Magnetic Inductive Flowmeters - Compact and Flanged Design

We are the leading manufacturer of high-quality Magnetic Inductive flow meters, providing high performance measurement and control for conductive liquids, with innovative compact design models (MIM & MIK), and flanged models (MIS & EPS).

 

MIMCompact Magnetic Inductive Flow Meter - MIM

We are pleased to launched our latest compact nagnetic inductive flow meter to the market, the MIM. With factories within the Kobold Group experiencing well over one hundred years of trading, Kobold has an enviable and extensive wealth of technical knowledge and experience to draw upon when developing new products. Click here to find out more

MIM Magnetic Inductive Flow Meter / Monitor MIK for small medium flow rates

The magnetic inductive flow meter, MIK is used for measuring and monitoring smaller and medium-sized flow of conductivity liquids in pipes. The device operates according to the electromagnetic measurement principle. According to Faraday’s Law of magnetic induction, a voltage is induced in a conductor moving through a magnetic field. The electrically conductive measuring agent acts as the moved conductor. For more information, click here to view the datasheet

MIS Magnetic Inductive Flow meter Magnetic Inductive Flow Meter MIS with flanged design

The Magnetic Inductive flow meter MIS was developed for measuring and monitoring medium-sized flow of conductive liquids in pipes. The flow rate will be calculated based on the cross sectional area of the pipe. The measurement is not depending on the process liquid and its material properties such as density, viscosity and temperature. Two given outputs can be set to be switch, analogue or frequency. Also a dosing function can be selected, where output 1 is set as switch NPN / PNP / PP and output 2 is set as control input. For more information, click here to view the datasheet

MIS Magnetic Inductive Flow meter Magnetic Inductive Flow Meter - EPS with flanged design

Thia magnetic-inductive flow sensor EPS is used to measure the volume flow of liquids, slurries, pastes and other electrically conductive media without any pressure drop. Pressure, temperature, density and viscosity do not affect the volume measurements. Solid particles and small gas bubbles should be avoided.. For more information, click here to view the datasheet