SU855480A1 - Magnetic-field flaw detector - Google Patents

Description

(54) MAGNETOGRAPHIC DEFECTOR The invention relates to non-destructive testing and can be used to reproduce the fields of defects recorded on magnetic tapes. A magnetographic flaw detector containing a reading unit made in the form of two magnetic heads with series-connected windings connected through a unit is known. Signal processing. With an information representation unit, including a cathode ray tube 11. A disadvantage of the known BCt device is the lack of an HOOTit control unit. This is due to the influence of the instability of the transmission coefficients of the differential channels H9, the control results. In close proximity to the invention, by the technical nature, a magnetographic flaw detector containing a drum mounted with the possibility of a vertical recording, a feed mechanism of a magnetic recording medium, a reading unit mounted on a drum, an amplifier and an information display unit including a cathode-ray tube, a generator of kilogram sweep, a generator horizontal scan, and a memory block connected to the information representation block 2. However, this flaw detector does not have the necessary reliability This is related to the possibility of registering only one field component, perpendicular to the working gap of the magnetic heads. The purpose of the invention is to increase the reliability of the control. The goal is achieved by the fact that the frame scanning generator is made with step scanning and is synchronized with the feeder of the magnetic recording medium, the reading unit is inserted in series, at a distance not less than the width of the magnetic magnetic head nosnel recording, with mutually perpendicular working gaps and connected with the memory block, and the latter is connected to the frame sweep generator. The drawing shows a structural diagram of the magnetic flaw detector. The magnetographic flaw detector contains a drum 1 installed with the possibility of rotation.

on a read non-block, made in the form of successively installed, at a distance of not less than the width of the magnetic recording carrier of magnetic heads 2 with mutually perpendicular working gaps 3, the mechanism LISM 4 of movement of the magnetic recording carrier 5, connected in series to the amplifier 6, connected by its input to the magnetic heads 2, a memory unit 7, and an information presentation unit 8, including a cathode ray tube (not shown), a horizontal scanning generator 9 and a 10-frame vertical generator, connecting ennye the, input to the transducer 11 moving mechanism 4 in the electric cooker speed signal and their outputs with blokom7 memory.

Magnetic flaw detector works as follows.

The magnetic recording medium 5 is moved by the movement mechanism 4 under the rotating drum 1. The magnetic heads 2 alternately interact with the magnetic recording medium 5. Defects located parallel to any working gap 3 are read by one of the magnetic heads 2, and other defects are read by both magnetic heads 2, and the resulting signals are added together. The signals amplified by the amplifier 6 from each of the magnetic heads 2 are fed to the memory block 7. The generator 10 of a stepped vertical sweep is synchronized with the movement of the magnetic recording medium 5 so that during two turns of the drum 1 around the axis, the signals from both magnetic heads 2 are successively superimposed on each other in the memory block 7 in accordance with the information recorded on the intersected portion of the carrier 5 magnetic recording. Due to the synchronization of the generator operation of the 10-step vertical sweep with the movement of the magnetic recording medium 5, every two turns of the drum 1, the voltage of the 10-step vertical sweep generator increases by a certain amount corresponding to the distance between the rows, and the magnetic heads 2 sequentially record the lines in memory block 7 ti. As a result, in block 7 of memory, line-by-line recording of longitudinal and transverse connections is obtained, in the direction of the magnetic fields of the scattering medium 5 of the magnetic recording.

Thus, the magnetographic flaw detector makes it possible to reproduce information7 recorded on a magnetic carrier, in full, regardless of the directions of the scattered fields on the carrier, which makes it possible to detect and determine the position of variously oriented defects (for example, cracks) regardless of their directions when recording fields defects on a magnetic carrier at different directions of magnetizers of a field, which provides an increase in the accuracy and reliability of control of materials and products.

Claims (2)

 Invention Formula A magnetographic flaw detector containing a rotatably mounted drum, a feeder of a magnetic recording medium, a drum-mounted reading unit, an amplifier and an information presentation unit, including a cathode ray tube, a frame scanner, a horizontal scanning generator, and a memory block connected to the information presentation unit, characterized in that, in order to increase the reliability of control, the frame sweep generator is executed in a stepwise sweep oh and synchronized with the magnetic recording carrier mechanism; the readout unit is designed as series-wise, at a distance not less than the width of the magnetic recording carrier of magnetic heads, with mutually perpendicular working gaps and connected to the memory unit; f the latter is connected to the frame scan generator. Sources of information taken into account in the examination 1. USSR author's certificate No. 313463, Cl, G 01 N 27/82, 1972. 2. USSR author's certificate No. 482699, cl. G 01 N 27/84, 1975 {prototype), AND.