SU1728891A1 - Method of demagnetizing ferromagnetic articles - Google Patents

Description

SP

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The invention relates to a machine tool industry and general engineering and can be used in automatic lines for demagnetization of workpieces and products magnetized during processing, transportation or control.

There is a known method of demagnetization, in which the residual magnetization of the product is measured as the process of demagnetization proceeds (during the passage of the product through demagnetizing coils) and the coils are turned off when the residual magnetization reaches a predetermined level, while the magnitude of the demagnetizing fields does not depend on the magnetization of the entered instrument in any way.

The closest to the technical essence of the invention is a method of demagnetizing ferromagnetic products, in which the product is moved through the alternating electromagnetic field of a demagnetizer, the remanent magnetization is measured at the output, this value is compared with the specified one and, if the latter is exceeded, re-demagnetized.

However, even in this case, the magnitude of the demagnetizing fields is not related to the initial residual magnetization of the product, which leads to significant energy consumption and complexity of the process automation, i.e., the method is not efficient enough and technologically advanced.

The purpose of the invention is to improve the manufacturability and efficiency of the demagnetization process.

This goal is achieved by the fact that, according to the demagnetization method of ferromagnetic products, in which the products are moved through the alternating electromagnetic field of the demagnetizer, the remanent magnetization is measured at the output, cx 10.

with y

This value is set at a predetermined value and, if the latter is exceeded, re-demagnetized, the maximum residual magnetization values on the surface of the product are fixed at the input and output of the demagnetizer, and the amplitude of the electromagnetic field is proportional to it.

The drawing shows a device for demagnetizing bearing rings, illustrating the proposed method.

The device contains a tray 1, on which before and after the demagnetizing coil 2 sensors 3 residual magnetization are installed on the surface of ring A. Groups of input and output sensors 3 transmit signals to blocks 5 for determining their maximum values. At the entrance to the coil 2, the block 5 controls the power supply system of the coil 2, and at the output it sends a signal to the block 7 comparing this signal with a predetermined one, which through the block 8 controls the cutter 9 having two positions. In one of these positions, the cutter 9 passes the ring 4, and in the other (indicated by a dashed line), the ring 4 guides on the path 10 again to the entrance to the tray 1.

The device works as follows.

Ring 4 rolls over tray 1. At the same time, sensors 3 measure the magnetization on the surface of ring 4 before and after it passes through coil 2. Before entering coil 2, sensors 3 transmit signals to block 5, which selects the maximum value of these signals and in its function controls the power supply system 6 of coil 2. Thus, the current passing through the demagnetization coil, and hence the magnitude of the demagnetizing field, depends on the maximum value of magnetization on the surface of the ring 4. After demagnetization, the sensors 3 control the level of residual magnetization on the surface of the ring 4, transmit signals to block 5, which determines their maximum value and transfers it to block 7, in which this value is compared with the set value, and form a command for the cutter control unit 8 9. In case the product is insufficient demagnetized, the slam-shut 9 is switched to the position shown by the dashed line, and the ring 4 is directed along the path 10 to the input of the chute 1.

Claims (1)

METHOD OF DEMAGNIZING FERROMAGNETIC PRODUCTS, in which the products are moved through the alternating electromagnetic field of the demagnetizer, the residual magnetization is measured at the output, this value is compared with the set value and, if the latter is exceeded, demagnetized, characterized in that, with the aim of increasing manufacturability and efficiency, at the inlet and outlet of the demagnetizer, the maximum values of the residual magnetization on the surface of the product are fixed, in proportion to which the amplitude of the electromagnetic fields.