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Pressure Range
- 0...0.6 bar 1
- 0...0.6 bar__0...40 bar 5
- 0...0.6 bar__0...40 bar__PN 16/40 or Class 150/300 1
- 0...1.000 bar 1
- 0...1.000 mbar 1
- 0...1 bar__0...10 bar 1
- 0...1 bar__0...25 bar 1
- 0...1 bar__0...40 bar 1
- 0...10.000 bar 1
- 0...10 bar__0...600 bar 1
- 0...16 bar 1
- 0...25 bar 3
- 0...40 bar 1
- 0...60 bar 4
- 0...100 bar 1
- 0...250 bar 1
- 0...400 bar 2
- 0...600 bar 9
- 0...700 bar 3
- 0...1000 bar 2
- 0...1600 bar 1
- 2...20 bar 1
- 10 bar 1
- 10 bar__6 bar__8 bar 6
- 20 bar 1
- 25 bar__40 bar 2
- 25 mbar 1
- 40...400 mbar 1
- 100 bar 1
- 250 bar 1
- 300 bar 1
- 350...400 bar 2
- -0.2...21 bar 1
- -0.2...400 bar 1
- -0.95...40 bar 1
- -0.95...60 bar 1
- -1...1 bar__0...2.000 bar 1
- -1...1 bar__0...2500 bar 1
- -1...2 bar__0...1000 bar 1
- -1...3 bar__0...700 bar 1
- -1...3 bar__0...1000 bar 1
- -1...10 bar__0...1000 bar 1
- -1...18 bar 1
- -1...60 bar 1
- -1...210 bar 2
- -1...250 bar 1
- -1...400 bar 1
- -1...1000 bar 1
- Corresponding to flange specification 1
- From 400 mbar depending on diameter of diaphragm 1
- PN 10 10
- PN 10 €“ 100; Class 150 - 600 1
- PN 16 8
- PN 25 5
- PN 50 2
Switching Function
-0.95...60 bar, 40...400 mbar, 0...0.6 bar - PN 10
13 items
990.15 Flanged Process Connection Diaphragm Seal
2282
Together with a block flange or a saddle flange, the WIKA 990.15 diaphragm seal forms a perfectly matched system. Through the process connection via block flanges or saddle flanges, compact assemblies can be optimally realised at the measuring point. Depending on customer requirements, the model 990.15 can be subsequently integrated into a process using the accessory models 910.19, 910.20 and 910.23. The process connection is designed as a flange connection. The measuring instrument is in a vertical position. Applications Specifically for connection with block flange or saddle flange and to combine with bourdon tube pressure gauges Suitable for corrosive, contaminated, hot or viscous pressure media Chemical and petrochemical industry
- USD
MBS 9300 Pressure Transmitter
2374
Compact Danfoss MBS 9300 pressure transmitter (gauge version) is designed for use in marine applications, e.g. crankcase and turbocharger filters monitoring and applications within level measurement. The MBS 9300 pressure transmitter covers a 4 “ 20 mA and ratiometric 10-90% of supply output signals, a pressure span from 40 “ 400 mbar, and bidirectional ranges. Excellent vibration stability, robust construction, and a high degree of EMC/EMI protection equip the pressure transmitter to meet the most stringent industrial requirements.
- USD
P 60 Pneumatic Hand Test Pump
4871
The SIKA P 60 pneumatic hand test pump is designed to enable the direct connection of all pressure systems to be tested using adapters. The test sample is easily connected using the rugged industrial hose with integrated quick coupling and supplied adapters. The reference is fitted directly at the top of the pump using a positioning adapter. The required test pressure is initially generated using the handles and then adjusted precisely with the fine adjustment valve. As a result, the pressure on both instruments is the same. The pressure relief valve allows continuous pressure reduction and ensures accurate and easy testing, even with decreasing pressure. Air is used as pressure media. Especially in application areas in which wetting of the test sample is not allowed, or the use of aggressive or ionising substances must be avoided, air is the ideal test medium. SIKA˜s pneumatic test pump type P 60 fulfils requirements that in many cases can only be covered by several pumps from other suppliers. In the simplest case, the pressure is indicated by an analogue pressure gauge. An easy to read digital pressure gauge or hand-held instrument can also be used. The accuracy or adjustment of the pressure measuring device being tested can be checked by comparing the indicated reference value with the measured value for the device under test. OEM version and full version Depending on the model a matching pressure hose is part of the basic configuration of the OEM version of the test pump. The hydraulic hoses are fitted with a self-sealing quick coupling. Inch, conical or metric adapters for all commonly used connection threads are available in the full version. A matching seal kit is also included with the pump. All of the equipment is held in a carrying case with a foam-rubber insert.
- USD
VKX15 OEM Flow Switch
7594
The SIKA VKX05 OEM flow switches are used for monitoring volume flows. Depending on conditions, the SIKA VKX05 OEM flow switch is available for various nominal widths and set-point ranges. The SIKA VKX05 OEM 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
VK3 Flow Switch
7596
The SIKA VK3 flow switches are used for monitoring volume flows. Depending on conditions, the SIKA VK3 flow switch is available for various nominal widths and set-point ranges. The SIKA VK3 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
VK309 Flow Switch
7598
The SIKA VK309 flow switches are used for monitoring volume flows. Depending on conditions, the SIKA VK309 flow switch is available for various nominal widths and set-point ranges. The SIKA VK309 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
VK306 Flow Switch
7602
The SIKA VK306 flow switches are used for monitoring volume flows. Depending on conditions, the SIKA VK306 flow switch is available for various nominal widths and set-point ranges. The SIKA VK306 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
VKS Flow Switch
7608
The SIKA VKS flow switches are used for monitoring volume flows. Depending on conditions, the SIKA VKS flow switch is available for various nominal widths and set-point ranges. The SIKA VKS 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
VTH 40 Turbine Flow Sensor
7805
The SIKA VTH 40 turbine flow sensor is made for flow measurement or dosing applications for liquids. Because of the very compact design, the extensive measuring range and the convincing precision of measurements, almost unlimited applications are possible. The sturdy bearing materials – sapphire and tungsten carbide – also guarantee an exceptionally long endurance. The liquid flowing into the SIKA VTH 40 turbine flow sensor is split into individual jets by the guiding blade. These jets hit the rotor evenly from different directions, 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. The construction of the guiding blade and rotor enables to realize the very low start-up flow values.
- USD