SU371499A1 - MAGNETIC FIELD RECORDER FOR MAGNETOGRAPHY - Google Patents

Description

one

The invention relates to the field of magnetographic flaw detection and can be used for magnetic measurements.

Magnetic recorders for magnetography are known, containing a source of magnetizing field and a magnetic tape located in the control zone. However, the stability of the field registration results and the noise immunity of these recorders are insufficient, since they contain a source of a magnetizing field, the stability of which is determined by many factors, including the mode (the power of the magnetizing field pathogens, the parameters of these pathogens, etc.

The purpose of the invention is to increase the noise immunity of signal registration during magnetic tape detection. For this, the proposed recorder is equipped with a source of dosed heating and an electromagnetic screen located in the control zone. The dosed heating source is made in the form of a fan with an electric heater and a time relay through which the electric heater is connected to the industrial AC network.

The drawing shows the scheme of the proposed registrar.

It consists of an electromagnet / with a winding 2, magnetizing the product under study to saturation. Between the poles of the electromagnet is placed a screen 3, made of a magnet of mild steel and having a semicircle shape in cross section. A duralumin reflector 4 is attached to the inner side of the screen facing the tape, which is designed to reflect heat radiation in the direction of the magnetic tape. Magnetic tape 5 is placed between the poles under the reflector. In the process of recording magnetic fields, the tape is heated by means of a dosed heating source 6, which consists of a fan,

nichrome spiral for heating air and air duct. The tape is heated by a stream of hot air. When the required temperature is reached, the supply of hot air is stopped. The duration of operation of the heater is set by an electrical time relay and is chosen experimentally. The cooling of the magnetic tape is carried out using the same fan, but with the heater coil turned off.

In order to record the fields of defect scattering, high sensitivity and linearity of characteristics are used in the initial part of the magnetic tape heated to a temperature close to the Curie point of the tape material.

The demagnetized magnetic tape is superimposed on the test item. The product is magnetized to saturate the electromagnet using an ori. Defects that are present in the weld seam generate scattering fields, which are recorded on a magnetic tape. The heater is turned on. The operating time of the heater is chosen so that the operating temperature is 30-40 ° C lower than the Curie temperature of the magnetic material of the tape. At this temperature, the differential magnetic permeability, xaipactivating recording contrast, has a large value and almost keeps its value unchanged in the range of changes in the intensity of the measured zero from O to Hmax-Le te. You de (for example, 1 second, during which the fields for scattering defects are recorded, after which the heater is turned off and the tape is cooled in a magnetizing field, after which the electromagnet is turned off.

Subject invention

Claims (2)

1. A magnetic field recorder for m-agnitography, containing a source of nastoychivayuschu, its field and magnetic tape located in the control zone, characterized in that, in order to increase the stability of the recording of signals during magnetic flaw detection, it is equipped with a source of metered heating and electromagnetic screen located in the control zone. 2. A recorder according to claim 1, characterized in that the dosed heating source is produced in the form of a fan with an electric heater and a time relay through which the electric heater is connected to an industrial AC network. 2 / Relay relay