete with bolt, nut and spacer . Connections are either by Weldlcss Eye Nu t Fig . 480 Page 52, or by Welded Eye Rod Fig . Fig . 130 (or SR ells ) Fig . 131 (for LR ells) 440 Page 49 . Material - Carbon stee l Available in aIlu % el(lifg to 'Illu, n Fig . 13 2 Finish (for use with pipe bends ) - steel fo r pipe - Black Ordering - Specify pipe size, figure number and name . TYPICA L END SECTION Fig . 130 - Used with SHORT radius weld ells . Fig . 131 - Used with LONG radius weld ells . Fig . 132 - For use with five times nominal pipe size radius bends . (Also available for pipe bends of special radius ) FIGS. 130, 131, 132 PIPE SIZE ) RECOM MAX LOAD LB 650°F 750°F 2 2 %s 3 3½ 1 130 1130 1810 1810 1010 1010 1610 1610 4 5 2710 2710 2420 2420 6 3 770 3360 8 3770 3360 10 3770 3360 12 14 16 18 3 770 4960 4960 4960 20 24 6230 3360 4420 4420 4420 5560 5560 6230 DOUBLE LUG PLATE S MA X INS THK 1 1 1 1/2 1 1/2 '/2 ENGINEERING DATA HANGER ROD TAKE OU T FIG . 130 FIG . 131 FIG . 132 FS • FS FS RO D W EYE WELDE D W EYE WELDE D W EYE WELDED SIZE NUT EYE ROD NUT EYE ROD NUT EYE ROD A B C B C B C '/2 1/2 % % 3% 4 4 7/8 3/4 '/8 7/s ~% 8 7/8 5'/2 6 /4 1 1 1 1 1/8 1 /8 4% 5 Y4 6 7/s 7 3/8 7 7/8 81/ 8 3/4 9 1/4 9'/4 10 2% 3 3 '/2 3 3/4 3'/2 3 3A -4 1/4 5 5 1/2 6 6 6 '/2 7 7 8 3 1/4 3 1/2 4 '/8 3 7/8 4'/2 41/2 5 4 7/8 4'/e 4 7/8 4 34 4 3/4 4 1/4 41/4 4 2 '/4 2'/2 2 3/4 S/8 1 /2 1 i/8 1% 2 '/2 3 1/4 3 2 34 3'/8 4 4 5 2 34 3 6 1/4 8 3 3 3 2'/2 2 1/2 2 2 2 12 % 18'/8 22 % 27 344 32 3/4 37 34 43 1/4 54 3/4 8 10 14'/2 20 24 '/2 30 35 40 45'/2 56 DIMENSIONAL DAT A OD OF SPACE R D E R T 3/4 34 7/8 7/s % s/8 3/4 34 3/4 3/4 '/4 ' % 3/4 3/4 3/4 3/4 7/s 1 1 1 '/4 1 '/4 1 1/4 1 /2 1 1 1/2 1/2 1 1/2 1 1/2 13/4 1 1 1 1 1/s 1% 1 1 1 1/4 1 '/4 1 '/4 1 1/4 % % % % % '/2 1/2 11 6 1)(6 1 X1 6 11 6 11 11(6 15(6 1 516 15(6 % 15(6 1 11(6 1 1/2 % % 1'316 1 '%6 1 '/4 1 1/2 3/4 1 1/2 2 3/4 1 X3 1 6 1 5(6 1 '/4 1 '/2 1 1/2 E . MYATT & CO. LTD., TORONTO ONTARIO 9 Section 1 PIPE ATTACHMENT S Fig . 13 3 Fig . 134 Standard Heavy 2-Bolt Duty Pipe 2-Bolt Clam p Pipe Clam p 2-Bolt Pipe Clamps are used to suspend uninsulated pipe lines . Attachment to the clam p by means of Welded Eye Rods or Weldles s Eye Nuts permits movement of the pipe in any horizontal direction . Fig . 133 is normally supplied without loc k nuts and spacer . Fig. 134 is supplied with spacer . Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, figure number and name . Fig . 133 Standard Fig . 134 Heavy Duty See Page 13 for Alloy Clamp s FIG. 133 STANDARD 2-BOLT PIPE CLAMP ENGINEERING DATA RECOM MAX LOAD LB FOR SERVICE TEMP 650°F 750°F PIPE SIZE Y: V4 1 1'/4 1 %s 2 2 Y2 3 3'/: 4 5 6 8 10 12 14 16 18 20 24 RECOM MGR SPACING (FT) RECOM ROD SIZE A 500 500 450 450 5 % 6 % 500 500 800 1050 1050 1050 1050 1050 1050 1620 1620 2500 2500 450 450 720 940 940 940 940 940 940 1440 1440 2230 2230 2230 2230 2720 2720 2720 7 8 9 10 11 12 13 14 16 17 19 22 23 25 27 28 30 32 % % % 1/2 '/2 '/2 '/2 % % 3/4 '/a 2500 2500 3050 3050 3050 FIG . 134 ' s 11/4 1 1/2 1 3/4 2 2 1/4 2'/2 2'/e 3'/4 3 1/2 3 3/4 4% 5 6'/4 7% 8% 9 10 11 1/4 12'/4 14'/4 1 1 1 1/8 1 1/4 1 1/4 DIMENSIONAL DATA MGR ROD TAKEOUT FS WELDED W EYE EYE ROD NUT APPROX wT PER 100 c 2 2'/e 2% 2% 2'/e 3'/4 3% 4 4'/4 4 3/4 5'/2 6'/4 7'/4 8 34 9 3/4 10% 11 1/2 12 3/4 14 16 _ D E F M MATERIAL '/8 11 6 1 f6 1'J6 1% 2% 2 7/11 3'/2 4 4'/2 51'6 6% 8% 10 34 12 3/4 14 16 18 20 24 % % % 3/8 1 12 1/2 '/z '/2 1/2 '16 1% ~~ % 2K6 23(6 2~6 a 2% 3'h 3'h 3'/e 4 1h ' x1 '4 x 1 % % 3/4 3/4 '/8 '/8 '/8 '/8 1 1 i/8 1 '/4 RECOM MAX LOAD LO FOR SERVICE TEMP 650°F 750°F RECOM MGR sPACING (FT) 3 3½ 2600 2200 2320 1960 12 13 4 3520 3150 14 3520 3150 4880 • 4350 4880 4350 6000 53 50 8680 7750 9120 8150 9120 8150 16 17 19 22 23 25 27 5 6 8 10 12 14 16 1 1 1 '/e 1 '/e 1 1/8 1'/8 1 '/4 1% 1 '/2 4'/2 5'e 5'/e 7 1/8 8 1/2 9'/2 10% 11 % 12 % 13 % 15 216 1/,x2½ 1h x 2'h % x 2'/2 % x 2 1h % x 3 RECOM ROD SIZE A DIMENSIONAL DATA MGR ROD TAKEOU T FS WELDED W EYE EYE ROD NUT B C 3'/4 3'/2 3 3/4 4% 5'/4 6'/4 7 3/4 9 1/4 10 11 E . MYATT & CO . 10 3/4 3/4 '/e '/e 35 36 40 11 0 14 1 14 9 16 1 16 8 260 28 5 53 5 675 1400 1570 2040 2370 2700 3640 5230 HEAVY DUTY 2-BOLT PIPE CLAM P ENGINEERING DATA PIPE SIZE % % 3/4 '/e x 1 '/8 x 1 '/4 x 1 '/4 x 1 x 1 x 1 '/4 x 1 '/4 x 1 '/4 1/4 x 1'/4 % x 1 'h % x 1'h 1h x 2 'h x 2 30 4'/2 4 34 5 5% 6 3/4 7 34 9'/4 1 12 13 '/4 APPROX WT PER 10 0 D E 3'/2 4 3/4 3/4 1 F 4'h 1 4'/2 '/e 5'(6 6% 8% 10 34 12 3/4 14 16 '/a 1 1 1 '/4 1 '/2 1'/2 1 '/2 1 1 1'h 1 '/4 1 '/4 1% 1% 1% 4% 47 TORONTO ONTARIO M 5'/2 6% 7% 9'/i 10',4 11'h 12'i6 MATERIA L '/4 x 2 1/4 x 2 %x2 %x2 '/4 x 2'h 'h x 2'h % x 2'h 34 x 3 34x3'/2 3Xi x 3'h 32 0 35 0 73 0 80 0 149 0 1730 2670 468 0 569 0 615 0 Section 1 PIPE ATTACHMENTS Fig . Standard 3-Bolt Pipe 135 Clamp Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size , figure number and name . Fig . 135 Standard 3-Bolt Clamps are an economical way of supporting pipe with maximu m insulation and maximum loads shown in the data table . Attachment to the clamp b y means of Welded Eye Rod Fig . 440 Page 49 or Weldless Eye Nut Fig . 480 Page 5 2 permits flexible movement of the pipe in any horizontal direction . The insulation is protected since the clamp is rigidly fixed to the pipe and hingin g action takes place above the surface of the covering . Spacer is not normally supplied and is not included in price . See Fig . 136 Page 12 for Medium 3-Bolt Clam p STANDARD 3-BOLT PIPE CLAM P FIG . 135 ENGINEERING DATA PIPE SIZE RECOM MAX LOAD LB FOR SERVICE TEMP MAX INS THK APPRO X VVT PER 100 E F G H K MATERIAL 3 3/4 3 34 4 4'/8 5'/8 5½ 6 4'/2 1 K6 % % '4 x 1 65 15(6 1 1 (6 % % 2'/4 '/8 1'3 6 2% 2 '/8 3'/1 % % % 4% 4% 4% 4'/8 5 7/3 2'/4 4'/2 1 1/2 1% 1 3/4 2 2 1/4 2% 2 3/4 3 6 6 x1 x1 x1 x1 67 72 77 18 5 2'/2 6'/4 6 3/4 3'/4 195 21 5 7'/4 7 34 8'/4 10 11 12% 4 4'/2 5% 6% 3 3A 7% 4 7/8 8'/8 9 7/8 8% 10 34 '/2 % % 3/4 3/4 7 % 3/4 '/8 7/ 8 6'/4 6'/2 7 8'/2 9'/2 11 '/4 X 1 '/4 x 1 '/4 x 1 5% 6% 7% '/4 x 1 1/4 '/4 x 1 '/4 % x 1 1/2 % x 1 '/2 35 0 370 74 0 81 5 23 7/8 12 13'/2 4 4 4 25 27 28 1 1 1 Y8 13 14 15 14'/2 15'/1 4 4 30 32 1 1/4 1 '/4 16 18 650°F 750°F 3/4 610 540 2 6 % 1'/4 610 610 540 540 2 2 7 8 1' 2 4 V2 610 1050 1050 540 940 940 2 2'/2 2'/2 9 10 11 % % 3 3' 1050 1050 940 940 3 3 '/2 4 1050 940 3 12 13 14 5 6 8 10 1050 1620 1620 2500 940 1440 1440 2230 3 16 3'/2 17 319 4 22 12 2500 2230 4 14 16 18 2500 2500 3050 2230 2230 2720 30 24 3050 3050 2720 2720 1 DIMENSIONAL DATA HGR ROD TAKE OUT RECOM REHGR COM F .S. SPAC- RO D WELDED W . EYE ING SIZE EYE ROD NUT (FT) A B C % '/2 'h '/2 % 4 3/4 4 7/8 5'/8 6 1/4 7 D 'h 1 1 '/2 1 '/2 1 2 3/4 ~% 8 1 1 1 1 '/2 1'/1 1'/2 12 3/4 7/8 1 '/2 7/8 '/8 16'/2 14 16 18 1 2 2 2 9'/4 10'/4 11 1/4 14% 15% 16% 17% 19'14 20 24 1 1/3 1 '/4 2 2 12'/2 14 34 17% 20'/8 E . MYATT & CO . 3' 3 3 34 4'/4 5 6 10'/8 7'/4 8'/4 12% 13 % 8% TORONTO ONTARIO K '/4 22 5 '/2 x 2 '/2 x 2 181 0 1990 10 ~% 8 1 1 7/3 1 2 7/3 '/2 x 2'/2 '/2 x 2% % x 2'/2 254 0 332 5 3790 14'/8 16 4 % x 2'/2 %x3 422 0 5925 9% 1 1 Section 1 PIPE ATTACHMENTS Fig . 13 6 Fig . 137 Medium 3-Bolt Pipe Clam p Heavy Duty 3-Bolt Pipe Clam p Medium and Heavy Duty 3-Bolt Clamps are recommended for the support of insulate d pipe lines with loads not exceeding thos e shown in the tables . Attachment to the clamp by means of Welde d Eye Rod Fig . 440 or Weldless Eye Nut Fig . 480 permits flexible movement of the pipe i n any horizontal direction . The insulation is protected since hinging action takes plac e above the surface of the covering . Material - Carbon stee l Finish - - Black Ordering - Specify pipe size, figure number and name . Fig . 136 Mediu m Fig . 137 Heavy Duty MEDIUM 3-BOLT PIPE CLAM P FIG . 136 ENGINEERING DATA PIPE SIIE RECOM MAX LOAD LS FOR SERVICE TEMP 650°F 750°F RERECOM MGR COM MAX SPAC- ROD INS ING SIZE (FT) A THK 2 2½ 3 3½ 950 950 1050 1540 1540 1540 1540 1540 850 850 940 1380 1380 1380 1380 1380 2 2 2½ 2 1/2 3 3 4 5 2500 2500 2230 3 6 8 10 2860 2860 3 240 2230 2550 2550 2900 12 3240 2900 14 4300 16 4300 18 4300 20 24 5500 6000 3850 3850 3850 4900 5350 3/4 1 1'/4 1 Y2 DIMENSIONAL DATA MGR ROD TAKEOUT FS WELDED W EYE EYE ROD NU T I C D E F G H K 3 3/4 3 3/4 4 4ye 5'/s 4 '/2 1 %'6 % % 4'/2 13(6 % % 1' 6 '/2 5/8 5/ s 5'/2 6Y 2 ale 6 61/4 6 1/2 7 8'/2 7 7 1/4 3'/2 4 4% 4% 4% 4 7/8 5 7/8 6'/4 6 3/4 7 21/8 2'/4 2% 2 34 3 3/ 31/ 1/4 x 1/4 X 4 3/4 4 7/8 5 7/s 1 1/2 1% 1 3/4 2 2¼ 2 1/2 2 3/4 3 1 1 1/4 x 1 1/4 X 1 1/4 ' /4 x 1 Y4 1/4 x 1'/4 1/4 x 1 1/4 145 15 0 15 5 25 0 275 290 31 0 3 3/4 1/4 x 1 1/4 32 0 7 3/4 4 1/2 7% 4 7/8 %x2 760 8 1/4 10 5& 6% 8% 10 3/4 3 34 4 /4 5 8 1/8 5% 9 7/8 6% 6 10 M 7% % x 2 % x 2 1/2 % x 2'/2 83 5 1400 1560 1 12 34 1 1 '/2 1 1/ 71/ 8 1/4 12% 13% 81/s 9% x 2 1/2 1/2 x 21/ 218 0 2460 14 16 18 20 24 1 1/ 1 1/4 1 1/ 1% 2 2 2 2 1 1/2 2 3 3'/2 3Y 4 6 7 8 9 10 11 12 13 14 16 17 19 22 11 4 23 12 11 12 /2 13% 25 27 28 30 32 13 14 15 16 18 14Y2 15% 16'/2 17½ 19'/2 2 4 9 1/2 1 X 316 2% S/8 6/e 1 1 1 1 1 3/4 1 % 5/s 3/4 1 1 1/ 7/8 1 1/2 MATERIAL 9'/4 14% 10 7/8 %x3 3900 10'/4 15 % 11 7/8 %x3 420 0 11 1/ 12% 16 % 17% 12 2/8 14'/8 14 3/4 20'/8 16 7/8 %x3 3/4 x 3 3/4 x 4 456 5 623 0 9235 HEAVY DUTY 3-BOLT PIPE CLAM P FIG . 137 PIPE SIZE ENGINEERING RE RECOM MAX COM LOAD LB MGR FOR SERVICE MAX SPACTEMP ING INS 650°F 750°F THK (FT) 6 8 10 12 14 16 18 20 24 4,800 4,280 4,800 4,280 6,000 5,350 8,000 7,130 9,500 8,470 8,800 7,850 13,800 12,300 1 15,300 13,600 16,300 13,600 3 1/2 3'/2 4 4 4 4 4 4 17 19 22 23 25 27 28 30 32 DATA RECOM ROD SIZE A DIMENSIONAL DAT A HGR RO D TAKEOUT FS WELDED W EYE EYE ROD NU T C 9 10'/8 11 3/8 12 %_ 13 '/ 14 7/s 16'/4 17 1/4 19 % 10 1/2 11 % 12 7/8 14 1/2 15 1/2 16 7/8 19 1/4 20 1/4 22 % E . MYATT & CO. 12 APPRO X PE R 100 APPROX WT PER 100 D 6% 8% 10 3/4 12 3/4 14 16 18 20 24 E 1 1/s 1 1/8 11/4 1% 1 1/2 1 1/2 2 2 2 F G H K MATERIA L 2 2 2 1/4 2 1/2 2'/2 2 1/2 3 1/2 3 1/2 3 1/2 5 6/ 7% 8 3/4 9 34 10 3/4 12 3/4 13 3/4 15 3/4 10 1/4 11 % 13 1/8 14 % 15'/2 16 7/8 18 3/4 19 3/4 21 7/8 6 1/4 7 y2 9% 10'/2 11 3/4 12 3/4 151/4 16'/4 18'/4 '/2 x2'/2 1/2 x2 1/2 TORONTO ONTARI O %x3 % x4 3/4 x4 3/4X4 1x4 1x5 1x6 180 0 2000 350 0 520 0 650 0 740 0 12,000 14,000 19,000 Section 1 PIPE ATTACHMENTS Fig . 140A Fig . 141A Standard Heavy 2-Bolt Pipe 2-Bolt Duty Clamp Pipe (Alloy ) Clamp (Alloy ) For suspending bare hot alloy pipes, where pipe clamp and hanger rod are exposed to elevated temperatures . Heat resistant , chrome moly alloy steel welded eye rods ar e recommended to meet these conditions . Hinging action between eye rod and load carrying bolt permits free pipe movement in any horizontal direction . Alloy clamps may be obtained to any specifications of material or dimensions . Material - Clamp - AST\I A 387 grade C 1-1 /4 Cr . Also mailable in grade I) 2-1/4 Cr, 1 1 /2 N 1o . \Io . (Both materials to same loading and servic e temperatures up to I(L OF ) -0I F 193 gr . B7 . Hex bolts AST1i A Fig. 140A Standard Fig. 141A Heavy Duty Finish - Hex nuts AST11 A 194 j r . 2H . - -' el ow paint or ident scat on Ordering - Specify pipe size, figure number, name and alloy material, grade C or D . The recommended hanger spacing is not to be applie d (1 KIP = 1000 LB) for service temperatures over 950°F . STANDARD 2-BOLT CLAMP (ALLOY ) FIG . 140A PIP E SIZE ENGINEERING DATA RECO M HG R RECOM MAX LOAD, KIPS SPACFOR SERVICE TEMP ING 1000F 10S0F (FT)* 900F 950F DIMENSIONAL DATA RECOM HANGE R CHROM E RO D MOL Y TAKEOUT ALLOY (W EY E ROD ROD) A G K MATERIAL APPROX WT PE R 10 0 D E F 1 %6 1c6 % % s'b 2% '/ x 1 % 24 a x1 90 11 0 11146 % 8 1 1 28 2% 3 %x1 /x1 '/, % x 14 13 0 14 0 16 0 1 1 1 34 3% 3% %x14 180 4 x 14 200 4x14 30 0 48 58 8x2 600 68 / x 2; z 1050 7% 8x2% 1200 8% % x 2% 181 0 9% % x 2% 2030 1 .05 .94 .7 .47 6 1/2 1/ 1 1 .05 .94 .7 .47 7 % 1% 1~ 1~/= 2 1 .05 1 .6 1 .6 .94 1 .4 1 .4 .7 1 .0 1 .0 .47 8 % .7 .7 9 10 14 2 24 2'/2 3 1 .6 1 .6 .7 .7 .7 11 12 13 2% 1 .6 1 .0 1 .0 1 .0 8 3% 1 .4 1 .4 1 .4 8 2% 3 2% ' 3% 4 4 2 .6 2 .3 1 .6 1 .1 14 4 34 4% 5 2 .6 2 .3 1 .6 1 .1 16 44 5146 6 3 .0 2 .6 1 .8 1 .3 17 5 6% 1 1 1 1% 2 .6 3 .0 1 .8 2 .1 1 .3 1 .5 19 22 6 7% 3 .0 2 .1 1 .5 23 84 8/ S 10% 124 1 1 1 1% 1% 1% 4 .5 4 .5 3 .9 3 .9 3 .9 2 .8 2 .8 2 .8 2 .0 2 .0 2 .0 25 27 28 1 1 1 94 104 11'/, 14 16 18 14 1'/ 14 2 2 2 10% 11/ 12 i %x3 %x3 %x3 3420 375 0 4080 5 .7 6 .2 5 .0 5 .5 3 .2 3 .5 2.5 2 .7 30 32 1% 1% 12% 144 20 24 18 1% 2 2 14% 16% %x3 %x4 4380 8120 MATERIAL APPROX WT PE R 10 0 3/4 8 3 .0 10 3 .4 12 3 .4 4 .5 14 16 18 20 24 FIG . 141 A 4 8 a 6 8 10 12 14 16 18 20 24 RECOM MAX LOAD, KIPS FOR SERVICE TEMP 900F 950r 1000F 1050F 8 .3 8 .3 1 L5 11 .5 13 .2 13 .2 13 .2 15 .0 15 .0 8 x2 630 HEAVY DUTY 2-BOLT PIPE CLAMP (ALLOY ) ENGINEERING DATA PIP E PIPE 8 1% 2 7 .3 7 .3 10 .0 10 .0 11 .6 11 .6 11 .6 15 .0 15 .0 5 .2 5 .2 7 .2 7 .2 8 .3 8 .3 8 .3 10 .6 13 .0 3.7 3.7 5 .0 5 .0 6 .0 6 .0 6.0 7 .5 9 .0 RECOM HG R SPACING (FT)* 17 19 22 23 25 27 28 30 32 DIMENSIONAL DATA RECOM HANGE R CHROM E RO D MOL Y TAKEOUT ALLOY (W EYE ROD ROD) A G 14 14 1% 1% 1% 1% 14 14 18 5% 8% 9% 10'/, 11% 124 13% 15% D 6% 8% 10% 12% 14 16 18 20 24 E F K 1% 1% 14 14 1% 1% 1% 2 2 18 14 2 2 2% 2% 2% 2% 28 7% 8% 104 114 12% 13% E . MYATT & CO . LTD ., TORONTO ONTARIO %x4 %x4 %x4 %x4 % x 4% % x 4% 14%/ x 4% 16 1 x5 18 4 1%x6 2130 2600 4230 5440 7350 8050 8850 12420 1910 0 13 Section 1 PIPE ATTACHMENTS Fig . 142 A Fig . 143A Standard 3-Bolt Pipe Clamp (Alloy ) Heavy Duty 3-Bolt Pipe Clamp (Alloy ) For the suspension of insulated alloy pipe lines . Us e with either Welded Eye Rod Fig . 440 or Weldless Ey e Nut Fig . 480 . Hinging action at the upper load bolt is entirely out side the insulation and permits free pipe movemen t in any horizontal direction without damage to the insulation . ,v; I'll .1 X87 ( ;racic ('(1-1 4 Cr . I 2 1Io ) Material For wr' icC temperature O<cr I k'O 1~ . th e clamp k ( ;rode I) (2-1 %4 ('r . 1 \1~) . ) Inner I)OIt are ;1ti"~'\I :119 ; . ( ;r 117 . Finish - - Yellow paint for identification ) Ordering - Specify pipe size, material, figure num ber and name . *The recommended hanger spacing is not to be applie d for service temperatures over 950°F . Fig. 142A Standard Fig . 143A Heavy Duty (1 KIP = 1000 LB ) STANDARD 3-BOLT PIPE CLAMP (ALLOY) FIG. 142A PIPE sin 3/4 1 1 '/4 1 ½ 2 2 ' /: 3 3 %i 4 5 6 8 10 12 14 16 18 20 24 HANGER RO D RETAKE OUT COM MGR MG R WELDE D FS RECOM MAX LOAD KIPS EY E W EY E MA X SPAC - RO D FOR SERVICE TEMP , INSUL ING DI A RO D NUT A ` C 900F 9SOF 1000E 1030E TH K (FT)* 1 .05 .9 4 1 .05 .94 1 .05 .94 1 .1 3 1 .1 3 1 .13 1 .13 1 . 1 3 1 .1 3 1 .6 1 .4 1 .6 1 .4 2.6 2.3 2 .6 2 .3 3 .0 2 .6 3 .0 2 .6 3 .4 3 .0 3 .0 3 .4 4 .5 3 .9 4 .5 3 .9 4 .5 3 .9 5 .7 5 .0 6 .2 _ 5 .5 .7 0 .70 .7 0 1 .0 1 .0 1 .0 1 .0 1 .0 1 .6 1 .6 1 .8 1 .8 2 .1 2 .1 2 .8 2 .8 2 .8 3 .2 3 .5 6 7 8 9 10 1 1 12 13 14 16 17 19 22 23 25 27 28 30 32 '/2 '/2 '/2 '/2 '/2 Y/ % % 3/4 3/4 7/ 8 7/ 7/8 7/e 1 1 1 1 '/e 1'8 4% 3 7/s 4 4 3/4 44'/e 5 4'/4 5'/2 6'/4 5 3/ 4 6 1/2 6'/4 7'/4 6'/2 7'/2 7 8'/4 a '/2 9 3/4 9 ' /4 10 % 10'/4 11 '/2 11 3/4 13 12 3/4 14 13% 15 1/4 14% 16 Y4 13% 17'/4 16% 18% 19 20% AS R 100 E D 1/2 1 K6 1 K6 'h 1% % 1, 6 2% % 2 7/e s 3'/2 34 4 % 4'/2 3/4 3h 5 .4 6% 1 8% 1 10 3/4 1 12 3/4 1 14 1 1/4 16 1 1/4 18 1 1/4 20 1% 24 .,.1,'/2 F G % % % 1 1 1 1 1 1 1 1 1/2 1 1/2 1 '/2 1 1/2 2 2 2 2 2 - 1 ½ 1% 1 3/4 2 2'/4 2Y 2 3/4 3 3 3/4 4 %4 5 6 7 Y4 8 1/4 9'/4 10'/4 11 '/4 12'/2 a 14 3/4 K MATERIA L 1/.4 x 1 13 5 14 0 Y4 x 1 14 5 '/4 x 1 23 5 ',4x1'/4 '/4 x 1 '/4 26 5 Y4 x 1 1/4 27 5 x 1 '/4 29 0 x 1 '/4 31 0 74 0 %x 2 84 0 %x 2 % x 2 1/2 1250_ % x 2 Y2 144 0 '/2 x 2'/2 207 5 Y2 x 2'/2 2340 %x3 395 0 %x3 420 0 %x3 455 0 3/4 x 3 a 581 0 915 0 3/4 x 4 DIMENSIONAL DAT A ENGINEERING DATA HANGER RO D RETAKE OUT COM HGR HGR WELDED FS RECOM MAX LOAD KIPS EYE W EYE MAX SPAC- ROD FOR SERVICE TEMP ROD NUT INSUL ING DIA II C (FT)* A 900E 9S0F 1000E 1050F THK 6 8 10 12 14 8 .3 8 .3 11 .5 11 .5 13 .2 7 .3 7 .3 10 .0 10 .0 11 .6 5 .2 5 .2 7 .2 7 .2 8 .3 3 .7 3 .7 5 .0 5 .0 6 .0 4'/2 4 '/2 5 5 5 17 19 22 23 25 16 13 .2 11 .6 8 .3 6 .0 5 27 18 13 .2 11 .6 8 .3 6 .0 5 28 20 24 15 .0 15 .0 15 .0 15 .0 10 .6 13 .0 7 .5 9 .0 5 5 30 32 1 '/4 1 '/4 1% 1 '/2 1 3/4 1 3/4 1 3/4 1 3/4 1 3/4 . 9 7/e 0 7/8 12 3/4 3 3/4 14 3/% 5 34 16 3/4 11 % 12 % 14 3/4 15 3/4 17 7/8 18 7/8 19 % 18 21 '/8 20 % _23% APPRO X WT PER 100 D 6% 8% 10 3/4 12 3/4 14 16 18 20 24 E 1 1 1 1 1 '/2 '/2 34 3/4 7/8 1 7/8 1 7/1 2 _2 F G 1 3/4 5'/2 1 3/4 6'/2 2 8'/4 9'/4 2 2'/4 10'/4 2'/4 11 '/4 2 % n 12'/4 2'/4 13'/2 2'/4 15 3/4 E . MYATT & CO . LTD ., TORONTO ONTARI O 14 H 4'/2 2'/a 4% 2'/4 2% 4 3A 5 2 3/4 3 6 1/4 3 1/4 6 Y2 7 3'/2 7'/4 3 34 4 7/e 8'/e 9% 5% 10% 6% 11 4/8 7% 13'/8 8% 14 %I 9% 15 1/4 1 0 7/8 16% 11 7/8 17'/4 12 7/8 18'/2 14'/8 21'/e _ 1 6 7/8 HEAVY DUTY 3-BOLT PIPE CLAMP (ALLOY ) ....FIG . 143A PIP E SIZE .4 7 2'/2 .47 2'/2 .4 7 2'/2 .7 2'/2 3'/2 .7 .7 3'/2 .7 3'/2 .7 3'/2 3'/2 11 1 1 .1 4'/2 1 .3 _ 4 ' / 2 4'/2 1 .3 1 .5 5 1 .5 5 5 2 .0 2 .0 5 2 .0 5 5 2 .5 5 2 .7 DIMENSIONAL DATA - ENGINEERING DATA H K MATERIAL 11 7/e 12 7/I 4 3/4 15 3/4 7 18 9 20 % 23 % 7 Y2 8 Y2 10'/4 11 '/4 12 % 13'/2 14 % 16 18 % '/2 x 4 '/2 x 4 3/4 x 4 34 x 4 7h x 4'/2 _7/I x 4 % 7/8 x 4'/2 1 x5 1'4 x 6 3 24 0 3700 620 0 6750 952 0 1022 0 1082 0 14900 2291 0 Section 1 PIPE ATTACHMENTS Hangers for Copper Tubin g APPLICATIO N The suspension of copper tubing presents a challengin g problem in corrosion . While many books have been writte n on this subject, the basic problem is the electro-galvani c action between steel and copper . COPPE R TUBING ACTUA L NOMINAL OUTSID E SIZE DIAMETE R % % 3/4 7/8 1 1 1/8 1 1/4 1 % 1' 1% 2 2 '/8 2½ 2% 3 3'/8 3½ 3% 4 4 1/8 5 5 '/8 6 6'/8 8 8'/8 10 10 1/8 12 12% Non-ferrous hangers for normal service are either too light or too costly . Steel hangers are not satisfactory . Copper plated steel hangers have many advantages in pre venting this localized corrosion under normal atmospheri c conditions . If local corrosion conditions are severe due to acid fumes , extreme humidity, etc ., copper plated steel is not satisfactory and special materials must be used . We are please d to review corrosion problems with you and to offer suggestions if you so desire . SIZING AND SELECTION Any steel hanger (rods, etc .) may be obtained copper plated and in general are entirely satisfactory . Any attachment however which depends on clamping action on copper tubing, must be made in size fo r this application . The O .D . of standard copper tube is shown for reference . Fig. 15OCT, Fig. 151CT, Fig. 152CT and Fig . 153CT shown on pages 15 to 17 represent the most popular standard items for use with copper tubing . Copper Plated Riser Clam p Fig . 150 CT Copper Plated Riser Clamps are made to fit tigh t on copper tube . Clamps may be soldered to the pipe if desired . Standard clamps have B = C = 4 inch, but ends may be obtained any length to order . Fig. 150 C T FIG . 150 CT Material - Carbon stee l Finish - - Clamps and bolts all completely copper plated. Ordering - Specify nominal tubing size , figure number and name . COPPER PLATED RISER CLAM P MAX RECOM LOAD TUBING SIZE '/Z S/4 MATERIAL 1 1 '/4 255 255 255 255 8GA x 1 8GA x 1 8GA x 1 8GA x 1 1'/2 255 2 2½ 3 3½ 4 255 390 530 53 0 670 8GA x 1 1/a 8GA x 1 '/4 - 8GA x 1 ¼ 3GAx 1'/4 3GAx 1'/4 1/4 x 1 1/2 BOLT DIAM APPRO X WT PE R 100 % % % 99 12 6 12 6 3/8 3/8 % 3/8 13 2 % % '/2 14 0 14 7 15 6 16 6 26 3 3 25 Standard Riser Clamps for steel pipe are Fig . 182 Page 25 . E . MYATT & CO . TORONTO ONTARI O 15 Section 1 PIPE ATTACHMENT S Fig . 151 CT Copper Plated Clevis Hange r Fig . 151 CT Copper Plated Clevis Hangers are recommended as the best general-purpose pipe hangers availabl e for the support of uninsulated copper tubing . They afford adequate visible adjustment which can be made after installation . Hangers can be locked in position, after adjustment, by means of the upper nut on the hanger rod . Material - Carbon steel Finish - - Hanger and bolt completely copper plated . Ordering - Specify tubing size, figure number and name . Standard Clevis Hangers are Fig . 124 page 5 for steel pipe . Light Duty Clevis Hangers are Fig . 122 page 4 for steel pipe . For insulated copper lines, particularly dual temperature or refrigeration service, see insulatio n shield assembly page 31 . FIG . 151 CT COPPER PLATED CLEVIS HANGE R ENGINEERING DATA TUBING SIZE %2 3/4 1 1'/4 1'/2 2 2 1/2 3 3 'A 4 5 6 8 10 12 16 RECOM MAX LOAD LB 150 150 250 250 250 250 350 350 350 350 1800 1940 2200 3770 3770 ROD DIA A % 3/8 3/8 3/8 % % '/2 '/2 /2 '/2 % 3/4 3/4 _ 7/8 TAKEOUT B C 1 1 1/4 1716 1 3/4 1% 2'/4 1 3/4 2% 2% 2% 33i 6 4% 4 3/4 4 3/4 5 '46 5'/8 6 3/4 8'/2 10 11'/4 2% 3 3/4 3 3/4 3 3/4 4'/4 4' /2 5'/8 6'/2 8 9 _ D 1 7/e 2'/4 2 1 36 3 '/8 3'/8 4 )(6 6'/4 6 5/8 6% 7'/4 8%6 1 0 'X(6 12% 15% 17% E . MYATT & CO . DIMENSIONAL DAT A ADJUSTBOLT DIA MENT E F UPPER '/4 '/4 '/4 '/4 '/4 '/4 '/4 '/4 '/4 5A6 '/2 '/2 % 3/4 3/4 1/4 % 3/4 3/4 1'/8 1 '/4 1 3/4 1 '/2 1 '/2 1 '/2 1 '/2 1 3/4 2'/e 2 '/2 2% MATERIAL 16GA x 7/8 6GA x '/8 3GA x 7/8 13G A x 7/8 3GA x 7/8 3GA x 7/8 1 OGA x 1 '/4 1 0G A x 1 '/4 10GA x 1 '/4 1 0 G A x 1 '/4 x 1 '/2 5 6 x 1 '/2 %x1 1/2 % x2 '/2 x2 TORONTO ONTARI O APPROX WT PER loo LOWER 16GA x 7/8 16GA x '/8 3GA x 7/8 13G A x l/8 3GA x 7/8 3GA x 1 OGA x 1 1 OGA x 1 '/4 14 15 24 25 31 40 90 10 0 10GA x 1 '/4 10 0 10GA x 1 '/4 3(6 X 1 'h 3(i6 x 1 '/2 1/4 x 1 '/2 '/4x2 % x2 11 7 34 0 46 1 73 3 94 4 1759 Section 1 PIPE ATTACHMENT S Fig . 152 CT Copper Plated Adjustable Rin g Copper Plated Adjustable Rings are recommende d for normal service on copper tubing . For bes t results a locking nut should be used on the hange r rod as illustrated. Material - Carbon steel Finish ' - - Completely copper plate d Ordering — Specify tubing size, figure number and name . See ;" h steel pipe . ADJUSTABLE RING OBSOLET E SEE T SECTI O N UC NEW PROD 'NSIONAL DATA C D E APPROX WT PER 100 1 1 1 % 2 1 1/8 1% 1 3/4 2 1/4 2% 2% 2% 2'h 2'/2 3 2 '/4 2% 2'h 3% 41/i 4 4% 4'/8 4% 5 1/4 6 6 61 1 1 1 1 1/4 1% 2 2 118 1 % 1% 10 11 16 21 29 36 41 41 43 B ''/4 1 1'/4 2 2½ 3 3½ 4 Fig. 152 CT Fig . 153 CT Copper Plated Band 61 0 61 0 61 0 61 0 61 0 970 970 97 0 1250 % % % '/2 '/2 '/2 Hanger Copper Plated Band Hangers are recommended for the support of copper tubing where a band type hange r is desirable . Suggested hanger assemblies ar e shown on page 1 of this catalogue . Material - Carbon stee l Finish - - Hanger and bolt cnn nletel y copnp '' Or'' igur e ipe . LET E OBSO SEE T NEW VRO U CT SECTb0T 3/4 4 E . MYATT & CO . BOLT E MATERIAL 1 1 1/4 1'/2 2 2%: 3 Fig . 153 CT ANGER 240 240 24 0 24 0 240 24 0 24 0 24 0 32 0 x 16G A '/8x16GA x 16GA x 14GA 1 x 14GA 1 x 12G A 1 x 12G A 1 x12GA 1 1/4 x 12GA 1/4 x 1/4 x 3/4 x 1/4 x 3/4 3A '/4 x 1 APPROX WT °ER 10 0 10 12 13 17 24 38 44 44 58 TORONTO ONTARI O 17 Section 1 PIPE ATTACHMENT S Fig . 154 Steel Hook Plat e Steel Hook Plates are designed for use with pipe coils, th e pipe centres 'A' are for standard return bends . Standard strips are supplied with the number of hooks show n in the data table . As many hooks as desired can be cut of f easily at the ribs shown, or strips may be ordered cut to length with any number of hooks required . Material - Carbon stee l Finish - - Blac k Ordering - Specify number of strips, pip e size, figure number and name . ATE iIONAL DAT A OBSOLET E SE E NEW PRODUCT SECTION MATERIAL HOOK PLATE • '/8 '/8 • 78 In 1S 30 55 9 10 25 3'/2 20 4'h 1 '/8 3'h 1% 4'h 91 91 91 x x x x APPRO X WT PE R STRI P 2 2 2 2 Refrigeration Coils, Cooling Coils, Heating Coils and Multiple Supply Lines may require special consideration . The illustrations show types of special hangers which have helpe d to overcome this kind of problem . ILLUSTRATION i SA We are pleased to make quotations from your blue prints , drawings, or sketches and to offer suggestions or forwar d designs if you so desire . ILLUSTRATION 1 N Fig . 155 Wall Pipe Suppor t Pipe Supports are designed to support piping as close to a wall as possible . They are intended for heavy duty service when there i s no appreciable pipe movement . When provision for expansion is required a wall bracket and roller type support should be used . Wall Modified wall supports may be obtained to special specifications . FIG . 155 PIPE SIZE Fig. 155 Material - Carbon steel Finish - - Blac k Ordering - Specify pipe size , figure number and name . 18 WALL PIPE SUPPORT ENGINEERING DATA RECOM RECOM MAX HGR LOAD SPACLS ING DIMENSIONAL DATA APPRO X WT PER 100 t C 2% 350 11 2 10'/4 3 3%: 4 5 6 8 10 350 350 350 500 500 1100 2000 2000 12 13 14 16 17 19 20 20 2% 2'h 2 34 35(6 3 ' 16 10 % 11'/4 11 3/4 12 7/8 13'/8 16'/8 18'/4 20'/4 12 ' E . MYATT & CO. 5'/8 6% _ 7% TORONTO ONTARI O D 3/4 34 34 H X16 ,(6 3/4 1 1 1 1 1 1 16 '1(6 '/4 '/4 '/4 % % % MATERIAL 1/4 x 1 '/4 '/4 x 1 '/4 '/4 x 1'/4 x 1'/4 '/4 x 1 '/2 '/4 x 1 'h %x2 'h x 2'h 'h X 2'h _ 24 0 24 5 250 31 0 395 43 5 106 0 165 0 1880 Section 1 PIPE ATTACHMENTS Fig . Single 156 Pipe Hoo k Single Pipe Hooks are designed to meet the requirement for a single-fastening, simple wall hook . These steel hooks may be welded to any steel member . Hooks may be obtained to any given specifications . Standard sizes are suggested for your convenience . Material - Carbon Stee l Finish - - Blac k Ordering - Specify pipe size, figure number an d name . SINGLE PIPE HOOK FIG . 156 PIPE SIZE Y2 3A 1 1'/4 1% 5 6 7 8 9 C D 13(6 1% 1 X16 1% 1 X16 1% 1' 16 2 pAP nox WT PER R E P H MATERIAL '(6 X16 716 36 X 36 X 15 18 fib x 1 24 X16 3(6 x 1 30 32 26 65 10 11 12 13 216 2 '% 6 3 '/4 21 6 3% 4 1/8 X16 36x 1'/4 3 3% 100 160 220 X16 ''/ 6 '/4 X 1 '/4 '/4 x 1'/2 45 90 11 0 4 220 14 3 3/4 4% % x 1 '/2 132 ZYs Fig . 50 50 65 65 65 APB DIMENSIONAL DATA 1'146 23f6 2 Fig . 1 56 ENGINEERING DATA RECOM RECOM HGR MAX LOAD, SPACLB ING 2~6 Offset Pipe . Hoo k 157 Offset Pipe Hooks are intended for the support of ligh t duty piping close to walls or beams . The offset provides clearance for couplings and small fittings . Hooks may be obtained to any given specifications . Standard sizes are suggested for your convenience . Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, figure number an d name . FIG. 157 OFFSET PIPE HOO K ENGINEERING DATA PIPE SIZE Fig . 157 RECOM MAX LOAD, LB C D E Y2 3/4 1 25 25 50 5 6 7 13`6 1 3/8 1 36 1 116 1% 1'/4 1 V2 50 50 8 9 1% 1% 1 13% 2 1 2 2Y 50 65 9 9 23f6 236 2746 2 1 5(6 1'/4 3 90 3Ys _ 120 4 120 9 9 9 2% 3% 3'/4 4'/8 : 3 3/4 4% E. MYATT & CO. AP. PROX DIMENSIONAL DATA RECOM HGR SPACING ` 7/8 H 5(6 6 x X 3f6 1 1 Y2 1 '/2 1 1/2 MATERIA L 7/8 7/8 100 R E 100 18 20 716 6X 1 26 28 j6 3{6 x 1 33 35 X16 6 1 )1'8 1 x 1 '/4 '/4 x 1 '/4 '/4 x 1'/2 55 96 12 0 '3i' x 1 Y2 14 0 TORONTO ONTARIO 19 Section 1 PIPE ATTACHMENTS Forged Steel , Drive Hoo k Fig . 159 Forge d Stee l Driv e Hook s affor d a strong , durabl e support fo r vertica l o r horizonta l soi l pipe , o r drai n pipe . The y ar e carefully manufacture d to giv e th e easies t possibl e installatio n i n brick , morta r o r OBSOLET E SE E NEW PRODUCT SECTION size, figure number and FIG . 159 FORGED STEEL DRIVE HOO K PIPE SIZE Fig . 159 A 2 3 3/4 3/4 4 3/4 DIMENSIONAL DATA B 3 '6 5/ 6 1 6 % .—r C APPROX WT PER 100 6'le 58 6% 65 7 % 80 9 1/2 140 Single Hole Pipe Clam p Fig . 160 Singl e Hol e Pip e Clamp s ar e designe d t o secur e pip e or conduit tight against any surface . For heavy duty service see Fig . 162 Page 21 . Material - Carbon stee l Finish - - Blac k Orderin g - Specif y pip e size , figur e numbe r an d name . FIG . 160 PIPE SIZE SINGLE HOLE PIPE CLAM P AP PRO X RECOM HANGER SPACING (FT) C /2 5 1 3/6 3/4 6 1 516 7/8 1 ~6 (6 % 7 1'/i6 1% 716 1 3/4 ~ 1 '/3 1% 2 K6 6 '~6 '/4 '/4 1 IN 1½ 2 Z Y2 3 3' 4 Fig . 160 E. MYATT & CO . 20 DIMENSIONAL DAT A D H MATERIAL 8 9 10 11 12 13 14 TORONTO 22 /7 2% 3'/8 3 3/a 3% ONTARIO 118 x1 1 4 1/8 x 1 V8 x 1 15 x1 6 3 9/16 4'46 4% '/4 1K6 PE R R 100 '/4 1 '/4 1 '/2 x 1 1/2 x 1 Y2 X X 19 25 12 7 35 70 10 0 11 5 13 0 Section 1 PIPE ATTACHMENT S Fig . 161 Soil Pipe Bracke t Soil Pipe Brackets are made to secure soil pipe tigh t against any surface . Allowance is made in the depth of these brackets (dimension 'A') for the hub of th e pipe as shown in the illustration . For steel pipe see Fig . 162 page 21 . ILLUSTRATION 21 A FIG . 161 PIPE SIZE 2 3 4 6 Fig . 16 1 Material - Carbon stee l 1 8 10 12 Finish - - Blac k Ordering - Specify pipe size, figure A SOIL PIPE BRACKET DIMENSIONAL DATA C D H y 4% 5% 7% 9 3/4 11 % 14 1 4 6 33(6 3/4 7'/4 4 9 '/2 6% 11 3/4 14 1/8 _ 2K6 3'6 16% MATERIAL . X6 ~6 6 8 3/4 -i/410'/8 12'/8 '/4 1 '/4 x 1 '/4 , x "/(6 ' 36 13 8 67 12 3 17 9 x , 1 /2 /4 16 W T PER APPROX WT PER 10 0 % x 1 1h %x2 'h x 2 23 4 460 68 6 1158 number and name . Fig . 162 Heavy Duty Pipe Cli p Heavy Duty Pipe Clips are designed to secure stee l pipe tight against any surface . These clips are made from steel and are recommended for use in almos t any circumstances in which a pipe is to be fastene d securely against a steel, wood, or concrete surface . Pip e ('lies may temperature s be obtained in alloy steel for hig h or to special dimensions to your specifications. For soil pipe see Fig . 161 Page 21 . FIG . 162 PIPE SIZE A 3/4 3 Y2 26 2 3/4 3% 3'/8 4 4% 2 Y2 3 Fig . 162 Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, figur e number and name . 5 6 8 10 12 DIMENSIONAL DATA D C H 3'/8 1 1 '/4 1' 1% 11 '/8 2 HEAVY DUTY PIPE CLI P 5 i6 6 1/2 8 1/2 10 S/8 12% 3% 3 3/4 4 '/4 4 3/4 .5 3/4 6 6'/e 7'/4 8'/4 9'/2 11 3/4 14 % 16% 1 '/8 1% 11 6 2 MATERIAL x 1 ' '6 K16 )f6 x 1 27 '/4 2 ~6 32 40 48 '~16 13(6 %x 1 %x2 55 90 10 5 11 5 15 8 18 8 21 5 42 0 63 0 % 'h x2 108 0 2% 3%6 431/6 x 1 '/4 4 i6 5 s/8 6 3/4 x 1 '/2 8 3/4 10'/8 12'/8 APPRO R X WT PEE R 100 E . MYATT & CO. LTD., TORONTO ONTARIO 21 Section 1 PIPE ATTACHMENT S Fig . 170 Offset Pipe Clam p Offset Pipe Clamps are used to support pipe a short distance from any surface . This is a typical standardized design of a "special" item suggested for convenience . Special brackets may be obtained to your specifications . We are pleased to offer suggestions or to supply designs if you so desire . FIG . 170 OFFSET PIPE CLAMP APPRO X PIPE SIZE Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, figur e number, name and any special dimensions . Fig . WT DIMENSIONAL DATA Fig . 17 0 A B E H MATERIAL 2 3~6 6% 9 Y4 D % X 16 '/4 x 1 '/4 2 Y2 3 6'/8 % K6 7 ' %6 9 s/8 1 0 '/2 % 3' 4 5 6 3746 3 3/4 4 4¼ 4 3/4 51'6 8 Y4 10 r/8 % 9% 11 13 12 '/4 14 16 '/2 '/2 Y2 X 16 X16 '16 i6 '/4 x 1 '/4 '/4 x 1 '/4 '/4 x 1 '/4 '/4 x 1 '/2 '/4 x 1 Y2 x 1 1/2 8 616 15'/8 19 Y4 Y2 1j 6 % x 1 1/2 • PE R 100 27 0 2 95 31 5 33 0 41 0 47 0 50 0 880 1,7 2 FOR PIPE SIZES 4"TO12" Fig . 172 Trapeze Saddle Hangers are intended for use where low headroom or interference s do not permit the use of single rod type hangers . Standards are suggested but modified hangers may be obtained to your specifications . FOR PIPE SIZE S 14" TO 24" Material - Carbon steel Finish - - Black Ordering - Specify pipe size, figure number and name . For insulated pipe with Protection Saddle s see page 28 for selection of proper hange r size . (Effective Hanger Size) . ENGINEERING DATA HANGER SIZE r-- RECOM MAX LOAD LB 4 5 6 - 8 10 _ 12 14 280 280 710 1450 2250 3150 3500 16 4400 18 7500 207500 24 7500 22 r TRAPEZE SADDLE HANGER FIG. 172 HGR ROD DIA A Y2 s/8 % 3/4 7/8 '/8 %/e 1 1 1 2 2 2 1/2 2'/2 2 7/8 3 2 1/2 2 1/2 3 3 3 DIMENSIONAL DATA C D E T MATERIAL 7'/2 8 3/4 10 12 % 1S ' 16 3/4 22 24 26 28 30 4% 5% 6 3/4 8 3/4 10 7/8 12 7/8 14 '/8 16'/8 18'/8 20 1/8 24'/8 9 10'/4 1 1 3/4 15'/4 18¼ 19 25 27 29 31 33 - Y4 x 1 '/4 '/4 x 1 / '4 E . MYATT & CO . -~- TORONTO ONTARI O - % x 1 '/2 x 2'/2 % x 2'/2 - %x2 1/2 APPROX WT PER 100 85 10 0 21 0 50 5 93 5 103 5 Y4 Y4 x 3 1205 Y4 % %x3/ '2 1/2 x 3 y2 x 3 Y2 '/2 x 3 '/2 1900 294 0 306 5 3295 3/8 % Section 1 PIPE ATTACHMENTS Fig . 173 Standard Trapeze Hange r Trapeze Hangers are used for the sus pension of pipe where limited head room , piping or structural interference, prevent s the use of a single rod type hanger . Dimension `S' indicates the maximum siz e Pipe Covering Protection Saddle which ca n be contained within the spread of the U Bolt. A f!I 1 / S G+ S I Material - Carbon steel SPECIFY INSULATION THICKNESS TYPE A TYPE B FIG . 173 STANDARD TRAPEZE HANGER ENGINEERING DATA ►I~ SIZE RECOM MAX LOAD ! 750 ` E AT MIN AT MAX LB t LB C 2 2' 9'/2 10 3 3'h 11 12 1700 1560 24 24 4 5 6 12'2 13'/2 14'/2 1560 2040 2600 24 30 36 1220 1200 Fig. 174 665 665 18 18 ' - - RECOM ROD SIZE A MAX B '/2 1 1 780 780 '/2 1'/2 i/2 780 930 1100 '/2 '/2 % MATERIAL TNK S 1'/2 1 '/2 % - min G APPRO X WT K R 10 0 (Am C) 3N6 3" 1‘ l2 x2 x35 0 L2 x2 x'/. 41 0 1'/2 1'/2 2 4 4'/, L2'h x2'/2 x'/, L2 Y2 x2'/2 x'/, 54 5 58 5 1 '/2 1'/2 1% 2'/2 2'/2 3 4'/2 l2'/2 x2 '/2 x' 13 x3 x'/4 l3'/2 x3'2 x'/, 61 0 76 0 1060 '/2 5 6' 16 Finish - - Prime coat corrosion resistant paint . Ordering • Specify pipe size, figur e number, type, name, insu lation thickness and dimension C . Order Pipe Covering Saddles separately . Heavy Duty Trapeze Hange r A I III 3/16" END PLATE S S s+s I .' B TYPE A A `-SPECIFY INSULATION THICKNES S TYPE B Trapeze Hanger Assemblie s are furnished completely welded FIG. 174 PIPE SIZE 4 5 _ 6 8 10 12 14 16 18 20 24 `- SPECIFY INSULATION THICKNESS TYPE C HEAVY DUTY TRAPEZE HANGE R ENGINEERING DATA RECOM RECOM MAX LOAD @ 750° F ROD AT MIN AT MA X SIZE C LB C LB A /4 13 1/2 12 I 1 15 Y4 17 1/4 21 23 24 1/4 26 1/4 28 1h 30 Y2 34 1/2 2020 2020 3230 3230 4830 6730 6730 7500 _8850 8850 8850 54 54 36 36 42 42 42 48 54 54 54 1950 1950 2960 4100 4100 4100 6000 7600 7600 7600 B /2 1/2 1 3/4 1 3/4 2 2 1/2 2 1/2 3 7 7% 8% /8 3/4 7/8 7/8 7/8 2 3 9% 1 2960 DIMENSIONAL DATA MAX INSUL TH K S % S 1 1 1 E . MYATT & CO. _ 2 1/4 2 1/2 2 1/2 2 1/2 2 1/2 2 1/2 21/2 _ 3 3 1/2 3 1/2 3 1/2 3 1/2 3 1/2 3 1/2 B to B OF CHANNELS G 1 11 3/4 13 13 3/4 15 3/4 17 3/4 18 3/4 20 3/4 TORONTO ONTARIO 1 1/2 1 1 1 1/2 2 2 2 2 2 2 2 2 _ _ MATERIAL 3 3 3 3 4 4 4 5 6 6 6 ][ ][ ][ ][ ][ ][ ][ ][ ][ ][ ][ 4 .1 4 .1 4 .1 4 .1 5 .4 5 .4 5 .4 6 .7 8 .2 8 .2 8 .2 APPROX WT PE R 100 (MIN C) 141 5 1650 2025 22251 355 5 4305 447 0 555 0 703 0 744 0 8220 23 Section 1 PIPE ATTACHMENTS Fig . 175 Underground Bell Clam p Underground Bell Clamps are recommended as a safety device to be use d on bell and spigot or mechanical join t cast iron pipe . This added reinforcement is necessary in any case of reversal, stoppage, or change in directio n of flow . Plate washers as shown in the illustration are supplied with each clamp . Clamps in stock are dimensioned to fi t underground pipe with O .D . as shown , but can be supplied to fit special diameter pipes when required . Clamps may be obtained for larger diameter pipe to order . Fig . 175 FIG. 175 NOMI NAL PIPE SIZE 3 4 _ 6 8 10 12 14 16 18 UNDERGROUND BELL CLAM P PIPE O .D. 3 .96 4 .80 6 .90 9 .0 11 .1 13 .2 SPECIFY SPECIFY SPECIFY DIMENSIONAL DATA TIE ROD BOLT DIAMETER DIAMETER 54 5/8 3'E % 5/8 3/4 3/4 3/4 3/4 3/4 3/4 34 3/4 7/8 1 7/8 1 APPROX WT PER MATERIAL 1 44 0 47 5 67 5 106 5 155 0 172 5 197 5 265 0 4900 x 1 1/2 x 1 y2 %x1Y2 %x2 Y/2 x 2 '/2 x 2 ~ x2 Y2 x 2 Y2 %x3 6 3(6 Material - Carbon stee l Finish - - Black Ordering - Specify pipe size, figur e number and name . Note - Specify pipe O .D. fo r sizes over 12" nomina l diameter . (see page 78 ) Underground Clamp Assemblie s 1 /8 BEND SINGLE JOINT PLUG X Fig . 177 Fig . 176 Fig . 17 8 TE E 1 /4 SEND Material - Carbon steel Finish - - Blac k Ordering - Specify pipe size, figur e number and dimension "X" . Note - Specify pipe O .D . for size s over 12" nominal diameter . (see page 78 ) Fig . 179 E . MYATT & CO . 24 TORONTO ONTARI O Fig . 180 Section 1 PIPE ATTACHMENT S Fig . Standard Riser Clam p 182 Standard Riser Clamps are suitable for use on either stee l pipe or soil pipe . The clamp grips the pips tight and form s a solid support . The clamp may be tack welded to steel pip e if desired . Ends may be obtained any length to your specifications . Clamps for special O .D . pipe are available . See Fig . 15OCT Page 15 for use with copper tube . FIG . 182 PIPE SIZE a/4 1 1'/4 Fig . 18 2 STANDAR D B=C 4" Material - Carbon stee l Finish Blac k Ordering - Specify pipe size, figur e number and name . Fig . 1'/s 2 2 %s 3 3V2 4 5 6 8 10 12 STANDARD RISER CLAM P ENGINEERING DATA RECOM MAX LOA D LB D 200 255 255 450 450 450 600 600 810 810 1400 1400 2200 2200 2 700 DIMENSIONAL DATA BOLT SIZE 3h % % 3/8 % 9 1/4 9% 9% 10'/s 10 3,4 10 7/8 11 '/4 12 13 13 '/2 14'/2 15'/2 18½ 20 3/4 22 34 APPROX WT PER 100 MATERIAL 3/8 8GA x 1 8GA x 1 8GA x 1 8GA x 1 '/4 8GA x 1'/4 8GA x 1 '/4 8GA x 1 '/4 8GA x 1 '/4 '/2 '/4 x 1'/2 1/2 1/4 % 3/8 '/2 x 1 1/4 x 2 '/2 % % % 1/4 x 2 %x2 %x2 1/2 x 2 1/2 12 6 12 6 13 2 14 0 14 3 15 3 24 6 26 3 32 5 341 50 1 55 1 98 4 112 1 1641 Heavy Duty Riser Clam p 183 Heavy Duty Riser Clamps are recommended for use with loads not exceeding thos e shown in the data table when B = C = 4 in . The clamp should be tack welded to the pip e or lugs should be welded to the pipe above the clamp to insure positive support . Rise r clamps for special O .D . pipe and to any material specifications may be obtained whe n required . Great care must be used when selecting riser clamps with long ends and heavy loads - please see page 27 . FIG. 183 D Fig . 18 3 HEAV Y B= C=4" Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, figur e number and name . HEAVY DUTY RISER CLAMP PIPE SIZE ENGINEERING DATA RECOM MAX LOAD LB D 2 2 Y2 3 3'/z 4 5 6 8 10 12 14 16 18 20 1200 1200 1200 1200 1200 2200 2 200 2200 3400 3400 3700 3700 3700 3700 E . MYATT & CO . DIMENSIONAL DATA BOL T SIZE 10 3/4 11 12 13 1/2 1/2 '/2 1/2 13½ 14'/2 15½ 18 20 22 23'/4 25'/4 27'/4 29'/4 '/2 L TORONTO ONTARI O % % % 3/4 3/4 3/4 3/4 3/4 3/4 APPROX WT PE R 10 0 MATERIAL % x 1'/2 3/8 x 1 '/2 %x1'/2 % x 1 '/2 % X 1 '/2 %x2 %x2 %x2 1/2 x 2'/2 '/z X 2'/2 %x2Y % x 2'/1 % x 2'/2 5/8 x 2Y2 39 3 40 1 43 3 46 5 51 5 72 5 79 5 120 0 176 0 204 0 272 0 297 5 333 5 355 0 25 Section 1 PIPE ATTACHMENT S Fig . 190 4-Bolt Riser Clam p Fig. 191 6-Bolt Riser Clam p - BOLTS B r - :i: ,- -- ..♦- ~ - r „ Four and Six-Bolt Riser Clamps are designed for the sus pension or support of vertical risers in critical piping systems . Pipe spacers on the inner bolts maintain clearanc e between pipe and clamp to permit radial pipe expansion . Four holding lugs, each welded along three edges to the pipe , carry the pipe load in shear ; these lugs will be furnishe d upon request . Jam nuts on cross-bolts assure positive bolting action during service . Fig . 190 Clamps are made of material 6 inches maximu m width. Fig . 191 Clamps are made of material greater than 6 inche s wide . Material - Carbon Stee l (4) HOLDING LUG S :1' ailal)Ic in alloy material (sec table I l)Cl4i'' ) rime coat corrosion resistant paint . Alloy materials painted yellow for identification. Ordering - Specify (1) pipe O.D. (2) hanger load (3) de sign temperature (4) dimension 'D' or cente r to center of hanger rods . Finish - - Fig . 190 4-Bolt Clam p BOLT B MORE THAN Selection of the proper Riser Clamp will be made by ou r Engineering Department from this data . Method of selection is shown here for your general information . ---~. Fig. 191 6-Bolt Clamp 12" IPS (12-3/4" OD), 8000 lb pipe load 1000°F design temperature . 28-3/4" C to C hanger rods - or - D = 8" (Normally set by insulation an d clearance requirements .) From Table I, the recommended material for 1000 0 F Temp. is 1-1/4 Cr, 1/2 Mo and th e LCF = 1 .5 for this material . Pipe Load X Load Corr Factor (LCF, Table I) = Corrected Load . 8,000 lb x 1 .5 = 12,000 lb Hanger rod cantilever " D" , if not supplied, is determined from the hanger rod C to C dimension . D = C to C - Actual Pipe OD = 28-3/4" - 12-3/4", 2 2 See Chart on page 27 and locate the point determined by intersection of the Corrected Load , 12,000 lb (use Gray figures for this load) and the 12" pipe size diagonal line . Project this point horizontally until the "D" dimension (8") is reached . The required clamp lies in the 1-1/4" x 6" material area . It is a Fig . 190 4-Bolt Clamp . Bolt sizes, rod clearance space (5), and recommended hanger rod sizes are listed in Table II . Example : Given (a) (b) (c) (d) (e) TABLE I - LOAD CORRECTION FACTOR = LC F MATERIAL SPEC AISI DESIGN TEMPERATURE °F (PREFERRED CLAMP MATERIALS ARE SHOWN IN BOLD FACE TYPE ) ASTM A36 4140 A332 1 '/4 Cr '/2 Mo A387(71 ) 2'/4 Cr 1 Mo A387 (22) STAINLESS STL TYPE 316 650 700 750 800 850 .80 .85 .93 1 .2 .8 --.8 ' .8 -.8 1 .5 .85 .84 .84 .84 900 950 1000 1050 1100 , .92 .92 .92 .85 1 .10 1 .10 1 .10 .87 1 .60 1 .50 1 .50 .89 2 .40 2 .20 2 .20 .92 1150 1200 - - - - - 3 .00 2 .90 .96 4 .8 4 .0 1 .5 10 . 0 6 .0 2 .4 TABLE II - BOLT SIZES AND RECOMMENDED HANGER ROD SIZ E ACTUAL TOTAL PIPE LOAD LB BOLT B BOLT C SPACES RECOM HGR ROD SIZE ~r..~ 26 700 1200 2250 3400 )/2 % 3/4 6500 8500 9800 12500 1 1 )/8 1 Y4 1% 1 1 3/4 1 '/g 3/4 3/4 p % 1 1 1 '/2 4 '/4 1 '/2 7/s ~/8 1 '/2 1 'l8 1 1 3/4 E. MYATT & CO . LTD., TORONTO ONTARI O 16000 1 1 1/2 2 1¼ 23250 1 3/4 1 2¼ 1 1/2 30000 2 1 '/4 1 3/4 45000 2 Y2 1 '/4 3 2'/4 6500 0 2 34 1 '/4 3 1/4 2'/2% Section 1 PIPE ATTACHMENT S Riser Clamp Selection Char t 7 "D" (inches) 4 9 10 15 20 2 5 3 0 !UuIHhIIUUAIHhII1IIIIA1P► Iii3 ax12":1111111111SINIII11011111111111F ~~~~:,~n ~~c~~~~~~~,nmi, 1 :de iii :411nnn1111i:Il.11e' ► . !i:iO%/~' ihusn mmmi gisIppoiro, w A 4 x Illprn' ►~l ~~~~►' Ill x 4 iIIi!!1I iph i !!iIlIII , _ a 5 , b '!UI~'~Illi:~ Ili:~l l~llil:r ~ --imeRlanommasainunindia.m. AWAIMPEP;SO . ARWA rw K.0510' fFE'r4PB'droied0i I AP.rMAO: .2/R' ADIM''eir/ARel i g /,IWA7/MrX" 11 Nb.lqeil! NI AWA.'6:WAI A /2'4 n AAM 111111ILL ::;I.. 0 .3 0 .4 j 0 .5 0 .6 0 .7 0 .80 .91 .0 1 .5 2 .0 2 .5 3 . 0 CORRECTED LOADS (kips ) Caution : Use BLACK figures for Corrected loads up to 3000 lb . Use WHITE figures for Corrected loads above 3000 lb . I E . MYATT & CO . LTD) ., TORONTO ONTARI O I Kip . 1000 l b 27 Section 2 SADDLES and ROLL SUPPORT S Figs . 210-240 Pipe Covering Protection Saddle s FOR 10IN . PIPE AND SMALLER FOR 12 IN . PIPE AND LARGE R Covering Protection Saddles should be used on all insulated pipe in which the temperatur e exceeds 150°F . All Saddles are 12 inches long and subtend an angle of 60° at the pipe center . Plain edge saddles will be supplied unless otherwise specified . Saddles are also available for special O .D . pipe and for non-standard covering thickness . Saddl e Coverin g Fig Nos . Thk (in ) For selection of proper hanger size see EFFECTIVE HANGER SIZE below an d the hanger selection chart on pages 2 9 Land 210 215 220 225 230 235 240 30 . 1 1-1/2 2 2-1/2 3 3-1/2 4 Material - Carbon stee l :1IIO saddles are ~ ► N ail able for temperatur e over 750” 1~ . Finish - - 'rime coat corrosio n resistant paint . Ordering - Specify bare pipe size , figure number and name . Order Saddles and han gers separately . EXPLANATION OF EFFECTIVE HANGER SIZ E The support of insulated pipe when Pipe Covering Protection Saddles are used requires carefu l consideration . The covering outside diameter is in effect the "pipe size" to be supported (see illustrations) . The hanger size required for this Effective Pipe Size is called the Effective Hanger Size . The selection of Effective Hanger Sizes (EHS) is made on the basis of : (a) standard practice , (b) economy, and (c) availability . The data table on pages 29 and 30 lists Effective Hanger Size s for most standard type hangers and covering thicknesses'with proper consideration made for al l these factors . EXAMPLE Fifty Trapeze Roller Hangers and Protection Saddles for 6" pipe with 2" thick insulation would be ordered as follows : 50 - 6" Fig . 220 Pipe Covering Saddles (from page 28 Fig . 220 indicates 2" cover ) 50 - 10" Fig . 261 Trapeze Roller Hangers (size selected from page 30 ) FIG . 255 , 261-262 LONG ROLL TYPES FIG . 258 YOKE TYP E LONG ROLL ' COVERING O.D . ~. f „, FIG . 256-26 4 265-266 SHORT ROLL TYPES j .,~`,+ . I •. COVERING --a . O.D. COVERING O .D . .. r, . NON-ROLL TYPE S 1 i' `•` .1 f . Irk Lf ILLUSTRATION 28A ILLUSTRATION 285 ILLUSTRATION 28 C E . MYATT & CO . LTD ., TORONTO ONTARI O 28 ILLUSTRATION 28 D Section 2 SADDLES and ROLL SUPPORT S Pipe Covering Protection Saddles Hanger Selection for use with Protection Saddle s EFFECTIVE HANGER SIZE (EHS ) SADDLE ENGINEERING DATA NOMINAL PIPE SIZE (IPS) 3/4 1 1'/4 1'1 2 SADDLE FIGURE COVG TNK RECOM MAX LOAD LB (FOR SERV TEMP NUMBER (IN) 750°F) 210 215 220 225 210 215 220 225 210 215 220 225 1 '/2 2 2'/2 1 1'/2 2 2'/2 1 1/2 2 1 1 2 210 1 230 235 100 0 '/2 000 000 2'/2 /2 2 2'h 3 3'/2 100 0 210 Z /z 3 3'/: 4 5 215 220 225 230 235 210 215 220 225 230 235 210 215 220 225 230 235 210 215 220 225 230 235 240 210 215 220 225 230 235 240 1 1/2 2 2 1/2 3 3 'h 1 1'/2 2 2'/2 3 3 1/2 1 /2 2 2'/2 3 3'/2 1 1 '/2 2 2'/2 3 3'/2 4 1 1 '/2 2 2 '/2 3 3'/2 4 FIG. 258 YOKE TYPE LONG ROLL E 2500 2500 2500 2500 2500 ENS FIG . 2SS 261-262 LONG ROLL TYPES I D ENS 1 S%e 2'/a 2 S%e 3'/e 1'3'6 2 16 2' ;6 35 6 1' 16 2756 2% 3756 2'/2 3'/2 5 6 3 4 5 6 3 5 6 2 3/e 3 3 S% e 4'/e 2 146 2 ~6 3 '46 3%6 2316 2'~6 3 316 3'356 4356 4 1 K6 4 5 6 2 S%e 3'/e 3% 3 8 4% 216 34 1 6 3%6 4146 4'16 5'46 _ 2 7/e 3% 37/e 4% 4~/e 5% 3'/e 3% 4'/8 4% 5'/8 5% 3'56 3% 4746 4 1'6 5'56 5% 6746 1 2'/2 210 215 220 225 215 220 225 000 Hanger Size Selectio n 5 7/ 6 5116 6 6 6 1 34 4 2 1/a 2% 3'/4 3 3/4 2'/4 2 3/4 3 3/8 FIG . 256-244 265.266 SHORT ROLL TYPES _ ENS s C t fr NON ROIL TYPES -• ONLY , 15 5 22 0 28 0 35 0 16 2 22 7 29 0 35 5 17 0 23 7 30 0 36 5 17 5 24 0 30 5 37 0 18 5 25 0 31 4 38 0 6 3 '/2 . 3'/2 1 1/2 . 3'/2 1 '/2 . 3 '/2 1 /2 - 3 1/2 1'/2- 3'/2 1 /2 - 3'/2 4 6 '/2 - 3 '/2 1 '/2 - 3'/2 1'/2 - 3'/2 4 - 6 /2 - 3'/2 1 '/2 - 3'/2 4- 6 4 - 6 2 36 2 3/4 3'/4 3 3/4 2 3/8 2'/a 3 3/a 3 3/4 2 '/2 3 3% 4'/e 2 3/4 3'/4 3 3/4 4'/4 3 4 5 6 3 4 5 6 3 5 6 6 4 5 6 8 4 5 6 8 35 3 3'/2 5 6 3'/2 5 '/2 - 10° {SADDLE , sus 2 2% 3'/, 3 3/4 2 V4 2 3/4 3 3/e 3'/a 2% 3 3 S% e 4¼ 2'/2 3 '/8 3% 4'/4 2 3 4 5 2 '/2 3 4 X ►P'RO X VT PE R 4 2 3/4 3% 3'/2 4 2 3/4 3 3/8 1 Y- 3'/2 5 6 8 4 4'/2 5 6 3'/8 4'/2 4 6 4 •6 2'/a 3 3/e 3 7/a 4'/2 8 5'/e 8 10 5 S% e 8 5'/8 5 3/4 4 8 . 6 -10 5 5 3/4 8 10 44 5 51 0 5 3'/8 3'/2 3' /8 1 '/2 . 3' /2 6 8 8 3 3/4 4'/4 4 2/8 5 6 8 3 3/4 4'/4 4 2/8 1 '/2- 3 '/2 3'/4 3% 5 6 19 2 26 2 4 6 4 6 4' 4 3/4 8 8 36 0 39 0 10 5'/2 8 5 3/8 8 -10 5 3/8 10 45 8 10 5 6 8 8 10 10 6 8 8 10 10 12 6 8 8 10 10 12 12 8 8 10 10 12 12 14 6 3' /2 4 4% 5'/4 5 3/4 6'/4 3 3/4 4% 4'/8 5'/2 6 6% 4 4% 5'/4 5 3/4 6% 6'/e 7% 4 3/4 5% 5'/8 6% 6'/8 7% 8'/4 10 4 5 6 8 8 10 5 6 8 8 10 10 5 6 8 8 10 10 12 6 8 8 10 10 12 12 6 3 3/8 4 411/1 6 5'/4 5 3/4 6'/4 3 3/4 4 3/a 4'/8 5'/2 6 6% 4'/e 4% 5'/4 5 3/4 6% 6'/e 7% 4% 5 3/8 5'/8 6 3/8 7 7% 8 8 1 '/2 4 4 4 8 8 4 4 4 8 8 8 4 4 4 8 8 8 8 4 4 8 8 8 8 12 -10 . 3'/2 . 6 6 . 6 -10 -10 6 - 6 -6 -10 -10 -10 -6 . 6 . 6 -10 -10 -10 -10 .6 6 -10 -10 -10 -10 -14 6 3'/2 4 4% 5 5 3/4 6¼ 3 7/e 4% 4'/8 5'/2 6 6'/2 4 4'/2 5 5 3/4 6'/4 6'/8 7% 4'/2 5'/8 5 3/4 6% 6'/e 7% 7 7/a 10 5 6 8 8 10 10 6 8 8 10 10 12 6 8 8 10 10 12 12 8 8 10 10 12 12 14 52 0 21 0 27 5 33 6 405' 47 0 53 5 22 3 28 8 35 0 41 5 48 0 55 0 35 0 45 0 54 5 64 5 74 0 83 5 93 5 38 8 48 5 58 0 68 0 77 5 87 0 975 1 '/2 . 3'/2 *Do not use this column for items which require clamping action . Special sizes to exact coverin g O .D . are required . E . MYATT & CO . TORONTO ONTARIO 29 Section 2 SADDLES and ROLL SUPPORT S Pipe NOMINAL PIPE fl=E (IPS) 6 8 10 12 14 16 18 20 24 Covering Protection Saddles Hangar Selection for use with Protection Saddle s SADDLE ENGINEERING DATA mom SADDLE FIGURE NUMRER 210 215 220 225 230 235 240 215 220 225 230 235 240 215 220 225 230 235 240 215 ~ MAX LOAD LL COYG (FOR SEIM TNK TEMP (IN) 750°F) 1 1 1/2 2 2'14 3 3'h 4 1 1/2 2 2'h 3 3'h 4 1'h 2 2'h 3 3'h 4 1 1/2 220 2 225 230 235 240 215 220 225 230 235 240 215 220 225 230 235 240 215 220 225 230 235 240 215 220 225 230 235 240 215 220 225 230 235 240 . 2 Y2 3 3'h 4 1'h 2 2 1h 3 3 1/2 4 1 1/2 2 2 1/2 3 3 1/2 4 1 '/2 2 2% 3 3 1/2 4 1% 2 2'/2 3 3 1/2 4 1 1/2 2 2'/2 3 3 1h 4 3000 E 4'/2 5 5 1/2 6 6% 7 1/2 6 6'/2 7 7 1h 8 8 Y2 7446 6000 7j' 83(6 8% 9)(6 916 8 144 8% 6000 7500 7500 7500 7500 7500 EFFECTIVE HANGER SIZE (EHS) FIG . 25$ YOKE TYPE LONG ROLL 7 3000 Hanger Size Selectio n 1 9 /8 9% 10 1/8 10% 8% 9'/4 9 3/4 10% 10% 11 1/4 9 3/4 10% 103/4 11 1/4 11 3/4 12% 10 3/4 11 1/ 113/4 12 1/4 12% 13'/4 11 3/4 12 1/4 12 34 13 1/4 13 34 14 1/4 13 34 14 1/4 14 3/4 15'/4 15 3/4 16Y4 ENS 8 10 10 12 12 14 16 12 12 14 16 16 18 14 16 16 18 18 20 16 18 18 20 20 24 18 18 20 20 24 24 20 20 24 24 24 24 ~ 24 24 24 24 — — 24 24 — — -— - -— — -- FIG. lib 261-262 LONG ROLL MG► 256-2M 265-266 SHORT ROIL D EHS C 5% 5'/s 6% 7 7% 8% 8 8 10 10 12 12 14 10 12 12 14 16 16 12 14 16 16 16 .18 16 16 16 18 20 20 16 16 18 20 20 20 18 20 20 20 24 24 20 20 24 24 24 24 24 24 24 24 30 30 30 30 30 30 30 30 5% 5'/e 6 1/2 7 7% 8 1/s 8'/s 7 Y2 8 7 7 1/2 8% 8 2/4 9% 9 7/. 8'4 84 9% 94 10% 11 9'h 9% 10% 11' 11 3/4 12% 10'/8 10 /2 11'/8 11 3/4 12% 13 1/8 11 1/8 11 3/4 12 1/2 13 1/8 13% 14 1/4 12% 13 13% 14% — — — — —' -— — — -— — — 81/s 9 y4 9% 8% 9 9% 10 10% 11% 9'/2 10 1/e 10% 11'/4 11 3/4 12'/4 10% 10 7/8 11 1/4 11 3/4 12% 12% 11% 11 3/4 12% 13% 13% 14% 12% 12'/8 13% 14% 14% 15'/4 13% 14 1/4 14''/8 15% 16 16% 16 16 1/2 17'/4 17 3/4 18% 18% s ENS R NON- APPROX ROLL 1NT R 100 TYPES (SADDLE S ENSJ ONLY ) 6% 7 7'h 8 8 1h 6% 8 10 10 12 12 14 16 12 7'/2 12 8 14 42 4 520 62 0 71 5 81 0 91 0 100 0 58 5 68 5 78 5 -14 8 1/2 16 880 12 16 12 12 12 16 16 16 12 16 -14 -70 -14 -14 -14 -20 -20 -20 -14 -20 9'/8 9 3/4 16 975 8 1/4 82 9% 10 10'/2 11 9% 9'/8 18 14 16 16 18 18 20 107 3 755 88 5 100 0 114 0 1270 1400 16 16 -20 -20 10% 11 16 16 -20 -20 11 1/2 12 16 -20 10'/4 16 16 16 16 22 16 16 16 22 22 22 16 22 22 22 22 26 22 22 22 26 26 26 26 26 26 26 26 26 -20 -20 -20 -20 -24 -20 -20 -20 -24 -24 -24 -20 -24 -24 -24 -24 -30 -24 -24 -24 -30 -30 -30 -30 -30 -30 -30 -30 -30 10% 11 14 11 12 12~% e 11 1/4 11 3/4 12% 12 34 13'/4 13% 8 12% 12% s 13% 13'/8 14% 15% 13% 13% % 14 1/4 15 1/8 15% 16% 15% 16% 16% 17% 17% 18 1/4 4 8 8 8 8 12 12 8 8 12 6 -10 -10 -10 -10 -14 -14 -10 -10 - T4 5 1/s 12 16 82 0 18 18 950 1440 20 161 0 20 1780 22 196 1 18 860 18 990 20 1500 20 1660 22 1840 22 2000 20 92 5 20 1060 22 158 0 22 1750 24 193 0 24 210 0 22 99 0 112 0 22 24 168 0 24 185 0 30 202 0 30 218 0 24 1060 24 1190 30 1760 30 1940 30 210 0 30 228 0 30 ' 1200 30 132 0 30 195 0 30 215 0 36 229 0 36 2460 *Do not use this column for items which require clamping action . Special sizes to exact coverin g O .D. are required . E . MYATT & CO . 30 , TORONTO ONTARIO Section 2 SADDLES and ROLL SUPPORTS Insulation Shiel d Fig . 251 BARE PIP E Material - Carbon steel . Finish - - Prime coat of corrosion resistant paint . Ordering - Specify bare pipe size, figur e number and name . Note - - - Fig. 251 is for 1" covering only . See illustration 31A be low for other covering thicknesses . INSULATIO N VAPOU R Order hangers separately FIG . 25 1 Fig. 25 1 Insulation shields distribute piping loads ove r sufficient area of the insulation to preven t the crushing and loss of effectiveness of th e insulation. NOMINAL Y2 34 1 1'/4 Shields are primarily intended for low temperature or dual temperature service, usually in conjunction with continuous vapour barriers . They eliminate direct metal contac t with the piping which in addition to preventin g "frosting" and water damage to insulatio n substantially reduces pump vibration and noise transmission . Shield is cemented to covering at installation to maintain proper location . Fig . 251S INSULATION SHIELD BARE PIPE SIZE (IPS) . 2 2Si 3 3!6 4 5 6 8 10 12 ACTUAL OD .840 1 .050 1 .315 L660 1 .900 2 .375 2 .875 3 .500 4 .000 4 .500 5.563 6.625 8 .625 10 .750 12 .750 STANDARD SHIELD FO R 1 " THK INSULATION REQUIRE D INHANGER SULA APPRO X SIZE TION WT PER OD MATERIAL 100 26 20g x 4 16 2 1/2 3 3 1/4 3% 3 '4 4% 4 is 5/2 6 6 1h 20g x 4 20g x 4 20g x 4 20g x 6 20g x 6 16g x 8 16gx 8 16g x 8 16g x 8 16g x 8 7% 8% - 16g x 8 10 % 14g x 10 14g x 10 12 ~i 14% _ 14g x 10 _ 18 20 22 35 40 90 100 110 130 160 180 350 425 480 2/ 3 3 31, 4 4 5 5 6 6 8 8 10 12 16 Special Insulation Shiel d Special Insulation Shields are available for any covering thickness and to any material specifications . When ordering specify bare pipe size and covering thickness or pipe covering O .D. (see illustration .31A) . Specify required material size. To select proper hanger size for insulated pipe using Insulation Shields treat the insulation O .D. as the pipe size to be supported and select th e nearest standard hanger size. ILLUSTRATION 31A Order hangers separately . E . MYATT & CO. LTD ., TORONTO ONTARIO 31 Section 2 SADDLES and ROLL SUPPORT S Fig . 255 Long Pipe Rol l FIG . 255 Fig. 25 5 ROLL SIZE Long Pipe Rolls are made to dimension 'F' i n length - the outside diameter of the pipe plus a minimum clearance . The clearance hole is for axle diameter 'H' . For insulated pipe with Protection Saddle s see page 28 for selection of proper roll size . DIMENSIONAL DATA AXLE G H F 1 /2-2 2-3 21 (6 41(6 4 3/4 5 7/8 6 7/8 3%2-4 5 6 Material - Cast iro n Finish - - Black Ordering - Specify roll size, figure numbe r and name . LONG PIPE ROL L 8 8'/8 10 12 16 18 11 12 3/4 14 1/4 163(6 18(6 20 20 % 24 24 % 30 30 % 14 V APPRO X WT PER 10 0 1 716 1% 2 Y2 1 T16 44 1/z 1% % 66 100 2% % 2~6 2 3/4 3% 3 7/8 3/4 % '/a 7/8 1 1/8 1 1/4 1 Y4 1 Y4 1 1/2 1 1/2 1 (6 1 3/4 1 '/8 1 Y2 1% 2 2 1/2 2 1 5(6 3 3/4 41(6 3% 4% 4% 4 3/4 5 3/4 6 3/4 6% 9 14 0 20 6 28 8 60 0 95 0 154 0 164 5 280 0 400 0 435 0 10200 Short pipe Rol l Fig . 256 Short Pipe Rolls are made to dimension 'F' in length to meet space requirements where necessary . The clearance hole is for axle of diamete r 'H' Fig. 256 Material - Cast iron Finish - - Black Ordering - Specify roll size, figure number and name . SHORT PIPE ROLL FIG . 256 SIZE 1 1/2 " - 42 " ROLL SIZE 1 - 3 V2 4 - 6 8 -1 0 For insulated pipe with Protection Saddle s Lsee page 28 for selection of proper roll size . 32 E . MYATT & CO. 12 16 -1 4 -20 22 -2 4 26 -30 36 -42 F 2 3I4 3 3/4 6 8 9 10 121/2 12 3/4 DIMENSIONAL DATA AXLE G H V X APPRO X WT PER 100 Y/2 Y2 3/4 7/a 1 Y8 1 % 1 3/4 1 3/4 2% 3% 5% 7% 8 Y2 91 / 11 7/8 12 70 11 0 44 0 850 12 7 0 145 0 240 0 370 0 1 MI 2'/8 31 / 4 41/2 41/2 5 1/2 5 3/4 TORONTO ONTARI O 1 K6 1 Y8 1X 6 1% 2 1/4 2 3/4 3 1/2 3% Section 2 SADDLES and ROLL SUPPORT S Fig . 258 Standard Roller Hange r Standard Roller Hangers are recommended as genera l purpose roller hangers . The single hanger rod offer s economy and ease of installation . Adequate visible adjustment is possible after the hanger is in place . The yoke is steel - for strength . The hanger may be locked into position by using an additional nut on the hanger rod as illustrated . Order nut s Fig . 258 and rod separately . For insulated pipe we recommend the use of Pipe Covering Protection Saddles, page 28, to provide continuous insulation and reduce heat losses . Material - Carbon steel (only the roll is cast iron ) Finish - - Black Ordering - Specify hanger size, figure number an d name . L FIG. 258 3/4 1 225 225 225 280 1'/4 1 1/2 2 2 1/2 3 4 5 6 8 10 _ DIMENSIONAL DAT A APPROX WT PER 10 0 C D 3'/2 3 1/1 3 Y2 4% 4% 6% 6% 7 '/2 Y2 2'/2 Y2 1 11/8 1 Y4 1 1/2 1 3/4 2 Ye 2% 2 3/4 E Y2 J K 2'/8 2'/8 2'/8 3'/4 3 1/4 4'l4 41/ 5'/8 5 1/8 6'/4 7 1/4 9 1/4 3% 3% 3% 4% 4% 6 6 7 7 8'/4 9 3l4 12 1/16 x 1 1/4 3 6 x1Y4 36 x 1 Y4 16 X 1 '/4 / T16x 1 Y4 1/4 x 1'/4 150 15 0 150 150 150 250 1/4X1 1/4 6 x 1 1/2 250 3j6 x 1 Y2 (6 x1½ %x2 %x2 440 440 52 5 900 121 0 11 1/4 13 1/4 14 1/4 16% 1/2 X 2 1/2 x 2 2400_ MATERIAL 475 7 8 9 10 11 12 475 13 % 2 1/2 3 475 685 685 780 780 14 16 17 19 22 % % 3 3 '/2 3 3 3/4 7'/2 8 3/4 3/4 4'I4 51/ 6 3/4 4 '/4 5'/8 6% 10'/4 13 15 34 965 23 71/4 7% 17% 8 1/2 8 1/4 1 1/8 14 3/4 3600 16 3/4 18 '/2 20'/2 1/2 x 2 1/2 1'/4 1/x 3 485 0 1'/4 18 3/4 221/ %x3 6800 1 Y4 1'/2 21 25 1/4 25 1/2 30 s/8 x 3 % x4 833 5 11665 280 3 1/2 12 STANDARD ROLLER HANGE R ENGINEERING DATA RECOM HANGER RECOM HANGER ROD ROD MAX SPACING SIZE TAKE-OUT LOAD LB (FT) A B 225 7 Y2 1 1/4 HANGER SIZE For insulated pipe with Protection Saddle s see page 28 for selection o f proper hange r size . (Effective Hanger Size) . '/2 1/2 7/8 7/8 7/s 1Y4 1 1/8 1 3/4 1 3/4 14 1200 25 1 16 1200 27 1'/8 10 18 1400 28 1'/8 10% 11 19 1/2 22 '/2 24 1/8 20 1400 30 1 1/8 24 2100 32 1'/8 11 '/2 14 1/8 12 1/8 14 1/4 25 1/8 31 9'/2 E . MYATT & CO. Y2 '/2 Y2 1/2 Y2 Y2 S/8 % % 34 %/s 7/8 7/s _ 1900 TORONTO ONTARI O 33 Section 2 SADDLES and ROLL SUPPORT S Fig . 261 Trapeze Roller Hange r Trapeze Roller Hangers are recommended for th e suspension of bare or insulated pipe where longitudinal expansion may occur . Any required adjustment may be obtained by supplyin g a sufficiently long thread on the supporting rods . Adjustment to correct sagging and to assure equal distribution of load on a series of hangers may be made b y turning the nut under the adjustable sockets . The socket clearance hole is for maximum rod diamFig . 26 1 eter 'A' . Rods of smaller diameter may be used fo r some applications . See page 35 for other applications . See page 69 for Spring Cushion application . Material - Long type cast iron rol l Cast iron sockets Carbon steel axl e Finish - - Black Ordering - Specify hanger size, figure number an d name . Order vertical hanger rods and nut s separately . For insulated pipe with Protection Saddles see page 28 for selection o f proper hanger size . (Effective Hange r Size) FIG . 261 TRAPEZE ROLLER HANGER DIMENSIONAL DATA ENGINEERING DATA HANGER RECOM sin MAX LOAD Le A B J 1 1'/4 600 600 '/2 1 '/8 Y2 1'/4 1% 600 '/2 2 600 'h 1 ~/2 3% 3% 4 3/4 1 3/4 4 3/4 1'/a 1 7k 2% 2'3 6 2 %2 660 '/2 2'/8 5 3/4 3 3' 4 5 700 750 750 750 Y % % % 2% 3 3 3/4 534/ 6 3/4 6~ 7 3/4 43(6 3/4 4'/4 9 3A 6'h 8 1070 13 50 1O 1730 '/8 '/8 5'/8 6% 12'/4 14'/2 8 7/s 11 12 2400 7h 7 3X8 16'/4 14 16 18 3130 3970 4200 1 1 1 8 1/4 18 % 20 1/2 22 3/4 20 24 30 4550 6160 7290 1 1'/2 1 Y2 24 7/s 29 34'/8 6 2 3/4 9'/2 11 12' 14'/4 17'/4 E . MYATT & CO . 34 F N 0 APPROX WT PER 100 R '/2 % 5 Ys 15 0 '/2 % 5% 15 0 'h % 140 'h 6 Y4 6 y4 7'/4 7 1/4 170 4146 4 3/4 '/2 % % % % 3/4 4 3/4 5'/s % 3/4 34 8% 8% 140 170 • 260 260 9% 300 11(6 11',4 500 '/8 '/8 1 '/8 1 'ti 14 % 16 3/4 80 1050 12 3/4 '/8 1 '/8 18 3/4 1525 14'/4 16)(6 183(6 1 Y8 1 '/4 1'/4 1 3/4 1 3/4 1 3/4 21 '/4 23 25 276 0 2970 432 0 20 % 24% 30% 1 Y4 1 Y2 1 Y2 1 3/4 1 314 1 3/4 27 1/4 33 38 3/4 560 0 720 0 12800 % TORONTO ONTARI O Section 2 SADDLES and ROLL SUPPORTS Fig . 262 Adjustable Roll Support Adjustable Roll Supports are recommended for the sup port of piping from below when liberal adjustment i s required . They are supplied complete, as shown, with the roll support, two all-thread rods, and eight nuts . Supporting steel may be brackets, auxiliary steel, o r any structural member . Recommended maximum loads are for C maximum . A s C is reduced, the load carrying capacity increase s rapidly . See Fig. 261 Page 34 for Trapeze Rolle r Hanger and additional dimensions . Fig . 262 FIG. 262 Material - Long type cast iron roll Cast iron sockets Carbon steel axle Carbon steel rod s fish - - Blac k Ordering - Specify hanger size , figure number and name . r For insulated pipe with Proion Saddles see page 28 for selection of proper hange r size. (Effective Hanger Size) HANG• ER SIZI 1 ADJUSTABLE ROLL SUPPORT ENOMMEIZING DATA RECOM ` I MAX Leas Li DIMENSIONAL DAT A D • 320 O 1/2 'I/2 1% 1 V4 320 I !/ 1 1 V2 320 1''h 2 320 134 2350% 2% 350 i % 2% 3 750 ; % 224 4 750 % 3 S 750 % 334 6 1070 3A ` 4 i 8 1350 6 S% ; 10 1730 % 6% . 12 2200 '/1 7% 14 2670 1 8% 16 2670 1 18 20 24 3000 3000 6000 1% 1% 1% MIN 2 Sri 2% 3'h 3% 3 34 4 434 .5 534 d34 7'6 MAX f I MIN MAX 8' 134 8'/4 1 % 8'h 1 % 834 1% 91 1 % 9% 1% 934 2 10 2 1014 2 11% . 2'h 13% 2 / 7 7 7 7 7 7 7 7 7 7% 8 91,,x14% 2/4 10% . 15% 2% 11 % 17% ;3-% 9% 12 % - C 19 3% 11 14% , 22' 3 •'h 12 % 15% :23%j3'% 14 % 1816,29 4•'h 8 8 9'h 9'/i 11 '/4 11'/% . 14 3 F 1% 1 'j 2% 2% 4f N 434 'h 'h 'h 'h 'h 'h % 434 % Skis 6% 8% 11 12 >4 14'/% 163% 1834 20 % 24 4 J X 3 %' 4%! 434 5 Sri 5% : ;l 9h ' 9% 9% . 6%_10 734 10 34 9%' 1I 7/ 12'/4 12 % 14 Y2112 4 16'/4 12 1' 4 18 % 14 1 1/4 20' 14 1 '/4 2234 16 1'%4 24 6 16 1'/2 . 29 20 % 11E1a 2 1â'> : 63i' 10 11MT 11L~ 3 111, 9 gNIOIE ' 27S 2 ' 2~ 25 ; .1173 4'!3 51 $ 83.5 1370 1550 1 2030 3500 3730 5670 6900 10100 TYPICAL ASSEMBLIE S Trapeze Roller Hangers may be modified to solve many pipe hangin g problems. Typical applications ar e Avoiding interferences Maintaining severe line grade s Hanging multiple line s We are pleased to review your piping problems with you and to offe r suggestions or supply designs if you so desire . ILLUSTRATION 33A ILLUSTRATION 35$ E. MYATT & CO. TORONTO ONTARI O 35 Section 2 SADDLES and ROLL SUPPORT S Fig . 264 Standard Pipe Roll Chai r Standard Pipe Roll Chairs are recommended fo r use where vertical adjustment is not required . These compact Chairs provide a firm and economical rolling support for horizontal pipes subjec t to longitudinal expansion . Two holes are provide d for bolting, or the steel base may be welded directl y to the supporting steel . Roll Chairs for 16 inch pipe and larger are reinforced with steel gusset plates . Fig . 264 Material - Carbon steel (only the roll is cas t iron ) Finish - - Blac k Ordering - Specify hanger size, figure numbe r and name . 8 For insulated pipe with Protectio n Saddles see page 28 for selectio n of proper hanger size . (Effectiv e Hanger Size ) A REINFORCED WITH GUSSET PLATES THK "T" FOR PIP E SIZES 16 INCH AND LARGER See Fig . 266 Page 38 for Adjustable Steel Pip e Roll Stand STANDARD PIPE ROLL CHAI R FIG. 264 DIMENSIONAL DAT A ENGINEERING DATA HANGER SIZE 1 '/2 2 2 1/2 3 3'/2 4 5 6 8 10 12 14 16 18 20 24 30 RECOM MAX LOAD LBS 3 90 950 2100 3075 4980 6100 7500 FROM PIPE CENTERLINE _ TO BTM TO ROLL PLATE CENTER A B 3 1/4 3 1/2 3 7/8 4 1/8 4% 4% 5K6 6 %6 11 ' 816 91 6 113/a 12 13% 14 % 15% 17 3/4 21 7/8 1 1/2 1 3/4 2 1/8 2% 2% 2 3/4 3% 4 5613/84 7 ~/~ 8 /8 9% 10 % 11 % 13 % 16 3/4 APPRO X WT PE R 100 C D F G H .1 K T 1 3/4 3 7~66 2 3/4 1 7/8 1/2 1% ~6 -- '/4 x 2 21 5 2%a 41%6 3 3/4 2 1/8 Y2 2 1 %6 _ % x 2'/2 41 0 3 %46 61 16 6 3 1/4 3/4 4 7'16 - %x3 1060 3 7/s 9316 8 4 '/8 5 3/4 1 %6 1/2 x 4 213 0 4 1/q 10%6 9 4 1/2 1 1/8 6 3I4 1 1/2 X 4 2895 4 3/8 5'/e 11 1 10 41/2 ® 5'/2 1 3/8 1 3/a 7 1/2 1'6 3/4 x 4 421 5 6 E . MYATT & CO . 36 TORONTO ONTARI O (6 1/4 MATERIA L Section SADDLES Fig . Steel 265 Pipe Roll and ROLL 2 SUPPORT S Stan d Steel Pipe Stands Roll are made to manufac- turers' dimensional standards . A standard pattern of bolt holes is provided to permit bolting to a bracket or concrete pier . The steel base may be welded directly to the supporting stee l if desired . More base bearing area is provided for use on concrete than with the Fig . 264 Roll Chair . The two bolt holes on the centerline of the uni t are on the outside of the upright plates for Fig . 265 6 inch pipe size and smaller . t Material - Cast iron roll Carbon steel base and axl e Finish - - Blac k Ordering - Specify hanger size, figure number and name . For insulated pipe with Protection Saddles see page 28 for selection of proper hanger size . (Effectiv e Hanger Size ) REINFORCED WITH GUSSET PLATES THK SIZES "W" FOR PIP E 16" AND ABOV E See Fig . 266 Page 38 for Adjustable Roll Stand See Fig . 264 Page 36 for Standard Roll Chai r FIG . 265 STEEL PIPE ROLL STAN D ENGINEERING DATA FROM PIPE CENTERLINE HANGER RECOM TO TO SIZE MAX BTM ROLL LOAD PLATE CL LB A B 1 '/2 2 2 1/2 3 3~/2 4 5 6 8 1O 12 14 16 18 20 '24 30 390 950 2100 3'/4 3 1/2 3 7/8 4 '/8 4% 4% 5 746 6/(6 1 :: 6 113/8 3075 12 13% 4980 14 % . 15% 6100 17 3/4 7500 21 7/8 APPROX WT PER 100 C D E F G H i J K 1 3/4 3 7/(6 5 Y2 2 3/4 1 7/8 Y2 8 - W6. N 0 R T - 3 j6 U W '/2 1 3/4 2'/8 2% 2% 2'/4 3 7/8 6 3/8 7'h 8 ~/8 9% 10 % 11'/8 13% 16 3/4 l~6 6 % 4 470 - 2 /16 4' 16 5 1/2 3 3/4 2 1/8 Y2 10 - 1 x ]6 ' 66 6>/2 6 3 >/4 3 /4 - 4 > 5(6 > 3 /s 3 9(6 8 8 4 '/8 -- 5 3/4 % ~ i6 4 1/4 103(6 9 9 4 6 3/4 1 516 4% 5'/8 11% 9 10 4 y2 % 7'/2 ' 1(6 1 16 12' 5' 1 3/4 ' (6 13 6 4 1/(5~/4 -6 DIMENSIONAL DATA 14 E. 6 11 MYATT & CO . 1/2 1 '/8 - 10 1316 7 7/8 6 6 1 6 - 8 ~/2 11 '6 - 840 4 % 41/4 7 5 9)(6 6 151 0 -- 281 5 12 3/ 10'/4 6 '/2 '/4 400 0 14 11% 6 1/2 '/4 5900 17'/4 14'/4 8 1/4 9340 TORONTO ONTARI O 37 Section 2 SADDLES and ROLL SUPPORT S Adjustable Steel Pipe Roll Stand Fig . 266 i Adjustable Steel Pipe Roll Stands are made to manufacturers' dimensional standards . They are recommended for use where support adjustment is necessary and where provision is required for lateral pipe movement . Vertical adjustment with pipe and Roll Stand in plac e is made by means of jack screws furnished with loc k nuts to prevent loosening during operation of the pip e line . 2 inch lateral pipe movement is allowed by sliding o f the jack screws on the base plate . May be welded or bolted to bracket or other supporting steel. Fig . 266 Material - Carbon steel (only the roll is cast iron ) Finish - - Blac k Ordering - Specify hanger size, figure number an d name . For insulated pipe with Protection Saddle s see page 28 for selection of proper hange r size . (Effective Hanger Size ) ADJ . STEEL PIPE ROLL STAN D FIG . 266 HANGER SIZE 1 '/2 2 2 1/2 3 3'/2 4 5 6 8 10 12 14 16 18 20 24 30 38 ENGINEERING DATA FROM PIPE CENTERLINE TO STM PLATE TO ROLL CENTER A M MIN MAX d MAX MOM MAX LOAD LB 5 5'/8 5% 5 3/4 6 390 6'/2 7 7% 950 2100 _ 3075 4980 6100 7500 _ 5 '/4 5% 5% 6 6 1/4 7 7'/2 8 '/8 10% 11% 11 '/2 - 123/4 13 14'/4 13 % 14'/8 15'/4 16 % 16 % 17 3/4 17 % 18 3/4 19 % 21 24 26 3/4 1 '/2 1 3/4 2 '/e 2% 2% 2 3/4 3% 4 5 1/4 63/g I APPRO X WT PE R 100 C MIN MAX E 3 3/4 3% 3% 3'/4 3'/2 5'/4 3% 3% 3 3/s 3% 3 3/4 4 1/4 3% 4'/s 5'/2 4 1/8 3% 5 1/8 6 3~ 7 5 '/8 y 6 % .rte 5'/2 6 3/4 8 5~ 6 3/4 5'/8 7'/4 6 7% 9'/4 6 7% 9'/4 6'/4 7% 10 10 3/4 7 1/4 F H G J R S 3'/2 7/s 1 '/8 1 3 r.~ 7'/2 8 '/e 9% 10 % 11 % 13 % 16 3/4 DIMENSIONAL DAT A I 1 /4 1 ~% s 1 7/8 3 1/4 2 3/4 7/e 3 'is 6'/2 % 98 5 3 3/4 2'/e 5'/e 7 3/4 5 149 5 6 3'/4 7 3f8 1 0 'l4 3/4 3 /4 r~.~ 261 0 _ 8 4 9 10 12 1/2 'l 9'/2 12'/2 4 1/2 1 '/8 11 '/8 14'/4 4' h 5 1/2 1% 1 3/4 12'/4 15 3/4 15 3/4 1 19 '/4 , 1 E . MYATT & CO . LTD ., TORONTO ONTARI O '/s 1 504 0 739 0 '/4 961 0 15260 Section 3 BRACKETS and SUPPORT S Steel Pipe Chai r Fig . 300 Steel Pipe Chairs are ideal supports for pipe in trenches o r on piers . They are all steel and may be bolted or welde d into position . All dimensions may be modified if desired . 2 HOLE S Material - Carbon stee l Finish - - Black Ordering - Specify pipe size, figure number and name . For insulated pipe with Protection Saddle s see page 28 for selection of proper chai r size . Fig . 300 0 -- ~.l I . FIG . 300 ENGINEERING DATA PIPE RECOM MAX SIZE LOAD LB B 2 336 1/ 1000 3 1 16 2 2 3 4 2000 3 1/2 4 1/4 4 5'/2 3000 6'116 5 6% 6 8 7 3/4 5000 9 10 10'/2 12 14 11 3/4 7000 13 16 18 13 3/4 8000 15 20 - STEEL PIPE CHAI R DIMENSIONAL DAT A C 2'/4 21/4 2 1/4 2¼ 3'/4 3'/4 3'/4 3'/ c 3% 4'/e 4 3/4 5 4 3/4 5 E 2 1/4 2 3/4 3 Y2 4 D 3 1/2 4 1/4 5 51/2 - 6'/4 7 1/2 8 3/4 9'/2 11 3/4 13% 15 17 18 19 F H R 1% 1 3/4 2 21/4 i 2 /4 2 1/4 7/(6 4'/2 5 3/4 2'/4 7 7 92 3/4 11 12 1 3 /2 14 15 16 2'/4 3% 3'/e 5 5 Ye 6'/8 7 3/4 8 3/4 9 314 10 3/4 9/16 1146 13W6 1 3 /2 1 APPROX WT PER 100 16 5 20 0 23 5 26 0 32 5 39 0 45 0 . 88 0 108 5 128 5 185 0 210 5 2300 2620 MATERIAL ST3 B6 ST3B6 ST4B6 .5 ST5WF 10 .5 ST6WF 13 .5 ST6WF 13 .5 Adjustable Pipe Saddl e Fig . 302 For adjustable support of horizontal or slightly pitched pipe . Can swivel in any direction to suit pipe line . Stem is threaded full length for maximum, vertical adjustment . Tighten hex nuts after adjustment to prevent loosening during service . Material - Carbon steel . Finish, - - Black Ordering - Specify pipe size, figure number and name . Fig . 302 FIG . 302 ADJUSTABLE PIPE SADDLE ENGINEERING DATA When supporting bar e pipe, select size of Saddle directly fro m the table . For insulated pip e with Protection Saddles see page 28 fo r selection of prope r hanger size. (Effective Hanger Size) :: ; E 3/4 1 RE COM MA X LO AD LB 150 1 50 A B MIN MAX C '/2 3/4 7/s 1% 1 3/A S'/2 5 3A 6 6 1 13i6 1916 1% 2'/e 2% 2% 33(4 2 2'/4 2 34 3 3'/2 4 5 3/4 5'/2 7'/2 6 6 8 7 3/4 8 8'/4 8 8 8 4'/4 4 3/4 5'/4 8'/4 1 '/4 1 '/2 2 150 500 800 '/2 % '/e 2'/2 3 3'/2 4 5 6 800 800 800 '/e 7/e 1100 1100 1100 1 1 1 DIMENSIONAL DATA 3'1ib 8 3/4 9 1/4 MATERIAL 6 x 1 '/4 316 x 1 '/4 3f6 x 1 '/4 3( x 1 '/4 APPROX WT PER 100 50 52 55 83 % x 2 23 2 8 8 % % % % % 2 2 2 2 2 24 5 25 8 27 1 34 2 36 5 8 %x2 390 x x x x x E . MYATT & CO . LTD ., TORONTO ONTARIO 39 Section 3 BRACKETS and SUPPORT S Fig . 304 Pipe Saddle Suppor t FIG. 304 PIPE SADDLE SUPPORT ENGINEERING DATA PIPE SIZE PIPE SIZE S 3/4 "-6" PIPE SIZE S 8"-24 " Fig . 30 4 1 1 '/4 1'/2 2 Pipe Saddle Supports are used on horizontal or slightly sloping pipe . They may be swivelled in any desired direction . Th e saddle may be field welded to stanchio n pipe 'D' . Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, figur e number and name . Fig . 306 DIMENSIONAL DATA TAKE OUT s C MATERIAL i'1,!!6 3/4 3'/e 3 1/4 3/4 6 7 8 9 1 1 1 1'fa 3% X 1 '/2 316 x 1 '/2 3(6 x 1 '/2 3(6 x 1'/2 1 1% 3 7/8 3(6 X 1 '/2 1' ~ 4 3/4 /4 x 2 2 5 1 2'/2 10 11 3 12 1 '/2 1'/2 13 1 '/2 4 5 6 8 10 12 14 14 16 17 19 22 23 25 2 1/2 2% 2% 2'/2 2'/2 2% 16 18 20 24 27 28 30 32 3 '/2 For insulated pipe with Protectio n Saddles see page 28 for selectio n of proper hanger size . (Effectiv e Hanger Size) RECOM STANHANGER CHION SPACING PIPE FT D 3 3 3 1/2 3'/2 4 3'/2 x2 2 1/4 5 1/4 2'/2 6'/2 3 7 3'if6 9% 4 3/4 - 7 5 3/4 8'/2 6 3/4 10 7% 8% 9% 10'/2 12 % 3(6 11 12 % 13 7/8 15 % 18 APPRO X WT PE R 100 40 60 68 70 75 180 19 5 '/4 x 2 '/4 x 3 '/4 x 3 %x3 ~ x 3'/ % x 3'/2 % x 3'/2 20 0 25 0 29 0 43 0 69 0 85 0 102 5 %x4 %x4 % x4'/2 Y2 x 4'/2 '/2 x 6 133 0 15,1 0 190 5 2635 , 4760 Pipe Stanchion Saddl e Pipe Stanchion Saddles are used to support horizontal o r slightly sloping pipe . The U-Bolt holds the pipe firmly to the saddle which ma y be field welded to the stanchion . For insulated pipes use Fig . 306S . FIG. 306 PIPE STANCHION SADDLE ENGINEERING DATA Y4" GUSSET PLATE S FURNISHED ON SIZES 8 " AND LARGE R ILLUSTRATION . PIPE WITH INSULATION (5 ) PIPE SIZE 2'/2 Fig. 306 3 Fig. 306S Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, figure number and name . Fo r Fig. 306S specify bare pipe size and insulatio n thickness . 3'/2 4 5 6 8 10 12 14 16 18 20 44 E . MYATT & CO . 40 RECOM STANHANGER CHION SPACING PIPE FT D 11 12 13 14 16 17 19 22 23 25 27 28 30 32 1 '/2 1 '/2 1 '/2 2'/2 2% 2'/2 2'/i 2 1/2 2'/2 3 3 3'/2 3% 4 DIMENSIONAL DATA TAKE OUT s 1';f6 2 2'/4 2 1/2 3 3% 4 3/4 5 3/4 6'/8 7% 8'/2 9 1/2 10% 12% TORONTO ONTARI O U MATERIAL 3'h 3 3/4 4 4'/4 4 ~%8 C _ '/2 '/2 '/2 '/2 '/2 % 7 8'/2 10 11 ,12 % I3/Q 15% 18 % '/4 x 2'/2 '/4 x 2'/2 '/4 X 2'/2 '/4 X 3'/2 '/4 X 3'/2 % x 3'/2 % x 3'/2 5'/2 3/4 7/8 7/8 1 1 1 % x 3'/2 '/2 x 3'/z x4 x4 x 4'/2 % x 4'/2 %x6 APPRO X WT PE R 100 21 5 22 5 25 0 40 0 43 5 64 5 84 0 116 0 175 0 209 0 223 5 283 0 377 5 616 5 Section 3 BRACKETS and SUPPORTS Adjustable Fig . 308 Pipe Saddle Suppor t selec t size of Adjustable Pipe Saddle Sup When supporting bare pipe, port directly from the table . For insulated pipe with Protectio n Saddles see page 28 for selectio n of proper hanger size . (Effectiv e Hanger Size) Fig. 308 Adjustable Pipe Saddle Supports are intended as the adjusting portion of field fabricate d stanchion supports . Up to 4- 1/2 inches of vertical adjustment is provided which ca n be made with the pipe and saddle support in place . Adjustment is made by turning th e pipe nipple 'D' . The lower end of the threaded nipple is staked, preventing separatio n from the reducer . The support will swivel to any desired direction . Saddles are reinforced for 8 in . pipe and larger . See Fig . 304 page 40 . Material - Steel saddle and straight threaded pipe nipple . Special cast iron reducer . Finish - - Black Ordering - Specify pipe size, figure number and name . Order stanchion pipe 'A'separately, with base flange or plate if required . ADJUSTABLE PIPE SADDLE SUPPOR T FIG. 308 ENGINEERING DATA PIPE SIZE 2'/2 3 3'/2 4 5 6 8 10 12 14 16 18 20 24 RECOM HANGER SPACING (FT) 11 12 13 14 16 17 19 22 23 25 27 28 30 32 STANCHION PIPE A 2'/2 2'/2 2'/2 3 3 3 3 3 3 4 4 6 6 6 DIMENSIONAL DAT A E - MIN MAX 8 13 13 Y4 13'/2 14 14 34 15 1/4 16 % 18'/4 19 3/4 20 3A 22'/4 24 25'/2 8'/4 8'/2 9 1/4 10 10 % 11 3/4 13 1/2 15 16'/4 17 34 19'/2 21 23 3/4 E. MYATT & CO . D L APPRO X WT PER 100 1 '/2 1 '/2 1 '/2 2'/2 10 10 10 10 10 10 10 11 11y2 11'/2 12 12'/2 13 13/2 70 0 72 0 725 1170 121 0 1350 1555 175 0 191 5 2605 278 0 384 5 4595 7010 PIPE NIPPLE a 1% 2 2'/4 2 1/2 3 3% 4 3/4 5 3/4 6 34 7% 8% 9% 10 % 12% 2'/2 2'/2 2'/2 2 1/2 2'/2 3 3 4 4 4 , TORONTO ONTARIO 41 ion 3 JACKETS said SUPPORT S Fig . 310 Standard Steel Anchor Chai r FIG. 310 PIPE STD STIR ANCHOR CHAIR ENGINEERING DATA DENSIONAL DATA SIZE B a:- SIZES T/2''' TO 2" SIZES 2 1,f TO 24" Fig . 31 0 Standard Steel Anchor Chairs are economical anchor assemblies for pipe s up to 24 in . diameter . The base channel may be bolted o r welded directly to any structural steel . Vertical dimensions 'B' and 'C' may be modified to suit specific applications . Material - Carbon stee l Finish Blac k Ordering - Specify pipe size, figur e number and name . A C E H I L MATERIAL 23(6 2% 2 % - - -- — % 1E 1 % 23 6 — — 3/0 3 2% 2% -— ---- 2 r/6 3' 3% j6 2 3/4 j 3 746 4~6 1 '/4 3/4 2% % 'h 4 4 23(6 116 'l2 5 6 3 3/e 3% 5 '/2 6 Y2 7 '/2 8 K6 9'/8 10'/8 1 1 Y8 1 3 '/8 '/2 1¼ % 1 )(6 3/4 % 1 1 vs 1716 j3/4 % 1 YZ K6 1'/2 2 2' /2 1 ,16 1 3/4 2 Y4 Ye 46 1 3(6 3 2 Y2 3'/2 8 10 12 14 16 18 20 24 % '/2 116 1 '/e 1 Y8 13(6 1 Ye 1'/8 1 '/e 1 '/8 Y2 % 5/8 3/4 7/a '/8 1 1 1 0(6 1 6 1 3/4 2 1/4 5146 2'l4 6'/e 2'/4 7% 3 9 % 4Y2 11 % 5 1/2 13 3/4 6 15 7 7 17 197 21 1/8 7 25 Ye 8 13(6 ' 3(6 1 3(6 1 3(6 1 3(6 '3(6 1 3(6 1 3(6 '3(6 1 3(6 1 3(6 1 3(6 3 LJ APPROX WT PE R 100 65 75 100 4. 11 5 13 0 140 15 0 3 '/4 17 5 4 205 3 L 4 .1 4 4 5 7 8 9 10 10 11 11 12 4c" LJ 21 0 290 35 5 101 5 1175 152 5 166 0 207 0 227 0 238 5 2590 Heavy Duty Steel Anchor Chai r Fig . 312 FOR 14 " PIPE AND LARGE R AND SMALLER Fig . 31 2 Heavy Duty Steel Anchor Chairs are for th e support and anchoring of horizontal pipe lines . The steel base may be bolted or welded t o structural steel . The illustration shows thei r use with Welded Steel Brackets (page 45) . The heavy steel U-bolt anchors the pipe t o the chair . Tie rods inserted through the lu g holes reinforce against expansion forces actin g along the axis of the pipe . Material - Carbon stee l Finish - - Prime coat corrosion resistan t paint . Ordering - Specify pipe size, figure numbe r and name . E . MYATT & CO . 42 FIG . 312 HVY DUTY STEEL ANCHOR CHAI R PIPE SIZE A B DIMENSIONAL DATA -C D E 4 Y2 3 4 1/4 5 6 8 10 12 14 16 18 20 24 Y2 % % 3 i6 5 '/8 5'6 6 '/2 7% 7/8 8'/2. '/8 9% 10'/8 12 14 3/4 1 1 1 4 ~6 6 7% 8'/2 10 11 '/8 12'/2 13 5/8 14 % 16 5/8 TORONTO ONTARIO F G APPRO X WT PER 100 3'/2 3 1/2 3 3/4 3 3/4 4 3/4 4 3/4 5 5 5 5 5 46 5 55 0 86 0 105 0 149 5 212 5 4700 582 0 6770 743 0 848 0 - - 3 %6 4 1/8 3/4 4'/8 6 6'/8 8 '/2 9 7/8 11 Y 12'/8 13'/8 15'/e 3/4 % 3/4 7/8 1 1 '/8 1'/4 1 Y2 1% 1 7/8 2 2 1 1 Y8 1'/4 1 '/4 1 '/2 1 '/2 1 Y2 1 '/2 3/4 Section 3 BRACKETS and SUPPORTS Short Offset Bracke t Fig . 314 Short Offset Brackets are used to support moderate pip e loads at short cantilever distances (see data table) . These brackets may be bolted to masonry or welded t o steel . When used on light masonry walls a backing plate shoul d be used to distribute the load over a sufficient wall area . Material - Carbon stee l Finish - - Blac k Ordering - Specify bracket size number, figure num- ber, dimension 'B', hanger rod diamete r and name . Fig . 31 4 FIG. 314 BRACKE T NO 1 2 3 MA X RO D SIZ E A /4 /8 3 7 1 RECOM MAX LOAD LB B=6 a=8 B=10 B=1 4 ANGLE SIZE 75 0 100 0 2000 55 0 85 0 1300 45 0 65 0 1100 35 0 55 0 1000 2 1/7 x 2',7 x 1/, x 3 x3 4 x4 x 1/ j Long Offset Bracke t Fig. 315 r SHORT OFFSET BRACKET Long Offset Brackets are reinforced for the support o f heavier loads at greater cantilever distances (see dat a table) . These brackets may be bolted to masonry or welded to steel . When used on light masonry walls a backing plate shoul d be used to distribute the load over a sufficient wall area . B SEE LOAD RATIN G Material - Carbon stee l Finish - - Blac k Ordering - Specify bracket size number, figure number, dimension 'B', hanger rod diamete r and name . 1 (2) , Vu," HOLES FIG . 31 5 Fig . 31 5 BRACKET NO LONG OFFSET BRACKET MAX RO D SIZ E A 1 2 3 E . MYATT & CO . /4 '/8 3 RECOM MAX LOAD LB B=14 B=16 B=1 8 70 0 90 0 1200 60 0 70 0 1000 50 0 60 0 800 TORONTO ONTARI O ANGLE SIZ E C 8 x 2 I/2 /8 x 2 I/2 3/8 x 3 3 3 2'/ 3 4 x2 x 3 x4 1: 2 x x x I„ 1; 43 Section 3 BRACKETS and SUPPORT S Light Duty Welded Steel Bracke t Fig . 320 Light Duty Steel Brackets are recommende r for a maximum load of 750 lb. The bracket number indicates the maximum cantilever distance for this load . The bracket may be welded or bolted to the building structure . Suspension of intermediate small piping may be made with Fig . 320C clip attachment . Material - Carbon steel Finish - - Blac k Ordering - Specify bracket number, figur e number and name . Order Fig . 320C clips separately and specify size number . Fig. 320 Maximum Rod Diameter 3/4 inch Maximum Recommended Load 750 lb . LIGHT DUTY WELDED STEEL BRACKE T FIG. 320 BRACKET _ A B APPRO WT RXPE DIMENSIONAL DAT A _ D C F 1 1/4 G fib 1 9 8 6 114 '/4 2 13 12 101h % 3 4 19 25 18 24 16 1/2 22'h 1/4 2 %6 1/2 2 114 % FIG . 320C CLI P 100 270 r 72 0 1790 _ MGR APPROX ROD WT PER PIP E SIZE CLI P NO sin 1 %TO2 2 - 2'h TO 3 'h 3000 too % 75 'h _ 130 Standard Welded Steel Bracke t Fig . 321 Standard Steel Brackets are recommended for a maximum load of 1500 lb . The bracket number indicates the maximum cantilever distance for thi s load. The bracket may be bolted or welded directly t o steel . Attachment to masonry is made with compound masonry anchors or expansion shields . Whe n fastened to light walls, through bolts and backing plates are recommended to distribute the loa d over the wall . All base roller assemblies illustrated in this catalogue may be used on this bracket to support long pipe lines subject to longitudinal expansion . When used to suspend pipes, clearance has bee n provided to permit an average of 4° swing of the hanger rod in a direction perpendicular to th e bracket . Fig. 32 1 Material - Carbon stee l Finish - - Prime coat of corrosion resistant paint . Ordering - Specify bracket number, figur e number and name . Maximum Rod Diameter 7/8 inc h Maximum Recommended Load 1500 lb . STANDARD WELDED STEEL BRACKE T DIMENSIONAL DATA BRACKET 0 1 2 44 • A R C 12 18 24 18 24 30 15 1h 21 1h 27'h D 1 1/4 1 '/4 - 1 '/4 E 2 X14 F G 4 N 1 'h 2'h 2 'h 4 1h 5 1 'h 13 1 3/4 2 E. MYATT & CO. TORONTO ONTARI O ! L 3(6 36 1 36 '36 94 APPROX WT PER 100 161 0 236 0 3830 Section 4 RODS and CONNECTORS Figs . toxin Expansion Shield s 485, 486 The LOXIN is a popular Expansion Shield for insertion int o masonry walls, concrete ceilings or piers . It locks when the machine bolt is tightened and thereafte r will be securely anchored although the bolt may be removed . Material - Rust-proof allo y Ordering - Specify bolt diameter, figure number an d Fig . 485 Short Standard name . (Order machine bolts separately . Bolt length = dimensions A+T . ) Fig . 486 Long Standard FIG. 485 FIG. 486 SHORT STANDARD LOXIN LONG STANDARD LOXI N LG OF SHIELD LG OF slum ENGINEERING DATA HOLE RECOM MAX H TENSION LB BOLT DIAM 300 700 1000 , '/2 % A ' APPROX WT PER 100 (LESS BOLTS) 1 1/2 2 2 1/z %x1Y 7/8 x 2 1 x 2'h Figs . 491, 49 2 6 13 20 Compound BOLT DIAM i ENGINEERING DATA RECOM MAX HOLE H TENSION LB APPROX WT PER 10 0 (LESS BOLTS ) A I 450 1000 1500 2000 34 '/3 % ' Y4 %x2 7/8 x 2 1/2 x3 1 1 1/8 x 3 1/2 I 2 2 1/2 3 7 16 23 3 Y2 32 Masonry Anchor s 493, 494 Compound Masonry Anchors are designed t o withstand both tension and shear forces and are recommended as 7horage attachment s to ceilings, floors o r to masonry pip ,,,. tw;i \\\/ __ ► ~~ isonry, the assem ~h of the masonry , elf, but for appli Fig . 491 Two-Unit Threade d he recommende d 0~ table are base d 0' si c1:%o y ~ 3. 0iijcr1: E ,o In the plain, two and three unit sets .; V~ and threaded, two and three unit sets . BS Material - Threaded or plain alloy cone s and expanding lead sleeve s Finish - - Rust-proo f Ordering - Specify bolt diameter, figure Fig. 493 Two-Unit FIGS. 491, 492, 493, 494 BOLT DIAM 3A %s 8/i 3/4 ~ %a 1 RECOM MAX LOAD LB TENSION SHEAR 400 720 960 1080 1200 1360 FIG 491 15{6 1 ~6 236 2% 3 3% Order r :i is and nuts separately . COMPOUND MASONRY ANCHOR S TO OBTAIN BOLT LGT ADD PLAT E THICKNESS "T" TO THE FOLLOWING ENGINEERING DATA 800 1600 2400 3600 4400 5600 number and name . Fig . 494 Three-Unit Plain Plain APPROX WT PER 10 0 (LESS BOLTS ) DEPTH OF HOLE_ THREADED PLAIN HOLE FIG 491 FIG 492 FIG 493 FIG 494 FIG 492 FIG 493 FIG 494 SIZE _ A A A+B A+B FIG 491 FIG 492 FIG 493 FIG 494 1% 1716 11(6 3/4 1 1 '/2 1'/2 2 11 16 10 15 2'/8 1 1 3/ 1 3/4 11 16 2 1/4 13(8 23f6 27 37 20 30 2 3/4 2% 2% 1 '/8 1 1 3(6 2% 2j'6 3 32 45 26 39 .. 3'/2 3 3/4 416 2'/8 3K6 3 7/8 31(6 3% 4% E. MYATT & CO . 1% 1~ 1% 2'/4 2% 2~ 2% 3% 2'3 6 3'/8 3% 3% 4 4'/e 59 83 98 84 116 137 50 65 78 75 98 11 7 TORONTO ONTARIO 53 Section 5 UPPER ATTACHMENT S Standard Beam Clam p Fig . 500 Standard Beam Clamps are recommended for us e under normal service conditions on wide flange or I beams . If for use with back-to-back double angl e struts or heavy square flange (built-up) sections , dimensions 'F' and 'T' must be specified. Material - Carbon stee l Finish - - Black Ordering - Specify size number, flange width and thickness, figure number and .name . Note - If possible give beam description e .g . (8 WF 17 ) Fig. 500 For Side Beam Clamps see page 5 5 For Heavy Duty Service see pages 56 to 5 8 FIG . 500 fJ ~l F---a te STD . BEAM CLAM P ENGINEERING DATA j T SIZE NO A B C D RECOM MAX ROD MAX SIZE LOAD LB A 500 900 1500 2000 DIMENSIONAL DAT A BOL T B % % % '/2 3/4 1 1 C 34 1 1 1/4 D MATERIAL 1% 1'h 2 2 1/4 x 1 '/4 %x1 1/2 '/2 x 2 '/2 x 3 '/4 Fig . 50 2 Fig . 50 3 Standard Channel Clamps are recommended for us e under normal service conditions on structural channels or angles . The 2-Bolt type offers a more positive grip wher e required by service conditions . Material - Carbon stee l Finish - - Blac k Ordering - Specify size number, size and description of structural member, figure num ber and name . FIGS. 502, 503 CHANNEL CLAMPS ENGINEERING DATA -4j•+-A Fig. 502 54 Fig. 503 E. MYATT & CO . SIZE NO 1 2 3 4 DIMENSIONAL DATA RECOM MAX LOA D LB RECOM MGR RO D A BOLT B 80 22 5 30 0 500 % % % 3/4 % 3/4 TORONTO ONTARI O C D MATERIAL 1 1 '/4 1 '/2 1 3/4 1 '/4 1 '/2 1 3/4 2 '/4 x 1 '/4 % x 1 '/2 %x 2 '/2 x 2 Section 5 UPPER ATTACHMENTS Fig . 504 Standard Side Beam Clam p Standard Side Beam Clamps are recommended for norma l service where the pipe is located a short distance from th e side of the beam . The clamp may be used on the top or bottom flange as required . Material - Carbon stee l Finish - - Black Ordering - Specify clamp size number, dimensions 'F', 'X ' and 'T' , figure number and name . FIG. 504 SIZE NO 1 Fig . 504 Fig . Heavy 505 STD . SIDE BEAM CLAM P ENGINEERING DATA RECOM MAX LOAD LB Y=3 1/2 " Y=5 /2 " A 90 50 F X BOLT SIZE % S S % P E C P E C '/4 x 1 '/4 % x 1 1/2 % %x 2 3/4 V2 x 2 '/s x3 2 210 100 '/2 3 360 175 % 4 500 250 3/4 5 800 400 '/8 -1 Duty Side Beam DIMENSIONAL DATA F F Y Y MATERIAL Clam p Heavy Duty Side Beam Clamps are made with extended retaining lugs which allow greater loads or more cantilever distance than Fig . 504 Standard Clamps . Material - Carbon steel Finish - - Blac k Ordering - Specify clamp size number, dimensions 'F', 'X ' and 'T', figure number and name . FIG . 505 SIZE NO X Fig . 505 Fig . 506 HVY. DUTY SIDE BEAM CLAM P ENGINEERING DATA RECOM MAX LOAD LB Y=3 1/1 " Y-S 1/t" Y=7 /z" DIMENSIONAL DATA A F X BOLT SIZE MATERIA L 1 125 80 60 % S S % 2 300 200 140 '/2 P E P E '/2 x 1 '/4 % x 1 '/2 3 550 350 250 % C C % %x2 4 750 475 350 34 5 1200 750 550 '/8 -1 F Y F Y '/4 1/2 x 2 '/8 x3 Beam Hoo k Beam Hooks are simple, economical attachments for use with small diameter pipe, conduit and duct work . Material - Carbon steel Finish - - Blac k Ordering - Specify size number, dimensions 'X' and 'T' , figure number and name . FIG . 506 SIZE NUMBER Fig . 506 E. MYATT & CO. BEAM HOO K ENGINEERING DATA RECOM MAX LOAD LB A DIMENSIONAL DAT A MATERIAL X T 1 85 % '/4x1 / '4 2 260 '/2 %x1'/2 3 4 365 590 % % x2 S P E C S P E C 3/4 '/2 5 970 x2 x3 F Y 1 '/2 I F Y. TORONTO ONTARI O 55 Section 5 UPPER ATTACHMENTS Fig . 510 2-Bolt Wide Flange Beam Clam p 2-Bolt Wide Flange Beam Clamps are for use on standar d wide flange beams with 10-1/2 inch maximum flang e width . They are recommended for heavy duty servic e and for use with critical piping . The lower bolt is provided with a pipe spacer to preven t binding of the hanger rod . Tightening the upper bolt provides a firm grip on the beam and the lock nuts insur e against loosening of the bolts due to vibration . The clamp may be used with either Fig . 440 Welded Ey e Rod, or Fig . 480 Weldless Eye Nut . The transverse stress set up in the beam itself shoul d be checked when suspending heavy loads . If the fibr e stress is severe the beam should be reinforced with parallel vertical plates welded on both sides of the web , and to the top and bottom flanges . The transverse stress set up in the beam (maximum a t point P) due to the suspended load can be determine d approximately by the empirical formula - FLG . THK . S P L Z2 = Sp is the fibre stress (lb . per sq . in . ) L is the load suspended (lb . ) Fig . 510 Z is the flange thickness (in . ) Material - Carbon stee l Finish - - Prime coat corrosion resistant paint . Ordering - Specify clamp size number, dimensio n 'W', figure number and name . 2-BOLT WIDE FLANGE BEAM CLAM P FIG . 510 DIMENSIONAL DAT A ENGINEERING DATA SIZE NUMBER o°c a )Q = >- 56 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 RECOM MAX LOAD (L ) LB 750 750 750 750 750 1500 1500 1500 1500 1500 3000 3000 3000 3000 , 3 000 W 4 5-6 6'/2 - 7'/2 4 S/8 5 1/8 5 S/8 6 1/4 7 1/8 '/2 '/2 Y2 8-9 10 - 10' 4 5-6 '/2 6'/2 - 7'/2 % 6'/8 % 6 3/4 7 5k 6 '/4 6% 7'/4 7 7/8 8 3/4 8- 9 10 - 10 1/2 4 5-6 6'/2 - 7 '/2 8-9 10 - 10 '/2 . RECOM ,HGR ROD TAKE-OUT HGR WE F S EYE RO D RO D NU T C A B Y2 S/8 % % '/8 7/8 '/8 '/8 7/8 ' 5'/8 5% 5'/2 6 6'/2 7'/8 8 6 1/4 6 3/4 7 '/4 7 7/8 8 314 7 3/4 8 1/4 8 3/4 9% 10 1/4 E . MYATT & Co . (MIN ) F D E 3/4 3/4 3/4 3/4 3/4 7/8 'A 2'/8 2'/8 1 1 1 1 1 1 '/2 1 '/2 1 '/2 2'/8 1'/2 2 2/8 1 '/2 1 1 1 1 1 2'/8 2 '/8 2'/8 2'/8 2 7/8 2 7/8 3/4 3/4 3/4 3/4 '/8 '/8 , G s/8 % % 3/4 % 3/4 S/8 1 ~~ 3/4 1 3/4 1 3/4 1 3/4 3/4 1 1 '/4 1 '/8 1 '/4 1 1/8 1 '/4 1 '/8 1 '/4 1 1/8 1 1/4 1 V8 TORONTO ONTARIO SCH 40 PIPE SPACE R 3/4 1 '/4 MATERIAL 3/8 x 3 3/8x3 %x3 %x3 /e x 3 '/2 X 3 '/2x3 1/2 X 3 '/2 x 3 1/2 x 3 %x4 %x4 %x4 %x4 %X 4 APPRO X WT PE R 0p 59 0 67 5 75 0 78 0 94 0 91 0 103 0 108 5 1190 134 5 197 5 2190 2 24 5 252 0 2640 Section 5 UPPER ATTACHMENT S 2-Bolt I Beam Clam p Fig . 511 2-Bolt I Beam Clamps are for use on standard I beam s with flange widths between 4 and 8 inches . They ar e recommended for heavy duty service and for critica l piping . The lower bolt is provided with a pipe spacer to preven t binding of the hanger rod . Tightening the upper bolt provides a firm grip on the beam and the lock nut s insure against loosening of the bolts due to vibration . The clamp may be used with either Fig . 440 Welded Ey e Rod, or Fig. 480 Weldless Eye Nut. The transverse stress set up in the beam itself shoul d be checked when suspending heavy loads . If the fibr e stress is severe the beam should be reinforced with parallel vertical plates welded on both sides of the web , and to the top and bottom flanges . The transverse stress set up in the beam (maximum a t point P) due to the suspended load can be determine d approximately by the empirical formula - MEAN FLG. THK. S L Z~ =_ P S p is the fibre stress (lb . per sq. in . ) L is the load suspended (lb . ) Z is the mean flange thickness (in . ) Material - Carbon stee l Finish - - Prime coat corrosion resistant paint . Ordering - Specify clamp size number, dimension 'W', figure number and name . 2-BOLT I BEAM CLAM P FIG. 511 DIMENSIONAL DATA ENGINEERING DATA SIZE NUMBER 1 2 Z 3 4 5 ~– 6 } 7 8 = 9 10 11 12 W 13 14 15 oc RECOM MAX LOAD (L ) LB W 750 750 750 750 750 1500 1500 1500 1500 1500 3000 3000 3000 3000 3000 4 - 4 V8 4 S/8 - 5'/4 5 Y2 - 6 % 7 - 7 1/4 7 7/8 - 8 4 - 4'/e 4 % - 5'/4 5'/2 - 6 % 7 - 7'/4 7 7/8 - 8 4 - 4'/a 4 s/8 - 5 Y4 5'/2 - 6 % 7 - 7'/4 7'/8 - 8 RECOM HGR ROD TAKE—OUT HGR WE F S EYE NU T RO D RO D A B C / T/2 Y2 '/2 Y2 s/e s/8 % S/8 % '/8 7/ 7/8 '/8 '/8 5 5 1/4 5 Y2 6 '/8 6 5/8 5'/~ 5 3/4 6 6 S/8 7 '/8 6% 6 7/8 7 Y8 7 3/4 8Y E . MYATT & CO. D 5 7/8 6 V8 6 3/8 7 7 V2 1 3/4 1 3/4 1 3/4 1 3/4 1 3/4 2 ~¼ a 2 Y8 2'/a 6'/2 6 3/4 7 7 s% a 8 8'/4 8½ 9 '/8 9% ~ 2'/8 2 Y8 2 7/8 2 7/8 2 7/8 2'/8 8'/8 _ 2'/8 (MIN ) F E _ G 7/8 7/8 '/8 '/8 7/8 3/4 3/4 3/4 3/4 S/8 1. 1 1 1 1 1 '/2 1 '/2 1 '/2 1 '/2 1 1 1 1 1 1'/4 1 '/4 1 Y4 1 '/4 1 '/4 3/4 3/4 3/4 3/4 34 1 '/2 _ SCH 40 PIP E SPACE R % % 3/4 % 3/4 1'/8 _ TORONTO ONTARI O 1 '/8 1 Y8 1 '/8 1 '/8 1y MATERIAL APPROX WT PE R 100 %x3 3/8 x 3 %x3 %x3 3/8 x 3 /2 x 3 '/2 X 3 1/2 x 3 '/2 x 3 X 3 %x4 %x4 %x4 %x4 %x4 60 5 64 5 670 74 0 770 88 0 98 0 1000 109 5 114 5 169 5 204 5 21 1 5 2300 2370 57 Section 5 UPPER ATTACHMENTS Fig . 513 Diamond Beam Clam p SIZES 1-2 Diamond Beam Clamps are recommended for us e in extreme service conditions where flange width s or pipe loads exceed those shown for other standar d type beam clamps . With positive attachment to the web of the bea m by bolting or welding, the clamp develops the ful l strength of the hanger rod. No additional bending stress is applied to the flange of the structural beam . SIZE S 3-4-5 FIG. 513 DIAMOND BEAM CLAM P ENGINEERIN G DATA SIZE RECOM RECOM NUM- MAX NOR BER LOA D ROD LB A 1 2 3 4 5 2710 3770 4960 6230 8000 3/4 1 1 'h 1 Y4 Material - Carbon stee l Finish - - Blac k Ordering - Specify clamp size number, figur e number, name and size and description of the structural beam . DIMENSIONAL DATA B '/a 1 1 '/8 1 '/4 1 31 UPPER BOLT S C 11 222- 3/4 3/4 3/4 3/4 MATERIAL F 1 1 '/8 1 '/4 1% 134 %x3 '/2 X 3'/2 '/2 x 4 '/2 % x4'/2 % x 4 1/2 Heavy Duty Ceiling Cli p Fig . 515 Heavy Duty Ceiling Clips are recommended a s attachments to ceilings or beams for the load s shown in the data table . They may be bolted or welded to structural steel . Material - Carbon stee l Finish - - Blac k Ordering - Specify hanger rod size, figure number and name . Fig . 515 See also Beam Attachment Fig . 530 page ' 59 HEAVY DUTY CEILING CLI P FIG . 515 DIMENSIONAL DAT A ENGINEERING DATA RO D SIZE A '/e ~/2 a 73 4 7/s 1 58 RECOM MAX LOAD, LBS ' WITH WIT H LAG BOLTS T O STEE L SCREWS 42 5 71 5 810 1500 1650 1750 61 0 113 0 1810 2710 3770 4000 ROD TAKE-OU T B 1 '/4 Y2 1 '/4 APPROX WT PER 100 C D E 3''/(6 4 3/4 5'/4 6% 7 1/4 7 3/4 2 3/4 3 1/2 3 '/8 4% 2% 2 '/8 3 3¼ 3 3/s 3% E. MYATT & CO . 5'/4 5 3/4 H MATERIAL ::I :// 2422 1/4 x _ TORONTO ONTARIO 11 6 X16 % ' 6 ' 16 5 %x '11 Q %x '/2 x '/2 x ' '/2 x '430 14 5 20 5 30 5 Section 5 UPPER ATTACHMENT S Heavy Duty Beam Attachmen t Figs . 530, 531 Heavy Duty Beam Attachments are accepted and highly approved upper connections to structura l beams . These attachments allow free movement of the hanger rod for any horizontal direction o f pipe movement . The cross bolt is normally supplied less lock nut . The welding beads should always be applied in a direction parallel to the beam longitudinal cente r line . This is always true when welding to th e underside of loaded beams . APPLICATION WITH WELDED EYE ROD APPLICATION WITH F.S. WELDLESS EYE NUT FIGS . 530, 531 ROD sum A Convenient application showing attachment welde d to large size pipe in lieu of a pipe clamp . Here the hanger rod take-out is obtained by adding half the pipe O.D . to dimension C . May also be used with welded eye rod . HEAVY DUTY BEAM ATTACHMEN T ENGINEERING DATA MGR ROD TAKE-OU T FIG. 530 FIG. 531 WELDED RECOM MAX EYE FSWE LOAD ROD NUT C LS R D % 610 2 '/2 % Y 'AB 1130 1810 2710 3770 4960 6230 8000 9500 11630 15700 20700 2 2 2 3 3 3 3 4 4 5 5 1 1 1I~i 1% 1% 1 Y2 1% 2 Material Carbon stee l Finish - - Blac k Ordering - Specify hanger rod size, figur e number and name . Fig . 53 1 (Without Bolt ) Fig. 530 (With Bolt) 2% 2 3/4 3 3 '/8 4 y4 4'/2 4'/2 4 3/4 6 6 8% 8% DIMENSIONAL DAT A E F G 2 12 12 7/8 2 2 2 3 3 3 3 4 4 5 5 % 1 1 y4 1 '/4 1'/2 2 1'e 1 '/4 1% 1% 1% 1 7/a 2'/4 E. MYATT & CO. 7/a 2 MI 2'/8 ' 3 'h MATERIAL 1/4 x 2 '/4 x 2 1/4 x 2 APPROX WT PER 100 FIG . SSO - FIG. 53 1 117 131 155 96 96 96 % x 2'/2 279 192 4'/4 % x 2 '/2 2 4~ '/z x 3 394 629 2'/4 2 ~/z 3 3 3 3/4 3 3/4 4 3/4 5 6'/2 6 1/2 7 3/4 8~ Y2 x 3 %x4 34 x 5 3/4 x 5 3/4 x 5 3/4 x 6 618 1022 1902 1902 2418 3055 25 3 42 7 45 0 80 9 156 0 1560 1870 2280 TORONTO ONTARI O 59 Section 5 UPPER ATTACHMENT S Standard Ceiling Cli p Fig . 532 (2) HOLES 'J ' Standard Ceiling Clips are recommended for norma l service as an economical attachment to wood, stee l or concrete . F Material - Carbon stee l Finish - - Blac k Ordering - Specify rod diameter, figure numbe r and name . For heavy duty service see Fig . 515 Page 58 and Fig . 535 Page 61 . Fig . 53 2 STANDARD CEILING CLI P FIG . 532 ENGINEERING DATA ROD SIZE A RECO M MA X LOAD LB DIMENSIONAL DATA APPROX WT PER 100 WITH LAG SCREW OR BOLTS TO STEEL HGR ROD TAKEOU T B C D S 3A 100 200 300 600 1% 1 3I4 1 3/4 1 3/4 2 3/4 3 1/2 3 78 4% 2% 2 7/8 3 3' 7AB 700 1 3/4 5 1/4 3% Fig . 533 F J 1 1/4 1 1/2 1 V/2 1 '/e X16 '16 16 1 316 ' 3i6 1 SIZE COAC H SCREWS % x1 SIZ E BOLTS % MATERIA L % x2 Y2 x 2 %x3 3/4 x 3 X 16 x1 V4 X 1 Y4 '6 X 1 Y2 1 %x2 1/2 x 2 1/2 1/2 % 3/4 40 80 12 5 22 5 340 Standard Welded Beam Attachmen t Standard Welded Beam Attachments are recommended for normal service as an economical attachment for welding to steel . Material - Carbon stee l Finish - - Blac k Ordering - Specify rod diameter, figure numbe r and name . L For heavy duty service see Fig . 531 Page 5 9 F FIG . 533 D ROD SIZE 1 E . MYATT & CO . 60 LOA D LB B D F 3/e 200 500 625 1500 1950 2250 2750 1 s/% 1 3/4 1 3/4 1 3/4 1 3/4 2 2~ 2 s/8 2'/8 3 3' 3% 4 4 1/4 1 1 '/4 1 ' 1 1/2 1 7/8 2 2' 7'8 1 1 DIMENSIONAL DAT A A s/e 3A Fig . 533 STD . WELDED BEAM ATTACHMEN T ENGINEERIN G DATA RECOM v$ TORONTO ONTARIO APPROX WT PER 100 MATERIAL x 1' x 1 1/2 30 55 90 y2 x 2 1/2 1/2 x 3 23 5 33 0 45 5 ~i6 x 1 ~ ' (6 %x2 y2 x 2 16 8 Section 5 UPPER ATTACHMENTS Double Angle Clip Fig . 535 Double Angle Clips are recommended for heavy duty service . They may be welded to steel or bolted where welding is not permitted . The hinge action of the cros s bolt permits free swing of the hanger rod to accommodate pip e movement . Pipe spacers are provided t o maintain dimension F . Fig . 535 USED WITH F.S. WEIDLESS EYE NUT FIG . 535 DOUBLE ANGLE CLI P ENGINEERING DATA HANGER RO D TAKE-OUT BOLTE D TO STEEL 3/e Y2 % 3/4 '/e DIMENSIONAL DAT A RECOM MAX LOAD LB ROD SIZE A Materia l - Carbon stee l Finish - - Blac k Ordering - Specify hanger ro d size, figure number and name . USED WITH WELDED EYE ROD FSW WELDED WELDE D EYE NU T EYE RO D TO STEEL B C 610 1130 1810 610 1130 1810 2710 2710 1 1'/e 3370 4000 4000 3370 4960 6230 1 3/4 1 Ye 2 3/4 3 3 1/2 3 3/4 3 34 1 Y4 4000 8000 4 1/2 1% 1 Y4 5000 5000 9500 11630 4 1/2 5 D E 1 3/4 2 1/2 3 11/8 1 3/4 1/2 % 3/4 31/4 21/4 2 1/4 2 3/4 2 3/4 3 ,/8 4 4 1/2 4 1/2 1 1Y 8 1 1/4 5 5 1/2 6 1/2 APPROX WT PE R 100 SCH 40 PIPE SPACE R F s 3/4 1 '/ G H 2% 2 1/2 3 /1 8 '6 MATERIAL ; 2 x 1 1/2 x 1/4 L 1 6 31/4 1~6 1 3x2 x. /4 L 1 1/8 1/4 3% 4 3A 1 (6 1(6 4x3 x%L 1% 1 1/2 4'/8 1% 5 13(6 13 16 4x3 5x3 x%L x 1/2 1 1 1/2 1% 1% 13/4 5 1/8 1 6 1 5 x3 1 x /2 l 51/4 l ib 10 5 16 0 27 0 32 5 73 0 85 0 94 0 1470 1680 2025 Standard Angle Cli p Fig . 542 Standard Angle Clips are intended for use on . the side of wood, concrete, or steel beams under normal conditions . Fastening is by lag bolts in wood, expansion shields i n concrete and by bolting or welding to steel . Material - Carbon stee l Finish - - Blac k Ordering - Specify hanger rod size, figure number an d name . FIG . 542 Fig . 542 ENGINEER ING DATA RECOM MAX LOAD LB LAG SCREW OR BOLT TO STEEL ROD SIZE A 2/e Y2 % 3/4 '/e _ 100 160 300 350 500 E. MYATT & CO. STANDARD ANGLE CLI P DIMENSIONAL DATA APPROX WT PER 100 B C 1316 1 X16 1 11r~i6 2 1 1/4 1 5/e 1 7/8 2 1/8 2 1/2 D 3/4 1 1 1 1/8 1 1/4 TORONTO ONTARIO HOLES MATERIA L X16 i6 Y x 1 1/4 25 ¼ x 1 Y2 % x 1 1/2 40 1146 % % %x2 1/2 X 2 70 10 5 16 5 61 Section 5 ll~l ATTACHMENTS Fig . 54 5 Plate Washers have many applications in any piping pro ject . They are illustrated used as bearing plates welde d to "back-to-back" channels . Standard sizes are listed for convenience but washer s may be obtained to any dimensions and specifications . FIG . 545 ROD SIZE A Fig . 645 % '/2 7 7/ 1 1'/s 1 1/4 1% 1'/s 1% 2 APPRO X WT PER 100 DIMENSIONAL DATA HOLE MATERIAL Y4 x3x3 62 % 1916 W6 1K6 1/4 x 3 x 3 % x3x3 %x3x3 ysx4x4 1/2x4x4 62 91 91 21 6 1 1/4 1% x4x4 , x5x5 206 329 1'h % x5x5 40 5 1% 11/$ 5/8 x5x5 % x5x5 % x5x5 39 9 38 6 '16 3 Material - Carbon stee l Finish - - Blac k Ordering - Specify hanger rod size, figur e number and name . PLATE WASHER 2'/e 21 0 371 Fig . 550 Rocker Washers are recommended within th e range shown in the data table, where hanger rod swing may be encountered . The assembly consists of two matching circula r dished washers permitting an average of 8 0 hanger rod angularity from the vertical . Fig . 550 ROCKER WASHE R FIG. 550 Material - Forged stee l Finish - - Galvanize d Ordering - Specify rod diameter, figure number and name . E. MYATT & CO . 62 ROD SIZE A RECOM MAX LOAD LB 3 ~ % 34 610 1 13 0 1810 2710 DIMENSIONAL DATA UPPER LOWER WASHER WASHER I .D. O .D. I .D. O.D. E % '/2 % 3/4 TORONTO ONTARI O g ib 1 1/8 1% 1 ~ T '/2 1~/8 3/4 7/8 7/ 1 Y2 % % 1 7/$ 1 7/8 3/4 K6 ' 16 '16 APPROX WT PER 100 5 10 16 19 ' Section 5 UPPER ATTACHMENT S Hardened Steel Rocker Washe r Fig . 555 Hardened Steel Rocker Washers . are recommended for use with critical high temperature pipin g systems . The assembly consists of two ground surfaces of rust proof hardened steel . The matching ground surfaces permit easy rocking movement of th e hanger rod to accommodate horizontal movement of the pipe . TOP OF SUPPORTING STEEL Fig. 555 FIG . 555 HARDENED STEEL ROCKER WASHER Material - Hardened and ground rust proof steel . Finish - - Greased surfaces . Ordering - Specify rod diameter, figur e number and name . ROD SIZE A RECOM MAX LOAD LB B DIMENSIONAL DATA C R T APPROX WT PE R 100 a/a '/2 610 % 1130 % 1810 '%2 2j2 1 N6 1% 1 '/2 1 3/4 1 3/4 3/4 2710 % 1 W 6 1 3(6 1% 1 2/e 2 2 34 2 3/4 2 34 3/8 3770 4960 '/2 21 23 44 1'/a 6230 1'/4 8000 2'/4 2% 3 3% ' '/2 76 1'/2 11630 13(6 13j6 1 X16 2 Mt 3'/2 1 j6 '/4 3 (6 9 13 K6 % 56 92 C-Clam p Fig . 586-588 C-Clamps are used for securing pipe lines t o I-Beam, wide flange beam and channel wher e thickness does not exceed 3/4" . Set screw should not be overtightened . FIG . 588 C-CLAMP IS WITHOUT LOCKNU T Fig . 586 FIG . 586 C-CLAM P Material - Malleable iron . Finish - - Blac k Ordering - Specify rod diameter, figur e number and name . E. MYATT & CO . RO D SIZE RECOM . MAX. LOAD C E H APPROX. WT. PER 100 % 510 1 3/4 % 1% 42 '/2 535 1 3/4 % 1% 49 % 550 2 3/4 1'/2 62 3/4 630 2 3/4 1 '/2 87 DIMENSIONAL DATA TORONTO ONTARIO 63 Section 6 AUXILIARY STEE L Standard Auxiliary Hanger Stee l Fig . 600 The table of Standard Auxiliary Steel offer s a simplified means of selecting suitabl e common hanger auxiliary steel for th e loading indicated . A complete range o f auxiliary steel is available on application . The clip angle affords ease of installation and necessary adjustment . When weldin g is not permitted, members with double cli p angles for bolting are available . Instal l angles with long leg vertical . C- L WELD TO ' EXISTIN G STRUCTURAL 1 MEMBER HOLE - "H" L -- SECT . a- a SPAN (LESS 15 " ) Fig . 600 Single Angle *A11 loads based on Safety Factor of 5 . STD AUX HANGER STEE L FIG . 600 StjE NO ALLOWABLE CONCENTRATED LOAD, L B (AT CENTER Of SPAN, FT)" 3 4 5 6 7 s SINGLE ANGLE 2½ x2½ x 1/4 3 x 3 x 1/4 4 x 4 x 1/4 4 x3 x % 5 x3 x % 6 x4 x 3 1 2 3 4 5 6 CLI P ANGL E 525 400 300 250 225 200 2 1/2 775 575 450 375 325 300 2 1/2 1450 1100 875 725 625 550 3 2000 1500 1200 1000 850 750 3 2950 2200 1750 1475 250 1100 3 4400 2200 8801650 . 3 x 2 1/2 x V4 x 2 1/2 x 1/4 x3 x 1/4 x 3 x 1/4 x3 x 1/4 x 3 x 3/8 Heavy Duty Auxiliary Hanger Stee l Fig . 650 Heavy Duty Auxiliary Steel is intended t o supplement the load range of Fig . 600 a s indicated in the data table . Members ar e available with four angle clips for boltin g when welding is not permitted . Back-to-back channel spacing is deter mined by the hanger rod . Plate Washers Fig . 545 page 62 affor d horizontal adjustment of the hanger rod . SPACE AS REQUIRE D SPAN WELD T O EXISTIN G STRUCTURA L MEMBER -_ H k Material - Carbon stee l Finish - - Blac k Ordering - Specify size number, span , figure number, and name . Specify dimension 'C' an d hole size 'H' if required . SPAN (LESS 1)S" ) SECT . b- b • Fig . 650 Double Channel *All loads based on Safety Factor of 5 . FIG. 650 SIZE NO DOUBLE CHANNEL HVY DUTY AUX HANGER STEE L ALLOWABLE CONCENTRATED LOAD, LI (AT CENTER OF SPAN, FT)" 7 3 4 s 6 1 29202200 1 ][ 4 .1 2 4 ][ 5 .4 5050 3800 3 53E6 .7 8000 6000 4 6 3E8 .2 11450 8600 S 8 3[11 .5 21600 16200 1750 3050 4800 6875 13000 1450 2500 4000 5725 10800 250 2200 3400 4900 9250 1100 1900 3000 4300 8100 CLI P ANGLE S 2½ x 2 1/2 x 1/4 2½ x 2 1/2 x 1/4 3 x 3 x 1/4 3 x 3 x 3/8 3 x3 x % Material - Carbon stee l Finish - - Blac k Ordering - Specify size number, span , figure number, and name . Order Fig . 545 Plat e Washers separately . For Structural Steel details and dimensions, see page 75 . 64 E . MYATT & CO . TORONTO ONTARI O Section 7 ANCHORS and GUIDES Fig . 702 Base Ancho r Base Anchors are recommended for anchoring horizontal pipe o r welding elbows . They are designed to anchor against pipe expansion forces and movements . Alloy plates are available for. welding to alloy pipe or fittings . FIG . 702 BASE ANCHO R DIMENSIONAL DAT A ,-PLATE TH K C H L Tl T2 4 1/2 16 6 1 36 S 1/4 3/8 6 1 i6 P 8 13 6 E 8 1 16 C 3/8 1/2 9 1/2 1 %6 I 9 1/2 ~%6 F 3/e /2 3/16 1 1 /2 Y PIPE SIZE Fig. 702 4 5 Material - Carbon steel Finish - - Blac k Ordering - Specify pipe size, dimension ' L' , figur e number and name . Specify if for horizontal pipe or for long or short radius welding elbows . Fig. 70 3 Rigid Base Suppor t Fig. 704 B 6 8 6 8 8 10 10 12 14 16 10 12 12 14 1 Sliding Base Suppor t HOLES • "H" __ SQUAR E P L ATE Fig. 703 RIGID BAS E SUPPORT Material - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, dimension 'L' , figure number and name . Specify if for horizontal pipe, or for long o r short radius welding elbows . E .I•' HOLES • "H " ,,L SQUAR E F PLAT E Fig . 704 SLIDING BAS E SUPPORT Fig . 703 and 704 are stanchion type base supports recommended for the support of horizonta l pipe or welding elbows . For pipes larger than 4 inch, a structural section replaces the pipe (used on smaller sizes) a s the stanchion member . The rigid type is for non-moving pipe and is bolted to the floor or pier . The sliding type allows for horizontal pipe movement . A wear plate, supplied with the support , is bolted to the floor providing a sliding surface . FIG . 703 RIGID BASE SUPPORT FIG . 704 SLIDING BASE SUPPOR T ENGINEER ING DATA PIP E SIZE 2½ 3 3% 4 5 6 8 10 12 14 16 DIMENSIONAL DAT A RECOM MAX LOAD LB MAX L C D E F 450 8 00 1000 1200 2000 2500 3000 3800 4000 6000 6500 36 36 36 72 72 72 72 72 72 120 120 4 1/2 4 1/2 4 1/2 4 1/2 6 6 8 8 9 1/2 9 1/2 11 1/2 6 6 6 6 8 8 10 10 12 12 14 6 1/2 6 Y2 6 1/2 6 1/2 8 1/2 8 1/2 10 10 10 12 12 8 8 8 8 10 10 12 12 12 14 14 _ E . MYATT & Co . _ G 4 4 4 _ 4 5 5 6 1/2 6 1/2 6 1/2 8 1/2 8 1/2 H HOLES 2 - ~6 2- ~6 22 - ib 4 - 1K 6 4 - 1/16 4- % 4 - 1316 4-% 4 - 13f6 4 - 1 16 TORONTO ONTARIO T STANCHION 1/4 2 " STD PIP E 2 " STD PIPE 2 " STD PIPE 2" STD PIP E 4WF 1 3 4WF1 3 6B1 2 6WF15 . 5 6WF15 . 5 8WF3 1 8WF3 1 1/4 1/, 1/4 % 3A 34, 3/8 % 1/2 1/2 65 Section 7 ANCHORS and GUIDE S Fig. 705 Sliding Support (welded type) v - - ~• — l ----•I FOR 6" PIPE AND SMALLE R FOR 8 " PIPE AND LARGE R Sliding Supports and Sliding Guides (Welded Types) are recommended for th e support of rack piping in chemical plants and refineries where the pipe is subject t o horizontal expansion . The length of the assembly ' L' may be increased to provide for larger horizonta l pipe movements . All supports maintain a standard 4 inch height between the sup porting steel and the bottom of the pipe . Fig. 706 Sliding Guide (welded type ) Sliding Guides are used where guidin g of the sliding support is indicated . Th e addition of side restraining lugs as illustrated convert a standard Fig . 70 5 to the Sliding Guide . Dimensions may be modified to sui t specific applications . Materia l - Carbon stee l Finish - - Blac k Ordering - Specify pipe size, figure FOR 6 '" PIPE AND SMALLER FOR 8 " PIPE AND LARGER FIG . 705 number and name . SLIDING SUPPORT FIG . 706 SLIDING GUIDE ENGINEERING DATA PIPE SIZE B 3/4 D C DIMENSIONAL DATA MAX AVAIL GUID E MVT E F K L STEE L SIZE APPROX WT PE R 10 4' 1 1 '/4 4'j6 4% 1 '/2 2 2' 3 4' i6 3 1/2 4 5 6 8 10 12 14 16 6 6 1/4 6% 7 16 8 ;6 9% 10 3/8 1 1 12 18 ZO 13 14 24 16 5i6 5%6 5 3/4 250 2 4 — — 2'/4 6 ST48x ,5'. Q 2 4 — --- 4 6 ST4B x 5 .0 25 0 2'/2 3 '/ 2 - - 4 6 ST4B x 5 .0 ST4B x 6 .5 ST4B x 6 .5 25 0 32 5 32 5 98 5 100 5 128 5 149 5 6 6 8 8 8 3 7 4 '/4 % 3 9 9 6 6 % 5 3/4 8 10 10 8 3/4 '/4 '/4 3/8 10 S/e 7 '/8 3/8 Y2 12 12 3, /2 E . MYATT & CO . 66 (welded t pe ) TORONTO ONTARI O 148 5 232 5 349 5 3475 Section 7 ANCHORS and GUIDES Sliding Support (non-welded type ) Fig . 707 L - K _,_...I SUPPORTIN G STEEL PIPE AND LARGER FOR 8 " FOR 6 " PIPE AND SMALLER Sliding Supports and Sliding Guides (Non-welded Types) are recommended for the support of rack piping in chemical plants and refineries which is subject to horizontal expansion , and where welding is not desirable . The length of the assembly 'L' may be increased to provide for larger horizontal pip e movements . All supports maintain a standard 4 inch height between the supporting stee l and the bottom of the pipe . Fig . 708 Sliding Guide (non-welded type) Sliding Guides are used where guidin g of the sliding support is indicated . Th e addition of side restraining lugs as illustrated convert a standard Fig . 70 7 to the Sliding Guide . Dimensions may be modified to suit specific applications . .llo n materials available for application to allo n ar e pipin g over 750" F . FOR 6 " PIPE AND SMALLER Material - Carbon stee l Finish - - Blac k FOR 8" PIPE AND LARGER Ordering - Specify pipe size, figure number and name . FIG . 707 SLIDING SUPPORT FIG . 708 SLIDING GUIDE ENGINEERING DATA PIPE SIZE S '/. 1 1'/. 1 ~/2 2 2 1/2 3 3 '/2 4 1/2 4% 4 1 3(6 4 'K6 D DIMENSIONAL DATA MAX AVAIL GUIDE MVT A E F J K STEE L SIZE L APPRO X WT EAC H FIG. 707 1. 9 2 4 % - - 5 2 3'/2 '/2 - - 4 ~/2 2'/2 4 Y2 '/2 - - 4 1/2 '/4 3/8 7'/2 '/4 3/8 % 9'/4 6 ST4$x .S. 0 4 6 ST4B x 5 .0 4 6 ST4Bx5 .0 ST4 B x 6 .5 ST4Bx6 .5 4th 5Kf6 5 K6 5 34 6 4 5 6 8 10 12 14 16 18 6'/4 6'36 7 6 8 6 9% 10 % 11 12 13 20 14 24 C (non-welded type ) 16 4.9 % 3 7 6 3 9 9 8 3/4 6 6 5 3/4 10 s/8 , 7 /e 3 , /2 % 3/4 '/8 1 1 % 5 6 7 8 9 8 10 -- 10 , /2 11 '/e 12 5.1 5.4 5.6 6 .8 9. 9 16 . 5 23 . 2 30 . 4 35 . 5 3 8.9 43 . 0 12 --- 76 . 7 76 .7 E . MYATT & CO . LTD ., TORONTO ONTARI O 67 Section 8 SPRING and CONSTANT SUPPORT S Spring Hangers for Mobile Pipe Suspensio n Mobile Suspension Devices are used to prevent the over-stressing of piping, damage to connecte d equipment, and possible failure of the pipe suspension system, resulting from vertical movement of suspended piping or connected equipment due to thermal expansion . When piping expands upward and away from its support a rigid hanger no longer affords an y supporting action to the pipe ; when piping is restrained from moving downward by a rigid suppor t very large stresses are induced in the pipe . Mobile suspension devices will prevent the actual piping weights from causing the above faults , but proper stress analysis and suitable expansion compensation is still required for prope r hanger design . To select the proper type of suspension device it is necessary to consider : (1) the load to b e supported, (2) the magnitude of the piping movements, (3) the general configuration of the piping, (4) allowable end reactions at connected equipment, (5) allowable internal pipe stresses . Our engineers are always at your service to offer recommendations, or to check your sprin g hanger selection . VARIABLE SPRING HANGERS FIG . 805 - 810 - 82 0 Variable spring hangers are used for the support of piping subject to less than 2 inche s of vertical movement and where a variation of supporting force of up to 20% is allow able . A complete catalogue showing various sizes and mountings is available on request . LIGHT DUTY SPRING HANGER FIG . 87 0 Light duty spring hangers are intended for use on non-critical piping for light loads , (270 lb . max .) and nominal vertical movement . Fig . 870 Light duty spring hangers are shown on page 69 of this catalogue . SPRING CUSHIONS - FIG . 88 0 A B SWAY BRACES Spring cushions are used where piping is subject to negligible vertical movemen t but where a protective cushioning action is required . Fig . 880 Spring Cushions are shown on page 69 of this catalogue . FIG . 890 Sway braces are used to reduce and control piping vibration incident to certai n systems . Sway braces are useful in the control of inertial forces in marin e applications . Information and details are available on request . CONSTANT SUPPORT HANGER S c~ CI:ED 68 Constant support hangers are used primarily for the suspension of piping subjec t to vertical movement exceeding 2 inches, and when a variation of more than 5 % in supporting force could endanger the piping system or the equipment . A complete catalogue is available on request . E . MYATT & CO . TORONTO ONTARIO . Section 8 SPRING and CONSTANT SUPPORT S Fig . 870 Light Duty Spring Hange r Light Duty Spring Hangers are intended for use on non-critica l piping for small loads and nominal vertical pipe movements . The Light Duty Spring affords an economical, flexible hanger for steam or hot water piping, with single hanger rod sus pension --r- A . Material - Carbon stee l Finish - - Prime" coat corrosion resistant paint . Ordering - Specify spring size, figure number and name . Mfa Order hanger rods se p arately . - !tot /h . % I /, Fig. 870 LIGHT DUTY SPRING HANGER FIG . 870 SPRING SIZE MAXIMUM PIPE LOAD LB 1 2 3 4 50 85 15 0 270 ENGINEERING DATA MAXIMUM SPRG DEFL (IN ) DEFLECTION FROM FREE RATE LR/IN HEIGHT 35 55 10 0 135 DIMENSIONAL DATA APPROX WT PER 100 1 % 1 Y2 1 ' 2 Fig . 880 A R C % % 5 1/4 5 1/4 6% 8'4 3 3 3', 4 'h ' 14 5 18 5 32 0 460 Spring Cushion s Spring Cushions are used where piping is subject to negligibl e vertical movement but where a protective cushioning action is required. When used with Fig . 261 Trapeze Roller Hanger as illustrated, a n excellent flexible support is provided for horizontal steam or ho t water pipe . Material - Carbon stee l Finish - - Black Ordering - Specify spring size, Dimension I AA , figure number and name. Note - • - One set consists of four retaining plates and tw o springs . Order hangers separately . Fig. 880 For Trapeze Roller Hangers see Fig . 261 page 34 . For Continuous Thread Rod see Fig . 434 page 49 . Note -Loads and deflections are per set (two springs ) FIG. 880 SPRING SIZE 1 2 3 SPRING CUSHION S MAX PIPE LOAD LB 535 1500 3000 ENGINEERING DATA MAX SPRG DEFL DEFLECTION (IN) FROM FREE RATE LB/IN HEIGHT 428 1200 2400 1~ 1 ~/4 1 1/4 E. MYATT & CO . DIMENSIONAL DAT A A % ~ X78 UNLOADED B C APPROX WT PE R 100 6 3/4 6 9% 3 t~ 4 ~/z 4 ~/z 45 0 1400 2200 TORONTO ONTARIO 69 kdlen 1 0 ALIGNMENT GUIDE Fig . 1267 PIPE ALIGNMENT GUID E Pipe Guides should be used to maintain th e alignment of pipe through its axial expansion and contraction cycles . Guides are particularl y important in conjunction with expansion joints . The pipe should be supported by conventional methods independent of the pipe guides . The spider attachment to the pipe must be installed to insur e that at least half the spider length remains withi n the housing during operation . Guides are available to special order for travel in excess of the standard shown . Material - Carbon Steel . Finish - - Prime coat of corrosion resistan t paint . Ordering - Specify bare pipe diameter , insulation thickness and guid e size number . Fiig .1267 Size Number 70 PIPE ALIGNMENT GUID E Weight (approx. ) tbs. per 100 A 5 7/8 6'311 8 B C 4 '/2 51(4 6% 5 3/8 6 5/`6 7 5/6 D E F G H T 3'/2 4 6% 6 3/4 2'/2 2'/2 2 '/2 4 4 4 5/8 5/e 5/e '/4 '/4 '/4 1 2 3 1000 1400 1800 4 5 6 1800 2600 3300 10%6 12 i 14 ~% e 8 5/e 10 3/4 12 3/4 9 5A 11 5/8 13 5/6 5 6% 7'/4 7 3/6 7 3/8 8 2'/2 4 4 4 6 6 5/e % 5/e '/4 '/4 7 8 9 4600 6400 8100 16 7/8 18 ~/8 21 5/8 14 3/4 16 3/4 19 15 ~% e 17 7/s 20 8'/2 9'/2 10'/2 9 3/4 10 % 11'/4 5 1/2 5'/2 5 1/2 8 8 8 3/4 3/4 3/4 s/S6 5/5 6 s/~ 6 10 11 12 11400 12400 17400 23 5/8 25 5/8 28 3/8 21 23 25 3/4 22 24 26 5/e 11'/2 12'/2 13 3/4 14'/8 14 3/4 15 7/8 5 1/2 8 7/6 7/e 5'/2 8 1 3/8 3/8 3/8 13 14 22300 26300 32'/8 36'/8 29'/2 3 3'/2 30 1/2 34'/2 15 3/4 17 3/4 16 3/e 17'/8 5 1/i 5'/2 8 8 1 1 3/e 3/8 E . MYATT & CO . 35 58 TORONTO 8, ONTARI O Section 1 0 ALIGNMENT GUID E PIPE ALIGNMENT GUID E Fig . 1267 ALIGNMENT GUID E SELECTIO N CHART Fig . 1267 COVERING THICKNESS BARE PIPE 1 1 '/2 #1 #2 #3 1 #1 #2 1 1/4 #2 1Y 3 4 #4 #4 #5 #3 #4 #4 #5 #3 #4 #4 #5 #6 #2 #3 #4 #4 #5 #6 2 #2 #3 #4 #4 #5 #6 2 1/2 #3 #4 #4 #5 #5 #6 3 #4 #4 #5 #5 #6 #7 3½ #4 #4 #5 #5 #6 #7 4 #4 #5 #5 #6 #6 #7 5 #5 #5 #6 #6 #7 #8 6 #5 #6 #6 #7 #7 #8 6" 8 #7 #7 #8 #8 #9 8" 10 #8 #8 #9 #9 #1 0 12 #9 #9 #10 #10 #1 1 14 #10 #10 #11 #1 2 16 #11 #11 #12 #12 8" 18 #12 #13 10 " 20 #13 #1 3 24 #14 #14 3/a 2 E . MYATT & CO. 2 1/2 MAX . TRAVEL TORONTO ONTARIO 6" 10" 71 Section 9 TECHNICAL Technical Sectio n To facilitate the use of this catalogue, and for your convenience, we have tabulated in each page pertinent ENGINEERING DATA and DIMENSIONAL DATA applicable to each hanger part . The Technical Section contains additional and supporting data, gathered from various sources, an d compiled to assist the engineer in designing the most suitable hanger of the proper material . TABLE OF CONTENTS ITEM Field welding instructions . Thermal expansion of pipe . . . Maximum temperatures for various metals Hanger rods, threads per inch, dimensions Hanger rod loads - carbon steel, alloy . . Decimals of a foot Decimals of an inch, and equivalent millimeters . . Channels and beams - weights, dimensions, section moduli Pipe deflection and stress . Outside diameters of pipes . Weights of piping materials Conversion tables . . Pipe hanger spacing . . Intermediate guide spacing . Hanger supply services . . . . . . . Pag e 72 73 73 74 74 74 74 75 76-7 7 78 78-8 7 88 89 89 90 INSTRUCTIONS FOR FIELD WELDING OF RIPE HANGER ATTACHMENT S PREPARATIO N 1. Surfaces intended for welding must be thoroughly cleaned of any oil, grease or water , and of rust, grit, or other foreign matter in order to provide a clean base for the weldin g operation . APPLICATIO N 2. Care must be taken during the welding process to produce a proper amount of penetration of the parent metal to provide for good adherence of the weld . 3. Full throated fillet welds must be made in joining the hanger attachments to the existing building structural members . 4. All fillet welds shall be continuous unless specified to the contrary . Intermittent welding, where called for, will consist of full throated fillet welds, each deposit of one inc h measured length along the weld, with weld deposits spaced one inch apart . 5. Welding may be made by means of either the oxy-acetylene or shielded electric ar c process as desired . CAUTION 6. Every precaution shall be taken to follow good techniques of welding in accordance wit h good welding practice . 7. Care must be taken so that existing structural members are not unduly overheated durin g the welding operation . 8. Heating of the existing structural beams, channels, etc ., must not be applied upon th e compression or tension face of a member along a line perpendicular to the length of th e member . 9. The attachment of clips, angles and other weldments to existing structural member s shall be made in such a manner that the welding beads are parallel to the longitudina l centre line of the member . 72 E . MYATT & CO . TORONTO ONTARIO Section 9 TECHNICA L Thermal Expansion of Pipe in Inches per 100 Fee t Saturated Stea m Tom Vacuum in HG perature below 212 F. , Degrees Pressure pri g Fahren above 212 F. heir 29 .39 28 .89 27 .99 26 .48 24 .04 20 .27 14 .63 6 .45 0 2 .5 10 .3 20 .7 34 .5 52 .3 74 .9 103 .3 138 .3 180 .9 232 .4 293 .7 366 .1 451 .3 550 .3 664 .3 795 .3 945 .3 1115 1308 1525 1768 2041 2346 2705 3080 -200 -180 -160 -140 -120 -100 - 80 -- 60 -- 40 - 20 0 20 32 40 60 80 100 120 140 160 180 200 212 220 240 260 280 300 320 340 360 380 400 420 440 460 480 500 520 540 560 580 600 620 640 660 680 700 720 740 760 780 800 820 840 860 880 900 920 940 960 980 1000 1020 1040 1060 1080 1100 1120 1140 1160 1180 1200 1220 1240 1260 1280 1300 1320 1340 1360 1380 1400 1420 1440 1460 1480 1500 152 0 1540 1560 1580 1600 Cast Iron Carbon & Carbon Molybdenum Steel • Copper Brass Aluminum 2-S Monet Wrought Iron 4-6% Cr . Alloy Steel 12% Cr . Stainles s Steel -1 .250 -1 .150 -1 .030 -0.970 -0.800 -0.700 -0.550 -0 .430 -0 .290 -0 .145 0 0 .140 0 .234 0 .280 0 .430 0 .500 0 .650 0 .800 0 .950 1 .100 1 .250 1 .400 1 .500 1 .550 1 .720 1 .880 2 .050 2 .200 2 .370 2 .530 2 .700 2 .860 3 .010 3 .180 3 .350 3 .530 3 .700 3 .860 4 .040 4 .200 4 .400 4 .560 4 .750 4 .920 5 .100 5 .300 5 .480 5 .650 5 .850 6 .030 6 .220 6 .410 6 .610 6 .800 7 .000 7 .190 7 .380 7 .580 7 .770 7 .970 8 .170 8 .360 8 .550 8 .75 8 .95 9 .15 9 .35 9 .54 9 .75 9 .95 10 .15 10 .36 10 .49 10 .75 10 .95 11 .15 11 .35 11 .55 11 .75 11 .95 12 .15 12 .35 12 .54 -1,170 -1 .070 -0 .970 -0 .870 -0 .750 -0 .630 -0 .520 -0 .400 -0.270 -0 .130 0 0 .140 0 .234 0 .280 0 .430 0 .550 0 .690 0 .820 0 .960 1 .090 1 .230 1 .380 1 .460 1 .510 1 .650 1 .790 1 .930 2 .080 2 .220 2 .360 2 .510 2 .670 2 .820 2 .980 3 .130 3 .290 3 .450 3 .600 3 .760 3 .930 4 .090 4 .250 4 .420 4 .580 4 .750 4 .910 5 .080 5 .250 5 .430 5 .600 5 .770 5 .950 6 .120 6 .300 6 .480 6 .660 6 .840 7 .010 7 .200 7 .380 7 .560 7 .840 7 .920 8 .10 8 .27 8 .46 8 .64 8 .83 9 .00 9 .18 9 .36 9 .55 9 .72 9 .90 10 .08 10 .27 10 .45 10 .63 10 .80 10 .98 11 .17 11 .35 11 .53 18 Cr. -8 N i Stainles s Stee l -2 .030 -1 .850 -1 .670 -1 .480 -1 .300 -1 .090 -0 .880 -0 .67 0 -0 .45 0 -0 .22 5 0 0 .22 3 0 .35 6 0 .44 6 0 .669 0 .89 2 1 .11 5 1 .33 8 1 .54 5 1 .784 2 .000 2 .23 0 2 .36 1 2 .46 0 2 .68 0 2 .92 0 3 .15 0 3 .390 3 .61 5 3 .840 4 .100 4 .346 4 .580 4 .800 5 .05 0 5 .300 5 .540 5 .800 6 .050 6 .28 0 6 .520 6.780 7.020 7 .270 7.520 7 .770 8 .020 8 .28 0 8 .52 0 8 .78 0 9 .05 0 9 .300 9 .580 9 .820 10 .100 10 .37 0 10 .630 10 .900 11 .180 11 .460 11 .730 12 .000 12 .260 12 .5 5 12 .8 2 13 .1 0 13 .3 7 13 .6 2 13 .9 1 14 .1 7 14 .4 5 14 .7 2 14 .9 8 15 .26 15 .5 3 15 .8 1 16 .08 16 .3 4 16 .62 16 .90 17 .1 7 17 .43 17 .70 17 .98 Example : 18 .2 5 Find the expansion in 240 ft . of carbon steel pipe carrying steam at 232 psig . pressure with 100 deg . 18 .5 2 18 .8 0 superheat and lowest surrounding temperature at 60 F . Total heat = 400 plus 100 = 500 F . 19 .07 Elongation, steel pipe at 500 F . = 4 .151 " 19 .3 3 Elongation, steel pipe at 60 F . = .448 " 19 .6 0 19 .8 8 Difference 3 .703 " per 100 ft . Expansion in 240 ft. = 2 .40 x 3 .703 = 8 .887" 20 .42 -1 .058 -0 .982 -0 .891 -0.797 -0.697 -0 .593 -0 .481 -0 .368 -0 .248 -0 .127 0 0.128 0.209 0 .270 0 .410 0 .550 0 .680 0 .830 0 .970 1 .110 1 .240 L390 1 .480 1 .530 1 .670 1 .820 1 .970 2 .130 2 .268 2 .430 2 .590 2 .750 2 .910 3 .090 3 .250 3 .410 3 .570 3 .730 3 .900 4 .080 4 .250 4 .430 4 .600 4 .790 4 .970 5 .150 5 .330 5 .520 5 .710 5 .900 6.090 6 .280 6.470 6 .660 6.850 7.049 7.248 7 .460 7.668 7 .862 8 .073 8.300 8 .510 -1 .282 -1 .176 -1 .066 -0 .948 -0 .826 -0 .698 -0.563 --0.428 -0 .288 -0 .145 0 0 .148 0 .230 0 .300 0 .448 0.580 0 .753 0 .910 1 .064 1 .200 1 .360 1 .520 1 .610 1 .680 1 .840 2 .020 2 .180 2 .350 2 .530 2 .700 2 .880 3 .060 3 .230 3 .421 3 .595 3 .784 3 .955 4 .151 4 .342 4 .525 4 .730 4 .930 5 .130 5 .330 5 .530 5 .750 5 .950 6 .160 6 .360 6 .570 6 .790 7 .000 *7 .230 7 .450 7 .660 7 .970 8 .100 **8 .340 8 .540 8 .770 8 .990 9 .220 9 .420 9 .65 9 .87 10 .08 10 .32 10 .57 10.75 10 .98 11 .21 11 .43 11 .63 11 .87 12 .10 12 .33 12 .55 12 .75 12 .98 13 .21 13 .42 13 .65 13 .87 -2 .69 -2 .44 -2 .18 -1 .93 -1 .67 -1 .40 -1 .12 -0 .85 -0 .58 -0 .28 0 0 .32 0 .50 0 .63 0 .93 1 .24 1 .53 1 .84 2 .15 2 .46 2 .77 3 .08 3 .28 3 .41 3 .73 4 .07 4 .40 4 .74 5 .10 5 .43 5 .78 6 .13 6 .47 6 .84 7 .19 7 .55 7 .90 8 .25 8 .61 8 .98 9 .35 9 .74 10 .11 -1 .53 -1 .955 -2 .065 -1 .40 -1 .782 -L890 -1 .27 -1 .612 -1 .705 -1 .12 -1 .428 -1 .508 -0 .98 -1 .235 -1 .308 -0 .82 -1 .040 -1 .098 -0 .68 -0 .835 -0.888 -0 .51 -0 .630 -0 .673 -0 .35 -0 .421 -0 .452 ~ -0 .18 -0 .210 -0 .227 0 0 0 0.2 0 .238 0 .233 0.3 0 .366 0 .373 0 .37 0 .451 0 .466 0 .55 0 .684 0 .690 0 .74 0 .896 0 .920 0 .92 1 .134 1 .150 1 .11 1 .366 1 .390 1 .30 1 .590 1 .625 1 .804 1 .865 1 .50 1 .70 2 .100 2 .051 1 .88 2 .340 2 .296 2 .467 2 .00 2 .428 2 .580 2 .07 2 .516 2 .830 2 .27 2 .756 2 .47 3 .070 2 .985 3 .315 2 .66 3 .218 2 .87 3 .461 3 .565 3 .07 3 .696 3 .820 4 .065 3 .27 3 .941 4 .350 3 .48 4 .176 3 .70 4 .424 4 .610 3 .91 4 .666 4 .870 4 .12 4 .914 5 .150 4 .34 5 .154 5 .400 4 .56 5 .408 5 .680 4 .78 5 .651 5 .950 4 .99 5 .906 6 .220 6 .148 6 .500 5 .23 6 .780 5 .45 6 .410 6 .646 7 .070 5 .69 .919 7 .350 5 .91 6 7 .184 7 .620 6 .12 7 .920 6 .38 7 .432 6 .61 7 .689 8 .200 8 .500 6 .85 7 .949 7 .07 8 .196 8 .800 9 .080 7 .30 8 .472 7 .65 8 .708 9 .390 7 .79 8 .999 9 .680 8 .02 9 .256 9 .980 9 .532 10 .300 8 .27 9 .788 10 .600 8 .51 10 .068 10 .920 8 .76 10 .308 11 .220 9 .02 10 .610 11 .530 9 .27 10 .971 11 .860 9 .52 11 .156 12 .170 9 .78 11 .421 12 .500 10 .04 12 .810 10 .31 11 .707 10.57 11 .976 13 .140 10.83 12 .269 13 .460 11 .08 12 .543 13 .800 11 .36 14 .140 11 .63 14 .460 11 .90 14 .80 12.18 15 .13 12 .43 15 .47 12 .72 15 .81 16 .16 12 .98 16 .50 13 .26 16 .86 13 .55 17 .21 13 .81 14 .10 14.39 NOTEI The horizontal lines in each column, 14 .68 recommended 14 .96 indicate the maximum 15 .24 temperature for each metal . *Maximum for Carbon . 15 .53 15 .82 **Maximum for Carbon Maly . 16 .10 16 .40 16 .68 -1 .289 -1 .183 -1 .073 -0 .955 -0 .833 -0 .705 -0 .570 -0 .435 -0 .295 -0 .152 0 0 .180 0 .280 0 .350 0 .540 0 .710 0 .887 1 .058 1 .240 1 .420 1 .580 1 .750 1 .870 1 .940 2 .120 2 .300 2 .470 2 .670 2 .850 3 .040 3 .230 3 .425 3 .620 3 .820 4 .020 4 .200 4 .400 4 .600 , 4 .810 5 .020 5 .220 5 .430 5 .620 5 .840 6 .050 6 .250 6 .470 6 .670 6 .880 7 .100 7 .320 7 .530 7 .730 7 .960 8 .180 8 .400 8 .630 8 .870 9 .070 9 .300 9 .520 9 .740 9 .970 From the Piping Handbook by Sabin Crocker, McGraw-Hill Publishing Co ., & ASME Paper No . 53-A-52, 1954 . Data on monel from International Nickel Co . E . MYATT & CO . TORONTO ONTARIO 73 Section 9 TECHNICA L Hanger Rods-Recommended Maximum Load s RECOMMENDED MAXIMUM LOAD (LB ) CARBON STEEL ROD ALLOY ROD - ASTM A'93 GRB 7 DIMENSIONAL DATA HANGER ROD DIAM (IN) NO . THDS/IN . NATL . COARSE) ROOT OF THD . DI A (IN) ARE A (IN2) EYE ROD S NOT WELDED* STRAIGHT HANGER ROD OR WELDED EYE ROD** STRAIGHT HANGER RO D OR WELDED EYE RO D i 650 ' F 750' F --650 . F 650' F 750 ' F 1/4 20 .185 .027 95 240 215 _ _ 5/16 18 .240 .045 160 410 365 _ _ 3/8 16 .294 .068 240 610 540 1,275 1,13 0 1 ;'2 13 .400 .126 440 1,130 1,010 2,360 2,10 0 705 _ 5/8 11 .507 .202 1,810 1,610 3,780 3,36 0 3,/4 10 .620 .302 1,050 2,710 2,420 5,650 5,08 0 7'8 9 .731 .419 1,470 3,770 3,360 7,850 6,97 0 1 8 .838 .551 1,940 4,960 4,420 10,650 9,190 1 1/8 7 .939 .693 2,430 6,230 5,560 13,000 11,53 0 1 1/4 7 1 .064 .890 3,120 8,000 7,140 16,700 14,81 0 1 3/8 6 1 .158 1 .054 3,700 9,470 8,400 19,750 17,55 0 1 1/2 6 1 .283 1 .294 4,650 11,630 10,370 24,250 21,58 0 1 3/4 5 1 .490 1 .744 6,380 15,700 14,000 32,700 29,050 2 4Y2 1 .711 2 .300 8,280 20,700 18,460 43,100 38,30 0 2 1/4 4Yz 1 .961 3 .021 - 27,200 24,260 56,600 50,30 0 2 1/2 4 2 .175 3 .716 - 33,500 29,880 69,550 61,85 0 2 3/4 4 2 .425 4 .619 - 41,570 36,950 79,750 57,00 0 3 4 2 .675 5 .621 _ 50,590 44,970 97,000 70,95 0 3 1/4 4 2 .925 6 .720 - 60,480 53,760 116,000 103,00 0 3 1/2 4 3 .175 7 .918 71,260 63,340 136,600 121,300 - Reference page 4 8 Reference page 4 9 For a given pipe size, select hanger rod diameter as specified by the pipe clamp . (Eg . 4 ' Fig.124 . 5i8" rod ) In the case of a spring hanger, the spring size will specify the hanger rod diameter to be used . Decimal Equivalents DECIMALS OF AN INCH & EQUIVALENT MILLIMETER S DECIMALS OF A FOO T INCH 0" 1" 2" 3„ 4„ 5„ 6" rte. 0 0 _ .0833 .1667 7" 8'' 9" y 10" ♦ 11 " Decimal mm Decimal mm A .2500 .3333 .4167 .5000 .5833 ,6667 .7500 .833 3 .916 7 1/32 .0312 .794 17/32 .5312 13.49 4 1/16 .0052 .0885 .1719 .2552 .3385 .4219 .5052 ,5885 .6719 .7552 .8385 .921 9 1/ 16 .0625 1 .588 9/16 .5625 14.28 8 1/8 .0104 .0938 .1771 .2604 .3438 .4271 .5104 .5938 .6771 .7604 .8438 .927 1 3/32 .0937 2 .381 19 32 .5937 15 .08 1 3/16 .0156 .0990 .1823 .2656 .3490 .4323 .5156 .5990 .6823 .7656 .8490 .932 3 1/8 .1250 3 .175 5 /8 .6250 15 .87 5 1/4 .0208 .1042 .1875 .2708 .3542 .4375 .5208 .6042 .6875 .77 08 .8 542 .937 5 5,'32 .1562 3 .969 21/32 5/16 .0260 .1094 .1927 .2760 .3594 .4427 .5260 .6094 .6927 .7760 .8594 .942 7 3/16 .1875 4 .763 11'16 .6875 17.46 3 3/8 .0313 .1146 .1979 .2812 .3646 .4479 .5313 .6146 .6979 .7813 .8646 .947 9 7/32 .2187 5 .556 23,'32 .7187 1825 6 7/16 .0365 .1198 .2031 .2865 .3698 .4531 .5365 .6198 .7031 .7865 .8698 .953 1 1 '4 .2500 6 .350 3 ;'4 1 /2 .0417 .1250 .2083 .2917 .3750 .4583 .5417 .6250 .7083 .7917 .8750 .958 3 9 .'32 .2812 7 .144 25 32 .7812 19.84 4 9/16 .0469 .1302 .2135 .2969 .3802 .4635 .5469 .6302 .7135 .7969 .8802 .963 5 5-'16 .3125 7938 5/8 .0521 .1354 .2188 .3021 .3854 .4688 .5521 .6354 .7188 .8021 .8854 1 .968 8 11 /32 .3437 11/16 0573 .1406 .2240 .3073 .3906 .4740 .5573 .6406 .7240 .8073 .8906 .974 0 3/8 .3750 9 .525 3/4 .0625 .1458 .2292 .3125 .3958 :4792 .5625 .6458 .7292 .8125 .8958 .9792 13/32 .4062 10 .319 29 '32 .9062 23.01 ' 13/16 .0677 .1510 .2344 .3177 .4010 .4844 ,5677 .6510 .7344 .8177 .9010 .984 4 7/" l 6 .4375 11 .113 1516 .9375 23 .81 3 7/8 .0729 .1563 .2396 .3229 .4063 .4896 .5729 .6563 .7396 .8229 .9063 .9896 15/32 .4687 11 .906 31;32 1 5/ 16 .0781 .1615 .2448 .3281 .4115 .4948 .5781 .7448 .8281 .9115 .9948 1 /2 .5000 12 .700 74 .6615 E . MYATT & CO . TORONTO ONTARI O 8 .731 .6562 16b6 9 .7500 19.05 0 13, 16 .8125 2463 8 27 32 .8437 21 .43 1 7,"8 .8750 2222 5 1 .9687 24.60 6 1 .0000 25.406 Section 9 TECHNICA L Channels-Beam s WEIGHTS - DIMENSIONS - SECTION MODULI For Standard and Heavy Duty Auxiliary Hanger Steel Assemblies, See Fig Nos 600, 650, Page 64 . "r Ame r ican Standard c hannel s r American Standard I-beams 1 I- nomina l weight flange thickness sec t size, per ft . , width of flange, ~ mod lb Z I axi s X 3X in wide flange beam s I Li depth of weight flange mean sect section, per ft ., width thickness mod Y lb of flange, axis Z X-X in3 4 .1 1-3/8 depth of weight flange mean sect section, per ft ., width thickness mod Y lb of flange, axis Z X-X in3 1 .1 5 .7 2-3/8 1 .7 3 3 5 .0 1-1/2 .25 1-5/8 1 .4 5 .4 1-5/8 1 .9 7 .25 1-3/4 7 .5 2-1/2 7 .7 2-5/8 9 .5 2-3/4 1 .9 ' 1-3/4 9 .0 1-7/8 5 8 2 .3 10 .0 3 4 .8 .313 3 .0 14 .75 3-1/4 3 .5 8 .2 1-7/8 12 .5 6 25 6 .456 16 .8 8 17 20 24 28 31 35 40 48 58 67 5-1/4 5-1/4 6-1/2 6-1/2 8 8 8-1/8 8-1/8 8-1/4 8-1/4 .308 .378 .398 .463 .433 .493 .558 .683 .808 .933 14.1 17.0 20 .8 24 . 3 27 .4 31 .1 35 .5 43 .2 52 .0 60 .4 21 25 29 33 39 45 49 54 60 66 72 77 89 100 112 5-3/4 5-3/4 5-3/4 8 8 8 10 10 10-1/8 10-1/8 10-1/8 10-1/4 ,10-1/4 10-3/8 10-3/8 .340 .430 .500 .433 .528 .618 .558 :618 .683 .748 .808 .868 .998 1 .118 1 .248 21 .5 26 .4 30 . 8 35 . 0 42 .2 49 .1 54 .6 60 .4 67 .1 73 .7 80 .1 86 .1 99 .7 112 .4 126 . 3 27 31 36 40 45 50 53 58 65 72 79 85 92 99 106 120 133 161 190 6-1/ 2 6-1/2 6-5/8 8 8 8-1/8 10 10 12 12 12-1/8 12-1/8 12-1/8 112-1/4 12-1/4 12-3/8 12-3/8 12-1/2 12-5/8 .40 0 .465 .540 .516 .576 .641 .57 6 .641 .606 .671 .736 .796 .856 .921 .986 1 .106 1 .236 1 .486 1 .736 34 . 1 39.4 45 .9 51 .9 58 .2 64 .7 70 . 7 78 .1 88 . 0 97 . 5 107 .1 115 .7 125 .0 134 .7 144 .5 163 .4 182 .5 222 .2 263 . 2 30 34 38 43 48 53 61 68 74 78 84 87 95 103 6-3/ 4 6-3/4 6-3/4 8 8 8 10 10 10-1/8 12 12 14-1/2 14-1/2 14-5/8 .383 .453 .513 .528 .593 .658 .643 .718 .783 .718 .778 .688 .748 .813 41 . 8 48 .5 54 .6 62 .7 70.2 77 .8 92 .2 103 .0 112 .3 121 .1 130 .9 138 .1 150 .6 1163 .6 73 3-3/8 17 .25 3-5/8 5 .0 15 .3 3-5/8 20 .0 3-7/8 12 .0 18 .4 4 14 .2 23 .0 4-1/8 25 .4 4-5/8 9 .0 35 .0 5 5 2 13 .0 2-1/8 5 .8 9 .8 2-1/8 6 .0 12 .25 2-1/4 .375 .375 6 .9 14 .75 2-1/4 7 .7 11 .5 2-1/4 8 .1 .375 375 4 .3 10 .5 10 .4 .375 8 .438 10 18 .75 2-1/2 10 .9 ~ 31 .8 13 .4 2-3/8 10 .5 35 .0 5-1/8 15 .0 2-1/2 40 .8 5-1/4 20 .0 2-5/8 13 .5 15 .3 2-5/8 13 .4 20 .0 2-3/4 15 .7 25.0 2-7/8 30 .0 3 11 .3 .438 20.7 3 25 .0 3 24 .4 29 .2 50 .0 42 .9 15 .625 50 .0 5-5/8 6 23 .9 65 .4 6-1/4 75 .0 6-3/8 7 41 .7 85 .0 40 .0 3-1/2 46 .2 95 .0 7-1/4 50 .0 3-3/4 53 .6 79 .9 7 42 .7 4 61 .0 58 88.4 101 .9 116 .9 126 .3 20 150.2 .938 160.0 173.9 .875 90 .0 12 813 3-3/8 51 .9 58 .9 64 2 .688 6-1/4 33 .9 18 50.3 5-1/2 26.9 4. 44 .8 - 3-1/8 45 .8 37 .8 5-1/2 i 30.0 .625 1 36 .0 .688 18 .1 54 .7 20 .6 18 ---70 .0 21 .4 .50 10 16 .0 50 2-3/8 .438 176 . 3 189 . 4 202 . 0 216 . 0 226 . 7 240. 2 253 . 4 267. 3 281 9 295.. 8 310 . 0 324 . 9 339 . 2 352 . 6 367 . 8 382 . 2 16 36 40 45 50 58 64 71 78 88 96 7 7 7 7-1/8 8-1/2 8-1/2 8-1/2 8-5/8 11-1/2 11-1/2 .428 .503 .563 .628 .645 .715 .795 .875 .795 .875 56 . 3 64.4 72 . 4 80. 7 94. 1 104. 2 115. 9 127. 8 151 . 3 166 . 1 18 50 55 60 64 70 77 85 96 105 114 7-1/2 7-1/2 7-1/2 8-3/4 8-3/4 8-3/4 8-7/8 11-3/4 11-3/4 11-7/8 .570 .630 .695 .686 .751 .831 .911 .831 .911 .991 89. 0 98. 2 107. 8 117. 0 128. 2 141 . 7 156. 1 184.4 202. 2 220 . 1 21 62 68 73 82 96 112 127 142 8-1/4 8-1/4 8-1/4 9 9 13 13 13-1/8 .615 .685 .740 .795 .935 .865 .985 1 .095 126 . 4 139 . 9 150 . 7 168 . 0 197 . 6 249 . 6 284 . 1 317 . 2 24 76 84 94 100 110 120 130 145 160 9 9 9 12 12 12-1/8 14 14 14-1/8 .682 .772 .872 .775 .885 .930 .900 1 .020 1 .135 175 . 4 196 . 3 220.9 248. 9 274 .4 299 . 1 330 . 7 372 . 5 413 . 5 27 94 102 114 145 160 177 10 10 10-1/8 14 14 14-1/8 .747 .827 .932 .975 1 .075 1 .190 242 . 8 266 . 3 299 . 2 402 . 9 444 . 5 492 . 8 30 108 116 124 132 172 190 210 10-1/2 10-1, 2 10-1/2 10-1,'2 15 15 15-1/ 8 .750 .875 .930 1 .00 1 .065 1 .185 1 .315 299 . 2 327 9 354 .6 379 . 7 528 . 2 586 . 1 649 9 8 .7 7 13 .75 10 15 9.9 6 .0 6 12 12 .420 3 .3 .563 9 5 .313 ' 7 18 .5 .313 5 6 5 .313 6 .7 .873 .938 .998 1 .063 1 .063 1 .128 1 .188 1 .248 1 .313 1 .378 1 .438 1 .503 1 .563 1 .623 1 .688 1 .748 nominal weight flange thickness sect size, per ft ., width of flange, mod Y lb Z axis X-X in 3 3 .0 4 4 14-5/8 14-5/8 144/4 14-3/4 15-1/2 15-1/2 15-1/2 15-5/8 15-5/8 15-5/8 15-3/4 15-3/4 15-3/4 15-7/8 15-7/8 15-7/8 .25 1 .2 6 .0 14 111 119 127 136 142 150 158 167 176 184 193 202 211 219 228 237 7-1/8 24 ~---. 63 .7 100 .0 7-1/4 4-1/8 69.1 105 .9 7-7/8 4-1/4 74 .5 120 .0 8 185.8 197 .6 .625 1 .125 E . MYATT & CO . 234 .3 250 .9 14 TORONTO ONTARIO 75 Section 9 TECHNICAL Pipe Deflection Stress Chart Explanation and Example s A common problem confronting the hanger designer is the decision to locate either a rigid hange r or a spring hanger in a pipe line subject to some vertical movement . His decision will be governed by the flexibility of the pipe line and the amount of load or reaction force which may safely be applied to the connected equipment such as pumps, small turbines an d heaters, or against pipe anchors . The Pipe Deflection . Stress Chart on page 77 is offered to enable the engineer to determin e allowable deflection and resulting stress in an anchored and guided pipe cantilever . The Chart is intended for application to non-critical pipe lines where a high degree of exactitud e is not needed . Using the Chart eliminates rigorous stress and deflection calculations not neces sary to this class of piping . The Chart is not intended for application to such critical systems as main or reheated steam o r boiler feed pipes where exact thermal movement and pipe stress should be found through forma l calculations . The engineer is advised to use the Chart together with the Thermal Expansion Table on page 7 3 and refer to allowable pipe stress values tabulated in the several sections of the Code for Pressur e Piping. Basis of the Pipe Deflection r Stress Chart Up to 650°F, S A 3E A (O om .D ) 3 144x10 xL z 625 x A x O .D . L' Above 650°F, S A ') = 1..25 Sc + .25 = 25 Where : E A ASSUMED MANNER OF DEFLECTIO N OF GUIDED CANTILEVER L fAx (O .D. ) SA SA x L' '625 (0.D. ) = 30 x 10 6 (psi) = Deflection (in ) = Pipe length (ft ) O.D. = Outside diameter of pipe (in ) S A = Stress (kips/sq in) kip = kilo-pounds (1000 lb ) Use of the Chart is shown in the following examples : Example 1 . Example 2 . Find- - - Pipe length, L . Given - - Deflection, pipe size, allowabl e stress. Find - - - Pipe stress, S . Given - - Deflection, pipe size, allowabl e stress . Assume - Deflec (A) = 1 .25 inch Nom pipe size = 6 inch Allow stress (SA) = 18 kips/sq in Assume - Deflec (A) = 1 .25 i n Nom pipe size = 6 i n Pipe length = 17 ft Enter the Chart on page 77 with A 01 and pipe and follow arrows to intersection . Follow line ® down to 18 kips/sq in and read Pip e Length of 17 ft . (sloped line) size 02 Enter the Chart on page 77 with A U and pipe size 02 and follow arrows to intersection . Follow line 03 down to intersectionwith sloped line of L = 17 ft and read horizontally to the right. The stress is 18 kips/sq in . (1) Allowable stress range, Code for Pressure Piping, ASA B31 . 1 76 E. MYATT & CO . TORONTO ONTARI O ) LIn 0:ln OS31I-OlBlliSIM li I II ISSI i 0''w'" m-'"mm MI 1 1111161%.'1101,112.0111I IOU 11 1111 111i I WA ONI WI MC N 911I II IHMI LW. Ell 0 NM Oft:M. IN RE n IN 1111I =WI MK: .iiirnisurniuiis 3 IIlil C II 91112 1EN1=1MIll1111I El~\~► IN\I ►~ IWO Ell El MANI IMnII II MIMI ME =III nn 10 El 0 umm l IIIIM E v 1111111111111111111t WM IuuIIrnImulmIir4r A Ol MI~~~~11~1~n n 11 111 I I II I II 1111 vv Mal -qI mum, I= s 111I III '' . 4I UK II •"'A P''A P''Ad ' II II II I III All PAO PAP I/ 111I II • WA WOW RP: WI IA VP AP r M nn . cams ''"T I MI 0 II P. MIS 1111111 01'' OM 0 it OM= MIMI El M MI Mal 0 IC 1 n1111 IN =MR ME BM MN M ' r AdIlltdPi g ArAZORnPinlK , 1 I‘ .11 IM! 111 1, II '911I 11111 2/r/MiladlO gga g a 1116, 101 El NMI 5 1 _\/i/ItMiltede'a'MOM 5 / ___ mmi... n - MNUM" . . _ . II ' 31k" 'd PA n 01 I i KM 9:01I 2&0'215O 1n..M mime _1 10 OM nnIIIM911IWI 111111H.1 P'A Pri II td!: WA n II FA IrA P'Al ' MOW MOM n1 NMI OM 0•1111IM1111rIA 111 P /WA P2 PII II PAM IA ' , IhNIO . b. 116. -"''''j- 6.. , Wk Mifili g roliCar g ► 11► N~ ~v \ :• ' '4 11101111INIO II IIIN 2Z .OillSEMOICM .111 ,%/IM ►!'/,I1/I %11 .1 ► IMP E‘!'/./.K IIPn IPI LIN 3 IIi WI a MI 101 II e KM lb IMI IInIll OS 01 IN NI II 0 111n EMI OE 11111 /02!O5111'edOMidlPt'lli/1110 dl UFA PA/ OM I PI 11P n111111 El /1 11h. gip MI MIMI 1,N ' MITMI NI =hi ! :-2 .1 WI M O IF/A O r. II YAP /AMP% II rA IE NI 111 PrA I 'A F. OW Mal It di III al NMI i►.~ ~ .~i .•i iii i~•~~~~~~ ~ j'''l mum! . 1111 LI III WWI II I II WI E IIII NM II II II II IiL%IV ME bil• n11n1 El NEU =El 'ha NE. r 'ea U 1 I 5 VAMP: 1 I II II II I III MI •1I El. =IMO NB II = 11111MIM1111111 Section 9 TECHNICAL Weights of Piping Material s General Note s Pipe material weights are shown in boldface type in the tables on pages 79 through 87 . Pipe insulatio n factors are shown in light face type . To determine weights of insulation on flanges, valves and fittings, multiply insulation weight per foo t by the appropriate factor in light face type . Weight per foot of steel pipe is subject to the following tolerances : Specification Tolerance Specification Toleranc e ASTM A 5 3 ASTM A 120 Std ±5% XS ±5 % XXS±10% ASTM A 15 8 ASTM A 206 ASTMA280 12" andunder, +6 .5%, -3 .5% over 12" size, +109 , -5 % ASTM A 106 Sch 10-120, +6 .5%, -3 .5% Sch 140-160, +10%, -3 .5% API 5L All sizes, +6 .5%, -3 .5 % Weight of tubing (lb/ft) = 10 .6802 x F x T (D-T) Where : T = Wall thickness (inches) D = Outside Diam . (inches ) F = Relative weight facto r Weight of tubing is based on low carbon steel weighing 0 .2833 pounds per cubic inch . Relative Weight Factor "F" of Various Metal s Carbon Steel Wrought Iron 1 .00 0 .98 Stainless Steel Cast Iron 1 .01 0 .91 Aluminum Brass 0 .35 1 .12 Copper Lead 1 .1 4 1 .44 Weight of fluid in a tube (lb/ft) = 0 .3405 x G (D - 2T) 2 , Where : G = Fluid Specific Gravit y D = O.D . of tube (inches ) T = Tube wall thickness (inches ) Weights of insulation are for conventional 85% magnesia and diatomaceous silica and asbesto s compositions and include approximate weights of canvas, cement, paint, wire and bands . Add to this, weight of any weatherproofing, metal sheathing or other specified special protection . Valve weights vary according to particular manufacturer's designs . Weights shown herein ar e approximate only and do not include weight of any mechanical or motor operator mechanisms . In the following tables, weights of 125 and 250 pound cast iron valves are for valves with standar d flange ends . Weights of steel valves are for welding end type . To calculate weights of flanged end steel valves, add tabulated weight of valve to weight of two corresponding slip-on flanges . Weights of flanges and flanged fittings include weights of bolts and nuts . OUTSIDE DIAMETERS OF PIPE S NOM STEEL SOIL BELL AND SPIGOT MECH COPPER NOM STEEL JOINT TUBING PIPE PIPE PIPE PIPE PIPE SIZE (IPS) SIZE (IPS) 150-200-250 PIPE 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 3-1/2 4 0 .840 1 .050 1 .315 1 .660 1 .900 2 .375 2 .875 3 .500 4 .000 4 .500 2 .375 3 .500 4 .500 3 .96 4 .80 4 .80 0 .625 0 .875 1 .125 1 .375 1 .625 2 .125 2 .625 3 .125 3 .625 4 .125 E . MYATT & CO . 78 5 6 8 10 12 14 16 18 20 24 SOIL BELL AND SPIGOT MECH COPPE R PIPE JOINT TUBIN G 100 150-200-250 PIP E 5 .562 5 .500 6 .625 6 .500 8 .625 8 .625 10 .750 10 .750 12 .750 12 .750 14 .000 15 .30 16 .000 17 .40 18 .000 19 .50 21 .60 20 .000 24 .000 25 .80 TORONTO ONTARIO 6 .90 9 .05 11 .10 13 .20 15 .65 17 .80 19 .92 22 .06 26 .32 6 .9 9 .0 11 .1 13 .2 15 .3 17 .4 19 .5 21 .6 25 .8 5 .12 5 6 .12 5 8 .12 5 10 .12 5 12 .12 5 - Section 9 TECHNICA L Weights of Piping Material s 1" PIPE SIZE W a' a, v, 0 z c~ H z H uJ t-' Schedule No . 40 80 Designatio n Std . xs Thickness - In . .133 .179 Pipe - Lb ./Ft . 1 .68 Water - Lb ./Ft . xx s Std . xs .250 .358 .140 .191 .250 .38 2 2 .17 2 .84 3 .6 6 2 .27 3 .00 3 .76 5 .22 .37 .31 .23 .1 2 .65 .56 .A6 .27 90° Elbo w 1 .0 3 1 .0 .3 2.3 .3 2.6 .3 1 .5 .3 1 .6 .3 3.0 .3 3.3 .3 45° Elbo w 1 .0 .2 1 .0 .2 2 .0 .2 2.5 .2 1 .3 .2 1 .4 .2 2.5 .2 2. 8 .2 Tee 1 .3 .4 1 .4 .4 3 .2 .4 3.3 .4 2.0 .5 2 .2 .5 3 .8 .5 4 .4 .5 .6 1 .4 1 .5 1 .0 1 .2 1 .1 1 .2 1 .4 1 .8 1 .2 .3 1 .5 .3 .9 .3 .9 .3 1.0 .3 1 .4 .3 .6 Couplin g .5 .3 Cap Materia l Screwed or Slip-O n 125 .5 .3 250 150 4 1 .5 2 1 .5 . U Lap Join t Elbow 0" W0 0 Z Z 6 3 .6 L .R . 90° Elbo w 3. 8 -I ~ 45' Elbo w 5 3 .2 Tee 1 1 5 .4 S .R . 90° u_~ Type of End s W > 1 900 600 3 1 .5 3 4 1 .5 , 1 .5 , 2 3 1 .5 1 .5 2 .5 1 .5 400 11500 1 2500 Stee l Welding Nec k Blin d 300 Cast Iron 2.5 1 .5 160 4 1 .5 3 1 .5 11 1 .5 14 1 .5 6 y 1 .5 4 1 .5 11 1 .5 1 1 1 .5 15 1 .5 15 1 .5 4 1 .5 11 1 .5 16 1 .5 14 3 .7 30 3.8 13 3 .4 20 5 .6 26 3 .6 40 5. 7 STEE L BUTT WELDING END S 8 .5 1 .5 Gat e (Flanged bonnet) Globe or Angl e (Flanged bonnet ) 13 1 .5 r 125 250 150 5 1 .5 70 4. 3 8 .5 1 .5 Glob e (Bonnetless) 900 1500 2500 4 1 .5 6 1 .5 12 1 .5 22 1.5 3 1 .5 3 1 .5 6 1 .5 4 1 .5 7 1 .5 24 1.5 6 1 .5 11 1 .5 12 1 .5 3 1 .5 6 1 .5 6 1 .5 13 1 .5 24 1 .5 8 3 .6 10 3 .9 1 6 3 .7 18 3 .9 18 3 .8 32 3. 9 7 3 .3 14 5 .4 14 3 .4 15 3 .5 30 3.7 24 5 .6 26 5 .7 50 5.9 3 .0 1 .5 4.5 1 .5 23 1.5 STEE L BUTT WELDING END S 34 3 .8 _ f i 18 4 .0 95 4.4 20 4 .0 10 5 4.4 20 0.9 16 2 .2 33 1.1 28 1.2 1 2 400 1 2 600 Z Thickness-Inche s High - Temp > Thickness -Inche s 85% Magnesi a 1 1 i2 Total Wt ./ Ft . .8 1 .5 0 0 600 21 4 Gat e (Bonnetless ) Max . Temp . ° F 400 3 1 .5 C .I . FLANGED 67 4. 3 ~ 2 .5 1 .5 xx s Stee l Chec k (Flanged bonnet ) One Complet e Flanged Joint 300 Cast Iron 4 1 .5 5 1 .5 C .I . FLANGED I Bolts 160 80 Pressure Ratinp-ps i W 0 z 1'%" PIPE SIZE - 1 .660" O .D . 40 3 W 0N 1 .315" O .D. 2 6 800 1200 2 2Y2 3 .7 38 1 .1 6 5.8 1 2 400 1 2 600 1 1Y2 1 .0 1 .6 2 6 800 1200 2 2Y2 4 .1 6.4 9 FOR GENERAL NOTES SEE PAGE 78 E . MYATT & CO . TORONTO ONTARIO 79 Section 9 TECHNICAL Weights of Piping Material s 1 %2 " PIPE SIZE - 1 .900" O .D . W a a w Schedule No . 40 80 Designatio n Std . xs .145 .200 Pipe - Lb . 'Ft . 2 .72 Water - Lb . 'Ft . 40 80 xx s Std . xs .281 .400 .154 .218 .343 .43 6 3 .63 4 .87 6 .4 1 3 .65 5 .02 7 .45 9 .0 3 .88 .77 .61 .4 1 1 .46 1 .28 .97 .7 7 90° Elbo w 2 .0 4 2. 5 .4 5.5 .4 6 .0 .4 3.3 .5 3 .8 .5 6.0 .5 6.4 .5 45° Elbo w 1 .7 .2 2. 0 .2 4.2 .2 4.8 .2 2 .7 .2 2. 9 .2 5.0 .2 5 .9 .2 Tee 2 .7 .6 3.0 .6 6 .5 .6 7 .8 .6 3.8 .6 4 .4 .6 7.8 .6 8 .7 .6 1 .2 1 .3 1 .2 .3 1 .3 1 .3 2 .0 1 .3 3.0 1 .3 2 .0 1 .4 2.2 1 .4 3 .9 1 .4 4.8 1 .4 _ 1 .8 .3 2 .2 .3 2 .5 .3 1 .8 .4 2.0 .4 3.6 .4 4 .0 .4 150 300 Thickness - In . , Z - 1.1 W 0 _-.-~ Coupling Cop Pressure Rating-ps i 1251 250 Materia l Cast Iron Stee l 10 1 .5 Lap Joint 3 1 .5 7 1 .5 8 1 .5 18 1 .5 32 1 .5 4 1 .5 8 1 .5 9 1 .5 20 1 .5 32 1 .5 10 3 .7 13 3 .7 24 3 .8 28 3 .9 50 4 12 4 14 4 26 4 9 3 .4 16 5 .6 12 3 .4 20 3 .5 21 5 .6 33 5 .7 3.5 1 .5 6 1 .5 4.0 1 .5 Elbo w L .R . 90° Elbow --• 45° Elbo w Tee Type of End s 7 1 .5 24 3 .5 37 5 .8 400 600 5 1 .5 9 1 .5 900 Stee l 5 1 .5 8 1 .5 1 0 1 .5 33 1 .5 50 1 .5 6 1 .5 , 10 1 .5 12 1 .5 31 1 .5 50 1.5 5 1 .5 10 1 .5 , 11 1 .5 30 47 1 .5 , 1 . 5 33 1 .5 , 6 1 .5 10 1 .5 5 1 .5 11 1 .5 12 1 .5 1 6 3 .8 24 3 .8 1 9 3 .8 28 3 .8 42 4 80 ~4 2 , 28 4 .1 23 4 .1 31 4 .1 23 3 .5 38 5 .7 17 3 .4 25 3 .5 40 5 .7 35 3 .7 50 6 70 3 .9 , 12 0 6 .3 24 5 .7 28 5 .7 STEE L BUTT WELDING END S 155 4.8 11 0 4. 5 64 7 .3 42 4 58 4 .3 80 4 .4 160 4. 8 33 4 .2 80 4. 5 51 7 .3 27 4 55 43 47 4 .4 11 0 _4 . 8 24 2 .0 40 1.2 42 _ 2 .3 50 1 .4 Chec k (Flanged bonnet ) 32 4 .1 . ' 55 2. 1 44 1 .2 2 .5 400 1 3 .5 3 .5 9 600 800 120 0 2 2/2 Thickness-Inche s High - Temp Thickness -Inche s 85% Magnesi a Total Wt .~ ' Ft . 1 1 /2 1 .1 L8 52 1.5 83 4 .4 46 4 .2 1 1500 2500 65 4 .1 40 4 .1 Max . Temp . ° F 4 .2 12 6.6 1 .5 3 .5 1 .5 300 E. MYATT & CO . TORONTO 500 4 .5 4 600 21 12 .5 800 1200 2 1 1/2 2 1/2 1/2 1 .3 2 .1 3 .2 6 .7 8 .7 FOR GENERAL NOTES SEE PAGE 78 80 300 43 3 .9 Glob e (Bonnet) es s ) 0 U xx s 52 7 .1 Globe or Angl e (Flanged bonnet ) Gat e (Bonnetless ) 150 C .I . FLANGED 11 5 4. 5 One Complet e Flanged Joint 30 1 .5 44 3. 7 70 6 70 4 .2 27 6 .8 250 18 32 _1 .51 . 5 50 4 Gat e (Flanged bonnet ) ix w 20 1 .5 STEE L BUTT WELDING END S C .I . FLANGE ' 125 16 0 Cast Iron 8 1 .5 S .R . 90' Z 1500 2500 4 1 .5 Q N Bolts 900 Welding Nec k Blin d J 600 8 1 .5 J w 400 _ 7 1 .5 Screwed or Slip-O n - 16 0 3 1 .5 W 0 Z w0 0Z Z F_ 2" PIPE SIZE - 2 3/8" O .D . ONTARI O Section 9 TECHNICA L Weights of Piping Material s 3" PIPE SIZE - 3Y2" O .D . 2Y2" PIPE SIZE - 2 7/8 " O .D . 40 80 xx s Std . xs .375 .552 .216 .300 .438 .60 0 7 .66 10 .0 13 . 7 7 .58 10 .3 14 .3 18 . 6 2 .08 1 .84 1 .54 1 .0 7 3 .20 2 .86 2 .34 1 .80 L .R . 90° Elbo w 2.9 .6 5 .2 .6 7. 0 .6 4 .6 .8 10 . 7 .8 2.0 .4 3 .0 .5 6.1 .8 4.0 .5 8.4 .8 S .R . 90° Elbow 3. 9 .6 2 .6 .4 1 .6 .3 2.1 .3 2 .6 .3 3 .5 .3 2 .4 .3 3.2 .3 4 .4 .3 5 .4 .3 Tee 5.9 .8 6. 8 .8 7. 9 .8 10 . 0 .8 14 . 8 .8 9. 2 1 .5 13 . 5 1 .5 9. 5 .8 24 . 0 1 .8 12 . 2 .8 Lateral 7 .4 .8 17. 0 1 .8 one size 1 Reducer reduction/ 1 .7 .3 2.2 .3 2. 9 .3 4 .0 .3 2 .2 .3 2. 9 .3 3.7 .3 4.7 .3 Cap .8 .4 1 .0 .4 2.0 .4 2.1 .4 1 .4 .5 1 .8 .5 3.5 .5 3.7 .5 Schedule No . 160 40 80 Designation Std . xs Thickness - In . .203 .276 Pipe -- Lb ./Ft . 5 .79 Water - Lb ./Ft . 160 xx s w a' a 4 Z F- I- w 0 cC Z 0 w 3 45° Elbo w Pressure Rating-ps i 4 w 0 J Materia l Screwed or Slip-On r-- 125 250 13 1 .5 8 1 .5 13 1 .5 17 1 .5 45 1 .5 67 1.5 14 1 .5 15 1 .5 19 1 .5 1 9 1 .5 43 1 .5 46 1 .5 60 1 .5 67 1 .5 8 1 .5 14 1 .5 9 1 .5 9 1 .5 9 1 .5 15 1 .5 1 9 1 .5 68 1 .5 21 3 .8 27 4 .2 20 3 .5 35 5 .7 35 3 .9 40 4 .2 35 3 .6 52 5 .8 29 3 .8 33 4 .2 23 3 .5 43 5 .7 42 3 .9 47 4. 2 37 3 .6 55 5 .9 53 4 .1 46 1 .5 12 0 4. 4 w0 c7 Z L .R . 90° Elbo w i!:: 45° Elbow LL w 45 3 .8 78 6 .2 11 0 3.9 16 0 6.6 Tee Type of End s a w J > Bolts Stee l Cast Iron Lap Join t S .R . 90° Elbow C .I . FLANGED 0 V 250 400 9 1 .5 16 1 .5 600 300 9 1 .5 16 1 .5 20 1 .5 35 1 .5 60 1 .5 10 0 1.5 9 1 .5 9 1 .5 23 1 .5 21 _ 1 .5 33 1 .5 35 1 .5 59 1 .5 61 1 .5 105 1.5 10 3 1 .5 23 1 .5 37 1 .5 61 1 .5 105 1 .5 66 4 .1 90 4 .3 15 0 4.6 60 3 .8 10 0 6 .2 90 3 .9 15 0 6 .5 13 0 4 22 5 6.9 Stee l 9. 5 1 .5 18 ' 1 .5 10 ' 1 .5 17 1 .5 18 1 .5 19 1 .5 28 3 .9 33 4 .3 25 3 .5 40 5 .9 45 4 50 4 .3 40 3 .6 66 6 36 3 .9 40 4 .3 27 3 .5 52 5 .9 54 4 60 4.3 47 3 .6 82 6 ' C .I . FLANGEC STEE L BUTT WELDING END S 66 7 11 0 7 .4 77 4 12 0 4 .4 85 4 .4 22 0 5. 1 25 0 5.1 56 7 .2 12 0 7 .6 80 4 .2 10 0 4 .6 15 3 4 .8 13 2 4 .8 70 4 .4 70 4 .6 175 5. 1 46 7 .2 100 7 .6 50 4 .2 100 4 .6 90 4 .8 50 7 82 7 .1 53 4 83 4 .1 Globe or Angl e (Flanged bonnet ) 43 7 .1 90 7 .4 50 4 .1 Chec k (Flanged bonnet ) 36 7. i 71 7 .4 32 4 .1 900 11500 1 2500 150 10 8 4 .6 10 0 4 .6 Gate (Flanged bonnet ) 22 5 4 .9 240 4 .9 33 8 5.3 34 0 5. 3 Gat e (Press .seal bon . ) 70 2 .2 10 0 1 .7 100 1 .7 85 2 .5 14 5 4 .9 17 0 2 .5 Glob e (Press .seal bon . ) 80 2 .4 12 0 2 .3 12 0 2. 3 91 2 .5 18 0 2 .5 260 2.5 8 19 19 8 12 .5 25 One Complete Flanged Joint 1 .5 Max . Temp . ° F j 125 Cast Iron STEE L BUTT WELDING END S 6 ?00 1 .5 400 7 600 0 Z 1500 2500 300 7 1 .5 600 9 00 150 Welding Nec k Blin d 400 - 1 800 Thickness - Inch . High - Temp . Thickness - Inch . 85% Magnesi a Total Wt ./Ft . 27 120 0 1 .5 6 300 1 .5 400 7 .5 600 2 1 1 .4 1% 2 .3 2 3 .4 1%2 7 .3 1/2 9 .3 1 1 .6 1 %2 2 .7 800 23 5 5. 3 18 0 2. 5 37 120 0 1 %2 2 2 1 %2 1 4 .0 8.0 10 . 2 FOR GENERAL NOTES SEE PAGE 78 E . MYATT & CO . TORONTO ONTARIO 81 S.ction 9 TECHNICAL Weights of Piping Material s 4" PIPE SIZE - 4%2 " O .D . 3 %2"' PIPE SIZE - 4" O .D. w a a. Schedule No . 40 80 Designatio n Std xs .226 Pipe - Lb ./Ft . 40 80 xx s Std . xs .318 .636 .237 .337 .437 .531 .67 4 9 .11 12 .51 22 .85 10 .8 15 .0 19 .0 22 .5 27 . 5 Water - Lb ./Ft . 4 .28 3 .85 2 .5 3 5 .51 4 .98 4 .47 4 .02 3 .3 8 L .R . 90° Elbow 6 .4 9 8 .7 .9 15 . 4 .9 8.7 1 11 . 9 1 17 . 6 1 21 . 2 1 S .R . 90° Elbo w 4 .3 .6 3.3 .4 5 .8 .6 4 .4 .4 7 .5 .4 5.8 .7 4 .3 .4 7.9 .7 5.9 .4 8.5 .4 10 . 1 .4 9 .9 12 . 6 .9 20 .9 27 1 25 . 6 1 .8 4. 1 .3 16 . 4 1 45 2.1 4.9 .3 3 .4 .6 23 1 19 . 2 1 .8 3 .1 .3 2.1 .6 12 . 6 1 30 2 .1 3.6 .3 2.6 .6 6 .6 .3 6 .5 .6 8.2 .3 6.7 .6 Thickness - In . C9 Z, _ 45° Elbow F- w DO co z 0 w Te e Latera l one s ize 1 Reducer reducti o n ) C ap Pressure Rating-ps i Materia l n I w 0 z Screwed or Slip-On J Welding Nec k u. 125 250 20 Lap Join t Blind In wo 0z Z .~ - u- u. w > J > 150 300 400 13 1 .5 22 1 .5 3 6 15 8 4 4 .1 5 11 13 1 .5 14 1 .5 16 1 .5 L .R . 90° Elbow 45 4 .4 63 4 .4 45° Elbo w 31 52 3 .6 , 3 .7 37 3 .6 Te e 60 84 600 900 1500 250 0 Stee l 48 4 54 4.4 S .R . 90° Elbo w . Type of End s a 2.8 .6 Cast Iron 1 .5 6. 9 .3 5 .5 .6 250 150 300 400 Cast Iron 15 1 .5 26 1 .5 27 1.5 23 1 .5 27 1 .5 27 1.5 35 1 .5 17 1 .5 29 1 .5 14 1 .5 15 1 .5 16 1 .5 18 1 .5 80 4. 3 4 .1 78 3.9 4 .2 80 4 .5 60 3 .8 11 0 6 .3 58 ~ 85 4 .1 4 .2 70 92 4 .5 4. 5 75 50 3 .7 3 .8 84 124 6 .1 6 .3 8 25 1 .5 50S 44 3 .7 74 6 .1 6 44 STEE L BUTT WELDING END S C .I . FLANGEC Gat e (Flanged bonnet ) 82 7 .1 14 3 7 .5 88 4 .1 20 0 4. 9 Globe or Angl e (Flanged bonnet ) 74 7 .3 13 7 7 .7 99 4 .3 16 0 4 .9 109 7 .2 97 7 .4 Chec k (Flanged bonnet), 71 7 .3 12 5 7 .7 54 4 .3 12 0 4.9 80 7 .4 26 1 .5 27 1 .5 28 1 .5 32 1.5 3 .5 Max . Temp . ° F 0 = cr w 0U 6 .5 200 12 3 .5 400 600 Thickness - Inch . High - Temp . Thickness - Inch . 85% Magnesi a Total Wt ./Ft . 1 1 1/2 2 1 .7 2 .9 4 .3 4 800 1200 92 1 .5 15 5 1.5 80 1 .5 92 1 .5 15 7 1 .5 154 1 .5 16 1 1 .5 10 0 4 .3 13 0 a 18 0 4 .4 4 .5 24 0 4 .8 90 3 .9 153 6 .4 11 8 4 195 6 .6 21 0 4. 2 35 0 7. 2 1%2 2 1%2 1%2 8 .6 11 .1 18 8 7 .5 17 7 7 .8 14 6 7 .8 11 5 17 3 4 .2 4 .5 116 8 4 .4 4 .8 104 14 6 4 .4 4 .8 4 400 E . MYATT & CO . TORONTO 7 .5 21 0 5 194 5 160 5 12 500 1 1%2 2 1 .8 3 .2 4 .8 FOR GENERAL NOTES SEE PAGE 7 8 82 16 0 4 .1 25 0 6 .8 94 1 .5 STEE L BUTT WELDING END S 6 .5 200 1500 250 s 42 65 1 .5 1 .5 42 58 1 .5 1 .5 45 * 68 1 .5 1 .5 48 6 1 .5 1 .5 Glob e (Press .seal bon . ) One Complete Flanged Joint 900 32 1 .5 38 1 .5 34 1 .5 38 1 .5 (Press .seal bon . ) Bolts 600 Stee l 27 56 4 .5 16 0 xx s 25 6 C .I . FLANGED 125 120 ONTARIO 275 5 .1 37 0 5 .3 22 0 5 .1 18 0 5 .1 38 0 5 .3 25 6 5 .3 57 0 5.7 55 0 5. 7 35 0 5 .7 165 2 .5 175 2 .5 23 0 2 .8 26 0 2 .8 25 0 3 37 5 3 12 .5 25 34 600 2W 5 .1 61 800 120 0 1 Y2 2 1%2 1%2 9.8 12 .2 Section 9 TECHNICAL Weights of Piping Material s 5" PIPE SIZE - 5 9/16" O .D . Schedule No . 40 80 120 Designation Std xs Thickness - In . .258 .375 .500 Pipe - Lb ./Ft . 14 .6 20.8 27 .4 8.66 7 .89 7 .06 14 . 7 1 .3 9.8 .8 21 1 .3 13 . 7 .8 6" PIPE SIZE - 6 5/8" O .D . 16 0 40 80 120 160 xx s Std xs .625 .75 0 .280 .432 .562 .718 .864 32 .9 38 . 6 19 .0 28 .6 36 .4 45 .3 53 . 2 6.33 5 .6 2 12 .5 11 .3 10 .3 9 .16 8 .1 4 32 1 .3 37 1.3 22 . 9 1 .5 15 .2 1 34 1 .5 22 .6 1 53 1 .5 61 . 8 1.5 11 . 3 .6 29 . 3 1 .4 16 .7 .6 42 1 .4 26 .6 60 1 .4 30 .6 68 1.4 79 2 .9 18 . 8 .5 21 .5 17 . 5 .9 17 . 5 .9 xx s w aa Water - Lb ./Ft . L .R . 90° Elbow _ , _ 0 S .R . 90° Elbo w H 45° Elbo w 7.3 .5 10 . 2 .5 15 . 6 .5 17 . 7 .5 Te e 19 . 8 1 .2 26 1 .2 39 1 .2 43 1 .2 Lateral 49 2 .5 70 2. 5 onR s iz e Reducer reduct i on) 6 .4 8.3 .4 12 . 4 .4 14 . 2 .4 8 .7 .5 10 1 2.9 12 . 6 .5 Ca p C 4 .2 .7 5 .7 .7 11 .7 1 1 .7 6.4 .9 9 .2 .9 OO mz J w 3 Pressure Rating-ps i tn w 0 z J u. Materia l Screwed or Slip-On 125 250 150 19 1 .5 In O E FJ -u. u S .R . 90° Elbow L .R . 90° Elbow 45° Elbo w Tee Type of End s y uJ J 2 1 j .5 35 1 .5 23 1 .5 39 1 .5 48 1 .5 79 1 .5 10 3 1 .5 60 4 .3 78 4.7 98 4 .3 11 0 4 .7 84 3 .8 14 5 6 .5 80 4 .3 90 4 .7 62 3 .8 11 3 4 .3 13 0 4. 7 10 5 3 .8 173 6 .4 13 5 4 .5 21 2 4 .7 26 6 4 .8 40 0 5. 2 12 0 4 190 4 .2 24 0 4 .3 34 0 4. 5 80 4 .3 97 4 .9 70 3 .8 200 6 .8 31 0 7 40 0 7 .2 62 0 7.8 11 7 6 .5 54 3 .8 91 6 .4 32 1 .5 34 1 .5 32 1 .5 38 1 .5 44 1 .5 45 1 .5 74 1 .5 78 1 .5 73 1 .5 98 1 .5 96 1 .5 10 3 1 .5 12 0 6 .4 C .I . FLANGED 14 0 ' 20 0 7 .3 7 .9 15 0 4 .3 25 0 4 .9 31 0 5 .3 40 0 5 .5 51 0 5 .8 Globe or Angl e (Flanged bonnet ) 14 0 7 .6 25 0 8 170 4 .6 24 0 5 27 5 5 .3 65 8 5. 8 Chec k (Flanged bonnet ) 12 0 7 .6 21 0 8 14 0 4 .6 200 5 25 0 5 .3 275 5 .5 274 5 .5 285 2 .9 300 2 .9 One Complete Flanged Joint > O u 6 6 8 12 .5 19 .5 150 300 400 40 1 .5 9001500 250 0 Stee l 23 1 .5 275 1.5 28 1 .5 50 1 .5 13 0 4.4 14 5 4.9 14 7 3 .9 22 44 1 .5 1 .5 24 42 1 .5 1 .5 24 48 1 .5 1 .5 29 55 1 .5 1 .5 90 15 5 4 .3 4 .4 12 5 19 0 4.9 i 4 . 9 80 13 5 3 .8 3 .9 200 6.6 14 5 6 .5 C .I . FLANGED 85 0 6. 3 600 22 5 6 .6 55 1 .5 54 1 .5 54 1 .5 95 1 .5 95 1 .5 93 1 .5 205 1 .5 10 0 1 .5 11 5 1 .5 13 0 1 .5 13 0 1 .5 13 5 1 .5 70 1 .5 19 0 4 .6 280 4 .8 36 0 5 55 0 5.3 15 5 4 .1 250 4 .3 45 0 4 .6 29 0 6 .9 41 0 7 .2 320 4 .3 55 0 7 .5 17 0 7 .3 36 0 8 21 0 4 .3 37 5 5 40 0 5 .5 55 0 5 .8 78 0 6 185 7 .8 35 0 8 .2 24 0 4 .8 35 0 5 .2 465 5 .8 84 0 6 15 5 7 .8 290 8 .2 175 4 .8 275 5 .2 36 5 5 .4 34 0 5 .4 53 0 6. 3 40 0 3 .1 450 3. 4 38 5 5 .8 395 3 .9 50 0 3 .1 55 0 3.4 41 5 3 .9 46 0 6 54 0 3 .5 600 3 .5 33 60 30 40 6 10 75 0 8 STEE L BUTT WELDING END S 325 5 .8 98 20 0 1 .5 21 0 1 .5 200 1 .5 40 0 1 .5 40 0 1.5 4 00 1.5 42 0 1.5 6 11 .5 19 123 0 6 .6 875 6 .5 600 3.8 700 3.8 76 14 5 t 200 Thickness - Inch . High - Temp . Thickness - Inch . 85% Magnesi a Total Wt ./Ft . 6 .5 250 25 0 1 .5 2 95 1.5 25 0 1 .5 STEE L BUTT WELDING END S Gat e (Flanged bonnet ) Max . Temp . ° F 125 Cast Iron 18 1 .5 21 1 .5 18 1 .5 Glob e (Press seal bon . ) Z 1500 250 0 900 165 1 .5 16 5 1 .5 17 0 1 .5 173 1 .5 31 1 .5 Gat e (Press .seal bon . ) Bolts 600 Stee l Lap Join t 0 W O Z 400 Cast Iron Welding Nec k Blind 300 300 500 600 800 1000 120 0 1 /2 2 3 200 300 400 600 700 800 1000 1200 1 /2 1 /2 2 3 2 1 %2 1/2 16.7 24 . 2 1 1 %2 2 2/2 1 /2 1 %2 1 %2 1 1 /2 2 2'/2 1/2 2 .3 3 .8 5 .6 7 .4 10 .9 13 .3 20 . 6 2 .5 4 .2 6 .4 8 .4 12.3 14 .9 FOR GENERAL NOTES SEE PAGE 78 E . MYATT& CO. TORONTO ONTARIO 83 Section 9 TECHNICAL Weights of Piping Materia 8" PIPE SIZE - 8 5/8" O .D . Schedule No . 30 Designatio n 40 60 Std . 80 100 120 140 xs S 10" PIPE SIZE - 10 3/4" O .D . 16 0 30 xx s 40 60 Std . xs 80 100 120 140 160 w d a Thickness - In . . 277 .322 .406 .500 .593 .718 .812 .875 .906 .307 .365 .500 .59 3 .718 .843 1 .000 1 .125 Pipe - Lb ./Ft . 24 .7028,55 35 .64 43 .4 50 .9 60 .6 67 .8 72 .4 74 . 7 34 .24 40.5 54 .7 64 .3 76 .9 89.2 104 .1 115 . 7 Water - Lb ./Ft . 22 .18 21 .69 20.79 19.8 18 .8 17 .6 16 .7 16 .1 15 . 8 34 .98 34 .1 32 .3 31 .1 29.5 28.0 26 .1 24 . 6 11 4 2 11 7 2 81 . 5 2 .5 46 2 69 2 45° Elbow 30 . 5 1 .3 22 . 8 .8 45 . 6 1 .3 34 .8 55 .8 56 .8 54 1 .7 40. 4 1 Te e 53 . 7 1 .8 76 . 4 1 .8 11 8 1 .8 12 0 1 .8 91 .2 2 .1 Latera l 15 5 3 .8 one si t e Reducer reductn) io 13 . 9 .5 20 .5 Cap 11 . 3 1 16 . 3 1 L .R . 90° Elbow z Dco Os W 3 S .R . 90° Elbo w Pressure Rating-ps i Materia l N W Z Ju. Screwed or Sl i p- O n 125 250 32 1 .5 W O E L .R . 90° Elbow 0 z Z J ~= 45° Elbo w u. Li- Te e Type of End s N w > J 150 300 400 34 1 .5 34 1 .5 36 1 .5 66 1 .5 75 1 .5 68 1 .5 82 1 .5 89 1 .5 85 1 .5 13 5 1 .5 14 0 1 .5 13 0 1 .5 205 1 .5 21 0 1 .5 22 5 1 .5 32 0 1 .5 11 5 1 .5 16 0 1 .5 32 0 44 0 5 5 .2 43 1 .5 80 1 .5 50 1 .5 91 1 .5 125 4 .5 160 5 .3 102 3 .9 20 7 15 0 4 .7 4 .5 24 0 205 5 .3 5 .3 170 125 4_3 .9 18 2 6 .8 30 0 7 .1 23 8 4 .7 290 5. 3 200 4 35 0 7 .1 225 6 .8 600 Globe or Angl e (Flanged bonnet ) Chec k (Flanged bonnet ) 300 8 .4 58 0 8 .1 33 0 4 .5 41 0 5. 4 55 0 8 .6 45 0 8 .6 235 4 .1 465 7 .5 30 0 5 .4 55 0 5 .1 51 0 5 .6 47 0 5 .6 0 Z w 0 U Max . Temp . ° F ` Thickness - Inch . High - Temp . Thickness - . Inch . 85% Magnesi a -Total Wt ./Ft . 16 6 .5 300 400 500 18 600 23 3 1 .6 .6 32 1 20 1 .3 26 1 .3 1500 250 0 125 250 52 1 .5 335 1 .5 34 5 1 .5 60 0 1 .5 70 0 1 .5 590 1 .5 23 5 1 .5 36 0 1 .5 64 5 1 .5 70 1 .5 63 0 5 .4 1000 5 .8 21 0 4 .8 26 0 5 .8 17 0 4 .1 290 7 .2 900 4 .8 150 0 8. 6 98 1 .5 150 52 1 .5 400 600 60 1 .5 52 1 .5 295 1 .5 31 0 1 .5 32 5 1 .5 530 1 .5 55 0 1 .5 58 0 1 .5 115 0 1.5 1300 1.5 113 0 1 .5 ` 13 7 1 .5 77 1 .5 14 5 1 .5 184 1 .5 26 6 1 .5 34 0 1 .5 60 0 1 .5 125 0 1.5 34 0 4 .9 40 0 5 .8 28 0 4 .2 495 7 .4 24 0 4 .8 31 0 5 .8 185 4 .1 34 0 7 .2 35 0 475 4 .9 5 .2 43 0 5. 8 30 0 385 4 .24 . 3 57 0 63 0 7 .4 7 .8 70 0 5 .6 1000 5 .8 57 0 4 .6 1000 8 .4 75 0 4.7 150 0 8 .7 STEE L BUTT WELDING END S 575120 0 5 .9 6 .3 52 0 560 5 .9 6 .3 54 0 9 .1 45 0 9 .1 94 0 9 .1 75 0 9 .1 40 0 6 700 90 0 4 .3 69 69 0 4 .2 110 0 130 0 4.5 4 .3 40 69 89 0 120 0 157 5 2500 5 .3 6 .3 7.1 6 .9 100 0 1075 1350 260 0 6 .1 6 .8 6 .9 7.1 58 0 72 5 750 6 .1 6 .3 6 .9 100 0 4 .5 121 100 0 140 0 180 0 5 .0 4 .9 5 .2 110 0 180 0 240 0 4 .9 5 .0 5.2 23 2 15 33 200 300 15 700 800 1000 120 0 1 Y2 1 Y2 2 3 1Y2 1 Y2 2 2Y2 29 .8 6 .6 9 .5 12 .3 1Y2 2 2/2 3 1Y2 2 2 5 .3 7 .7 10 .3 12 .5 16 .9 19 .6 23 .1 1500 2500 21 0 1 .5 2 26 1 .5 21 0 1 .5 C .I . FLANGED 68 0 6 .6 900 11 7 1 .5 15 1 1 .5 13 6 1 .5 50 0 4 .7 E . MYATT & CO . 300 _ Stee l 90 0 8 .3 30 - 58 .6 54 1.3 10 1 1 .5 11 0 1 .5 11 0 1 .5 FOR GENERAL NOTES SEE PAGE 78 84 335 4.4 47 0 7 .7 _ 6 .5 222 2 .1 - 10 9 1 Cast Iron 360 530 4 .44 .5 60 0 97 0 7 .8 8 .1 Glob e (Press seal bon . ) One Complete Flanged Joint 118 2 .1 730100 0 135 0 6 6 .3 6 .6 Gat e (Press .sealbon . ) Bolts 900 226 2.5 33 .5 STEE L BUTT WELDING END S C .I . FLANGED 25 0 7 .5 32 0 8 .4 (Flanged bonnet ) 32 .5 31 1 Stee l 61 1 .5 Lap Join t S . R, 90° Elbo w 23 8 4 .4 Cast Iron Welding Nec k Blin d 21 6 3.8 t 1 109 2 .5 73 1 .7 _ 54 1 TORONTO ONTARI O 500 38 52 600 3 14 .2 72 95 184 445 700 8 00 1000 120 0 l Y2 l Y2 2 3Y2 2 2/2 2 1/2 23 .0 27 .5 31 .0 35 .3 Section 9 TECHNICAL Weights of Piping Material s 12" PIPE SIZE - 12 3/4 " O .D . =Schedule No . 30 40 Designatio n w aU. Std I Thickness - In . 80 100 120 140 14" O .D . PIP E 16 0 20 xs 30 40 100 120 140 160 .750 .937 1 .093 1 .250 1 .406 xs Std I .330 .37 5 .406 .500 .687 .84 3 1 .000 1 .125 1 .31 2 .312 .375 .437 I Pipe - Lb ./Ft . 80 43 .8 49 .6 53 .5 65 .4 88 .5 107.2 125.5 139.7 160. 3 .500 I 45 .7 54 .6 63 .4 72 .1 106.1 130.7 150.7 170.2 189 . 1 I Water - Lb ./Ft . 49 .7 49 .0 48.5 L .R . 90° Elbow 11 9 3 79 . 5 2 rz S .R . 90° Elbo w H 45 ° Elbow 60 1 .3 Te e 13 2 2 .5 .- I-. w D0 mz 47 .0 44 .0 41 .6 1 39 .3 37 .5 34 . 9 15 7 3 375 3 10 4 2 78 1 .3 w 3 Cap 30 1 .5 38 1 .5 89 1 .-5 35 1 .7 Screwed or Slip-O n 125 250 150 0z Z L .R . 90° Elbo w J ~= ww 45° E !bo w Te e Type of End s 70 1 .5 400 96 1 .5 18 0 1 .5 12 0 1 .5 21 0 1 .5 30 0 5 39 0 6 .2 25 0 4 .3 40 0 7 .5 47 0 5 .2 550 34 5 5 55 0 5 .2 70 0 5 .5 13 5 1 .5 72 1 .5 88 1 .5 72 1 .5 14 0 1 .5 16 5 1 .5 165 1 .5 Globe or Angl e (Flanged bonnet ) > Chec k (Flanged bonnet ) 67 5 9 .4 40 0 4 .3 67 0 7 .8 130 0 8 .5 120 0 9 .5 92 5 4 .8 1160 9 .5 70 0 6 .5 87 5 6 .5 Max . Temp . ° F 0 U 250 1 .5 17 1 1 .5 250 1 .5 34 5 1 .5 85 0 5 .8 125 390 1 .5 39 0 1 .5 44 0 1 .5 47 5 1 .5 74 0 1 .5 84 0 1 .5 78 0 1 .5 84 0 1 .5 141 0 1 .5 184 0 1 .5 1410 1 1.5 93 1 .5 160 0 1.5 12 6 1 .5 250 150 300 10 0 1 .5 12 0 1 .5 11 5 1 .5 195 1 .5 21 0 1 .5 22 0 1 .5 400 5 .3 52 0 6 .6 30 0 , 4 .3 60 0 8 24 0 1 .5 15 0 1 .5 62 0 5 .5 77 0 6 .6 500 4.4 95 0 8 .4 500 5 .3 62 0 6 .6 38 0 4 .3 690 8 600 900 23 0 1 .5 24 5 1 .5 26 0 1 .5 30 0 1 .5 340 1 .5 480 1.5 48 0 1.5 495 1 .5 28 0 1 .5 350 1 .5 64 0 5 .5 670 5 .7 41 5 1 .5 95 0 5 .9 155 0 6 .4 77 0 6. 6 58 0 . 4 .4 100 0 8 .3 64 0 4 .6 115 0 8 .6 88 0 4 .8 170 0 8 .9 125 0 4.9 2400 9 .6 C .I . FLANGED 95 0 , 7 .9 1175 9.9 45 .0 42 . 6 400 Stee l 18 5 1 .5 , 50.0 47 .5 58 8 5. 8 83 1 .1 Cast Iron 110 0 1175 6 .8 7. 1 31 0 1 .5 600 1 .5 STEE L BUTT WELDING END S 180 0 8 .8 85 0 4 .9 1875 6 .3 200 0 7 .1 310 0 7 .4 4000 8. 1 62 88 118 15 9 r 900 9 .9 170 0 210 0 250 0 5 .2 5 .5 5 . 9 175 0 270 0 300 0 5 .2 5 .5 5 .9 Glob e (Press .seal bon . ) 0 1500_250 0 STEE L BUTT WELDING END S 135 0 1600 2275 325 0 5.5 6 .8 7 .1 7 .8 1400 1500 6 .5 6 . 8 Gat e (Press .seal bon . ) One Complete Flanged Joint 900 150 0 6. 2 160 0 6.2 72 5 113 0 4 .7 4.8 130 0 200 0 8 .7 9.3 48 0 650 6 .26 . 2 . 28 0 45 0 55 0 4 .3 4 .3 4 .5 50 0 80 0 95 0 7 .5 7 .8 8 .3 C .I . FLANGED w > J 600 Stee l 165 1 .5 21 0 1 .5 18 5 1 .5 26 0 1 .5 690 7 .8 800 9 .4 Gat e (Flanged bonnet ) 300 Cast Iron Welding Nec k S .R . 90° Elbow j 46 1 .7 94 .7 Blin d Z 10 0 1.5 20 3 2. 8 one s iz e 1 Reducer reduction) Lap Join t Bolts 13 5 2. 3 33 7 5 .4 33 .7 Materia l w0 102 .2 .3 360 2. 5 w U. 202 3. 5 167 2 .5 55 6 5. 4 44 .7 Pressure R ating- psi , Z 15 4 3 .5 77 1 .5 15 9 2 .8 495 5 .8 63 1 .1 Lateral 18 1 1.3 „ I 0 60 .92 59.7 58 .7 57 .5 53 .2 15 44 15 200 300 400 49 69 600 Thickness - Inch . High - Temp . Thickness - Inch . 85% Magnesi a 1 Y2 2 2'/2 3 Total Wt ./Ft . 9.6 12 .5 15 .5 18 .8 91 124 306 62 2 22 200 57 700 800 1000 120 0 1 Y2 1 Y2 2/2 3/2 2 2Y2 2 1Y2 1 Y2 2 43 .3 10 .4 13 .4 26 .7 32 .0 36 .6 300 22 400 2Y2 500 3 600 3Y2 700 800 1 /2 1 2 2/2 16 .8 20 .3 23 .8 28.7 33 .1 1000 120 0 2Y2 3'h 2 1 Y2 39 .4 46 . 4 FOR GENERAL NOTES SEE PAGE 78 E. MYATT & CO . TORONTO 8, ONTARIO 85 l~e~leh 9 ~~CMNICAL Weights of Piping Material s 16" O .D . PIPE Schedule No . 20 Designation w a a Z w Std xs 20 30 Std 82 .8 136.5 164 .8 192 .3 223 .6 245 . 1 59 .0 Water - Lb ./Ft . 80 .5 79.1 76 .5 69 .7 102 .8 101 .2 99 .9 98 .4 20 1 4 13 5 2 .5 10 0 1 .7 20 2 3 .2 65 0 67 265 4 177 2. 5 13 2 1 .7 25 7 3.2 774 6 .7 25 6 4 .5 17 1 2 .8 12 8 1 .9 33 8 _ 4. 5 22 5 2.8 32 8 , 3.6 984 7. 5 78 _1 .2 44 1 .8 10 2 1 .2 58 1 .8 25 8 3 .6 79 8 7 .5 94 1 .3 57 2 .1 f S .R . 90° Elbo w Te e Lateral one siz e Reducer reductio n ) 125 Materia l Screwed or Slip-O n 250 .8 43 1 .031 66 .1 150 300 11 5 1 .5 15 5 1 .5 15 5 1 .5 23 0 1 .5 290 1 .5 Cast Iron 12 0 ~1 .5 1 .218 1 .437 62 .6 58 .6 400 1 .59 3 55 . 9 600 90 0 125 30 0 410 1 .51 . 5 35 5 46 0 1 .5 1 .5 33 0 44 0 1 .5 1 .5 44 0 580 1 .5 1 .5 52 5 1 .5 60 0 1 .5 57 0 1 .5 14 0 _1 .5 70 0 1 .5 21 0 1 .5 Stee l 23 5 1 .5 Welding Nec k _ .312 .375 .437 .500 70 .6 82 .1 24 0 1 .5 45 0 1 .5 71 0 5 .8 95 0 7 .4 52 0 4 .4 1000 8 .6 140 0 6 .3 190 0 6. 7 65 0 110 0 5 .8_ 6 98 0 140 0 7 .4 7 .4 45° Elbo w 85 0 4 .7 1200 5 49 0 4 .4 Te e 75 0 8 .3 128 0 8 .7 98 0 8 .3 140 0 8 .6 1700 9 215 0 9 .4 1600 5 375 0 10 Gat e (Flanged bonnet ) w Globe or Angl e j Chec k (Flanged bonnet) 125 0 8 235 0 9 135 0 5 _ 2500 2700 600 90 0 36 0 1 .5 43 0 1 .5 55 0 1 .5 57 5 1 .5 38 5 1 .5 52 5 1 .5 55 0 1 .5 75 0 1 .5 77 0 1 .5 830 1 .5 800 1 .5 115 0 6 145 0 7 .4 90 0 4 .7 130 0 6 .2 180 0 2 800 6 .6 __._7 105 0 4 .8 140 0 9 190 0 9 .3 155 0 5 2700 9 .9 Stee l 88 0 4 .7 165 0 9 C .I . FLANGED 370 0 7.9 165 0 8 .2 71 . 0 12 3 1 .3 75 2. 1 400 1 .5 1000 6 STEE L BUTT WELDING END S 16G 1 .375 1 .781 92 .7 88 .5 79 .2 30 0 1 .5 37 0 1 .5 35 0 1 .5 950 5 .8 110 0 7 70 0 4 .6 N 97.0 15 0 1 .5 170 1 .5 18 0 1 .5 66 0 5 .5 78 0 7 48 0 4 .3 93 0 8 .6 120 16 8 1 .9 290 1 .5 83 0 5 .8 105 0 7 700 4 .6 C .I . FLANGED .937 Cast Iron 55 0 5 .5 725 7 42 5 4 .3 Type of End s .750 400 19 5 1 .5 u- LL .563 300 30 8 1 .5 L .R . 90° Elbo w 80 150 17 5 1 .5 S .R . 90° Elbow 60 93 .5 104 .8 138 .2 170 .8 244 .1 308 . 5 250 290 1 .5 34 0 1 .5 Blind 40 xs 62 .6 Lop Join t J 16 0 52 .4 w J 140 Pipe - Lb ./Ft . a 0 ? w Z .i 120 .500 Pressure Rating-ps i 0 u) 0 100 .37 5 Cap Z Ju- 80 .312 45 ° Elbow I L ~0 mZ 0 40 Thickness - In . L .R . 90° Elbow 0 30 18" O .D . PIP E 110 0 1 .5 2300 5. 2 435 0 10 . 5 STEE L BUTT WELDING END S 260 0 9 .3 320 0 7 .5 360 0 7 .8 570 0 8. 4 101 139 193 (F Ian9ed bonnet ) 1200 10 . 5 137 1 10 . 5 Gat e (Press .sealbon . ) Glob e (Press seal bon . ) Bolts 0 Z j 0 U One Complete Flanged Joint Max . Temp . ° F Thickness - Inch . High - Temp . Thickness - Inch . 85% Magnesi a Total Wt ./Ft . 31 200 1 /2 76 300 2 11 .6 15 .1 31 400 83 500 600 2'/2 3 3/2 18 .8 19 .8 21 .5 152 114 19 9 700 800 1000 120 0 1 12 1 /2 2 %2 3 %2 2 2/2 2 1,/2 32 .0 37 .2 43 .6 51 .4 41 200 93 300 12 12 .9 E . MYATT & CO . TORONTO 400 2/2 16 .0 20 .8 FOR GENERAL NOTES SEE PAGE 78 86 41 ONTARI O 500 3 25 .0 600 3/2 700 29 9 800 1000 1200 11/2 1 %2 2/2 3'r2 2 2Y2 2 1',/2 27 .5 35 .8 40 .9 48 .0 56 . 3 Section 9 TECHNICA L Weights of Piping Material s 20" O .D . PIPE 1 Schedule No . Designatio n w a a. 20 30 Std xs 40 Tee Latera l one iz e , Reducerreductio ns ! 125 Materia l S .R . 90° Elbo w L .R . 90° Elbow 45° Elbo w Tee Type of End s (Flanged bonnet ) Globe or Any l e (Flanged bonnet ) Chec k > (Flanged bonnet ) Gat e _ (Press .seal bon . ) Glob e (Press seal bon . ) One Complete Bolts Flanged Joint H j 250 FOR 275 54 0 1 .5 1 .5 79 0 1350 66 .3 130 0 180 0 7 .8 7 .8 59 0 110 0 4 .6 , 4 .8 110 0 210 0 9 9 .5 150 300 19 0 1 .5 21 0 1 .5 235 1 .5 31 0 1 .5 930 6 1350 7 .8 650 4 .6 140 0 9 370 1 .5 45 0 1 .5 43 0 1 .5 55 0 1 .5 1400 6 .3 170 0 7.8 1100 4 .8 1900 9 .5 400 600 90 0 450 1 .5 51 0 1 .5 475 1 .5 700 1 .5 170 0 6 .5 65 0 1 .5 71 0 1 .5 70 0 1 .5 950 1 .5 230 0 6 .9 95 0 1 .5 101 0 1.5 980 1 .5 1300 1 .5 3600 7 .3 140 0 4 .9 240 0 9 .7 1900 5.2 350 0 10 .1 290 0 5.4 550 0 11 Stee l C .I . FLANGED 200 0 385 0 8 .3 9 .5 134 12 7 STEE L BUTT WELDING END S 445 0 7 .9 4750 8 .2 6 40 4 3.7 30 2 2. 5 56 3 4.9 1769 10 22 0 1 .7 134 2.8 125 250 150 300 25 0 1 .5 30 0 1 .5 31 0 1 .5 40 0 75 0 47 0 1 .5 1 .5 1 .5 125 0 205 0 170 0 6 .7 6 .8 -6 .7 185 0 270 0 185 0 8 .7 8 .7 8 .7 92 0 165 0 115 0 4 .8 _ 5 4 .8 185 0 310 0 2300 10 10 .2 10 560 1 .5 660 1 .5 63 0 1 .5 850 1 .5 2200 6 .8 2900 8.7 163 0 5 3200 10 .2 Cast Iron 25 0 1 .5 650 0 8.9 400 600 900 Stee l 54 0 1 .5 C.I . F LANG ED 310 0 6500 8 .5 9 .8 177 2 11 65 0 1 .5 75 0 1 .5 75 0 1 .5 105 0 1 .5 250 0 7 .1 100 0 1800 1 .5 1 .5 1000 1900 1 .5 1.5 1000 190 0 1 .5 1.5 1400 2500 1 .5 1 .5 350 0 6200 , 8.1 7 .6 2000 5.1 380 0 10 .6 2800 520 0 5 .5 6 5200 9400 11 .4 12 . 1 STEE L BUTT WELDING END S 700 0 7100 930 0 8 .7 9 .1 9.9 3000 12 52 95 52 105 180 242 36 1 Max . Temp . ° F Thickness - Inch . High - Temp . Thickness - Inch . 85% Magnesi a 200 Total Wt ./Ft . 14 .2 18 .4 22 .8 27 .2 30.3 38 .6 44.7 , 52 .2 61 . 2 1 %2 484 54 1 6 6 Welding Nec k Blind 0 16 0 .375 .500 .687 .968 1218 1 .5311 .8122062 2 .343 8 30 5 3 .7 22 9 2 .5 445 4 .9 148 2 10 167 1 .7 102 2 .8 Cast Iron 17 5 35 0 1 .5 1 .5 Screwed or Slip-On .812 1 .0 31 1 .281 1 .500 1 .7 50 1 .968 4 Lap Join t j 140 xs 183 .8 180.1 174 .3 165.8 158 .3 149 .3 141 v) t~ = 120 126.0 122 .8 120.4 115 .0 109.4 10394 %.3 92 .6 87 . 9 Pressure R ating- ps i J t= ww 100 Water - Lb ./Ft . Cap Z 80 94 .6 125.5 171 .2 238.1 296 .4 367.4 429 45° Elbo w Z F . 60 78 .6 104 .1 122.9 166.4 208.9 256.1 296 .4 341 .1 379 . 0 H z J w .40 Pipe - Lb ./Ft . .500 .59 3 S .R . 90° Elbo w C9 20 .375 0z w 3 100 120 140 16 0 Thickness - In . 21 2 27 8 3 .4 3 . 4 15 8 20 8 2 .1 2 . 1 32 1 40 7 4 4 102 4 122 1 8 .3 8 . 3 14 2 18 6 1 .7 1 .7 72 94 2 .3 2. 3 D J 80 Std L .R . 90° Elbow HL DO mz 60 4 31 7 4~ 9 35 I-- . 24" O .D . PIP E . 300 400 2 2%2 500 3 600 700 800 1000 1200 3%2 14 1 %2 2'/2 3Y 2 2 2/2 2 1 71 200 1 %2 174 71 300 400 2 2%2 174 500 3 600 274 360 687 700 800 1000 1200 1 Y2 14 2 2'/~ 33 4 2 1Y 16.7 21 .8 26 .8 32 .0 35 .2 45 .2 52 .2 60 .8 71 . 2 GENERAL NOTES SEE PAGE 78 E . MYATT & CO. TORONTO ONTARIO 87 Section 9 TECHNICAL 76 . 0 29 .92 1 Atmospheres 33 .94 14 .6963 1 .058 B .T .U . 777 .54 0.000392 7 107 . 5 0.000292 8 Foot Lbs . H .P . hour s Kilogram meters Kilowatt hrs . B .T .U . per min . 0 .0235 6 0 .0175 7 17 .5 7 Horsepowe r Kilowatts Watt s Cu . Ft . 28.320 1728 0 .02832 0.03704 7 .48052 28.32 59.84 29 .92 Cu . Ft . of H2 O Cu . Ft . per min . Cu . Ft . / secon d Cu . In. 88 Gals . (US ) Gals . (US) of H2O at 62° F Gals . (US) of H20/min. ICubic centimeter s Cubic inches Cubic meter s Cubic yard s Gallons (US) Liter s Pints (liq . US) Quarts (liq . US) 62 .3554 Lbs . at 62° F 0.124 7 0.47 2 62 .36 7.480 5 10,77 2 Gals . (US)/sec . Liters/sec . Lbs . H2O/min . at 62° F Gals . (US)/min . Gals . /24 hrs . 646,31 7 448 .831 Gals . (US)/24 hrs . Gals ./min. 16 .387 0 .0005787 1 .639x10- 5 2 .143x10- 5 0.00432 9 0.0163 9 0 .0346 3 0 .0173 2 Cubic centimeters Cubic feet Cubic meter s Cubic yards Gallons (US ) Liters Pints (liq. US ) Quarts (liq . US) 0 .029465 0 .8816 2 Ft . of 1120 62 .355 4 at 62° F 0 .43302 304 .44 L Cms of Hg at 32° F In . of Hg at 32° F Ft . of 1120 at 62° F Pounds/sq . in . Tons/sq . in. Gals . (US) per min. Gravity (g ) H .P. H.P. (boiler) H .P . hour s Inche s Atmosphere s In . of Hg at 32° F Lbs ./sq. ft . Pounds/sq . in . Kilogram/sq . mete r Feet per min . 0.5080 0.01667 0.0182 9 0 .304 8 0 .01136 Centimeters/sec . Feet/sec . Kilometers/hr . Meters/min . Miles/hr . Feet per second 30 .48 1 .097 18 .29 0 .6818 Centimeters/sec . Kilometers/hr . Meters/min . Miles/hr . Ft . lbs ./ min . 0.001286 Btu/min . 0 .01667 Ft . Lbs ./sec . 3 .03x10- 5 Horsepowe r 2 .26x10- 5 Kilowatt s Ft. lbs . / second 0 .07717 Btu/min . 0.001818 Horsepowe r 0.001356 Kilowatt s Gals . Imperial) 277 .42 4.545 . 1 .20095 Cubic inches Liter s Gallons (US ) Inches of Hg at 32 F Inche s of N0 at 62 F Kilowatt s Kilowatt hour s Meters 3785 0 .133 7 23 1 0 .00378 5 0 .00495 1 3 .785 8 4 0 .8326 7 Cubic centimeters Cubic feet Cubic inche s Cubic meters Cubic yards Liter s Pints (liq. US ) Quarts (liq . US ) Gals. (Imperial) Ounces (fluid) 1 .80 5 0 .02957 29.5 7 0 .2 5 0 .062 5 1 .73 2 4 .3 9 Cubic inche s Liter s Cubic centimeters Gills Lbs ./sq . in. In . of H2O at 62° F Ounce s Centimeters of H2 O per sq . in . at 62 0 F 0.1272 5 In. of Hg at 32° F 0.00425 3 Atmospheres 8 .33 Lbs . of Water 0.01603 7 Ft . of H2O at 62° F 4 .882 Kilograms/sq . meter Pounds 6 .0086 Tons of H20/24 hour s per sq . ft . 0 .006944 Lbs./sq . in. 0 .01413 9 In. of Hg at 32° F 0 .000472 5 Atmospheres 0 .002228 Cu . ft ./sec . 0 .13368 Cu . ft ./min . 0 .068044 Atmospheres 8.0208 Cu. ft ./hr . 703 .06 7 Kilograms/sq . meter Pounds 0.06309 Liters/sec . In. of Hg at 32° F 0 per sq . in . 227.036 .912 In. of H2O at 62° F 32 .174 Ft ./sec . 2 2 .3093 4 Ft . of H2O at 62° F 2 980. 6 Cent ./sec . 4 Gills 16 Ozs . (fluid) 42 .4 4 Btu/min. Pint s 5 Quarts (liq . US) 33,00 0 Ft . lbs ./min . (liq. US ) 0. 28.87 5 Cubic inches 55 0 Ft. Lbs ./sec . 473 . 1 Cubic centimeters 0 .745 7 Kilowatts 745 . 7 Watts 16 Ounces (avoir . ) 256 Drams (avoir . ) 33,47 9 Btu/hour 7000 Grains 9 .803 Kilowatt s Pounds 0 .0005 Tons (short ) 34 . 5 Lbs . of water evapo(avoir . ) 453 .592 4 Grams rated/hr . at 212° F 1 .2152 8 Pounds (troy ) 2546 . 5 Btu 14 .583 3 Ounces (troy) 1,980,000 Foot Lbs . Pounds 4 0.0160 Cubic feet 273,750 Kilogram meters of N0 27 .72 Cubic inche s 0.745 7 Kilowatt hrs . at 62 F 0 .120 Gallons (US ) 745 . 7 Watt hrs . Pounds o f 2 .54 0 Centimeter s H2O/min 0 .000267 3 Cu . ft./sec . 0 .0833 3 Feet at 62° F Atmospheres 0 .0334 2 0.01602 Grams/cu. cm. Pounds 345 . 3 Kilograms/sq . mete r 16.02 . mete r 70 .73 Lbs ./sq . ft . per cu. ft . 0.0005787 Kilograms/cu Lbs ./cu . in . Pounds/sq. in. 0.4911 7 27 .6 8 Grams/cu. cm . 1 .1343 Ft . of H2O at 62° F Pounds 13.611 6 In. of H2O at 62 0 F ,68C Kilograms/cu. meter per cu . in . 7 .8587 2 Ozs ./sq . in. 212 8 Lbs ./cu. ft . Qts . (dry ) 67 .20 Cubic inches 0 .00245 5 Atmosphere s 25 .3 7 Kilograms/sq . mete r 2 Pints (liq . US) 0 .5774 Ozs./sq . in. 0.9463 Liters Qts . Ozs . (fluid) 5 .1969 Lbs ./sq . ft . . US) 3572 .7 (liq Cubic inches 0 .03609 Pounds/sq . in. 5 0 .07347 In. of Hg at 32° F 946 . 3 Cubic centimeter s Radian s 57 .3 0 Degrees/sec . 56 .92 Btu/min. pe r 0 .1592 Revolutions/sec . 44,24 0 Ft . lbs./min. second 9 .549 Revolutions/min . 737 . 3 Ft . Lbs ./sec . 2 .296x10- Acres 1 .34 1 Horsepowe r 929 . 0 Square cms . 1000 Watt s 144 Square ins. . Ft sq. 0 .092 9 Square meter s 341 3 Bt u 3 .587x10" Square mis. 2,655,200 Foot Lbs . Square yds. 1 .34 1 H .P . hour s 0.111 1 367,100 Kilogram meters Square cm. 6.45 2 Watt hrs. 1000 Sq . In. 0 .006944 Square ft . Square mms . 645 . 2 Centimeter s 100 Btu/min. 0 .05692 3 .28 1 Feet 44 .24 Ft . lbs ./min . 39.3 7 Inches Watts 0.7376 Ft . lbs ./sec . 1 .094 Yards 0.00134 1 Horsepower Kilometers 0 .00 1 0 .001 Kilowatts Millimeters 1000 Conversion formula, Fahrenheit-- Centigrade : °C = 5/9 ( ` F -32) °F = 9/5 °C +3 2 E . MYATT & CO . TORONTO ONTARIO Section 9 TECHNICA L Maximum Recommended Spacing Between Pipe Hangers or Support s r Assumed straight pipe between hangers with no concentrated loads, such as valves, flanges, etc . NOMINAL PIPE SIZE 1 1-1/2 MAX . HGR SPACING (FT) 7 9 2 2-1/2 10 11 3 3-1/2 12 13 4 14 5 6 16 17 8 10. 12 14 16 18 20 24 19 22 23 25 27 28 30 32 The above spacing is based on a combined bending and shear stress of 1500 PSI when pipe is fille d with water and the pitch of the line is such that a sag of 0 .1 inch between supports is permissible . MAXIMUM RECOMMENDED SPACING FOR INTERMEDIATE PIPE GUIDE S 400 350 300 250 200 18 0 160 14 0 12 0 100 90 80 70 60 50 40 30 20 15 600 500 400 350 300 250 200 150 100 so 10 MAX . PRESSURE - PSIG Note : Additional pipe supports are usually required between guide s in accordance with standard practice . See table at top of this page . E . MYATT & CO. TORONTO ONTARIO 89 Supply, Design, and Engineering Service s The fundamental concept of the type of Hanger Supply Service required for a particula r project must embrace certain basic factors : (a) The type and size of the project, and the custom of the contractor's forces . (b) The geographic location of the project and the urgency for completion . (c) A sensible plan for engineered or designed hangers where necessary, and the eliminatio n of special hangers, for economy, where possible . (d) Competent and careful design and supply of all hangers for critical piping and "problem " lines . "Paper economies" in this type of work are false economies . Several types of Hanger Supply Services have been developed to satisfy the requirement s of most piping projects . The proper selection of service will result in the most economical in stalled cost of a satisfactory job, completed on time, with the desired balance between field an d shop fabrication . Type I Hanger components supplied to customer's material lists, as catalogue items, shippe d in bulk for field location, partial fabrication and erection . This is material supply only for normal pipe installation . Type II Shop fabrication from customer's hanger detail and location drawings . Hanger s shop-assembled, painted and marked for field erection . Used mainly for small industrial jobs and changes or additions to existing proces s piping . Type III Locate and specify necessary hangers with hanger mark numbers on piping drawings . Supply simple hanger detail drawings (required for shop fabrication) to the field as an aid t o installation . Detail and supply all necessary auxiliary steel . Supply hangers shop-assembled , painted and marked, for field erection . This method is recommended for industrial and process piping, paper mills, an d sundry piping systems in large projects . Type IV Hangers for critical piping completely engineered ; semi-engineered hangers for noncritical piping over 2-1/2 inch diameter ; both types shop-assembled, painted and marked . Complete hanger detail drawings supplied . Small non-critical piping hangers either supplie d as in Type III or may be supplied as bulk material for field erection . Recommended for oil refineries, chemical plants, some power plants, and industria l piping in certain applications . Type V A complete hanger design and supply service . Starting from the piping, structural steel, and auxiliary equipment drawings ; completely engineered hangers and auxiliary stee l are supplied to the field ready for installation . This is a complete, guaranteed service wit h nothing omitted . This service is applicable to power plants and critical or experimental piping in an y industry . Type VI_ "Problem" lines either existing or proposed, may be singled out for special attention . A complete engineering study of the problem is made, and piping recommendations and suitable hanger designs supplied . "Tailored-to-Measure" combinations of the above services, utilizing your standard s and procedures will develop the ultimate in economy and service . Such a program can best be determined personally . We would welcome the opportunity to review your requirements . 90 E . MYATT & CO . TORONTO ONTARIO