SU962824A1 - Receiving device of vibration magnetometer - Google Patents

Description

(5) VIBRATION RECEPTION DEVICE

one

This invention relates to instrumentation engineering and can be used to test magnetic materials in constant fields.

A device is known which is a complex of various inclusions and arrangements of f 1 receiving coils.

The drawback of the device lies in its low accuracy.

Closest to the present invention is a device comprising measuring windings located between the poles of the magnetizing element and an adjustable voltage divider 2.

The disadvantage of the device is low accuracy.

The purpose of the invention is to improve the measurement accuracy.

The goal is achieved by the fact that in the receiving device of the vibration magnetometer, containing the measuring windings located between, the MAGNETOMETER

by the poles of a magnetizing element, an adjustable voltage divider, each measuring winding is made in the form of two coaxial sections and a flat helix shape; and the sizes of the windings are selected from the condition where d is the horizontal size of the measuring winding; S - the size of the gap magnetizing element

FIG. 1 1 shows the proposed device; in fig. 2 shows section A-A in FIG. one; in fig. 3 i winding connection scheme; in fig. k is the sensitivity distribution of the measuring windings to changes in the sample flux linkage.

The device contains measuring windings 1- located in the gap of the magnetizing element 5. Each winding consists of external sections 6 and internal sections 7- As can be seen from FIG. 2, the horizontal dimensions of the y-axis on the y-axis are not less than 2 times the size of the gap S of the magnetizing element. 5 change flow

coupling will be - -g- - const at a distance of at least ± usually the gap S of the solenoid magnetizing element {

The pressure shall not be less than 20 mm, then ± 2 mm or the total length of the zone of uniform sensitivity along the Y axis will be not less than k mm. In FIG. 4 on a 2: 1 scale, the dotted line indicates the Y-axis distribution of the sensitivity of the receiving coils to a change in the flux linkage of a vibrating magnetized sample. The ordinate axis shows the distance in fractions of a gap equal to S. The popular sections of measuring windings 1–4, connected in series, are connected to an adjustable voltage divider 8. The inner section 7 of the windings are connected in series and connected in series and according to the output of the divider 8.

The device works as follows.

The divider 8 is set to the extreme position corresponding to the maximum output signal of the outer winding sections 6 (in Fig. 3 this corresponds to the leftmost position of the potentiometer slider); Further, by moving a vibrating magnetized sample (not shown) from the origin in the Z axis direction (FIG. 1), the change in the winding sensitivity to flow coupling change is recorded (in particular, the output of divider 8 can be connected to a voltmeter with a recorder connected at its output). Change the position of the engine, i.e. by reducing the signal from the outer sections of the windings and recording the sensitivity distribution of the windings in the Z axis direction on the recorder each time, they achieve equal sensitivity to a change in the flux linkage at a certain length along the Z axis symmetrically with respect to the coordinate center.

FIG. k, the solid line shows the change in the sensitivity of the windings along the Z axis. The abscissa represents the distance in fractions of the winding height equal to 2 R.

Thus, the use of the proposed device allows to increase the measurement accuracy by creating a constant sensitivity to a change in flux linkage when changing

the sizes of the tested samples (with a constant magnetic moment) or their position relative to the receiving coils.

Claims (2)

1. US patent number to. 32k-k7, 1970. 2. USSR author's certificate number A68202, cl. G 01. R 33/032, 1973