Selex Vacuum System
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Vacuum Components SELVACS Selex Vacuum System Vacuum Ejector and Vacuum Systems Vacuum pad Related Vacuum components Related components CC-796A Wide variations for an assortment of applications New SELVACS vacuum components respond to a wide range of applications from fine workpieces for electronic parts to large heavy workpieces for automobile manufacturing. Compact design Unification and modularization Each component is designed to save space. The core vacuum ejector and vacuum unit is unified and modularized for space reductions and ease of use. Complete lineup of model variations Our complete lineup of series models and variations enables use in assorted fields and applications. Vacuum Components Introducing These components can be used with a variety of applications; transfer, move, insert, position, and pack many products and parts. Vacuum transfer of electronic parts, semiconductor substrates, wafers, DVDs, etc. Assembly and insertion of small parts Transfer of LCD panels and glass planes, etc. Packing of canned beverages Transfer and movement of boxes in logistics applications Transfer and movement of light, medium, and heavy parts on automobile manufacturing and assembly lines Other applications Configuration Vacuum Ejector and Vacuum Systems The vacuum ejector and vacuum system serve as the vacuum core. Individual ejector and various types configured from different related devices are available. Vacuum pad Pick up workpieces directly using a vacuum. A variety of materials, shapes, and pad diameters are available to match the target workpiece size, weight, and features. Circuit examples Pressure sensor Vacuum ejector Vacuum sensor Ejector Circuit Vacuum filter Air Compressor Filter regulator Vacuum pump Circuit Vacuum regulator Vacuum filter Vacuum pump Related Vacuum components Related components such as vacuum break valves,vacuum sensors, and vacuum filters are available to match the vacuum application. Related components Related components, including vacuum filters, vacuum regulators, quick exhaust valves, precise suction plates, and buffer units, are available for all advanced vacuum applications. Vacuum Generator (Dual Use Type) Vacuum pad S E L V A C S Common Safety Instructions …P.2 □ Vacuum Ejector ……………………P.4 □ Vacuum Ejector VSG Type ………P.9 □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ Vacuum Vacuum Vacuum Vacuum Vacuum Ejector VSK Type ……P.11 System VSJ Type ……P.17 System VSX Type ……P.21 System VSQ Type ……P.32 System VSZ Type ……P.38 Vacuum Pad Standard Type ………P.48 Vacuum Pad Sponge Type ………P.51 Vacuum Pad Bellows Type…………P.52 Vacuum Pad Multi-Bellows Type …P.53 Oval Type ……………P.54 Vacuum Pad Soft Type ……………P.56 Vacuum Pad Soft Bellows Type …P.58 Vacuum Pad Skidproof Type ……P.60 Vacuum Pad Component Type …P.61 Vacuum Pad Long Stroke …………P.62 Air Pincette ………………………P.67 Vacuum Filter………………………P.68 Vacuum Release Unit …………P.71 LED Digital Pressure Sensor …P.73 Related components ……………P.74 Vacuum Pad 1 Common Safety Instructions for Vacuum Be sure to read the following instructions before selecting and using the CKD devices. Also read the detailed instructions for individual series. Warning 1. Where there is the danger of work dropping, provide some drop prevention means to assure safety. 2. Avoid use where there are constant pressures of 0.1MPa (14.5psi) or above in the vacuum circuit. Since the vacuum devices are not of explosion-proof structure, such use may cause damage to the device bodies. 3. Watch out for the drop of vacuum due to faulty air supply or power supply. Reduced suction may cause the drop of work. Therefore, take an adequate protective measure. 4. Where two or more pads are used with a single ejector in vacuum circuit, defective suction of one pad may cause the drop of vacuum at the other pad(s). 5. Avoid such usage as may stop up the exhaust port of the ejector or raise exhaust resistance. Such careless usage may cause the loss or drop of vacuum. 6. Do not use the vacuum devices in an atmosphere containing corrosive gas, inflammable gas, explosive gas, chemicals, seawater or vapor. Never allow the vacuum system to suck in such substances. 7. Provide a protective cover where the equipment is exposed to sunshine. 8. Carry out periodic maintenance and checks of the silencer element of the ejector and the filter element of the vacuum filter. A clogged element may cause performance drop or trouble. 9. Replace the element after gaining a full knowledge of the element of the vacuum generator. 10. Install the piping by checking the ports of the ejector in the manual and by the marking on the body. Mistaken piping may cause damage to the device body. 11. Use clean air free from drainage or dirt for ejector air supply. Also, never supply air by a lubricator. Impurities or oil contained in compressed air may cause malfunction or performance drop. 12. Do not give excessive tension or bending to leads. Disconnection may result. 13. Tighten the lock nut, in any, on the product securely with your hand and not with any tool. Tightening with a tool may cause damage to the lock nut or the device body. Also, incomplete tightening may cause a loose lock nut or inaccurate initial setting. 14. Do not subject the product with a rotatable resin body to forcible swinging or rotation. Damage to the resin body or leakage may result. Caution 1. The specified supply pressure to the ejector is that during ejector operation. Secure the specified level in consideration of pressure drop. If the specified level is not met, then the ejector may emit an abnormal noise at certain supply pressures and become unstable, affecting the sensor and other parts adversely. 2. In selecting the piping and equipment, take into account that the effective sectional area on the supply pressure side of the ejector should be about three times the sectional area of the nozzle diameter. Inadequate supply flow may result in performance drop. 3. Provide the vacuum-side piping as short as possible and with the bore as large as possible. If the piping is long or the bore is small, the responce time at suction or release may become longer and the necessary suction flow may not be achieved. 4. Connect the vacuum switch or the ejector with vacuum switch as close to the end of the vacuum piping as possible. With much distance between the vacuum switch and the end of vacuum piping, the piping resistance may become large and the vacuum at the sensor may be high even during the non-suction interval. This will cause malfunction of the vacuum switch. 5. In handling the mechanical vacuum switch (sensor), observe the "Common Safety Instructions for mechanical vacuum switches". 6. The filter clear cover is polycarbonate, so avoid use in an atmosphere or location containing chemicals (see table below). 2 Names of Chemicals Thinner Carbon tetrachloride Choloroform Acetate Aniline Cyclohexane Trichloroethylene Suphuric acid Lactic acid Water soluble cutting oil (alkaline) *There are chemicals other than listed above that can not be used. Please contact CKD for more information. Common Safety Instructions for Mechanical Vacuum Switches Warning 1. Do not use the mechanical vacuum switches in inflammable or explosive gas, fluid or atmosphere. As these vacuum switches are not explosion-proof, fire or explosion may be caused. 2. Do not use these devices in locations where they can be exposed to water drops, oil drops, dust, etc. The mechanical vacuum switches are neither drip-proof nor dust-proof, so that trouble may result. 3. The mechanical vacuum switches may suffer no performance drop when a pressure of about 0.5MPa (72.5psi) is applied instantaneously. Yet make arrangement so that any pressure of 0.2MPa (29psi) or above does not normally act on the vacuum switch at vacuum break. Otherwise damage to the switch may result. 4. Use the mechanical vacuum switch in the specified set pressure range. Use outside the range may cause malfunction due to pressure differences. 5. Be sure to turn off power before wiring the mechanical vacuum switch. When wiring, check the lead colors to avoid miswiring. 3 Quick-Fitting Type Ejector Vacuum Ejector Package: 1pc. in a bag Model Designation (Example) ■The Vacuum Ejector, creating vacuum by use of compressed air, can be used in combination with a Vacuum Pad to convey materials. ■Vacuum Ejector comes in a variety of performances and types to meet your applications. VSH Specifications Fluid admitted Service pressure range Rated supply pressure Service temperature range ; Air 21.3∼102psi (0.15∼0.7MPa) 71.1psi (49.8psi)/0.5MPa (0.35MPa) 32∼140, (0∼60℃) ③ ② ④ ⑤ ① ⑫ No ① ② ③ ④ Exhaust port ⑤ ⑥ ⑥ ⑧ ⑦ ⑦ ⑧ ⑨ Vacuum port ⑩ ⑪ ⑩ ⑨ ⑪ ⑫ Air supply port 05 07 10 12 Parts Metallic body Cap Silenser element Diffuser Resin body Lock claws Tube Release ring Guide ring Elastic sleeve O-ring Nozzle Material nickel-plated brass aluminium polyvinyl formal nickel-plated brass PBT stainless steel urethane or nylon POM nickel-plated brass NBR NBR nickel-plated brass The compressed air supplied from the air supply port is formed into a highspeed jet by the nozzle and attracts the air from the vacuum port. And the attracted air is discharged together with the compressed air. ! Caution 1. Note that with the VSC type (M5 only) piping can not be changed after installation of the body. H 07 6 6A ② ④ ③ ⑤ ⑥ ①. Type ②. Performance H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type ③. Nozzle size Code Constructions Exhaust port ① 15 20 Size H type (a) Vacuum level and suction flow -26.8in. Hg (-90kPa) 0.5 0.25SCFM (7r/x(ANR)) -27.2∼-27.6in. Hg (-92∼-93kPa) 0.7 0.44∼0.46SCFM (12.5∼13r/x(ANR)) -27.6in. Hg (-93kPa) 1.0 0.99SCFM (28r/x(ANR)) -27.6in. Hg (-93kPa) 1.2 1.34SCFM (38r/x(ANR)) -27.6in. Hg (-93kPa) 1.5 2.22SCFM (63r/x(ANR)) -27.6in. Hg (-93kPa) 2.0 3.85SCFM (110r/x(ANR)) L type Vacuum level and suction flow -19.7in. Hg (-66kPa) 0.42SCFM (12r/x(ANR)) -19.7in. Hg (-66kPa) 0.78∼0.92SCFM (22∼26r/x(ANR)) -19.7in. Hg (-66kPa) 1.48SCFM (42r/x(ANR)) − -19.7in. Hg (-66kPa) 3.35SCFM (95r/x(ANR)) -19.7in. Hg (-66kPa) 6.30SCFM (180r/x(ANR)) E type Vacuum level and suction flow − -26.8∼-27.2in. Hg (-90∼-92kPa) 0.35∼0.37SCFM (10∼10.5r/x(ANR)) -27.2in. Hg (-92kPa) 0.74SCFM (21r/x(ANR)) -27.2in. Hg (-92kPa) 0.95SCFM (27r/x(ANR)) -27.2in. Hg (-92kPa) 1.48SCFM (42r/x(ANR)) -27.2in. Hg (-92kPa) 2.94SCFM (84r/x(ANR)) *Air supply pressure is 71.1psi (0.5MPa) for H and L types or 49.8psi (0.35MPa) for E type. ④. Vacuum port (V) ■Tube dia. Code 4 Dia. φ4a Code Dia. 6 φ6a 8 φ8a 10 φ10a 12 φ12a 3C 7C 9C 11C 13C φ5/32in. φ1/4in. φ5/16in. φ3/8in. φ1/2in. ■Thread size Code Size Code Size Metric thread (a) Taper pipe thread M5 6A 8A 10A M5×0.8 R1/8 R1/4 R3/8 Unified fine thread American standard taper pipe thread 32U 6N 8N 10-32UNF NPT1/8 NPT1/4 ⑤. Air supply port size (P) ■Tube dia. Code 4 Dia. φ4a Code Dia. 6 φ6a 8 φ8a 10 φ10a 12 φ12a 3C 7C 9C 11C 13C φ5/32in. φ1/4in. φ5/16in. φ3/8in. φ1/2in. ■Thread size Code Size Code Size Metric thread (a) Taper pipe thread M5 6A 8A 10A M5×0.8 R1/8 R1/4 R3/8 Unified fine thread American standard taper pipe thread 32U 6N 8N 10-32UNF NPT1/8 NPT1/4 ⑥. Additional feature J: Concentrated exhaust type (VSH、VSU、VSC) S: Silencer attached exhaust type (VSH、VSU、VSC) V: Mechanical vacuum switch (VSB) No code: Without vacuum switch (VSB) .In case of ordering, please apply Model code in the following chart. 4 VSU Pipe Type Straight VSU V EX EX Model VSU-H05-M54S VSU-H05-M56S VSU-H05-6A4S VSU-H05-6A6S VSU-H07-M54S VSU-H07-M56S VSU-H07-6A4S VSU-H07-6A6S VSU-L05-M54S VSU-L05-M56S VSU-L05-6A4S VSU-L05-6A6S VSU-L07-M54S VSU-L07-M56S VSU-L07-6A4S VSU-L07-6A6S VSU-E07-M54S VSU-E07-M56S VSU-E07-6A4S VSU-E07-6A6S VSU-H05-32U3CS VSU-H05-32U7CS VSU-H05-6N3CS VSU-H05-6N7CS VSU-H07-32U3CS VSU-H07-32U7CS VSU-H07-6N3CS VSU-H07-6N7CS VSU-L05-32U3CS VSU-L05-32U7CS VSU-L05-6N3CS VSU-L05-6N7CS VSU-L07-32U3CS VSU-L07-32U7CS VSU-L07-6N3CS VSU-L07-6N7CS VSU-E07-32U3CS VSU-E07-32U7CS VSU-E07-6N3CS VSU-E07-6N7CS VSU Holder VSU EX P VSU-H05-44S VSU-H05-46S VSU-H05-64S VSU-H05-66S VSU-H07-44S VSU-H07-46S VSU-H07-64S VSU-H07-66S VSU-L05-44S VSU-L05-46S VSU-L05-64S VSU-L05-66S VSU-L07-44S VSU-L07-46S VSU-L07-64S VSU-L07-66S VSU-E07-44S VSU-E07-46S VSU-E07-64S VSU-E07-66S VSU Box Type Union VSU-H05-M54J VSU-H05-M56J VSU-H05-6A4J VSU-H05-6A6J VSU-H07-M54J VSU-H07-M56J VSU-H07-6A4J VSU-H07-6A6J VSU-L05-M54J VSU-L05-M56J VSU-L05-6A4J VSU-L05-6A6J VSU-L07-M54J VSU-L07-M56J VSU-L07-6A4J VSU-L07-6A6J VSU-E07-M54J VSU-E07-M56J VSU-E07-6A4J VSU-E07-6A6J Direct Mounting Type Elbow EX EX P Model Box Type Union with Vacuum Switch VSU-H05-44J VSU-H05-46J VSU-H05-64J VSU-H05-66J VSU-H07-44J VSU-H07-46J VSU-H07-64J VSU-H07-66J VSU-L05-44J VSU-L05-46J VSU-L05-64J VSU-L05-66J VSU-L07-44J VSU-L07-46J VSU-L07-64J VSU-L07-66J VSU-E07-44J VSU-E07-46J VSU-E07-64J VSU-E07-66J VSB VSU-H05-3C3CJ VSU-H05-3C7CJ VSU-H05-7C3CJ VSU-H05-7C7CJ VSU-H07-3C3CJ VSU-H07-3C7CJ VSU-H07-7C3CJ VSU-H07-7C7CJ VSU-L05-3C3CJ VSU-L05-3C7CJ VSU-L05-7C3CJ VSU-L05-7C7CJ VSU-L07-3C3CJ VSU-L07-3C7CJ VSU-L07-7C3CJ VSU-L07-7C7CJ VSU-E07-3C3CJ VSU-E07-3C7CJ VSU-E07-7C3CJ VSU-E07-7C7CJ V P Model VSH-H05-4M5S VSH-H05-66AS VSH-H07-66AS VSH-H10-66AS VSH-H10-86AS VSH-H12-66AS VSH-H12-86AS VSH-H15-88AS VSH-H15-108AS VSH-L05-4M5S VSH-L05-66AS VSH-L07-66AS VSH-L07-86AS VSH-L10-66AS VSH-L10-86AS VSH-L15-88AS VSH-L15-108AS VSH-L15-128AS VSH-E07-66AS VSH-E10-66AS *Exhaust port: φ6a, φ1/4in. *Exhaust port: φ6a, φ1/4in. VSH-E10-86AS VSH-E12-66AS VSH-E12-86AS VSH-E15-88AS VSH-E15-108AS VSB VSU-H05-32U3CJ VSU-H05-32U7CJ VSU-H05-6N3CJ VSU-H05-6N7CJ VSU-H07-32U3CJ VSU-H07-32U7CJ VSU-H07-6N3CJ VSU-H07-6N7CJ VSU-L05-32U3CJ VSU-L05-32U7CJ VSU-L05-6N3CJ VSU-L05-6N7CJ VSU-L07-32U3CJ VSU-L07-32U7CJ VSU-L07-6N3CJ VSU-L07-6N7CJ VSU-E07-32U3CJ VSU-E07-32U7CJ VSU-E07-6N3CJ VSU-E07-6N7CJ VSH V Model VSU-H05-3C3CS VSU-H05-3C7CS VSU-H05-7C3CS VSU-H05-7C7CS VSU-H07-3C3CS VSU-H07-3C7CS VSU-H07-7C3CS VSU-H07-7C7CS VSU-L05-3C3CS VSU-L05-3C7CS VSU-L05-7C3CS VSU-L05-7C7CS VSU-L07-3C3CS VSU-L07-3C7CS VSU-L07-7C3CS VSU-L07-7C7CS VSU-E07-3C3CS VSU-E07-3C7CS VSU-E07-7C3CS VSU-E07-7C7CS Pipe Type Union Straight Concentrated Exhaust V Model VSB Pipe Type Straight Concentrated Exhaust V P P VSU Pipe Type Union Straight VSH-H05-3C32US VSH-H05-7C6NS VSH-H07-7C6NS VSH-H10-7C6NS VSH-H10-9C6NS VSH-H12-7C6NS VSH-H12-9C6NS VSH-H15-9C8NS VSH-H15-11C8NS VSH-L05-3C32US VSH-L05-7C6NS VSH-L07-7C6NS VSH-L07-9C6NS VSH-L10-7C6NS VSH-L10-9C6NS VSH-L15-9C8NS VSH-L15-11C8NS VSH-L15-13C8NS VSH-E07-7C6NS VSH-E10-7C6NS VSH-E10-9C6NS VSH-E12-7C6NS VSH-E12-9C6NS VSH-E15-9C8NS VSH-E15-11C8NS Mechanical Vacuum Switch EX P V Model VSU-05-B VSU-07-B Model VSB-H05-44 VSB-H07-66 *VSU-05-B=For nozzle diameter of 0.5mm VSB-H10-66 *VSU-07-B=For nozzle diameter of 0.7mm VSB-H12-66 *Used only for S type and J type. VSB-L05-44 VSB-L07-66 VSB-L10-66 VSB-E07-66 VSB-E10-66 VSB-E12-66 VSB-H05-3C3C VSB-H07-7C7C VSB-H10-7C7C VSB-H12-7C7C VSB-L05-3C3C VSB-L07-7C7C VSB-L10-7C7C VSB-E07-7C7C VSB-E10-7C7C VSB-E12-7C7C P V Model VSB-H05-44V VSB-H07-66V VSB-H10-66V VSB-H12-66V VSB-L05-44V VSB-L07-66V VSB-L10-66V VSB-E07-66V VSB-E10-66V VSB-E12-66V φD Model VSB-H05-3C3CV VSB-VUSM-4 VSB-VUSM-3C VSB-H07-7C7CV VSB-VUSM-6 VSB-VUSM-7C VSB-H10-7C7CV VSB-H12-7C7CV VSB-L05-3C3CV VSB-L07-7C7CV VSB-L10-7C7CV VSB-E07-7C7CV VSB-E10-7C7CV VSB-E12-7C7CV *With breaking valve, vacuum *With breaking valve, vacuum switch, connecting port. switch, connecting port. 5 Vacuum Ejector VSH Direct Mounting Type Elbow Concentrated Exhhaust VSC Pad Direct-Mounting Straight EX VSC Pad Direct-Mounting Air Supply Port Elbow Pad Direct-Mounting Straight Concentrated Exhaust VSC Pad Direct-Mounting Concentrated Exhaust Air Supply Port Elbow P P P EX VSC P EX V V V P Model Model VSC-H07-6A6S VSC-H07-6A8S VSC-H10-6A6S VSC-H10-6A8S VSC-H12-6A6S VSC-H12-6A8S VSC-H15-8A8S VSC-H15-10A8S VSC-H15-8A10S VSC-H15-10A10S VSC-H20-8A8S VSC-H20-10A8S VSC-H20-8A10S VSC-H20-10A10S VSC-L07-6A6S VSC-L07-6A8S VSC-L10-6A6S VSC-L10-6A8S VSC-L15-8A8S VSC-L15-10A8S VSC-L15-8A10S VSC-L15-10A10S VSC-L20-8A8S VSC-L20-10A8S VSC-L20-8A10S *Air supply port → Exhaust port VSC-L20-10A10S VSC-E07-6A6S M5 → φ6mm 6A → φ8mm VSC-E07-6A8S 8A → φ12mm VSC-E10-6A6S 32U → φ1/4in. VSC-E10-6A8S 6N → φ5/16in. VSC-E12-6A6S 8N → φ1/2in. VSC-E12-6A8S VSC-E15-8A8S VSC Pad Direct-Mounting Straight VSC-E15-10A8S VSC-E15-8A10S VSC-E15-10A10S EX VSC-E20-8A8S P VSC-E20-10A8S V VSC-E20-8A10S VSC-E20-10A10S Model VSH-H05-4M5J VSH-H05-66AJ VSH-H07-66AJ VSH-H10-66AJ VSH-H10-86AJ VSH-H12-66AJ VSH-H12-86AJ VSH-H15-88AJ VSH-H15-108AJ VSH-L05-4M5J VSH-L05-66AJ VSH-L07-66AJ VSH-L07-86AJ VSH-L10-66AJ VSH-L10-86AJ VSH-L15-88AJ VSH-L15-108AJ VSH-L15-128AJ VSH-E07-66AJ VSH-E10-66AJ VSH-E10-86AJ VSH-E12-66AJ VSH-E12-86AJ VSH-E15-88AJ VSH-E15-108AJ VSH-H05-3C32UJ VSH-H05-7C6NJ VSH-H07-7C6NJ VSH-H10-7C6NJ VSH-H10-9C6NJ VSH-H12-7C6NJ VSH-H12-9C6NJ VSH-H15-9C8NJ VSH-H15-11C8NJ VSH-L05-3C32UJ VSH-L05-7C6NJ VSH-L07-7C6NJ VSH-L07-9C6NJ VSH-L10-7C6NJ VSH-L10-9C6NJ VSH-L15-9C8NJ VSH-L15-11C8NJ VSH-L15-13C8NJ VSH-E07-7C6NJ VSH-E10-7C6NJ VSH-E10-9C6NJ VSH-E12-7C6NJ VSH-E12-9C6NJ VSH-E15-9C8NJ VSH-E15-11C8NJ VSC-H05-M54 VSC-H05-32U3C VSC-H05-M54 VSC-L05-32U3C 6 Model VSC-H07-6A6S VSC-H07-6A8S VSC-H10-6A6S VSC-H10-6A8S VSC-H12-6A6S VSC-H12-6A8S VSC-H15-8A8S VSC-H15-10A8S VSC-H15-8A10S VSC-H15-10A10S VSC-H20-8A8S VSC-H20-10A8S VSC-H20-8A10S VSC-H20-10A10S VSC-S07-6A6S VSC-S07-6A8S VSC-S10-6A6S VSC-S10-6A8S VSC-S15-8A8S VSC-S15-10A8S VSC-S15-8A10S VSC-S15-10A10S VSC-S20-8A8S VSC-S20-10A8S VSC-S20-8A10S VSC-S20-10A10S VSC-E07-6A6S VSC-E07-6A8S VSC-E10-6A6S VSC-E10-6A8S VSC-E12-6A6S VSC-E12-6A8S VSC-E15-8A8S VSC-E15-10A8S VSC-E15-8A10S VSC-E15-10A10S VSC-E20-8A8S VSC-E20-10A8S VSC-E20-8A10S VSC-E20-10A10S V EX Model VSC-H07-6A6J VSC-H07-6A8J VSC-H10-6A6J VSC-H10-6A8J VSC-H12-6A6J VSC-H12-6A8J VSC-H15-8A8J VSC-H15-10A8J VSC-H15-8A10J VSC-H15-10A10J VSC-H20-8A8J VSC-H20-10A8J VSC-H20-8A10J VSC-H20-10A10J VSC-L07-6A6J VSC-L07-6A8J VSC-L10-6A6J VSC-L10-6A8J VSC-L15-8A8J VSC-L15-10A8J VSC-L15-8A10J VSC-L15-10A10J VSC-L20-8A8J VSC-L20-10A8J VSC-L20-8A10J VSC-L20-10A10J VSC-E07-6A6J VSC-E07-6A8J VSC-E10-6A6J VSC-E10-6A8J VSC-E12-6A6J VSC-E12-6A8J VSC-E15-8A8J VSC-E15-10A8J VSC-E15-8A10J VSC-E15-10A10J VSC-E20-8A8J VSC-E20-10A8J VSC-E20-8A10J VSC-E20-10A10J V EX Model VSC-H07-6A6LJ VSC-H07-6A8LJ VSC-H10-6A6LJ VSC-H10-6A8LJ VSC-H12-6A6LJ VSC-H12-6A8LJ VSC-H15-8A8LJ VSC-H15-10A8LJ VSC-H15-8A10LJ VSC-H15-10A10LJ VSC-H20-8A8LJ VSC-H20-10A8LJ VSC-H20-8A10LJ VSC-H20-10A10LJ VSC-L07-6A6LJ VSC-L07-6A8LJ VSC-L10-6A6LJ VSC-L10-6A8LJ VSC-L15-8A8LJ VSC-L15-10A8LJ VSC-L15-8A10LJ VSC-L15-10A10LJ VSC-L20-8A8LJ VSC-L20-10A8LJ VSC-L20-8A10LJ VSC-L20-10A10LJ VSC-E07-6A6LJ VSC-E07-6A8LJ VSC-E10-6A6LJ VSC-E10-6A8LJ VSC-E12-6A6LJ VSC-E12-6A8LJ VSC-E15-8A8LJ VSC-E15-10A8LJ VSC-E15-8A10LJ VSC-E15-10A10LJ VSC-E20-8A8LJ VSC-E20-10A8LJ VSC-E20-8A10LJ VSC-E20-10A10LJ *Vacuum port → Exhaust port *Vacuum port → Exhaust port 6A → φ8mm 6A → φ8mm 8A, 10A → φ12mm 8A, 10A → φ12mm Element for Vacuum Ejectors Package: 10pcs. in a bag VSU VSH VSB A B Silencer Element C ; Silencer Element 〔VSB-EA〕 D Silencer Element 〔VSB-EB〕 Filter Element ;; ;; ;; ; ; Vacuum Generator Model VSH-□□-□M5S VSH-□□-□6AS VSH-□□-□8AS Filter Element VSU-E Element Set Silencer Element VSH-M5-SK VSH-6A-SK VSH-8A-SK VSB-EA VSB-EB VSC VSC-□05 Type Silencer Element Silencer Element VSC-M5-SE VSC VSC VSC-□07,10,12 Type VSC-□15,20 Type A A Silencer Element B B Silencer Element C Vacuum Generator Model VSC-□07-6A□(L)S VSC-□10-6A□(L)S VSC-□12-6A□(L)S Element Set VSC-12-SK (A, B set) Vacuum Generator Model VSC-□15-8A8□(L)S VSC-□15-10A8□(L)S VSC-□15-8A10□(L)S VSC-□15-10A10□(L)S VSC-□20-8A8□(L)S VSC-□20-10A8□(L)S VSC-□20-8A10□(L)S VSC-□20-10A10□(L)S Element Set VSC-15-SK (A, B, C set) VSC-20-SK (A, B, C set) 7 Common Safety Instructions for Vacuum Ejector VSG and VSK Types Be sure to read the following instructions before selecting and using the CKD devices. Also read the detailed instructions for individual series. Warning 1. For the operation of the valve, make certain that the leakage current is less than 1mA. Leakage current larger than that may cause malfunction. 2. The Vacuum Ejector with hold function or check valve function permits some vacuum leakage, so provide an appropriate safety means where vacuum must be held for a long time. 3. Long continuous power supply to the valve may raise the temperature of the coil. Heat may cause burns or affect the surrounding equipment adversely. Consult CKD about such applications. Caution 1. Do not give excessive tension or bending to the valve leads. Disconnection or damage to the connector may result. 8 Quick Fitting Ejector Vacuum Ejector VSG Type Package: 1pc. in a bag ■ These Vacuum Ejector models serve your purpose most efficiently in various combinations of units such as vacuum switch and vacuum release valve. ■ Three types of vacuum switch are prepared for variety of applications. Specifications Fluid admitted Service pressure range Service temperature range Lubrication Air 35.6∼102psi (0.25∼0.7MPa) 41∼122, (5∼50℃) Not required Air supply valve Specifications Controlling method Pilot operated poppet type Power supply 24VDC ±10%, 100VAC ±10% Power consumption 1.2W (with LED), 1.5VA (with LED) Effective sectional area 5e (Cv: 0.27) Hand operating Push type (non-lock) Vacuum release valve Specifications Controlling method Direct operated poppet type Power supply 24VDC ±10%, 100VAC ±10% Power consumption 1.2W (with LED), 1.5VA (with LED) Effective sectional area 0.15e (Cv: 0.008) Hand operating Push type (non-lock) Vacuum Switch Specifications Model Output specification Power requirements Current consumption (When 24VDC supplied) Fluid admitted Service pressure range Proof pressure Operating temperature range Operating humidity range Durability (*) No. of pressure setting Switch output Pressure setting range Switch output Operating accuracy Differential response Switch capacity Residual voltage Output voltage Zero point voltage Analog output Span voltage Lin/HYS VSG-‥‥-NA VSG-‥‥-NW VSG-‥‥-A 1-point switch output 2-point switch output 1-point analog output 1-point analog output DC12∼24V ±Ripple (P-P) 10% max. Max. 17mA Max. 25mA Max. 15mA 1-point switch output is on 2-point switch output is on Output current 0mA Air, Inert gas 0∼-29.5in. Hg (0∼-100kPa) 29psi (200kPa) 32∼122, (0∼50℃) 35∼85%RH (no freezing) 10 million cycles (0∼rated pressure) 1 2 NPN open collector output 0∼-29.5in. Hg (0∼-100kPa) ±3%F.S.(at 25℃) Variable (about 0-15% of set value) Fixed (2%F.S. Max.) 30VDC 80mA Max. 30VDC 80mA Max. 0.8V Max. 0.8V Max. 1∼5V 1∼5V 1±0.1V 1±0.2V 4±0.1V 4±0.2V ±0.5%F.S. Max. ±0.5%F.S. Max. Filter Specifications Element Material Cover Body Filtering capacity Element model Polyvinyl formal Polycarbonate: clear PBT containing glass fiber 10∫ VSG-E Model Designation (Example) VSG H 07 F 6 6 3 A ① ④ ⑥ ① ② ③ ⑤ ⑦ ①. VSG Type H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type ②. Nozzle size Size (a) 0.5 05 (0.02in.) 0.7 07 (0.03in.) 1.0 10 (0.04in.) Code H type Vacuum level and suction flow -26.8in. Hg (-90kPa) 0.41SCFM (7Nr/x(ANR)) -27.6in. Hg (-93kPa) 0.46SCFM (13Nr/x(ANR)) -27.6in. Hg (-93kPa) 0.95SCFM (27Nr/x(ANR)) L type Vacuum level and suction flow -19.7in. Hg (-66kPa) 0.42SCFM (12Nr/x(ANR)) -19.7in. Hg (-66kPa) 0.92SCFM (26Nr/x(ANR)) -19.7in. Hg (-66kPa) 1.41SCFM (40Nr/x(ANR)) E type Vacuum level and suction flow − -26.8in. Hg (-90kPa) 0.37SCFM (10.5Nr/x(ANR)) -26.8in. Hg (-90kPa) 0.74SCFM (21Nr/x(ANR)) *1. Supply pressure for H, L type: 72psi (0.5MPa) Supply pressure for E type: 50.8psi (0.35MPa) ③. Combination of units Code A B E F Filter ○ ○ ○ ○ Vacuum switch Supply valve Vacuum release valve ○ ○ ○ ○ ○ ○ *Power Supply of Vacuum Switch is DC12-24V. ④. Vacuum port tube dia. (V) Code Dia. mm size 4 6 φ4a φ6a inch size 3C 7C φ5/32in. φ1/4in. ⑤. Air supply port tube dia. (P) Code Dia. mm size 4 6 φ4a φ6a inch size 3C 7C φ5/32in. φ1/4in. ⑥. Valve unit voltage specification (Unit: E, F type only) Code Voltage 3 24VDC 1 100VAC ⑦. Switch output (Unit combination of B, F type only) NW: Two-point output switch NA: One-point analog output and one-point switch output switch A: One-point analog switch ! Caution 1. Exercise caution when the piping resistance is high or when the Vacuum release flow required. Inadequate Vacuum release flow can cause troubles. Confirm the specifications before use. 9 Vacuum Ejector VSG Built-in Filter Type VSG Type VSG E Type A Type P P V V Model Model VSG-H05A-44 VSG-H07A-66 VSG-H10A-66 VSG-L05A-44 VSG-L07A-66 VSG-L10A-66 VSG-E07A-66 VSG-E10A-66 VSG B Type VSG-H05A-3C3C VSG-H07A-7C7C VSG-H10A-7C7C VSG-L05A-3C3C VSG-L07A-7C7C VSG-L10A-7C7C VSG-E07A-7C7C VSG-E10A-7C7C Vacuum Switch (Analog output only), Built-in Filter Type VSG-H05E-44-□ VSG-H07E-66-□ VSG-H10E-66-□ VSG-L05E-44-□ VSG-L07E-66-□ VSG-L10E-66-□ VSG-E07E-66-□ VSG-E10E-66-□ VSG F Type ; Buit-in Supply Valve, Filter element for VSG Release Valve & Filter Type Cable lead-out direction: above VSG-H05E-3C3C-□ VSG-H07E-7C7C-□ VSG-H10E-7C7C-□ VSG-L05E-3C3C-□ VSG-L07E-7C7C-□ VSG-L10E-7C7C-□ VSG-E07E-7C7C-□ VSG-E10E-7C7C-□ Vacuum Switch (2-point switch output or 1-point switch output and 1-point analog output), Release valve & Built-in Filter Type Cable lead-out direction: above P P V V Model VSG-H05B-44-A VSG-H07B-66-A VSG-H10B-66-A VSG-L05B-44-A VSG-L07B-66-A VSG-L10B-66-A VSG-E07B-66-A VSG-E10B-66-A VSG B Type Model VSG-H05B-3C3C-A VSG-H07B-7C7C-A VSG-H10B-7C7C-A VSG-L05B-3C3C-A VSG-L07B-7C7C-A VSG-L10B-7C7C-A VSG-E07B-7C7C-A VSG-E10B-7C7C-A Vacuum Switch (2-point switch output or 1-point switch output and 1-point analog output), Built-in Filter Type VSG-H05F-44-□-N□ VSG-H07F-66-□-N□ VSG-H10F-66-□-N□ VSG-L05F-44-□-N□ VSG-L07F-66-□-N□ VSG-L10F-66-□-N□ VSG-E07F-66-□-N□ VSG-E10F-66-□-N□ VSG F Type VSG-H05F-3C3C-□-N□ VSG-H07F-7C7C-□-N□ VSG-H07F-7C7C-□-N□ VSG-L05F-3C3C-□-N□ VSG-L07F-7C7C-□-N□ VSG-L10F-7C7C-□-N□ VSG-E07F-7C7C-□-N□ VSG-E10F-7C7C-□-N□ Vacuum Switch (Analog output only), Release valve & Built-in Filter Type Cable lead-out direction: above P P V V Model VSG-H05B-44-N□ VSG-H07B-66-N□ VSG-H10B-66-N□ VSG-L05B-44-N□ VSG-L07B-66-N□ VSG-L10B-66-N□ VSG-E07B-66-N□ VSG-E10B-66-N□ 10 VSG-H05B-3C3C-N□ VSG-H07B-7C7C-N□ VSG-H10B-7C7C-N□ VSG-L05B-3C3C-N□ VSG-L07B-7C7C-N□ VSG-L10B-7C7C-N□ VSG-E07B-7C7C-N□ VSG-E10B-7C7C-N□ Model VSG-H05F-44-□-A VSG-H07F-66-□-A VSG-H10F-66-□-A VSG-L05F-44-□-A VSG-L07F-66-□-A VSG-L10F-66-□-A VSG-E07F-66-□-A VSG-E10F-66-□-A VSG-H05F-3C3C-□-A VSG-H07F-7C7C-□-A VSG-H07F-7C7C-□-A VSG-L05F-3C3C-□-A VSG-L07F-7C7C-□-A VSG-L10F-7C7C-□-A VSG-E07F-7C7C-□-A VSG-E10F-7C7C-□-A Filter element * Model Designation VSG-E *Please refer to P.7 for replacement element marked * as it is same as one for vacuum generator Box type Union (VSB). Quick Fitting Type Ejector VSK Type Vacuum Ejector Package: 1pc. in a bag ■The coil of vacuum generating valve and vacuum release is modified in order to achieve better durability, reliability and less electric comsumption. ■Two types of vacuum switches, the pressure sensor type with LED digital display and the low-cost, easy to use mechanical type, are available for choice. ■An LED display is used for LED digital pressure sensor to enhance visibility. ■Two types of vacuum switch − two-point output and one-point output with analog output (Conventional model was onepoint output type.) − are available depending on the desired application. ■Push-button system of lock type is standardized (Conventional model is manual (button)). How to use VSK Vacuum Pad Vacuum port Vacuum switch (LED display) Filter Vacuum release solenoid valve Release time adjusting needle Vacuum-making solenoid valve Exhaust port Air supply port Compressor Vacuum Filter Filter regulator Specifications (Supply pressure) Fluid admitted Service pressure range Service temperature range Lubrication Air 35∼102psi (0.25∼0.7MPa) 41∼122, (5∼50℃) Not necessary Solenoid valve specifications (Vacuum making, vacuum release) Structure Voltage rating Allowable voltage range Surge limiting circuit Power consumption Operating mode Manual operation Indication of operation Wiring mode and lead wire length Proof pressure "ON" mode Effective sectional area Vacuum making solenoid valve Vacuum release solenoid valve 24VDC 100VAC 24VDC 100VAC 21.6∼26.4VDC 90∼110VAC 21.6∼26.4VDC 90∼110VAC (24VDC±10%) (100VAC±10%) (24VDC±10%) (100VAC±10%) Surge absorber Bridge diode Surge absorber Bridge diode 0.8W 1VA 0.8W 1VA Pilot mode Push-button system of lock type Red LED lighting up when coil excitation is in operation. Connector mode: 300a (11.81in.) 152.3psi (1.05MPa) N.C. N.O. N.C. N.O. N.C. 3.5e (Cv: 0.19) 3.5e (Cv: 0.19) 0.6e (Cv: 0.03) Generator characteristics Type VSK-□H05… VSK-□L05… VSK-□H07… VSK-□L07… VSK-□E07… VSK-□H10… VSK-□L10… VSK-□E10… VSK-□H12… VSK-□L12… VSK-□E12… Nozzle dia. Pressure supply (in.) (a) (psi) (MPa) 72 0.5 0.02 0.5 50.9 0.35 72 0.5 72 0.5 50.9 0.35 0.028 0.7 72 0.5 50.9 0.35 72 0.5 50.9 0.35 0.039 1.0 72 0.5 50.9 0.35 72 0.5 50.9 0.35 0.047 1.2 72 0.5 50.9 0.35 Final vacuum (in. Hg) (kPa) -26.87 -91 -21.56 -73 -19.79 -67 -27.46 -93 -21.56 -73 -19.79 -67 -26.87 -91 -27.46 -93 -21.56 -73 -19.79 -67 -26.87 -91 -27.46 -93 -21.56 -73 -19.79 -67 -26.87 -91 Suction flow Air consumption (SCFM) (*1) (SCFM) (*1) 0.402 11.5 0.245 7 0.315 9 0.385 11 0.403 11.5 0.805 23 0.455 13 0.595 17 0.910 26 0.805 23 0.368 10.5 0.595 17 1.610 46 0.945 27 1.190 34 1.400 40 1.610 46 0.735 21 1.190 34 1.330 38 2.450 70 1.260 36 1.650 47 1.750 50 2.450 70 0.945 27 1.650 47 *1. r/min (ANR) *2. Secure pressure supply as listed when the vacuum ejector is in operation. (Take pressure drop into account.) 11 Vacuum Ejector VSK Type Vacuum switch with LED Specification Equipped with 2-point output switch (-NW) Equipped with analog output switch (-NA) Equipped with 2-point output switch (-PW) Equipped with analog output switch (-PA) Current consumption 40mA max. Pressure detection Diffused metaloxide semiconductive pressure transducer Service pressure range 0∼-29.5in. Hg (0∼-100kPa) Pressure setting range 0∼-29.3in. Hg (0∼-99kPa) Proof pressure 29psi (200kPa) Storage temperature range -4∼176,/-20∼80℃ (atomospheric pressure, humidity less than 60%RH) Operating temperature range 32∼122,/0∼50℃ (no freezing) Operating hummidity range 35∼85%RH (no freezing) Power requirements DC12∼24V±10% Ripple (P-P)10% max. Protective structure IEC standard IP40 equiv. No. of pressure setting 2 1 2 1 Operating accuracy ±3%F.S. max. (at Ta=77,/25℃) Differential response Fixed (2%F.S. max.) Variable (about 0∼15% of set value) Fixed (2%F.S. max.) Variable (about 0∼15% of set value) Switch output NPN open collector output: 30V 80mA max. Residual voltage 0.8V max. PNP open collector output: Supply voltage 80mA max. Residual voltage 0.8V max. Output voltage: 1∼5V Output voltage: 1∼5V Zero-point voltage: 1±0.1V Zero-point voltage: 1±0.1V Analog output Span voltage: 4±0.1V Span voltage: 4±0.1V Output current:1mA max. (load resistance 5kΩ max.) Output current:1mA max. (load resistance 5kΩ max.) LIN/HYS:±0.5%F.S. max. LIN/HYS:±0.5%F.S. max. Response About 2msec max. Indication 0∼-29.5in. Hg/0∼-99kPa (2-digit red LED display) No. of indications About 4 times/sec Indication accuracy ±3%F.S. ±2digit Resolution 1digit SW1: Red LED lighting up when pressure is above setting. SW1: Red LED lighting up when pressure is above setting. Operational indication Red LED lighting up when pressure is above setting. Red LED lighting up when pressure is above setting. SW2: Green LED lighting up when pressure is above setting. SW2: Green LED lighting up when pressure is above setting. 1.MODE selector switch (ME or S1 or S2) 1.MODE selector switch (ME or SW) 1.MODE selector switch (ME or S1 or S2) 1.MODE selector switch (ME or SW) Function 2.S1 setting trimmer (2/3-turn trimmer) 2.SW setting trimmer (2/3-turn trimmer) 2.S1 setting trimmer (2/3-turn trimmer) 2.SW setting trimmer (2/3-turn trimmer) 3.S2 setting trimmer (2/3-turn trimmer) 3.HYS setting trimmer (about 0∼15% of set value) 3.S2 setting trimmer (2/3-turn trimmer) 3.HYS setting trimmer (about 0∼15% of set value) Lead wire colors Air timer-type vacuum release valve With supply solenoid valve alone With combination of supply and release solenoid valves 24VDC 100VAC 24VDC 100VAC Black (−: Supply solenoid valve) White (common) Red (+) Blue Red (+: common) Blue (Supply solenoid valve) Black (−) White (−: Release solenoid valve) Black (Release solenoid valve) Structure Release time Release air flow Time setting method Vacuum retention function Combinations: B, D, F, H, K, M, S, T, W Allowable vacuum leakage quantity 0.38in. Hg (1.3kPa)/10x max. Note: In case of applying vacuum retantion for long period, please take above specification into consideration. Mechanical-type vacuum switch Specifications Pressure detection Diaphragm-microswitch Pressure setting range -5.9∼23.6in. Hg (-20∼-80kPa) Setting mode Stepless nut turning Switch terminal Common, N.O., N.C. Accuracy ±4kPa Differential response 4.75in. Hg (16kPa max.) Microswitch QJ (AM8100) Matsushita Electric or J-7 OMRON Microswitch rating 7A 250V AC 12 Delay by timer air cylinder, poppet valve type, two-way valve Apporx. 0.3 to 3w after closing of vacuum making solenoid 0 to 40r/x(A.N.R) (for pressure supply: 0.5MPa) Control by the speed controller of timer air cylinder Filter specifications Element material Filtering capacity Filter area Element replacement model Polyvinyl formal 10μ 1130e (1.75in2) VSG-E Model Designation (Example) VSK-A H 07 W ① ② ③ ④ 6 6 8 3 B ⑤ ⑧ ⑥ ⑦ 10 −NW ⑨ ①. Port position VSK-A: Stand-alone type connection port 2 sides VSK-B: Stand-alone type connection port 1 sides VSKM-: Manifold type ②. Vacuum characteristic H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type No code: In the case of manifold type alone ③. Nozzle diameter Code Size 0.5a 0.02in. 0.7a 07 0.03in. 1.0a 10 0.04in. 1.2a 12 0.05in. No code 05 H type L type E type Vacuum level and vacuum flow Vacuum level and vacuum flow Vacuum level and vacuum flow -26.8in. Hg (-90kPa) -19.7in. Hg (-66kPa) − 0.25SCFM (7r/x(ANR)) 0.39SCFM (11r/x(ANR)) -27.6in. Hg (-93kPa) -19.7in. Hg (-66kPa) -26.8in. Hg (-90kPa) 0.46SCFM (13r/x(ANR)) 0.91SCFM (26r/x(ANR)) 0.37SCFM (10.5r/x(ANR)) -27.6in. Hg (-93kPa) -19.7in. Hg (-66kPa) -26.8in. Hg (-90kPa) 0.95SCFM (27r/x(ANR)) 1.40SCFM (40r/x(ANR)) 0.74SCFM (21r/x(ANR)) -27.6in. Hg (-93kPa) -19.7in. Hg (-66kPa) -26.8in. Hg (-90kPa) 1.33SCFM (38r/x(ANR)) 1.75SCFM (50r/x(ANR)) 0.95SCFM (27r/x(ANR)) In the case of manifold type alone *Air supply pressure is 0.5MPa (psi) for H and L types or 0.35MPa (psi) for E type. Filter A B C D E F G H J K L M P Q R S T W No code ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ Vacuum making Check Mechanical Electronic Air timer type Solenoid valve type solenoid valve valve vacuum switch vacuum switch vacuum release valve vacuum release valve − − − − − − − ○ − − − − − − ○ − − − − ○ ○ − − − − − − ○ − − − ○ − ○ − − ○ − − − − − ○ ○ − − − − ○ − ○ − − − ○ ○ ○ − − − ○ − − ○ − − ○ ○ − ○ − − ○ − − − ○ − ○ − ○ − ○ − ○ − − ○ ○ − ○ − − − − ○ ○ − ○ − − ○ ○ − − ○ − ○ In the case of manifold type alone 6 φ6a 8 φ8a ■Stand-alone type Code 4 6 Dia. φ4a φ6a 8 φ8a 3C 7C 9C φ5/32in. φ1/4in. φ5/16in. *For the port of φ4mm, the nozzle size is 0.5mm and 0.7mm. ■Manifold type (VSKM) Port position Straight Elbow R side only 16 18 10 12 48 40 42 Both side 26 28 20 22 58 50 52 L side only 36 38 30 32 68 60 62 Dia. φ6a φ8a φ10a φ12a φ8a φ10a φ12a Port position R side only Both side L side only Dia. R7C W7C L7C φ1/4in. Straight R9C R11C W9C W11C L9C L11C φ5/16in. φ3/8in. R13C W13C L13C φ1/2in. R9L W9L L9L φ5/16in. Elbow R11L W11L L11L φ3/8in. R13L W13L L13L φ1/2in. No code: Applicable to a manifold installation top-mounting unit alone. ⑦. Exhaust port (tube dia.) Code S 8 8L Specification Silencer attached φ8 straight tube fitting (concentrated exhaust type) φ8 elbow tube fitting (concentrated exhaust type) Code 9C 9L Specification φ5/16in. straight tube fitting (concentrated exhaust type) φ5/16in. elbow tube fitting (concentrated exhaust type) ■Manifold type (VSKM) Open to air Concentrated exhaust Port position Silencer Straight tube fitting Elbow tube fitting Female thread R side only S1 18 10 12 48 40 42 72 73 74 Both side S2 28 20 22 58 50 52 82 83 84 L side only S3 38 30 32 68 60 62 92 93 94 Size − φ8a φ10a φ12a φ8a φ10a φ12a Rc1/4 Rc3/8 Rc1/2 Open to air Concentrated exhaust Port position Silencer Straight tube fitting Elbow tube fitting Female thread R side only S1 R9C R11C R13C R9L R11L R13L R8N R10N R12N Both side S2 W9C W11C W13C W9L W11L W13L W8N W10N W12N L side only S3 L9C L11C L13C L9L L11L L13L L8N L10N L12N Size − φ5/16in. φ3/8in. φ1/2in. φ5/16in. φ3/8in. φ1/2in. NPT1/4 NPT3/8 NPT1/2 No code: Applicable to a manifold installation top-mounting ⑧. Solenoid valve type ■Stand-alone type 4 φ4a ⑥. Air supply port (tube dia.) unit alone. ⑤. Vacuum port (tube dia.) Code Dia. ⑪ ■Stand-alone type ④. Combinations (18 types) Code ⑩ 3C 7C 9C φ5/32in. φ1/4in. φ5/16in. *For the port of φ4mm, the nozzle size is 0.5mm and 0.7mm. ■Manifold type (VSKM) Port position Side (straight) Upper plane (straight) Code S4 S6 S8 PP T4 T6 T8 Dia. φ4a φ6a φ8a Plug φ4a φ6a φ8a Port position Side (straight) Upper plane (straight) Code S3C S7C S9C PP T3C T7C T9C Dia. φ5/32in. φ1/4in. φ5/16in. Plug φ5/32in. φ1/4in. φ5/16in. 00: Applicable to a manifold installation top-mounting unit alone, with the port to be installed on the side. Code Voltage 3 24V DC 1 100V AC ⑨. Valve type A: Normally open type B: Normally closed type ⑩. No. of manifold (Code is entered only in the case of manifold) Code No. of manifold 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 *Special-order for those with 11 or more manifold. ⑪. Switch output −NW: NPN open collector output with two-point output switch −NA: NPN open collector output with analog output switch −PW: PNP open collector output with two-point output switch −PA: PNP open collector output with analog output switch *Please make a entry when the Switch output of ④ (Combination: E, F, L, M, R, W) is NPN Open Collector output. .In case of ordering, please apply Model code in the following chart. 13 Vacuum Ejector VSK Type Model designation for block plate only (Example) Model designation for nozzle set only (Example) VSKM MB VSK ① ① ① ①. Code for block plate only (Code: MB) ① NK ② ①. Vacuum characteristic H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type (Nozzle diameter φ0.5mm is not available) ②. Nozzle diameter Code Dia. 14 H 05 05 φ0.5a φ0.02in. 07 φ0.7a φ0.03in. 10 φ1.0a φ0.04in. 12 φ1.2a φ0.05in. VSK A Bulit-in Filter Type VSK E Type Type Model VSK-A□□A-□□S VSK-A□□A-□□8(L) VSK-B□□A-□□S VSK-B□□A-□□8(L) VSKM-□□A-□□□ VSKM-□□A-T…□□ VSK B Type Built-in Check Valve & Filter Type VSK C Type Built-in Vacuum Switch (Mechanical) & Filter Type VSK-A□□E-□□S-□ VSK-A□□E-□□8(L)-□ VSK-B□□E-□□S-□ VSK-B□□E-□□8(L)-□ VSKM-□□E-□□□-□ VSKM-□□E-T…□□-□ VSK F Type VSK D Type Built-in Vacuum Switch (Mechanical), Check Valve & Filter Type Model VSK-A□□D-□□S VSK-A□□D-□□8(L) VSK-B□□D-□□S VSK-B□□D-□□8(L) VSKM-□□D-□□□ VSKM-□□D-T…□□ Type Built-in Vacuum Switch (with LED Display), Check Valve & Filter Type VSK-A□□F-□□S-□ VSK-A□□F-□□8(L)-□ VSK-B□□F-□□S-□ VSK-B□□F-□□8(L)-□ VSKM-□□F-□□□-□ VSKM□□F-T…□□-□ VSK G Type Built-in Supply Valve & Filter Type VSK-A□□J-□□S-□□ VSK-A□□J-□□8(L)-□□ VSK-B□□J-□□S-□□ VSK-B□□J-□□8(L)-□□ VSKM-□□J-□□□-□□ VSKM-□□J-T…□□-□□ VSK K Type VSK H Type Built-in Supply Valve, Check Valve & Filter Type Model VSK-A□□H-□□S-□□ VSK-A□□H-□□8(L)-□□ VSK-B□□H-□□S-□□ VSK-B□□H-□□8(L)-□□ VSKM-□□H-□□□-□□ VSKM-□□H-T…□□-□□ Built-in Vacuum Switch (Mechanical), Check Valve, Supply Valve & Filter Type Model VSK-A□□K-□□S-□□ VSK-A□□K-□□8(L)-□□ VSK-B□□K-□□S-□□ VSK-B□□K-□□8(L)-□□ VSKM-□□K-□□□-□□ VSKM-□□K-T…□□-□□ VSK L Type Model VSK-A□□G-□□S-□□ VSK-A□□G-□□8(L)-□□ VSK-B□□G-□□S-□□ VSK-B□□G-□□8(L)-□□ VSKM-□□G-□□□-□□ VSKM-□□G-T…□□-□□ Built-in Vacuum Switch (Mechanical), Supply Valve & Filter Type Model Model Model VSK-A□□C-□□S VSK-A□□C-□□8(L) VSK-B□□C-□□S VSK-B□□C-□□8(L) VSKM-□□C-□□□ VSKM-□□C-T…□□ VSK J Model Model VSK-A□□B-□□S VSK-A□□B-□□8(L) VSK-B□□B-□□S VSK-B□□B-□□8(L) VSKM-□□B-□□□ VSKM-□□B-T…□□ Built-in Vacuum Switch (with LED Display) & Filter Type Built-in Vacuum Switch (with LED Display), Supply Valve & Filter Type Model VSK-A□□L-□□S-□□-□ VSK-A□□L-□□8(L)-□□-□ VSK-B□□L-□□S-□□-□ VSK-B□□L-□□8(L)-□□-□ VSKM-□□L-□□□-□□-□ VSKM-□□L-T…□□-□□-□ VSK M Type Built-in Vacuum Switch (with LED Display), Check Valve, Supply Valve & Filter Type Model VSK-A□□M-□□S-□□-□ VSK-A□□M-□□8(L)-□□-□ VSK-B□□M-□□S-□□-□ VSK-B□□M-□□8(L)-□□-□ VSKM-□□M-□□□-□□-□ VSKM-□□M-T…□□-□□-□ 15 Vacuum Ejector VSK P Type VSK Type Built-in Release Valve (Air Timer), Supply Valve & Filter Type VSK T Type Built-in Release Valve (Solenoid Valve), Vacuum Filter element for replacement Switch (Mechanical), Supply Valve & Filter Type MO DE SW ME 1 SW 2 S2 S1 Filter element Model VSK-A□□P-□□S-□□ VSK-A□□P-□□8(L)-□□ VSK-B□□P-□□S-□□ VSK-B□□P-□□8(L)-□□ VSKM-□□P-□□□-□□ VSKM-□□P-T…□□-□□ VSK Q Type Built-in Release Valve (Air Timer), Vacuum Switch (Mechanical), Supply Valve & Filter Type Model VSK-A□□T-□□S-□□ VSK-A□□T-□□8(L)-□□ VSK-B□□T-□□S-□□ VSK-B□□T-□□8(L)-□□ VSKM-□□T-□□□-□□ VSKM-□□T-T…□□-□□ VSK W Type ; ;; Model Designation VSG-E Built-in Release Valve (Solenoid Valve), Vacuum Switch (with LED Display), Supply Valve & Filter Type Silencer element for replacement Silencer element Lock pin Model VSK-A□□Q-□□S-□□ VSK-A□□Q-□□8(L)-□□ VSK-B□□Q-□□S-□□ VSK-B□□Q-□□8(L)-□□ VSKM-□□Q-□□□-□□ VSKM-□□Q-T…□□-□□ VSK R Type Built-in Release Valve (Air Timer), Vacuum Switch (with LED Display), Supply Valve & Filter Type Model VSK-A□□W-□□S-□□-□ VSK-A□□W-□□8(L)-□□-□ VSK-B□□W-□□S-□□-□ VSK-B□□W-□□8(L)-□□-□ VSKM-□□W-□□□-□□-□ VSKM-□□W-T…□□-□□-□ Manifold only Model Designation VSK-SE Silencer element for replacement (VSKM) DE MO 1 SW ME 2 SW S2 S1 DE MO 1 SW ME 2 SW S2 S1 D MO W1 ES ME Model VSK-A□□R-□□S-□□-□ VSK-A□□R-□□8(L)-□□-□ VSK-B□□R-□□S-□□-□ VSK-B□□R-□□8(L)-□□-□ VSKM-□□R-□□□-□□-□ VSKM-□□R-T…□□-□□-□ VSK S Type Built-in Release Valve (Solenoid Valve), Supply Valve & Filter Type Manifold type (No. of manifold) Twofold Threefold Fourfold Fivefold Sixfold Sevenfold Eightfold Ninefold Tenfold Silencer element set *Please be reminded that the Block plate is not included in the price. Block plate (for manifold) Model VSK-A□□S-□□S-□□ VSK-A□□S-□□8(L)-□□ VSK-B□□S-□□S-□□ VSK-B□□S-□□8(L)-□□ VSKM-□□S-□□□-□□ VSKM-□□S-T…□□-□□ 16 2 SW S2 S1 Block plate (1 piece) VSKM-MB Model Designation VSKM-SK Quick Fitting Type Vacuum System Vacuum System VSJ Type Package: 1pc. in a bag ■By newly added pressure adjusting function to flow adjusting function, it enables to prevent works from being blown away. ■A relief mechanism built into the circuit which breaks the vacuum (extra pressure is relieved) realizes shorter vacuum release time. ■A variety of features allows this vacuum unit to respond to diverse needs. (ejector system-compatible vacuum generation unit, vacuum pump system-compatible unit). ■A manifold-type vacuum unit can realize savings vis-a-vis pipe work. Concerning the pipe lead-out direction, two types are available-front lead-out type and rear lead-out type; choice depends on the place of installation. ■Supply valves are available in three different types-double solenoid type (retention type), normally closed type (always closed) and normally open type (always open). Of the three, double solenoid type (retention type) is optimal for applications where the vacuum is generated only for a short period of time. ■LED vacuum switches allow for clearer visual recognition. Two types of vacuum switches are available-two-point output and analog output-with selection depending on the desired application. For wiring, a connector method is adopted to enhance the ease of designing the wiring layout. ■Four standard nozzle diameters are available-05, 07, 10 and 12. ●Ejector system-compatible type ●Vacuum pump system-compatible type Vacuum Pad Vacuum pump Vacuum air Vacuum Pad Pressure air Vacuum air Vacuum air Compressor Compressor Vacuum release air With Ejector system-compatible type, compact vacuum system can be realized. Pressure air Vacuum release air Please apply Vacuum pump system-compatible type in case of requiring large quantity of vacuum air or long period of vacuum generation. Specifications (Supply pressure) Solenoid valve specifications (Vacuum making, vacuum release) Type Fluid admitted Service pressure range Service temperature range Working vacuum range ■Pilot Valve Item Vacuum making solenoid valve Vacuum release solenoid valve Operating system Direct operation Valve construction Elastic seal, poppet valve Voltage rating 24VDC 100VAC 24VDC 100VAC Allowable voltage range 24VDC±10% 100VAC±10% 24VDC±10% 100VAC±10% Surge limiting circuit Diode Bridge diode Diode Bridge diode Power consumption 1.2W (with LED) 1.5VA (with LED) 1.2W (with LED) 1.5VA (with LED) Manual operation Push-button system of non-lock type Operational indication Red LED lighting up when coil excitation is in operation. Connector type (cable length: 300a/11.81in.) Wiring method Red: 24VDC Red: 24VDC Blue Blue Black: COM Black: COM Ejector system-compatible type Air 43.5∼102psi (0.3∼0.7MPa) 41∼122, (5∼50℃) − Vacuum pump system-compatible type Air 43.5∼102psi (0.3∼0.7MPa) 41∼122, (5∼50℃) 0∼-29.8in. Hg (0∼-101kPa) Generator characteristics ■H type (High-vacuum Middle-flow type) Nozzle dia. Final vacuum Suction flow Consumption (in.) (a) (in. Hg) (kPa) (SCFM) (r/x(ANR)) (SCFM) (r/x(ANR)) 0.02 0.5 -26.7 -90.4 0.25 7 0.40 11.5 0.03 0.7 -27.5 -93.1 0.46 13 0.81 23 0.04 1.0 -27.5 -93.1 0.95 27 1.61 46 0.05 1.2 -27.5 -93.1 1.33 38 2.45 70 ■L type (Middle-vacuum Large-flow type) Nozzle dia. Final vacuum Suction flow Consumption (in.) (a) (in. Hg) (kPa) (SCFM) (r/x(ANR)) (SCFM) (r/x(ANR)) 0.02 0.5 -19.6 -66.5 0.39 11 0.40 11.5 0.03 0.7 -19.6 -66.5 0.91 26 0.81 23 0.04 1.0 -19.6 -66.5 1.40 40 1.61 46 0.05 1.2 − − − − − − ■E type (High-vacuum Small-flow type) Nozzle dia. Final vacuum Suction flow Consumption (in.) (a) (in. Hg) (kPa) (SCFM) (r/x(ANR)) (SCFM) (r/x(ANR)) 0.02 0.5 − − − − − − 0.03 0.7 -26.7 -90.4 0.37 10.5 0.60 17 0.04 1.0 -26.7 -90.4 0.74 21 1.19 34 0.05 1.2 -26.7 -90.4 0.95 27 1.65 47 ■Changing Valve Item Vacuum making solenoid valve Vacuum release solenoid valve Operating system Pneumatic operation by pilot valve Valve construction Elastic seal, poppet valve Proof pressure 152.3psi (1.05MPa) Valve type Double solenoid (retention type), Normally closed, Normally open Normally closed Min. excitation time 50mw (Double solenoid type only) Lubrication Not required Effective Air supply port diameter 1e (Cv: 0.05) sectional area φ4: 3.5e (Cv: 0.19), φ6: 5e (Cv: 0.27) 17 Vacuum System VSJ Type Vacuum release function Vacuum switch with LED Vacuum release air flow 0∼1.75SCFM (0∼50r/x(ANR)) (air supply pressure is 72.5psi/0.5MPa) Structure of vacuum release air relief valves Elastic seal, poppet valve Relief pressure setting range 0.73∼7.3psi (0.005∼0.05MPa) Specification Equipped with 2-point output switch (-W) Equipped with analog output switch (-A) -14.8in. Hg/-50kPa (SW1) Set value at shipment -14.8in. Hg/-50kPa -3.0in. Hg/-10kPa (SW2) Current consumption 40mA max. Pressure detection Diffused semiconduction pressure switch Service pressure range 0∼-29.5in. Hg (0∼-100kPa) Pressure setting range 0∼-29.3in. Hg (0∼-99kPa) Proof pressure 29psi (0.2MPa) Storage temperature range -4∼176,/-20∼80℃ (atomospheric pressure, humidity less than 60%RH) Operating temperature range 32∼122,/0∼50℃ (no freezing) Operating hummidity range 35∼85%RH (no freezing) Power requirements DC12∼24V±10% Ripple (P-P)10% max. Protective structure IEC standard IP40 equiv. No. of pressure setting 2 1 Operating accuracy ±3%F.S. max. (at Ta=77,/25℃) Differential response Fixed (2%F.S. max.) Variable (about 0∼15% of set value) Switch output NPN open collector output: 30V 80mA max. Residual valtage 0.8V max. Output voltage: 1∼5V Zero-point voltage: 1±0.1V Analog output Span voltage: 4±0.1V Output current:1mA max. (load resistance 5kΩ max.) LIN/HYS:±0.5%F.S. max. Response 1msec max. Indication 0∼-29.5in. Hg/0∼-99kPa (2-digit red LED display) No. of indications About 4 times/sec Indication accuracy ±3%F.S. ±2digit Resolution 1digit SW1: Red LED lighting up when pressure is above setting. Operational indication Red LED lighting up when pressure is above setting. SW2: Green LED lighting up when pressure is above setting. 1.MODE selector switch (ME or S1 or S2) 1.MODE selector switch (ME or SW) Function 2.S1 setting trimmer (2/3-turn trimmer) 2.SW setting trimmer (2/3-turn trimmer) 3.S2 setting trimmer (2/3-turn trimmer) 3.HYS setting trimmer (about 0∼15% of set value) Filter specification Element material Filtering capacity Filter surface area Replacement element model designation PVF (polyvinyl formal) 10∫ 1130e (1.75in2.) For vacuum air: VSJ-VE For vacuum release air: VSJ-PE ! Warning 1. For the operation of the valve, make certain that the leakage current is less than 1mA. Leakage current larger than that may cause malfunction. 2. This Vacuum Generator with hold function permits some vacuum leakage, so provide an appropriate safety means where vacuum must be held for long time. 3. Long continuous power supply to the pilot valve may raise the temperature of the coil. Heat may cause burns or affect the surrounding equipment adversely. Consult CKD about such applications. 4. A model with retention type air supply valve (refer to as double solenoid type), must confirm position of change valve by sending signal to or by manually operation of pilot solenoid valve when re-supplying pilot air after shut down once or initial setting because the change valve is placed at neutral position. ! Caution 1. In order to avoid disconnection and/or damage to the connectors, do not allow the pilot valve and vacuum switch lead wires to be pulled or bent. 2. In respect to manifold specifications, performance deterioration or adverse effects may possibly be produced on the vacuum ports of other stations depending on the number of manifold series used and/or combinations of installed units. Discretion is therefore to be used in this respect. Consult us if problems arise. 3. Compressed air contains a variety of foreign matter (such as water, oxidized oils, and mineral tar among others). Since foreign matter substantially reduces the performance of this equipment, air quality should be enhanced by dehumidification via after-coolers or dryers. 4. Do not use lubricators. 5. Do not use this equipment near corrosive and/or flammable gases. Do not use this equipment for the handling of fluids. 6. When replacing vacuum port cartridge joints, first remove any foreign matter clinging to them and the surrounding areas, then firmly insert pins into joints. 7. When replacing supply port joint blocks, confirm that their packing is in place, then remove foreign matter from surrounding areas and tighten screws according to the prescribed torque. 8. As the series number of manifolds increases, trouble, such as the lowering of vacuum performance due to an insufficient supply of air and/or insuffient exhaust port capacity, exhaust air flowing directly into vacuum ports and others such problems may possibly be encountered. Consult us on this matter, since simultaneous activation-allowable series numbers differ according to each unit's vacuum performance. 18 Model Designation of ejector system-compatible type (Example) VSJ ① H 07 B 6 6 8 3 ① ④ ⑤ ⑦ ② ③ ⑥ W ⑧ ⑨ ⑩ ①. Vacuum characteristic H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type ②. Nozzle diameter Code 05 07 10 12 00 ⑤. Air supply port (tube dia.) Code Dia. 6 φ6a 8 10 φ8a (*2) φ10a (*2) ⑥. Exhaust port Open to air Silencer S − Code Dia. Concentrated exhaust Quick-fitting joint 8 10 φ8a φ10a (*1) *1. Manifold type only ⑦. Solenoid valve type Code Working voltage 3 24VDC 1 100VAC ⑧. No. of manifold (Code is entered only in the case of manifold) Code No. of manifold ③. Vacuum-generating solenoid valve valve-unit type D: Double solenoid type (retention type) B: Normally closed type A: Normally open type ④. Vacuum port (tube dia.) 4 φ4a 6 φ6a *1. Stand-alone type only *2. Manifold type only Nozzle H type L type E type diameter Final vacuum Suction flow Air consumption Final vacuum Suction flow Air consumption Final vacuum Suction flow Air consumption (in.) (in. Hg) (SCFM) (SCFM) (in. Hg) (SCFM) (SCFM) (in. Hg) (SCFM) (SCFM) (a) (kPa) (r/x(ANR)) (r/x(ANR)) (kPa) (r/x(ANR)) (r/x(ANR)) (kPa) (r/x(ANR)) (r/x(ANR)) 0.02 -26.7 0.25 0.40 -19.6 0.39 0.49 − − − 0.5 -90.4 7 11.5 -66.5 11 11.5 − − − 0.03 -27.5 0.46 0.81 -19.6 0.91 0.81 -26.7 0.37 0.60 23 -66.5 26 23 -90.4 10.5 17 0.7 -93.1 13 0.04 -27.5 0.95 1.61 -19.6 1.40 1.61 -26.7 0.74 1.19 46 -66.5 40 46 -90.4 21 34 1.0 -93.1 27 0.05 -27.5 1.33 2.45 − − − -26.7 0.95 1.65 70 47 1.2 -93.1 38 − − − -90.4 27 With manifold types, when ejectors are mounted in combination with each vacuum characteristic. (Details should be described in Specification form.) Code Dia. 4 φ4a (*1) 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 ⑨. Lead-out direction of concentrated piping (Code is entered only in the case of manifold) Code Lead-out direction A Vacuum port side B Supply port side ⑩. Vacuum switches (NPN Open collector) W: With 2-point output switch A: With analog output switch No code: Without vacuum switch 8 φ8a Model Designation of vacuum pump system-compatible type (Example) VSJP A 6 6 ① ① ② ③ ④ 6 3 ⑤ ⑥ W ⑦ ⑧ ①. Vacuum-generating solenoid valve valve-unit type D: Double solenoid type (retention type) B: Normally closed type A: Normally open type ②. Vacuum port (tube dia.) Code Dia. 4 φ4a 6 φ6a 4 φ4a (*1) 6 φ6a ④. Exhaust port (tube dia.) (Code is entered only in the case of manifold) 6 φ6a Code Working voltage 3 24VDC 1 100VAC ⑦. No. of manifold (Code is entered only in the case of manifold) 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 ⑧. Lead-out direction of concentrated piping (Code is entered only in the case of manifold) 8 10 φ8a (*2) φ10a (*2) *1. Stand-alone type only *2. Manifold type only Code Dia. ⑥. Solenoid valve type Code No. of manifold 8 φ8a ③. Air supply port (tube dia.) Code Dia. ⑨ 8 φ8a 10 φ10a Code Lead-out direction A Vacuum port side B Supply port side ⑨. Vacuum switches (NPN Open collector) W: With 2-point output switch A: With analog output switch No code: Without vacuum switch ⑤. Vacuum supply port (tube dia.) Code Dia. 4 φ4a (*1) 6 φ6a 8 10 φ8a (*2) φ10a (*2) *1. Stand-alone type only *2. Manifold type only 19 Vacuum System VSJ Type Ejector system-compatible type VSJ Concentrated Exhaust, Wire lead-out Direction: from above VSJ Model VSJ-□□□-□□8-□ VSJ Vacuum pump system-compatible type Concentrated Exhaust, with Vacuum Switch Wire lead-out Direction: from above VSJP Model Model VSJ-□□□-□□8-□-□ Open to air, Wire lead-out Direction: from above Model VSJ-□□□-□□S-□ Wire lead-out Direction: from above VSJ VSJP-□-□□□-□ Open to air, with Vacuum Switch Wire lead-out Direction: from above VSJP with Vacuum Switch Wire lead-out Direction: from above Model Model VSJ-□□□-□□S-□-□ VSJP-□-□□□-□-□ Manifold type Replace Element list No. of manifold 2 units 3 units 4 units 5 units 6 units 7 units 8 units 9 units 10 units Model: VSB-EA Silencer element Model: VSJ-EC for ejectors Filter element for Model: VSG-E vacuum units Model: VSJ-PE MODE SW1 SW2 kPa MES1 S1 P V Element Silencer element for ejectors Filter element for vacuum units 20 Model VSJ-EC VSB-EA VSG-E VSJ-PE Quick Fitting Type System Vacuum System VSX Type Package: 1pc. in a bag ■A light weight and compact vacuum unit meeting market needs. ■Supply valves are of the normally closed type (always closed) and the double solenoid type for energy saving (retention type). The responce characteristics of each type are maximized, to realize a high-cycle vacuum system. ■The ejector system-compatible and vacuum pump system-compatible units are provided, to suit wide variety of vacuum system uses. ■Regarding fixing method, the vacuum system VSX types are either of the direct mount type (to be fixed at the side by a screw etc.), or of the DIN rail mount type (permitting installation on a DIN rail). Choose between these types according to use. ■Some vacuum switches are provided with LED pressure indicators to enhance visibility; and others with only analog outputs for cost saving. Vacuum switches with LED pressure indicators are provided either with two-point outputs, or with analog outputs. Choose among these types according to use and cost requirements. Connectors are used for wiring to enable easy wiring layout. ■The nozzle diameter is 0.5mm, 0.7mm or 1.0mm. ;; *The above weight is as the value for an ejector system-compatible unit with a pressure sensor (concentrated exhaust type, provided with LED pressure indicator). ■By adopting a three-way vacuum supply main valve, the time required to shift from a vacuum to atmospheric pressure (vacuum release time) has been drastically reduced. (Since the conventional two-way valve (VSXP-D type) operates to maintain the vacuum immediately after the main valve is shut off, only vacuum release air contributes to releasing vacuum. In the newly commercialized three-port specification (VSXP-T type), however, the atmospheric pressure is introduced on shutting off the main valve to release vacuum using the atmospheric pressure plus vacuum releasing air.) ■Up to 10 manifolds can be installed. Pilot valve signal OFF Vacuum releasing through the atmospheric pressure and vacuum releasing air (VSXP-T type) Vacuum Vacuum releasing through vacuum releasing air (VSXP type) Atmospheric pressure →Time Time required to shift from a vacuum to atmospheric pressure (vacuum release time) In case of ejector system-compatible unit Vacuum making solenoid valve Vacuum switch (with LED indicator) Vacuum release solenoid valve Filter regulator Filter Vacuum release flow amount adjusting needle Compressor Vacuum pad 21 Vacuum System VSX Type In the case of vacuum pump system-compatible unit Vacuum making solenoid valve Vacuum switch (with LED indicator) Vacuum release solenoid valve Filter Vacuum release flow amount adjusting needle Pilot air supply Vacuum pump Vacuum pad Solenoid valve specifications Specifications (Supply pressure) ■Pilot valve Vacuum making solenoid valve (VSX type) Vacuum release solenoid valve Item Vacuum supply solenoid valve (VSXP, VSXP-T type) Operating system Direct operation Valve construction Elastic seal, poppet valve Voltage rating DC24V AC100V DC24V AC100V Allowable voltage range DC24V ±10% AC100V ±10% DC24V ±10% AC100V ±10% Surge limiting circuit Surge absorber Bridge diode Surge absorber Bridge diode Power consumption 1.2W (with LED) 1.5VA (with LED) 1.2W (with LED) 1.5VA (with LED) Manual operation Push-button system of non-lock type Operational indication Red LED lighting up when coil excitation is in operation. Connector type (cable lenght: 19.7in./500a) Wiring method Red: DC24V Red: DC24V Blue Blue Black: COM Black: COM Type Ejector system-compatible unit Fluid admitted Air Service pressure range 43.5∼102psi (0.3∼0.7MPa) Service temperature range 41∼122, (5∼50℃) Working vacuum range − ■Change valve (VSX, VSXP-D type) Vacuum making solenoid valve (VX type) Item Vacuum supply solenoid valve (VXP type) Operating system Pneumatic operation by pilot valve Valve construction Elastic seal, poppet valve Proof pressure 152.3psi (1.05MPa) Valve type Normally closed Lubrication Not required Air supply port size φ4:3.5e (Cv: 0.19) Effective sectional area Air supply port size φ6:4.5e (Cv: 0.24) 22 Vacuum pump system-compatible unit Air 43.5∼102psi (0.3∼0.7MPa) 41∼122, (5∼50℃) 0∼-29.8in. Hg (0∼-101kPa) ■Change valve (VSXP-T type) Item Vacuum supply solenoid valve Operating system Pneumatic operation by pilot valve Valve construction Elastic seal, poppet valve Proof pressure 152.3psi (1.05MPa) Valve type Normally closed Lubrication Not required Air supply port size φ4:3.0e (Cv: 0.16) Effective sectional area Air supply port size φ6:3.6e (Cv: 0.20) Ejector characteristics Nozzle dia. Supply pressure Final vacuum (in./㎜) (psi/MPa) (in. Hg/-kPa) VSX-H05… (*1) -26.7/90.4 0.02/0.5 71.1/0.5 VSX-L05… (*1) -19.6/66.5 VSX-H07… (*1) -27.5/93.1 VSX-L07…S Open to air 71.1/0.5 0.03/0.7 -19.6/66.5 VSX-L07…J Concentrated exhaust VSX-E07… (*1) 50.8/0.35 -26.7/90.4 VSX-H10…S Open to air -27.5/93.1 VSX-H10…J Concentrated exhaust 71.1/0.5 VSX-L10…S Open to air 0.04/1.0 -19.6/66.5 VSX-E10…S Open to air 50.8/0.35 -26.7/90.4 VSX-E10…J Concentrated exhaust Model Vacuum release function (VSX, VSXP type) Suction flow (SCFM/rr/x(ANR)) 0.25/7 0.42/12 0.46/13 0.85/24 0.78/22 0.37/10.5 0.85/24 0.71/20 0.91/26 0.71/20 0.67/19 Air consumption (SCFM/rr/x(ANR)) 0.40/11.5 0.81/23 0.60/17 1.61/46 1.19/34 Vacuum switch specifications Set value at shipment Current consumption Pressure detection Service pressure range Pressure setting range Proof pressure Storage temperature range Operating temperature range Operating humidity range Power requirements Protective structure No. of pressure setting Operating accuracy Differential response Switch output Analog output Indication No. of indications Indication accuracy Resolution Operational indication Function *1.Value for a supply pressure of 0.5MPa. *2.Note that in the case of double solenoid type, it is impossible to meet specifications on valve response if the flow rate is outside the above range. *3.The vacuum release air flow depends on factors such as the diameter and length of the vacuum side piping (piping resistence). Vacuum release function (VSXP-T type) Valve type Vacuum release air flow Normally closed 0∼0.12SCFM (0∼3.5r/x(ANR)) *1.Value for a supply pressure of 0.5MPa. *2.The vacuum release air flow depends on factors such as the diameter and length of the vacuum side piping (piping resistence). *1. Open to air/concentrated exhaust Specification Valve type Vacuum release air flow Normally closed 0∼0.26SCFM (0∼7.5r/x(ANR)) Double solenoid 0.01∼0.07SCFM (0.2∼2r/x(ANR)) Vacuum switch with LED pressure indicator Vacuum switch with no indicator Equipped with 2-point output switch (-DW) Equipped with analog output switch (-DA) Analog output only (-A0) -14.8in. Hg (SW1)、-3.0in. Hg (SW2) -14.8in. Hg/-50kPa 40mA max. 15mA max. Diffused semiconduction pressure switch 0∼-29.5in. Hg (-100∼0kPa) -29.3∼0in. Hg (-99∼0kPa) 29psi (0.2MPa) -4∼176,/-20∼80℃ (Atmospheric pressure, humidity less than 60%RH) 32∼122,/0∼50℃ (No freezing) 35∼85%RH (No freezing) DC12∼24V±10% Ripple (P-P)10% max. IEC standard IP40 equiv. 2 1 ±3%F.S. max. (at Ta=25℃) Fixed (2%F.S. max.) Variable (about 0∼15%F.S. max.) NPN open collector output: 30V 80mA max. Residual voltage 0.8V max. Output voltage: 1∼5V Zero-point voltage: 1±0.1V Span voltage: 4±0.1V Output current: 1mA max. (Load resistance 5kΩ max.) LIN/HYS:±0.5%F.S. max. LIN/HYS:±0.5%F.S. max. 0∼-29.5in. Hg/0∼-99kPa (2-digit Red LED display) About 4 time/sec ±3%F.S. ±2digit 1digit SW1: Red LED lighting up when Red LED lighting pressure is above setting up when pressure SW2: Green LED lighting up when is above setting pressure is above setting 1. Mode selector switch 1. Mode selector switch (ME or S1 or S2) (ME or SW) 2. S1 setting trimmer 2. SW setting trimmer (2/3-turn trimmer) (2/3-turn trimmer) 3. S2 setting trimmer 3. HYS setting trimmer (2/3-turn trimmer) (about 0∼15% of set value) Filter specifications Element material Filtering capacity Filter surface area Replacement element Model Designation PVF (Polyvinyl formal) 10∫ 502e (0.78in2) VSX-E ! Warning 1. For the operation of the valve, make certain that the leakage current is less than 1mA. Leakage current larger than that may cause malfunction. 2. Vacuum pump system-compatible unit, two-port specification (VSXP type), with vacuum hold function permits vacuum leakage; therefore, provide an appropriate safe means whereby vacuum may be held for a long time. Note that the three-port unit (VSXP-T type) has no vacuum hold function. 3. Long continuous power supply to the pilot valve may raise the temperature of the coil. Heat may cause burns or affect the surrounding equipment adversely. Consult CKD about such applications. 4. A model with retention type air supply valve (refer to as double solenoid type), VSX-□□D-…, must confirm position of change valve by sending signal to or by manually operation of pilot solenoid valve when re-supplying pilot air after shut down once or initial setting because the change valve is placed at neutral position. 5. If the unit may be vibrated or shocked when using the DIN rail type, fix it on both sides using commercially available DIN rail fittings to ensure security. 6. Before attaching the unit to or detaching it from the manifold, shut off the air supply and evacuate the remaining pressure completely. 7. After mounting the unit on the manifold, insert the lock lever as far as it goes and secure it with a screw. Vibration may cause the lock lever to disengage; this may cause the unit to jump out. ! Caution 1. In order to avoid disconnection and/or damage to the connectors, do not allow the pilot valve and vacuum switch lead wires to be pulled or bent. 2. Compressed air contains a variety of foreign matter (such as water, oxidized oils, and mineral tar among others). Since foreign matter substantially reduces the performance of the unit, air quality should be enhanced by dehumidification via after-coolers or dryers. 3. Rust on piping may cause malfunction. Accordingly, install a filter (5µm) in the portion directly leading to the supply port. It is advisable to flush the pipe interior before use, and subsequently at appropriate intervals. 4. Do not use this equipment near corrosive and/or flammable gases. Do not use this equipment for the handling of fluids. 5. When replacing the cartridge joint of the supply (PS, PV) port, remove any foreign matter attached to the seal, and insert the fixing pin correctly. 6. When replacing the cartridge joint of the vacuum (V) port, make sure that the wind packing has not been detached. Then, remove any foreign matter attached to the seal, and fix the screw correctly at the specified torque. 7. Before mounting the unit on the manifold, always make sure that the O-rings on the air supply (vacuum supply) port and exhaust (air supply) port are not missing or pushed off. 23 Vacuum System VSX Type Model Designation of ejector system-compatible unit (Example) VSX ① H 05 D 4 4 S 3 A0 D ① ④ ⑦ ⑧ ⑨ ② ③ ⑤ ⑥ ①. Vacuum characteristics H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type ②. Nozzle diameter Code 05 07 10 Nozzle dia. (in./a) φ0.02/φ0.5 φ0.03/φ0.7 φ0.04/φ1.0 H type Vacuum level Suction flow (in. Hg/-kPa) (SCFM/r/x(ANR)) -26.7/90.4 0.25/7(7) -27.5/93.1 0.46/13(13) -27.5/93.1 0.95(0.71)/27(20) ⑥. Exhaust (R) method Code Tube dia. (a) L type Vacuum level Suction flow (in. Hg/-kPa) (SCFM/r/x(ANR)) -19.6/66.5 0.39/11(11) -19.6/66.5 0.85(0.78)/24(22) -19.6/66.5 0.91/26 E type Vacuum level Suction flow (in. Hg/-kPa) (SCFM/r/x(ANR)) − − -26.7/90.4 0.37/10.5(10.5) -26.7/90.4 0.71(0.67)/20(19) *1. The supply pressure for H and L types is 0.5MPa; and that for E type is 0.35MPa. *2. The suction flow rates shown in parentheses are those for the concentrated exhaust type. ③. Valve type B: Normally closed type D: Double solenoid type (retention type) ④. Vacuum (V) port size Code Tube dia. (a) Open to air type S − Concentrated exhaust type J φ6a *For L (middle-vacuum large-flow) type (nozzle diameter: 1.0mm), no setting is provided for the concentrated exhaust type. ⑦. Solenoid valve type Code Voltage 3 24VDC 1 100VAC ⑧. Vacuum switches (NPN Open collector) Code DW DA A0 No code Specifications for vacuum switches Pressure sensor with LED pressure indicator (two-point switch output) Pressure sensor with LED pressure indicator (analog and switch output) Analog output pressure sensor Without vacuum switch ⑨. Installation method 4 φ4 6 φ6 Code Installation method D DIN rail type No code Direct mount type ⑤. Air supply (PS) port size Code Tube dia. (a) 4 φ4 6 φ6 *The air supply port size is the same as that specified for the vacuum port size. Model Designation of vacuum pump system-compatible unit (Example) VSXP ① D 6 6 6 3 A0 D ① ⑤ ⑥ ⑦ ② ③ ④ ①. Unit designation D: Vacuum pump system-compatible unit, two-port specification T: Vacuum pump system-compatible unit, three-port specification ②. Vacuum (V) port size Code Tube dia. (a) 4 φ4 6 φ6 ③. Air supply (PS) port size Code Tube dia. (a) 4 φ4 6 φ6 4 φ4 Code Voltage 3 24VDC ⑥. Vacuum switches (NPN Open collector) Code DW DA A0 No code Specifications for vacuum switches Pressure sensor with LED pressure indicator (two-point switch output) Pressure sensor with LED pressure indicator (analog and switch output) Analog output pressure sensor Without vacuum switch 6 φ6 Code Installation method D DIN rail type *For the vacuum pump system-compatible unit, no setting is provided for the double solenoid type of specifications for solenoid valves. 24 1 100VAC ⑦. Installation method ④. Vacuum supply (PV) port size Code Tube dia. (a) ⑤. Solenoid valve type No code Direct mount type Model Designation of ejector system-compatible unit manifold type (Example) VSXM ① H 05 D 4 1 1 3 8 A0 ① ④ ⑦ ⑧ ⑨ ② ③ ⑤ ⑥ ①. Vacuum characteristics H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type ②. Nozzle diameter Code 05 07 10 Nozzle dia. (in./a) φ0.02/φ0.5 φ0.03/φ0.7 φ0.04/φ1.0 H type Vacuum level Suction flow (in. Hg/-kPa) (SCFM/r/x(ANR)) -26.7/90.4 0.25/7(7) -27.5/93.1 0.46/13(13) -27.5/93.1 0.95(0.71)/27(20) ⑤. Air supply (PS) port size Code Tube dia. (a) E type Vacuum level Suction flow (in. Hg/-kPa) (SCFM/r/x(ANR)) − − -26.7/90.4 0.37/10.5(10.5) -26.7/90.4 0.71(0.67)/20(19) ③. Valve type B: Normally closed type D: Double solenoid type (retention type) ④. Vacuum (V) port size 4 φ4 6 φ6 8 φ8 10 φ10 10 φ10 S Open to air type ⑥. Exhaust (R) method L type Vacuum level Suction flow (in. Hg/-kPa) (SCFM/r/x(ANR)) -19.6/66.5 0.39/11(11) -19.6/66.5 0.85(0.78)/24(22) -19.6/66.5 0.91/26 *1. The supply pressure for H and L types is 0.5MPa; and that for E type is 0.35MPa. *2. The suction flow rates shown in parentheses are those for the concentrated exhaust type. Code Tube dia. (a) 4 φ4 Code Tube dia. (a) 6 φ6 8 φ8 ⑦. Solenoid valve type Code Voltage 3 24VDC 1 100VAC ⑧. Number of manifold Code No. of manifold 2 2 3 3 4 4 5 5 Code No. of manifold 7 7 8 8 9 9 10 10 6 6 ⑨. Vacuum switches (NPN Open collector) 6 φ6 Code DW DA A0 No code Specifications for vacuum switches Pressure sensor with LED pressure indicator (two-point switch output) Pressure sensor with LED pressure indicator (analog and switch output) Analog output pressure sensor Without vacuum switch *When you plan to operate different stations simultaneously using the ejector system-compatible unit, consult us in advance. Model Designation of vacuum pump system-compatible unit manifold type (Example) VSXPM D 4 6 1 ① ① ② ③ D24 6 A0 ⑤ ⑥ ⑦ ④ ①. Unit designation D: Vacuum pump system-compatible unit, two-port specification T: Vacuum pump system-compatible unit, three-port specification ②. Vacuum (V) port size Code Tube dia. (a) 4 φ4 6 φ6 ③. Air supply (PS) port size Code Tube dia. (a) 4 φ4 6 φ6 8 φ8 10 φ10 8 φ8 10 φ10 ④. Vacuum supply (PV) port size Code Tube dia. (a) 4 φ4 6 φ6 ⑤. Solenoid valve type Code Voltage D24 24VDC A100 100VAC ⑥. Number of manifold Code No. of manifold 2 2 3 3 4 4 5 5 Code No. of manifold 7 7 8 8 9 9 10 10 6 6 ⑦. Vacuum switches (NPN Open collector) Code DW DA A0 No code Specifications for vacuum switches Pressure sensor with LED pressure indicator (two-point switch output) Pressure sensor with LED pressure indicator (analog and switch output) Analog output pressure sensor Without vacuum switch *The double solenoid type is not available for vacuum pump system-compatible units as for the single unit type. Model Designation of manifold only for ejector system-compatible unit (Example) VSXM ① 8 S 4 ① ③ ② ①. Air supply (PS) port size Code Tube dia. (a) 4 φ4 6 φ6 ③. Number of manifold 8 φ8 10 φ10 10 φ10 S Open to air type ②. Exhaust (EX) method Code Tube dia. (a) 6 φ6 8 φ8 Code No. of manifold 2 2 3 3 4 4 5 5 Code No. of manifold 7 7 8 8 9 9 10 10 6 6 25 VSX Type Vacuum System Model Designation of manifold only for vacuum pump system-compatible unit (Example) VSXPM 8 6 5 ① ③ ① ② ①. Air supply (PS) port size Code Tube dia. (a) 4 φ4 ③. Number of manifold 6 φ6 8 φ8 10 φ10 8 φ8 10 φ10 ②. Exhaust (EX) method Code Tube dia. (a) 4 φ4 6 φ6 Code No. of manifold 2 2 3 3 4 4 5 5 Code No. of manifold 7 7 8 8 9 9 10 10 6 6 Model Designation of ejector system-compatible, manifold-mounted unit alone (Example) VSXM ① H 05 D 4 D24 A0 ① ④ ⑤ ⑥ ② ③ ①. Vacuum characteristics H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type ②. Nozzle diameter Code 05 07 10 Nozzle dia. (in./a) φ0.02/φ0.5 φ0.03/φ0.7 φ0.04/φ1.0 H type Vacuum level Suction flow (in. Hg/-kPa) (SCFM/r/x(ANR)) -26.7/90.4 0.25/7(7) -27.5/93.1 0.46/13(13) -27.5/93.1 0.95(0.71)/27(20) ⑤. Solenoid valve type Code Voltage 3 24VDC 1 100VAC ⑥. Vacuum switches (NPN Open collector) L type Vacuum level Suction flow (in. Hg/-kPa) (SCFM/r/x(ANR)) -19.6/66.5 0.39/11(11) -19.6/66.5 0.85(0.78)/24(22) -19.6/66.5 0.91/26 E type Vacuum level Suction flow (in. Hg/-kPa) (SCFM/r/x(ANR)) − − -26.7/90.4 0.37/10.5(10.5) -26.7/90.4 0.71(0.67)/20(19) Code DW DA A0 No code Specifications for vacuum switches Pressure sensor with LED pressure indicator (two-point switch output) Pressure sensor with LED pressure indicator (analog and switch output) Analog output pressure sensor Without vacuum switch *1. The supply pressure for H and L types is 0.5MPa; and that for E type is 0.35MPa. *2. The suction flow rates shown in parentheses are those for the concentrated exhaust type. ③. Valve type B: Normally closed type D: Double solenoid type (retention type) ④. Vacuum (V) port size Code Tube dia. (a) 4 φ4 6 φ6 Model Designation of vacuum pump system-compatible manifold-mounted unit alone (Example) VSXPM ① D 6 3 DA ① ③ ④ ② ①. Unit designation D: Vacuum pump system-compatible unit, two-port specification T: Vacuum pump system-compatible unit, three-port specification ②. Vacuum (V) port size Code Tube dia. (a) 4 φ4 6 φ6 ④. Vacuum switches (NPN Open collector) Code DW DA A0 No code Specifications for vacuum switches Pressure sensor with LED pressure indicator (two-point switch output) Pressure sensor with LED pressure indicator (analog and switch output) Analog output pressure sensor Without vacuum switch ③. Solenoid valve type Code Voltage 3 24VDC 1 100VAC *The double solenoid type is not available for vacuum pump system-compatible units as for the single unit type. 26 Ejector system-compatible unit Open to air, Direct mount type VSX Without vacuum switch Open to air, DIN rail type VSX Model VSX-□□□-□□S-□ VSX Pressure sensor with LED pressure indicator (two-point switch output) VSX Pressure sensor with LED pressure indicator (analog and switch output) VSX-□□□-□□S-□-D VSX VSX Analog output pressure sensor Model VSX-□□□-□□S-□-A0 Pressure sensor with LED pressure indicator (two-point switch output) VSX-□□□-□□S-□-DW-D VSX Pressure sensor with LED pressure indicator (analog and switch output) VSX-□□□-□□J-□ VSX VSX Analog output pressure sensor Model VSX-□□□-□□S-□-A0-D Pressure sensor with LED pressure indicator (two-point switch output) Model VSX-□□□-□□J-□-DW VSX Model VSX-□□□-□□S-□-DA-D Without vacuum switch Model Model Model VSX-□□□-□□S-□-DA VSX Model Model VSX-□□□-□□S-□-DW Without vacuum switch Concentrated exhaust, Direct mount type Pressure sensor with LED pressure indicator (analog and switch output) Model VSX-□□□-□□J-□-DA VSX Analog output pressure sensor Model VSX-□□□-□□J-□-A0 27 Vacuum System VSX Type Ejector system-compatible unit Vacuum pump system-compatible unit, two-port specification Concentrated exhaust, DIN rail type VSX Without vacuum switch Direct mount type VSXP-D Without vacuum switch Model VSX-□□□-□□J-□-D VSX Pressure sensor with LED pressure indicator (two-point switch output) VSX Pressure sensor with LED pressure indicator (analog and switch output) VSXP-D□□□-□ VSXP-D VSX Analog output pressure sensor Model VSX-□□□-□□J-□-A0-D 28 VSXP-D□□□-□-D Pressure sensor with LED pressure indicator (two-point switch output) VSXP-D□□□-□-DW VSXP-D VSXP-D Pressure sensor with LED pressure indicator (analog and switch output) VSXP-D□□□-□-DA Analog output pressure sensor Model VSXP-D□□□-□-A0 Pressure sensor with LED pressure indicator (two-point switch output) Model VSXP-D□□□-□-DW-D VSXP-D Model VSXP-D Without vacuum switch Model Model Model VSX-□□□-□□J-□-DA-D VSXP-D Model Model VSX-□□□-□□J-□-DW-D DIN rail type Pressure sensor with LED pressure indicator (analog and switch output) Model VSXP-D□□□-□-DA-D VSXP-D Analog output pressure sensor Model VSXP-D□□□-□-A0-D Vacuum pump system-compatible unit, three-port specification Direct mount type VSXP-T Without vacuum switch Replacement Element DIN rail type VSXP-T Filter element Without vacuum switch Filter element (Model: VSX-E) Model Model Model Designation VSX-E VSXP-T□□□-□-D VSXP-T□□□-□ Silencer element Direct mount type VSXP-T Pressure sensor with LED pressure indicator (two-point switch output) VSXP-T Pressure sensor with LED pressure indicator (two-point switch output) Silencer element (Model: VSX-EF, VSX-ED) Silencer element (Model: VSX-SE) Model Model VSXP-T□□□-□-DW VSXP-T□□□-□-DW-D Model Designation VSX-SE VSX-EF, VSX-ED DIN rail type VSXP-T Pressure sensor with LED pressure indicator (analog and switch output) VSXP-T Model VSXP-T□□□-□-DA Pressure sensor with LED pressure indicator (analog and switch output) Model VSXP-T□□□-□-DA-D Silencer element (Model: VSX-EF, VSX-ED) Silencer element (Model: VSX-SE) Model Designation VSX-SE VSX-EF, VSX-ED Valve filter element VSXP-T Analog output pressure sensor VSXP-T Analog output pressure sensor Valve filter element (Model: VSXP-E) Model VSXP-T□□□-□-A0 Model Model Designation VSXP-E VSXP-T□□□-□-A0-D 29 Vacuum System VSX Type Manifold-mounted unit alone Ejector system-compatible unit VSXM Without vacuum switch Vacuum pump system-compatible unit, two-port specification Vacuum pump system-compatible unit, three-port specification VSXPM-D Without vacuum switch Model VSXM-□□□-□-□ VSXM VSXPM-D VSXM Pressure sensor with LED pressure indicator (analog and switch output) VSXM Analog output pressure sensor VSXPM-D□-□-DW VSXPM-D 30 Pressure sensor with LED pressure indicator (two-point switch output) Model VSXPM-T□-□-DW Pressure sensor with LED pressure indicator (analog and switch output) VSXPM-T Pressure sensor with LED pressure indicator (analog and switch output) Model VSXPM-D□-□-DA VSXPM-D Model VSXPM-T□-□-DA Analog output pressure sensor Model VSXM-□□□-□-□-A0 VSXPM-T Model Model VSXM-□□□-□-□-DA Model VSXPM-T□-□ Pressure sensor with LED pressure indicator (two-point switch output) Model VSXM-□□□-□-□-DW Without vacuum switch Model VSXPM-D□-□ Pressure sensor with LED pressure indicator (two-point switch output) VSXPM-T VSXPM-T Analog output pressure sensor Model VSXPM-D□-□-A0 Model VSXPM-T□-□-A0 Manifold only Manifold silencer element Tapping screw Silencer cover Model Silencer element (Model: VSXPM-SE) Model Designation VSXPM-SE VSXM-□□-2 (twofold) VSXM-□□-3 (threefold) VSXM-□□-4 (fourfold) VSXM-□□-5 (fivefold) VSXM-□□-6 (sixfold) VSXM-□□-7 (sevenfold) VSXM-□□-8 (eightfold) VSXM-□□-9 (ninefold) VSXM-□□-10 (tenfold) 31 Vacuum unit for controlling large flows Vacuum System VSQ Type Package: 1pc. in a bag ■ 31.5-mm wide vacuum generator is designed to optimize the control of large vacuum flows. Ejector system-compatible units and Vacuum pump system-compatible units are available for various needs. ■ Three different types of ejector system-compatible units are available: single-nozzle type (nozzle diameter: 1.5mm, 2.0mm), two-stage nozzle type (nozzle diameter: 0.7mm, 1.0mm, 1.2mm) and twin-nozzle type. ■ The twin-nozzle type, the most durable unit for extended-duration vacuum absorption/transport applications, is controlled by means of both large-and small-caliber nozzle. The former nozzle controls vacuum generation from start up to a prescribed reference level of pressure, after which the latter takes over. This combination makes possible substantial reductions in vacuum consumption. Large/small nozzle change-over pressure adjusting trimmer Pilot valve for large-caliber nozzle Vacuum reference pressure (can be set by user) Valve timing Pilot valve for Vacuum Release Air consumption Pilot valve for small-caliber nozzle Atmospheric air Large-caliber nozzle Small-caliber nozzle Release flow adjusting needle SW1 SW2 kPa Nozzle type T15 T20 ;; Air consumption 100 17 200 30 ■ The two-stage nozzle type's vacuum suction rate has been increased by approximately 40% compared to conventional types Suction flow ■ The single-nozzle type is an orthodox, comprehensive vacuum generator designed to produce large vacuum flows. ■ A wide variety of valve type is standardized: ・Single-nozzle type: Normally open, Normally closed, Double type ・Two-stage nozzle type: Normally open, Normally closed type ・Twin-nozzle type: Normally closed type ・Vacuum pump system-compatible unit: Normally open, Normally closed type 32 Specifications Solenoid valve specifications ■Common to all VSQ series vacuum generators Unit Ejector system-compatible unit Vacuum pump system-compatible unit Fluid admitted Air 44 ~ 102psi (0.3 ~ 0.7MPa) Service pressure range 41 ~ 122°F (5 ~ 50°C) Service temperature range Working vacuum range — 0 ~ -29.5in. Hg (-100 ~ 0kPa) ■Pilot valve Operating system Direct operation Elastic seal, poppet valve Valve construction AC100V Voltage rating DC24V AC100V ±10% DC24V ±10% Allowable voltage range Bridge diode Surge absorber Surge limiting circuit 1VA 0.55W Power consumption Push-button system of lock type Manual operation Operational indication Red LED lighting up when coil excitation is in operation. ■Ejector characteristics Nozzle dia. Pressure supply Final vacuum Suction flow Air consumption Nozzle type (in./mm) (psi/MPa) (in. Hg/-kPa) (SCFM/l/min(ANR)) (SCFM/l/min(ANR)) -27.5/93 2.22/63 H15 72.5/0.5 3.53/100 -19.5/66 3.35/95 L15 0.06/1.5 — E15 50.8/0.35 -27.2/92 1.48/42 2.47/70 Single nozzle -27.5/93 3.88/110 H20 72.5/0.5 7.06/200 -19.5/66 6.36/180 L20 0.08/2.0 — E20 50.8/0.35 -27.2/92 2.97/84 5.30/150 1.41/40 3.53/100 0.02/0.6 0.06/1.5 T15 -27.5/93 (1.06/30) (0.60/17) (Small-caliber) (Large-caliber) 72.5/0.5 Twin nozzle 0.03/0.8 0.08/2.0 (-27.5/93) 2.47/70 7.06/200 T20 (Small-caliber) (Large-caliber) (1.48/42) (1.06/30) 0.85/24 0.81/23 D07 0.03/0.7 — 2-stage nozzle D10 0.04/1.0 — 72.5/0.5 -27.5/93 1.27/36 1.62/46 1.41/40 2.47/70 D12 0.05/1.2 — *Numerical values in parentheses ( ) for twin-nozzle type vacuum generators are for small-caliber nozzle. ■Vacuum switch Service pressure range -29.5 ~ 29.5in. Hg (-100 ~ 100kPa) 59.1in. Hg (200kPa) Proof pressure -4 ~ 158°F (-20 ~ 70°C) Storage temperature range 14 ~ 122°F (-10 ~ 50°C) Operating temperature range 35 ~ 85%RH Operating humidity range Power requirements DC12 ~ 24V ±10%, ripple P-P: 10% or less Protective structure IEC specification IP40-equivalent 2 Number of pressure-setting points NPN open collector: DC30V, 100mA or less; residual voltage: Switch output 1.2V or less (when applied with a 100mA-load current) Differential response 0 ~ 30digit (Variable) Within the range of ±0.3%F.S. Accuracy of repetition 5msec max. Response 2 1/2 digit-7-segmented LED display Indication About 4 times/sec No. of indications ±1%F.S. ±1digit Indication accuracy Temperature characteristics ±0.3%F.S. (reference temperatures: 32 ~ 122°F (0 ~ 50°C), 77°F (25°C)) ■Vacuum filter Element material Filtering capacity Element surface area Replacement element Model Designation ■Changing valve (Change-over valves for twin-nozzle units) Item Valves for small-caliber nozzles Valves for Large-caliber nozzles Vacuum release solenoid valve Operating system Pneumatic operation by pilot valve Elastic seal, poppet valve Valve construction Valve type N.C. (Normally closed) N.C. (Normally closed) N.C. (Normally closed) Not required Lubrication Effective sectional area (Cv factor) 3.5mm2 (0.19) 16.5mm2 (0.89) 3.5mm2 (0.19) ■Changing valve (Change-over valves for 2-stage nozzle units) Item Vacuum making solenoid valve Vacuum release solenoid valve Operating system Pneumatic operation by pilot valve Elastic seal, poppet valve Valve construction Valve type N.C. (Normally closed), N.O. (Normally open) N.C. (Normally closed) Not required Lubrication Effective sectional area (Cv factor) 3.5mm2 (0.19) 3.5mm2 (0.19) ■Changing valve (Change-over valves for single-nozzle units) Item Vacuum making solenoid valve Vacuum release solenoid valve Operating system Pneumatic operation by pilot valve Elastic seal, poppet valve Valve construction Valve type N.C. (Normally closed), N.O. (Normally open), Double solenoid N.C. (Normally closed) Not required Lubrication Effective sectional area (Cv factor) 16.5mm2 (0.89) 3.5mm2 (0.19) 50msec or more Min. excitation time ■Changing valve (Change-over valves for vacuum pump system-compatible units) Item Vacuum making solenoid valve Vacuum release solenoid valve Operating system Pneumatic operation by pilot valve Elastic seal, poppet valve Valve construction Valve type N.C. (Normally closed), N.O. (Normally open) N.C. (Normally closed) Not required Lubrication Effective sectional area (Cv factor) 16.5mm2 (0.89) 3.5mm2 (0.19) PVF (Polyvinyl formal) 10µm 1507mm2 VSQ-E ■Vacuum release function Supply pressure Vacuum release air flow 72.5psi (0.5MPa) 0 ~ 1.77SCFM (0 ~ 50 l/min(ANR)) 33 Vacuum System VSQ Type Model Designation of ejector system-compatible unit (Example) VSQ T15 B ① ① 10 10 S ② ③ ④ ⑤ 3 SW ⑥ ⑦ ①. Vacuum characteristics, Nozzle diameter Code H15 L15 Single E15 nozzle H20 type L20 E20 Twin- T15 nozzle type T20 2-stage D07 nozzle D10 type D12 Nozzle dia. (in./mm) φ0.06/φ1.5 − φ0.06/φ1.5 − φ0.06/φ1.5 − φ0.08/φ2.0 − φ0.08/φ2.0 − φ0.08/φ2.0 − φ0.02/φ0.6 φ0.06/φ1.5 (Small-caliber) (Large-caliber) φ0.03/φ0.8 φ0.08/φ2.0 (Small-caliber) (Large-caliber) φ0.03/φ0.7 − φ0.04/φ1.0 − φ0.05/φ1.2 − Pressure supply Final vacuum (psi/MPa) (in. Hg/-kPa) -27.5/93 72.5/0.5 -19.5/66 50.8/0.35 -27.2/92 -27.5/93 72.5/0.5 -19.5/66 50.8/0.35 -27.2/92 Suction flow Air consumption (SCFM/l/min(ANR)) (SCFM/l/min(ANR)) 2.22/63 3.53/100 3.35/95 1.48/42 2.47/70 3.88/110 7.06/200 6.36/180 2.97/84 5.30/150 1.41/40 3.53/100 -27.5/93 (1.06/30) (0.06/17) 72.5/0.5 (-27.5/93) 2.47/70 7.06/200 (1.48/42) (1.06/30) 0.85/24 0.81/23 72.5/0.5 -27.5/93 1.27/36 1.62/46 1.41/40 2.47/70 ④. Air supply (PS) port size Code 6 8 10 Tube dia. (a) φ6 tube fitting φ8 tube fitting φ10 tube fitting ⑤. Exhaust (R) method Code Tube dia. (a) Open to air type S − Concentrated exhaust type J φ12 tube fitting ⑥. Pilot valve type Code Voltage 3 24VDC 1 100VAC *As for twin-nozzle type, only 24VDC type is available. ⑦. Vacuum switch (NPN Open collector) Code Specifications for vacuum switch SW □31mm-width 2-point output vacuum switch No code Without vacuum switch *The vacuum characteristics in ( ) value for Twin-nozzle type is the value when smallcaliber is operated. ②. Valve type B: Normally closed type A: Normally open type D: Double solenoid type (retention type) *1: "Normal-close (code: B)" only when a twin-nozzle type is selected in ①. *2: "Normal-close (code: B)" or "normal-open (code: A)" only when a 2-stage nozzle type is selected in ①. ③. Vacuum (V) port size Code Tube dia. (a) 8 φ8 tube fitting 10 φ10 tube fitting *Pilot valve's exhaust port is fitted with a ø6mm quick-fitting joint. Model Designation of vacuum pump system-compatible unit (Example) VSQP ① B 10 10 3 SW ① ④ ⑤ ② ③ ④. Pilot valve type ①. Vacuum supply valve B: Normally closed type A: Normally open type Code Voltage ②. Vacuum (V) port size Code Tube dia. (a) 10 φ10 tube fitting 10 φ10 tube fitting 12 φ12 tube fitting *Pilot valve's exhaust port and air supply port are each fitted with a ø6mm quick-fitting joint. 34 1 100VAC ⑤. Vacuum switch (NPN Open collector) 12 φ12 tube fitting ③. Vacuum supply (PV) port size Code Tube dia. (a) 3 24VDC Code Specifications for vacuum switch SW □31mm-width 2-point output vacuum switch No code Without vacuum switch ! Warning 1. With VSQ series vacuum generators, the range of working temperature is limited to 41~122°F (5~50°C). Do not use VSQ series vacuum generators in any other temperature range. 2. Heat will be generated in the coil when electricity is supplied continuously to the pilot valve for an extended period of time. As this can cause burns and possibly have adverse impacts to peripheral equipment, we recommend that the user consult the nearest CKD sales office when electricity must be supplied to the pilot valve for a prolonged period of time. 3. With double-solenoid types, the switch-over valve (main valve) is placed in neutral after the supply of pilot air has been suspended (the same is true when the valve is being operated for the first time after shipment). When resuming the supply of pilot air, be sure to send a signal to the pilot valve, or conduct switchover operations manually as required. 4. When operating valves, confirm that leak currents are 1mA or less. Using valves with leak currents exceeding said value may lead to errors. 5. The vacuum retention capability of vacuum pump system-compatible units has been designed to tolerate some leaking. We therefore recommend that additional appropriate safety measures be taken when the state of vacuum is to be retained for a prolonged period of time. 6. Do not use these units in environments containing corrosive substances (airborne or otherwise). 7. Our products are not explosion proof. Do not use these units in environments containing flammable and/or explosive gases and/or liquids, since doing so could cause fires and/or explosions. 8. Do not use these units in temperature ranges which exceed the prescribed range of working temperatures. Operating them in heat-generating temperature ranges can cause the built-in sensors to malfunction. 9. When wiring, be sure to 1) turn OFF the power, and 2) confirm the color of each lead wire, terminal numbers, etc. in order to prevent the output terminal from being inadvertently short-circuited with the power source and the common-use terminals. Short-circuiting these terminals can be cause sensor-related problems. ! Caution 1. Compressed air contains various drains (water, oxidized oils, tar and other foreign matter). Because these drains considerably lower product quality, we recommend that the quality of compressed air be improved by dehumidifying it via a cooler or dryer. 2. Do not use lubricators. 3. Rust, dirt and other foreign matter left in the pipes can cause malfunctions. We therefore recommend that a filter of 5µm or less be placed in front of and close to the supply port. Flushing the interior of the piping prior to operation and/or at regular intervals is also recommended. 4. Do not pull or bend valve and vacuum switch lead wires excessively. Doing so may result in lead wires being snapped off and connector components broken. 5. Do not use any vacuum units in corrosive and/or flammable environments. Do not use this equipment for the hardling of fluids. 6. Our vacuum units are not constructed to be drip- or dust-proof. As such, do not use any vacuum units which have been exposed to water, oil and/or dust. 7. Do not allow vacuum generators to take in dust, salt and/or iron powders. 8. Do not operate vacuum release valves while a vacuum is being generated. 9. When replacing supply ports and vacuum ports cartridges, be sure to remove any foreign matter sticking to cartridge seals; make sure cartridge fixing pins are properly inserted into the appropriate ports. 10. Use the shortest pipes possible when piping vacuum components (concentrated exhaust, pilot air exhaust and supply units). Using long pipes can prevent vacuum units from performing properly. 11. For power, use stable direct currents. 12. Insert surge-absorbing circuits into relays, valves, etc. that are connected to the output terminals, power source terminals, etc. Do not arbitrarily use vacuum units at currents that exceed rated levels. 13. When using unit power sources, such as switching power sources, be sure to ground their FG terminals. 14. Take the utmost care to avoid short-circuiting the output terminal with other terminals. 15. Do not apply excessive loads to vacuum generators. Subjecting them to excessive loads can damage the equipment. 16. Do not wire nozzles and other components in a way that will subject them to impressed pressure. Do not use them in an arbitrary manner, either. Applying impressed pressure to vacuum components and/or using them arbitrarily can cause malfunctions. 17. In case of using twin-nozzle type, please set pressure allowance between the vacuum level at work suction time and the setting value of Large/Small nozzle change-over pressure sensor. If these values are similar, the Large/Small caliber pilot valve might actuate simultaneously. 35 Vacuum System VSQ Type Ejector system-compatible unit Single nozzle type VSQ Without vacuum switch, Open to air 2-stage nozzle type VSQ-D Model VSQ-□□-□□S-□-□ VSQ Without vacuum switch, Concentrated exhaust VSQ □31-mm width 2-point output portfitted vacuum switch, Open to air VSQ-D□□-□□S-□-□ VSQ-D VSQ □31-mm width 2-point output port-fitted vacuum switch, Concentrated exhaust VSQ-D□□-□□J-□-□ VSQ-D □31-mm width 2-point output portfitted vacuum switch, Open to air VSQ-D□□-□□S-□-SW VSQ-D □31-mm width 2-point output port-fitted vacuum switch, Concentrated exhaust Model VSQ-D□□-□□J-□-SW Vacuum pump system-compatible unit VSQP Without vacuum switch Model VSQP-□□□-□-□ 36 VSQ-T□C-□□S-□-□ VSQ-T VSQP □31-mm width 2-point output port-fitted vacuum switch Model VSQP-□□□-□-SW Without vacuum switch, Concentrated exhaust Model VSQ-T□C-□□J-□-□ VSQ-T Model Model VSQ-□□-□□J-□-SW Without vacuum switch, Concentrated exhaust Without vacuum switch, Open to air Model Model Model VSQ-□□-□□S-□-SW VSQ-T Model Model VSQ-□□-□□J-□-□ Without vacuum switch, Open to air Twin-nozzle type □31-mm width 2-point output portfitted vacuum switch, Open to air Model VSQ-T□C-□□S-□-SW VSQ-T □31-mm width 2-point output port-fitted vacuum switch, Concentrated exhaust Model VSQ-T□C-□□J-□-SW Filter element for replacement Silencer element for replacement Fixing screw Filter cover Silencer element 2 Filter element Silencer element 1 Element cover Fixing screw Model Designation VSQ-E Model Designation VSQ-SE *The element set includes element 1 and element 2. 37 Vacuum unit dedicated to Manifold use Vacuum System VSZM Type Package: 1pc. in a bag ■ Small in size and lightweight. Designed for dedicated use in combination with manifold, these VSZM type vacuum generators are compatible with both ejector and vacuum pump systems. ■ Featuring a built-in air pressure release valve, the VSZM type vacuum generator is not only capable of releasing large quantities of air, but it can also substantially reduce vacuum release time. ■ Wiring for the supply valve and air release valve is effectively concentrated in one bundle, which contributes to time saving. Sub-D connector Flat-cable connector ;;; ■ The supply valve is offered in both single- and double-solenoid types allowing you to choose the type that suits your needs. ■ Valve power consumption is held down to 0.55W, making substantial power savings a reality. Power consumption ■ A rich variety of vacuum sensors is offered to meet the needs of a wide range of applications. Analog sensor One-point switch output sensor One-point switch output sensor with LED display Two-point switch output sensor with LED display ■ Since the number of manifold can be increased as required, it is possible to quickly respond to any change in specifications. ■ Maintenance has been made easier than ever, thanks to a specially designed construction. ■ One-touch fitting and female screw are standard for all piping, allowing you to flexibly meet your piping requirements. ■ The nozzle diemeter comes in three different dimensions: ø0.5mm, ø0.7mm and ø1.0mm. 38 Specifications ■Common to all units Unit Ejector system-compatible unit Vacuum pump system-compatible unit Fluid admitted Air 44 ~ 102psi (0.3 ~ 0.7MPa) Service pressure range 41 ~ 122°F (5 ~ 50°C) Service temperature range Working vacuum range — 0 ~ -29.5in. Hg (-100 ~ 0kPa) ■Ejector characteristics Nozzle dia. Pressure supply Model (in./mm) (psi/MPa) VSZM-H05 0.02/0.5 72.5/0.5 VSZM-L05 VSZM-H07 72.5/0.5 VSZM-L07 0.03/0.7 VSZM-E07 50.8/0.35 VSZM-H10 72.5/0.5 0.04/1.0 VSZM-E10 50.8/0.35 Final vacuum (in. Hg/-kPa) -26.7/90.4 -19.6/66.5 -27.5/93.1 -19.6/66.5 -26.7/90.4 -27.5/93.1 -26.7/90.4 Suction flow Air consumption (SCFM/l/min(ANR)) (SCFM/l/min(ANR)) 0.25/7 0.41/11.5 0.42/12 0.46/13 0.81/23 0.85/24 0.37/10.5 0.60/17 0.85/24 1.62/46 0.71/20 1.20/34 ■Solenoid valve specifications (Pilot valve) Item Vacuum making & supply solenoid valve Vacuum release solenoid valve Operating system Direct operation Elastic seal, poppet valve Valve construction DC24V Voltage rating DC21.6 ~ 26.4V Allowable voltage range Surge absorber Surge limiting circuit 0.55W (with LED) Power consumption Operational indication Red LED lighting up when coil excitation is in operation. The LED lamp appears yellowish green when the coil is excited. Push & Lock type Manual operation Sub-D connector, Flat cable connector Wiring method ■Solenoid valve specifications (Changing valve) Item Vacuum making & supply solenoid valve Vacuum release solenoid valve Operating system Pilot valve-activated indirect action Elastic seal, poppet valve Valve construction Voltage rating Single Double Single Normally closed Valve function 152psi (1.05MPa) Proof pressure Not required Lubrication Effective sectional area (Cv factor) 3.5mm2 (0.19) 4.5mm2 (0.24) ■Vacuum sensor Vacuum sensor specification Fitted with an LED display No display Separated type Analog Item 2-point switch output 1-point switch output 1-point switch output Switch-fit ed pressure indicator Current consumption 40mA 20mA 50mA 20mA Pressure detection Diffused semiconduction pressure switch (*1) Service pressure range 0 ~ -29.5in. Hg (-100 ~ 0kPa) Pressure setting range 0 ~ -29.2in. Hg (-99 ~ 0kPa) -999 ~ 999counts 0 ~ -29.5in. Hg (-100 ~ 0kPa) Proof pressure 29psi (0.2MPa) 29psi (0.2MPa) Stronge temperature range -4 ~ 176°F (-20 ~ 80°C) -4 ~ 158°F (-20 ~ 70°C) Operating temperature range 32 ~ 122°F (0 ~ 50°C) 14 ~ 140°F (-10 ~ 60°C) 14 ~ 122°F (-10 ~ 50°C) 14 ~ 140°F (-10 ~ 60°C) Operating humidity range 35 ~ 85%RH Supply voltage DC12 ~ 24V ±10% Ripple (P-P) 10% max. DC10.8 ~ 30V (ripple voltage included) Protective structure IEC standard IP40 equiv. 1 1 2 Number of switch output points 2 Switching action accuracy ±0.3%F.S. max. (at Ta=25°C/77°F) Differential accuracy Fixed Variable Fixed Variable Switch output NPN Open collector output Output voltage 1 ~ 5V 1 ~ 5V 1 ±0.1V 1 ±0.1V Zero-point voltage 4 ±0.1V 4 ±0.1V Analog output Span voltage Output current 1mA max. 0.5mA max. 1mA max. LIN/HYS ±0.5%F.S.max. ±0.5%F.S. max. Indication 0 ~ 29.2in. Hg (0 ~ -99kPa) (2-digit Red LED display) 3-digit red LED display No. of indications About 4 times/sec About 4 times/sec Indication accuracy ±3%F.S. ±2digit ±1%F.S. 1digit Resolution 1digit SW1: Red LED lighting up when pressure is above setting. SW1: (*2) Operational indication SW2: (*4) SW2: (*3) (*1) Diffused semiconduction pressure switch (*2) SW1: Green LED lighting up when pressure is above setting. (*3) SW2: Green LED lighting up when pressure is above setting. (*4) SW2: Red LED lighting up when pressure is above setting. ■Vacuum release function Item Vacuum release valve (ejector system, vacuum pump system) Vacuum release air flow Air supply pressure is 72.5psi (0.5MPa) Air pressure-activated indirect action Operating system Elastic seal, poppet valve Air pressure Valve construction Normally open release valve Valve type Not required (*1) Lubrication 0.14in. (3.5mm) Orifice dia. (*1) The air pressure release valve is only available for Ejector system-compatible unit. ■Vacuum filter Element material Filtering capacity Element surface area Replacement element Model Designation PVF (Polyvinyl formal) 10µm 660mm2 VSZM-E 39 Vacuum System VSZM Type Model Designation of ejector system-compatible unit (Example) VSZM ① H 05 D 4 10 10 ① ④ ② ③ ⑤ 3 ⑥ 8 V1 ⑦ ⑧ F 26 ⑨ ⑩ DC24V ①. Vacuum characteristics H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type ②. Nozzle diameter 05: Nozzle diameter: 0.02in. (0.5mm) 07: Nozzle diameter: 0.03in. (0.7mm) 10: Nozzle diameter: 0.04in. (1.0mm) ③. Valve type B: Normally closed type D: Double solenoid type (retention type) ④. Vacuum port (V) 4: ø4mm tube fitting 6: ø6mm tube fitting M5: M5×0.8 female screw ⑤. Air supply port (PV) 4: ø4mm tube fitting 6: ø6mm tube fitting 8: ø8mm tube fitting 10: ø10mm tube fitting ⑥. Exhaust port (R) S: Open to air type 6: Tube fitting concentrated exhaust type (diameter: 6mm) 8: Tube fitting concentrated exhaust type (diameter: 8mm) 10: Tube fitting concentrated exhaust type (diameter: 10mm) 40 ⑦. No. of manifold Code No. of manifold 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 11 12 10 11 12 ⑧. Vacuum switch (NPN Open collector) No code: Without vacuum switch DW: Pressure sensor with LED display (two-point switch output) DA: Pressure sensor with LED display (analog and 1-point switch output) S: No-display 1-point switch output sensor V1: Negative pressure analog sensor R1: Compound pressure analog sensor ⑨. Wiring type F: Flat cable connector D: Sub-D connector ⑩. Designation of the number of connector pins No code: No. of station; 2~4, 10-pin flat cable connectors No. of station; 5~9, 20-pin flat cable connectors No. of station; 10~12, 26-pin flat cable connectors No. of station; 2~4, 9-pin Sub-D connectors No. of station; 5~12, 25-pin Sub-D connectors 20: 20-pin flat cable connectors (Maximum no. of station; 9) 26: 26-pin flat cable connectors (Maximum no. of station; 12) 25: 25-pin Sub-D connectors (Maximum no. of station; 12) Model Designation of vacuum pump system-compatible unit (Example) VSZPM ① 4 6 10 ① ② 3 ③ 5 DW ④ ⑤ D 25 ⑥ ⑦ DC24V ①. Vacuum port (V) 4: ø4mm tube fitting 6: ø6mm tube fitting M5: M5×0.8 female screw ②. Air supply port (PS) 4: ø4mm tube fitting 6: ø6mm tube fitting 8: ø8mm tube fitting ③. Vacuum supply port (PV) 4: ø4mm tube fitting 6: ø6mm tube fitting 8: ø8mm tube fitting 10: ø10mm tube fitting ④. No. of manifold Code No. of manifold 2 2 3 3 4 4 5 5 6 6 ⑤. Vacuum switch (NPN Open collector) No code: Without vacuum switch DW: Pressure sensor with LED display (two-point switch output) DA: Pressure sensor with LED display (analog and 1-point switch output) S: No-display 1-point switch output sensor V1: Negative pressure analog sensor R1: Compound pressure analog sensor ⑥. Wiring type F: Flat cable connector D: Sub-D connector ⑦. Designation of the number of connector pins No code: No. of station; 2~4, 10-pin flat cable connectors 7 7 8 8 9 9 10 11 12 10 11 12 No. of station; 5~9, 20-pin flat cable connectors No. of station; 10~12, 26-pin flat cable connectors No. of station; 2~4, 9-pin Sub-D connectors No. of station; 5~12, 25-pin Sub-D connectors 20: 20-pin flat cable connectors (Maximum no. of station; 9) 26: 26-pin flat cable connectors (Maximum no. of station; 12) 25: 25-pin Sub-D connectors (Maximum no. of station; 12) 41 Vacuum System VSZM Type Model Designation of ejector system-compatible manifold alone (Example) VSZM ① 8 S 4 F 20 ① ③ ④ ② ⑤ ①. Air supply port (PV) 4: ø4mm tube fitting 6: ø6mm tube fitting 8: ø8mm tube fitting 10: ø10mm tube fitting ②. Exhaust port (R) S: Open to air type 6: Tube fitting concentrated exhaust type (diameter: 6mm) 8: Tube fitting concentrated exhaust type (diameter: 8mm) 10: Tube fitting concentrated exhaust type (diameter: 10mm) ③. No. of manifold Code No. of manifold 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 11 12 10 11 12 ④. Wiring type F: Flat cable connector D: Sub-D connector ⑤. Designation of the number of connector pins No code: No. of station; 2~4, 10-pin flat cable connectors No. of station; 5~9, 20-pin flat cable connectors No. of station; 10~12, 26-pin flat cable connectors No. of station; 2~4, 9-pin Sub-D connectors No. of station; 5~12, 25-pin Sub-D connectors 20: 20-pin flat cable connectors (Maximum no. of station; 9) 26: 26-pin flat cable connectors (Maximum no. of station; 12) 25: 25-pin Sub-D connectors (Maximum no. of station; 12) Model Designation of vacuum pump system-compatible manifold alone (Example) VSZPM ① 8 6 8 F 26 ① ③ ④ ② ⑤ ①. Air supply port (PS) 4: ø4mm tube fitting 6: ø6mm tube fitting 8: ø8mm tube fitting ②. Vacuum supply port (PV) 4: ø4mm tube fitting 6: ø6mm tube fitting 8: ø8mm tube fitting 10: ø10mm tube fitting ③. No. of manifold Code No. of manifold 2 2 3 3 4 4 5 5 6 6 ④. Wiring type F: Flat cable connector D: Sub-D connector ⑤. Designation of the number of connector pins No code: No. of station; 2~4, 10-pin flat cable connectors 7 7 8 8 9 9 10 11 12 10 11 12 No. of station; 5~9, 20-pin flat cable connectors No. of station; 10~12, 26-pin flat cable connectors No. of station; 2~4, 9-pin Sub-D connectors No. of station; 5~12, 25-pin Sub-D connectors 20: 20-pin flat cable connectors (Maximum no. of station; 9) 26: 26-pin flat cable connectors (Maximum no. of station; 12) 25: 25-pin Sub-D connectors (Maximum no. of station; 12) Model Designation of ejector system-compatible mounting valve unit (Example) VSZM V D ① 3 ① ①. Valve type B: Normally closed type D: Double solenoid type (retention type) Model Designation of vacuum pump system-compatible mounting valve unit (Example) VSZPM V 3 ① Model Designation of ejector system-compatible mounting unit (Example) VSZM ① L 07 6 R1 ① ③ ④ ② ①. Vacuum characteristics H: High-vacuum Middle-flow type L: Middle-vacuum Large-flow type E: High-vacuum Small-flow type ②. Nozzle diameter 05: Nozzle diameter: 0.02in. (0.5mm) 07: Nozzle diameter: 0.03in. (0.7mm) 10: Nozzle diameter: 0.04in. (1.0mm) ③. Vacuum port (V) 4: ø4mm tube fitting 6: ø6mm tube fitting M5: M5×0.8 female screw 42 ④. Vacuum switch (NPN Open collector) No code: Without vacuum switch DW: Pressure sensor with LED display (two-point switch output) DA: Pressure sensor with LED display (analog and 1-point switch output) S: No-display 1-point switch output sensor V1: Negative pressure analog sensor R1: Compound pressure analog sensor Model Designation of vacuum pump system-compatible mounting unit (Example) VSZPM M5 DW ① ① ② ①. Vacuum port (V) 4: ø4mm tube fitting 6: ø6mm tube fitting M5: M5×0.8 female screw ②. Vacuum switch (NPN Open collector) No code: Without vacuum switch DW: Pressure sensor with LED display (two-point switch output) DA: Pressure sensor with LED display (analog and 1-point switch output) S: No-display 1-point switch output sensor V1: Negative pressure analog sensor R1: Compound pressure analog sensor 43 Vacuum System VSZM Type ! Warning 1. When activating solenoid valves, be sure to confirm that leak currents are 1mA or less. Leak currents may lead to errors. 2. Vacuum pump system-compatible units (VSZPM) are designed to tolerate some leaks. We therefore recommend that additional appropriate safety measures be taken when the state of vacuum is to be retained for a prolonged period of time. 3. Heat will be generated in the coil when electricity is supplied continuosly to the pilot valve for an extended period of time. As this can cause burns and possibly have adverse impacts to peripheral equipment, we recommend that the user consult the nearest CKD sales office in cases when electricity must be supplied to the pilot valve for a prolonged period of time. 4. With the double-solenoid type (VSZM-□D…), the switch-over valve (main valve) is placed in neutral after the supply of pilot air has been suspended (the same is true when the valve is being operated for the first time after shipment). When resuming the supply of pilot air, be sure to send a signal to the pilot valve, or conduct switch-over operations manually as required. 5. When mounting/removing units onto/from a manifold, be sure to turn off the air supply and discharge residual air pressure completely. 6. Do not use solenoid valves in vibration-prone working conditions. Using them in such conditions may cause errors and/or malfunctions. (Be sure to use solenoid valves in places where vibrations occur at an acceletion of 49m/s2 or less.) 7. When using the double-solenoid type valve (VSZM-□D…) in vibration-prone conditions, install the valve so that the direction of vibration is at a right angle to the switch-over valve (main valve). ! Caution 1. Do not pull or bend valve and vacuum switch lead wires excessively. Doing so may result in lead wires being snapped off and connector components broken. 2. Compressed air contains various drains (water, oxidized oils, tar and other foreign matter). Because these drains considerably lower product quality, we recommend that the quality of compressed air be improved by dehumidifying it via a cooler or dryer. 3. Do not use lubricators. 4. Rust, dirt and other foreign matter left in the pipes can cause malfunctions. We therefore recommend that a filter of 5µm or less be placed in front of and close to the supply port. Flushing the interior of the piping prior to operation and/or at regular intervals is also recommended. 5. Do not use the solenoid valves in corrosive and/or flammable gases. Do not use this equipment for the handling of fluids. 6. When mounting a cartridge joint or ejector top plug, be sure to remove extraneous matter from the seal and fix the fastening pin firmly in place. Before conducting this operation, please carefully read the explanation given herein so that you understand all procedural cautions. 7. The performance capability of silencer-fitted manifold may deteriorate due to foreign matter trapped in the elements. We therefore recommend that inspections and maintenance be carried out at regular intervels. 8. When mounting each unit onto a manifold, be sure to remove extraneous matter from the seal, and fix each unit firmly in place using appropriate screws. Before using the manifold, please carefully read the explanation given herein so that you understand all procedural cautions. 9. When wiring Sub-D connectors and flat cable connectors, please carefully study the wiring diagram so that you completely understand the wiring details. 10. The vacuum producing capacity of a manifold-fitted solenoid valve may be reduced due to operational conditions. Please read the operating instructions carefully before using said manifold. 44 Vacuum System VSZM Type Ejector system-compatible unit Sub-D connector specifications VSZM Concentrated exhaust VSZM Open to air Model VSZM Concentrated exhaust Model VSZM-□□□-□□□-3-□-□-D□ VSZM-□□□-□□□-3-□-□-F□ Vacuum pump system-compatible unit Flat cable connector specifications Open to air Model VSZM-□□□-□□S-3-□-□-D□ Ejector system-compatible unit VSZM Flat cable connector specifications Sub-D connector specifications VSZPM Model Flat cable connector specifications VSZPM Model Model ;; ; ;;;;;; ;; VSZM-□□□-□□S-3-□-□-F□ VSZPM-□□□-3-□-□-D□ Filter element for replacement VSZPM-□□□-3-□-□-F□ Silencer element for replacement (ejector system-compatible unit) Element cover-clamping screw Element cover Silencer element Fixing screw Filter cover Filter element Model VSZM-E Model VSZM-SE *2 pcs./set 45 46 Common Safety Instructions for Vacuum Pads Be sure to read the following instructions before selecting and using the CKD device. Also read the detailed instructions for individual series. Warning 1. Where there is the danger of work dropping, provide some drop prevention means to assure safety. 2. When installing the pad holder, make sure that it is fixed securely. Looseness may cause trouble. 3. Take special care of the screwed pad which performs swinging transport. Swinging can loosen the screw, thus leading to trouble. 4. Trouble may arise from leaks or clog in the vacuum circuit, wear, cracking or deterioration of the pad, galling of the sliding part of the pad holder or looseness at connections. Therefore be sure to carry out periodic maintenance and checks. 5. For applications involving transport by the Pad, take acceleration, shocks and draft pressure into consideration. Otherwise work may drop during transport. Caution 1. Select the pad material as instructed to best suitable for your service environment and conditions. 2. Select the pad form (type) according to the type and form of work to be held. Read the manual carefully for the right choice. 3. Use a spring-type holder when the work height varies or when the work is subject to damage by external forces. Confirm the specified spring force and stroke in the manual before use. 4. When using a spring-type holder, which has a sliding part, take care to minimize the lateral forces. Otherwise the holder life will be shortened and malfunction will be caused. 5. When replacing the pad, confirm the procedure by checking the Vacuum Pad drawing in the manual. Then tighten it with a proper tool at the recommended tightening torque (see table below), using the hexagonal part of the holder and then make sure that there is no looseness. Table: Recommended Tightening Torque Pad thread size ( ) Tightening torque M4×0.7 0.9∼1.1N・m (0.66∼0.81lbf.ft) M6×1.0 M10×1.5 M20×2.0 1.8∼2.3N・m (1.33∼1.70lbf.ft) Pad dia.: φ80 , φ100 Pad dia.: φ60 5∼6N・m (3.69∼4.43lbf.ft) 8.3∼9.3N・m (6.12∼6.86lbf.ft) 9∼10N・m (6.64∼7.38lbf.ft) 47 Quick Fitting Type Vacuum Pad Vacuum Pad Standard Type Package: 1pc. in a bag ▲▲ ■General-type pad suitable for thick and flat work and Deep-type pad for spherical fruits (apple, etc.) or ball are available. a to φ200a a Pad dia.: φ2a Pad material: Nitrile rubber, Silicon rubber, Urethane rubber, Fluoric rubber, Anti-static rubber, Anti-static rubber (low resistance type), NBR suited to the food sanitation act Pad shape: 2 types (general-type and deep-type) Holder shape: 6 types ▲▲ Model Designation (Example) VSP-A 40 R N ① ② ③ ④ 6 F1 ⑤ ⑥ ①. Holder type VSP-A Fixed type on-the-top vacuum port VSP-B Fixed type on-the-side vacuum port VSP-C Spring type on-the-top vacuum port VSP-D Spring type on-the-side vacuum port VSP-E VSP-F Fixed direct mounting type Spring & direct mounting type ②. Pad dia. Code Dia. 1 2 3 4 6 8 10 15 20 25 30 40 50 60 80 100 150 200 φ1a φ2a φ3a φ4a φ6a φ8a φ10a φ15a φ20a φ25a φ30a φ40a φ50a φ60a φ80a φ100a φ150a φ200a 0.04in. 0.08in. 0.12in. 0.16in. 0.24in. 0.31in. 0.39in. 0.59in. 0.79in. 0.98in. 1.18in. 1.57in. 1.97in. 2.36in. 3.15in. 3.94in. 5.91in. 7.87in. *Pad diameter of Deep-type is φ15mm (0.59in.) to φ100mm (3.94in.) ③. Pad shape R: General-type A: Deep-type ④. Pad material Material Nitrile rubber Silicon rubber Urethane rubber Fluoric rubber General-type Deep-type N N S S U U F F Anti-static rubber Anti-static rubber (low resistance) (Surface resistance: 104∼106Ω/f) (Surface resistance: 200Ω/f) SE E − − NBR suited to the food sanitation act. G G *The antistatic rubber (SE) is a silicon rubber capable of releasing static electricity. *The antistatic rubber low resistance type (E) is a carbon-added butadiene rubber. ⑤. Joint size and type Pad size φ1 to φ4 Joint type Quick-fitting joint Barb joint Dia. (O.D.×I.D.) 4×2.5(a) 4×2.5(a) Code 4 4T Pad size φ1 to φ4 φ6 to φ50 Joint type Quick-fitting joint Quick-fitting joint Dia. (O.D.×I.D.) 5/32×0.1in. 1/4×0.18in. Code 3C 7C φ6 to φ50 Quick-fitting joint Barb joint 6×4(a) 6×4(a) 6 6T φ60 to φ100 Female thread NPT1/8 6N φ150 to φ200 Female thread NPT1/4 8N *VSP-A1R□4T to VSP-A15R(A)□6T are all monoblock type, so that the barb joint can not be separeted. ⑥. Free holder (option) F1: Free holder swing angle 30゜ F2: Free holder swing angle 15゜ 48 φ60 to φ100 Female thread Rp(G)1/8 6A φ150 to φ200 Female thread Rp(G)1/4 8A VSP-A Fixed Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type Model VSP-A1R□-4 VSP-A2R□-4 VSP-A3R□-4 VSP-A4R□-4 VSP-A6R□-6 VSP-A8R□-6 VSP-A10R□-6 VSP-A15R(A)□-6 VSP-A20R(A)□-6 VSP-A25R(A)□-6 VSP-A30R(A)□-6 VSP-A40R(A)□-6 VSP-A50R(A)□-6 VSP-A60R(A)□-6A VSP-A80R(A)□-6A VSP-A100R(A)□-6A VSP-A150R□-8A VSP-A200R□-8A VSP-A1R□-3C VSP-A2R□-3C VSP-A3R□-3C VSP-A4R□-3C VSP-A6R□-7C VSP-A8R□-7C VSP-A10R□-7C VSP-A15R(A)□-7C VSP-A20R(A)□-7C VSP-A25R(A)□-7C VSP-A30R(A)□-7C VSP-A40R(A)□-7C VSP-A50R(A)□-7C VSP-A60R(A)□-6N VSP-A80R(A)□-6N VSP-A100R(A)□-6N VSP-A150R□-8N VSP-A200R□-8N Model VSP-A1R□-4T VSP-A2R□-4T VSP-A3R□-4T VSP-A4R□-4T VSP-A6R□-6T VSP-A8R□-6T VSP-A10R□-6T VSP-A15R(A)□-6T VSP-A20R(A)□-6T VSP-A25R(A)□-6T VSP-A30R(A)□-6T VSP-A40R(A)□-6T VSP-A50R(A)□-6T *Antistatic rubber (SE, E) is general type only. VSP-C Barb joint type Model VSP-C1R□4 VSP-C2R□4 VSP-C3R□4 VSP-C4R□4 VSP-C6R□6 VSP-C8R□6 VSP-C10R□6 VSP-C15R(A)□6 VSP-C20R(A)□6 VSP-C25R(A)□6 VSP-C30R(A)□6 VSP-C40R(A)□6 VSP-C50R(A)□6 VSP-C60R(A)□6A VSP-C80R(A)□6A VSP-C100R(A)□6A VSP-C150R□8A VSP-C200R□8A VPC1R□-3C VPC2R□-3C VPC3R□-3C VPC4R□-3C VPC6R□-7C VPC8R□-7C VPC10R□-7C VPC15R(A)□-7C VPC20R(A)□-7C VPC25R(A)□-7C VPC30R(A)□-7C VPC40R(A)□-7C VPC50R(A)□-7C VPC60R(A)□-6N VPC80R(A)□-6N VPC100R(A)□-6N VPC150R□-8N VPC200R□-8N Model VSP-C1R□-4T VSP-C2R□-4T VSP-C3R□-4T VSP-C4R□-4T VSP-C6R□-6T VSP-C8R□-6T VSP-C10R□-6T VSP-C15R(A)□-6T VSP-C20R(A)□-6T VSP-C25R(A)□-6T VSP-C30R(A)□-6T VSP-C40R(A)□-6T VSP-C50R(A)□-6T *Antistatic rubber (SE, E) is general type only. Fixed Type On-the-side Vacuum Port Barb joint type Model VSP-B1R□-4 VSP-B2R□-4 VSP-B3R□-4 VSP-B4R□-4 VSP-B6R□-6 VSP-B8R□-6 VSP-B10R□-6 VSP-B15R(A)□-6 VSP-B20R(A)□-6 VSP-B25R(A)□-6 VSP-B30R(A)□-6 VSP-B40R(A)□-6 VSP-B50R(A)□-6 VSP-B60R(A)□-6A VSP-B80R(A)□-6A VSP-B100R(A)□-6A VSP-B150R□-8A VSP-B200R□-8A VSP-B1R□-3C VSP-B2R□-3C VSP-B3R□-3C VSP-B4R□-3C VSP-B6R□-7C VSP-B8R□-7C VSP-B10R□-7C VSP-B15R(A)□-7C VSP-B20R(A)□-7C VSP-B25R(A)□-7C VSP-B30R(A)□-7C VSP-B40R(A)□-7C VSP-B50R(A)□-7C VSP-B60R(A)□-6N VSP-B80R(A)□-6N VSP-B100R(A)□-6N VSP-B150R□-8N VSP-B200R□-8N Model VSP-B1R□-4T VSP-B2R□-4T VSP-B3R□-4T VSP-B4R□-4T VSP-B6R□-6T VSP-B8R□-6T VSP-B10R□-6T VSP-B15R(A)□-6T VSP-B20R(A)□-6T VSP-B25R(A)□-6T VSP-B30R(A)□-6T VSP-B40R(A)□-6T VSP-B50R(A)□-6T *Antistatic rubber (SE, E) is general type only. Spring Type On-the-top Vacuum Port Quick-fitting joint type VSP-B Quick-fitting joint type VSP-D Spring Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Model VSP-D1R□-4 VSP-D2R□-4 VSP-D3R□-4 VSP-D4R□-4 VSP-D6R□-6 VSP-D8R□-6 VSP-D10R□-6 VSP-D15R(A)□-6 VSP-D20R(A)□-6 VSP-D25R(A)□-6 VSP-D30R(A)□-6 VSP-D40R(A)□-6 VSP-D50R(A)□-6 VSP-D60R(A)□-6A VSP-D80R(A)□-6A VSP-D100R(A)□-6A VSP-D150R□-8A VSP-D200R□-8A VSP-D1R□-3C VSP-D2R□-3C VSP-D3R□-3C VSP-D4R□-3C VSP-D6R□-7C VSP-D8R□-7C VSP-D10R□-7C VSP-D15R(A)□-7C VSP-D20R(A)□-7C VSP-D25R(A)□-7C VSP-D30R(A)□-7C VSP-D40R(A)□-7C VSP-D50R(A)□-7C VSP-D60R(A)□-6N VSP-D80R(A)□-6N VSP-D100R(A)□-6N VSP-D150R□-8N VSP-D200R□-8N Model VSP-D1R□-4T VSP-D2R□-4T VSP-D3R□-4T VSP-D4R□-4T VSP-D6R□-6T VSP-D8R□-6T VSP-D10R□-6T VSP-D15R(A)□-6T VSP-D20R(A)□-6T VSP-D25R(A)□-6T VSP-D30R(A)□-6T VSP-D40R(A)□-6T VSP-D50R(A)□-6T *Antistatic rubber (SE, E) is general type only. 49 Vacuum Pad VSP-E Fixed Direct Mounting Type Standard Type VSP-F Model VSP-E1R□ VSP-E2R□ VSP-E3R□ VSP-E4R□ VSP-E6R□ VSP-E8R□ Spring & Direct Mounting Type Model VSP-F1R□ VSP-F2R□ VSP-F3R□ VSP-F4R□ VSP-F6R□ VSP-F8R□ VSP-F10R□ VSP-F15R(A)□ VSP-F20R(A)□ VSP-F25R(A)□ VSP-F30R(A)□ VSP-F40R(A)□ VSP-F50R(A)□ *Antistatic rubber (SE, E) is general type only. VSPG Pad Rubber Only F,G S SE,E U N Nitrile rubber VSPG-1RN VSPG-2RN VSPG-3RN VSPG-4RN VSPG-6RN VSPG-8RN VSPG-10RN VSPG-15R(A)N VSPG-20R(A)N VSPG-25R(A)N VSPG-30R(A)N VSPG-40R(A)N VSPG-50R(A)N VSPG-60R(A)N VSPG-80R(A)N VSPG-100R(A)N VSPG-150RN VSPG-200RN VSPG-80R(A)NA VSPG-100R(A)NA VSPG-150RNA VSPG-200RNA Silicon rubber VSPG-1RS VSPG-2RS VSPG-3RS VSPG-4RS VSPG-6RS VSPG-8RS VSPG-10RS VSPG-15R(A)S VSPG-20R(A)S VSPG-25R(A)S VSPG-30R(A)S VSPG-40R(A)S VSPG-50R(A)S VSPG-60R(A)S VSPG-80R(A)S VSPG-100R(A)S VSPG-150RS VSPG-200RS VSPG-80R(A)SA VSPG-100R(A)SA VSPG-150RSA VSPG-200RSA Urethane rubber VSPG-1RU VSPG-2RU VSPG-3RU VSPG-4RU VSPG-6RU VSPG-8RU VSPG-10RU VSPG-15R(A)U VSPG-20R(A)U VSPG-25R(A)U VSPG-30R(A)U VSPG-40R(A)U VSPG-50R(A)U VSPG-60R(A)U VSPG-80R(A)U VSPG-100R(A)U VSPG-150RU VSPG-200RU VSPG-80R(A)UA VSPG-100R(A)UA VSPG-150RUA VSPG-200RUA Model Fluoric rubber VSPG-1RF VSPG-2RF VSPG-3RF VSPG-4RF VSPG-6RF VSPG-8RF VSPG-10RF VSPG-15R(A)F VSPG-20R(A)F VSPG-25R(A)F VSPG-30R(A)F VSPG-40R(A)F VSPG-50R(A)F VSPG-60R(A)F VSPG-80R(A)F VSPG-100R(A)F VSPG-150RF VSPG-200RF VSPG-80R(A)FA VSPG-100R(A)FA VSPG-150RFA VSPG-200RFA Anti-static rubber VSPG-1RSE VSPG-2RSE VSPG-3RSE VSPG-4RSE VSPG-6RSE VSPG-8RSE VSPG-10RSE VSPG-15RSE VSPG-20RSE VSPG-25RSE VSPG-30RSE VSPG-40RSE VSPG-50RSE *Antistatic rubber (SE, E) is general type only. *Adding "A" to the end of code signifies frame attached. 50 Anti-static rubber (low resistance) VSPG-1RE VSPG-2RE VSPG-3RE VSPG-4RE VSPG-6RE VSPG-8RE VSPG-10RE VSPG-15RE VSPG-20RE VSPG-25RE VSPG-30RE VSPG-40RE VSPG-50RE NBR suited to the food sanitation act. VSPG-1RG VSPG-2RG VSPG-3RG VSPG-4RG VSPG-6RG VSPG-8RG VSPG-10RG VSPG-15R(A)G VSPG-20R(A)G VSPG-25R(A)G VSPG-30R(A)G VSPG-40R(A)G VSPG-50R(A)G Quick Fitting Type Vacuum Pad Vacuum Pad Sponge Type Package: 1pc. in a bag VSP-A VSP-D Spring Type On-the-side Vacuum Port ▲ ▲ ■Best suitable for work like an external wall material of building, small stone and seashell. a to φ100a a Pad size: φ10a Holder shape: 5 types Fixed Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Model Designation (Example) VSP-A 10 S ① ② ③ 6 F1 ④ ⑤ Model ①. Holder type VSP-A Fixed type on-the-top vacuum port VSP-B Fixed type on-the-side vacuum port VSP-C Spring type on-the-top vacuum port VSP-A10S-6 VSP-A15S-6 VSP-A20S-6 VSP-A25S-6 VSP-A30S-6 VSP-A35S-6 VSP-A50S-6 VSP-A70S-6A VSP-A100S-6A VSP-B VSP-A10S-7C VSP-A15S-7C VSP-A20S-7C VSP-A25S-7C VSP-A30S-7C VSP-A35S-7C VSP-A50S-7C VSP-A70S-6N VSP-A100S-6N Model VSP-A10S-6T VSP-A15S-6T VSP-A20S-6T VSP-A25S-6T VSP-A30S-6T VSP-A35S-6T VSP-A50S-6T Fixed Type On-the-side Vacuum Port Model VSP-D10S-6 VSP-D15S-6 VSP-D20S-6 VSP-D25S-6 VSP-D30S-6 VSP-D35S-6 VSP-D50S-6 VSP-D70S-6A VSP-D100S-6A VSP-F Model VSP-D10S-7C VSP-D10S-6T VSP-D15S-7C VSP-D15S-6T VSP-D20S-7C VSP-D20S-6T VSP-D25S-7C VSP-D25S-6T VSP-D30S-7C VSP-D30S-6T VSP-D35S-7C VSP-D35S-6T VSP-D50S-7C VSP-D50S-6T VSP-D70S-6N VSP-D100S-6N Spring & Direct Mounting Type Quick-fitting joint type Barb joint type VSP-D Spring type on-the-side vacuum port VSP-F Spring & direct mounting type ②. Pad dia. Code Dia. 10 15 20 25 30 35 50 70 100 φ10a φ15a φ20a φ25a φ30a φ35a φ50a φ70a φ100a 0.39in. 0.59in. 0.79in. 0.98in. 1.18in. 1.38in. 1.97in. 2.76in. 3.94in. ③. Pad type S: Sponge Pad ④. Joint size and type Pad size φ10 to φ50 Joint type Quick-fitting joint Barb joint Dia. (O.D.×I.D.) 6×4(a) 6×4(a) Code 6 6T φ70 to φ100 Female thread Rp(G)1/8 6A Pad size φ10 to φ50 φ70 to φ100 Joint type Quick-fitting joint Female thread Dia. (O.D.×I.D.) 1/4×0.18in. NPT1/8 Code 7C 6N Model VSP-B10S-6 VSP-B15S-6 VSP-B20S-6 VSP-B25S-6 VSP-B30S-6 VSP-B35S-6 VSP-B50S-6 VSP-B70S-6A VSP-B100S-6A VSP-C VSP-B10S-7C VSP-B15S-7C VSP-B20S-7C VSP-B25S-7C VSP-B30S-7C VSP-B35S-7C VSP-B50S-7C VSP-B70S-6N VSP-B100S-6N Model VSP-B10S-6T VSP-B15S-6T VSP-B20S-6T VSP-B25S-6T VSP-B30S-6T VSP-B35S-6T VSP-B50S-6T Model VSP-F10S VSP-F15S VSP-F20S VSP-F25S VSP-F30S VSP-F35S VSP-F50S VSPG Pad Rubber Only Spring Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type ⑤. Free holder (option) F1: Free holder swing angle 30゜ F2: Free holder swing angle 15゜ Model .In case of ordering, please apply Model code in the following chart. Model VSP-C10S-6 VSP-C15S-6 VSP-C20S-6 VSP-C25S-6 VSP-C30S-6 VSP-C35S-6 VSP-C50S-6 VSP-C70S-6A VSP-C100S-6A VSP-C10S-7C VSP-C15S-7C VSP-C20S-7C VSP-C25S-7C VSP-C30S-7C VSP-C35S-7C VSP-C50S-7C VSP-C70S-6N VSP-C100S-6N Model VSP-C10S-6T VSP-C15S-6T VSP-C20S-6T VSP-C25S-6T VSP-C30S-6T VSP-C35S-6T VSP-C50S-6T VSPG-10SA VSPG-15SA VSPG-20SA VSPG-25SA VSPG-30SA VSPG-35S VSPG-50S VSPG-70S VSPG-100S VSPG-35SA VSPG-50SA VSPG-70SA VSPG-100SA *Adding "A" to the end of code signifies frame-attached. 51 Quick Fitting Type Vacuum Pad Vacuum Pad Bellows Type Package: 1pc. in a bag VSP-A VSP-D Spring Type On-the-side Vacuum Port ▲▲ ■Best suitable for retort package or bag packed food into, etc. a to φ80a a Pad dia.: φ10a Pad material: Nitrile rubber, Silicon rubber, Anti-static rubber (low resistance) Holder shape: 5 types Fixed Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type ▲ Model Designation (Example) VSP-A 10 B N ① ② ③ ④ 6 F1 ⑤ ⑥ VSP-A10B□-6 VSP-A20B□-6 VSP-A30B□-6 VSP-A40B□-6 VSP-A50B□-6 VSP-A80B□-6A ①. Holder type VSP-A Fixed type on-the-top vacuum port VSP-B Fixed type on-the-side vacuum port Model Model VSP-A10B□-7C VSP-A10B□-6T VSP-A20B□-7C VSP-A20B□-6T VSP-A30B□-7C VSP-A30B□-6T VSP-A40B□-7C VSP-A40B□-6T VSP-A50B□-7C VSP-A50B□-6T VSP-A80B□-6N Model VSP-D10B□-6 VSP-D20B□-6 VSP-D30B□-6 VSP-D40B□-6 VSP-D50B□-6 VSP-D80B□-6A Model VSP-D10B□-7C VSP-D10B□-6T VSP-D20B□-7C VSP-D20B□-6T VSP-D30B□-7C VSP-D30B□-6T VSP-D40B□-7C VSP-D40B□-6T VSP-D50B□-7C VSP-D50B□-6T VSP-D80B□-6N VSP-C Spring type on-the-top vacuum port VSP-B Fixed Type On-the-side Vacuum Port VSP-F Spring & Direct Mounting Type Quick-fitting joint type Barb joint type VSP-D VSP-F Spring type on-the-side vacuum port Spring & direct mounting type ②. Pad dia. Code Dia. Model 10 20 30 40 50 80 φ10a φ20a φ30a φ40a φ50a φ80a 0.39in. 0.79in. 1.18in. 1.57in. 1.97in. 3.15in. ③. Pad shape B: Bellows type ④. Pad material Material Code Nitrile rubber N Silicon rubber S Anti-static rubber (Surface resistance: 104∼106Ω/f) SE ⑤. Joint size and type Pad size φ10 to φ50 Joint type Quick-fitting joint Barb joint Dia. (O.D.×I.D.) 6×4(a) 6×4(a) Code 6 6T Pad size φ10 to φ50 φ80 Joint type Quick-fitting joint Female thread Dia. (O.D.×I.D.) 1/4×0.18in. NPT1/8 Code 7C 6N ⑥. Free holder (option) F1: Free holder swing angle 30゜ F2: Free holder swing angle 15゜ VSP-B10B□-6 VSP-B20B□-6 VSP-B30B□-6 VSP-B40B□-6 VSP-B50B□-6 VSP-B80B□-6A VSP-C Model VSP-B10B□-7C VSP-B10B□-6T VSP-B20B□-7C VSP-B20B□-6T VSP-B30B□-7C VSP-B30B□-6T VSP-B40B□-7C VSP-B40B□-6T VSP-B50B□-7C VSP-B50B□-6T VSP-B80B□-6N Spring Type On-the-top Vacuum Port Model VSP-F10B□ VSP-F20B□ VSP-F30B□ VSP-F40B□ VSP-F50B□ VSPG Pad Rubber Only Quick-fitting joint type Barb joint type φ80 Female thread Rp(G)1/8 6A BN Model VSP-C10B□-6 VSP-C20B□-6 VSP-C30B□-6 VSP-C40B□-6 VSP-C50B□-6 VSP-C80B□-6A Model VSP-C10B□-7C VSP-C10B□-6T VSP-C20B□-7C VSP-C20B□-6T VSP-C30B□-7C VSP-C30B□-6T VSP-C40B□-7C VSP-C40B□-6T VSP-C50B□-7C VSP-C50B□-6T VSP-C80B□-6N Model VSPG-10B□ VSPG-20B□ VSPG-30B□ VSPG-40B□ VSPG-50B□ VSPG-80B□ VSPG-80B□A *Adding "A" to the end of code signifies frame-attached. 52 Quick Fitting Type Vacuum Pad Vacuum Pad Multi-Bellows Type Package: 1pc. in a bag VSP-A VSP-D Spring Type On-the-side Vacuum Port ▲▲ ■Best suitable for retort package or bag packed food into, etc. a to φ50a a Pad dia.: φ10a Pad material: Nitrile rubber, Silicon rubber, NBR suited the food sanitation act. Holder shape: 5 types Fixed Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type ▲ Model Model Designation (Example) VSP-A 10 W N ① ② ③ VSP-A10W□-6 VSP-A20W□-6 VSP-A30W□-6 VSP-A40W□-6 VSP-A50W□-6 6 ④ ⑤ ①. Holder type VSP-B VSP-A10W□-7C VSP-A20W□-7C VSP-A30W□-7C VSP-A40W□-7C VSP-A50W□-7C Model VSP-A10W□-6T VSP-A20W□-6T VSP-A30W□-6T VSP-A40W□-6T VSP-A50W□-6T Fixed Type On-the-side Vacuum Port Model Model VSP-D10W□-6 VSP-D10W□-7C VSP-D10W□-6T VSP-D20W□-6 VSP-D20W□-7C VSP-D20W□-6T VSP-D30W□-6 VSP-D30W□-7C VSP-D30W□-6T VSP-D40W□-6 VSP-D40W□-7C VSP-D40W□-6T VSP-D50W□-6 VSP-D50W□-7C VSP-D50W□-6T VSP-F Spring & Direct Mounting Type Quick-fitting joint type Barb joint type VSP-A Fixed type on-the-top vacuum port VSP-B Fixed type on-the-side vacuum port VSP-C Spring type on-the-top vacuum port Model VSP-D VSP-F Spring type on-the-side vacuum port Spring & direct mounting type VSP-B10W□-6 VSP-B20W□-6 VSP-B30W□-6 VSP-B40W□-6 VSP-B50W□-6 VSP-B10W□-7C VSP-B20W□-7C VSP-B30W□-7C VSP-B40W□-7C VSP-B50W□-7C Model VSP-B10W□-6T VSP-B20W□-6T VSP-B30W□-6T VSP-B40W□-6T VSP-B50W□-6T Model VSP-F10W□ VSP-F20W□ VSP-F30W□ VSP-F40W□ VSP-F50W□ ②. Pad dia. Code Dia. 10 φ10a 0.39in. 20 φ20a 0.79in. 30 φ30a 1.18in. 40 φ40a 1.57in. 50 φ50a 1.97in. VSP-C Spring Type On-the-top Vacuum Port VSPG Pad Rubber Only Quick-fitting joint type Barb joint type N ③. Pad shape W: Malti-Bellows type ④. Pad material Material Code Nitrile rubber N Silicon rubber S NBR suited the food sanitation act G ⑤. Joint size and type Pad size φ10 to φ50 Joint type Quick-fitting joint Barb joint Quick-fitting joint Dia. 6×4(a) 6×4(a) 1/4×0.18in. (O.D.×I.D.) 0.24×0.16(in.) 0.24×0.16(in.) Code 6 6T 7C Model Model VSP-C10W□-6 VSP-C10W□-7C VSP-C10W□-6T VSP-C20W□-6 VSP-C20W□-7C VSP-C20W□-6T VSP-C30W□-6 VSP-C30W□-7C VSP-C30W□-6T VSP-C40W□-6 VSP-C40W□-7C VSP-C40W□-6T VSP-C50W□-6 VSP-C50W□-7C VSP-C50W□-6T Model VSPG-10W□ VSPG-20W□ VSPG-30W□ VSPG-40W□ VSPG-50W□ 53 Quick Fitting Type Vacuum Pad Vacuum Pad Oval Type Package: 1pc. in a bag VSP-A Fixed Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type ▲▲ ■Best suitable for long work like substrate or semiconductor. Pad dia.: 11 types Pad material: Nitrile rubber, Silicon rubber, Anti-static rubber (low resistance) Holder shape: 7 types ▲ Model Designation (Example) VSP-A 4×10 E N ① ② ③ ④ 6 F1 ⑤ ⑥ ①. Holder type VSP-A Fixed type on-the-top vacuum port VSP-B Fixed type on-the-side vacuum port VSP-C Spring type on-the-top vacuum port VSP-D Spring type on-the-side vacuum port Model VSP-A4×10E□-6 VSP-A4×10E□-7C VSP-A4×20E□-6 VSP-A4×20E□-7C VSP-A4×30E□-6 VSP-A4×30E□-7C VSP-A5×10E□-6 VSP-A5×10E□-7C VSP-A5×20E□-6 VSP-A5×20E□-7C VSP-A5×30E□-6 VSP-A5×30E□-7C VSP-A6×10E□-6 VSP-A6×10E□-7C VSP-A6×20E□-6 VSP-A6×20E□-7C VSP-A6×30E□-6 VSP-A6×30E□-7C VSP-A8×20E□-6 VSP-A8×20E□-7C VSP-A8×30E□-6 VSP-A8×30E□-7C VSP-B Model VSP-A4×10E□-6T VSP-A4×20E□-6T VSP-A4×30E□-6T VSP-A5×10E□-6T VSP-A5×20E□-6T VSP-A5×30E□-6T VSP-A6×10E□-6T VSP-A6×20E□-6T VSP-A6×30E□-6T VSP-A8×20E□-6T VSP-A8×30E□-6T Fixed Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type VSP-F VSP-AE Spring & direct mounting type Screwed type on-the-top vacuum port VSP-BE Screwed type on-the-side vacuum port ②. Pad dia. B A B A 4a (0.16in.) 5a (0.20in.) 6a (0.24in.) 8a (0.31in.) 10a (0.39in.) 20a (0.79in.) 30a (1.18in.) 4×10 4×20 4×30 5×10 5×20 5×30 6×10 6×20 6×30 − 8×20 8×30 ③. Pad shape E: Oval type ④. Pad material Material Code Nitrile rubber N Silicon rubber S Anti-static rubber (low resistance) E ⑤. Joint size and type Joint type Dia. (O.D.×I.D.) Code Quick-fitting joint 6×4(a) 6 Joint type Dia. (O.D.×I.D.) Code Quick-fitting joint 1/4×1.18in. 7C ⑥. Free holder (option) F1: Free holder swing angle 30゜ F2: Free holder swing angle 15゜ 54 Barb joint 6×4(a) 6T Model VSP-B4×10E□-6 VSP-B4×10E□-7C VSP-B4×20E□-6 VSP-B4×20E□-7C VSP-B4×30E□-6 VSP-B4×30E□-7C VSP-B5×10E□-6 VSP-B5×10E□-7C VSP-B5×20E□-6 VSP-B5×20E□-7C VSP-B5×30E□-6 VSP-B5×30E□-7C VSP-B6×10E□-6 VSP-B6×10E□-7C VSP-B6×20E□-6 VSP-B6×20E□-7C VSP-B6×30E□-6 VSP-B6×30E□-7C VSP-B8×20E□-6 VSP-B8×20E□-7C VSP-B8×30E□-6 VSP-B8×30E□-7C VSP-C Model VSP-B4×10E□-6T VSP-B4×20E□-6T VSP-B4×30E□-6T VSP-B5×10E□-6T VSP-B5×20E□-6T VSP-B5×30E□-6T VSP-B6×10E□-6T VSP-B6×20E□-6T VSP-B6×30E□-6T VSP-B8×20E□-6T VSP-B8×30E□-6T Spring Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type Model Model VSP-C4×10E□-6 VSP-C4×10E□-7C VSP-C4×10E□-6T VSP-C4×20E□-6 VSP-C4×20E□-7C VSP-C4×20E□-6T VSP-C4×30E□-6 VSP-C4×30E□-7C VSP-C4×30E□-6T VSP-C5×10E□-6 VSP-C5×10E□-7C VSP-C5×10E□-6T VSP-C5×20E□-6 VSP-C5×20E□-7C VSP-C5×20E□-6T VSP-C5×30E□-6 VSP-C5×30E□-7C VSP-C5×30E□-6T VSP-C6×10E□-6 VSP-C6×10E□-7C VSP-C6×10E□-6T VSP-C6×20E□-6 VSP-C6×20E□-7C VSP-C6×20E□-6T VSP-C6×30E□-6 VSP-C6×30E□-7C VSP-C6×30E□-6T VSP-C8×20E□-6 VSP-C8×20E□-7C VSP-C8×20E□-6T VSP-C8×30E□-6 VSP-C8×30E□-7C VSP-C8×30E□-6T VSP-D Spring Type On-the-side Vacuum Port VSP-BE Screwed Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Model VSP-D4×10E□-6 VSP-D4×10E□-7C VSP-D4×20E□-6 VSP-D4×20E□-7C VSP-D4×30E□-6 VSP-D4×30E□-7C VSP-D5×10E□-6 VSP-D5×10E□-7C VSP-D5×20E□-6 VSP-D5×20E□-7C VSP-D5×30E□-6 VSP-D5×30E□-7C VSP-D6×10E□-6 VSP-D6×10E□-7C VSP-D6×20E□-6 VSP-D6×20E□-7C VSP-D6×30E□-6 VSP-D6×30E□-7C VSP-D8×20E□-6 VSP-D8×20E□-7C VSP-D8×30E□-6 VSP-D8×30E□-7C Model VSP-BE4×10E□-6 VSP-BE4×10E□-7C VSP-BE4×20E□-6 VSP-BE4×20E□-7C VSP-BE4×30E□-6 VSP-BE4×30E□-7C VSP-BE5×10E□-6 VSP-BE5×10E□-7C VSP-BE5×20E□-6 VSP-BE5×20E□-7C VSP-BE5×30E□-6 VSP-BE5×30E□-7C VSP-BE6×10E□-6 VSP-BE6×10E□-7C VSP-BE6×20E□-6 VSP-BE6×20E□-7C VSP-BE6×30E□-6 VSP-BE6×30E□-7C VSP-BE8×20E□-6 VSP-BE8×20E□-7C VSP-BE8×30E□-6 VSP-BE8×30E□-7C VSP-F Model VSP-D4×10E□-6T VSP-D4×20E□-6T VSP-D4×30E□-6T VSP-D5×10E□-6T VSP-D5×20E□-6T VSP-D5×30E□-6T VSP-D6×10E□-6T VSP-D6×20E□-6T VSP-D6×30E□-6T VSP-D8×20E□-6T VSP-D8×30E□-6T Spring & Direct Mounting Type VSPG Model VSP-BE4×10E□-6T VSP-BE4×20E□-6T VSP-BE4×30E□-6T VSP-BE5×10E□-6T VSP-BE5×20E□-6T VSP-BE5×30E□-6T VSP-BE6×10E□-6T VSP-BE6×20E□-6T VSP-BE6×30E□-6T VSP-BE8×20E□-6T VSP-BE8×30E□-6T Pad Rubber Only EN Model VSP-F4×10E□ VSP-F4×20E□ VSP-F4×30E□ VSP-F5×10E□ VSP-F5×20E□ VSP-F5×30E□ VSP-F6×10E□ VSP-F6×20E□ VSP-F6×30E□ VSP-F8×20E□ VSP-F8×30E□ VSP-AE Screwed Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type Model VSP-AE4×10E□-6 VSP-AE4×10E□-7C VSP-AE4×20E□-6 VSP-AE4×20E□-7C VSP-AE4×30E□-6 VSP-AE4×30E□-7C VSP-AE5×10E□-6 VSP-AE5×10E□-7C VSP-AE5×20E□-6 VSP-AE5×20E□-7C VSP-AE5×30E□-6 VSP-AE5×30E□-7C VSP-AE6×10E□-6 VSP-AE6×10E□-7C VSP-AE6×20E□-6 VSP-AE6×20E□-7C VSP-AE6×30E□-6 VSP-AE6×30E□-7C VSP-AE8×20E□-6 VSP-AE8×20E□-7C VSP-AE8×30E□-6 VSP-AE8×30E□-7C Model VSP-AE4×10E□-6T VSP-AE4×20E□-6T VSP-AE4×30E□-6T VSP-AE5×10E□-6T VSP-AE5×20E□-6T VSP-AE5×30E□-6T VSP-AE6×10E□-6T VSP-AE6×20E□-6T VSP-AE6×30E□-6T VSP-AE8×20E□-6T VSP-AE8×30E□-6T Model Nitrile rubber VSPG-4×10EN VSPG-4×20EN VSPG-4×30EN VSPG-5×10EN VSPG-5×20EN VSPG-5×30EN VSPG-6×10EN VSPG-6×20EN VSPG-6×30EN VSPG-8×20EN VSPG-8×30EN VSPG-4×10ENA VSPG-4×20ENA VSPG-4×30ENA VSPG-5×10ENA VSPG-5×20ENA VSPG-5×30ENA VSPG-6×10ENA VSPG-6×20ENA VSPG-6×30ENA VSPG-8×20ENA VSPG-8×30ENA Silicon rubber VSPG-4×10ES VSPG-4×20ES VSPG-4×30ES VSPG-5×10ES VSPG-5×20ES VSPG-5×30ES VSPG-6×10ES VSPG-6×20ES VSPG-6×30ES VSPG-8×20ES VSPG-8×30ES VSPG-4×10ESA VSPG-4×20ESA VSPG-4×30ESA VSPG-5×10ESA VSPG-5×20ESA VSPG-5×30ESA VSPG-6×10ESA VSPG-6×20ESA VSPG-6×30ESA VSPG-8×20ESA VSPG-8×30ESA Anti-static rubber (low resistance) VSPG-4×10EE VSPG-4×20EE VSPG-4×30EE VSPG-5×10EE VSPG-5×20EE VSPG-5×30EE VSPG-6×10EE VSPG-6×20EE VSPG-6×30EE VSPG-8×20EE VSPG-8×30EE VSPG-4×10EEA VSPG-4×20EEA VSPG-4×30EEA VSPG-5×10EEA VSPG-5×20EEA VSPG-5×30EEA VSPG-6×10EEA VSPG-6×20EEA VSPG-6×30EEA VSPG-8×20EEA VSPG-8×30EEA *Adding "A" to the end of code signifies threaded body attached. 55 Quick Fitting Type Vacuum Pad Vacuum Pad Soft Type Package: 1pc. in a bag VSP-A ▲▲▲ ■Best suitable for plastic products or fragile work. a to φ40a a Pad dia.: φ4a Pad material: Nitrile rubber, Silicon rubber, Fluorosilicon rubber, Anti-static rubber Holder shape: 8 types Fixed Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type Model Designation (Example) VSP-A 40 L N ① ② ③ ④ 6 ⑤ ⑥ Model ①. Holder type VSP-A Fixed type on-the-top vacuum port VSP-B VSP-C Fixed type on-the-side vacuum port Spring type on-the-top vacuum port VSP-D Spring type on-the-side vacuum port VSP-A4L□-6 VSP-A6L□-6 VSP-A8L□-6 VSP-A10L□-6 VSP-A15L□-6 VSP-A20L□-6 VSP-A30L□-6 VSP-A40L□-6 VSP-B VSP-HC VSP-F Spring type on-the-top vacuum port Spring & direct mounting type VSP-HD Spring type on-the-side vacuum port VSP-HE VSP-A4L□-7C VSP-A6L□-7C VSP-A8L□-7C VSP-A10L□-7C VSP-A15L□-7C VSP-A20L□-7C VSP-A30L□-7C VSP-A40L□-7C Model VSP-A4L□-6T VSP-A6L□-6T VSP-A8L□-6T VSP-A10L□-6T VSP-A15L□-6T VSP-A20L□-6T VSP-A30L□-6T VSP-A40L□-6T Fixed Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Direct Mounting Type onthe-side vacuum port ②. Pad dia. Code Dia. 4 6 8 10 15 20 30 40 φ4a φ6a φ8a φ10a φ15a φ20a φ30a φ40a 0.16in. 0.24in. 0.31in. 0.39in. 0.59in. 0.79in. 1.18in. 1.57in. ③. Pad shape L: Soft type ④. Pad material Material Code Nitrile rubber N Silicon rubber S Fluorosilicon rubber FS Anti-static rubber (Surface resistance: 104∼106Ω/f) SE ⑤. Joint size and type Holder shape Pad size Joint type Dia. (O.D.×I.D.) Code Holder shape Pad size Joint type Dia. (O.D.×I.D.) Code A, B, C, D φ4 to φ40 Quick-fitting joint Barb joint 6×4(a) 6×4(a) 6 6T A, B, C, D φ4 to φ40 Quick-fitting joint 1/4×1.18in. 7C HC, HD, HE φ4 φ6 to φ40 Quick-fitting joint Quick-fitting joint 4×2.5(a) 6×4(a) 4 6 Model VSP-B4L□-6 VSP-B6L□-6 VSP-B8L□-6 VSP-B10L□-6 VSP-B15L□-6 VSP-B20L□-6 VSP-B30L□-6 VSP-B40L□-6 VSP-C VSP-B4L□-7C VSP-B6L□-7C VSP-B8L□-7C VSP-B10L□-7C VSP-B15L□-7C VSP-B20L□-7C VSP-B30L□-7C VSP-B40L□-7C Model VSP-B4L□-6T VSP-B6L□-6T VSP-B8L□-6T VSP-B10L□-6T VSP-B15L□-6T VSP-B20L□-6T VSP-B30L□-6T VSP-B40L□-6T Spring Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type HC, HD, HE φ4 φ6 to φ40 Quick-fitting joint Quick-fitting joint 5/32×0.1in. 1/4×1.18in. 3C 7C *VSP-A4L□-6T to VSP-A15L□-6T are all monoblock type, so that the barb joint can not be separated. ⑥. Free holder (option) F1: Free holder swing angle 30゜ F2: Free holder swing angle 15゜ 56 Model VSP-C4L□-6 VSP-C4L□-7C VSP-C6L□-6 VSP-C6L□-7C VSP-C8L□-6 VSP-C8L□-7C VSP-C10L□-6 VSP-C10L□-7C VSP-C15L□-6 VSP-C15L□-7C VSP-C20L□-6 VSP-C20L□-7C VSP-C30L□-6 VSP-C30L□-7C VSP-C40L□-6 VSP-C40L□-7C Model VSP-C4L□-6T VSP-C6L□-6T VSP-C8L□-6T VSP-C10L□-6T VSP-C15L□-6T VSP-C20L□-6T VSP-C30L□-6T VSP-C40L□-6T VSP-D Spring Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Model VSP-D4L□-6 VSP-D6L□-6 VSP-D8L□-6 VSP-D10L□-6 VSP-D15L□-6 VSP-D20L□-6 VSP-D30L□-6 VSP-D40L□-6 VSP-F VSP-HD Model VSP-D4L□-7C VSP-D6L□-7C VSP-D8L□-7C VSP-D10L□-7C VSP-D15L□-7C VSP-D20L□-7C VSP-D30L□-7C VSP-D40L□-7C VSP-D4L□-6T VSP-D6L□-6T VSP-D8L□-6T VSP-D10L□-6T VSP-D15L□-6T VSP-D20L□-6T VSP-D30L□-6T VSP-D40L□-6T Spring & Direct Mounting Type Spring Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Model VSP-HD4L□-4 VSP-HD6L□-6 VSP-HD8L□-6 VSP-HD10L□-6 VSP-HD15L□-6 VSP-HD20L□-6 VSP-HD30L□-6 VSP-HD40L□-6 VSP-HE Model VSP-HD4L□-3C VSP-HD6L□-7C VSP-HD8L□-7C VSP-HD10L□-7C VSP-HD15L□-7C VSP-HD20L□-7C VSP-HD30L□-7C VSP-HD40L□-7C VSP-HD4L□-6T VSP-HD6L□-6T VSP-HD8L□-6T VSP-HD10L□-6T VSP-HD15L□-6T VSP-HD20L□-6T VSP-HD30L□-6T VSP-HD40L□-6T Direct Mounting Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Model Model VSP-F4L□ VSP-F6L□ VSP-F8L□ VSP-F10L□ VSP-F15L□ VSP-F20L□ VSP-F30L□ VSP-F40L□ VSP-HC VSP-HE4L□-4 VSP-HE6L□-6 VSP-HE8L□-6 VSP-HE10L□-6 VSP-HE15L□-6 VSP-HE20L□-6 VSP-HE30L□-6 VSP-HE40L□-6 Spring Type On-the-top Vacuum Port VSPG Model VSP-HE4L□-3C VSP-HE6L□-7C VSP-HE8L□-7C VSP-HE10L□-7C VSP-HE15L□-7C VSP-HE20L□-7C VSP-HE30L□-7C VSP-HE40L□-7C VSP-HE4L□-4T VSP-HE6L□-6T VSP-HE8L□-6T VSP-HE10L□-6T VSP-HE15L□-6T VSP-HE20L□-6T VSP-HE30L□-6T VSP-HE40L□-6T Pad Rubber Only Quick-fitting joint type Barb joint type FS N,SE S Model VSP-HC4L□-4 VSP-HC6L□-6 VSP-HC8L□-6 VSP-HC10L□-6 VSP-HC15L□-6 VSP-HC20L□-6 VSP-HC30L□-6 VSP-HC40L□-6 VSP-HC4L□-3C VSP-HC6L□-7C VSP-HC8L□-7C VSP-HC10L□-7C VSP-HC15L□-7C VSP-HC20L□-7C VSP-HC30L□-7C VSP-HC40L□-7C Model VSP-HC4L□-4T VSP-HC6L□-6T VSP-HC8L□-6T VSP-HC10L□-6T VSP-HC15L□-6T VSP-HC20L□-6T VSP-HC30L□-6T VSP-HC40L□-6T Nitrile rubber VSPG-4LN VSPG-6LN VSPG-8LN VSPG-10LN VSPG-15LN VSPG-20LN VSPG-30LN VSPG-40LN Model Silicon Fluorosilicon rubber rubber VSPG-4LS VSPG-4LFS VSPG-6LS VSPG-6LFS VSPG-8LS VSPG-8LFS VSPG-10LS VSPG-10LFS VSPG-15LS VSPG-15LFS VSPG-20LS VSPG-20LFS VSPG-30LS VSPG-30LFS VSPG-40LS VSPG-40LFS Anti-static rubber VSPG-4LSE VSPG-6LSE VSPG-8LSE VSPG-10LSE VSPG-15LSE VSPG-20LSE VSPG-30LSE VSPG-40LSE 57 Quick Fitting Type Vacuum Pad Soft Bellows Type Vacuum Pad Package: 1pc. in a bag VSP-A Fixed Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type ▲▲▲ ■Best suitable for plastic products or fragile work. a to φ20a a Pad dia.: φ6a Pad material: Nitrile rubber, Silicon rubber Holder shape: 8 types Model Designation (Example) VSP-A 10 LB N ① ② ③ ④ 6 ⑤ ⑥ Model ①. Holder type VSP-A Fixed type on-the-top vacuum port VSP-A6LB□-6 VSP-A8LB□-6 VSP-A10LB□-6 VSP-A15LB□-6 VSP-A20LB□-6 VSP-B Fixed type on-the-side vacuum port VSP-C Spring type on-the-top vacuum port VSP-A6LB□-7C VSP-A8LB□-7C VSP-A10LB□-7C VSP-A15LB□-7C VSP-A20LB□-7C Model VSP-A6LB□-6T VSP-A8LB□-6T VSP-A10LB□-6T VSP-A15LB□-6T VSP-A20LB□-6T VSP-D Spring type on-the-side vacuum port VSP-B Fixed Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type VSP-F Spring & direct mounting type VSP-HC Spring type on-the-top vacuum port VSP-HD Spring type on-the-side vacuum port VSP-HE Direct Mounting Type onthe-side vacuum port Model ②. Pad dia. Code Dia. 6 φ6a 0.24in. 8 φ8a 0.31in. 10 φ10a 0.39in. 15 φ15a 0.59in. 20 φ20a 0.79in. ③. Pad shape LB: Soft Bellows type ④. Pad material Material Code Nitrile rubber N Silicon rubber S VSP-B6LB□-6 VSP-B8LB□-6 VSP-B10LB□-6 VSP-B15LB□-6 VSP-B20LB□-6 VSP-C VSP-B6LB□-7C VSP-B8LB□-7C VSP-B10LB□-7C VSP-B15LB□-7C VSP-B20LB□-7C Model VSP-B6LB□-6T VSP-B8LB□-6T VSP-B10LB□-6T VSP-B15LB□-6T VSP-B20LB□-6T Spring Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type ⑤. Joint size and type Holder type Pad dia. Joint type Dia. (O.D.×I.D.) Code Holder type Pad dia. Joint type Dia. (O.D.×I.D.) Code A, B, C, D φ6 to φ20 Quick-fitting joint Barb joint 6×4(a) 6×4(a) 6 6T A, B, C, D φ6 to φ20 Quick-fitting joint 1/4×0.18in. 7C HC, HD, HE φ6 to φ20 Quick-fitting joint 6×4(a) 6 HC, HD, HE φ6 to φ20 Quick-fitting joint 1/4×0.18in. 7C *VSP-A6LB□6B to VSP-A15LB□6B are all monoblock type, so that the barb joint can not be separated. ⑥. Free holder (option) F1: Free holder swing angle 30゜ F2: Free holder swing angle 15゜ 58 Model VSP-C6LB□-6 VSP-C8LB□-6 VSP-C10LB□-6 VSP-C15LB□-6 VSP-C20LB□-6 VSP-C6LB□-7C VSP-C8LB□-7C VSP-C10LB□-7C VSP-C15LB□-7C VSP-C20LB□-7C Model VSP-C6LB□-6T VSP-C8LB□-6T VSP-C10LB□-6T VSP-C15LB□-6T VSP-C20LB□-6T VSP-D Spring Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Model VSP-D6LB□-6 VSP-D8LB□-6 VSP-D10LB□-6 VSP-D15LB□-6 VSP-D20LB□-6 VSP-F VSP-HD Model VSP-D6LB□-7C VSP-D8LB□-7C VSP-D10LB□-7C VSP-D15LB□-7C VSP-D20LB□-7C VSP-D6LB□-6T VSP-D8LB□-6T VSP-D10LB□-6T VSP-D15LB□-6T VSP-D20LB□-6T Spring & Direct Mounting Type Spring Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Model VSP-HD6LB□-6 VSP-HD8LB□-6 VSP-HD10LB□-6 VSP-HD15LB□-6 VSP-HD20LB□-6 VSP-HE Model VSP-HD6LB□-7C VSP-HD8LB□-7C VSP-HD10LB□-7C VSP-HD15LB□-7C VSP-HD20LB□-7C VSP-HD6LB□-6T VSP-HD8LB□-6T VSP-HD10LB□-6T VSP-HD15LB□-6T VSP-HD20LB□-6T Direct Mounting Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Model Model VSP-F6LB□ VSP-F8LB□ VSP-F10LB□ VSP-F15LB□ VSP-F20LB□ VSP-HC VSP-HE6LB□-6 VSP-HE8LB□-6 VSP-HE10LB□-6 VSP-HE15LB□-6 VSP-HE20LB□-6 Spring Type On-the-top Vacuum Port VSPG Model VSP-HE6LB□-7C VSP-HE6LB□-6T VSP-HE8LB□-7C VSP-HE8LB□-6T VSP-HE10LB□-7C VSP-HE10LB□-6T VSP-HE15LB□-7C VSP-HE15LB□-6T VSP-HE20LB□-7C VSP-HE20LB□-6T Pad Rubber Only Quick-fitting joint type Barb joint type N Model VSP-HC6LB□-6 VSP-HC8LB□-6 VSP-HC10LB□-6 VSP-HC15LB□-6 VSP-HC20LB□-6 VSP-HC6LB□-7C VSP-HC8LB□-7C VSP-HC10LB□-7C VSP-HC15LB□-7C VSP-HC20LB□-7C Model VSP-HC6LB□-6T VSP-HC8LB□-6T VSP-HC10LB□-6T VSP-HC15LB□-6T VSP-HC20LB□-6T Model Nitrile rubber VSPG-6LBN VSPG-8LBN VSPG-10LBN VSPG-15LBN VSPG-20LBN Silicon rubber VSPG-6LBS VSPG-8LBS VSPG-10LBS VSPG-15LBS VSPG-20LBS 59 Quick Fitting Type Vacuum Pad Vacuum Pad Skidproof Type Package: 1pc. in a bag VSP-A ▲▲▲ ■Optimal for transporting oil-coated components, such as press parts. ■Unique pad shape contributed to preventing pieces from skidding during transport. ■Use of oil-resistant NBR (nitrile-butadiene rubber) has improved pad durability in oily environments. a to φ50a a Pad dia.: φ10a Pad material: Oil-resistant NBR Holder shape: 5 types Model Designation (Example) VSP-A 30 KNH ① ② ③ 6 ④ ⑤ Fixed Type On-the-top Vacuum Port VSP-D Spring Type On-the-side Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Model VSP-A10KNH-6 VSP-A20KNH-6 VSP-A30KNH-6 VSP-A40KNH-6 VSP-A50KNH-6 VSP-A10KNH-6T VSP-A20KNH-6T VSP-A30KNH-6T VSP-A40KNH-6T VSP-A50KNH-6T Model VSP-D10KNH-6 VSP-D20KNH-6 VSP-D30KNH-6 VSP-D40KNH-6 VSP-D50KNH-6 VSP-D10KNH-6T VSP-D20KNH-6T VSP-D30KNH-6T VSP-D40KNH-6T VSP-D50KNH-6T ①. Holder type VSP-B Fixed Type On-the-side Vacuum Port VSP-F Spring & Direct Mounting Type Quick-fitting joint type Barb joint type VSP-A VSP-B Fixed type on-the-top vacuum port Fixed type on-the-side vacuum port VSP-C Spring type on-the-top vacuum port Model VSP-D VSP-F Spring type on-the-side vacuum port Spring & direct mounting type ②. Pad dia. Code Dia. 10 φ10a 0.39in. 20 φ20a 0.79in. 30 φ30a 1.18in. 40 φ40a 1.57in. 50 φ50a 1.97in. VSP-B10KNH-6 VSP-B20KNH-6 VSP-B30KNH-6 VSP-B40KNH-6 VSP-B50KNH-6 VSP-C VSP-B10KNH-6T VSP-B20KNH-6T VSP-B30KNH-6T VSP-B40KNH-6T VSP-B50KNH-6T Spring Type On-the-top Vacuum Port Model VSP-F10KNH VSP-F20KNH VSP-F30KNH VSP-F40KNH VSP-F50KNH VSPG Pad Rubber Only Quick-fitting joint type Barb joint type KNH ③. Pad shape, material Shape, Material Code Skidproof type, Oil-resistant NBR KNH ④. Joint size and type Pad dia. Joint type Dia. (O.D.×I.D.) Code φ10 to φ50 Quick-fitting joint Barb joint 6×4(a) 6×4(a) 0.24×0.16(in.) 0.24×0.16(in.) 6 6T ⑤. Free holder (option) F1: Free holder swing angle 30゜ F2: Free holder swing angle 15゜ .In case of ordering, please apply Model code in the following chart. 60 Model VSP-C10KNH-6 VSP-C20KNH-6 VSP-C30KNH-6 VSP-C40KNH-6 VSP-C50KNH-6 VSP-C10KNH-6T VSP-C20KNH-6T VSP-C30KNH-6T VSP-C40KNH-6T VSP-C50KNH-6T Model VSPG-10KNH VSPG-20KNH VSPG-30KNH VSPG-40KNH VSPG-50KNH Quick Fitting Type Vacuum Pad Vacuum Pad Thin Component Type Package: 1pc. in a bag VSP-A ▲▲▲ ■Optimal for transporting thin components, such as paper, vinyl sheets. ■As the lip has been made thinner, not only has its adhesion to components been improved, but overlapping adhesion has also been minimized. a to φ20a a Pad dia.: φ8a Pad material: Nitrile rubber, Fluorosilicon rubber Holder shape: 6 types ① ② ③ ④ 6 ⑤ VSP-D Spring Type On-the-side Vacuum Port Model VSP-A8P□-4 VSP-A10P□-4 VSP-A15P□-4 VSP-A20P□-4 Model Designation (Example) VSP-A 10 P N Fixed Type On-the-top Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type VSP-A8P□-4T VSP-A10P□-4T VSP-A15P□-4T VSP-A20P□-4T Model VSP-D8P□-4 VSP-D10P□-4 VSP-D15P□-4 VSP-D20P□-4 VSP-D8P□-4T VSP-D10P□-4T VSP-D15P□-4T VSP-D20P□-4T ①. Holder type VSP-B Fixed Type On-the-side Vacuum Port VSP-E Fixed Direct Mounting Type Quick-fitting joint type Barb joint type VSP-A Fixed type on-the-top vacuum port VSP-B Fixed type on-the-side vacuum port VSP-C Spring type on-the-top vacuum port Model VSP-D Spring type on-the-side vacuum port VSP-E Fixed direct mounting type VSP-F VSP-C Dia. 8 φ8a 0.31in. 10 φ10a 0.39in. VSP-B8P□-4T VSP-B10P□-4T VSP-B15P□-4T VSP-B20P□-4T VSP-E8P□ VSP-E10P□ VSP-E15P□ VSP-E20P□ Spring & direct mounting type ②. Pad dia. Code VSP-B8P□-4 VSP-B10P□-4 VSP-B15P□-4 VSP-B20P□-4 Model 15 φ15a 0.59in. 20 φ20a 0.79in. Spring Type On-the-top Vacuum Port VSP-F Spring & Direct Mounting Type Quick-fitting joint type Barb joint type ③. Pad shape P: Thin Component type ④. Pad material Material Code Nitrile rubber N Fluorosilicon rubber FS ⑤. Joint size and type Pad dia. Joint type Dia. (O.D.×I.D.) Code φ8 to φ20 Quick-fitting joint Barb joint 4×2.5(a) 4×2.5(a) 0.16×0.10(in.) 0.16×0.10(in.) 4 4T Model VSP-C8P□-4 VSP-C10P□-4 VSP-C15P□-4 VSP-C20P□-4 VSP-C8P□-4T VSP-C10P□-4T VSP-C15P□-4T VSP-C20P□-4T Model VSP-F8P□ VSP-F10P□ VSP-F15P□ VSP-F20P□ VSPG Pad Rubber Only N Nitrile rubber VSPG-8PN VSPG-10PN VSPG-15PN VSPG-20PN Model Fluorosilicon rubber VSPG-8PFS VSPG-10PFS VSPG-15PFS VSPG-20PFS 61 Quick Fitting Type Vacuum Pad Vacuum Pad Long Stroke Package: 1pc. in a bag ■This Vacuum Pad can hold parts or material pieces even when the distance from the pad to them varies. ●Standard type ■General-type pad suitable for thick and flat work and Deep-type pad for spherical fruits (apple, etc.) or ball are available. ●Sponge type ■Best suitable for work like an external wall material of building, small stone and seashell. ●Bellows type ■Best suitable for retort package or bag packed food into, etc. ●Oval type ■Best suitable for long work like substrate or semiconductor. ●Skidproof type ▲▲ ■Optimal for transporting oil-coated components, such as press parts. a to φ50a a Pad dia. : φ4a Pad material: Nitrile rubber, Silicon rubber, Urethane rubber, Fluoric rubber, Anti-static rubber, Anti-static rubber (low resistance), NBR suited to the food sanitation act., Sponge rubber, Oil-resistant NBR Pad shape: Standard type (general-type and deep-type), Sponge type, Bellows type, Oval type, Skidproof type Holder shape: 2 types a to 50a a Stroke: 10a ▲▲▲ Model Designation (Example) VSP-C 40 ① ② 20 RN ③ ④ 6 C ⑤ F1 ⑥ ④. Pad shape, material ⑦ ①. Holder type Material Shape VSP-C General type Deep type Sponge type Bellows type Oval type Skidproof type VSP-D Spring type on-the-top vacuum port Spring type on-the-side vacuum port Material Shape ②. Pad dia. ■Standard type Code Dia. 4 6 8 10 15 20 25 30 40 50 φ4a φ6a φ8a φ10a φ15a φ20a φ25a φ30a φ40a φ50a 0.16in. 0.24in. 0.31in. 0.39in. 0.59in. 0.79in. 0.98in. 1.18in. 1.57in. 1.97in. ■Sponge type Code Dia. 10 15 20 25 30 35 50 φ10a φ15a φ20a φ25a φ30a φ35a φ50a 0.39in. 0.59in. 0.79in. 0.98in. 1.18in. 1.38in. 1.97in. ■Bellows type Code Dia. 10 φ10a 0.39in. 20 φ20a 0.79in. 30 φ30a 1.18in. 40 φ40a 1.57in. 50 φ50a 1.97in. ■Oval type A B B 10a (0.39in.) 20a (0.79in.) 30a (1.18in.) 4a (0.16in.) 4×10 4×20 4×30 5a (0.20in.) 5×10 5×20 5×30 6a (0.24in.) 6×10 6×20 6×30 8a (0.31in.) − 8×20 8×30 A ■Skidproof type Code Dia. 10 φ10a 0.39in. 20 φ20a 0.79in. 30 φ30a 1.18in. 40 φ40a 1.57in. 50 φ50a 1.97in. ③.Stroke Code Stroke 62 10 15 20 30 40 50 10a 15a 20a 30a 40a 50a 0.39in. 0.59in. 0.79in. 1.18in. 1.57in. 1.97in. General type Deep type Sponge type Bellows type Oval type Skidproof type Nitrile rubber RN AN − BN EN − Silicon rubber RS AS − BS ES − Urethane rubber RU AU − − − − Fluoric rubber RF AF − − − − Oil-resistant NBR − − − − − KNH Anti-static rubber Anti-static rubber (low resistance) NBR suited to the food Sponge (*: 104∼106Ω/f) (*: 200Ω/f) sanitation act. (Chlroroprene rubber) RSE RE RG − − − AG − − − − S − − − − − EE − − − − − − *Surface resistance ⑤. Joint size and type Pad dia. φ4 to φ8 φ10 to φ50 Joint type Quick-fitting joint Barb joint Quick-fitting joint Barb joint Dia. 4×2.5(a) 4×2.5(a) 6×4(a) 6×4(a) (O.D.×I.D.) 0.16×0.10(in.) 0.16×0.10(in.) 0.24×0.16(in.) 0.24×0.16(in.) Code 4 4T 6 6T ⑥. Spring No code: With cover (Stroke: 10a to 20a) C: Without cover (Stroke: 20a to 50a) ⑦. Free holder (option) F1: Free holder swing angle 30゜ F2: Free holder swing angle 15゜ VSP-C With Cover Long Stroke On-the-top Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Standard type Sponge type Bellows type Oval type Model Model Model Model VSP-C4-10R□-4 VSP-C4-15R□-4 VSP-C4-20R□-4 VSP-C6-10R□-4 VSP-C6-15R□-4 VSP-C6-20R□-4 VSP-C8-10R□-4 VSP-C8-15R□-4 VSP-C8-20R□-4 VSP-C10-10R□-6 VSP-C10-15R□-6 VSP-C10-20R□-6 VSP-C15-10R(A)□-6 VSP-C15-15R(A)□-6 VSP-C15-20R(A)□-6 VSP-C20-10R(A)□-6 VSP-C20-15R(A)□-6 VSP-C20-20R(A)□-6 VSP-C25-10R(A)□-6 VSP-C25-15R(A)□-6 VSP-C25-20R(A)□-6 VSP-C30-10R(A)□-6 VSP-C30-15R(A)□-6 VSP-C30-20R(A)□-6 VSP-C40-10R(A)□-6 VSP-C40-15R(A)□-6 VSP-C40-20R(A)□-6 VSP-C50-10R(A)□-6 VSP-C50-15R(A)□-6 VSP-C50-20R(A)□-6 VSP-C4-10R□-4T VSP-C4-15R□-4T VSP-C4-20R□-4T VSP-C6-10R□-4T VSP-C6-15R□-4T VSP-C6-20R□-4T VSP-C8-10R□-4T VSP-C8-15R□-4T VSP-C8-20R□-4T VSP-C10-10R□-6T VSP-C10-15R□-6T VSP-C10-20R□-6T VSP-C15-10R(A)□-6T VSP-C15-15R(A)□-6T VSP-C15-20R(A)□-6T VSP-C20-10R(A)□-6T VSP-C20-15R(A)□-6T VSP-C20-20R(A)□-6T VSP-C25-10R(A)□-6T VSP-C25-15R(A)□-6T VSP-C25-20R(A)□-6T VSP-C30-10R(A)□-6T VSP-C30-15R(A)□-6T VSP-C30-20R(A)□-6T VSP-C40-10R(A)□-6T VSP-C40-15R(A)□-6T VSP-C40-20R(A)□-6T VSP-C50-10R(A)□-6T VSP-C50-15R(A)□-6T VSP-C50-20R(A)□-6T VSP-C10-10S-6 VSP-C10-15S-6 VSP-C10-20S-6 VSP-C15-10S-6 VSP-C15-15S-6 VSP-C15-20S-6 VSP-C20-10S-6 VSP-C20-15S-6 VSP-C20-20S-6 VSP-C25-10S-6 VSP-C25-15S-6 VSP-C25-20S-6 VSP-C30-10S-6 VSP-C30-15S-6 VSP-C30-20S-6 VSP-C35-10S-6 VSP-C35-15S-6 VSP-C35-20S-6 VSP-C50-10S-6 VSP-C50-15S-6 VSP-C50-20S-6 VSP-C10-10S-6T VSP-C10-15S-6T VSP-C10-20S-6T VSP-C15-10S-6T VSP-C15-15S-6T VSP-C15-20S-6T VSP-C20-10S-6T VSP-C20-15S-6T VSP-C20-20S-6T VSP-C25-10S-6T VSP-C25-15S-6T VSP-C25-20S-6T VSP-C30-10S-6T VSP-C30-15S-6T VSP-C30-20S-6T VSP-C35-10S-6T VSP-C35-15S-6T VSP-C35-20S-6T VSP-C50-10S-6T VSP-C50-15S-6T VSP-C50-20S-6T VSP-C10-10B□-6 VSP-C10-15B□-6 VSP-C10-20B□-6 VSP-C20-10B□-6 VSP-C20-15B□-6 VSP-C20-20B□-6 VSP-C30-10B□-6 VSP-C30-15B□-6 VSP-C30-20B□-6 VSP-C40-10B□-6 VSP-C40-15B□-6 VSP-C40-20B□-6 VSP-C50-10B□-6 VSP-C50-15B□-6 VSP-C50-20B□-6 VSP-C10-10B□-6T VSP-C10-15B□-6T VSP-C10-20B□-6T VSP-C20-10B□-6T VSP-C20-15B□-6T VSP-C20-20B□-6T VSP-C30-10B□-6T VSP-C30-15B□-6T VSP-C30-20B□-6T VSP-C40-10B□-6T VSP-C40-15B□-6T VSP-C40-20B□-6T VSP-C50-10B□-6T VSP-C50-15B□-6T VSP-C50-20B□-6T VSP-C4×10-10E□-6 VSP-C4×10-15E□-6 VSP-C4×10-20E□-6 VSP-C4×20-10E□-6 VSP-C4×20-15E□-6 VSP-C4×20-20E□-6 VSP-C4×30-10E□-6 VSP-C4×30-15E□-6 VSP-C4×30-20E□-6 VSP-C5×10-10E□-6 VSP-C5×10-15E□-6 VSP-C5×10-20E□-6 VSP-C5×20-10E□-6 VSP-C5×20-15E□-6 VSP-C5×20-20E□-6 VSP-C5×30-10E□-6 VSP-C5×30-15E□-6 VSP-C5×30-20E□-6 VSP-C6×10-10E□-6 VSP-C6×10-15E□-6 Quick-fitting joint type Barb joint type VSP-C6×10-20E□-6 VSP-C6×20-10E□-6 VSP-C6×20-15E□-6 VSP-C6×20-20E□-6 VSP-C6×30-10E□-6 VSP-C6×30-15E□-6 VSP-C6×30-20E□-6 VSP-C8×20-10E□-6 Skidproof type VSP-C8×20-15E□-6 VSP-C8×20-20E□-6 Model VSP-C8×30-10E□-6 VSP-C10-10KNH-6 VSP-C10-10KNH-6T VSP-C8×30-15E□-6 VSP-C10-15KNH-6 VSP-C10-15KNH-6T VSP-C8×30-20E□-6 VSP-C10-20KNH-6 VSP-C10-20KNH-6T VSP-C20-10KNH-6 VSP-C20-10KNH-6T VSP-C20-15KNH-6 VSP-C20-15KNH-6T VSP-C20-20KNH-6 VSP-C20-20KNH-6T VSP-C30-10KNH-6 VSP-C30-10KNH-6T VSP-C30-15KNH-6 VSP-C30-15KNH-6T VSP-C30-20KNH-6 VSP-C30-20KNH-6T VSP-C40-10KNH-6 VSP-C40-10KNH-6T VSP-C40-15KNH-6 VSP-C40-15KNH-6T VSP-C40-20KNH-6 VSP-C40-20KNH-6T VSP-C50-10KNH-6 VSP-C50-10KNH-6T VSP-C50-15KNH-6 VSP-C50-15KNH-6T VSP-C50-20KNH-6 VSP-C50-20KNH-6T VSP-C4×10-10E□-6T VSP-C4×10-15E□-6T VSP-C4×10-20E□-6T VSP-C4×20-10E□-6T VSP-C4×20-15E□-6T VSP-C4×20-20E□-6T VSP-C4×30-10E□-6T VSP-C4×30-15E□-6T VSP-C4×30-20E□-6T VSP-C5×10-10E□-6T VSP-C5×10-15E□-6T VSP-C5×10-20E□-6T VSP-C5×20-10E□-6T VSP-C5×20-15E□-6T VSP-C5×20-20E□-6T VSP-C5×30-10E□-6T VSP-C5×30-15E□-6T VSP-C5×30-20E□-6T VSP-C6×10-10E□-6T VSP-C6×10-15E□-6T VSP-C6×10-20E□-6T VSP-C6×20-10E□-6T VSP-C6×20-15E□-6T VSP-C6×20-20E□-6T VSP-C6×30-10E□-6T VSP-C6×30-15E□-6T VSP-C6×30-20E□-6T VSP-C8×20-10E□-6T VSP-C8×20-15E□-6T VSP-C8×20-20E□-6T VSP-C8×30-10E□-6T VSP-C8×30-15E□-6T VSP-C8×30-20E□-6T 63 Vacuum Pad VSP-C Long Stroke Without Cover Long Stroke On-the-top Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Standard type Sponge type Bellows type Oval type Model Model Model Model VSP-C20-20R(A)□-6C VSP-C20-30R(A)□-6C VSP-C20-40R(A)□-6C VSP-C20-50R(A)□-6C VSP-C25-20R(A)□-6C VSP-C25-30R(A)□-6C VSP-C25-40R(A)□-6C VSP-C25-50R(A)□-6C VSP-C30-20R(A)□-6C VSP-C30-30R(A)□-6C VSP-C30-40R(A)□-6C VSP-C30-50R(A)□-6C VSP-C40-20R(A)□-6C VSP-C40-30R(A)□-6C VSP-C40-40R(A)□-6C VSP-C40-50R(A)□-6C VSP-C50-20R(A)□-6C VSP-C50-30R(A)□-6C VSP-C50-40R(A)□-6C VSP-C50-50R(A)□-6C VSP-C20-20R(A)□-6TC VSP-C20-30R(A)□-6TC VSP-C20-40R(A)□-6TC VSP-C20-50R(A)□-6TC VSP-C25-20R(A)□-6TC VSP-C25-30R(A)□-6TC VSP-C25-40R(A)□-6TC VSP-C25-50R(A)□-6TC VSP-C30-20R(A)□-6TC VSP-C30-30R(A)□-6TC VSP-C30-40R(A)□-6TC VSP-C30-50R(A)□-6TC VSP-C40-20R(A)□-6TC VSP-C40-30R(A)□-6TC VSP-C40-40R(A)□-6TC VSP-C40-50R(A)□-6TC VSP-C50-20R(A)□-6TC VSP-C50-30R(A)□-6TC VSP-C50-40R(A)□-6TC VSP-C50-50R(A)□-6TC VSP-C10-20S-6C VSP-C10-30S-6C VSP-C10-40S-6C VSP-C10-50S-6C VSP-C15-20S-6C VSP-C15-30S-6C VSP-C15-40S-6C VSP-C15-50S-6C VSP-C20-20S-6C VSP-C20-30S-6C VSP-C20-40S-6C VSP-C20-50S-6C VSP-C25-20S-6C VSP-C25-30S-6C VSP-C25-40S-6C VSP-C25-50S-6C VSP-C30-20S-6C VSP-C30-30S-6C VSP-C30-40S-6C VSP-C30-50S-6C VSP-C35-20S-6C VSP-C35-30S-6C VSP-C35-40S-6C VSP-C35-50S-6C VSP-C50-20S-6C VSP-C50-30S-6C VSP-C50-40S-6C VSP-C50-50S-6C VSP-C10-20S-6TC VSP-C10-30S-6TC VSP-C10-40S-6TC VSP-C10-50S-6TC VSP-C15-20S-6TC VSP-C15-30S-6TC VSP-C15-40S-6TC VSP-C15-50S-6TC VSP-C20-20S-6TC VSP-C20-30S-6TC VSP-C20-40S-6TC VSP-C20-50S-6TC VSP-C25-20S-6TC VSP-C25-30S-6TC VSP-C25-40S-6TC VSP-C25-50S-6TC VSP-C30-20S-6TC VSP-C30-30S-6TC VSP-C30-40S-6TC VSP-C30-50S-6TC VSP-C35-20S-6TC VSP-C35-30S-6TC VSP-C35-40S-6TC VSP-C35-50S-6TC VSP-C50-20S-6TC VSP-C50-30S-6TC VSP-C50-40S-6TC VSP-C50-50S-6TC VSP-C20-20B□-6C VSP-C20-30B□-6C VSP-C20-40B□-6C VSP-C20-50B□-6C VSP-C30-20B□-6C VSP-C30-30B□-6C VSP-C30-40B□-6C VSP-C30-50B□-6C VSP-C40-20B□-6C VSP-C40-30B□-6C VSP-C40-40B□-6C VSP-C40-50B□-6C VSP-C50-20B□-6C VSP-C50-30B□-6C VSP-C50-40B□-6C VSP-C50-50B□-6C VSP-C20-20B□-6TC VSP-C20-30B□-6TC VSP-C20-40B□-6TC VSP-C20-50B□-6TC VSP-C30-20B□-6TC VSP-C30-30B□-6TC VSP-C30-40B□-6TC VSP-C30-50B□-6TC VSP-C40-20B□-6TC VSP-C40-30B□-6TC VSP-C40-40B□-6TC VSP-C40-50B□-6TC VSP-C50-20B□-6TC VSP-C50-30B□-6TC VSP-C50-40B□-6TC VSP-C50-50B□-6TC Quick-fitting joint type Barb joint type Skidproof type Model VSP-C20-20KNH-6C VSP-C20-30KNH-6C VSP-C20-40KNH-6C VSP-C20-50KNH-6C VSP-C30-20KNH-6C VSP-C30-30KNH-6C VSP-C30-40KNH-6C VSP-C30-50KNH-6C VSP-C40-20KNH-6C VSP-C40-30KNH-6C VSP-C40-40KNH-6C VSP-C40-50KNH-6C VSP-C50-20KNH-6C VSP-C50-30KNH-6C VSP-C50-40KNH-6C VSP-C50-50KNH-6C 64 VSP-C20-20KNH-6TC VSP-C20-30KNH-6TC VSP-C20-40KNH-6TC VSP-C20-50KNH-6TC VSP-C30-20KNH-6TC VSP-C30-30KNH-6TC VSP-C30-40KNH-6TC VSP-C30-50KNH-6TC VSP-C40-20KNH-6TC VSP-C40-30KNH-6TC VSP-C40-40KNH-6TC VSP-C40-50KNH-6TC VSP-C50-20KNH-6TC VSP-C50-30KNH-6TC VSP-C50-40KNH-6TC VSP-C50-50KNH-6TC VSP-C4×10-20E□-6C VSP-C4×10-30E□-6C VSP-C4×10-40E□-6C VSP-C4×10-50E□-6C VSP-C4×20-20E□-6C VSP-C4×20-30E□-6C VSP-C4×20-40E□-6C VSP-C4×20-50E□-6C VSP-C4×30-20E□-6C VSP-C4×30-30E□-6C VSP-C4×30-40E□-6C VSP-C4×30-50E□-6C VSP-C5×10-20E□-6C VSP-C5×10-30E□-6C VSP-C5×10-40E□-6C VSP-C5×10-50E□-6C VSP-C5×20-20E□-6C VSP-C5×20-30E□-6C VSP-C5×20-40E□-6C VSP-C5×20-50E□-6C VSP-C5×30-20E□-6C VSP-C5×30-30E□-6C VSP-C5×30-40E□-6C VSP-C5×30-50E□-6C VSP-C6×10-20E□-6C VSP-C6×10-30E□-6C VSP-C6×10-40E□-6C VSP-C6×10-50E□-6C VSP-C6×20-20E□-6C VSP-C6×20-30E□-6C VSP-C6×20-40E□-6C VSP-C6×20-50E□-6C VSP-C6×30-20E□-6C VSP-C6×30-30E□-6C VSP-C6×30-40E□-6C VSP-C6×30-50E□-6C VSP-C8×20-20E□-6C VSP-C8×20-30E□-6C VSP-C8×20-40E□-6C VSP-C8×20-50E□-6C VSP-C8×30-20E□-6C VSP-C8×30-30E□-6C VSP-C8×30-40E□-6C VSP-C8×30-50E□-6C VSP-C4×10-20E□-6TC VSP-C4×10-30E□-6TC VSP-C4×10-40E□-6TC VSP-C4×10-50E□-6TC VSP-C4×20-20E□-6TC VSP-C4×20-30E□-6TC VSP-C4×20-40E□-6TC VSP-C4×20-50E□-6TC VSP-C4×30-20E□-6TC VSP-C4×30-30E□-6TC VSP-C4×30-40E□-6TC VSP-C4×30-50E□-6TC VSP-C5×10-20E□-6TC VSP-C5×10-30E□-6TC VSP-C5×10-40E□-6TC VSP-C5×10-50E□-6TC VSP-C5×20-20E□-6TC VSP-C5×20-30E□-6TC VSP-C5×20-40E□-6TC VSP-C5×20-50E□-6TC VSP-C5×30-20E□-6TC VSP-C5×30-30E□-6TC VSP-C5×30-40E□-6TC VSP-C5×30-50E□-6TC VSP-C6×10-20E□-6TC VSP-C6×10-30E□-6TC VSP-C6×10-40E□-6TC VSP-C6×10-50E□-6TC VSP-C6×20-20E□-6TC VSP-C6×20-30E□-6TC VSP-C6×20-40E□-6TC VSP-C6×20-50E□-6TC VSP-C6×30-20E□-6TC VSP-C6×30-30E□-6TC VSP-C6×30-40E□-6TC VSP-C6×30-50E□-6TC VSP-C8×20-20E□-6TC VSP-C8×20-30E□-6TC VSP-C8×20-40E□-6TC VSP-C8×20-50E□-6TC VSP-C8×30-20E□-6TC VSP-C8×30-30E□-6TC VSP-C8×30-40E□-6TC VSP-C8×30-50E□-6TC VSP-D With Cover Long Stroke On-the-side Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Standard type Sponge type Bellows type Oval type Model Model Model Model VSP-D4-10R□-4 VSP-D4-15R□-4 VSP-D4-20R□-4 VSP-D6-10R□-4 VSP-D6-15R□-4 VSP-D6-20R□-4 VSP-D8-10R□-4 VSP-D8-15R□-4 VSP-D8-20R□-4 VSP-D10-10R□-6 VSP-D10-15R□-6 VSP-D10-20R□-6 VSP-D15-10R(A)□-6 VSP-D15-15R(A)□-6 VSP-D15-20R(A)□-6 VSP-D20-10R(A)□-6 VSP-D20-15R(A)□-6 VSP-D20-20R(A)□-6 VSP-D25-10R(A)□-6 VSP-D25-15R(A)□-6 VSP-D25-20R(A)□-6 VSP-D30-10R(A)□-6 VSP-D30-15R(A)□-6 VSP-D30-20R(A)□-6 VSP-D40-10R(A)□-6 VSP-D40-15R(A)□-6 VSP-D40-20R(A)□-6 VSP-D50-10R(A)□-6 VSP-D50-15R(A)□-6 VSP-D50-20R(A)□-6 VSP-D4-10R□-4T VSP-D4-15R□-4T VSP-D4-20R□-4T VSP-D6-10R□-4T VSP-D6-15R□-4T VSP-D6-20R□-4T VSP-D8-10R□-4T VSP-D8-15R□-4T VSP-D8-20R□-4T VSP-D10-10R□-6T VSP-D10-15R□-6T VSP-D10-20R□-6T VSP-D15-10R(A)□-6T VSP-D15-15R(A)□-6T VSP-D15-20R(A)□-6T VSP-D20-10R(A)□-6T VSP-D20-15R(A)□-6T VSP-D20-20R(A)□-6T VSP-D25-10R(A)□-6T VSP-D25-15R(A)□-6T VSP-D25-20R(A)□-6T VSP-D30-10R(A)□-6T VSP-D30-15R(A)□-6T VSP-D30-20R(A)□-6T VSP-D40-10R(A)□-6T VSP-D40-15R(A)□-6T VSP-D40-20R(A)□-6T VSP-D50-10R(A)□-6T VSP-D50-15R(A)□-6T VSP-D50-20R(A)□-6T VSP-D10-10S-6 VSP-D10-15S-6 VSP-D10-20S-6 VSP-D15-10S-6 VSP-D15-15S-6 VSP-D15-20S-6 VSP-D20-10S-6 VSP-D20-15S-6 VSP-D20-20S-6 VSP-D25-10S-6 VSP-D25-15S-6 VSP-D25-20S-6 VSP-D30-10S-6 VSP-D30-15S-6 VSP-D30-20S-6 VSP-D35-10S-6 VSP-D35-15S-6 VSP-D35-20S-6 VSP-D50-10S-6 VSP-D50-15S-6 VSP-D50-20S-6 VSP-D10-10S-6T VSP-D10-15S-6T VSP-D10-20S-6T VSP-D15-10S-6T VSP-D15-15S-6T VSP-D15-20S-6T VSP-D20-10S-6T VSP-D20-15S-6T VSP-D20-20S-6T VSP-D25-10S-6T VSP-D25-15S-6T VSP-D25-20S-6T VSP-D30-10S-6T VSP-D30-15S-6T VSP-D30-20S-6T VSP-D35-10S-6T VSP-D35-15S-6T VSP-D35-20S-6T VSP-D50-10S-6T VSP-D50-15S-6T VSP-D50-20S-6T VSP-D10-10B□-6 VSP-D10-15B□-6 VSP-D10-20B□-6 VSP-D20-10B□-6 VSP-D20-15B□-6 VSP-D20-20B□-6 VSP-D30-10B□-6 VSP-D30-15B□-6 VSP-D30-20B□-6 VSP-D40-10B□-6 VSP-D40-15B□-6 VSP-D40-20B□-6 VSP-D50-10B□-6 VSP-D50-15B□-6 VSP-D50-20B□-6 VSP-D10-10B□-6T VSP-D10-15B□-6T VSP-D10-20B□-6T VSP-D20-10B□-6T VSP-D20-15B□-6T VSP-D20-20B□-6T VSP-D30-10B□-6T VSP-D30-15B□-6T VSP-D30-20B□-6T VSP-D40-10B□-6T VSP-D40-15B□-6T VSP-D40-20B□-6T VSP-D50-10B□-6T VSP-D50-15B□-6T VSP-D50-20B□-6T VSP-D4×10-10E□-6 VSP-D4×10-15E□-6 VSP-D4×10-20E□-6 VSP-D4×20-10E□-6 VSP-D4×20-15E□-6 VSP-D4×20-20E□-6 VSP-D4×30-10E□-6 VSP-D4×30-15E□-6 VSP-D4×30-20E□-6 VSP-D5×10-10E□-6 VSP-D5×10-15E□-6 VSP-D5×10-20E□-6 VSP-D5×20-10E□-6 VSP-D5×20-15E□-6 VSP-D5×20-20E□-6 VSP-D5×30-10E□-6 VSP-D5×30-15E□-6 VSP-D5×30-20E□-6 VSP-D6×10-10E□-6 VSP-D6×10-15E□-6 Quick-fitting joint type Barb joint type VSP-D6×10-20E□-6 VSP-D6×20-10E□-6 VSP-D6×20-15E□-6 VSP-D6×20-20E□-6 VSP-D6×30-10E□-6 VSP-D6×30-15E□-6 VSP-D6×30-20E□-6 VSP-D8×20-10E□-6 Skidproof type VSP-D8×20-15E□-6 VSP-D8×20-20E□-6 Model VSP-D8×30-10E□-6 VSP-D10-10KNH-6 VSP-D10-10KNH-6T VSP-D8×30-15E□-6 VSP-D10-15KNH-6 VSP-D10-15KNH-6T VSP-D8×30-20E□-6 VSP-D10-20KNH-6 VSP-D10-20KNH-6T VSP-D20-10KNH-6 VSP-D20-10KNH-6T VSP-D20-15KNH-6 VSP-D20-15KNH-6T VSP-D20-20KNH-6 VSP-D20-20KNH-6T VSP-D30-10KNH-6 VSP-D30-10KNH-6T VSP-D30-15KNH-6 VSP-D30-15KNH-6T VSP-D30-20KNH-6 VSP-D30-20KNH-6T VSP-D40-10KNH-6 VSP-D40-10KNH-6T VSP-D40-15KNH-6 VSP-D40-15KNH-6T VSP-D40-20KNH-6 VSP-D40-20KNH-6T VSP-D50-10KNH-6 VSP-D50-10KNH-6T VSP-D50-15KNH-6 VSP-D50-15KNH-6T VSP-D50-20KNH-6 VSP-D50-20KNH-6T VSP-D4×10-10E□-6T VSP-D4×10-15E□-6T VSP-D4×10-20E□-6T VSP-D4×20-10E□-6T VSP-D4×20-15E□-6T VSP-D4×20-20E□-6T VSP-D4×30-10E□-6T VSP-D4×30-15E□-6T VSP-D4×30-20E□-6T VSP-D5×10-10E□-6T VSP-D5×10-15E□-6T VSP-D5×10-20E□-6T VSP-D5×20-10E□-6T VSP-D5×20-15E□-6T VSP-D5×20-20E□-6T VSP-D5×30-10E□-6T VSP-D5×30-15E□-6T VSP-D5×30-20E□-6T VSP-D6×10-10E□-6T VSP-D6×10-15E□-6T VSP-D6×10-20E□-6T VSP-D6×20-10E□-6T VSP-D6×20-15E□-6T VSP-D6×20-20E□-6T VSP-D6×30-10E□-6T VSP-D6×30-15E□-6T VSP-D6×30-20E□-6T VSP-D8×20-10E□-6T VSP-D8×20-15E□-6T VSP-D8×20-20E□-6T VSP-D8×30-10E□-6T VSP-D8×30-15E□-6T VSP-D8×30-20E□-6T 65 Vacuum Pad VSP-D Long Stroke Without Cover Long Stroke On-the-side Vacuum Port Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Quick-fitting joint type Barb joint type Standard type Sponge type Bellows type Oval type Model Model Model Model VSP-D20-20R(A)□-6C VSP-D20-30R(A)□-6C VSP-D20-40R(A)□-6C VSP-D20-50R(A)□-6C VSP-D25-20R(A)□-6C VSP-D25-30R(A)□-6C VSP-D25-40R(A)□-6C VSP-D25-50R(A)□-6C VSP-D30-20R(A)□-6C VSP-D30-30R(A)□-6C VSP-D30-40R(A)□-6C VSP-D30-50R(A)□-6C VSP-D40-20R(A)□-6C VSP-D40-30R(A)□-6C VSP-D40-40R(A)□-6C VSP-D40-50R(A)□-6C VSP-D50-20R(A)□-6C VSP-D50-30R(A)□-6C VSP-D50-40R(A)□-6C VSP-D50-50R(A)□-6C VSP-D20-20R(A)□-6TC VSP-D20-30R(A)□-6TC VSP-D20-40R(A)□-6TC VSP-D20-50R(A)□-6TC VSP-D25-20R(A)□-6TC VSP-D25-30R(A)□-6TC VSP-D25-40R(A)□-6TC VSP-D25-50R(A)□-6TC VSP-D30-20R(A)□-6TC VSP-D30-30R(A)□-6TC VSP-D30-40R(A)□-6TC VSP-D30-50R(A)□-6TC VSP-D40-20R(A)□-6TC VSP-D40-30R(A)□-6TC VSP-D40-40R(A)□-6TC VSP-D40-50R(A)□-6TC VSP-D50-20R(A)□-6TC VSP-D50-30R(A)□-6TC VSP-D50-40R(A)□-6TC VSP-D50-50R(A)□-6TC VSP-D10-20S-6C VSP-D10-30S-6C VSP-D10-40S-6C VSP-D10-50S-6C VSP-D15-20S-6C VSP-D15-30S-6C VSP-D15-40S-6C VSP-D15-50S-6C VSP-D20-20S-6C VSP-D20-30S-6C VSP-D20-40S-6C VSP-D20-50S-6C VSP-D25-20S-6C VSP-D25-30S-6C VSP-D25-40S-6C VSP-D25-50S-6C VSP-D30-20S-6C VSP-D30-30S-6C VSP-D30-40S-6C VSP-D30-50S-6C VSP-D35-20S-6C VSP-D35-30S-6C VSP-D35-40S-6C VSP-D35-50S-6C VSP-D50-20S-6C VSP-D50-30S-6C VSP-D50-40S-6C VSP-D50-50S-6C VSP-D10-20S-6TC VSP-D10-30S-6TC VSP-D10-40S-6TC VSP-D10-50S-6TC VSP-D15-20S-6TC VSP-D15-30S-6TC VSP-D15-40S-6TC VSP-D15-50S-6TC VSP-D20-20S-6TC VSP-D20-30S-6TC VSP-D20-40S-6TC VSP-D20-50S-6TC VSP-D25-20S-6TC VSP-D25-30S-6TC VSP-D25-40S-6TC VSP-D25-50S-6TC VSP-D30-20S-6TC VSP-D30-30S-6TC VSP-D30-40S-6TC VSP-D30-50S-6TC VSP-D35-20S-6TC VSP-D35-30S-6TC VSP-D35-40S-6TC VSP-D35-50S-6TC VSP-D50-20S-6TC VSP-D50-30S-6TC VSP-D50-40S-6TC VSP-D50-50S-6TC VSP-D20-20B□-6C VSP-D20-30B□-6C VSP-D20-40B□-6C VSP-D20-50B□-6C VSP-D30-20B□-6C VSP-D30-30B□-6C VSP-D30-40B□-6C VSP-D30-50B□-6C VSP-D40-20B□-6C VSP-D40-30B□-6C VSP-D40-40B□-6C VSP-D40-50B□-6C VSP-D50-20B□-6C VSP-D50-30B□-6C VSP-D50-40B□-6C VSP-D50-50B□-6C VSP-D20-20B□-6TC VSP-D20-30B□-6TC VSP-D20-40B□-6TC VSP-D20-50B□-6TC VSP-D30-20B□-6TC VSP-D30-30B□-6TC VSP-D30-40B□-6TC VSP-D30-50B□-6TC VSP-D40-20B□-6TC VSP-D40-30B□-6TC VSP-D40-40B□-6TC VSP-D40-50B□-6TC VSP-D50-20B□-6TC VSP-D50-30B□-6TC VSP-D50-40B□-6TC VSP-D50-50B□-6TC Quick-fitting joint type Barb joint type Skidproof type Model VSP-D20-20KNH-6C VSP-D20-30KNH-6C VSP-D20-40KNH-6C VSP-D20-50KNH-6C VSP-D30-20KNH-6C VSP-D30-30KNH-6C VSP-D30-40KNH-6C VSP-D30-50KNH-6C VSP-D40-20KNH-6C VSP-D40-30KNH-6C VSP-D40-40KNH-6C VSP-D40-50KNH-6C VSP-D50-20KNH-6C VSP-D50-30KNH-6C VSP-D50-40KNH-6C VSP-D50-50KNH-6C 66 VSP-D20-20KNH-6TC VSP-D20-30KNH-6TC VSP-D20-40KNH-6TC VSP-D20-50KNH-6TC VSP-D30-20KNH-6TC VSP-D30-30KNH-6TC VSP-D30-40KNH-6TC VSP-D30-50KNH-6TC VSP-D40-20KNH-6TC VSP-D40-30KNH-6TC VSP-D40-40KNH-6TC VSP-D40-50KNH-6TC VSP-D50-20KNH-6TC VSP-D50-30KNH-6TC VSP-D50-40KNH-6TC VSP-D50-50KNH-6TC VSP-D4×10-20E□-6C VSP-D4×10-30E□-6C VSP-D4×10-40E□-6C VSP-D4×10-50E□-6C VSP-D4×20-20E□-6C VSP-D4×20-30E□-6C VSP-D4×20-40E□-6C VSP-D4×20-50E□-6C VSP-D4×30-20E□-6C VSP-D4×30-30E□-6C VSP-D4×30-40E□-6C VSP-D4×30-50E□-6C VSP-D5×10-20E□-6C VSP-D5×10-30E□-6C VSP-D5×10-40E□-6C VSP-D5×10-50E□-6C VSP-D5×20-20E□-6C VSP-D5×20-30E□-6C VSP-D5×20-40E□-6C VSP-D5×20-50E□-6C VSP-D5×30-20E□-6C VSP-D5×30-30E□-6C VSP-D5×30-40E□-6C VSP-D5×30-50E□-6C VSP-D6×10-20E□-6C VSP-D6×10-30E□-6C VSP-D6×10-40E□-6C VSP-D6×10-50E□-6C VSP-D6×20-20E□-6C VSP-D6×20-30E□-6C VSP-D6×20-40E□-6C VSP-D6×20-50E□-6C VSP-D6×30-20E□-6C VSP-D6×30-30E□-6C VSP-D6×30-40E□-6C VSP-D6×30-50E□-6C VSP-D8×20-20E□-6C VSP-D8×20-30E□-6C VSP-D8×20-40E□-6C VSP-D8×20-50E□-6C VSP-D8×30-20E□-6C VSP-D8×30-30E□-6C VSP-D8×30-40E□-6C VSP-D8×30-50E□-6C VSP-D4×10-20E□-6TC VSP-D4×10-30E□-6TC VSP-D4×10-40E□-6TC VSP-D4×10-50E□-6TC VSP-D4×20-20E□-6TC VSP-D4×20-30E□-6TC VSP-D4×20-40E□-6TC VSP-D4×20-50E□-6TC VSP-D4×30-20E□-6TC VSP-D4×30-30E□-6TC VSP-D4×30-40E□-6TC VSP-D4×30-50E□-6TC VSP-D5×10-20E□-6TC VSP-D5×10-30E□-6TC VSP-D5×10-40E□-6TC VSP-D5×10-50E□-6TC VSP-D5×20-20E□-6TC VSP-D5×20-30E□-6TC VSP-D5×20-40E□-6TC VSP-D5×20-50E□-6TC VSP-D5×30-20E□-6TC VSP-D5×30-30E□-6TC VSP-D5×30-40E□-6TC VSP-D5×30-50E□-6TC VSP-D6×10-20E□-6TC VSP-D6×10-30E□-6TC VSP-D6×10-40E□-6TC VSP-D6×10-50E□-6TC VSP-D6×20-20E□-6TC VSP-D6×20-30E□-6TC VSP-D6×20-40E□-6TC VSP-D6×20-50E□-6TC VSP-D6×30-20E□-6TC VSP-D6×30-30E□-6TC VSP-D6×30-40E□-6TC VSP-D6×30-50E□-6TC VSP-D8×20-20E□-6TC VSP-D8×20-30E□-6TC VSP-D8×20-40E□-6TC VSP-D8×20-50E□-6TC VSP-D8×30-20E□-6TC VSP-D8×30-30E□-6TC VSP-D8×30-40E□-6TC VSP-D8×30-50E□-6TC Vacuum Pad with Built-in Vacuum Generator Air Pincette Package: 1pc. in a bag VST-A Air Pincette VST-B Valve Air Pincette ■The Air Pincette, incorporating a Vacuum Pad and Vacuum Generator in the pen-shaped body, serves well in the assembly operation of small parts. ■VST-B with a built-in valve features low noise and energy saving by flowing air only during service. Specification Model Fluid admitted Service pressure range Rated supply pressure Final vacuum Service temperature range Air 21.3∼102psi (0.15∼0.7MPa) 71.1psi (0.5MPa) -26.8in. Hg (VTB: -25.6in. Hg)/-90kPa (VTB: -86kPa) 32∼140, (0∼60℃) Model VST-B-2R□ VST-B-4R□ VST-B-6R□ VST-B-8R□ VST-A-2R□ VST-A-4R□ VST-A-6R□ VST-A-8R□ Filter Element for VTA type Model Designation at Order Air Pincette Only VST-A 6RS ① ③ Model VST-A-E ①. Holder type VST-A: Without valve VST-B: With valve ②. Pad dia., shape, material Pad dia. Nitrile rubber Silicon rubber φ2a φ0.08in. 2RN 2RS φ4a φ0.16in. 4RN 4RS Filter Element for VTB type φ6a φ0.24in. 6RN 6RS Model Designation at Order Air Pincette Package (Example) VST-B SET ① ② Model φ8a φ0.31in. 8RN 8RS VST-B-E VST-A Air Pincette Package VST-B Valve Air Pincette Package ①. Holder type VST-A: Without valve VST-B: With valve ②. SET: Package set (entered only in case of Package set) .In case of ordering, please apply Model code in the following chart. ! Caution 1. Do not operate the push-button of the Air Pincette with valve by the machine. Such operation may damage the button. 2. The filter element can be replaced by removing the ejector (VST-A type) or the pad holder (VST-B type). Carry out periodic maintenance and checks, or clogging may lower the performance. 3. Note that the silencer element of the Air Pincette with valve can not be replaced. 4. Use a coiling tube for piping to the Air Pincette to minimize the load on the joint. Model VST-A-SET VST-B-SET Package Products packed: Air Pincette φ2 Pad Rubber (Silicon) φ4 Pad Rubber (Silicon) φ6 Pad Rubber (Silicon) φ8 Pad Rubber (Silicon) Adapter for φ2, φ4 Pad Adapter for φ6, φ8 Pad Coiling Tube (color) 67 Quick Fitting Type Vacuum Filter Vacuum Filter Package: 1pc. in a bag VSFU ■ Using the element and cyclone effect, the Vacuum Filter removes the dust and waterdrops sucked in by the Vacuum Generator. ■ The large dust case reduces the frequency of maintenance. ■ As the whole dust case can be removed in a snap, dust is not scattered. VSFU-1 type ■ This minimum volume vacuum filter is very effective for use in applications requiring high rates. ■ Two different sizes of filter elements (different filtering areas) can be selected depending upon the quantity of dust gathered and element replacement frequency. ■ Concerning the tube sizes to be used with IN- and OUT-side joint components, a new line-up of famale screws (M5×0.8), which enables space saving has been added in addition to conventional ø4mm and ø6mm size. Air -29.5in. Hg (-100kPa) 10µm 32 ~ 140°F (0 ~ 60°C) Model Designation (Example) VSFU 2 66 ① ② ③ ①. Type VSFU: Small type VSFB: Vacuum piping use ②. Filter size 1S 1L 2 3 No code Filter area 2.8f 0.43in2 4.7f 0.73in2 7.5f 1.16in2 12.5f 1.94in2 20f 3.10in2 ③. IN-side tube dia. (VSFB, type only) 66 φ6a 88 φ8a 1010 φ10a 1212 φ12a Tube dia. (VSFU type only) mm size 44 66 φ4a φ6a 3C3C φ5/32in. inch size 7C7C 9C9C 11C11C φ1/4in. φ5/16in. φ3/8in. Thread size (VSFU type only) Code Size M55 M5×0.8 .In case of ordering, please apply Model code in the following chart. 68 M M øD Model VSFU-1□-øDøD VSFU-1S-44 VSFU-1L-44 VSFU-1S-66 VSFU-1L-66 Model VSFU-1□-MM VSFU-1S-M55 VSFU-1L-M55 *Refer to the exploded view on page 70. *Refer to the exploded view on page 70. VSFU Small Union (Resin Body Type) VSFB Large Capacity Union Type øD øD øD Model VSFU-□-øDøD VSFU-2-44 VSFU-2-3C3C VSFU-2-66 VSFU-2-7C7C VSFU-3-66 VSFU-3-7C7C VSFU-3-88 VSFU-3-9C9C VSFU-3-1010 VSFU-3-11C11C Model VSFB-øDøD VSFB-66 VSFB-88 VSFB-1010 VSFB-1212 *Refer to the exploded view *Refer to the exploded view on page 70. on page 70. Code Element height Code Dia. Small-sized Socket øD Fluid admitted Service pressure range Filtering accuracy Service temperature range 44 φ4a VSFU øD Specification Code Dia. Small-sized Union ! Warning 1. Never apply positive pressure for vacuum release to the VSFB type Vacuum Filter. They are not explosion-proof and their pressure resistance is low. Damage to the filter body may cause injuries on you. 2. Conduct periodic maintenance and checks of the filter element of the Vacuum Filter. Clogging of the element may cause performance drop or trouble. For the replacement of the element, observe the instructions on dust removal and element replacement for Vacuum Generator in the manual, allow the internal pressure of the filter to become the atmospheric pressure, and then carry out the replacement after confirming safety. 3. VSFU is designed for negative pressure use. Please avoid the application which positive pressure is continuously supplied to the filter. It is not explosionproof and damage to the filter body may cause injuries on you. ! Caution 1. Make sure that the Operational environment of the Vacuum Filter meets the requirements in the "Common Safety Instructions for Vacuum". 2. Connect piping upon confirming the IN and OUT in the manual and marks on the product. Reverse connection will result in a functional failure of the filter. 3. Remove dust and replace the element. Then fix the case securely and make certain that there is no vacuum leak. 4. As our filter's transparent cover is made of PA (Polyamide), do not use these covers in environments where they will be exposed to chemicals such as those listed below: Names of Chemicals Methanol Ethanol Nitric acid Suphuric acid Hydrochloric acid Lactic acid Acetone Choloroform Aniline Trichloroethylene Hydrogen peroxide ※. The above list of chemicals is for purposes of example. Please be aware that there are other chemicals to which the filters should not be exposed. Example of Piping Installed between the Vacuum Pad and the Vacuum Generator, the filter removes dust and dirt having entered from the pad and thus prevents troubles of the Vacuum Generator. Vacuum Generator Filter (VSFB, etc) Vacuum Pad Compressed air 69 Vacuum Filter ; ; ;; ;; Spare Element for Vacuum Filter (Package: 10pcs. in a bag) VSFU-1 VSFU-2,3 Filter Element Vacuum Filter Model VSFU-1S-44 VSFU-1S-66 VSFU-1S-M55 VSFU-1L-44 VSFU-1L-66 VSFU-1L-M55 Filter Element Model VSFU-1S-E VSFU-1L-E Holder alone Vacuum Filter Model VSFU-1□-44 VSFU-1□-66 VSFU-1□-M55 Holder Model VSFU-1-B VSFB Filter Element Vacuum Filter Model VSFB-□□ 70 Filter Element Model VSFB-E ; Holder alone Vacuum Filter Model VSFU-2-44 VSFU-2-66 VSFU-3-66 VSFU-3-88 VSFU-3-1010 Holder Model VSFU-2-B VSFU-3-B Filter Element Vacuum Filter Model VSFU-2-44 VSFU-2-66 VSFU-3-66 VSFU-3-88 VSFU-3-1010 Filter Element Model VSFU-2-E VSFU-3-E Vacuum Release Control Valve equipped with release air flow & relief pressure adjusting needle Vacuum Release Unit Package: 1pc. in a bag Model Designation (Example) ■This is a vacuum release mechanism-equipped vacuum release unit designed for a comprehensive vacuum Ejector. ■This unit adjusts the vacuum release air retaining vacuum generators' vacuum characteristics as they are. ■By newly adding pressure adjusting function to flow adjusting function, it enable to prevent works from being blown away. ■A relief mechanism built into the circuit which breaks the vacuum (extra pressure is relieved) realizes shorter vacuum release time. ■Also, by attaching the unit to the end of vacuum release circuits, it is possible to reduce release time. ■Tubes can be taken out freely in any direction by rotating resin body and joint parts. Vacuum Ejector VSLF 6 6 ① ② ①. Type VSLF: Vacuum Release Unit ②. Vacuum Ejector port size (VR) ■Tube dia. Code Dia. 4 φ4a 6 φ6a ③. Work piece's port size (W) ■Tube dia. Code Dia. 4 φ4a 6 φ6a ■Thread size Code Size 6A R1/8 Note). Installation brackets are prepared as an accessory for the type of equipment having on the vacuum generator port and the port side of work pieces. Vacuum Pad Vacuum air Vacuum air .In case of ordering, please apply Model code in the following chart. Construction ② Vacuum release air Release pressure adjusting needle Vacuum release air (Control flow) ③ Vacuum Ejector port (VR) ④ ① ⑤ Release flow adjusting needle ⑥ ⑩ ⑨ Specifications Fluid admitted Service pressure range Relief valve activation pressure setting range Working vacuum Service temperature range ③ Air 0∼102psi (0∼0.7MPa) -2.2∼2.2psi (-0.015∼0.015MPa) 0∼-29.5in. Hg (0∼-101kPa) 32∼140,/0∼60℃ (no freezing) ⑧ ⑦ Work piece's port (W) No ① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨ ⑩ Parts Lock nut Tube Release ring Resin body Metallic body Release flow adjusting needle Screw thread body Check packing Valve body Relief (Release) pressure adjusting needle Material aluminium urethane or nylon POM PBT nickel-plated brass nickel-plated brass nickel-plated brass NBR aluminium nickel-plated brass ! Warning 1. With this vacuum release unit, the air flow is discharged in a specified direction. Read the instructions concerning the proper direction of air flow as given both in this manual and on the unit. Using the unit when air flow is misdirected may cause physical injuries and damage the unit. 2. Do not use this unit in fluid other than air flows. Consult us for applications in fluids other than air flows. 3. Do not subject this unit to unusual loads, such as tensile stress, torsion and bending. Do not drop the unit or allow it to sustain excessive impacts in order to avoid breaking/damage to the unit. 4. To tighten lock nuts, do not use tools. Tighten them manually. Tightening lock nuts with tools may possibly lead to broken lock nuts. When lock nuts are not tightened properly, they will loosen and skew default values. 5. Do not forcefully swing or rotate resin rotation parts. These forced movements may possibly cause breakage and/or leaks to the unit proper. 6. Where there is danger of absorbed pieces falling off, take safety measures to prevent them from falling. 7. Do not use this unit in an environment containing corrosive, flammable or explosive gasses, chemicals, sea water and vapor. Do not use the unit in an absorption site. Never let the unit absorb work pieces. 8. Do not apply this vacuum release unit for the application in which internal pressure between vacuum generator and the unit becomes more than 0.2MPa (29psi). It causes breaking/damaging of vacuum generators. ! Caution 1. Read this literature carefully in order to learn how to properly regulate vacuum release air flow rates and vacuum release air relief pressure. 2. Care should be taken when the unit is subjected to significant piping resistance or when required flow rates are high. Insufficient release flow rates may possibly cause troubles. Read specifications carefully before use to avoid such troubles. 3. Vacuum filters should always be installed on the port of work pieces (only those filters that can be applied with positive pressure should be used). When vacuum filters are not installed, care should be taken so as not to allow the absorption of dust, salt, iron filings and such matter. The inside of these filters should be cleaned regularly. 71 Vacuum Release Unit Input direction ■Vacuum release air ■Vacuum air Vacuum ejector port Vacuum ejector port Relief hole Relief hole Control flow Work piece's port Work piece's port In respect to flow rates, vacuum release air is controlled at the port on the vacuum ejector side and is ejected via the port on the side of pieces and relief holes. VSLF Vacuum generator port: Quick fitting joint Work piece's port: Quick fitting joint VSLF Vacuum generator port: Quick fitting joint Work piece's port: Taper pipe thread type W VR VR W Model VSLF-44 VSLF-66 72 Model VSLF-46A VSLF-66A In respect to flow rates, vacuum air is not controlled at the port on the side of work pieces and is ejected via the port on the vacuum ejector side. Pneumatic Vacuum Switch LED Digital Pressure Sensor Package: 1pc. in a bag Model Designation (Example) ■ To enhance visibility, an LED display is used for the vacuum switch. ■ LED displays are used for set-up pressure and impression pressure. ■ Two types of vacuum switch equipped with two-point output and analog output are provided. The application determining which should be used. In respect to wiring, a connector system has been chosen for ease of layout. ■ Three pipe connection methods are offered: one-touch, M5 metric female screw, and direct connection. The application will determine which method is the most appropriate. ■ Output detection accuracy is enhanced by the use of electronic switches. VSUS Specifications Specification Equipped with 2-point output switch (-W) Equipped with analog output switch (-A) -14.8in. Hg/-50kPa (SW1) Set value at shipment -14.8in. Hg/-50kPa -3.0in. Hg/-10kPa (SW2) Current consumption 40mA max. Pressure detection Diffused semiconduction pressure switch Service pressure range 0∼-29.5in. Hg (0∼-100kPa) Pressure setting range 0∼-29.3in. Hg (0∼-99kPa) Proof pressure 29psi (0.2MPa) Storage temperature range -4∼176,/-20∼80℃ (atomospheric pressure, humidity less than 60%RH) Operating temperature range 32∼122,/0∼50℃ (no freezing) Operating hummidity range 35∼85%RH (no freezing) Power requirements DC12∼24V±10% Ripple (P-P)10% max. Protective structure IEC standard IP40 equiv. No. of pressure setting 2 1 Operating accuracy ±3%F.S. max. (at Ta=77,/25℃) Differential response Fixed (2%F.S. max.) Variable (about 0∼15% of set value) Switch output Open collector output: 30V 80mA max. Residual valtage 0.8V max. Output voltage: 1∼5V Zero-point voltage: 1±0.1V Analog output Span voltage: 4±0.1V Output current:1mA max. (load resistance 5kΩ max.) LIN/HYS:±0.5%F.S. max. Response 1msec max. Indication 0∼-29.5in. Hg/0∼-99kPa (2-digit red LED display) No. of indications About 4 times/sec Indication accuracy ±3%F.S. ±2digit Resolution 1digit SW1: Red LED lighting up when pressure is above setting. Operational indication Red LED lighting up when pressure is above setting. SW2: Green LED lighting up when pressure is above setting. 1.MODE selector switch (ME or S1 or S2) 1.MODE selector switch (ME or SW) Function 2.S1 setting trimmer (2/3-turn trimmer) 2.SW setting trimmer (2/3-turn trimmer) 3.S2 setting trimmer (2/3-turn trimmer) 3.HYS setting trimmer (about 0∼15% of set value) ① N W 6 ① ③ ② ①. Switch output N: NPN opencollector output P: PNP opencollector output ②. Vacuum switches W: With 2-point output switch A: With analog output switch ③. Connecting method Code Size Metric thread (a) Quick-fitting joint Fixed type M5 4 6 8 F M5×0.8 φ4a φ6a φ8a − ! Warning 1. The cable can be connected to or disconnected from the connector. But avoid connection and disconnection unless it is absolutely necessary, for it will put burdens on the cable or the board. ! Caution 1. Although performance will not be affected even when pressure of around 0.5MPa (72.5psi) is applied, avoid continued application of pressure greater than 0.2MPa (29psi) during vacuum breaking. Prolonged application of such pressure may possibly cause damage to the sensors. 2. To set pressure and differential response, turn trimmer slightly with a screw driver within the prescribed range of rotation. Trying to adjust trimmer rotation by applying excessive force may possibly damage to the trimmer and base board. 3. As for power, use a stable direct current. 4. Insert a surge voltage absorption circuit in relays connected to output terminals and power source terminals (relays, electromagnetic valves, etc.). Do not use an electric current exceeding 80mA. 5. Ground the FG terminal when unit power souces, such as a switching power source unit, are used. 6. Do not short-circuit output terminals (black with a gray lead wire) and other terminals. 7. Avoid strong impacts and excessive force to the sensor body. 8. To install the sensor, use the specially prepared M2.5 screw. Tighten it to the recommended torque. 9. Fluid used must be kept in a pristine state. Tube Fitting Type Direct Mounting Type VSUS Negative Pressure Type VSUS Negative Pressure Type Model Model VSUS-□□-4 VSUS-□□-6 VSUS-□□-8 VSUS-□□-F Internal Thread Type VSUS Negative Pressure Type Model VSUS-□□-M5 73 Related components QUICK EXHAUST VALVE ■2QV/3QV Series ● Straight flow path provides large effective sectional area. ● Flame resistant resin is used as standard. (UL94 Standard V-O or equivalent) ● Manifold available with optional bracket. ● 2 and 3 port valves available. (CB-024SA Pneumatic, vacuum and auxiliary components) VACUUM FILTER ■VFA1000, VFA3000, VFA4000 Series ● Pressure loss of filter isn't increased after using long time. ● More than 80% moisture removal by centrifugal separation effect of louvers. ● Washable element. (CB-024SA Pneumatic, vacuum and auxiliary components) VACUUM REGULATOR ■VRA2000 Series ● Compact size, □50 X 90mm. ● Large flow rate, 180L/min. ● High repeat pressure accuracy ±4kPa. (CB-024SA Pneumatic, vacuum and auxiliary components) ELECTRO PNEUMATIC REGULATOR (SOLENOID VALVE TYPE FOR VACUUM) ■EV2100V Series By using feedback control depending on semiconductor pressure sensor and electronic control circuit power supply, this item can control vacuum variably and accurately with electric signal. (CB-024SA Pneumatic, vacuum and auxiliary components) 74 Related components PRECISION SUCTION PLATE ■PVP Series This vacuum suction plate has porous fluorine resin at the work piece contact. The suction surface is machined highly accurately, so the work piece is held highly accurately with strong suction. ● Precise The flatness with the suction surface is 2° m. The parallelism with the installation surface is 5° m. ● Soft The hardness of the suction surface is Shore D60. ● Sure The porosity is as high as 40%, generating a large suction power. ● Light The apparent specific gravity of the porous part is 1.3. The specific gravity of the base (Al) is 2.7. (CB-024SA Pneumatic, vacuum and auxiliary components) TENSION CONTROLLING BUFFER ■FBU2 Series By using CKD original electromagnetic spring for buffer, load is always certain. This is damageless buffer which never break workplace. FIBER TUBE PUSH-IN JOINT ■UP Series O.D. is only ø1.8. The stress after piping can be drastically reduced. SMALL SIZE VACUUM SUCTION CYLINDER ■MVC Series ● Section of work piece sucking and vacuum passages are incorporated into guide rod as standard. ● Guide rod for non-rotating is equipped as standard. ● Rod end socket type sucking pad (2 to 10 mm dia.) is available. ● Square shaped body enables direct mount from 2 directions. ● Miniature cylinder switches are integrated into main body slots. 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