SU407252A1 - - Google Patents

Description

BATHRONIC FERROSODE COURTSITIMETER

one

The invention relates to magnetic measurements, in particular to the measurement of the coercive force of the tested product areas.

The presently known added fluxgate coercimeters consist of a fluxgate and an attached electromagnet. The core of the ferrosonde has the form of a frame consisting of two rods closed at the ends by bridges. The rods have excitation windings with which the rods are periodically adjusted to saturation with the double frequency of the excitation source. An indicator breaking is placed on the rods, the useful signal of which is allocated with P0; the power of the indicator circuit. Usually, the core of the fluxgate is made of electrical steel sheet, and the electromagnet cores are made of flat leather or electrical steel. The core of the fluxgate and the cores of the electromagnet form a U-shaped magnetic circuit of the coercion meter and, together with the product, form a closed magnetic circuit.

The aim of the invention is to reduce the influence of the coercive force of the cores of the electromagnet and the air gap between the coercimeter and the monitored area of the product on the readings of the coercimeter. This is achieved by the fact that the core of the fluxgate is made U-shaped, and the magnetizing and

the demagnetizing windings are located on the jumpers of the core of the fluxgate core, and the demagnetizing winding is shifted to the surface of the test product for the minimum possible distance.

FIG. 1 shows the core of the fluxgate, top view; in fig. 2 - ferrosonde, side view; in fig. 3 is a graph comparing the dependence of current on the coercive force of products in the known

and proposed devices; in fig. 4 - the same, on the size of the gap between the coercimeter and the product.

The core of the fluxgate is assembled from electrical steel sheet and consists of a rod 1, on which excitation windings 2 are located, and jumpers 3 with magnetizing windings 4 and demagnetizing 5.

And the sequence of the measurement process.

The Io magnetizing winding 4 is passed through so that it is sufficient to bring the test area of the product 6 to a state close to magnetic saturation. Then the magnetizing current is turned off and

include an alternating current source-excitation source in the exciter circuit of the fluxgate and a constant current source in the demagnetizing winding circuit. The demagnetizing current increases smoothly from zero to

/ o at which the useful signal in the measuring winding - which is also magnetizing - is zero.

The current / k is taken as a measure of the keerctive force of the test area.

Due to the small magnetic resistance of the jumpers of the fluxgate (they also play the role of electromagnet cores), the alternating current generated by the excitation windings freely passes through the junction bars and thus greatly reduces the influence of the coercive force of the material of the fluxon core on the coercimeter reading.

By shifting the demagnetizing winding to the surface of the product for the minimum possible distance, the part of the dispersion flow shunting the product is reduced, and consequently, the effect of the air gap on the coercimeter is reduced.

In the proposed coercimeter there is no initial section / o, due to the coercive force of the material of the core of the electromagnet (Fig. 3). Curve 7 corresponds to the dependence of the current / k on the coercive force of the products in the known coercimeter, and curve 8 corresponds to the coercimeter of the new design.

five

In the coercimeter of the new design, the dependence of current / k on the size of the air gap b between it and the product under test is practically absent (Fig. 4, curve 9), in contrast to the well-known coercimeter (Fig. 4, curve 10).

Subject invention

Attached ferrosonde coercimeter ,. containing a ferrosonde with a frame core, an indicator circuit and magnetization windings, demagnetization and excitation, characterized in that, in order to reduce the influence of the coercive force of the electromagnet core and the influence of the air gap between the coercimeter and the test product, the test temperate-testist and the test subject and the test subject gauge and the test subject and the test subject gauge. , and the magnetizing and demagnetizing windings are located on the jumpers of the core of the fluxgate, and the demagnetizing winding is shifted to the surface of the tested product on a mini the minimum possible distance.

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