SU278877A1 - MAGNETIC CELL - Google Patents

Description

Magnetic cells are known which contain a permanent magnet of high-performance material, two pole tips of magnetically soft material, and devices for disconnecting the cell. The disadvantage of such cells is the complexity of their control. There are two ways to control cells — mechanical and electrical. In the mechanical control method, the cells are divided into two parts, with the plane of the connector extending perpendicular to the plane of the zeroes of the magnet and dividing it into two parts, one of which is movable relative to the other. When rotating the movable part of the cell relative to the other by 180 °, the parts of the magnets that are in the same plane have poles of different polarity. The magnetic flux in this case passes inside the magnetic system, while the cell is switched off. The disconnection of the magnetic device, in which there is a series of cells, is carried out by moving the movable block, which unites the lower parts of the cells, parallel to the plane of the connector. In this case, the same result is achieved as with rotation of a part of the cell through 180 °. A disadvantage of the device for disconnecting cells is the presence of moving parts and the considerable effort required to move them. In order to manually control the device, its design provides

complex power mechanisms. A special drive is used to remotely control such cells. In the electric control method, the cell is switched off by passing a series of imulses through a magnetic coil worn on a permanent magnet. The current pulses have alternating polarity with a non-steadily decreasing amplitude, thus achieving a complete

magnet demagnetization. The cell is turned on by magnetizing the permanent magnet again, which is also done; e by means of current pulse through the coil. The disadvantage of such cells is

the complexity of the design of the device required for magnetization and demagnetization of magnets. In addition, cells can only be built on cast magnets with low coercive force. Barium oxide magnets cannot be used in this case, since such magnets have great coercive force, and their magnetization and demagnetization are performed using a special installation.

The complexity of managing magnetic cells limits their field of application. Magnetic cells and their aggregates are mainly used in machine tools designed to secure the purpose of the invention — simplifying control of the magnetic cell. For this, the cell is equipped with an additional magnet of a material with a low coercive force. A spindle is worn on the control magnet for magnetization and demagnetization.

The drawing shows the described magnetic cell, and - in the position "on, b-in position" off.

For the attraction of the core to the pole tips 1, a single current pulse is passed through the coil in such a direction that the magnetic flux generated by the control magnet 2 folds with the magnetic flux of the axial magnet 3 and the magnet core (or the workpiece) is attracted to the pole pieces. To release the core, a single current pulse is passed through the coil in the opposite direction. As a result, the control magnet reverses and the magnetic flux created by this magnet is directed opposite to the magnetic flux of the main magnet, i.e. the cell is neutralized, and the measles is released. When remagnetizing the precompletion magnet, the main (oxide – barium) magnet does not magnetise and does not lose its original magnetic properties due to the large coercive force. In this way, the cell is controlled without the use of the sub-components of nln complex electrical boards. Measurements have shown that the specific gravity of the cell described is greater than that of electropulse controlled cells, and is similarly similar to that of mechanically controlled cells.

On the basis of the proposed magnetic cell, magnetic machine tools, magnetic lifting washers can be created

cranes, magnetic tables of machine tools, magnetic blocks of stamping presses, magnetic friction clutches, in-out magnets, etc.

Subject of invention

Magnetic cell for devices that use the force of attraction and a stable magnet of high-coercive material, characterized in that, in order to simplify control, it contains an additional magnet of low-coercive material with a winding for demagnetization and magnetization.