RU1816632C - Magnetic plate - Google Patents

Abstract

Usage: mechanical engineering, for fixing parts during processing, assembly, transportation. SUMMARY OF THE INVENTION: a plate comprises a non-magnetic housing 6, movable and fixed magnetic blocks. The blocks consist of poles 3, 4, 5 and permanent magnets 1,2. The cross section of the poles 3 is made crosswise. On the lateral surfaces of each pole 3, additional pole 7 is installed, isolated from the pole 3 by non-magnetic material. With appropriate movement of the movable magnetic unit, the magnetic flux generated by the permanent magnets 1 and 2 either closes inside the magnetic plate or through part 14 secures it to the working surface of the plate. 1 s.p. f-ly, 2 ill.

Description

8

(L

WITH

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

The aim of the invention is to increase the reliability of fixing parts with a wide range of sizes, including small Vi thin. . (: Ne. Fig. 1 shows the magnetic plate in the off position; in Fig. 2, the same, in the on position.

The magnetic plate contains a fixed and movable magnetic blocks, respectively consisting of permanent magnets 1 and 2, mounted with alternating polarities and adjacent poles respectively to the side surfaces of the poles 3 and 4 of the fixed magnetic block and the poles 5 of the moving magnetic block open from the upper side of the non-magnetic housing 6, rigidly connected to a fixed magnetic unit. A movable magnetic unit is mounted inside the housing 6. In this case, the pole and the 3 fixed magnetic blocks have a cross-shaped cross section and the width of their lower end is greater than the width of the upper end, and the poles 4 have a rectangular cross-section and are provided with a lateral protrusion located above the magnet 1 in the upper part of the side surface in contact with the pole of the magnet 1.

On the upper surfaces of the lateral protrusions of the poles 3 on both sides of their upper protrusions and on the upper surfaces of the lateral protrusions of the poles 4, additional poles 7 are installed, isolated from the poles 3 and 4 by non-magnetic material 8.

In turn, the poles 3 and 4 of the fixed magnetic block and the poles 5 of the movable magnetic unit are bonded to each other, respectively, with non-magnetic strips 9 and 10, while the poles 4 are bonded to non-magnetic strips 11.

The movable magnetic unit is connected to the drive via a link 12 (not shown),

Magnetic plate works as follows,

In the initial (inoperative) state, the movable magnetic unit is in the extreme right position. In this case, the poles 5 of the movable magnetic unit are in contact with the upper ends with the lower opposite ends of the poles 3 and 4 of the fixed magnetic unit that are differently polar with respect to them. In this case, the magnetic flux is closed through the pole 4, pole 5, magnet 2, pole 5, pole 3 and magnet 1, and the magnetic flux Фg is closed through pole 3, pole 5, magnet 2, pole 5, pole 3 and magnet 1.

As a result, the magnetic fluxes Фч and Фа, locked inside the magnetic plate, do not have access to its working surface 13 and do not fasten part 14 to it.

To fix the part 14 mounted on the working surface 13 of the plate, the plate is turned on by longitudinally moving the movable magnetic unit to the leftmost position. As a result, the poles 5 of the movable magnetic block will contact the upper ends with the lower opposite ends of the poles 3 and 4 of the fixed magnetic block which are unipolar relative to them. Then the magnetic flux ФЗ will be closed through the pole 4, part 14, additional poles 7, pole 3 and magnet 1, the magnetic flux 04 will be closed through pole 3, part 14, additional poles 7, pole 3 and magnet 1, magnetic flux Фb will be closed through pole 5 , pole 4, part 14, additional poles 7, pole 3, pole 5 and magnet 2, the magnetic flux Fö is closed through pole 5, pole 3, detail 14, additional poles 7, pole 3, pole 5 and magnet 2.

Thus, the magnetic fluxes ФЗ, Фз, Фб and Фе, the passage through the part 14, fastens it to the working surface 13 of the magnetic plate.

To unfasten the part 14, the magnetic plate is switched off by longitudinally moving the movable magnetic block to the leftmost position. As a result, the poles 5 of the movable magnetic block will contact the upper ends with the lower opposite ends of the poles 3 and 4 of the fixed magnetic block that are different from each other. Then the magnetic flux Фс is closed through the pole 4, pole 5, magnet 2, pole 5, pole 3 and magnet 1, and the magnetic flux Фa is closed through pole 3, pole 5, magnet 2, pole 5, pole 3 and magnet 1.

Thus, the magnetic fluxes Ф-i and Фа, locked inside the magnetic plate, do not have access to its working surface 13. Part 14 in this case will be unfastened,

After disconnecting the magnetic plate is ready for the next cycle of work:

The claimed technical solution provides the creation of various magnetic devices such as plates, cartridges, tacks and

etc., allowing reliable hold not only large parts, but also small and thin, which ultimately expands their technological capabilities.

Claims (2)

SUMMARY OF THE INVENTION 1. A magnetic plate comprising a housing, within which a movable magnetic unit is located, and a fixed magnetic unit mounted on the open end of the housing, the movable and fixed magnetic units consisting of poles and permanent magnets mounted with alternating polarities and contacting poles with side surfaces 0 5 pole, characterized in that, in order to increase reliability in operation, the cross section of the poles of the fixed magnetic unit is made in a cross-shaped shape, and the width of their working end is less than the width of the opposite end, while on the side surfaces of each pole of the fixed magnetic block from the side of their workers additional poles are installed on the ends, isolated from the previously mentioned poles by non-magnetic material .. 2. A plate according to claim 1, characterized in that the housing is made of non-magnetic material.