SU964769A1 - Contact-free position sensor - Google Patents

Description

The invention relates to a measurement technique, namely, devices for monitoring the position of ferromagnetic objects, and can be used in automation schemes for technological processes.

A non-contact position sensor is known, which contains two coils spaced apart by a magnetic core, the connection between which is carried out by means of a movable ferromagnetic element C1.

The disadvantages of the known sensor are low reliability and the impossibility of measuring the position of an arbitrarily moving object.

Closest to the invention in its technical essence and the achieved result is a non-contact position sensor comprising receiving and transmitting coils arranged in parallel planes and superimposed on each other with an offset of Γ2.

A disadvantage of the known sensor is low sensitivity.

The purpose of the invention is to increase the sensitivity.

i The goal is achieved by the fact that the sensor containing the receiving and transmitting coils arranged in parallel planes and superposed with each other with an offset contains a ferromagnetic screen made in the form of a rectangular case, and on the side opposite the bottom of the case above the coils there is a rectangular ferromagnetic plate partially overlapping the area of their overlap.

The drawing shows the proposed non-contact position sensor.

The sensor contains receiving 1 and transmitting 2 coils located in parallel planes and superposed with each other with an offset, and a ferromagnetic screen made in the form of a rectangular case 3. Coils 1 and 2 are placed in a rectangular KOjJnyce 3 parallel to its bottom and flush with the top edge of its side walls. From the side opposite to the bottom of the housing 3, above the coils

25 there is a rectangular ferromagnetic plate 4 which partially overlaps the area of overlapping of the coils so that the connection between them in the absence of the object 5

30 control was equal to zero.

The presence of a ferromagnetic body 3 near the coils leads to an increase in the output signal of the receiving coil 1. This signal is compensated for by the superposition of the ferromagnetic rectangular plate 4 on the coils parallel to their longitudinal axis on the side opposite to the bottom of the body.

As the ferromagnetic object 5 approaches on the side of the rectangular plate, the signal of the receiving coil increases as the plate only partially overlaps the working surface of the sensor. The presence of ferromagnetic masses near the non-working surfaces of the patch A does not cause an increase in the output signal of the sensor, since the ferromagnetic body 3 completely shields the magnetic field created by the transducer coil 2 from the non-working sides of the sensor.

The invention makes it possible to control the position of ferromagnetic objects with high sensitivity.

Claims (2)

1. USSR author's certificate No. 258622, cl. G 01 B 7/10, 1867. 2. Patent of great Britain 1420767 In 7 N, pub. 1973 (prototype). ///////// Л / to