SU432378A1 - ELECTROMAGNETIC DEFECTOSCOPE - Google Patents

Description

one

The invention relates to the field of non-destructive testing, in particular to the design of electromagnetic flaw detectors.

According to the main author. St. No. 319892 is known for an electromagnetic flaw detector containing a stationary electromagnet, the magnetic circuit of which is made in the form of two rotating cylinders, terminated by pole pieces in the form of two diametrically located sectors.

In order to expand the control capabilities, the proposed flaw detector is equipped with two annular pole tips opposite the main pole pieces, one of which is located at the end of the inner cylinder, and the other at the end of the flaw detector housing.

FIG. 1 shows the proposed flaw detector; in fig. 2 is a section along A-A in FIG. one; in fig. 3 is a section along BB in FIG. one.

Electromagnetic flaw detector contains a housing 1, a magnetizing coil 2 placed in the housing 3, made in the form of a ring and placed on the end of the housing, a pole piece 4 mounted on the housing in the rolling bearings 5, a rotating part of the magnetic circuit, consisting of two cylinders b and 7 connected between a non-magnetic insert 8 and having remote pole tips 9 and 10, made in the form

diametrically opposite sectors, pole tip 11, made similarly to tip 4 and also located on the end of cylinder 6, insert 12 of non-magnetic material mounted on cylinder 6 by means of ring 13, gear 14, which is in engagement with the toothed rim of cylinder 7 and connected with the drive motor 15, the power connector 16 of the coil 2, two pairs of overhead induction sensors 17 connected to the current collector 18 connected through the connector 19 to the dual-channel circuit of the flaw detector, and the generator 20 are designed for power electron tubes with an annular bi-scan unit indicating current flaw detector whose frequency is synchronous with the rotational speed sensor 17 overhead.

Inserts 8 and 12 serve for balancing

rotating parts of the magnetic circuit. Sensors 17 are placed in such a way that one pair is inside the non-magnetic insert 8 on the axis perpendicular to the axis pole pieces of tips 9 and 10, and the other is installed inside the sleeve 21 connected to the rotating cylinder 6 and placed between the pole pieces 4 and 11. Flaw detector works in the following ways. The monitored article 22 is transported by the mechanisms 23 through the feedthrough. The motor 15 rotates cylinders 6 and 7 through gear 14 with pole pieces 9, 10 and 11 and sensors 17. Power is supplied to coil 2. The magnetic field created by the coil spreads along the magnetic conductor and closes on the test article 22 on both sides of the coil 2. The magnetic field between pole tips 9 and 10 is directed normally to item 22 (transverse field) and matched with the tips, and between pole tips 4 and 11, the direction of the floor coincides with the axis of the controlled product (longitudinal field).

The presence of a defect in the controlled area of the product 22 leads to the appearance of a normal component, its magnetic field, and when the sensor 17 passes over the defect in the sensor winding, a signal arises, the amplitude and phase of which are definitely connected with the defect. At the same time, the trash-type defects located along the axis of the controlled product will be detected by sensors working in the transverse field, and defects located across the product will be detected in the longitudinal magnetic field. Defects located at an angle to the axis of the test product are equally well detected in both the longitudinal and transverse magnet} of the first fields.

The two-channel electronic circuitry of the flaw detector analyzes the signals coming from the sensors and allows them to be used to activate automatic sorting devices.

Subject invention

Electromagnetic flaw detector according to ed. St. 319892, characterized in that, in order to expand the control possibilities, it is provided with two annular pole tips opposite the main pole pieces, one of which is located at the end of the inner cylinder and the other at the end of the flaw detector body.

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