SU1619147A1 - Electromagnetic transducer - Google Patents

Abstract

The invention relates to test equipment and can be used to control products operating in hard to reach places. The purpose of the invention is to increase the reliability of control by the fact that in an electromagnetic converter the coil is wound on the middle section of a flat magnet duct of length I. installed in a groove on the working end of the body. At the end of the housing, a conductive jumper is mounted perpendicular to the axis of the magnetic conductor, connecting opposite points of the side walls of the groove in the middle zone, on the one hand the jumper has galvanic communication with the housing, and on the other hand, the connection is operated with a control key. To suppress the electromagnetic field in the working area while maintaining the floor in the compensation zone, an eight-shaped bobbin separated from the body by a dielectric layer can be located along the groove perimeter instead of a jumper. 2 hp f-ly, 4 silt

Description

The invention relates to a means of non-destructive electromagnetic control and can be used to control products and their movements in hard to reach places.

The aim of the invention is to increase the reliability of the control.

Fig, 1 shows an electromagnetic converter with a jumper; in fig. 2 shows section A-A in FIG. one; in fig. 3 - converter with eight-coil; in fig. 4 shows a section BB in FIG. 3

The electromagnetic transducer comprises a housing 1 of a non-magnetic electrically conductive material with a rectangular groove 2, in which a flat core magnetic core 3 with an inductor 4 in the middle section is placed.

The converter (Figs. 1 and 2) contains an electrically conductive jumper 5, galvanically connected at one end to the housing 1 in the middle part of the long side 6 of the groove, the second end of which is isolated from the housing by a dielectric pad 7 and galvanically connected to the output of a control key 8 connected to housing 1.

The control input of the switch 8 is connected via a resistor 9 and the control unit 10 to the power and processing unit 11, to which the inductor is also connected via the control unit 10.

The electrically conducting bridge is perpendicular to the longitudinal axis of the magnetic circuit 3. Two electrically conducting circuits 12 and 13 are formed at the end of the housing by means of it and a controllable key;

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An electrically conductive jumper 5 serves as the side of each of them.

In the converter (Figs. 3 and 4), the electrically conducting circuits 12 and 13 are formed using an eight-coil 14 mounted on the end of the housing 1. The ends of which are connected to the output of the control key 8, which is connected to the power and processing unit 11 through the control unit 10 which is also connected to the coil 4 inductance.

The Converter operates as follows.

If coil 4 with a flat magnetic conductor 3 has an initial inductance LH, then installing coil 4 into groove 2 of conductive body 1 even when jumper 6 is open leads to a decrease in LH. However, insertion resistance at zero clearance of the system surface of the product is the working end of converter case 1 remains unchanged for both cases. Therefore, the sensitivity of the shielded coil to the fields of eddy currents flowing over the surface of the test product is higher than that of the free coil.

The exciting field of the coil 4 induces an emf on the side walls of the groove, the maximum of which is in the middle part of the long sides of the groove. Installing a jumper 5 in this zone, which is galvanically connected at one end on one side of the 6th groove of the housing, increases the emf between the jumper and the housing in the area of the dielectric strip 7, closed with the housing by key 8.

When the key 8 is closed, currents appear in the circuit of the housing – jumper circuit (dotted line), which sharply weakens the exciting electromagnetic field in the zone of the product under test (not shown). The intrinsic parameters of coil A are determined taking into account the effect of temperature on the parameters of the magnet conductor and on its position relative to the walls of the housing groove.

The converter needs a key, the resistance of the closed contacts of which should be less than the resistance of the circuit: the jumper is the side walls of the groove. Metal contacts of the relay or reed switches are required. This limits the speed of the converter at slow rates of temperature change. Less stringent requirements for the resistance value of the key 8 are obtained by USING the eight-shaped coil 14 mounted on the end of the body 1 according to the periment of the side walls of the groove. In this case, control is possible with rapid temperature changes requiring frequent adjustments.

the measuring circuit, which is implemented by the key 8 connected to the ends of the eight-shaped coil 14.

Thus, a two-stroke mode of operation is implemented in the converter: an open circuit controls the geometrical and electrophysical parameters of the product, a closed circuit controls the field in the working zone, which is sharply weakened, which makes it possible to estimate the instability of the inverter coil's own parameters.

With prolonged testing of products to improve accuracy, the converter is not required to be removed from the control

to assess the instability of its own parameters, which reduces the cost of the monitoring process due to the adjustment of the measuring channel during the transition of the controlled product

from one mode to another.

The proposed Converter is simple in design and reliable in operation.

Claims (3)

1. Electromagnetic transducer, comprising a case of electrically conductive non-magnetic material with a groove on the working surface and a flat core magnetic core placed in the groove with an inductance cattle in the middle section, characterized in that it is provided with a controllable key to increase the reliability of the control Right-angled, at the end of the body, two electrically conducting circuits are formed, connected by sides oriented perpendicularly to the longitudinal axis of the magnetic conductor, and the ends of the circuits are connected to the output the house of a controllable key whose input is intended for connection to a power source. 2. The converter according to any one of the preceding claims, 1, 1 and 2, with the fact that the electrically conducting circuits are formed by the perimeter of the housing and perpendicular to the longitudinal axis of the core magnetic conductor by an electrically conducting jumper, one end of which is galvanically connected to the housing in the middle part of one of the long sides of the groove, and the second end is isolated from the housing and is galvanically connected to the output of the controllable key, which is galvanically connected to the housing. 3. The converter according to claim 1, wherein the electrically conducting circuits are made in the form of an eight-shaped coil mounted on the end of the case, the ends of which are connected to the output of the control key. hQhO about Che four vT  L;  L; R. ig.Z Ya Bb Fy