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- 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
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- -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...400 bar, 0...40 bar, -1...210 bar, 0...10 bar__0...600 bar - PN 16
13 items
970.1x Diaphragm Probe Seals
2252
The WIKA diaphragm probe seals are available in three different models: 970.10, 970.11, 970.12 All models are available in male thread or male running nut or female union nut. Ask our product specialist for more advanced or personalised information, or see downloads.
- USD
CPC4000 Pressure Controller
2693
The WIKA CPC4000 industrial pressure controller offers a broad pressure range from -1 ¦ 210 bar. This instrument is available as a desktop or as a 19″ rack-mounting kit. It can have up to two reference pressure sensors and an optional barometer for displaying barometric pressure or be used to emulate gauge or absolute pressure. Since the CPC4000 offers an accuracy of up to 0.02 % IS-50, and controls pressure with a high stability, it is particularly suited as a production tool for transmitter manufacturing, a calibration and maintenance tool for pressure measuring instruments or as a factory/working standard for the calibration of all types of pressure measuring instruments. The leak test and burst test special applications allow CPC4000 to be used as a pressure line testing equipment. The optional automatic contamination prevention system make the CPC4000 an ideal solution in oil and gas plants. Maximum ease-of-use is achieved through the touchscreen and the simple and intuitive menu navigation. In addition, the large number of menu languages add to its operability. The instrument can have up to two internal pressure sensors and the ranges for each reference pressure sensor are determined by the customer within the allowable range. Depending on the application, the operator can choose between three set-point entry methods: Direct entry of the pressure value (set point) which will be controlled via touchscreen keypad. Define steps to reach the desired pressure value by either defining fixed pressure increments or a percentage of span value. User-defined programmable test sequences.
- USD
VTY 20 Turbine Flow Sensor
2808
The SIKA VTY 20 turbine flow sensor gives you precise and robust products to measure flow rates or total flows, for water and water mixtures. Turbine flow sensors of the series VTY stainless steel were specially developed for the use in industrial applications. The sensors are particularly suitable for use in, e.g. dosing systems, heaters, coolers or temperature control units. The liquid flowing into the turbine flow sensor is split into individual jets by the flow straightener. These jets hit the rotor evenly, 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. Given the uniform inflow to the bearing, the forces largely cancel themselves out and wear reduced to a minimum. The sturdy bearing materials – sapphire and hard metal – also guarantee an exceptionally long endurance.
- USD
CPG-KITP Pneumatic Service Kit
6973
The WIKA CPG-KITP pneumatic service kit is the ideal tool for the pneumatic testing, adjustment and calibration of mechanical and electronic pressure measuring instruments through comparative measurements or for the setting of pressure switches. These and other tests can take place quickly and reliably in the laboratory or workshop, or on-site at the measuring point. With the service kit, service and maintenance are more complete, safer and more flexible. The kit is high-quality finish, handy and robust and is also suitable for service use. Components The service kit consists of a pneumatic hand test pump for the generation of defined test pressure and also a highly accurate WIKA CPG1500 precision digital pressure gauge as a reference instrument. Air is used as the pressure medium. Various connection adapters are also available in the test case. All components are carefully stowed in the case and protected for in-house transport. Simple function If one connects the test item and the WIKA CPG1500 precision digital pressure gauge to the test pump, on actuating the pump, the same pressure will act on both instruments. Using the fine adjustment valve, the test pressure is set precisely. By comparison of the two measured values at any given pressure value, a check of the accuracy and/or adjustment of the pressure measuring instrument under test can be carried out. WIKA-CAL software The collected data from the data logger of the digital pressure gauge can be transmitted wirelessly to the WIKA-CAL calibration software for further evaluation.
- 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
VTY 15 Turbine Flow Sensor
7792
The SIKA VTY 15 turbine flow sensor gives you precise and robust products to measure flow rates or total flows, for water and water mixtures. The VTY 15 turbine flow sensor is specially developed for installation in electrical heat interface units (HIU). The sensors are particularly suitable for use in, e.g. dosing systems, heaters, coolers or temperature control units. The liquid flowing into the turbine flow sensor is split into individual jets by the flow straightener. These jets hit the rotor evenly, 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. Given the uniform inflow to the bearing, the forces largely cancel themselves out and wear reduced to a minimum. The sturdy bearing materials “ sapphire and hard metal “ also guarantee an exceptionally long endurance.
- USD
VTY 10 Turbine Flow Sensor
7793
The SIKA VTY 10 turbine flow sensor gives you precise and robust products to measure flow rates or total flows, for water and water mixtures. Turbine flow sensors of the series VTY 10 is also available in a plastic version. The sensors are particularly suitable for use in, e.g. dosing systems, heaters, coolers or temperature control units. The liquid flowing into the turbine flow sensor is split into individual jets by the flow straightener. These jets hit the rotor evenly, 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. Given the uniform inflow to the bearing, the forces largely cancel themselves out and wear reduced to a minimum. The sturdy bearing materials “ sapphire and hard metal “ also guarantee an exceptionally long endurance.
- USD