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Medium Temperature
- 0...20°C__0...60°C 1
- 0...50 °C 3
- 0...85°C 2
- 0...90°C 1
- 0...90°C__95°C 2
- 2€°200°C__ 150°C 1
- 5...60°C 1
- 10...100°C 1
- 30...100°C 2
- 60°C 7
- 80°C 2
- 120°C__30...100°C 1
- 200°C 1
- 200°C__Max. 100°C 4
- -10€°160°C 1
- -10...50°C 3
- -10...60°C 5
- -10...70 °C 1
- -10...90°C 5
- -10...120°C 1
- -20°200°C 1
- -20...60°C 1
- -20...70°C 1
- -20...70°C__0...70°C 1
- -20...80°C 3
- -20...85°C 1
- -20...90°C 3
- -20...100°C 3
- -20...110°C 1
- -20...130°C__-20...150°C 1
- -20...150°C 3
- -25...100°C 5
- -25...100°C__0...20°C 1
- -25...110°C 3
- -30...60°C 1
- -30...85°C 1
- -30...150°C 5
- -30...200°C 1
- -40°80°C 2
- -40...75°C 1
- -40...85°C 1
- -40...100°C 4
- -40...110°C 1
- -40...120°C 2
- -40...125°C 1
- -50°180°C 3
- Max. 60°C 4
- Max. 85°C 5
- Max. 100°C 17
- Max. 100°C__Max. 200°C 1
- Max. 110°C 3
- Max. 115°C 1
- Max. 120°C 1
- Max. 125°C  1
- Max. 150°C 1
- Max. 200°C 5
- O-Ring FKM: -15°C...150°C__O-Ring NBR: -30°C...100° 1
- see sealing material 1
Pressure Range
-40...120°C - -40...110°C
3 items
VH780 Flow Switch
7590
The SIKA VH780 flow switch monitors the flow of low-viscosity media in pipes. The SIKA VH780 offers a reliable solution for ensuring the minimum flow rate and thereby protecting high-quality systems and installations from damages. These flow switches work based on the well- established mechanical operating principles. Thanks to the different paddle lengths, the switch points of the paddle flow switches can be configured for a wide switching range. The flowing medium hits the plate secured to the end of a paddle. The resulting dynamic pressure causes the paddle to travel. This, in turn, causes the actuation of a micro switch. The flowing medium hits the plate secured to the end of a paddle. The resulting dynamic pressure causes the paddle to travel. This, in turn, causes the actuation of a micro switch.
- USD
VH501 Flow Switch
7592
The SIKA VH501 flow switch monitors the flow of low-viscosity media in pipes. The SIKA VH501 offers a reliable solution for ensuring the minimum flow rate and thereby protecting high-quality systems and installations from damages. These flow switches work based on the well- established mechanical operating principles. Thanks to the different paddle lengths, the switch points of the paddle flow switches can be configured for a wide switching range. The flowing medium hits the plate secured to the end of a paddle. The resulting dynamic pressure causes the paddle to travel. This, in turn, causes the actuation of a micro switch. The flowing medium hits the plate secured to the end of a paddle. The resulting dynamic pressure causes the paddle to travel. This, in turn, causes the actuation of a micro switch.
- USD
GLS-1000 Float Switch
8132
The WIKA GLS-1000 float switch has been developed for monitoring the levels of liquids. It combines the advantages of the proven and robust float-based measuring principle with modern digital switching technology with PNP and NPN output signals. The WIKA GLS-1000 float switch is suitable for a multitude of media, such as for example, oil, water, diesel and refrigerants. A permanent magnet built into the float, through its magnetic field, activates the semiconductor sensors built into the guide tube. The switching operation is contact-free and free from wear. Since no mechanical switching process is triggered, the sensor offers an unlimited number of switching cycles. Depending on customer wishes, the switching functions of normally open and normally closed can be realised as PNP or NPN outputs for the defined switch position.
- USD
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