SU361448A1 - DEVICE FOR MEASUREMENT OF ELECTRICAL CONDUCTIVITY - Google Patents

Description

The invention relates to a measurement tehnike and can be used to control the quality of heat treatment, chemical composition and other physical properties of non-magnetic metals, associated with their electrophobicity.

Known instruments for measuring the electrical conductivity of non-magnetic materials of current 5ev methods, containing a high-frequency alternating voltage generator, a laid-on operating and commanding inductance coils, connected to a generator, a detector, whose input is connected to an operating inductance coil, an amplifier connected to the output detector, and an indicator connected to the output of the amplifier.

The proposed instrument for measuring the conductivity of non-magnetic materials differs from the known ones since it provides a set of reference coils with complex resistances equivalent to integer conductivity numbers connected through a switch in parallel to the working inductance coil.

Such an embodiment of the device can improve the accuracy of measurements.

The drawing shows a block diagram of the proposed device.

The instrument for measuring the electrical conduction of nonmagitic materials by the eddy current method contains a high frequency alternating voltage generator 1, an amplifier 2, a bill of lading 3 and a working 4 inductance coil forming a measuring bridge, not with capacitors 5, 6, connected to the generator by one channel and another to the detector 7, a set of 1 set of reference coils 8 with complex impedances equivalent to integer conductivities, connected in parallel with thelady working coil 3 of inductance through co-switch 9, amplifier 10 and ind // locator.

The described device operates as follows. The overhead working bed 3 ustch is referred to as a controlled sample, the electrical conductivity of which is ignored. Voltage from the geerator 1 through usn: itel 2 is assigned to the measuring and measuring values, and the most common are the contours. The voltage received by the compensation coil 4 and the working coil 3 is detected by the detector 7 and fed through the amplifier 10 and the indicator //.

The ITpii installing the patch coil 3 on metals with different electrical conductivities of the stress 1e on it changes due to the change in resistance introduced by the metals into the measurement loop. The electrical conductivity is measured by comparing the voltage that occurs at

the compensation coil 4, with the voltage on the coil 3. The compensation of the compensation circuit changes the policy, set the arrow in the middle of the indicator scale 11, then the coil 3 is removed from the sample and parallel to it connect one of the standard kluelue 8 so that it appears when In this case, the deviation of the indicator arrow // to the right or left was less than the deviation previously caused by the imposition of coil 3 on the sample. By changing the impedance of the compensation coil 4, the balancing of the measuring bridge is achieved. After that, the second coil is disconnected from the sensor, the second coil, and the difference in resistance of these coils is equivalent to an integer number of electrical conductivity units.

The resistance of the second coil must be chosen so that the indicator arrow 1} deviates when it is connected in the opposite direction from the middle position compared to the previous one, it is cut. Establish the price of division of a scale of the device. The reference coil is disconnected and (the working coil 3 is again mounted on the sample to be monitored, and the electrical conductance is read on the Indi-Tutor dial And taking into account the value of electrical conductivity equivalent to the impedance of the first coil.

Subject invention

A device for measuring the conductivity of non-magnetic materials by the eddy-current method, containing a generator of alternating voltage of high frequency, laid on operating and compensating inductance coils connected to the generator and detector, an amplifier connected to the output of the detector, and an indicator connected to the output of the amplifier characterized by that, in order to improve the measurement accuracy, it is equipped with a set of reference coils with complex resistances, equivalent to | Valency integer conductivity numbers, connected through mmutator parallel to the invoice work inductor coil.