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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
Nominal Pressure
Nominal Size
Switching Function
Max. 110°C - 80°C
5 items
312.20 Mechanical Test Gauge
2858
The WIKA 312.20 mechanical test gauge has been specifically designed for the measurement of pressures with high accuracy. With its accuracy class of 0.6, the Bourdon tube pressure gauge is suitable for testing industrial type pressure gauges or for precision measurement in laboratories. For the respective measuring requirement, a scale range between 0 … 0.6 and 0 … 600 bar can be selected. The WIKA 312.20 mechanical test gauge is constructed with a case from stainless steel and wetted parts from copper alloy. The instrument meets the requirements of the international industry standard EN 837-1 for Bourdon tube pressure gauges. The optimal readability of the instrument, with a nominal size of 160 mm, is achieved via a knife-edge pointer and a dial with fine divisions. Supported through the optional mirror band scale, the parallax error can be eliminated.
- USD
PGS21.1x0 Bourdon Tube Pressure Gauge
7150
Wherever the process pressure has to be indicated locally and, at the same time, circuits need to be switched, the WIKA PGS21.100 and PGS21.160 switchGAUGE finds its use. Switch contacts (electrical alarm contacts) make or break an electric control circuit dependent upon the position of the instrument pointer. The switch contacts are adjustable over the full extent of the scale range (see DIN 16085), and are mounted predominantly below the dial, though also partly on top of the dial. The instrument pointer (actual value pointer) moves freely across the entire scale range, independent of the setting. The set pointer can be adjusted using a removable adjustment key in the window. Switch contacts consisting of several contacts can also be set to a single set point. Contact actuation is made when the actual value pointer travels beyond or below the desired set point. The pressure gauge is manufactured in accordance with DIN 16085 and fulfils all requirements of the relevant standards (EN 837-1) and regulations for the on-site display of the working pressure of pressure vessels. As switch contacts, magnetic snap-action contacts, reed switches, inductive contacts and electronic contacts are available. Inductive contacts can be used in hazardous areas. For triggering programmable logic controllers (PLC), electronic contacts and reed switches can be used.
- USD
VHS Metal Level Switch
7859
The SIKA VHS level switch is a secure and reliable solution for monitoring fluid levels. The VHS level switch is installed at the side using G¾ or G½ thread sizes. The time-tested float principle and a potential-free contact as the signalling transmitter guarantee a high level of operational safety. The rising level in the tank forces the float up. Via paddle system, the magnet changes its position relative to Reed contact and actuates it. The repulsion between the two homopolar magnets and supports the buoyancy (Version VK… different). As soon as the level sinks again, the float follows also, and the magnet actuates the Reed contact again. Works adjusted switching function contact makes with a rising level contact opens with a falling level Can be changed by the customer. The Reed contact (3) used as signalling transmitter consists of two ferromagnetic contact-making tongues positioned in a shielding gas-filled glass bulb. As a result, burned contacts are virtually eliminated. This construction enables durability up to 100 000 000 switching cycles.
- USD
VH6 Metal Level Switch
7868
The SIKA VH6 level switch is a secure and reliable solution for monitoring fluid levels. The VH6 level switch is installed at the side using G¾ or G½ thread sizes. The time-tested float principle and a potential-free contact as the signalling transmitter guarantee a high level of operational safety. The rising level in the tank forces the float up. Via paddle system, the magnet changes its position relative to Reed contact and actuates it. The repulsion between the two homopolar magnets and supports the buoyancy (Version VK… different). As soon as the level sinks again, the float follows also, and the magnet actuates the Reed contact again. Works adjusted switching function contact makes with a rising level contact opens with a falling level Can be changed by the customer. The Reed contact (3) used as signalling transmitter consists of two ferromagnetic contact-making tongues positioned in a shielding gas-filled glass bulb. As a result, burned contacts are virtually eliminated. This construction enables durability up to 100 000 000 switching cycles.
- USD
Extended Level Switch
8957
The TUVO Instruments extended level switch is a secure and reliable solution for monitoring fluid levels. The extended level switch is installed at the side using G¾ or G½ thread sizes. The time-tested float principle and a potential-free contact as the signalling transmitter guarantee a high level of operational safety. The extended level switch can be customized up to the customer's wishes. By this unique feature of the extended floater, longer distances can be reached within the process or in a tank or basin. The floater is 3D printed so fully customisable to the customer's needs. The rising level in the tank forces the float up. Via paddle system, the magnet changes its position relative to Reed contact and actuates it. The repulsion between the two homopolar magnets and supports the buoyancy. As soon as the level sinks again, the float follows also, and the magnet actuates the Reed contact again. Works adjusted switching function Contact makes with a rising level Contact opens with a falling level
- USD
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