SU1538970A1 - Arrangement for separating ferromagnetic sheets from a stack and feeding them to working station - Google Patents

Abstract

The invention relates to the processing of metals by pressure and can be used to separate ferromagnetic sheets from the foot and feed them into the treatment area. The purpose of the invention is the expansion of technological capabilities by separating and feeding corrugated sheets. The sheets are separated and supplied by an inductor of a linear asynchronous electric motor mounted on the frame. The frame is located above the lifting table for placing a stack of sheets. The inductor contains separate cores with teeth carrying rollers and multi-phase winding coils located around the teeth. The cores are mounted movably along vertical guides of a nonmagnetic material and are in the form of plates, the outermost of which are made of a magnetodielectric material. The frame is made of non-magnetic material, and the cores are parallel to the axis of the sheet feed. 1 hp f-ly, 3 ill.

Description

The invention relates to the processing of metals by pressure and can be used to separate ferromagnetic sheets from the foot and feed them into the treatment area.

The purpose of the invention is the expansion of technological capabilities by separating and feeding corrugated sheets.

FIG. Figure 1 shows schematically the proposed device for separating ferromagnetic sheets from the foot and feeding them into the treatment zone; in fig. 2 is a view A of FIG. one; in fig. 3 shows a section BB in FIG. I.

The device contains a frame (not shown), a carrier suspension, made in the form of frame 1 of a non-magnetic material, and an inductor of a linear asynchronous electric motor. The latter contains separate cores 2 arranged parallel to one another and made of a package of plates 3. Extreme plates 4

Each of the cores 2 is made of a magnetodielectric material. The cores 2 are made with teeth 5 arranged in series one after the other along the longitudinal axis of the core 2, i.e. in the feed direction of the sheets. In each of the cores 2, there are holes 6 for the passage of guides 7 with protrusions 8. The guides 7 are fixed vertically on the frame 1 and made of a non-magnetic material. The device also includes rollers 9 mounted on the teeth 5 from the side of the table 10 for placing sheets 11 equipped with a lifting actuator 12 made in the form of a hydraulic lift, and a multiphase winding 13 consisting of coils 14. Each of the coils is mounted on frame 1 with holders 15, located perpendicular to the longitudinal axes of the cores 2 and placed between the teeth 5 of each of the cores

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nicknames 2. The coils 14 are arranged one after the other in the feed direction of the sheets 11.

The device operates as follows. A device for separating ferromagnetic sheets from the foot and feeding them into the treatment area, comprising a lifting table for placing the foot of ferromagnetic sheets, a frame located above

When the winding 13 (Fig. 1) is connected to a three-phase voltage source (not shown), a traveling magnetic field is excited

a field intersecting the upper corrugated 10 by a lifting table, carrying the inductor lines 11, which is attracted to the cardiac asynchronous electric motor, the rows 9 as ordinary electromagnetically made from separate cores with the teeth. First, they are attracted by protruding zami, rollers fixed on the teeth from the upward part of the corrugations of sheet 11, but at the same time the sides of the lifting table and coils there are forces of attraction between the free-multiphase winding, which are positioned with the warp cores 2 and the lower parts characterized in that, with g mi corrugations. These forces are greater than the force t - the purpose of expanding the technological capabilities of the cores 2, to which the upper parts of the corrugations and the strength of the t sheets are already made by separating and feeding, the cores of the sheet 11 itself are located, the cores axes of sheet feeding and current mounting in the winding 13. Under the frame on the frame with the possibility of mixing these forces, the upper parts of the corrugations, vertical in diameter, coils of the multiphase winding are fixed on the frame, and each of the cores is made in the form of plates wh eat extreme plates

7 and the coils 14 of the winding 13. Each of the cores is made of mag-. They move until the die-dielectric material, the frame is made of non-magnetic material.

2. The device according to claim 1, characterized in that it is provided with guides mounted vertically on the frame and made by electromotive forces and currents that are zoned from a nonmagnetic material, and interact with a running magnetic field, the holes are arranged in the cores, the guides are placed in the holes and on the guides, protrusions are made with the possibility of interaction with the cores.

pressing the cores 2, to which they are drawn, cause the cores 2 to move upwardly relative to the directional cores 2 do not attract the free lower parts of the corrugations of the sheet 11. The running magnetic field crossed by the drawn sheet 11 leads to it

lem inductor suspension. As a result of this interaction, a pulling force is created which moves the corrugated sheet 11

in the treatment area, for example to the press (not shown).

Invention Formula

1. An apparatus for separating ferromagnetic sheets from a foot and delivering them to a treatment area comprising a lifting table for accommodating a foot of ferromagnetic sheets, a frame located above

a lifting table carrying an inductor of a linear asynchronous electric motor made of separate cores with teeth, rollers fixed to the teeth on the side of the lifting table, and multiphase winding coils arranged around the teeth, characterized in that expansion of technological capabilities by separating and feeding corrugated sheets, the cores are arranged parallel to the sheet feed axis and mounted on the frame with the possibility of moving in the vertical direction, the coil of the multiphase winding Lena on a frame, and each of the cores is in the form of plates, the end plates

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9 Figure 5

Claims (2)

Claim 1. A device for separating ferromagnetic sheets from the stack and feeding them into the treatment area, comprising a lifting table for placing the stack of ferromagnetic sheets, a frame located above the lifting table, carrying an inductor of a linear induction motor made of separate cores with teeth, rollers mounted on the teeth from the side of the lifting table, and multiphase winding coils located around the teeth, characterized in that, in order to expand technological capabilities by separating and feeding corrugated cores, the cores are parallel to the sheet feed axis and mounted on the frame with the possibility of moving in the vertical direction, the multiphase winding coils are mounted on the frame, and each of the cores is made in the form of plates, the extreme plates of each of the cores being made of magnetodielectric material, the frame is made of non-magnetic material. 2. The device according to. π. 1, characterized in that it is provided with guides mounted vertically on the frame and made of non-magnetic material, moreover, holes are made in the cores, guides are placed in the holes, and protrusions are made on the guides to interact with the cores. ZZZZZZZZZZZZZZ ZZZZZZZZZZZZZZ