Diaphragm Liquid Pumps

Transcription

1 Diaphragm Liquid Pumps Series 52 F F 12 FP F F 12 FP 21 Product Features Self priming Dry running Oil-less, non lubricated Suitable for continuous operation (motor shaft should be horizontal) Chemical resistent pump materials for aggressiv media Drive available for all required voltages in AC and DC Range of Applications Chemical industry Medical devices Laboratory and analysis Industrial applications Hygiene Consult factory for customized solutions

2 + Diaphragm Liquid Pump 52F 4 ml/min up to 15 m H 2 O 6 m H 2 O 31(1.22) 81(3.19) 4(1.58) 3(1.18) 6x 3(.12) 3.4(.13) 4.9(.19) 26.9(1.6) 29.9(1.18) 5.5(1.99) 3(1.18) 26.9(1.6) 5.4(.21) x 47(1.85) M5(.2) 3.5(1.2) + 52(2.5) x 6.5(.26) 1.5(.41) 4.9(.19) 1.5(4.13) 14.5(.57) 21(.83) Option: Kopf mit M5 Gewinde head with M5 threads Drawing Type Polyarylamide/ Polyphenylensulfide/FKM Carbon/PTFE Part number 12 V DC V DC Free flow at U n 4 ml/min 4 ml/min 4 ml/min Max. pressure height at U n 4 m H 2 O 4 m H 2 O 4 m H 2 O up to 15 m H 2 O up to 15 m H 2 O up to 1 m H 2 O (dry) 6 m H 2 O 6 m H 2 O 5 m H 2 O Motor Permanent magnet Permanent magnet Permanent magnet Nominal voltage 12/24 V DC 12/24 V DC 12/24 V DC Nominal speed 3 rpm 3 rpm 3 rpm Nominal current,4/,2 A,58/,29 A,58/,29 A Starting current 1,7/,85 A 1,7/,85 A 1,7/,85 A Power consumption max. 5 W 7 W 7 W Insulation class E E E Protection class IP2 IP2 IP2 EMC protection Basic EMC filter (2L) Basic EMC filter (2L) Basic EMC filter (2L) Ambient temperature to 4 C 15 to 4 C 15 to 4 C Temperature range - medium to 7 C 15 to 7 C 15 to 7 C Motor housing temperature max. 15 C max. 15 C max. 15 C,19 kg,19 kg,19 kg Polyarylamide (PA) Polyphenylensulfide (PPS) Carbon Diaphragm Viton (FPM) PTFE liner Valves Viton (FPM) Kalrez /Simriz (FFPM) The technical data are based using a PVC-tubing, Ø 4 x 1,5 mm, 1 m length, 65 Sh. The use of a different tubing will change the flow. curve [ml/min] Stock programme Option: with M5 female thread Carbon/PTFE Polyarylamide/ Polyphenylensulfide/FKM

3 Diaphragm Liquid Pump 52FZ 85 ml/min up to 15 m H 2 O 5 m H 2 O Drawing A Type Polyarylamide/ Part number 12 V DC V DC Free flow at U n 85 ml/min Max. pressure height at U n 4 m H 2 O up to 15 m H 2 O (dry) 5 m H 2 O Motor Permanent magnet Nominal voltage 12/24 V DC Nominal speed 3 rpm Nominal current,4 A Starting current 1,8 A Power consumption max. 9 W Insulation class E Protection class IP EMC protection EN 5511 Ambient temperature to 4 C Temperature range - medium to 7 C Motor housing temperature max. 86 C,19 kg Polyarylamide (PA) Diaphragm Valves The technical data are based using a PVC-tubing, Ø 4 x 1,5 mm, 1 m length, 65 Sh. The use of a different tubing will change the flow. curve 9 [ml/min] Stock programme Option: with M5 female thread. 8 Polyarylamide/

4 Diaphragm Liquid Pump F12-Stepper 26 ml/min up to 5 m H 2 O 4 m H 2 O 5 8 Drawing Type F12-28 Part number 24 V DC without circuit board V DC with circuit board Regelbereich n1 n2 n3 n4 Free flow at U n 1-9 ml/min 1-4 ml/min 2,5-14 ml/min 5-26 ml/min Max. pressure height* 6 m H 2 O 6 m H 2 O 5 m H 2 O 4 m H 2 O up to 5 m H 2 O up to 5 m H 2 O up to 4 m H 2 O up to 3 m H 2 O (dry) 4 m H 2 O 4 m H 2 O 4 m H 2 O 4 m H 2 O Motor Stepper, bipolar Stepping angle 1,8 Nominal voltage 24 V DC or 2 V AC** Speed range,2-3 rpm Max. current,8 A Starting current 5 A Insulation class B Protection class IP Ambient temperature to 4 C Temperature range - medium to 7 C,63 kg Diaphragm, valves Fixing disk Polyphenylensulfide (PPS) Viton (FPM) (AISI 316 Ti) The technical data are based using a PVC-tubing, Ø 4 x 1,5 mm, 1 m length 65 Sh. The use of a different tubing will change the flow. * Pressure higher than indicated can lead to a motor blocking. ** Use a time-lag fuse. curve Drive electronic with 1/8 steps [ml/min] F12-28 n2 F12-28 n3 25 F12-28 n Drawing L17747 We recommend a cooling of the IC at continous duty (see option below). Option: Cooling bar 29 x 11,5 x 37,5 mm, part no mm 14-pole connecting cable with plug, rocker switch for clockwise and lefthanded running, potentiometer and speed-push-botton, part no Pulsationsdamper (UVS 1) 4

5 Diaphragm Liquid Pump F12G 9 ml/min (only for intermittent duty) up to 2 m H 2 O 4 m H 2 O ø4.2(.17) 4(1.58) 4.2(.16) 6.3(.25) ø42(1.65) Drawing (1.62) 5(.2) 32(1.25) 43(1.7).8(.3) 36.8(1.45) 75(2.95) 48(1.89) Type F12G Part number 12 V DC V DC Free flow at U n 9 ml/min Max. pressure height at U n > 5 m H 2 O up to 2 m H 2 O (dry) 4 m H 2 O Motor Nominal voltage Nominal speed Nominal current Starting current Power consumption max. Insulation class Protection class EMC protection Permanent magnet 12/24 V DC 3 rpm 2,/1, A 5,4/3,5 A 24 W E IP5 Basic EMC filter (2L + 1C)* Ambient temperature to 4 C Temperature range - medium to 7 C,7 kg Polyphenylensulfide (PPS) Diaphragm, valves Viton (FPM) Fixing disk (AISI 316 Ti) The technical data are based using a PVC-tubing, Ø 4 x 1,5 mm, 1 m length, 65 Sh. The use of a different tubing will change the flow. * 2L at 24 V DC curve 9 [ml/min] 8 F12G

6 Diaphragm Liquid Pump FP21 9 ml/min up to 2 m H 2 O 1,5 m H 2 O ø 24(.95) 1(.39) 5(1.97) 1(.39) 89(3.5) 84(3.31) M4(.16) 4x X 8(3.15) 9(.35) 158(6.22) 2(.79) 6(2.36) 7(2.76) Ansicht X 32(1.26) M4(.16) 9(.35) 8x Drawing (1.97) ø7(2.76) 18.5(.73) 23(.91) Type FP 21 FP 21 FP 21 Part number 23 V/5 Hz V/6 Hz V/5-6 Hz Free flow at U n 9 ml/min 9 ml/min 9 ml/min Max. pressure height at U n 3 m H 2 O 3 m H 2 O 3 m H 2 O up to 2 m H 2 O up to 2 m H 2 O up to 2 m H 2 O (dry) 1,5 m H 2 O 1,5 m H 2 O 1,5 m H 2 O Motor Shaded pole Shaded pole Shaded pole Nominal voltage 23 V/5 Hz 115 V/6 Hz 1 V/5-6Hz Nominal speed 26 rpm 31 rpm 26/31 pm Nominal current,6 A,9 A 1,3/1,2 A Starting current,7 A 1,5 A 1,5/1,4 A Power consumption max. 6 W 68 W 6/68 W Insulation class B A (Ul) A (Ul) Protection class IP IP IP EMC protection EN 5511 EN 5511 EN 5511 Ambient temperature to 4 C Temperature range - medium to 7 C,7 kg Polyarylamide, Polypropylene Diaphragm Gasket, valves Chlorbutadiene rubber Spring (AISI 316 Ti) The technical data are based using a PVC-tubing, Ø 4 x 1,5 mm, 1 m length, 65 Sh. The use of a different tubing will change the flow. curve 9 [ml/min] 8 FP

7 Diaphragm Liquid Pump FP21Z 2,2 l/min up to 2 m H 2 O 1,5 m H 2 O 89(3.5) 24(.95) ø ø42(1.65) 5(1.97) 5(1.97) 1(.39) 1(.39) 9(.35) M4(.16) 8x X 95(3.74) 181(7.13) 6(2.36) Drawing Ansicht X 32(1.26) 99(3.9) M4(.16) 16 x 32(1.26) 9(.35) 18.5(.73) 23(.91) 95(3.74) Type FP21Z Part number 12 V DC V DC Free flow at U n 2,2 l/min Max. pressure height at U n 35 m H 2 O up to 2 m H 2 O (dry) 1,5 m H 2 O Motor Nominal voltage Nominal speed Nominal current Starting current Power consumption max. Insulation class Protection class EMC protection Permanent magnet 12/24 V DC 36/39 rpm 2,1/1,1 A 7,6/5,3 A 26 W E IP5 Basic EMC filter (2L)* Ambient temperature to 4 C Temperature range - medium to 7 C,7 kg Diaphragm Gasket, valves Spring Polyarylamide, Polypropylene Chlorbutadiene rubber (AISI 316 Ti) The technical data are based using a PVC-tubing, Ø 4 x 1,5 mm, 1 m length, 65 Sh. The use of a different tubing will change the flow. * 2L + 2C at 12 V DC curve [l/min] 2,4 2,2 FP21Z 2, 1,8 1,6 1,4 1,2 1,,8,6,4,

8 Chemical Resistance PP PVC PA PPS Carbon Stainless steel (AISI316) PFTE FPM PP PVC PA PPS Carbon Stainless steel (AISI316) PFTE FPM Acetaldehyde A C A A A A A C A Urea A A A A A A A A A Acetate C C A A A A A C A Uric Acid A A A A A A A A A Acetone A C A A A A A C A Isoprophyl alcohol A A B - A A A A A Aluminium chloride A A C A A C A A A Jodine C C C C A C A A B Aluminium sulfate A A C A A B A A A Kaliumhydroxyde A B A A A A A A C Formic acid A A C A A C A C A Potassium salts A A A A A B A A A Ammonia A A B A A A A C A Ketones C B A A A A A C C Amyl acetate B C C A A A A C A Aqua regia B C C C C C A B C Amyl alcohol B A A A A A A A A Oil, linseed A A A B A A A A C Amyl chloride C C C A A A A B C Magnesium chloride solution A A A A A A A A A Aniline C C C A A B A C B Methanol A A C A A A A C A Arsenic acid A A C A A A A A A Methyl ethyl ketone A C A A A A A C A Ether C C A A A B A C C Lactic acid A B C A A B A A A Ethyl alcohol B C A A - A A C C Sodium chloride A A A A A C A A A Barium hydroxide B A A A A B A A A Sodium hydroxide 4 % A A A A A C A C A Benzaldehyde A C C A A B A C A Sodium hypochlorite <5% B A A A B C A A B Petrol C A A A A A A A C Sodium hypochlorite 12 % B C A A C C A A B Benzoic acid C A C A C B A A C Sodium carbonate A A A A A A A A A Benzene A C C A - A A A B Sodium salt A A A A A - A A A Benzylalcohol A C C A - A A A B Oil, hydraulic C A A C B A A A C Hydrocyanic acid A A C B A B A B A Oil, mineral C A A A A A A A C Bleaching agent A A C C A C A A A Oil, vegatable A C A - A A A A B Boric acid A A B A A A A A A Oil, animal A A A A B Break liquuid A A C A C A Oleic acid B C B A A B A B B Bromine C C C C C C A A C Oxalic acid A A B A A B A A A Butane C C A A A A A A C Paraffins A A A A A A A B C Butanol A B B A A A A A B Perchloroethylene C C C A A A A B C Calcium hypochlorite A B C A A B A A B Perchloric acid - - C A - B A A B Carbon disulphide C C A A - B - B C Phenol B C C A A B A A B Chlorine, liquid C A C C A C A A C Phosphoric acid, 25 % A - C A - C A A B Chlorobenzene C C B A A B B C C Phtalic acid, 9 % C C - - A A A A A Chloracetic acid C B C A A A A C B Pyridine A C B A A A A C B Chloroform C C C A A A A B C Mercury salts A A - A C C A A A Chromium salts C C A - - B A A C Nitrous acid 1 % A A - - A A A A A Chromic acid 5 % B C C A A B A A B Hydrochloric acid B B C A A C A B C Cyclohexane C C A A A A A B C Sulphurdioxide, wet gas A A A A A A A A A Diesel fuel A A A A A A A A C Sulphuric acid, 3 % A A C A A C A A B Ferric sulfate A A A A A A A A A Sulphuric acid, 75-1% C C C A C C A A B Photograpic solutionsa A A - A A A A B Sulphurtrioxide C A C - C A A A B Acetic acid B C A A A A A C B Hydrogen sulphide A B C A A C A C A Acetic anhydride B C C A A A A C A Soap solution A A A A A A A B A Ethanol B C A A A A A C B Stearic acid, 5 % A B A - A A A A B Ethyl chloride A C A - - A A B A Turpentine B B A A A A A A C Ethylene glycol A A B A A A A A A Tetrahydrofurane C C C A A A A C B Fluoroboric acid, 48 %A A C A A B A A A Toluole C C C A A A A A C Fluor silicium acid A A C A A C A A A Trichloroehtylene B C C A B B A B C Formaldehyde C A C B - A A C A Hydrogen peroxide B A C C C A A A B Formamide A A A C A Xylene C C C A A A A A C Furfural C C B A A B A C B Zinc chloride A A A A A C A A A Tannic acid A B A A A A A B B Citric acid A B A A A A A A A A = small or no effect B = minor or moderate effect C = severe effect The material resistance is influenced by temperature and concentration of the medium. The data has to be seen as indication and does not guarantee the material properties. Rietschle Thomas Puchheim GmbH Siemensstraße 4 Gewerbegebiet Nord D Puchheim Phone: Fax: info.puc@rtpumps.com The information presented in this material is based on technical data and test results of nominal units. It is believed to be accurate and reliable and is offered as an aid to help in the selection of Thomas products. It is the responsibility of the user to determine the suitability of the product for the intended use and the user assumes all risk and liability whatsoever in connection therewith. Thomas does not warrant, guarantee or assume any obligation or liability in connection with this information. Art.-Nr.: /26