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Nominal Diameter
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
-1...18 bar, 350...400 bar, 0...1000 bar, 0...1 bar__0...25 bar - 250 bar
7 items
990.24 Sterile Connection Diaphragm Seal
2294
Due to their hygienic process connection, the WIKA 990.24 sterile connection diaphragm seals are particularly well suited for food production. With this diaphragm seal, pressure measuring instruments can be integrated, dead-space free, into a pipeline using a VARINLINE® access unit or in tanks using a connecting flange for VARINLINE® access units. The diaphragm seals can withstand the cleaning vapour temperatures occurring in the CIP and SIP processes and thus ensure a sterile connection between the medium to be measured and the diaphragm seal. Mounting of the diaphragm seal to the measuring instrument may be made via a direct connection, for high temperatures via a cooling element or via a flexible capillary. For the material selection, WIKA offers a variety of solutions, in which the upper body of the diaphragm seal and the wetted parts can be made of identical or different materials. The wetted parts can, as an alternative, be electropolished.
- USD
CPH6200 Pressure Indicator
3109
For the WIKA CPH6200 pressure controller, WIKA CPT6200 pressure sensors are available for reference pressure with measuring ranges of up to 1000 bar. Therefore, it is particularly suitable as a test instrument for applications such as process technology, machine building, etc. The digital indicator automatically detects the measuring range of the connected pressure sensor and guarantees a highly accurate pressure measurement. The WIKA CPH6200 Pressure indicator can be used for measuring both gauge and absolute pressure. Differential pressure measurement is possible with the 2-channel version CPH6200-S2, and two connected model CPT6200 reference pressure sensors. Pressure units selectable on the instrument are bar, mbar, psi, Pa, kPa, MPa, mmHg or inHg. An integrated data logger and various other functions such as Min., Max., Hold, Tare, zero point adjustment, alarm, power-off, peak value detection (1,000 measurements/s), average value filter, etc. ensure that the CPH6200 can be used for many different applications. In addition to the GSoft data-logger evaluation software for the tabular and graphical representation of the logged data, WIKA-Cal calibration software for calibration tasks is also available. WIKA-Cal also offers, over and above PC-supported calibration, the management of the calibration and instrument data in an SQL database. A USB interface is available for data transfer.
- USD
CPH6300 Pressure Indicator
3112
Stainless steel pressure sensors with measuring ranges up to 1,000 bar are available for the WIKA CPH6300 Pressure Indicator. The robust and waterproof design makes the CPH6300 ideal for use in adverse environments. The digital indicator automatically detects the measuring range of the connected pressure sensor and guarantees a highly accurate pressure measurement. The WIKA CPH6300 Pressure Indicator can be used for measuring both gauge and absolute pressure. Differential pressure measurement is possible with the 2-channel version CPH6300-S2, and two connected model CPT6200 reference pressure sensors. Selectable pressure units here are bar, mbar, psi, Pa, kPa, MPa, mmHg, inHg, mH2O and one customer-specific unit. An integrated data logger and various other functions such as Min., Max., Hold, Tare, zero point adjustment, alarm, power-off, peak value detection (1,000 measurements/s), average value filter, etc. ensure that the CPH6300 can be used for many different applications. The large, backlit display and also a long battery life complete the features of the CPH6300 Pressure Indicator. In addition to the GSoft data logger evaluation software for the tabular and graphical representation of the logged data, WIKA-Cal calibration software for calibration tasks is also available. WIKA-Cal also offers, over and above PC-supported calibration, the management of the calibration and instrument data in an SQL database. A USB interface is available for the data transfer.
- USD
EXPD 920/924/932 Differential Pressostat
3989
The Trafag EXPD 920/924/932 ex differential pressostat electromechanical pressure switches provide high vibration resistance and switch point precision in combination with an extremely robust and durable design. This results in switches that can be operated for decades without requiring maintenance, even under harsh conditions. Various designs with bellows, membrane and piston sensors cover a wide variety of pressure ranges, media and load profiles for many different applications.
- USD
VTR1010...1050 Turbine Flow Sensor
7799
The SIKA VTR1010…1050 turbine flow sensor allows you to determine precisely, dependably and easily the flow rates of different liquids, such as water and other low viscosity liquids, under the most severe conditions. The SIKA VTR1010…1050 sensor is particularly robust and, due to the wide range of nominal diameters and five different pick-ups, can cope with even the most severe conditions. The characteristic variable is the K-factor (pulses per litre) which is specific to each measuring unit, is determined by calibration and specified on the nameplate. A five-point calibration report can be supplied on request. The VTR sensor consists of the measuring turbine and a pick-up mounted on the outside. The liquid flows into the measuring turbine and causes the rotor to move. Due to the characteristic internal diameter, the speed of rotation is directly proportional to the flow rate. The moving rotor blades are detected by the pick-up and this is converted into a pulsed signal proportional to the flow rate.
- 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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