RU1812052C - Magnetic plate - Google Patents

Abstract

Usage: mechanical engineering, for fastening ferromagnetic parts to metal cutting machines. SUMMARY OF THE INVENTION: a plate comprises a base 1, spacers 2, magnetizable permanent magnets 3 of a low coercive material with control coils 4, and an adapter. Spacers 2 and magnets 3 are mounted on the base with alternating relative to each other. In this case, magnets 3 are mounted on the base with poles of the same name, and non-magnetizable permanent magnets 5 of highly coercive material are located on their free poles. The adapter consists of poles 8, 9 isolated from each other. In this case, one part of the poles contacts the spacers 2, and the other part contacts the magnets 5. To fix the part 13, DC pulses are fed into the windings of the coils 4. The magnets 3 are unipolarized magnetically with respect to the magnets 5. Magnetic fluxes are closed through the part and fixed to the surface of the plate. 3 s.p. f-ly, 5 ill. ate

Description

The invention relates to machine tool and general mechanical engineering and can be used to secure ferromagnetic parts during their processing on metal cutting machines.

The purpose of the invention is to simplify the process of controlling and saving material of permanent remagnetizable magnets.

On Fig, 1 shows a plate, General view; in FIG. 2 - the same, top view; in FIG. 3 - longitudinal section of the slab (Off position); in FIG. A - the same (position On); in FIG. 5 is a section AA in FIG. 1 (Disabled position).

The magnetic plate consists of a base 1 made of a magnet of soft material, on the upper surface of which spacers 2 of a magnet of soft material are fixed, alternating with poles of the same name mounted on the upper surface of the base 1, vertically oriented magnetizable magnets 3 of low-coercive material surrounded by coils control 4, permanent vertically directed non-magnetizable magnets 5 of highly coercive material, mounted lower poles to the top the pole of the permanent magnetizable magnets 3 and enclosed in shells 6 of non-magnetic material, an adapter consisting of 7 poles 8 and 9 isolated from each other by non-magnetic gaskets. In this case, the poles 8 with the lower ends contact with the upper ends of the spacers 2, and the poles 9 with the lower ends contact with the upper poles of permanent non-magnetizable magnets 5.

In addition, a non-magnetic base 10 is attached to the bottom surface of the base 1, and the outer side surfaces of the plate are covered by a frame 11 of non-magnetic material.

Magnetic plate works as follows.

In the initial (inoperative) state, magnets 3 and 5 are heterogeneous with respect to each other. At the same time, they, mutually repulsing, will lock each other and will not create conditions for their magnetic fluxes to reach the working surface 12 of the plate.

As a result, the part 13 will not be fixed,. . .

In order to fix the part 13 mounted on the working surface 12, the plate is switched on by supplying 4 magnets 3 direct current pulses to the windings of the control coils, magnetizing them unipolarly with respect to the magnets 5,

Then the magnetic fluxes Ф and Фг are closed through the base 1, spacers 2, poles 8, part 13, pole 9, magnet 5 and magnet 3.

Thus, the magnetic fluxes F1 and, the passage through the part 13 ,. crepe t

0 it to the working surface 12 of the plate,

To unfasten the part 13 mounted on the working surface 12 of the plate, the plate is switched off by supplying 4 magnets 3 to the control coils

5 pulses of a direct current of reverse polarity, magnetizing them differently with respect to magnets 5. In this case, magnets 3 and 5 will again mutually repel each other and, locking each other, will not create conditions

0 to exit their magnetic fluxes onto the working surface 12 of the plate. Detail 13 in this case will unfreeze,

After shutdown, the cooker will be ready for the next cycle of work.

5 The claimed technical solution makes it possible to create magnetic plates, where, due to the presence of permanent, magnetizable and non-magnetizable magnets, the control is simplified when the plate is turned on and off and the corresponding magnet field is fed into the control coil magnets rnosti

5 In addition, the use of permanent non-magnetizable magnets allows you to save material permanent magnetizable magnet that have more

high cost, 0.

The formula for finding 1. A magnetic plate containing a base on which spacers are fixed, alternating with remagnetizable permanent magnets of low coercive material with control coils, and an adapter consisting of poles isolated from one another, one part of which is in contact with the spacers, wherein the magnetizable permanent magnets are mounted on the base with the same poles, and the base and spacers are made of a magnet of soft material, characterized in that, in order to increase the reliability of 5 work s, for remagnetizing free poles of permanent magnets mounted neperemagnichivaemye permanent magnets of the high-coercivity material, the other portion -pole kon5

0

Tacts with non-magnetizable permanent magnets

2. A plate according to claim 1, characterized in that shells of non-magnetic material are installed coaxially with non-re-magnetizable permanent magnets.

3. The plate according to claim 1, on the basis of the fact that the magnet has a soft base mounted on a non-magnetic gasket.

4. A plate according to claim 1, characterized in that a frame of non-magnetic material is mounted on the side surface of the plate.

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Figure 1

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FIG. 2

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