RU61154U1 - DEVICE FOR FIXING LAYER BOARDS ON A PROTECTED SURFACE FROM A MAGNETIC CONDUCTING MATERIAL - Google Patents

Abstract

The proposed technical solution relates to the field of ore-grinding equipment and can be used to fix lining plates with less effort spent on the protected surface of the magnetically conductive material. A device for fixing the lining plates on the protected surface of the magnetic conductive material comprises a protected surface of the magnetic conductive material, lining plates with cylindrical recesses and cylindrical holes made from the central part of each lower base of the cylinder of the cylindrical recesses, installed with their non-working surfaces on the protected surface of the magnetic conductive material, and fasteners, each of which is made in the form of a plug cylindrical of the th form located in each of the cylindrical recesses made in the lining plates of a disk of a magnetically conductive material fixed to one of its sides on the lower end surface of each of the cylinders of a cylindrical plug and a permanent magnet located with its outer side surface in each of the cylindrical holes, made in the lining plates and outgoing from the central parts of the lower bases of each of the cylinder cylindrical recesses made in the lining plates and installed one of its end surfaces on the other of the outer surfaces of the disk of the magnetically conductive material and the other of its end surfaces on the protected surface of the magnetically conductive material. The technical result achieved by the proposed technical solution is to eliminate significant efforts associated with

installation and fixing of the lining plates on the protected surface of a magnetically conductive material.

Description

The proposed technical solution relates to the field of ore-grinding equipment and can be used to fix lining plates with less effort spent on the protected surface of the magnetically conductive material.

Similar technical solutions are known, see, for example, the abstract journal VINITI "Mining", 1987, No. 7, ref. 7D49, which describes a magnetic lining, representing the following set of essential features:

- a protected surface of a magnetically conductive material;

- lining plates with vulcanized magnetic horseshoes that perform the functions of fasteners for fixing the lining plates to the protected surface of the magnetically conductive material, installed with their non-working surfaces on the protected surface of the magnetically conductive material.

Common features of the proposed technical solution and the above technical solution are:

- a protected surface of a magnetically conductive material;

- lining plates installed with their non-working surfaces on the protected surface of a magnetically conductive material;

- fasteners for fixing the lining plates on the protected surface of a magnetically conductive material.

A similar technical solution is also known, see, patent of the Russian Federation No. 2206401, which is selected as a prototype and which contains the following set of essential features:

- a protected surface of a magnetically conductive material;

- lining plates with vitrified ceramic magnets that perform the functions of fasteners for fixing the lining plates on the protected surface of the magnetically conductive material, installed with their non-working surfaces on the protected surface of the magnetically conductive material.

Common features of the prototype and the proposed technical solutions are:

- a protected surface of a magnetically conductive material;

- lining plates installed with their non-working surfaces on the protected surface of a magnetically conductive material;

- fasteners for fixing the lining plates on the protected surface of a magnetically conductive material.

The technical result, which cannot be achieved by any of the known similar technical solutions, is to exclude significant efforts associated with installation and fixing (and also with the replacement, during operation and wear of the working surfaces) of the lining plates with permanent magnets vulcanized in them.

The reason for the impossibility of achieving the above technical result is that the prevailing practice when installing and fixing the lining plates on the surface to be protected from the magnetic conductive material, as a rule, involves the use of traditional and widely known methods of fastening, including using ceramic and conventional vulcanized into the lining plates permanent magnets, which when laying and fixing the lining plates, as well as during their next replacement, as a result of wear of their work their surfaces that require a lot of effort and research on more effective means of fixing lining plates to the protected surface of the magnetically conductive material due attention has not been given.

Given the characterization and analysis of known similar technical solutions, we can conclude that the task of creating means for attaching the lining plates to the protected surface from a magnetically conductive material with the smallest possible applied effort spent on installation and fastening is relevant today.

The technical result indicated above is achieved by the fact that in the device for fixing the lining plates containing the protected surface of the magnetically conductive material, the lining plates installed with their non-working surfaces on the protected surface and the fasteners for fixing the lining plates on the protected surface of the magnetically conductive material: - each of fasteners for fixing the lining plates on the protected surface of a magnetic material, made in the form of plugs cyl a single shape located in each of the truncated cylindrical recesses made in the lining plates of a disk of magnetically hard material fixed to one of its sides on the lower end surface of each of the cylinders of a cylindrical plug and a permanent magnet located with its outer side surface in each of the cylindrical holes made in the lining plates and emanating from the central parts of the lower bases of each of the cylinders of the cylindrical recesses made in the lining x plates mounted one of its end surfaces on another of the outer surfaces of the disk of a magnetically conductive material, and the other of its end surfaces on a protected surface of a magnetically conductive material.

The execution of each of the fasteners, as described above, allows you to place lining plates in any order with the application of the smallest possible efforts on the surface to be protected, with the cylindrical recesses and cylindrical holes emanating from them

from the central parts of the lower bases of the cylindrical recesses, while the non-working surface of the lining plates should be located by the exits of the cylindrical holes on the surface to be protected from the magnetically conductive material, and then, without significant effort, install a permanent magnet fixed to one of its end surfaces on one of the sides of the disk from magnetically conductive material fixed (vulcanized) in the plug of a cylindrical shape, until its other is completely free end surface with a protected surface of magnetically conductive material and thus compress the lower parts of the end surfaces of the cylinders of cylindrical caps to the upper end parts of the surfaces of the cylindrical holes (having diameters smaller than the internal diameters of the cylindrical recesses), and press the lining plates through the magnetic forces of the permanent magnets to the surface to be protected from magnetically conductive material, thereby securing the lining plates on the surface to be protected rhnosti of magnetically conductive material with a minimal of effort, and what appears the achievement of the technical result mentioned above.

The proposed device for fixing the lining plates on the protected surface of a magnetically conductive material is illustrated by the following description and drawings, in which Fig. 1 shows a device for fixing the lining plates in a section, and in Fig. 2 - lining plates are a top view.

The proposed device for fixing the lining plates on the protected surface of a magnetically conductive material, contains:

- the protected surface - 1 of a magnetically conductive material;

- lining plates - 2, 3, with cylindrical recesses - 4, 5, 6, 7, 8, 9 and cylindrical holes - 10, 11, 12, 13, 14, 15, made outgoing from the central part of each lower base of the cylindrical recesses - 4, 5, 6, 7, 8, 9, established by their non-working

surfaces (lower exits of cylindrical holes - 10, 11, 12, 13, 14, 15) on the surface to be protected - 1 of a magnetically conductive material;

- fasteners for fixing the lining plates - 2, 3 on the surface to be protected - 1 made of magnetically conductive material, each of which is made in the form of a plug of cylindrical shape - 16 (17, 18) (for example, from anti-wear rubber) located in each of the cylindrical recesses - 4, 5, 6, 7, 8, 9, made in lining plates - 2, 3, of the disk - 19 (20, 21) of a magnetically conductive material, fixed (by any of the known methods, including vulcanization) to one of its sides on the lower end surface of each of the cylinders 16 - 17 (18, 18) and a permanent magnet - 22 (23, 24), located on its outer side surface in each of the cylindrical holes - 10, 11, 12, 13, 14, 15, made in lining plates - 2, 3 and outgoing from the central parts of the lower bases of each cylinder of the cylindrical recesses - 4, 5, 6, 7, 8, 9, made in the lining plates - 2, 3 and installed one of its end surfaces on the other of the outer surfaces of the disk - 19 ( 20, 21) from a magnetically conductive material, and the other from its end surfaces on the protected surface - 1 and magnetically permeable material.

The proposed device for fixing the lining plates on the protected surface of a magnetic material is as follows.

Lining plates - 2, 3 with cylindrical recesses made in them - 4, 5, 6, 7, 8, 9, and are pre-cast, for example, from rubber, with non-working surfaces, on the surface to be protected - 1 made of magnetically conductive material, in any necessary order with cylindrical holes - 10, 11, 12, 13, 14, 15, having the outlets of the cylindrical holes - 10, 11, 12, 13, 14, 15 on the surface to be protected - 1 made of magnetically conductive material.

On a pre-cast, for example, from a rubber plug of cylindrical shape - 16 (17, 18) with vulcanized discs - 19 (20, 21) of a magnetically conductive material, a permanent magnet - 22 (23, 24) is mounted, which is attracted by one of its end surfaces to the free surface of the vulcanized disk - 19 (20, 21) of the magnetically conductive material, resulting in one of the fasteners for fixing the lining plates - 2, 3 on the surface to be protected - 1 of the magnetically conductive material.

Thus obtained the necessary fasteners are sequentially installed in cylindrical holes - 10, 11; 12, 13, 14, 15 with their permanent magnets - 22, 23, 24 ... until their free end surfaces adhere to the protected surface - 1 of magnetically conductive material, which as a result of adhesion tightly press the lower parts of the end surfaces of the cylinders of cylindrical-shaped plugs - 16 , 17, 18 ... to the upper end parts of the surfaces of the cylindrical holes - 10, 11, 12, 13, 14, 15 (having inner diameters smaller than the inner diameters of the cylindrical recesses - 4, 5, 6, 7, 8, 9) , thereby ensuring reliable fastening located on the protected surface - 1 of magnetically permeable material lining plates - 2, 3.

Thus, the proposed device for fixing the lining plates on the protected surface of the magnetically conductive material, allows you to separate the simultaneously performed installation and fixing on the protected surface of the magnetically conductive material of the lining plates with the permanent magnets vulcanized in them, as is done with significant applied efforts in known similar technical solutions, for two independent technological operations: - separate installation on the protected surface the spacers of the lining plates without the permanent magnets vulcanized in them and a separate installation of fasteners, ensuring without

significant efforts reliable fixing of the lining plates on the protected surface of a magnetically conductive material.

Claims (1)

A device for fixing the lining plates on a protected surface of a magnetically conductive material, comprising a protected surface of a magnetically conductive material, lining plates installed with their non-working surfaces on a protected surface of a magnetically conductive material and fasteners for fixing the lining plates on a protected surface of magnetically conductive material, characterized in that each of the fasteners, for fixing the lining plates on the protected surface of the magnet conductive material, made in the form of a cylindrical plug, located in each of the cylindrical recesses made in the lining plates, a disk of magnetically conductive material fixed to one of its sides on the lower end surface of each of the cylinders of the cylindrical plug and a permanent magnet located on its outer side surface in each of the cylindrical holes made in the lining plates and emanating from the Central parts of the lower bases of each of the cylinders recesses made in the lining plates, installed one of its end surfaces on the other of the outer surfaces of the disk of the magnetic material and the other of its end surfaces on the protected surface of the magnetic material.