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- 1/4 NPT-F 1
- 1/4 NPT-F__Adapter 1/2 NPT-F__Adapter 1/2 NPT-M 1
- 1 NPT__½ NPT__¾ NPT 1
- 1 NPT__G ½ B__G ¾ B male__½ NPT__¾ NPT 1
- 2-wire 1
- 2-wire__3-wire__4-wire 8
- 2-wire__3-wire__4-wire__G ¼__G ½__G…œ__M10 x 1__M14×1.5 1
- 2x 3-wire__3-wire__4-wire 1
- 2 x G ¼ B female__2 x G ½ B male__½ NPT male 1
- 2 x G ¼ female__2 x ¼ NPT female 2
- 2 x G ¼ female__Centre distance 26 mm__In-line__Lower 1
- 2 x G½ female, lower mount (LM) 1
- 3-wire__4-wire 1
- 14 mm flats lower mount 1
- 9/16 - 18 UNF (female)__M16 x 1.5 (female)__M20 x 1. 1
- 5/8 - 18 UNF (female)__9/16 - 18 UNF (female)__G ½__M 1
- 5/8 - 18 UNF x 27 (female)__9/16 - 18 UNF (female)__ 1
- 19 mm flats__2 x G 3/8 B (male)__Back mount__Lower mo 1
- 7/16-20 UNF 2B Schrader female 1
- 7/16-20 UNF BOSS__G¼ B EN 837 1
- 22 mm flats__G ½ 1
- 25.4...49.5 mm 1
- 26.7 mm__33.4 mm__48.3 mm 1
- 40 mm__50 mm 1
- ¼ NPT female 1
- ANSI Flange__DIN Flange 1
- ANSI Flange__Flange 4
- Back connection 1
- Back mount__G ½__Lower mount 1
- Back mount__Thermowell G½ B 1
- BSP ISO 228__NPT__ DN 50 1
- Butt Weld 2
- Clamp connection per DIN 32676 / ISO 2852 / BS4825 1
- Copper alloy, lower mount (LM) G 1/4 B (male), 14 1
- DIN 11864 1
- DN 100__DN 25__DN 40__DN 50__DN 80 1
- Flange 17
- Flange__G ¼__G ¼ A__G ½ A__¼ NPT female__½ NPT 1
- Flange__G…›__G…œ 1
- Flange__Screwed 1
- Flanged 74
- G 1/4 (female)__G 1/4 (male) 1
- G 1 1
- G 1„8__G ¼ 2
- G 1„8__G ¼__M10 x 1__R 1/8__¼ NPT__…› NPT 2
- G 1¼ 1
- G 1¼ male thread 2
- G 1__G 1„8 1
- G1__G2__G¼__G½__G¾ 1
- G 1__G 2__G ¼__G ½__G…œ 1
- G1__G¼__G½__G¾ 2
- G 1__M33 x 2 1
- G1 B__G½ B__M20 x 1.5__Push-in/weld-in__½ NPT 1
- G1 female__G¾ B__M20 x 1.5 male 1
- G1-ISO 228 male 1
- G 1 male thread 1
- G1 male thread 2
- G2 2
- G¼ 4
- G ¼...G 1 2
- G¼ / H16 UNF 1
- G¼__G¼ A__G½ A__M20 x 1.5__¼ NPT female__½ NPT 1
- G ¼__G¾ 1
- G¼__G…› 1
- G ¼__SW 14 1
- G¼__SW 14 1
- G¼ A DIN 3852-E__¼ NPT 1
- G¼ A DIN 3852-E__sealing FKM/FPM 1
- G¼ B (male)__G½ B (male)__SW14__SW22 1
- G ¼ B (male)__Stainless steel 316L 1
- G ¼ B (male)__SW 14 1
- G¼ B (NS63)__G½ B (NS80, 100) 1
- G ¼ B__G …› B__¼ NPT__…› NPT 1
- G ¼ B female__G ½ B male__½ NPT male 1
- G ¼ female__G ½ female 1
- G ½ 1
- G½ 4
- G ½...G 2 2
- G ½__G¼ 1
- G ½__G¼__M20 x 1.5__½ NPT 1
- G ½__G¼__SW 14__SW 17__SW 22 1
- G ½__G¾ 1
- G½__G¾__M20 x 1.5__M27 x 2 4
- G ½__G¾__M24x2 1
- G½__G…œ__M20 x 1.5 2
- G ½__Lower mount__SW22 1
- G ½__Lower mount__SW 27 1
- G ½__SW 22 1
- G ½ B 2
- G ½ B (lower mount) 1
- G½ B (male)__Stainless steel 316L__SW 22 1
- G ½ B__¼ NPT__½ NPT 1
- G ½ B__½ NPT__½ NPT female 1
- G½ B__G¾ B male 1
- G ½ B__M20 x 1.5__½ NPT 1
- G ½ B female__G ½ B male__½ NPT male 1
- G ½ B male__SW 22 1
- G ½ B thread 1
- G½-ISO 228 male 1
- G½-ISO 228 male__G¾-ISO 228 1
- G½ male 1
- G¾ 5
- G…œ 1
- G …œ...G 1 1
- JIS flange 4
- Lower mount__¼ NPT female 1
- NS 40: G 1/8 B (male) NS 50, 63: G 1/4 B (male), 1
- Pipe adapter 1
- Rp 1/2__Rp 3/4 1
- Rp - female thread cylindrical (BSPT) 1
- Socket Weld 3
- Stainless steel 1
- Surface mounting 1
- Threaded 15
- UExSC 1
- UExUE 1
- Union End Sil Braze 9
- Union nut 1
- Via subplate with lateral female thread connection 2
Flow Rate (l/min)
Medium Temperature
Nominal Diameter
Pressure Range
G½ male - Via subplate with lateral female thread connection
3 items
VTY 10 Turbine Flow Sensor
7793
The SIKA VTY 10 turbine flow sensor gives you precise and robust products to measure flow rates or total flows, for water and water mixtures. Turbine flow sensors of the series VTY 10 is also available in a plastic version. The sensors are particularly suitable for use in, e.g. dosing systems, heaters, coolers or temperature control units. The liquid flowing into the turbine flow sensor is split into individual jets by the flow straightener. These jets hit the rotor evenly, setting the rotor in motion. The rotation speed of the rotor is then converted to an electrical pulse signal (frequency): The rotor is fitted with magnets, and a Hall effect sensor detects the rotation of the rotor. A flow-proportional frequency signal (square-wave signal) is made available. Given the uniform inflow to the bearing, the forces largely cancel themselves out and wear reduced to a minimum. The sturdy bearing materials “ sapphire and hard metal “ also guarantee an exceptionally long endurance.
- USD
VZVA Positive Displacement Flow Sensor
7830
SIKA's gearwheel type VZVA positive displacement flow sensor records volume flows of liquids with both high and changing viscosities. The high-precision sensors work according to the displacement principle. The high resolution combined with reliable measurement accuracy makes the sensors especially useful for applications involving the measurement of small and minimal volumes. A very precisely adjusted gear pair within the casing forms the measuring element. The inflowing medium causes the gear pair to rotate. Contactless sensors scan the rotary motion. Since each tooth generates a pulse, this results in a very high resolution. Consequently, even the smallest volumes can be measured or dosed precisely. The measurement unit contains two pick-offs that are circumferentially offset by ¼ of a tooth pitch to generate a two-channel flow-proportional frequency signal. Suitable processing of the signal provides a higher resolution and the option to identify the flow direction. The maximum pressure drop should not exceed 16 bar. This limits the measurement range of high viscosity media (see pressure drop diagrams). The measurement accuracy increases with an increase in viscosity of the media.
- USD
VZGG Positive Displacement Flow Sensor
7835
SIKA™s gearwheel type VZGG positive displacement flow sensor records volume flows of liquids with both high and changing viscosities. The high-precision sensors work according to the displacement principle. The high resolution combined with reliable measurement accuracy makes the sensors especially useful for applications involving the measurement of small and minimal volumes. A very precisely adjusted gear pair within the casing forms the measuring element. The inflowing medium causes the gear pair to rotate. Contactless sensors scan the rotary motion. Since each tooth generates a pulse, this results in a very high resolution. Consequently, even the smallest volumes can be measured or dosed precisely. The measurement unit contains two pick-offs that are circumferentially offset by ¼ of a tooth pitch to generate a two-channel flow-proportional frequency signal. Suitable processing of the signal provides a higher resolution and the option to identify the flow direction. The maximum pressure drop should not exceed 16 bar. This limits the measurement range of high viscosity media (see pressure drop diagrams). The measurement accuracy increases with an increase in viscosity of the media.
- USD
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