SU1580241A1 - Apparatus for magnetic flaw detection - Google Patents

Abstract

The invention relates to the non-destructive testing of the magnetic particle flaw detection method, can be used to control the quality of ferromagnetic products of complex configuration. The aim of the invention is to increase the control productivity by expanding the control zone and increasing the predetermined field strength level between the field sources. The goal is achieved by the fact that magnetization is performed by two identical saddle-shaped electromagnets attached to a transport carriage with the possibility of adjusting the distance between them, and the coil sections of both electromagnets are turned on so that the floor of the inner sections of the coils of both electromagnets are folded. 4 il.

Description

The invention relates to the non-destructive testing by the magnetic particle inspection method of flaw detection and can be used to control the quality of ferromagnetic products of complex configuration.

The aim of the invention is to increase the productivity and sensitivity of the control by expanding the zone of control and increasing the predetermined level of field intensity.

FIG. 1 shows the device, a general view; in fig. 2 - sections of coils of one electromagnet; in fig. 3 is a diagram of the connection of the coils of the sections of two electromagnets; in fig. 4 - the distribution of the floor between the two electromagnets.

The device contains two saddle-shaped electromagnet 1 and 2 mechanically interconnected, for example, mounted on a transport carriage 3 with the possibility of adjusting the axial distance between them and moving them along the product 4 in the process of control. Each electromagnet is made in the form of a coil consisting of two electrically saddle-shaped sections 5 and 6 spaced along the axis, with opposite turns of coils and other horseshoe-shaped cores 7 and 8 fixed on the inner sides of the sections of each electromagnet. Moreover, the beginning of the outer section of the first and the beginning of the inner section of the second electrolyte are intended for connection to the power supply, and the end of the inner section of the first and the end of the outer section of the second electromagnet are interconnected. With such a connection, the field between the inner sections of both electromagnets is folded.

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Curve 9 (FIG. 4) denotes the distribution of the field (diagram) of electromagnet 1, curve 10 — electromagnet 2, curve 11 — the total field of both saddle-like electromagnets.

The device works as follows OM 4

The sections of the coils of electromagnets 1 and 2 are connected in such a way that in the space between them their fields are added. Then, depending on the control conditions, set the distance between the electromagnets so that the total field between them is not. below the set value required for control. Electromagnets are connected to a power source. During the passage of current through the coils, the product is magnetized. By magnetizing a product a magnetic indicator is applied, the distribution of which determines the presence of discontinuities in the metal of the products.

The device will allow to double the control zone between electromagnets with a given level twice

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floor and thereby increase the productivity of the flaw detector.

Claims (1)

Claims An apparatus for magnetic flaw detection, comprising an electromagnet made up of a magnetizing coil consisting of two spaced apart saddle-shaped sections with opposite direction of coils and two horseshoe-shaped cores fixed on the inner sides of the coil sections, characterized in that in order to increase the productivity and sensitivity of the control by expanding the control zone and increasing the predetermined level of tension to the floor, it provides EHO second identical electromagnet both electromagnets are mounted for adjusting the axial distance between them, the beginning of the first outer section and the beginning of the inner section of the second electromagnets are intended for connection to a power source and the end of the inner section and the first end of the outer section of the second electromagnets are interconnected. t And Hv8Ј Jl L I BUT: Ll L FIG. 250 Compiler A. Bodrov Editor N. Bobkova Tehred L. Serdyukova Proofreader L. Patay - Order 2007 Circulation 510 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology CQCP 113035, Moscow, Zh-35, 4/5, Raushsk nab. Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101 250hmpOtNCH-} Ochinit LF-2 Subscription