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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
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- -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
Switching Function
-25...110°C - -20...90°C
6 items
VHS Flow Switch
7589
The SIKA VHS flow switches are used for monitoring volume flows. Depending on conditions, the SIKA VHS flow switch is available for various nominal widths and set-point ranges. The SIKA VHS flow switch contains a paddle system to whose end a permanent magnet is attached. Above this magnet is a reed contact, located outside the flow of fluid. A second magnet creates the force necessary to reset the switch back to the no-flow position. When the flow being monitored pushes against the paddle system, the paddle swings away. This changes the position of the magnet in relation to the reed contact and thus activates the connection. As soon as the flow is interrupted, the paddle moves back to its starting position, thus activating the reed contact once again. The force necessary to push the magnet back is provided by the two magnets repelling each other. Using magnetic force instead of the usual leaf spring means that the switch is considerably more stable in the long term and much less sensitive to pressure peaks.
- USD
VHS09 Flow Switch
7600
The SIKA VHS09 flow switches are used for monitoring volume flows. Depending on conditions, the SIKA VHS09 flow switch is available for various nominal widths and set-point ranges. The SIKA VHS09 flow switch contains a paddle system to whose end a permanent magnet is attached. Above this magnet is a reed contact, located outside the flow of fluid. A second magnet creates the force necessary to reset the switch back to the no-flow position. When the flow being monitored pushes against the paddle system, the paddle swings away. This changes the position of the magnet in relation to the reed contact and thus activates the connection. As soon as the flow is interrupted, the paddle moves back to its starting position, thus activating the reed contact once again. The force necessary to push the magnet back is provided by the two magnets repelling each other. Using magnetic force instead of the usual leaf spring means that the switch is considerably more stable in the long term and much less sensitive to pressure peaks.
- USD
VHS06 Flow Switch
7604
The SIKA VHS06 flow switches are used for monitoring volume flows. Depending on conditions, the SIKA VHS06 flow switch is available for various nominal widths and set-point ranges. The SIKA VHS06 flow switch contains a paddle system to whose end a permanent magnet is attached. Above this magnet is a reed contact, located outside the flow of fluid. A second magnet creates the force necessary to reset the switch back to the no-flow position. When the flow being monitored pushes against the paddle system, the paddle swings away. This changes the position of the magnet in relation to the reed contact and thus activates the connection. As soon as the flow is interrupted, the paddle moves back to its starting position, thus activating the reed contact once again. The force necessary to push the magnet back is provided by the two magnets repelling each other. Using magnetic force instead of the usual leaf spring means that the switch is considerably more stable in the long term and much less sensitive to pressure peaks.
- USD
VMI 20 Magnetic Inductive Flow Sensor
7647
Due to the robust metal housing and stable metal process connections, the SIKA VMI 20 is ideal for use in the field of mechanical engineering and plant construction. Its design also makes it suitable for higher temperatures and process pressures, and the instrument is available in three different sizes. All sensors will be delivered with a works calibration certificate. The smart flow sensors of the SIKA VMI 20 induQ® series operate according to the principle of induction: The measuring pipe is in a magnetic field (B). If an electrically conductive medium, with the flow (Q) to be measured, flows through the measuring pipe and thereby at a right-angle to the magnetic field, a voltage (U) is induced in the medium. This voltage is proportional to the average flow velocity and is picked up by two electrodes. Regarding flow proportional output signals, two versions are available: Frequency output signal (standard) Analog and frequency output signal (option) The pulse rate can be configured at the factory. The induQ® sensors enable the flow measurement/volume flow measurement or dosing of electrically conductive liquids without any moving parts. They are the ideal flow sensors when accuracy and reliability are a must.
- USD
VMI 10 Magnetic Inductive Flow Sensor
7649
Due to the robust metal housing and stable metal process connections, the SIKA VMI 10 is ideal for use in the field of mechanical engineering and plant construction. Its design also makes it suitable for higher temperatures and process pressures, and the instrument is available in three different sizes. All sensors will be delivered with a works calibration certificate. The smart flow sensors of the SIKA VMI 10 induQ® series operate according to the principle of induction: The measuring pipe is in a magnetic field (B). If an electrically conductive medium, with the flow (Q) to be measured, flows through the measuring pipe and thereby at a right-angle to the magnetic field, a voltage (U) is induced in the medium. This voltage is proportional to the average flow velocity and is picked up by two electrodes. Regarding flow proportional output signals, two versions are available: Frequency output signal (standard) Analog and frequency output signal (option) The pulse rate can be configured at the factory. The induQ® sensors enable the flow measurement/volume flow measurement or dosing of electrically conductive liquids without any moving parts. They are the ideal flow sensors when accuracy and reliability are a must.
- USD
VMI 07 Magnetic Inductive Flow Sensor
7651
Due to the robust metal housing and stable metal process connections, the SIKA VMI 07 is ideal for use in the field of mechanical engineering and plant construction. Its design also makes it suitable for higher temperatures and process pressures, and the instrument is available in three different sizes. All sensors will be delivered with a works calibration certificate. The smart flow sensors of the SIKA VMI 07 induQ® series operate according to the principle of induction: The measuring pipe is in a magnetic field (B). If an electrically conductive medium, with the flow (Q) to be measured, flows through the measuring pipe and thereby at a right-angle to the magnetic field, a voltage (U) is induced in the medium. This voltage is proportional to the average flow velocity and is picked up by two electrodes. Regarding flow proportional output signals, two versions are available: Frequency output signal (standard) Analog and frequency output signal (option) The pulse rate can be configured at the factory. The induQ® sensors enable the flow measurement/volume flow measurement or dosing of electrically conductive liquids without any moving parts. They are the ideal flow sensors when accuracy and reliability are a must.
- USD
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