4. SIKA Magnetic Inductive Flow Sensors
The company SIKA has been developing and producing high-quality industrial measurement and calibration solutions in Germany since 1901 and has been offering a wide range of standardised and customised products in the fields of temperature, pressure and flow measurement for over 120 years. The product portfolio ranges from classic machine thermometers and turbine flow sensors to high-precision temperature calibrators. The company's sensors and calibration devices are installed or used by the world's leading device manufacturers and can be found in the products or production of numerous market leaders in a wide range of industries such as heating, ventilation and air conditioning technology, shipbuilding, automotive and commercial vehicle construction and industrial technology.
The sensors of the induQ VMI series allow a flow- / volumetric flow measurement of electrically conductive liquids without moving parts. These are the ideal flow sensors when it comes to accuracy and reliability. The SIKA VMI 07 is used, among other things, for cooling processes in machine and plant construction or in building technology. The intelligent flow sensors of the induQ series operate according to the induction principle: the measuring pipe is surrounded by a magnetic field (B). If an electrically conductive medium with the flow rate to be determined (Q) flows through the measuring pipe and thus enters the magnetic field at a right angle, a charge (U) is induced into the medium which is proportionate to the mean flow velocity and tapped by two electrodes. For an output signal which is proportionate to the flow rate, there are two versions available: frequency output signal (standard) and analogue and frequency output signal (option). The pulse rate can be configured at the factory depending on the type.
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The sensors of the induQ® VMZ.2 series allow a flow- / volumetric flow measurement or dosing of electrically conductive liquids without moving parts. These are the ideal flow sensors when it comes to accuracy and reliability. The areas of application include machine and plant construction, cleaning processes, mobile applications. The intelligent flow sensors of the induQ® series work according to the induction principle: the measuring pipe is surrounded by a magnetic field (B). If an electrically conductive medium with the flow rate to be determined (Q) flows through the measuring pipe and thus enters the magnetic field at a right angle, a charge (U) is induced into the medium which is proportionate to the mean flow velocity and tapped by two electrodes.
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The magnetic inductive flow sensors induQ of the VMM series are very precise measuring devices for electrically conductive liquids. Due to their robust design, they are also suitable for harsher ambient conditions. The magnetic inductive flow sensors of the VMM series from SIKA are used in the following areas, among others: water and waste water, mining, cement and minerals, pulp and paper industry, steel industry, energy industry and utilities, agriculture. The intelligent flow sensors of the induQ series work according to the induction principle: the measuring pipe is surrounded by a magnetic field (B). If an electrically conductive medium with the flow rate to be determined (Q) flows through the measuring pipe and thus enters the magnetic field at a right angle, a charge (U) is induced into the medium which is proportionate to the mean flow velocity and tapped by two electrodes.
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The magnetic inductive flow sensors induQ of the VMM series are very precise measuring devices for electrically conductive liquids. Due to their robust design, they are also suitable for harsher ambient conditions. The magnetic inductive flow sensors of the VMM series from SIKA are used in the following areas, among others: water and waste water, mining, cement and minerals, pulp and paper industry, steel industry, energy industry and utilities, agriculture. The intelligent flow sensors of the induQ series work according to the induction principle: the measuring pipe is surrounded by a magnetic field (B). If an electrically conductive medium with the flow rate to be determined (Q) flows through the measuring pipe and thus enters the magnetic field at a right angle, a charge (U) is induced into the medium which is proportionate to the mean flow velocity and tapped by two electrodes.
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