RU1558009C - Device for thermomagnetic working permanent magnets - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: device has electric magnet with magnetic circuit, through type furnace with muffle, mechanisms for handling workpieces, control unit/programmer, temperature sensor and controller. Muffle is of particular design and has two parts of magnetic circuit. First one is non-ferromagnetic, and located in working area of through furnace. The device has also pulse generator with control unit. Use of the pulse generator allows one to simplify electromagnet design. Said design allows one to decrease dissipation of magnetic flux when working the article. Presence of automatic communication between all members of the device provides continuity of the process of thermomagnetic working and excludes manual labour. EFFECT: increased economy of the device and increased quality of the articles being worked at the expense of above features. 1 dwg, 1 tbl

Description

 The invention relates to the metallurgy of magnetic materials and can be used for thermomagnetic processing of permanent magnets.

 The purpose of the invention is to increase profitability and improve product quality.

 A distinctive feature of the device, which contains a continuous electric furnace with a muffle, an electromagnet with a magnetic circuit, a movement mechanism, a programmer control unit, a sensor and a temperature regulator, is a three-part muffle design, as well as a pulse generator with a control unit.

 The drawing shows a block diagram of the proposed installation.

 The installation consists of an electromagnet 1, a magnetic circuit 2, an electric furnace 3, a muffle 4, a moving mechanism 5, a pulse current generator 6, a control unit 7, temperature control devices 8, processed magnets 9, a loading hopper 10, an unloading hopper 11.

 The control unit 7 is connected to an AC network, the output of the control unit is connected to the input of the pulse generator 6, electric furnace 3 and the movement mechanism 5. The output of the generator 6 is connected to the input of the electromagnet 1.

 Temperature control devices 8 are connected to the input of the control unit 7.

 Installation works as follows.

 The processed magnet 9 is fed from the loading hopper 10 to the guide of the moving mechanism 5. The moving mechanism of 5 magnets periodically, upon a signal from the control unit, supplies the magnets through the muffle 4 to the electric furnace 3.

 The control unit 7 controls the temperature of the processed magnet 9 and, upon reaching the optimum temperature, turns on the generator 6, after applying a pulse to the electromagnet 1, a feed mechanism is turned on, which moves the processed magnet through the muffle 4, while the next magnet is fed into the working area, and the finished magnets enter the hopper unloading, after which the cycle repeats.

 The table shows data showing the advantage of the proposed device using power from a pulse generator.

The use of new elements and a new block diagram in the installation favorably distinguishes the proposed installation from the specified prototype, since the presence of a magnetic circuit closed to the magnet being processed provides a decrease in the dispersion coefficient of the magnetic field compared with existing installations from 0.6 to 0.9, which allows you to accordingly reduce the energy consumed by magnetization by 30%
The presence of automatic communication of all structural elements ensures the continuity of the process of thermomagnetic processing, increases the efficiency of the system, eliminates the use of manual labor when performing the specified operation, reduces the complexity of its implementation, improves the quality through the use of automated process control, increases the productivity of workers by increasing the number at the same time serviced installations.

Claims (1)

 DEVICE FOR THERMOMAGNETIC PROCESSING OF PERMANENT MAGNETS, comprising a continuous electric furnace with a muffle, an electromagnet with a magnetic circuit, a mechanism for moving the processed magnets, a control unit for a programmer, a temperature sensor and an automatic temperature controller, characterized in that, in order to increase economy and improve product quality, the device additionally contains a pulse generator, the input of which is connected to an alternating current main, an output to an electromagnet, and an electric furnace muffle made of two magnetos ovodyaschih parts and the third non-ferromagnetic portion disposed in the working zone of the electric furnace, and two magnetically conductive portions are connected with the yoke of the electromagnet.

Images