RU2166754C1 - Magnetizing unit for magnetic powder flaw detection - Google Patents

Abstract

FIELD: nondestructive testing, detection of laws of surfaces of ferromagnetic articles of simple and complicated configuration. SUBSTANCE: magnetizing unit has magnetic circuit made in the form of handle, prisms and tips hinged one to another. Prisms can move along handle. Tips are mounted for turning. Constant magnets magnetized along longitudinal axis are anchored in tips. Cross-section area of magnetic circuit over all sections is not less than that of constant magnets. Shunting rings are mounted on tips for their movement along axis of tips. In extreme lower position rings shunt magnetic flux of constant magnets and unit does not stick to article. This allows unit to be freely moved along article, set it in necessary position and distance between tips to adjusted. EFFECT: simplified design and functional reliability of proposed unit. 2 dwg

Description

 The invention relates to non-destructive testing, in particular to magnetic particle inspection, and can be used to detect defects of any shape of the surfaces of products in all areas of technology.

 A magnetizing device is known comprising rod magnets connected by a flexible yoke, each of which is a permanent magnet placed in a non-magnetic housing with concentrators, each permanent magnet being magnetized perpendicular to the longitudinal axis, and the axial section of the permanent magnet is equal to the section of the hub (SU, autoswitch . N 1605183, MKI 5 G 01 N 27/84, 1990) - prototype.

The disadvantages of this technical solution are:
- a small cross section of the magnetic circuit causes large losses of magnetic flux, which significantly reduces the magnetic field strength, and, therefore, more weakly reveals defects, which limits its scope;
- a complex structure due to the rotation of the permanent magnets inside the tip with the possibility of fixing in intermediate positions.

 The technical problem to which the invention is directed is the expansion of operational capabilities by increasing the magnetic flux by reducing its losses in the magnetic circuit and ensuring ease of use.

 To solve the problem in a known magnetizing device containing a magnetic circuit, including tips, permanent magnets mounted for rotation, the magnetic circuit is made in the form of articulated handles, prisms and tips to ensure the movement of prisms along the handle and with the possibility of rotation of the tips, and the cross-sectional area the magnetic circuit in all sections is larger than the cross-sectional area of the permanent magnet, while the permanent magnets are magnetized along their longitudinal axis; the tips are provided with rings mounted to move along the axis of the tip with the provision in the extreme lower position of the complete overlap of the magnetic flux.

 The invention is illustrated by drawings.

 In FIG. 1 shows a magnetizing device with a cut in a vertical plane; in FIG. 2 is a plan view.

 The device comprises a magnetic circuit, consisting of pivotally connected handles 1, prisms 2, which can be moved along the handle 1, and tips 3, made with rotation. Permanent magnets 4, magnetized along the longitudinal axis, are mounted in the tips 3 and are oriented in such a way that the magnetic flux generated by them passes through the tips 3, the prisms 2 and the handle 1. The tips 3 are provided with a ring 5 that can move along the axis of the tip in the lowermost position completely block the magnetic flux.

 The proposed device operates as follows.

 To magnetize the test product (not shown in the drawing), the device is mounted on its surface. Before this, the ring is set to its lowest position. In this case, the magnetic flux of the permanent magnet is completely shunted by the ring, does not pass through the magnetic circuit and the device is not magnetized to the product. The tips are installed with maximum contact with the surface of the product, for which prisms with magnets can be rotated around the axis of the tips.

 The distance between the tips is chosen from the condition of providing a sufficient overview of the surface with a minimum distance between the magnets.

 Moving the ring to its highest position puts the device into operation, in which the magnetic flux passes through the controlled product.

 After applying, for example, a magnetic suspension, defects are examined in the region between the magnets with a width of not more than the diameter of the magnet.

 The movement of the magnetic device during control should be carried out in increments not greater than the diameter of the magnet.

 The hinged connection of the handle, prisms and tips allows for good contact with the surface of any shape.

 Moving the prisms along the handle allows you to adjust the distance between the tips, thereby reducing or increasing the magnetic field strength. In addition, increasing the distance between the tips improves the inspection of the investigated area of the product.

 The implementation of the cross section of the magnetic circuit, large cross-section of the permanent magnet, provides the concentration of the entire magnetic flux inside the magnetic circuit and eliminates its scattering, thereby increasing the magnetic field strength.

 The free movement of the ring along the tip allows the magnetic flux to be completely shunted inside the magnetic circuit.

 Thus, the proposed magnetizing device allows you to detect surface defects of all types specified by GOST 21105-87 while ensuring ease of use.

Claims (1)

 Magnetizing device for magnetic particle inspection, containing a magnetic circuit, including tips, permanent magnets mounted for rotation, characterized in that the magnetic circuit is made in the form of articulated handles, prisms and tips to ensure the movement of prisms along the handle and with the possibility of rotation of the tips, while the area the cross section of the magnetic circuit in all areas is larger than the cross-sectional area of the permanent magnets magnetized along their longitudinal axis, and the tips are equipped with wife ring installed with the possibility of movement along the axis of the tip with the provision in the extreme lower position of the complete overlap of the magnetic flux.

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