SU1656444A1 - Magnetizing device for magnetographic flaw detection - Google Patents

Abstract

The invention relates to the non-destructive testing of products using the magnetographic method of defectoscopy, in particular, to designs of track-type magnetizers for magnethographic defectoscopy. The aim of the invention is to increase the reliability of control by improving the uniformity of distribution 2 of the magnetic field in a controlled area in the interpolar space of the electromagnet. For this purpose, an electromagnet 1 with a U-shaped magnetic circuit contains ferromagnetic pole pieces on the side branches of the magnetic circuit, which can rotate in the form of guide projections 6 with cylindrical side surfaces 7, cylindrical magnetic conductors 8 are placed along the perimeter of the projections, which are covered by infinite flexible magnetic tape 9 in the form of a track, which is made of a two-layer. The outer layer in contact with the surface 10 is formed by an electromagnetic tape 11, and the inner layers in contact with the rollers 8 is formed by a flexible tape 12 made of a ferromagnetic material. 3 hp f-ly. 2 Il. Yo

Description

The invention relates to non-destructive testing by the magnetic field inspection method of flaw detection and can be used to magnetize a portion of the product when it detects discontinuity of the material.

The aim of the invention is to increase the reliability of control due to uniform distribution of the magnetic flux in the monitored area.

Figure 1 shows the device, a general view; figure 2 is a view along arrow a in figure 1, the section.

The magnetizing device contains an electromagnet 1, a U-shaped magnetic wire 2 consisting of two identical side branches 3 and a crossbar 4 on which the magnetizing coil 5 is placed. On the outer side of each side branch of the magnetic circuit, there are made longitudinal magnetic guiding protrusions 6 with cylindrical lateral surfaces 7, along the perimeter of the projections there are cylindrical magnetic conductor rollers 8, the axes of which are perpendicular to the longitudinal axis of the device. The magnetic rollers 8 are enclosed by an endless flexible magnetic core 9 in the form of a caterpillar, which is a pole piece, and which is made double-layered. The outer layer in contact with the test surface 10 is formed by an elastomagnetic tape 11, and the inner layer in contact with the rollers 8 is formed by a flexible tape 12 made of a ferromagnetic material (for example,

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steel) and glued to tape 11. Tape 12 is provided with side rims 13 with cuts 14. A layer of magnetic paste, for example, consisting of ferromagnetic powder as a base and oil, is applied to the inner surface of flexible tape 12. A layer of elastomagnet 15 with a coating 16 of ferromagnetic material is applied to the bottom of each guide protrusion 6, covering the lower part of the guide protrusion including part of the cylindrical side surfaces 7. The guide protrusions 6 are bolted to the side branches through side covers 17 m of magnetic core 3, which are fixed on the crossbar 4 with the help of bolts 19. The plates 17 and flanges 13 serve to fix the rollers 8 in the plane of their axes.

Elastomagnetic tape 11 can be a mixture of (nairite) rubber with soot and powder of technically pure iron with a particle size of about 10 to 15 microns in a mass ratio of 1: 1. For reliable contact of the electromagnetic tape 11 with the flexible tape 12 and the elastomagnet 15 with the surface of the guides 6, bonding is recommended, for example, with a mixture of technically pure iron powder with chloroprep rubber and synthetic resin in a mass ratio of 3: 1.

The magnetizing device operates as follows.

When a constant electric current is applied to the coil 5 of the electromagnet 1 in a plate-crossbar 4 and side branches x 3 with guiding side projections 6, a magnetic flux occurs, a part of which penetrates the magnetic conductors 8 in the zone of their contact with the surface of the side projections 6 through elastomagnet 15, coating 16, and then through flexible elastic tape 12 and elastomagnetic tape 11 penetrates the controlled surface 10. Another part of the magnetic descendant through the magnetic resistance of the air gap between the poles of the side branches 3 mA gnitoprovod and the surface of the controlled product directly penetrates into the material of the product.

As a result, when the device is moved across the surface of the product, the controlled area is constantly magnetized

between the flexible magnetic tape 9 and the magnetic surface of the product is recorded on the magnetic tape superimposed over the controlled area. When reading the magnetogram, the product quality is assessed.

The magnetizing device will reduce magnetic flux losses when transferring it from the side branches of the magnetic circuit to the product, increase the contact area with it by making an infinite magnetic tape from an elastomagnet and expand the technological capabilities of the magnetizing device by using it to control not only flat but also curvilinear surfaces.

Claims (4)

1. A magnetizing device for magnethographic defectoscopy containing an electromagnet with a U-shaped magnetowire, on the side branches x of which ferromagnetic pole tips are rotatably mounted relative to the magnetic line, in order to increase the reliability of monitoring the expense of the uniform distribution of the magnetic flux in the controlled area, on the outer sides of the magnetic circuit along the axis and their width there are guides with cylindrical side surfaces, and each The pole piece is an endless flexible magnetic conductor tape mounted on a corresponding protrusion by means of cylindrical magnet rollers. 2. Device popl.otlichuyuschee- so that the tape is made of two-layer with an outer layer of elastomagnetic material and an inner layer of s.romagnetic material. 3. Pop.1 device, which reveals that a layer of elastomagnetic material with a coating of ferromagnetic material is applied on the lower surface of the guide protrusion. 4. The device according to claims 1 and 2, which differs from that. that a layer of magnetic paste is applied to the inner surface of the flexible magnetic tape. W /////////////////// FIG. 1P eleven rJ (// J S // SSSfSfSSS / V2 vtt Vida