Lowara MiniBox Single Box Double Box Plus Technical Data
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50 Hz MINIBOX, MIDIBOX, SINGLEBOX PLUS, DOUBLEBOX PLUS MAXIBOX PLUS Series PREFABRICATED LIFTING STATIONS FOR WASTEWATER IN COMPLIANCE WITH EUROPEAN LEGISLATION Cod. 191004481 R ev .B Ed.07/2012 Rev ev.B MINIBO X, MIDIBO X MINIBOX, MIDIBOX SINGLEBO X PL US, DOUBLEBO X PL US, MAXIBO X PL US SERIES SINGLEBOX PLUS, DOUBLEBOX PLUS, MAXIBOX PLUS HYDRA ULIC PERFORMANCE RANGE A T 50 Hz HYDRAULIC AT 0 100 0 200 100 Q 400 [Imp gpm] 300 200 300 400 Q [US gpm] TWO PUMPS RUNNING FUNZIONAMENTO 2 POMPE 30 25 MINIBOX MIDIBOX 100 H [ft] FUNZIONAMENTO POMPA SINGLE PUMP 1RUNNING 80 SINGLEBOX PLUS DOUBLEBOX PLUS 20 60 MAXIBOX PLUS 15 40 10 SINGLEBOX PLUS DOUBLEBOX PLUS 5 20 DOUBLEBOX PLUS 0 0 0 20 40 60 500 1000 2 0 3 Q [m /h] 100 80 1500 Q [l/min] 04540_D_CH H [m] 35 CONTENTS 5 Minibox Series Specifications ................................................................................................................ 9 Midibox Series Specifications ................................................................................................................ 13 Singlebox Plus Series Specifications ................................................................................................. 19 Doublebox Plus Series Specifications ............................................................................................... 27 Maxibox Plus Series Specifications ................................................................................................... 37 Technical Appendix ......................................................................................................................... 3 4 Prefabricated lifting stations for clean water MARKET SECTORS DOMESTIC. APPLICA TIONS APPLICATIONS • Suitable for delivering clean water to main sewer lines located at a higher level, or where gravity drainage is not possible. MINIBO X MINIBOX Series SPECIFICA TIONS SPECIFICATIONS • The station is equipped with: - DOC submersible pump pump, with flow rate up to 230 l/min and head up to 11 m. Passes suspended solids up to 10 mm diameter. Equipped with float switch for automatic operation. - 85 litres high density polyethylene tank tank. - 1 1/4” flexible pipe equipped with a check valve; left or righthand connection. - Power cord outlet. - Three types of 40 mm diameter pipe inlets. - Screens Screens. - Basin to be filled with sand or gravel to filter solid particles. The Minibox station can be equipped with a DOC3 (0,25 kW rating) or a DOC7 (0,55 kW rating). • Installation is quick and easy easy: just connect the pipes and plug it in. • Minibox can be installed on the floor or buried in a suitable structure (to withstand vehicle or foot traffic). • ACCES SORIES ACCESSORIES • An optional watertight lid (substituting the screens) can be installed for indoor use. IDENTIFICA TION CODE IDENTIFICATION MINIBOX DOC 3 ELECTRIC PUMP TYPE: DOC 3 DOC 7 SERIES NAME EXAMPLE : MINIBOX DOC 3 Lifting station MINIBOX series with DOC 3 submersible electric pump. 5 MINIBO X SERIES MINIBOX OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT po HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE RATED PUMP TYPE Q = DELIVERY POWER DOC3 DOC7 z l/min 0 25 50 75 100 125 135 175 225 3 m /h 0 1,5 3 4,5 6 7,5 8,1 10,5 13,5 6,9 11,1 6,3 10,8 6,5 3,7 H = TOTAL HEAD METRES COLUMN OF WATER kW HP 0,25 0,55 0,33 0,75 5,6 10,4 4,7 9,9 3,7 9,3 2,5 8,5 2,0 8,1 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. po ELECTRICAL DA TA T ABLE DAT TABLE PUMP TYPE ABSORBED ABSORBED POWER* CURRENT* SINGLE-PHASE DOC 3 DOC 7 CAPACITOR z PUMP TYPE 220-240 V ABSORBED ABSORBED ABSORBED POWER* CURRENT* CURRENT* 220-240 V 380-415 V kW A A - - - THREE-PHASE kW A µF / 450 V 0,31 0,78 1,43 3,47 6,3 16 - *Maximum values within operating range. mbox_doc-2p50-en_b_th mbox_doc-2p50-en_a_te 6 MINIBO X SERIES MINIBOX DIMENSIONS AND WEIGHTS DIMENSIONI E PESI SERIE MINIBOX MODEL WEIGHT kg MINIBOX (with pipes) MINIBOX DOC3 MINIBOX DOC7 13 18 20 minibox-en_a_td 7 8 Prefabricated lifting station for clean and grey water in compliance with EN 12050-2 standard MIDIBO X MIDIBOX Series MARKET SECTORS DOMESTIC. APPLICA TIONS APPLICATIONS • Suitable for delivering clean and grey water to main sewer lines located at a higher level, or where gravity drainage is not possible. SPECIFICA TIONS SPECIFICATIONS • Midibox can be installed on the The station is equipped with: floor or buried in a suitable structure - Polyethylene basin with a capacity following instructions in the of 110 litres, equipped with a “Instructions and Operative Manual”. threaded cover. Easy installation • installation: - Cable glands for power supply - installation is quick and easy: cables (and floats). for the single-phase versions you - Rp 1 1/4 or Rp 1 1/2 delivery pipes just connect the pipes and the with fast connection and ring nut for electrical cables; for the three-phase easy disassembly of the pump. versions you also need to connect - 3 fast connections connections: the control panel. 1 x DN110 for inlet, - The new Midibox is provided with 1 x DN50 for ventilation and side handles for ease of handling. 1 x DN65 for cable connection. Pre-installed delivery pump and - 1 x DN50 fast connection for unions. the manual pump. • Ecological solution solution: - DOC or DOMO 7 submersible tank made from 100% recyclable pump pump, vortex or channel impeller polyethylene. type. • Easy maintenance and repair repair. - QDR control panel for Tried and tested pump technology. three-phase versions. - Pump quick and easy to remove • Versions with vortex impeller thanks to the ring nut located near suitable for: the cover. - clean water, effluent, sewage containing suspended solids and fibres SORIES ACCESSORIES ACCES but non-faecal wastewater. • Available accessories: • Versions with single or twin - Ball check valves. channel impeller suitable for: - Alarm kit. - clean water, effluent, sewage not - Connector kit. containing suspended fibres and - Manual pump. faecal wastewater. • IDENTIFICA TION CODE IDENTIFICATION MIDIBOX DOMO 7VX ELECTRIC PUMP TYPE: DOC... DOMO 7... SERIES NAME EXAMPLE : MIDIBOX DOMO 7VX Lifting station MIDIBOX series with DOMO 7VX submersible electric pump. 9 MIDIBO X SERIES MIDIBOX OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT TABELLA DI PRESTAZIONI IDRAULICHE SERIE DOC-DOMO 2 poli 50 Hz (MIDIBOX) HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE RATED PUMP TYPE Q = DELIVERY POWER DOC 3 DOC 7(T) DOC 7VX(T) DOMO 7(T) DOMO 7VX(T) kW HP 0,25 0,55 0,55 0,55 0,55 0,33 0,75 0,75 0,75 0,75 l/min 0 30 60 90 135 175 225 260 320 m3/h 0 1,8 3,6 5,4 8,1 10,5 13,5 15,6 19,2 6,9 11,1 7,2 10,7 9,1 6,2 10,7 6,8 9,6 8,4 3,8 2,0 2,1 H = TOTAL HEAD METRES COLUMN OF WATER 5,3 10,2 6,3 8,6 7,7 4,1 9,5 5,7 7,8 6,8 2,0 8,1 4,5 6,7 5,6 6,5 3,1 5,8 4,4 3,7 4,7 3,0 DATI ELETTRICI SERIE DOC 2 poli 50 Hz (MIDIBOX) These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. midibox-2p50-en_a_th ELECTRICAL DA TA T ABLE DAT TABLE PUMP TYPE ABSORBED ABSORBED POWER* CURRENT* SINGLE-PHASE DOC 3 DOC 7 DOC 7VX DOMO 7 DOMO 7VX CAPACITOR PUMP TYPE 220-240 V ABSORBED ABSORBED ABSORBED POWER* CURRENT* CURRENT* 220-240 V 380-415 V kW A A 0,79 0,66 0,73 0,71 2,82 2,68 2,58 2,56 1,63 1,55 1,49 1,48 THREE-PHASE kW A µF / 450 V 0,31 0,78 0,66 0,8 0,79 1,43 3,47 2,96 3,94 3,91 6,3 16 16 16 16 DOC 7T DOC 7VXT DOMO 7T DOMO 7VXT *Maximum values within operating range midibox-2p50-en_a_te 10 MIDIBO X SERIES MIDIBOX 1 Lifting station. 2 Inlet pipe. 3 Outlet pipes with non-return valve. 4 Emergency drain system with hand-operated pump. 5 Vent. DIMENSIONS AND WEIGHTS DIMENSIONI E PESI SERIE MIDIBOX MODEL MIDIBOX DOC3 MIDIBOX DOC7(T) MIDIBOX DOC7VX(T) MIDIBOX DOMO7(T) MIDIBOX DOMO7VX(T) DIMENSIONS (mm) WEIGHT A kg Rp 1 1/4 Rp 1 1/4 Rp 1 1/4 Rp 1 1/2 Rp 1 1/2 13 16 16 20 20 midibox-en_b_td 11 MIDIBO X SERIES MIDIBOX APPLICA TION EXAMPLES APPLICATION 12 MARKET SECTORS Prefabricated DOMESTIC. lifting station TIONS APPLICATIONS for wastewater APPLICA • Suitable for delivering gray water and wastewater to main in compliance sewer lines located at a higher level, or where gravity with drainage is not possible. EN 12050-1&2 SPECIFICA TIONS SPECIFICATIONS • The standard station is equipped with: • Singlebox plus can be installed standard SINGLEBO X SINGLEBOX PL US PLUS Series - polyethylene basin with a capacity of 270 litres, equipped with a threaded pedestrian cover (100 kg max). - Cable glands for power supply cables (and floats). - Rp 1 1/2 or Rp 2 delivery pipes with fast connection and ring nut for easy disassembly of the pump or with sliding device. - 4 fast connections connections: 2 x DN110 for inlet, 1 x DN50 for ventilation and 1 x DN65 for cable connection. - 1 x DN50 fast connection for the manual pump. - DOMO or DL submersible pump pump, vortex , channel impeller type or with grinder device. - QDR control panel for three-phase versions. - 3 rubber seal seal: 1 x DN110, 1 x DN50 and 1 x DN65 mm. • Versions with vortex impeller or with grinder device suitable for: - clean water, effluent, sewage containing suspended solids and fibres. • Versions with single or twin channel impeller suitable for: - clean water, effluent, sewage containing suspended solids but not containing fibres. • Special versions equipped with delivery pipes, ball check valve and gate valve. • Special versions equipped with sliding device and non-return ball valve. on the floor or buried in a suitable structure following instructions in the “Instructions and Operative Manual”. installation: • Easy installation - installation is quick and easy: for the single-phase versions you just connect the pipes and the electrical cables; for the three-phase versions you also need to connect the control panel. - The new Singlebox plus is provided with side handles for ease of handling. - Pre-installed delivery pump and unions. • Ecological solution solution: - tank made from 100% recyclable polyethylene. - Airtight anti-pollution tank, pursuant to European standard EN 12050. • Easy maintenance and repair repair. - Tried and tested pump technology. - Pump quick and easy to remove thanks to the ring nut located near the cover. ACCES SORIES ACCESSORIES • Available accessories: - Ball check valves. - Alarm kit. - Manual pump + seal. - Seals kit. IDENTIFICA TION CODE IDENTIFICATION SINGLEBOX PLUS DOMO 10VX SL/BV ELECTRIC PUMP TYPE: DOMO... DOMO GRI... DL... MINI VORTEX... SERIES NAME FP = PVC Fixed piping FP/BG = PVC Fixed piping with non-return valve SL = Sliding device SL/BV = Sliding device with non-return valve EXAMPLE : SINGLEBOX PLUS DOMO 10VX SL/BV Lifting station SINGLEBOX PLUS series with DOMO 10VX submersible electric pump with sliding device and non-return valve. 13 SINGLEBO X PL US SERIES SINGLEBOX PLUS CHART FEATURED COMPONENTS Notes Standard with ring nut Ring nut, non-return valve and gate valve Standard With non-return valve 0,75 320 10,7 TWIN CHANNEL X X X 0,55 0,75 260 9,1 VORTEX X X X 0,75 1 500 10,1 TWIN CHANNEL X X X 0,75 1 400 7,7 VORTEX X X X 1,1 1,5 600 12,7 TWIN CHANNEL X X X 1,1 1,5 450 9,1 VORTEX X X X 1,1 1,5 110 25 GRINDER X X X 0,55 0,75 320 10,7 TWIN CHANNEL X X X X 0,55 0,75 260 9,1 VORTEX X X X X 0,75 1 500 10,1 TWIN CHANNEL X X X X 0,75 1 400 7,7 VORTEX X X X X 1,1 1,5 600 12,7 TWIN CHANNEL X X X X 1,1 1,5 450 9,1 VORTEX X X X X 1,5 2 670 14,8 TWIN CHANNEL X X X X 1,5 2 550 11 VORTEX X X X X 1,1 1,5 110 25 GRINDER X X X X 0,75 1 500 10,1 TWIN CHANNEL X X X 0,75 1 400 7,7 VORTEX X X X 1,1 1,5 600 12,7 TWIN CHANNEL X X X 1,1 1,5 450 9,1 VORTEX X X X 1,1 1,5 110 25 GRINDER X X X 0,75 1 500 10,1 TWIN CHANNEL X X X X 0,75 1 400 7,7 VORTEX X X X X 1,1 1,5 600 12,7 TWIN CHANNEL X X X X 1,1 1,5 450 9,1 VORTEX X X X X 1,5 2 670 14,8 TWIN CHANNEL X X X X 1,5 2 550 11 VORTEX X X X X 1,1 1,5 110 25 GRINDER X X X X 0,6 0,8 350 7,6 SINGLE CHANNEL X X X 0,6 0,8 450 9,7 MONOCANALE X X X 0,6 0,8 300 7,2 VORTEX X X X 1,1 1,5 600 18,3 SINGLE CHANNEL X X X 1,1 1,5 500 10,6 VORTEX X X X 0,6 0,8 350 7,6 SINGLE CHANNEL X X X X 0,6 0,8 450 9,7 SINGLE CHANNEL X X X X 0,6 0,8 300 7,2 VORTEX X X X X 1,1 1,5 500 14,1 SINGLE CHANNEL X X X X 1,1 1,5 600 18,3 SINGLE CHANNEL X X X X 1,1 1,5 500 10,6 VORTEX X X X X 1,1 1,5 500 8,4 VORTEX X X X X 1,5 2 700 21,9 SINGLE CHANNEL X X X X 1,5 2 600 13,1 VORTEX X X X X Float (10 m cable) Impeller type 0,55 Float pre-assembled on pump HP QDR control panel kW H max (m) SINGLE_PHASE THREE-PHASE SINGLE_PHASE THREE-PHASE SINGLE_PHASE THREE-PHASE LOWERING DEVICE SINGLEBOX PLUS DOMO 7 SINGLEBOX PLUS DOMO 7VX SINGLEBOX PLUS DOMO 10 SINGLEBOX PLUS DOMO 10VX SINGLEBOX PLUS DOMO 15 SINGLEBOX PLUS DOMO 15VX SINGLEBOX PLUS DOMO GRI 11 SINGLEBOX PLUS DOMO 7T SINGLEBOX PLUS DOMO 7VXT SINGLEBOX PLUS DOMO 10T SINGLEBOX PLUS DOMO 10VXT SINGLEBOX PLUS DOMO 15T SINGLEBOX PLUS DOMO 15VXT SINGLEBOX PLUS DOMO 20T SINGLEBOX PLUS DOMO 20VXT SINGLEBOX PLUS DOMO GRI 11T SINGLEBOX PLUS DOMO 10 SINGLEBOX PLUS DOMO 10VX SINGLEBOX PLUS DOMO 15 SINGLEBOX PLUS DOMO 15VX SINGLEBOX PLUS DOMO GRI 11 SINGLEBOX PLUS DOMO 10T SINGLEBOX PLUS DOMO 10VXT SINGLEBOX PLUS DOMO 15T SINGLEBOX PLUS DOMO 15VXT SINGLEBOX PLUS DOMO 20T SINGLEBOX PLUS DOMO 20VXT SINGLEBOX PLUS DOMO GRI 11T SINGLEBOX PLUS DLFM 80 SINGLEBOX PLUS DLFM 90 SINGLEBOX PLUS MINI VORTEX M SINGLEBOX PLUS DLM 109 SINGLEBOX PLUS DLVM 100 SINGLEBOX PLUS DLF 80 SINGLEBOX PLUS DLF 90 SINGLEBOX PLUS MINI VORTEX SINGLEBOX PLUS DLF 105 SINGLEBOX PLUS DL 109 SINGLEBOX PLUS DLV 100 SINGLEBOX PLUS DLF VORTEX SINGLEBOX PLUS DL 125 SINGLEBOX PLUS DLV 115 FIXED PVC PIPE FITTINGS SINGLEBOX PLUS VERSIONS Q max (l/min) CHARACTERISTICS sboxplus_modelli-en_a_sc Single-phase pumps come with start capacitor, overload protection and float switch. Versions with control panel and accessories are available on request. 14 SINGLEBO X PL US WITH DOMO -DOMO VX ELECTRIC PUMPS SINGLEBOX PLUS DOMO-DOMO OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT TWIN-CHANNEL IMPELLER VORTEX IMPELLER TABELLA DI PRESTAZIONI IDRAULICHE SINGLEBOX DOMO-DOMOVX 2 poli 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE DOMO PUMP TYPE RATED POWER DOMO 7(T) DOMO 10(T) DOMO 15(T) DOMO 20T kW HP 0,55 0,75 1,1 1,5 0,75 1 1,5 2 DOMO VX PUMP TYPE RATED POWER DOMO 7VX(T) DOMO 10VX(T) DOMO 15VX(T) DOMO 20VXT kW HP 0,55 0,75 1,1 1,5 0,75 1 1,5 2 l/min m3/h 0 0 50 3 10,7 8,9 10,1 9,2 12,7 11,8 14,8 14,0 l/min m3/h 0 0 100 6 500 30 600 36 670 40,2 4,7 6,6 8,7 3,2 5,2 7,1 3,6 5,4 4,2 Q = DELIVERY 150 175 200 225 260 300 9 10,5 12 13,5 15,6 18 H = TOTAL HEAD METRES COLUMN OF WATER 400 24 450 27 550 33 3,1 4,8 7,0 3,7 6,1 3,8 7,5 8,5 11,0 13,2 80 4,8 9,1 7,1 7,7 7,3 9,1 8,8 11,0 10,6 Q = DELIVERY 150 200 250 300 320 400 9 12 15 18 19,2 24 H = TOTAL HEAD METRES COLUMN OF WATER 100 6 6,6 7,1 8,6 10,5 6,3 7,8 10,2 12,4 5,1 6,7 8,3 10,2 5,2 7,2 9,5 11,7 4,4 6,5 8,0 9,9 4,1 6,6 8,8 10,9 3,7 6,2 7,8 9,7 2,7 6,0 8,0 10,2 3,0 5,9 7,5 9,5 2,1 5,8 7,8 9,9 2,0 5,4 7,1 9,1 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. DATI ELETTRICI SINGLEBOX DOMO-DOMOVX 2poli 50 Hz TA T ABLE DAT TABLE ELECTRICAL DA PUMP TYPE ABSORBED POWER* CAPACITOR kW ABSORBED CURRENT* 220-240 V A 0,8 1,14 1,58 0,79 1,15 1,36 - 3,94 5,84 7,02 3,91 5,88 6,11 - 16 22 30 16 22 30 - SINGLE-PHASE DOMO 7 DOMO 10 DOMO 15 DOMO 7VX DOMO 10VX DOMO 15VX - PUMP TYPE ABSORBED POWER* DOMO 7T DOMO 10T DOMO 15T DOMO 20T DOMO 7VXT DOMO 10VXT DOMO 15VXT DOMO 20VXT *Maximum values within operating range. sbox_domo-domovx-2p50-en_a_th kW ABSORBED CURRENT* 220-240 V A ABSORBED CURRENT* 380-415 V A 0,73 1,09 1,49 1,96 0,71 1,1 1,26 1,74 2,58 4,09 4,73 6,6 2,56 4,09 4,31 6,22 1,49 2,36 2,73 3,81 1,48 2,36 2,49 3,59 THREE-PHASE µF / 450 V 4,8 6,5 8,6 sbox_domo-domovx-2p50-en_a_te 15 SINGLEBO X PL US WITH DOMO GRI ELECTRIC PUMPS SINGLEBOX PLUS OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT TABELLA DI PRESTAZIONI IDRAULICHE SINGLEBOX DOMOGRI 2 poli 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE DOMO GRI PUMP TYPE RATED Q = DELIVERY POWER DOMO GRI 11 DOMO GRI 11T kW HP 1,1 1,5 l/min 0 15 30 40 50 60 70 80 90 100 110 m3/h 0 0,9 1,8 2,4 3 3,6 4,2 4,8 5,4 6 6,6 13,5 11,7 9,5 H = TOTAL HEAD METRES COLUMN OF WATER 25,0 23,5 21,7 20,5 19,3 18,0 16,6 15,2 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. sbox_domo-gri-2p50-en_b_th DATI ELETTRICI SINGLEBOX DOMO-GRI 2poli 50 Hz TA T ABLE DAT TABLE ELECTRICAL DA PUMP TYPE ABSORBED ABSORBED POWER* CURRENT* SINGLE-PHASE DOMO GRI 11 CAPACITOR PUMP TYPE 220-240 V ABSORBED ABSORBED ABSORBED POWER* CURRENT* CURRENT* 220-240 V 380-415 V THREE-PHASE kW A µF / 450 V 1,5 6,84 30 DOMO GRI 11T *Maximum values within operating range. kW A A 1,39 4,55 2,63 sbox_domo-gri-2p50-en_a_te 16 SINGLEBO X PL US WITH DL-DL V ELECTRIC PUMPS SINGLEBOX PLUS DL-DLV OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT SINGLE-CHANNEL IMPELLER VORTEX IMPELLER TABELLA DI PRESTAZIONI IDRAULICHE SINGLEBOX DL-DLV 2 poli 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE RATED POWER DL PUMP TYPE DLF(M) 80 DLF(M) 90 DLF 105 DL(M) 109 DL 125 kW HP 0,6 0,6 1,1 1,1 1,5 0,8 0,8 1,5 1,5 2 RATED POWER DLV PUMP TYPE MINI VORTEX(M) DLF VORTEX DLV(M) 100 DLV 115 kW HP 0,6 1,1 1,1 1,5 0,8 1,5 1,5 2 l/min m3/h 0 0 Q = DELIVERY 200 250 300 350 400 450 12 15 18 21 24 27 H = TOTAL HEAD METRES COLUMN OF WATER 100 6 150 9 7,6 5,9 9,7 7,8 14,1 11,6 18,3 15,4 21,9 19,2 5,3 7,0 10,6 14,2 17,9 l/min 3 m /h 0 0 50 3 7,2 6,3 8,4 8,0 10,6 10,1 13,1 12,5 100 6 4,7 6,4 9,7 13,1 16,7 4,1 5,8 8,9 12,0 15,5 3,6 5,3 8,1 11,0 14,4 3,0 4,7 7,4 10,1 13,4 4,1 6,7 9,2 12,3 3,5 5,9 8,2 11,3 Q = DELIVERY 150 200 250 300 350 400 9 12 15 18 21 24 H = TOTAL HEAD METRES COLUMN OF WATER 5,5 7,6 9,6 12,0 4,8 7,2 9,1 11,5 4,0 6,8 8,6 11,0 DATI ELETTRICI SINGLEBOX DL-DLV 2poli 50 Hz 3,0 6,3 8,0 10,5 1,8 5,8 7,4 9,9 5,1 6,6 9,3 4,4 5,8 8,5 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. ABSORBED POWER* CAPACITOR kW ABSORBED CURRENT* 220-240 V A 0,79 0,89 1,55 1,05 1,64 - 3,91 4,27 6,87 4,82 7,3 - 25 25 35 25 35 - SINGLE-PHASE DLFM 80 DLFM 90 DLM109 MINI VORTEX M DLVM100 - PUMP TYPE ABSORBED POWER* DLF 80 DLF 90 DLF 105 DL 109 DL 125 MINI VORTEX DLF VORTEX DLV 100 DLV 115 *Maximum values within operating range. 700 42 5,2 7,3 10,3 5,4 8,4 6,5 450 27 500 30 600 36 3,5 4,8 7,7 2,5 3,7 6,6 4,0 kW ABSORBED CURRENT* 220-240 V A ABSORBED CURRENT* 380-415 V A 0,80 0,92 1,43 1,54 2,14 1,10 1,66 1,65 2,25 3,81 4,66 5,44 6,58 5,11 5,63 6,81 2,09 2,20 2,69 3,14 3,80 2,36 2,95 3,25 3,93 THREE-PHASE µF / 450 V 600 36 sbox_dl-dlv-2p50-en_b_th ELECTRICAL DA TA T ABLE DAT TABLE PUMP TYPE 500 30 sbox_dl-dlv-2p50-en_b_te 17 18 MARKET SECTORS Prefabricated DOMESTIC. lifting station TIONS APPLICATIONS for wastewater APPLICA • Suitable for delivering gray water and wastewater to main in compliance sewer lines located at a higher level, or where gravity with drainage is not possible. EN 12050-1&2 SPECIFICA TIONS SPECIFICATIONS • The standard station is equipped with: • Special versions equipped with sliding standard DOUBLEBO X DOUBLEBOX PL US PLUS Series - polyethylene basin with a capacity of 550 litres, equipped with two threaded pedestrian covers (100 kg max). - Cable glands for power supply cables (and floats). - 2x Rp 1 1/2 or Rp 2 delivery pipes with fast connections and ring nuts for easy disassembly of the pumps or with sliding device. - 8 fast connections connections: 4 x DN110 for inlet, 2 x DN50 for ventilation and 2 x DN65 for cable connection. - 1 x DN50 fast connection for the manual pump. - 2x DOMO or DL submersible pumps pumps, vortex, channel impeller type or with grinder device. - QDR2 control panel for three-phase versions. - 3 rubber seals seals: 1 x DN110, 1 x DN50 and 1 x DN65 mm. • Versions with vortex impeller or with grinder device suitable for: - clean water, effluent, sewage containing suspended solids and fibres. • Versions with single or twin channel impeller suitable for: - clean water, effluent, sewage containing suspended solids but not containing fibres. • Special versions equipped with delivery pipes, ball check valve and gate valve. device and non-return ball valve. Doublebox plus can be installed on the floor or buried in a suitable structure following instructions in the “Instructions and Operative Manual”. installation: • Easy installation - installation is quick and easy: for the single-phase versions you just connect the pipes and the electrical cables; for the three-phase versions you also need to connect the control panel. - The new Doublebox plus is provided with side handles for ease of handling. - Pre-installed delivery pump and unions. • Ecological solution solution: - tank made from 100% recyclable polyethylene. - Airtight anti-pollution tank, pursuant to European standard EN 12050. • Easy maintenance and repair repair. - Tried and tested pump technology. - Pump quick and easy to remove thanks to the ring nut located near the cover. • ACCES SORIES ACCESSORIES • Available accessories: - Ball check valves. - Alarm kit. - Manual pump + seal. - Seals kit. IDENTIFICA TION CODE IDENTIFICATION DOUBLEBOX PLUS DOMO 10VX SL/BV ELECTRIC PUMP TYPE: DOMO... DOMO GRI... DL... MINI VORTEX... SERIES NAME FP = PVC Fixed piping FP/BG = PVC Fixed piping with non-return valve SL = Sliding device SL/BV = Sliding device with non-return valve EXAMPLE : DOUBLEBOX PLUS DOMO 10VX SL/BV Lifting station DOUBLEBOX PLUS series with DOMO 10VX submersible electric pump with sliding device and non-return valve. 19 DOUBLEBO X PL US SERIES DOUBLEBOX PLUS CHART Standard with ring nut Ring nut, non-return valve and gate valve Standard With non-return valve TWIN CHANNEL X X X 9,1 VORTEX X X X 2x0,75 2x1 1000 10,1 TWIN CHANNEL X X X 2x0,75 2x1 800 7,7 VORTEX X X X 2x1,1 2x1,5 1200 12,7 TWIN CHANNEL X X X 2x1,1 2x1,5 900 9,1 VORTEX X X X 2x1,1 2x1,5 220 25 GRINDER X X X 2x0,55 2x0,75 640 10,7 TWIN CHANNEL X X X X 2x0,55 2x0,75 520 9,1 VORTEX X X X X 2x0,75 2x1 1000 10,1 TWIN CHANNEL X X X X 2x0,75 2x1 800 7,7 VORTEX X X X X 2x1,1 2x1,5 1200 12,7 TWIN CHANNEL X X X X 2x1,1 2x1,5 900 9,1 VORTEX X X X X 2x1,5 2x2 1340 14,8 TWIN CHANNEL X X X X 2x1,5 2x2 1100 11 VORTEX X X X X 2x1,1 2x1,5 220 25 GRINDER X X X X 2x0,75 2x1 1000 10,1 TWIN CHANNEL X X X 2x0,75 2x1 800 7,7 VORTEX X X X 2x1,1 2x1,5 1200 12,7 TWIN CHANNEL X X X 2x1,1 2x1,5 900 9,1 VORTEX X X X 2x1,1 2x1,5 220 25 GRINDER X X X 2x0,75 2x1 1000 10,1 TWIN CHANNEL X X X X 2x0,75 2x1 800 7,7 VORTEX X X X X 2x1,1 2x1,5 1200 12,7 TWIN CHANNEL X X X X 2x1,1 2x1,5 900 9,1 VORTEX X X X X 2x1,5 2x2 1340 14,8 TWIN CHANNEL X X X X 2x1,5 2x2 1100 11 VORTEX X X X X 2x1,1 2x1,5 220 25 GRINDER X X X X 2x0,6 2x0,8 700 7,6 SINGLE CHANNEL X X X 2x0,6 2x0,8 900 9,7 SINGLE CHANNEL X X X 2x0,6 2x0,8 600 7,2 VORTEX X X X 2x1,1 2x1,5 1200 18,3 SINGLE CHANNEL X X X 2x1,1 2x1,5 1000 10,6 VORTEX X X X 2x0,6 2x0,8 700 7,6 SINGLE CHANNEL X X X X 2x0,6 2x0,8 900 9,7 SINGLE CHANNEL X X X X 2x0,6 2x0,8 600 7,2 VORTEX X X X X 2x1,1 2x1,5 1000 14,1 SINGLE CHANNEL X X X X 2x1,1 2x1,5 1200 18,3 SINGLE CHANNEL X X X X 2x1,1 2x1,5 1000 10,6 VORTEX X X X X 2x1,1 2x1,5 1000 8,4 VORTEX X X X X 2x1,5 2x2 1400 21,9 SINGLE CHANNEL X X X X 2x1,5 2x2 1200 13,1 VORTEX X X X X SINGLE-PHASE THREE-PHASE THREE-PHASE SINGLE-PHASE THREE-PHASE SINGLE-PHASE FIXED PVC PIPE FITTINGS Float (10 m cable) 10,7 520 DATA REFERS TO 2 PUMPS RUNNING SIMULTANEOUSLY Float pre-assembled on pump Impeller type 640 2x0,55 2x0,75 HP Control panel H max (m) 2x0,55 2x0,75 kW LOWERING DEVICE VERSIONS Q max (l/min) DOUBLEBOX PLUS DOUBLEBOX PLUS DOMO 7 DOUBLEBOX PLUS DOMO 7VX DOUBLEBOX PLUS DOMO 10 DOUBLEBOX PLUS DOMO 10VX DOUBLEBOX PLUS DOMO 15 DOUBLEBOX PLUS DOMO 15VX DOUBLEBOX PLUS DOMO GRI 11 DOUBLEBOX PLUS DOMO 7T DOUBLEBOX PLUS DOMO 7VXT DOUBLEBOX PLUS DOMO 10T DOUBLEBOX PLUS DOMO 10VXT DOUBLEBOX PLUS DOMO 15T DOUBLEBOX PLUS DOMO 15VXT DOUBLEBOX PLUS DOMO 20T DOUBLEBOX PLUS DOMO 20VXT DOUBLEBOX PLUS DOMO GRI 11T DOUBLEBOX PLUS DOMO 10 DOUBLEBOX PLUS DOMO 10VX DOUBLEBOX PLUS DOMO 15 DOUBLEBOX PLUS DOMO 15VX DOUBLEBOX PLUS DOMO GRI 11 DOUBLEBOX PLUS DOMO 10T DOUBLEBOX PLUS DOMO 10VXT DOUBLEBOX PLUS DOMO 15T DOUBLEBOX PLUS DOMO 15VXT DOUBLEBOX PLUS DOMO 20T DOUBLEBOX PLUS DOMO 20VXT DOUBLEBOX PLUS DOMO GRI 11T DOUBLEBOX PLUS DLFM 80 DOUBLEBOX PLUS DLFM 90 DOUBLEBOX PLUS MINI VORTEX M DOUBLEBOX PLUS DLM 109 DOUBLEBOX PLUS DLVM 100 DOUBLEBOX PLUS DLF 80 DOUBLEBOX PLUS DLF 90 DOUBLEBOX PLUS MINI VORTEX DOUBLEBOX PLUS DLF 105 DOUBLEBOX PLUS DL 109 DOUBLEBOX PLUS DLV 100 DOUBLEBOX PLUS DLF VORTEX DOUBLEBOX PLUS DL 125 DOUBLEBOX PLUS DLV 115 FEATURED COMPONENTS CHARACTERISTICS dboxplus_modelli-en_c_sc Notes Single-phase pumps come with start capacitor, overload protection and float switch. Versions with control panel and accessories are available on request. 20 DOUBLEBO X PL US WITH DOMO -DOMO VX ELECTRIC PUMPS DOUBLEBOX PLUS DOMO-DOMO OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT TWIN-CHANNEL IMPELLER VORTEX IMPELLER 2 PUMPS RUNNING SIMULTANEOUSLY TABELLA DI PRESTAZIONI IDRAULICHE DOUBLEBOX DOMO-DOMOVX 2 poli 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE DOMO PUMP TYPE RATED POWER DOMO 7(T) DOMO 10(T) DOMO 15(T) DOMO 20T kW HP 2x0,55 2x0,75 2x1,1 2x1,5 2x0,75 2x1 2x1,5 2x2 DOMO VX PUMP TYPE RATED POWER kW DOMO 7VX(T) DOMO 10VX(T) DOMO 15VX(T) DOMO 20VXT l/min m3/h l/min m3/h 0 0 200 12 10,7 8,9 10,1 9,2 12,7 11,8 14,8 14,0 7,5 8,5 11,0 13,2 0 0 1000 60 1200 72 1340 80,4 4,7 6,6 8,7 3,2 5,2 7,1 3,6 5,4 4,2 Q = DELIVERY 300 350 400 450 520 600 18 21 24 27 31,2 36 H = TOTAL HEAD METRES COLUMN OF WATER 800 48 900 54 1100 66 3,1 4,8 7,0 3,7 6,1 3,8 160 9,6 200 12 9,1 7,1 7,7 7,3 9,1 8,8 11,0 10,6 6,6 7,1 8,6 10,5 HP 2x0,55 2x0,75 2x0,75 2x1 2x1,1 2x1,5 2x1,5 2x2 Q = DELIVERY 300 400 500 600 640 800 18 24 30 36 38,4 48 H = TOTAL HEAD METRES COLUMN OF WATER 100 6 6,3 7,8 10,2 12,4 5,1 6,7 8,3 10,2 5,2 7,2 9,5 11,7 4,4 6,5 8,0 9,9 4,1 6,6 8,8 10,9 3,7 6,2 7,8 9,7 2,7 6,0 8,0 10,2 3,0 5,9 7,5 9,5 2,1 5,8 7,8 9,9 2,0 5,4 7,1 9,1 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. DATI ELETTRICI DOUBLEBOX DOMO-DOMOVX 2poli 50 Hz TA T ABLE DAT TABLE ELECTRICAL DA PUMP TYPE ABSORBED POWER* CAPACITOR kW ABSORBED CURRENT* 220-240 V A 2x0,8 2x1,14 2x1,58 2x0,79 2x1,15 2x1,36 - 2x3,94 2x5,84 2x7,02 2x3,91 2x5,88 2x6,11 - 2x16 2x22 2x30 2x16 2x22 2x30 - SINGLE-PHASE DOMO 7 DOMO 10 DOMO 15 DOMO 7VX DOMO 10VX DOMO 15VX - PUMP TYPE ABSORBED POWER* DOMO 7T DOMO 10T DOMO 15T DOMO 20T DOMO 7VXT DOMO 10VXT DOMO 15VXT DOMO 20VXT *Maximum values within operating range. dbox_domo-domovx-2p50-en_a_th kW ABSORBED CURRENT* 220-240 V A ABSORBED CURRENT* 380-415 V A 2x0,73 2x1,09 2x1,49 2x1,96 2x0,71 2x1,1 2x1,26 2x1,74 2x2,58 2x4,09 2x4,73 2x6,6 2x2,56 2x4,09 2x4,31 2x6,22 2x1,49 2x2,36 2x2,73 2x3,81 2x1,48 2x2,36 2x2,49 2x3,59 THREE_PHASE µF / 450 V 4,8 6,5 8,6 dbox_domo-domovx-2p50-en_a_te 21 DOUBLEBO X PL US WITH DOMO GRI ELECTRIC PUMPS DOUBLEBOX PLUS OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT 2 PUMPS RUNNING SIMULTANEOUSLY TABELLA DI PRESTAZIONI IDRAULICHE DOUBLEBOX DOMOGRI 2 poli 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE DOMO GRI PUMP TYPE RATED Q = DELIVERY POWER DOMO GRI11 DOMO GRI11T kW HP 2x1,1 2x1,5 l/min 0 30 60 80 100 120 140 160 180 200 220 m3/h 0 1,8 3,6 4,8 6 7,2 8,4 9,6 10,8 12 13,2 13,5 11,7 9,5 H = TOTAL HEAD METRES COLUMN OF WATER 25,0 23,5 21,7 20,5 19,3 18,0 16,6 15,2 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. dbox_domo-gri-2p50-en_b_th DATI ELETTRICI DOUBLEBOX PLUS DOMOGRI 2poli 50 Hz TA T ABLE DAT TABLE ELECTRICAL DA PUMP TYPE ABSORBED ABSORBED POWER* CURRENT* SINGLE-PHASE DOMO GRI11 CAPACITOR PUMP TYPE 220-240 V ABSORBED ABSORBED ABSORBED POWER* CURRENT* CURRENT* 220-240 V 380-415 V THREE-PHASE kW A µF / 450 V 2x1,5 2x6,84 2x30 DOMO GRI11T *Maximum values within operating range. kW A A 2x1,39 2x4,55 2x2,63 dbox_domo-gri-2p50-en_a_te 22 DOUBLEBO X PL US WITH DL-DL V ELECTRIC PUMPS DOUBLEBOX PLUS DL-DLV OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT SINGLE-CHANNEL IMPELLER VORTEX IMPELLER 2 PUMPS RUNNING SIMULTANEOUSLY TABELLA DI PRESTAZIONI IDRAULICHE DOUBLEBOX DL-DLV 2 poli 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE RATED POWER DL PUMP TYPE DLF(M) 80 DLF(M) 90 DLF 105 DL(M) 109 DL 125 kW HP 2x0,6 2x0,6 2x1,1 2x1,1 2x1,5 2x0,8 2x0,8 2x1,5 2x1,5 2x2 RATED POWER DLV PUMP TYPE MINI VORTEX(M) DLF VORTEX DLV(M) 100 DLV 115 kW HP 2x0,6 2x1,1 2x1,1 2x1,5 2x0,8 2x1,5 2x1,5 2x2 l/min m3/h 0 0 Q = DELIVERY 400 500 600 700 800 900 24 30 36 42 48 54 H = TOTAL HEAD METRES COLUMN OF WATER 200 12 300 18 7,6 5,9 9,7 7,8 14,1 11,6 18,3 15,4 21,9 19,2 5,3 7,0 10,6 14,2 17,9 l/min m3/h 0 0 4,7 6,4 9,7 13,1 16,7 4,1 5,8 8,9 12,0 15,5 3,6 5,3 8,1 11,0 14,4 3,0 4,7 7,4 10,1 13,4 4,1 6,7 9,2 12,3 3,5 5,9 8,2 11,3 Q = DELIVERY 300 400 500 600 700 800 18 24 30 36 42 48 H = TOTAL HEAD METRES COLUMN OF WATER 100 6 200 12 7,2 6,3 8,4 8,0 10,6 10,1 13,1 12,5 5,5 7,6 9,6 12,0 4,8 7,2 9,1 11,5 4,0 6,8 8,6 11,0 DATI ELETTRICI DOUBLEBOX DL-DLV 2poli 50 Hz 3,0 6,3 8,0 10,5 1,8 5,8 7,4 9,9 5,1 6,6 9,3 1000 60 1200 72 1400 84 5,2 7,3 10,3 5,4 8,4 6,5 900 54 1000 60 1200 72 3,5 4,8 7,7 2,5 3,7 6,6 4,0 4,4 5,8 8,5 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. dbox_dl-dlv-2p50-en_b_th ELECTRICAL DA TA T ABLE DAT TABLE PUMP TYPE ABSORBED POWER* CAPACITOR kW ABSORBED CURRENT* 220-240 V A 2x0,79 2x0,89 2x1,55 2x1,05 2x1,64 - 2x3,91 2x4,27 2x6,87 2x4,82 2x7,3 - 2x25 2x25 2x35 2x25 2x35 - SINGLE-PHASE DLFM 80 DLFM 90 DLM109 MINI VORTEX M DLVM100 - PUMP TYPE ABSORBED POWER* kW ABSORBED CURRENT* 220-240 V A ABSORBED CURRENT* 380-415 V A 2x0,8 2x0,92 2x1,43 2x1,54 2x2,14 2x1,1 2x1,66 2x1,65 2x2,25 2x3,81 2x4,66 2x5,44 2x6,58 2x5,11 2x5,63 2x6,81 2x2,09 2x2,2 2x2,69 2x3,14 2x3,8 2x2,36 2x2,95 2x3,25 2x3,93 THREE-PHASE µF / 450 V DLF 80 DLF 90 DLF 105 DL 109 DL 125 MINI VORTEX DLF VORTEX DLV 100 DLV 115 *Maximum values within operating range. dbox_dl-dlv-2p50-en_b_te 23 SINGLEBO X PL US - DOUBLEBO X PL US SERIES SINGLEBOX PLUS DOUBLEBOX PLUS DIMENSIONS AND WEIGHTS PESI SERIE SINGLEBOX DOUBLEBOX MODEL SINGLEBOX PLUS DOUBLEBOX PLUS WEIGHT (kg) PVC PVC BV SL SL BV 23 44 27 51 32 62 36 69 sbox-dbox-en_a_td 24 SINGLEBO X PL US - DOUBLEBO X PL US SERIES SINGLEBOX PLUS DOUBLEBOX PLUS APPLICA TION EXAMPLES APPLICATION 1 Lifting station. 2 Inlet pipe with gate valve. 3 Outlet pipes with non-return valve. 4 Drain-trap. 5 Vent. 6 Emergency drain system with hand-operated pump. 25 SINGLEBO X PL US - DOUBLEBO X PL US SERIES SINGLEBOX PLUS DOUBLEBOX PLUS CERTIFICA TION CERTIFICATION MINIBOX MIDIBOX SINGLEBOX PLUS DOUBLEBOX PLUS Use Station MINIBOX DOC3 MINIBOX DOC7 MINIBOX DOC7VX MIDIBOX DOC3 MIDIBOX DOC7 MIDIBOX DOC7T MIDIBOX DOC7VX MIDIBOX DOC7VXT MIDIBOX DOMO7 MIDIBOX DOMO7T MIDIBOX DOMO7VX MIDIBOX DOMO7VXT SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 7 SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 7T SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 7VX SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 7VXT SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 10 SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 10T SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 10VX SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 10VXT SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 15 SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 15T SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 15VX SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 15VXT SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 20T SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO 20VXT SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO GRI 11 SINGLEBOX PLUS / DOUBLEBOX PLUS DOMO GRI 11T SINGLEBOX PLUS / DOUBLEBOX PLUS DLFM 80 SINGLEBOX PLUS / DOUBLEBOX PLUS DLF 80 SINGLEBOX PLUS / DOUBLEBOX PLUS DLFM 90 SINGLEBOX PLUS / DOUBLEBOX PLUS DLF 90 SINGLEBOX PLUS / DOUBLEBOX PLUS MINI VORTEX M SINGLEBOX PLUS / DOUBLEBOX PLUS MINI VORTEX SINGLEBOX PLUS / DOUBLEBOX PLUS DLF 105 SINGLEBOX PLUS / DOUBLEBOX PLUS DLM 109 SINGLEBOX PLUS / DOUBLEBOX PLUS DL 109 SINGLEBOX PLUS / DOUBLEBOX PLUS DLVM 100 SINGLEBOX PLUS / DOUBLEBOX PLUS DLV 100 SINGLEBOX PLUS / DOUBLEBOX PLUS DLF VORTEX SINGLEBOX PLUS / DOUBLEBOX PLUS DL 125 SINGLEBOX PLUS / DOUBLEBOX PLUS DLV 115 Clean water Clean water Clean water Clean water Clean water Clean water EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 1 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 EN 12050 - 2 sbox-dboxplus_EN-en_a_sc 26 Prefabricated MARKET SECTORS DOMESTIC, COMMERCIAL, INDUSTRIAL. tanks for APPLICA TIONS lifting stations APPLICATIONS • Suitable for delivering gray water and wastewater to main for wastewater sewer lines located at a higher level, or where gravity handling drainage is not possible. according to EN 12050-1 SPECIFICA TIONS SPECIFICATIONS standard • The standard tank is equipped with • Maxibox Plus must be installed MAXIBO X MAXIBOX PL US PLUS Series the following components, already buried outside the building assembled: according to the indications in the - polyethylene basin with a capacity installation and operating instructions of 1200 or 1900 litres. manual. cover. - Threaded cover • Ecological solution solution: pipes. - 2 1/2” or 2” delivery pipes - tank made of 100% recyclable - 2 DN65 or DN50 sliding device polyethylene. systems systems. - watertight anti-pollution tank, - 2 ball check valves valves. according to the EN 12050-1 - 2 gate valves valves. European standard. et bracket et. - Float switches brack • Easy maintenance and repair The supply includes also: thanks to the sliding device systems. - Cable glands for power supply cables and floats. ACCES SORIES ACCESSORIES - 1 rubber seal • Available accessories: for DN160 inlet connection. - Cover clamping system. • The standard tank doesn’t include the - Float switches. pumps, so it must be completed - Control panels. with with: - Collar extension h 350 mm. - 2 submersible pumps DOMO, DOMO- Chains. GRI, DL, GLS 50/65, GLV 50/65. - Shackles. that have to be ordered separately. - Seal kit for DN110 inlet connection. - Sliding devices guideclaws. • Selecting the right pump: - The pumps with Vortex, Self-cleaning or Grinder impellers are suitable for clean water, effluent and sewage handling that contain suspended solids and fiber materials. - The pumps with single or twin channel impellers are suitable for clean water, effluent and sewage handling that contain suspended solids but not fibres. IDENTIFICA TION CODE IDENTIFICATION MAXIBOX PLUS 13 - 50 PIPES DIMENSIONS: 50 = DN 50 65 = DN 65 TANK HEIGHT: 13 = 1,3 metres 20 = 2 metres SERIES NAME EXAMPLE : MAXIBOX PLUS 13 - 50 MAXIBOX PLUS series tank, tank height 1,3 metres, pipe dimension DN 50. 27 kW Impeller type Single-phase pumps in version with / without pre-assembled float switch Maxibox Plus 13 - 50 Maxibox Plus 20 - 50 DOMO 10(T) DOMO 10VX(T) DOMO 15(T) DOMO 15VX(T) DOMO 20T DOMO 20VXT DOMO GRI 11(T) DLF(M) 80 DLF(M) 90 MINI VORTEX (M) DLF 105 DL(M) 109 DLV(M) 100 DLF VORTEX DL 125 DLV 115 GLS 50-15-251-P GLS 50-16-253-P GLS 50-20-253-P GLS 50-24-253-P GLS 65-15-251 GLS 65-16-253 GLS 65-20-253 GLS 65-24-253 GLS 65-32-253 GLS 65-42-253 GLV 50-12-251-P GLV 50-15-251-P GLV 50-16-253-P GLV 50-20-253-P GLV 50-24-253-P GLV 65-15-251 GLV 65-16-253 GLV 65-20-253 GLV 65-24-253 GLV 65-32-253 GLV 65-42-253 DN H max (m) 50 0,75 500 10,1 TWIN CHANNEL X X X 50 0,75 400 7,7 VORTEX X X X 50 1,1 600 12,7 TWIN CHANNEL X X X 50 1,1 450 9,1 VORTEX X 50 1,5 670 14,8 TWIN CHANNEL 50 1,5 550 11 VORTEX X X 50 1,1 110 25 GRINDER X X X 50 0,6 350 7,6 SINGLE CHANNEL X X X 50 0,6 450 9,7 SINGLE CHANNEL X X X 50 0,6 300 7,2 VORTEX X X X 50 1,1 500 14,1 SINGLE CHANNEL X X 50 1,1 600 18,3 SINGLE CHANNEL X X X 50 1,1 500 10,6 VORTEX X X X 50 1,1 500 8,4 VORTEX X X 50 1,5 700 21,9 SINGLE CHANNEL X X 50 1,5 600 13,1 VORTEX X X 50 1,5 900 15,8 SINGLE CHANNEL X X 50 1,6 900 16 SINGLE CHANNEL X X 50 2 900 19 SINGLE CHANNEL X X 50 2,4 900 23,8 SINGLE CHANNEL X X 65 1,5 900 15 SINGLE CHANNEL X 65 1,6 900 15,1 SINGLE CHANNEL X 65 2 900 17,4 SINGLE CHANNEL X 65 2,4 900 20,9 SINGLE CHANNEL X 65 3,2 1500 25 SELF-CLEANING X 65 4,2 1500 29,8 SELF-CLEANING X 50 1,2 480 10,3 VORTEX X X 50 1,5 480 13,4 VORTEX X X 50 1,6 480 10,4 VORTEX X X 50 2 480 13,6 VORTEX X X 50 2,4 600 17,1 VORTEX X X 65 1,5 600 9 VORTEX 65 1,6 600 9,1 VORTEX X 65 2 750 11,7 VORTEX X 65 2,4 900 14,6 VORTEX X 65 3,2 900 16,9 VORTEX X 65 4,2 1200 20,3 VORTEX Maxibox Plus X X X X Maxibox Plus 20 - 65 MAXIBOX PLUS Q max (l/min) MAXIBO X PL US SERIES MAXIBOX PLUS CHART X X maxibox_modelli-en_b_sc 28 MAXIBO X PL US COUPLED TO DOMO -DOMO VX ELECTRIC PUMPS MAXIBOX PLUS DOMO-DOMO OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT MAXIBOX ∼ 2850 [rpm] DOMO - DOMO VX 0 50 0 ISO 9906 - Annex A 100 50 Q [Imp gpm] 150 100 150 200 Q [US gpm] 50 GIRANTE BICANALE TWIN-CHANNEL IMPELLER H [ft] H [m] 16 VORTEX IMPELLER GIRANTE VORTEX 14 DOMO 15VX 40 12 DOMO 20VX 10 30 8 20 6 4 DOMO 10VX DOMO 20 DOMO 15 DOMO 10 10 2 0 0 10 0 20 30 200 40 400 3 Q [m /h] Q [l/min] 600 04050_A_CH 0 50 800 TABELLA DI PRESTAZIONI IDRAULICHE MAXIBOX PLUS DOMO-DOMOVX 2 poli 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE DOMO PUMP TYPE RATED POWER DOMO 10(T) DOMO 15(T) DOMO 20T kW HP 0,75 1,1 1,5 1 1,5 2 DOMO VX PUMP TYPE RATED POWER DOMO 10VX(T) DOMO 15VX(T) DOMO 20VXT kW HP 0,75 1,1 1,5 1 1,5 2 l/min m3/h 0 0 50 3 10,1 9,2 12,7 11,8 14,8 14,0 l/min m3/h 0 0 100 6 500 30 600 36 670 40,2 4,7 6,6 8,7 3,2 5,2 7,1 3,6 5,4 4,2 Q = DELIVERY 150 175 200 225 260 300 9 10,5 12 13,5 15,6 18 H = TOTAL HEAD METRES COLUMN OF WATER 400 24 450 27 550 33 3,1 4,8 7,0 3,7 6,1 3,8 8,5 11,0 13,2 80 4,8 7,7 7,3 9,1 8,8 11,0 10,6 Q = DELIVERY 150 200 250 300 320 400 9 12 15 18 19,2 24 H = TOTAL HEAD METRES COLUMN OF WATER 100 6 7,1 8,6 10,5 7,8 10,2 12,4 6,7 8,3 10,2 7,2 9,5 11,7 6,5 8,0 9,9 6,6 8,8 10,9 6,2 7,8 9,7 6,0 8,0 10,2 5,9 7,5 9,5 5,8 7,8 9,9 5,4 7,1 9,1 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. DATI ELETTRICI MAXIBOX PLUS DOMO-DOMOVX 2poli 50 Hz TA T ABLE DAT TABLE ELECTRICAL DA PUMP TYPE ABSORBED POWER* CAPACITOR kW ABSORBED CURRENT* 220-240 V A 1,14 1,58 1,15 1,36 - 5,84 7,02 5,88 6,11 - 22 30 22 30 - SINGLE-PHASE DOMO 10 DOMO 15 DOMO 10VX DOMO 15VX - PUMP TYPE ABSORBED POWER* DOMO 10T DOMO 15T DOMO 20T DOMO 10VXT DOMO 15VXT DOMO 20VXT *Maximum values within operating range. maxibox_domo-domovx-2p50-en_a_th kW ABSORBED CURRENT* 220-240 V A ABSORBED CURRENT* 380-415 V A 1,09 1,49 1,96 1,1 1,26 1,74 4,09 4,73 6,6 4,09 4,31 6,22 2,36 2,73 3,81 2,36 2,49 3,59 THREE-PHASE µF / 450 V 4,8 6,5 8,6 maxiboxplus_domo-domovx-2p50-en_a_te 29 MAXIBO X PL US COUPLED TO DOMO GRI ELECTRIC PUMPS MAXIBOX PLUS OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT MAXIBOX ∼ 2850 [rpm] DOMO GRI 11 0 5 0 10 5 ISO 9906 - Annex A 15 10 15 Q25 [Imp gpm] 20 20 25 Q30[US gpm] 25 80 H [ft] H [m] 30 20 60 15 40 10 DOMO GRI 11 20 5 0 0 1 0 2 20 3 40 4 3 6 Q [m /h] 7 5 60 04051_A_CH 0 80 100 Q [l/min] TABELLA DI PRESTAZIONI IDRAULICHE MAXIBOX PLUS DOMOGRI 2 poli 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE DOMO GRI PUMP TYPE RATED Q = DELIVERY POWER DOMO GRI 11 DOMO GRI 11T kW HP 1,1 1,5 l/min 0 15 30 40 50 60 70 80 90 100 110 m3/h 0 0,9 1,8 2,4 3 3,6 4,2 4,8 5,4 6 6,6 13,5 11,7 9,5 H = TOTAL HEAD METRES COLUMN OF WATER 25,0 23,5 21,7 20,5 19,3 18,0 16,6 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. 15,2 maxibox_domo-gri-2p50-en_a_th DATI ELETTRICI MAXIBOX PLUS DOMO-GRI 2poli 50 Hz TA T ABLE DAT TABLE ELECTRICAL DA PUMP TYPE ABSORBED ABSORBED POWER* CURRENT* SINGLE-PHASE DOMO GRI 11 CAPACITOR PUMP TYPE 220-240 V ABSORBED ABSORBED ABSORBED POWER* CURRENT* CURRENT* 220-240 V 380-415 V THREE-PHASE kW A µF / 450 V 1,5 6,84 30 DOMO GRI 11T *Maximum values within operating range. kW A A 1,39 4,55 2,63 maxibox_domo-gri-2p50-en_a_te 30 MAXIBO X PL US COUPLED TO DL-DL V ELECTRIC PUMPS MAXIBOX PLUS DL-DLV OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT MAXIBOX 0 20 0 ∼ 2850 [rpm] DL - DLV 40 20 60 40 60 80 80 100 100 ISO 9906 - Annex A 120 120 Q [Imp gpm] 160 140 140 160 180 Q [US gpm] 80 GIRANTE MONOCANALE SINGLE-CHANNEL IMPELLER H [ft] H [m] 25 VORTEX IMPELLER GIRANTE VORTEX 20 60 15 40 10 DLF105 DLV100 DLF90 DLF80 MINI VORTEX 20 DL125 DL109 5 DLV115 0 0 0 5 10 0 15 20 25 200 30 3 Q [m 40 /h] 35 400 600 45 Q [l/min] TABELLA DI PRESTAZIONI IDRAULICHE MAXIBOX PLUS DL-DLV 2 poli 50 Hz 04052_A_CH DLF VORTEX HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE RATED POWER DL PUMP TYPE DLF(M) 80 DLF(M) 90 DLF 105 DL(M) 109 DL 125 kW HP 0,6 0,6 1,1 1,1 1,5 0,8 0,8 1,5 1,5 2 RATED POWER DLV PUMP TYPE MINI VORTEX(M) DLF VORTEX DLV(M) 100 DLV 115 kW HP 0,6 1,1 1,1 1,5 0,8 1,5 1,5 2 l/min m3/h 0 0 Q = DELIVERY 200 250 300 350 400 450 12 15 18 21 24 27 H = TOTAL HEAD METRES COLUMN OF WATER 100 6 150 9 7,6 5,9 9,7 7,8 14,1 11,6 18,3 15,4 21,9 19,2 5,3 7,0 10,6 14,2 17,9 l/min 3 m /h 0 0 50 3 7,2 6,3 8,4 8,0 10,6 10,1 13,1 12,5 100 6 4,7 6,4 9,7 13,1 16,7 4,1 5,8 8,9 12,0 15,5 3,6 5,3 8,1 11,0 14,4 3,0 4,7 7,4 10,1 13,4 4,1 6,7 9,2 12,3 Q = DELIVERY 150 200 250 300 350 400 9 12 15 18 21 24 H = TOTAL HEAD METRES COLUMN OF WATER 5,5 7,6 9,6 12,0 4,8 7,2 9,1 11,5 4,0 6,8 8,6 11,0 DATI ELETTRICI MAXIBOX PLUS DL-DLV 2poli 50 Hz 3,0 6,3 8,0 10,5 1,8 5,8 7,4 9,9 5,1 6,6 9,3 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. ELECTRICAL DA TA T ABLE DAT TABLE PUMP TYPE ABSORBED POWER* CAPACITOR kW ABSORBED CURRENT* 220-240 V A 0,79 0,89 1,55 1,05 1,64 - 3,91 4,27 6,87 4,82 7,3 - 25 25 35 25 35 - SINGLE-PHASE DLFM 80 DLFM 90 DLM109 MINI VORTEX M DLVM100 - 3,5 5,9 8,2 11,3 PUMP TYPE ABSORBED POWER* DLF 80 DLF 90 DLF 105 DL 109 DL 125 MINI VORTEX DLF VORTEX DLV 100 DLV 115 *Maximum values within operating range. 600 36 700 42 5,2 7,3 10,3 5,4 8,4 6,5 450 27 500 30 600 36 3,5 4,8 7,7 2,5 3,7 6,6 4,0 maxibox_dl-dlv-2p50-en_a_th kW ABSORBED CURRENT* 220-240 V A ABSORBED CURRENT* 380-415 V A 0,80 0,92 1,43 1,54 2,14 1,10 1,66 1,65 2,25 3,81 4,66 5,44 6,58 5,11 5,63 6,81 2,09 2,20 2,69 3,14 3,80 2,36 2,95 3,25 3,93 THREE-PHASE µF / 450 V 4,4 5,8 8,5 500 30 maxibox_dl-dlv-2p50-en_a_te 31 MAXIBO X PL US COUPLED TO GLS 50 ELECTRIC PUMPS MAXIBOX PLUS OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT MAXIBOX ∼ 2850 [rpm] GLS 50 0 50 100 0 150 100 ISO 9906 - Annex A 200 Q [Imp gpm] 250 200 300 Q [US gpm] 80 H [ft] H [m] 25 20 60 15 40 10 20 5 24-253-P 20-253-P 15-251-P / 16-253-P 0 0 20 0 40 200 400 Q [m3/h] 60 600 800 04053_A_CH 0 80 1200 Q [l/min] 1000 TABELLA DI PRESTAZIONI IDRAULICHE MAXIBOX PLUS GLS DN50 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE PUMP TYPE Q = DELIVERY RATED POWER l/s 3 GLS m /h 0 2 4 6 8 10 15 20 25 0 7,2 14,4 21,6 28,8 36 54 72 90 H = TOTAL HEAD METRES COLUMN OF WATER kW GLS 50-15-251-P 1,5 15,8 13,7 11,8 10,3 8,8 7,4 GLS 50-16-253-P 1,6 16,0 13,8 12,0 10,5 9,1 7,7 3,5 3,8 GLS 50-20-253-P 2 19,0 16,8 14,9 13,2 11,6 10,2 6,3 GLS 50-24-253-P 2,4 23,8 21,3 19,2 17,2 15,4 13,7 9,2 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. z ELECTRICAL DA TA T ABLE DAT TABLE PUMP TYPE ABSORBED ABSORBED RUNNING STARTING POWER* CURRENT* CAPACITOR CAPACITOR SINGLE-PHASE 230 V PUMP TYPE ABSORBED ABSORBED POWER* CURRENT* THREE-PHASE kW A µF / V µF / V 2 8,4 35 / 400 100 / 330 - - - - - - - - GLS 50-15-251-P maxibox_gls50-en_a_th * Maximum values within operating range. 400 V kW A GLS 50-16-253-P 1,9 3,6 - GLS 50-20-253-P 2,4 4,3 - GLS 50-24-253-P 3,2 5,1 maxibox_gls50-en_a_te 32 MAXIBO X PL US COUPLED TO GLS 65 ELECTRIC PUMPS MAXIBOX PLUS OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT MAXIBOX ∼ 2850 [rpm] GLS 65 0 100 0 200 100 ISO 9906 - Annex A 400 Q [Imp gpm] 300 200 300 400 500 Q [US gpm] 30 100 25 80 H [ft] H [m] 35 20 60 15 40 10 20 5 0 20 0 40 20-253 24-253 32-253 60 500 80 42-253 3 Q [m120 /h] 100 1000 1500 0 04055_A_CH 15-251/16-253 0 Q [l/min] 2000 TABELLA DI PRESTAZIONI IDRAULICHE MAXIBOX PLUS GLS DN65 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE PUMP TYPE Q = DELIVERY RATED POWER l/s 3 m /h 0 2 4 6 8 10 15 20 25 0 7,2 14,4 21,6 28,8 36 54 72 90 H = TOTAL HEAD METRES COLUMN OF WATER GLS kW GLS 65-15-251 1,5 15,0 12,4 10,9 9,6 8,3 7,0 GLS 65-16-253 1,6 15,1 12,7 11,0 9,7 8,5 7,3 3,4 3,6 GLS 65-20-253 2 17,4 15,2 13,4 11,9 10,5 9,2 5,6 GLS 65-24-253 2,4 20,9 18,9 17,1 15,5 14,0 12,5 8,4 GLS 65-32-253 3,2 25,0 23,5 21,9 20,1 18,3 16,4 12,1 7,5 2,9 GLS 65-42-253 4,2 29,8 28,1 26,5 24,8 23,1 21,3 16,8 12,0 6,7 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. z ELECTRICAL DA TA T ABLE DAT TABLE PUMP TYPE ABSORBED ABSORBED RUNNING STARTING POWER* CURRENT* CAPACITOR CAPACITOR SINGLE-PHASE GLS 65-15-251 maxibox_gls65-en_a_th 230 V PUMP TYPE ABSORBED ABSORBED POWER* CURRENT* THREE-PHASE kW A µF / V µF / V 2 8,4 35 / 400 100 / 330 400 V kW A GLS 65-16-253 1,9 3,6 - - - - - GLS 65-20-253 2,4 4,3 - - - - - GLS 65-24-253 3,2 5,1 - - - - - GLS 65-32-253 3,9 6,1 - - - - - GLS 65-42-253 5,3 8,2 * Maximum values within operating range. maxibox_gls65-en_a_te 33 MAXIBO X PL US COUPLED TO GL V 50 ELECTRIC PUMPS MAXIBOX PLUS GLV OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT MAXIBOX ∼ 2850 [rpm] GLV 50 0 50 0 ISO 9906 - Annex A 100 50 Q [Imp gpm] 150 100 150 200 Q [US gpm] H [m] 60 H [ft] 20 50 15 40 10 30 20 5 24-253-P 10 15-251-P / 20-253-P 12-251-P / 16-253-P 0 10 0 20 0 30 200 Q [m3/h] 40 400 04054_A_CH 0 50 Q [l/min] 800 600 TABELLA DI PRESTAZIONI IDRAULICHE MAXIBOX PLUS GLV DN50 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE PUMP TYPE Q = DELIVERY RATED POWER l/s 3 GLV m /h 0 2 4 6 8 10 12,5 15 20 0 7,2 14,4 21,6 28,8 36 45 54 72 H = TOTAL HEAD METRES COLUMN OF WATER kW GLV 50-12-251-P 1,2 10,3 8,3 6,4 4,4 2,0 GLV 50-15-251-P 1,5 13,4 11,7 9,9 7,9 5,4 GLV 50-16-253-P 1,6 10,4 8,4 6,5 4,5 2,2 GLV 50-20-253-P 2 13,6 11,8 10,2 8,2 5,6 GLV 50-24-253-P 2,4 17,1 15,0 13,3 11,5 9,7 7,5 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. z ELECTRICAL DA TA T ABLE DAT TABLE PUMP TYPE ABSORBED ABSORBED RUNNING STARTING POWER* CURRENT* CAPACITOR CAPACITOR SINGLE-PHASE maxibox_glv50-en_a_th 230 V PUMP TYPE ABSORBED ABSORBED POWER* CURRENT* THREE-PHASE kW A µF / V µF / V GLV 50-12-251-P 1,5 6,7 35 / 400 100 / 330 GLV 50-15-251-P 2 8,4 35 / 400 100 / 330 400 V kW - A - - GLV 50-16-253-P 1,9 3,6 - - - - - GLV 50-20-253-P 2,6 4,3 - - - - - GLV 50-24-253-P 3,2 5,1 * Maximum values within operating range. maxibox_glv50-en_a_te 34 MAXIBO X PL US COUPLED TO GL V 65 ELECTRIC PUMPS MAXIBOX PLUS GLV OPERA TING CHARACTERISTIC S A T 50 Hz OPERATING CHARACTERISTICS AT MAXIBOX ∼ 2850 [rpm] GLV 65 0 50 100 0 150 100 ISO 9906 - Annex A 200 200 250 Q [Imp gpm] 300 Q [US gpm] 80 H [ft] H [m] 25 20 60 15 40 10 20 5 32-253 20-253 15-251/16-253 42-253 24-253 0 0 20 0 60 Q [m3/h] 80 1000 1200 Q [l/min] 40 200 400 600 800 04056_A_CH 0 TABELLA DI PRESTAZIONI IDRAULICHE MAXIBOX PLUS GLV DN65 50 Hz HYDRA ULIC PERFORMANCE T ABLE HYDRAULIC TABLE PUMP TYPE Q = DELIVERY RATED POWER l/s 3 m /h 0 2 4 6 8 10 12,5 15 20 0 7,2 14,4 21,6 28,8 36 45 54 72 H = TOTAL HEAD METRES COLUMN OF WATER GLV kW GLV 65-15-251 1,5 9,0 8,3 7,0 5,6 4,3 GLV 65-16-253 1,6 9,1 8,4 7,1 5,7 4,5 3,3 3,4 GLV 65-20-253 2 11,7 10,9 9,5 8,0 6,4 5,1 3,5 GLV 65-24-253 2,4 14,6 13,6 12,2 10,7 9,1 7,6 5,7 3,6 GLV 65-32-253 3,2 16,9 16,3 15,2 13,7 11,9 10,0 7,7 5,9 GLV 65-42-253 4,2 20,3 19,9 18,7 17,1 15,2 13,2 10,8 8,8 These performances (referred to the single pump) are valid for liquids with density ρ = 1,0 kg/dm³ and kinematic viscosity ν = 1 mm²/s. z ELECTRICAL DA TA T ABLE DAT TABLE PUMP TYPE ABSORBED ABSORBED RUNNING STARTING POWER* CURRENT* CAPACITOR CAPACITOR SINGLE-PHASE GLV 65-15-251 5,7 maxibox_glv65-en_a_th 230 V PUMP TYPE ABSORBED ABSORBED POWER* CURRENT* THREE-PHASE kW A µF / V µF / V 2 8,4 35 / 400 100 / 330 400 V kW A GLV 65-16-253 2 3,6 - - - - - GLV 65-20-253 2,5 4,3 - - - - - GLV 65-24-253 3,2 5,1 - - - - - GLV 65-32-253 3,8 6,1 - - - - - GLV 65-42-253 5,3 8,2 * Maximum values within operating range. maxibox_glv65-en_a_te 35 MAXIBO X PL US SERIES MAXIBOX PLUS DIMENSIONS AND WEIGHTS 36 TECHNICAL APPENDIX 37 WA TER REQUIREMENTS IN CIVIL USES WATER Determination of the water requirement depends on the type of users and contemporaneity factor. The calculation may be subject to regulations, standards or customs that may vary from country to country. The calculation method shown below is an example based on practical experience, designed to provide a reference value and not a substitute for detailed analytical calculation. Water requirements in condominiums. The consumption table shows the maximum values for each delivery point, depending on the plumbing amenities. MAXIMUM CONSUMPTION FOR EACH DELIVERY POINT MAXIMUM CONSUMPTION FOR EACH DELIVERY POINT TYPE CONSUMPTION (l/min) Sink Dishwasher Washing machine Shower Bathtub Washbasin Bidet Flush tank WC Controlled flushing system WC 9 10 12 12 15 6 6 6 90 G-at-cm-en_a_th The sum of the water consumption values of each delivery point determines the maximum theoretical requirement, which must be reduced according to the contemporaneity coefficient coefficient, because in actual fact the delivery points are never used all together. f= f= f= f= 1 √ (0,857 x Nr x Na) 1 √ (0,857 x Nr x Na) 1,03 √ (0,545 x Nr x Na) 0,8 √ (0,727 x Nr x Na) Coefficient for apartments with one bathroom and flush tank WC Coefficient for apartments with one bathroom and controlled flushing system WC Coefficient for apartments with two bathrooms and flush tank WC Coefficient for apartments with two bathrooms and controlled flushing system WC f = coefficient; Nr = number of delivery points; Na = number of apartments The table of water requirements in civil uses shows the maximum contemporaneity flow-rate values based on the number of apartments and the type of WC for apartments with one bathroom and two bathrooms. As regards apartments with one bathroom, 7 drawing points have been taken into consideration, while 11 points have been considered for apartments with two bathrooms. If the number of drawing points or apartments is different, use the formulas to calculate the requirement. TECHNICAL APPENDIX 38 TABLE OF WA TER REQUIREMENTS IN CIVIL USES WATER TABELLA FABBISOGNI IDRICI NELLE UTENZE CIVILI WITH FLUSH TANK WC NUMBER OF APARTMENTS 1 WITH CONTROLLED FLUSHING SYSTEM WC 2 1 2 60 85 105 121 135 148 160 171 181 191 200 209 218 226 234 242 249 256 263 270 277 283 290 296 302 308 314 320 325 331 357 382 405 427 448 468 487 506 523 540 557 573 589 604 662 715 764 811 854 79 111 136 157 176 193 208 223 236 249 261 273 284 295 305 315 325 334 343 352 361 369 378 386 394 401 409 417 424 431 466 498 528 557 584 610 635 659 682 704 726 747 767 787 863 932 996 1056 1114 FLOW RATE (l/min) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 120 140 160 180 200 32 45 55 63 71 78 84 90 95 100 105 110 114 119 123 127 131 134 138 142 145 149 152 155 158 162 165 168 171 174 187 200 213 224 235 245 255 265 274 283 292 301 309 317 347 375 401 425 448 40 56 68 79 88 97 105 112 119 125 131 137 143 148 153 158 163 168 172 177 181 185 190 194 198 202 205 209 213 217 234 250 265 280 293 306 319 331 342 354 364 375 385 395 433 468 500 530 559 For seaside resorts, a flow rate increased by at least 20% must be considered. 39 G-at-fi-en_a_th TECHNICAL APPENDIX WA TER REQUIREMENTS FOR COMMUNITY BUILDINGS WATER The requirements of buildings intended for specific uses, such as offices, residential units, hotels, department stores, nursing homes and so on, are different from those of condominiums, and both their global daily water consumption and the maximum contemporaneity flow rate usually greater. The diagram of water requirements for community buildings shows the maximum contemporaneity flow rate of some types of communities, for guidance. These requirements must be determined case by case with the utmost accuracy, using analytical calculation methods according to particular needs and local provisions. For seaside resorts, the flow rate must be increased by at least 20%. 1 = Offices (Nr. of people) 2 = Department stores (Nr. of people) 3 = Nursing homes (Nr. of beds) 4 = Hotels, residences (Nr. of beds) TECHNICAL APPENDIX 40 NPSH The maximum possible suction head for installation depends on the value of the atmospheric pressure (i.e. the elevation above sea level at which the pump is installed) and the temperature of the liquid. The minimum operating values that can be reached at the pump suction end are limited by the onset of cavitation. Cavitation is the formation of vapour-filled cavities within liquids where the pressure is locally reduced to a critical value, or where the local pressure is equal to, or just below the vapour pressure of the liquid. To help the user, with reference to water temperature (4° C) and to the elevation above sea level, the following tables show the drop in hydraulic pressure head in relation to the elevation above sea level, and the suction loss in relation to temperature. The vapour-filled cavities flow with the current and when they reach a higher pressure area the vapour contained in the cavities condenses. The cavities collide, generating pressure waves that are transmitted to the walls. These, being subjected to stress cycles, gradually become deformed and yield due to fatigue. This phenomenon, characterized by a metallic noise produced by the hammering on the pipe walls, is called incipient cavitation. Water temperature (°C) 20 Suction loss (m) The damage caused by cavitation may be magnified by electrochemical corrosion and a local rise in temperature due to the plastic deformation of the walls. The materials that offer the highest resistance to heat and corrosion are alloy steels, especially austenitic steel. The conditions that trigger cavitation may be assessed by calculating the total net suction head, referred to in technical literature with the acronym NPSH (Net Positive Suction Head). 0,2 0,7 60 80 90 110 120 2,0 5,0 7,4 15,4 21,5 Elevation above sea level (m) 500 1000 1500 2000 2500 3000 Suction loss (m) 2,75 0,55 1,1 1,65 2,2 3,3 Friction loss is shown in the tables at pages 43-44 of this catalogue. To reduce it to a minimum, especially in cases of high suction head (over 4-5 m.) or within the operating limits with high flow rates, we recommend using a suction line having a larger diameter than that of the pump’s suction port. It is always a good idea to position the pump as close as possible to the liquid to be pumped. The NPSH represents the total energy (expressed in m.) of the liquid measured at suction under conditions of incipient cavitation, excluding the vapour pressure (expressed in m.) that the liquid has at the pump inlet. Make the following calculation: To find the static height hz at which to install the machine under safe conditions, the following formula must be verified: hp + hz ≥ (NPSHr + 0.5) + hf + hpv 40 Liquid: water at ~15°C γ = 1 kg/dm3 Flow rate required: 30 m3/h Head for required delivery: 43 m. Suction lift: 3,5 m. The selection is an FHE 40-200/75 pump whose NPSH required value is, at 30 m3/h, di 2,5 m. 1 where: hp is the absolute pressure applied to the free liquid surface in the suction tank, expressed in m. of liquid; hp is the quotient between the barometric pressure and the specific weight of the liquid. hz is the suction lift between the pump axis and the free liquid surface in the suction tank, expressed in m.; hz is negative when the liquid level is lower than the pump axis. hf is the flow resistance in the suction line and its accessories, such as: fittings, foot valve, gate valve, elbows, etc. hpv is the vapour pressure of the liquid at the operating temperature, expressed in m. of liquid. hpv is the quotient between the Pv vapour pressure and the liquid’s specific weight. 0,5 is the safety factor. For water at 15 °C hp = Pa / γ = 10,33m, hpv = Pv / γ = 0,174m (0,01701 bar) The Hf flow resistance in the suction line with foot valves is ~ 1,2 m. By substituting the parameters in formula 1 with the numeric values above, we have: 10,33 + (-3,5) ≥ (2,5 + 0,5) + 1,2 + 0,17 from which we have: 6,8 > 4,4 The relation is therefore verified. 41 TECHNICAL APPENDIX TENSIONE DI VAPORE SURE PRESSURE VAPOUR PRES TABELLA TENSIONE DI VAPORE ps E DENSITA' DELL'ACQUA VAPOUR PRES SURE ps AND ρ DENSITY OF WA TER T ABLE PRESSURE WATER TABLE t T ps ρ t 3 °C K bar kg/dm 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 273,15 274,15 275,15 276,15 277,15 278,15 279,15 280,15 281,15 282,15 283,15 284,15 285,15 286,15 287,15 288,15 289,15 290,15 291,15 292,15 293,15 294,15 295,15 296,15 297,15 298,15 299,15 300,15 301,15 302,15 303,15 304,15 305,15 306,15 307,15 308,15 309,15 310,15 311,15 312,15 313,15 314,15 315,15 316,15 317,15 318,15 319,15 320,15 321,15 322,15 323,15 324,15 325,15 326,15 327,15 0,00611 0,00657 0,00706 0,00758 0,00813 0,00872 0,00935 0,01001 0,01072 0,01147 0,01227 0,01312 0,01401 0,01497 0,01597 0,01704 0,01817 0,01936 0,02062 0,02196 0,02337 0,24850 0,02642 0,02808 0,02982 0,03166 0,03360 0,03564 0,03778 0,04004 0,04241 0,04491 0,04753 0,05029 0,05318 0,05622 0,05940 0,06274 0,06624 0,06991 0,07375 0,07777 0,08198 0,09639 0,09100 0,09582 0,10086 0,10612 0,11162 0,11736 0,12335 0,12961 0,13613 0,14293 0,15002 0,9998 0,9999 0,9999 0,9999 1,0000 1,0000 1,0000 0,9999 0,9999 0,9998 0,9997 0,9997 0,9996 0,9994 0,9993 0,9992 0,9990 0,9988 0,9987 0,9985 0,9983 0,9981 0,9978 0,9976 0,9974 0,9971 0,9968 0,9966 0,9963 0,9960 0,9957 0,9954 0,9951 0,9947 0,9944 0,9940 0,9937 0,9933 0,9930 0,9927 0,9923 0,9919 0,9915 0,9911 0,9907 0,9902 0,9898 0,9894 0,9889 0,9884 0,9880 0,9876 0,9871 0,9862 0,9862 T ps ρ 3 °C K bar kg/dm 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 102 104 106 108 110 112 114 116 118 328,15 329,15 330,15 331,15 332,15 333,15 334,15 335,15 336,15 337,15 338,15 339,15 340,15 341,15 342,15 343,15 344,15 345,15 346,15 347,15 348,15 349,15 350,15 351,15 352,15 353,15 354,15 355,15 356,15 357,15 358,15 359,15 360,15 361,15 362,15 363,15 364,15 365,15 366,15 367,15 368,15 369,15 370,15 371,15 372,15 373,15 375,15 377,15 379,15 381,15 383,15 385,15 387,15 389,15 391,15 0,15741 0,16511 0,17313 0,18147 0,19016 0,1992 0,2086 0,2184 0,2286 0,2391 0,2501 0,2615 0,2733 0,2856 0,2984 0,3116 0,3253 0,3396 0,3543 0,3696 0,3855 0,4019 0,4189 0,4365 0,4547 0,4736 0,4931 0,5133 0,5342 0,5557 0,5780 0,6011 0,6249 0,6495 0,6749 0,7011 0,7281 0,7561 0,7849 0,8146 0,8453 0,8769 0,9094 0,9430 0,9776 1,0133 1,0878 1,1668 1,2504 1,3390 1,4327 1,5316 1,6362 1,7465 1,8628 0,9857 0,9852 0,9846 0,9842 0,9837 0,9832 0,9826 0,9821 0,9816 0,9811 0,9805 0,9799 0,9793 0,9788 0,9782 0,9777 0,9770 0,9765 0,9760 0,9753 0,9748 0,9741 0,9735 0,9729 0,9723 0,9716 0,9710 0,9704 0,9697 0,9691 0,9684 0,9678 0,9671 0,9665 0,9658 0,9652 0,9644 0,9638 0,9630 0,9624 0,9616 0,9610 0,9602 0,9596 0,9586 0,9581 0,9567 0,9552 0,9537 0,9522 0,9507 0,9491 0,9476 0,9460 0,9445 t T ps ρ °C K bar kg/dm3 120 122 124 126 128 130 132 134 136 138 140 145 155 160 165 170 175 180 185 190 195 200 205 210 215 220 225 230 235 240 245 250 255 260 265 270 275 280 285 290 295 300 305 310 315 320 325 330 340 350 360 370 374,15 393,15 395,15 397,15 399,15 401,15 403,15 405,15 407,15 409,15 411,15 413,15 418,15 428,15 433,15 438,15 433,15 448,15 453,15 458,15 463,15 468,15 473,15 478,15 483,15 488,15 493,15 498,15 503,15 508,15 513,15 518,15 523,15 528,15 533,15 538,15 543,15 548,15 553,15 558,15 563,15 568,15 573,15 578,15 583,15 588,15 593,15 598,15 603,15 613,15 623,15 633,15 643,15 647,30 1,9854 2,1145 2,2504 2,3933 2,5435 2,7013 2,867 3,041 3,223 3,414 3,614 4,155 5,433 6,181 7,008 7,920 8,924 10,027 11,233 12,551 13,987 15,550 17,243 19,077 21,060 23,198 25,501 27,976 30,632 33,478 36,523 39,776 43,246 46,943 50,877 55,058 59,496 64,202 69,186 74,461 80,037 85,927 92,144 98,70 105,61 112,89 120,56 128,63 146,05 165,35 186,75 210,54 221,20 0,9429 0,9412 0,9396 0,9379 0,9362 0,9346 0,9328 0,9311 0,9294 0,9276 0,9258 0,9214 0,9121 0,9073 0,9024 0,8973 0,8921 0,8869 0,8815 0,8760 0,8704 0,8647 0,8588 0,8528 0,8467 0,8403 0,8339 0,8273 0,8205 0,8136 0,8065 0,7992 0,7916 0,7839 0,7759 0,7678 0,7593 0,7505 0,7415 0,7321 0,7223 0,7122 0,7017 0,6906 0,6791 0,6669 0,6541 0,6404 0,6102 0,5743 0,5275 0,4518 0,3154 G-at_npsh_b_sc TECHNICAL APPENDIX 42 TABLE OF FL OW RESIST ANCE IN 100 m OF STRAIGHT CAST FLOW RESISTANCE IRON PIPELINE (HAZENWILLIAMS FORMULA C=100) (HAZEN-WILLIAMS FLOW RATE m3/h l/min 0,6 10 0,9 15 1,2 20 1,5 25 1,8 30 2,1 35 2,4 40 3 50 3,6 60 4,2 70 4,8 80 5,4 90 6 100 7,5 125 9 150 10,5 175 12 200 15 250 18 300 24 400 30 500 36 600 42 700 48 800 54 900 60 1000 75 1250 90 1500 105 1750 120 2000 150 2500 180 3000 210 3500 240 4000 300 5000 360 6000 420 7000 480 8000 540 9000 600 10000 v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr v hr 15 1/2" 20 3/4" 25 1" 32 1 1/4" 40 1 1/2" 0,94 16 1,42 33,9 1,89 57,7 2,36 87,2 2,83 122 3,30 162 0,53 3,94 0,80 8,35 1,06 14,21 1,33 21,5 1,59 30,1 1,86 40,0 2,12 51,2 2,65 77,4 3,18 108 3,72 144 4,25 185 0,34 1,33 0,51 2,82 0,68 4,79 0,85 7,24 1,02 10,1 1,19 13,5 1,36 17,3 1,70 26,1 2,04 36,6 2,38 48,7 2,72 62,3 3,06 77,5 3,40 94,1 4,25 142 0,21 0,40 0,31 0,85 0,41 1,44 0,52 2,18 0,62 3,05 0,73 4,06 0,83 5,19 1,04 7,85 1,24 11,0 1,45 14,6 1,66 18,7 1,87 23,3 2,07 28,3 2,59 42,8 3,11 59,9 3,63 79,7 4,15 102 5,18 154 0,13 0,13 0,20 0,29 0,27 0,49 0,33 0,73 0,40 1,03 0,46 1,37 0,53 1,75 0,66 2,65 0,80 3,71 0,93 4,93 1,06 6,32 1,19 7,85 1,33 9,54 1,66 14,4 1,99 20,2 2,32 26,9 2,65 34,4 3,32 52,0 3,98 72,8 5,31 124 6,63 187 50 2 0,17 0,16 0,21 0,25 0,25 0,35 0,30 0,46 0,34 0,59 0,42 0,89 0,51 1,25 0,59 1,66 0,68 2,13 0,76 2,65 0,85 3,22 1,06 4,86 1,27 6,82 1,49 9,07 1,70 11,6 2,12 17,5 2,55 24,6 3,40 41,8 4,25 63,2 5,10 88,6 5,94 118 6,79 151 7,64 188 NOMINAL DIAMETER in mm and inches 65 80 100 125 150 175 2 1/2" 3" 4" 5" 6" 7" 200 8" 250 10" 300 12" 350 14" 400 16" 0,53 0,27 0,66 0,40 0,80 0,56 0,93 0,75 1,06 0,96 1,33 1,45 1,59 2,03 1,86 2,71 2,12 3,46 2,65 5,23 3,18 7,33 3,72 9,75 4,25 12,49 4,78 15,5 5,31 18,9 0,68 0,32 0,85 0,49 1,02 0,69 1,19 0,91 1,36 1,17 1,70 1,77 2,04 2,47 2,38 3,29 2,72 4,21 3,06 5,24 3,40 6,36 0,71 0,28 0,83 0,38 0,94 0,48 1,18 0,73 1,42 1,02 1,65 1,35 1,89 1,73 2,12 2,16 2,36 2,62 1,21 0,64 1,39 0,82 1,56 1,02 1,73 1,24 1,19 0,53 1,33 0,65 The hr values must be multiplied by: 0,71 for galvanized or painted steel pipes 0,54 for stainless steel or copper pipes 0,47 for PVC or PE pipes 0,20 0,16 0,25 0,25 0,30 0,35 0,35 0,46 0,40 0,59 0,45 0,74 0,50 0,90 0,63 1,36 0,75 1,90 0,88 2,53 1,01 3,23 1,26 4,89 1,51 6,85 2,01 11,66 2,51 17,6 3,02 24,7 3,52 32,8 4,02 42,0 4,52 52,3 5,03 63,5 6,28 96,0 7,54 134 8,79 179 0,30 0,27 0,33 0,33 0,41 0,49 0,50 0,69 0,58 0,92 0,66 1,18 0,83 1,78 1,00 2,49 1,33 4,24 1,66 6,41 1,99 8,98 2,32 11,9 2,65 15,3 2,99 19,0 3,32 23,1 4,15 34,9 4,98 48,9 5,81 65,1 6,63 83,3 8,29 126 0,32 0,23 0,37 0,31 0,42 0,40 0,53 0,60 0,64 0,84 0,85 1,43 1,06 2,16 1,27 3,03 1,49 4,03 1,70 5,16 1,91 6,41 2,12 7,79 2,65 11,8 3,18 16,5 3,72 21,9 4,25 28,1 5,31 42,5 6,37 59,5 7,43 79,1 8,49 101 0,34 0,20 0,41 0,28 0,54 0,48 0,68 0,73 0,82 1,02 0,95 1,36 1,09 1,74 1,22 2,16 1,36 2,63 1,70 3,97 2,04 5,57 2,38 7,40 2,72 9,48 3,40 14,3 4,08 20,1 4,76 26,7 5,44 34,2 6,79 51,6 8,15 72,3 0,38 0,20 0,47 0,30 0,57 0,42 0,66 0,56 0,75 0,72 0,85 0,89 0,94 1,08 1,18 1,63 1,42 2,29 1,65 3,05 1,89 3,90 2,36 5,89 2,83 8,26 3,30 11,0 3,77 14,1 4,72 21,2 5,66 29,8 6,61 39,6 7,55 50,7 8,49 63,0 0,42 0,20 0,49 0,26 0,55 0,34 0,62 0,42 0,69 0,51 0,87 0,77 1,04 1,08 1,21 1,44 1,39 1,84 1,73 2,78 2,08 3,90 2,43 5,18 2,77 6,64 3,47 10,0 4,16 14,1 4,85 18,7 5,55 23,9 6,24 29,8 6,93 36,2 G-at-pct-en_a_th hr = flow resistance for 100 m of straight pipeline (m) V = water speed (m/s) 43 TECHNICAL APPENDIX FL OW RESIST ANCE FLOW RESISTANCE TABLE OF FL OW RESIST ANCE IN BENDS, V AL VES AND FLOW RESISTANCE VAL ALVES GA TES GATES The flow resistance is calculated using the equivalent pipeline length method according to the table below: TABELLA LUNGHEZZA DI TUBAZIONE EQUIVALENTE DN ACCESSORY TYPE 45° bend 90° bend 90° smooth bend Union tee or cross Gate Non return valve 25 32 40 50 0,2 0,4 0,4 1,1 1,1 0,2 0,6 0,4 1,3 1,5 0,4 0,9 0,4 1,7 1,9 0,4 1,1 0,6 2,1 0,2 2,4 65 80 100 125 Equivalent pipeline length (m) 0,6 0,6 0,9 1,1 1,3 1,5 2,1 2,6 0,9 1,1 1,3 1,7 2,6 3,2 4,3 5,3 0,2 0,2 0,4 0,4 3,0 3,4 4,7 5,9 150 200 250 300 1,5 3,0 1,9 6,4 0,6 7,4 1,9 3,9 2,8 7,5 0,9 9,6 2,4 4,7 3,4 10,7 1,1 11,8 2,8 5,8 3,9 12,8 1,3 13,9 G-a-pcv-en_a_th The table is valid for the Hazen Williams coefficient C=100 (cast iron pipework); for steel pipework, multiply the values by 1,41; for stainless steel, copper and coated cast iron pipework, multiply the values by 1,85; When the equivalent pipeline length has been determined, the flow resistance is obtained from the table of flow resistance. The values given are guideline values which are bound to vary slightly according to the model, especially for gate valves and non-return valves, for which it is a good idea to check the values supplied by manufacturers. TECHNICAL APPENDIX 44 V OL UMETRIC CAP ACITY OLUMETRIC CAPACITY VOLUMETRIC CAPACITY Litres Cubic metres Cubic feet Cubic feet Imp. gal. US gal. per minute per hour per hour per minute per minute per minute l/min m3/h ft3/h 1,0000 16,6667 0,4719 28,3168 4,5461 3,7854 0,0600 1,0000 0,0283 1,6990 0,2728 0,2271 2,1189 35,3147 1,0000 60,0000 9,6326 8,0208 ft3/min 0,0353 0,5886 0,0167 1,0000 0,1605 0,1337 Imp. gal/min 0,2200 3,6662 0,1038 6,2288 1,0000 0,8327 Us gal./min 0,2642 4,4029 0,1247 7,4805 1,2009 1,0000 Pound force per square inch psi 1.45 x 10-4 0,1450 14,5038 1,0000 1,4223 0,0193 metre of water m H 2O 1.02 x 10-4 0,1020 10,1972 0,7031 1,0000 0,0136 millimetre of mercury mm Hg 0,0075 7,5006 750,0638 51,7151 73,5561 1,0000 PRESSURE AND HEAD SURE AND HEAD PRESSURE PRES Newton per square metre N/m2 1,0000 1000,0000 1 x 105 6894,7570 9806,6500 133,3220 kilo Pascal bar kPa bar 1 x 10-5 0,0100 1,0000 0,0689 0,0981 0,0013 0,0010 1,0000 100,0000 6,8948 9,8067 0,1333 LENGTH TH LENGTH LENG millimetre centimetre metre inch foot yard mm cm m in ft yd 1,0000 10,0000 1000,0000 25,4000 304,8000 914,4000 0,1000 1,0000 100,0000 2,5400 30,4800 91,4400 0,0010 0,0100 1,0000 0,0254 0,3048 0,9144 0,0394 0,3937 39,3701 1,0000 12,0000 36,0000 0,0011 0,0033 0,0328 3,2808 0,0833 1,0000 3,0000 0,0109 1,0936 0,0278 0,3333 1,0000 VOLUME OL UME OLUME V cubic metre m 3 1,0000 0,0010 1 x 10-6 0,0045 0,0038 0,0283 litre millilitre imp. Gallon US gallon cubic foot litro ml imp. gal. US gal. ft3 1000,0000 1,0000 0,0010 4,5461 3,7854 28,3168 1 x 106 1000,0000 1,0000 4546,0870 3785,4120 28316,8466 219,9694 0,2200 2.2 x 10-4 1,0000 0,8327 6,2288 264,1720 0,2642 2.642 x 10-4 1,2009 1,0000 7,4805 35,3147 0,0353 3.53 x 10-5 0,1605 0,1337 1,0000 G-at_pp-en_a_sc 45 TECHNICAL APPENDIX FURTHER PRODUCT SELECTION AND DOCUMENT ATION DOCUMENTA Xylect Xylect is pump solution selection software with an extensive online database of product information across the entire Lowara, and Vogel range of pumps and related products, with multiple search options and helpful project management facilities. The system holds up-to-date product information on thousands of products and accessories. The possibility to search by applications and the detailed information output given makes it easy to make the optimal selection without having detailed knowledge about the Lowara and Vogel products. The search can be made by: • Application • Product type • Duty point Xylect gives a detailed output: • List with search results • Performance curves (flow, head, power, efficiency, NPSH) • Motor data • Dimensional drawings • Options • Data sheet printouts • Document downloads incl dxf files TECHNICAL APPENDIX The search by application guides users not familiar with the product range to the right choice. 46 FURTHER PRODUCT SELECTION AND DOCUMENT ATION DOCUMENTA Xylect The detailed output makes it easy to select the optimal pump from the given alternatives. The best way to work with Xylect is to create a personal account. This makes it possible to: • Set own standard units • Create and save projects • Share projects with other Xylect users Every user have a My Xylect space, where all projects are saved. For more information about Xylect please contact our sales network or visit www.xylect.com. Dimensional drawings appear on the screen and can be downloaded in dxf format. 47 TECHNICAL APPENDIX Xylem 1) The tissue in plants that brings water upward from the roots; 2) a leading global water technology company. We’re 12,000 people unified in a common purpose: creating innovative solutions to meet our world’s water needs. Developing new technologies that will improve the way water is used, conserved, and re-used in the future is central to our work. We move, treat, analyze, and return water to the environment, and we help people use water efficiently, in their homes, buildings, factories and farms. In more than 150 countries, we have strong, long-standing relationships with customers who know us for our powerful combination of leading product brands and applications expertise, backed by a legacy of innovation. For more information on how Xylem can help you, go to xyleminc.com. Headquarters LOWARA S.r.l. Unipersonale Via Vittorio Lombardi 14 36075 Montecchio Maggiore - Vicenza - Italy Tel.(+39) 0444 707111 - Fax(+39) 0444 492166 e-mail: lowara.mkt@xyleminc.com web: www.lowara.com - www.completewatersystems.com LOWARA reserves the right to make modification without prior notice. LOWARA is a trademark of Xylem Inc. or one of its subsidiaries.