SU1027590A1 - Device for non-destructive checking of lengthy electroconductive articles - Google Patents

Abstract

A DEVICE FOR NON-DESTRUCTIVE MONITORING OF EXTENDED ELECTRIC CONSTRUCTION OBJECTS, containing an alternating current source, a means of transmitting energy of an alternating current source to a controlled object of exciting current along its axis, a magnetic field measuring transducer unit, series-connected signal processing unit and information presentation unit window for grind a controlled object, so that it is so that, in order to improve the reliability of the control of objects with the false profile, the magnetic circuit is made sectional. Each section is an elementary closed magnetic circuit, and the device is equipped with series-connected magnetizing coils according to the number of sections of the magnetic circuit, a DC source and a controlled switch serving to connect the magnetizing coils to the DC source , the second ypravl emy com-; g mutator, connected by its input; m with i block transducers, CH and output - with the signal processing unit Ifm and block control switches, | 1m1 connected to the control inputs of the last I.S

Description

The invention relates to non-destructive testing and can be used to control extended electrically conductive objects. A device for electromagnetic control of conducting electrically conductive objects is known; containing an alternating current source connected to the means of transferring the energy of the alternating current source in the control object to excite the current of its axis, in series at least one magnetic field measuring transducer and the Cl 3 signal processing block. The disadvantage of this method is the low reliability of the control that is associated with a uniform angular coordination current distribution over the entire cross section of the object being monitored and, therefore, an effect on the magnitude of the magnetic field measured above the end roliruemym entire sectional portion of properties. The closest to the proposed technical entity is a device for non-destructive testing of long conductive objects containing an alternating current source means for transferring the energy of an alternating current source to a monitored object for exciting current along its axis, a magnetic field measuring transducer unit, serially connected signal processing unit and an information representation unit and a magnetic core with a window for accommodating the object to be monitored, and the measuring transducer This field is located in the slot of this magnetic circuit 23. However, the device does not provide the necessary reliability of control and has a limited scope. This is due to the fact that the magnetic circuit is a ring with a slot rotatably mounted to measure the distribution of current density in the cross-section of the object under test. that Therefore, when the shape of the controlled object deviates from the cross-sectional area, a gap varies between the object and the magnetic conductor, which in turn leads to a variation of the useful signal, and a smooth measurement of the current density in objects with a non-circular cross section using a known device and principle is impossible. The purpose of the invention is to increase reliability when monitoring objects of a complex profile. The goal set in the device for non-destructive testing of extensive electrically conductive objects, containing an alternating current source, means for transmitting the energy of the alternating current source to the monitored object for exciting current along its axis, a magnetic field measuring transducer unit, a signal processing unit connected in series and a block to present information , and at least one magnetic core with a window sufficient to accommodate the object being monitored is achieved by virtue of the fact that Each section is an electromagnetic closed magnetic conductor, and the device is equipped with series-connected magnetic coils according to the number of sections of the magnetic conductor, a DC source and a controlled switch that connects the magnetic coils to the DC source, a second controlled switch connected its inputs with the measuring transducer unit, and the output with the signal processing unit, and the control unit of the switches connected with the control inputs of the latter. FIG. 1 is a block diagram of the device in FIG. 2 - the magnetic circuit of the device assigned to control objects with a circular cross section; in fig. 3 - the same, with a triangular cross section. The device consists of an alternating current source 1, means 2 for transferring the energy of the alternating current source to the monitored object 3 of the 4 magnetic field transducer units connected via a controlled switch 5 to the signal processing unit 6 connected by its output to the information presentation unit 7. The magnetic core 8 is made sectional of elementary closed magnetic cores 9 having biasing coils 10 connected via a second controlled switch 11 to a DC source 12, and the control inputs of switches 5 and 11 are connected to a switch control unit 13. The device works in the following way. The AC source 1 generates the energy transmitted by the means 2 for transmitting the energy of the AC source to the controlled Object 3, which leads to the excitation of the alternating current along the axis of this object. 1 shows a variant with a system of contacts connected to a controlled object 3. There are also options with inductive or capacitive means of transferring the energy of the source. The direct current source 12 through the controlled switch Il feeds the corresponding sub magnetic coil 10 of the elementary magnetic circuit 9, which leads to its saturation. At the same time, in accordance with the control signal of the switch control unit 13, a group of measuring transducers of unit 4 is connected to the signal processing unit b through switch 5 and is located under the current closed 9 magnetic circuit 9. The operation with the magnetic conductor 8 composed of closed of the magnetic cores 9, the current flowing through the object 3, is crowded to the area under the elementary magnetic core 1 9 that is saturated at a given time. Therefore, the magnetic field acting on the connected to the processing unit 6, the measured 5 full converters depends only on the properties of the monitored part of the object section 3. Then, in accordance with a given control program, the switch control unit 13 issues a command-on magnetization of another closed magnetic circuit 9 and the corresponding groups of transformers, followed by the monitoring process is repeated. The switching frequency is selected in accordance with the speed of movement of the object under control 3 through the window of the magnetic circuit 8. The internal surface of the magnetic circuit 8 is matched with the external surface of the object under control 3.

Thus, the device provides opportunities for monitoring objects with any cross-sectional shape without rotating the magnetic core, which increases the reliability of control and expands its scope.

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Claims (1)

DEVICE FOR NON-DESTRUCTIVE CONTROL OF LONG ELECTRIC WIRING OBJECTS, comprising an alternating current source, means for transmitting the energy of an alternating current source to a controlled object of excitation of current along its axis, a unit of magnetic field measuring transducers, a signal processing unit and an information presentation unit, and at least one magnetic circuit with a window for placement of a controlled object, characterized in that, in order to increase reliability when monitoring objects of complex professional For example, the magnetic circuit is made sectional. Each section is an elementary closed magnetic circuit, and the device is equipped with serially connected magnetizing coils according to the number of magnetic circuit sections, a direct current source and a controlled switch that serves to connect the magnetizing coils to a direct current source, the second controlled switch connected by its inputs with, a block of measuring transducers and the output with a signal processing unit and a switch control unit, with Unity with the control inputs of the latter. § ί g