SU1672343A1 - Magnetization device for magnetic control of ferromagnetic products - Google Patents

Abstract

The invention relates to a non-destructive testing and can be used to magnetize a monitored area when reading a measured parameter. The aim of the invention is to increase the reliability of control by eliminating fluctuations in the magnetic gap on the measurement results and protecting it from damage. To achieve the goal, a device containing an electromagnet with a U-shaped magnetic core 3, pole pieces 4 and a supporting element 5 made of a non-magnetic material mounted for rotation and fixed on the frame 1, spring-loaded along the guides 2, contains ferromagnetic rings 7 fixed on the lateral surfaces The supporting roller 5 is coaxial with it, forming a common magnetic circuit with the pole tips of the electromagnet and a diaphragm fixed to the side surfaces of the rings. 1 hp f-ly, 2 ill.

Description

The invention relates to non-destructive testing and can be used for inspection of ferromagnetic products.

The purpose of the invention is to increase the reliability and reliability of control by eliminating fluctuations in the magnetic gap on the measurement results and protecting the poles of the electromagnet from damage.

Figure 1 shows the device, a General view; figure 2 - the device in a simplified form.

The device comprises a frame 1 located in the guides 2 and spring-loaded along them, an electromagnet mounted on it with a U-shaped magnetic circuit 3 and pole tips 4 and a support roller 5 made of non-magnetic steel (for example, 20X23H18) mounted on an axis 6 between the pole pieces 4. On the lateral sides of the roller 5, rings 7 of magnetic material (arm iron) are rigidly fixed coaxially to it, to which plastic protective diaphragms 8 are attached, which together with the rings 7 form a cavity in which the electromagnets are located . Moreover, the magnetic circuit 3 and the pole pieces 4 of the electromagnet together with the rings 7 form a common magnetic circuit, and the diaphragms 8 are mounted on the axis 6 of the support roller 5 with the possibility of rotation thanks to the bearings 9.

To simplify the design, the support roller can be made in the form of a ring 10, which allows the winding of the electromagnet 11 to be made single-section. In this case, the protective diaphragms 8 are load-bearing structural elements and are made of rigid steel 20X23H18.

The magnetizing device operates as follows.

In the control process, the magnetizing device is mounted by a support roller 5. on which the rings 7 are fixed, onto the product to be monitored and the latter is moved relative to the device. The magnetic field of the pole pieces 4 of the electromagnet through the rings 7 is transmitted to the controlled surface of the product 12. Moreover, it is magnetized by a normalized magnitude and determined by topography magnetic field. The support roller 5 monitors the surface of the product 12. The gap between the rings 7 and the pole pieces 4 due to the rigid connection of the axis of the support roller and the electromagnet and the coaxial mounting of the rings 7 on the roller 5 is strictly constant.

The exfoliated scale also does not affect the magnitude of the magnetization field of the electromagnet, since it does not fall into the magnetization zone of the rail, incl. inside the magnetizing device due to the presence of protective diaphragms 8.

When monitoring rails with a large end curvature, as well as the presence of burrs and burrs on the ends of the rails, the magnetizing device, resting on the rail surface with the support roller 5, breaks in all such obstacles. In this case, the pole pieces 4 are reliably protected from damage.

Thus, this design of the magnetizing device makes it possible to maintain the magnitude of the magnetizing field strictly constant during the monitoring process by tracking the irregularities of the surface being monitored by the support roller and stabilizing the total magnetic resistance in the magnetic circuit of the electromagnetic component, to reliably protect the magnetic circuit and pole pieces from damage by the ends of moving rails, as well as control products of various shapes and easily change magnetization modes.

Claims (2)

Claim 1. Magnetizing device for magnetic control of ferromagnetic products, containing a frame located in the rails and spring-loaded along them, an electromagnet fixed to it with a U-shaped magnetic circuit and pole tips and a support roller of non-magnetic material mounted between the pole pieces, characterized in that, in order to increase the reliability and reliability of the control, it is equipped with ferromagnetic rings fixed to the sides of the support roller coaxially with it, forming with echnikami common magnetic circuit of the electromagnet, and protecting diaphragms fixed to side surfaces of the rings and covering an electromagnet. 2. The device is pop. 1. characterized in that the support roller is made in the form of a ring, and the diaphragms are made rigid and fixed to the axis of the support roller by means of bearings. Figure 2