SU1033386A1 - Belt conveyer - Google Patents

Abstract

BELT CONVEYOR, which includes tape with magnets, the poles of the incoming and the bypass drums, whose poles on the load-carrying branch of the tape are located above the same poles of the base magnets mounted on the frame along the longitudinal axis of the tape above its idle branch, characterized in that, in order to increase the efficiency of the conveyor by providing a stable position of the tape on a magnetic base, it is provided with magnetic rollers located along the edges of the base between the branches of the tape, the magnetic poles of which are located opposite to the opposite poles of the magnets tape of claim 2.Konveyer. 1, characterized in that the magnets on the basis of positioning are mounted to their poles on opposite poles of the magnets single branch tape contacting with the magnetic roller. 3.Conveyor on PP. 1 and 2, characterized in that the magnetic rollers have a diameter greater than the thickness of the base. i 4. Conveyor on PP. 1 and 2, characterized in that the base is mounted on a magic frame (lithium rollers.

Description

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The invention relates to conveyor transport, namely to magnetic conveyor belt conveyors.

A belt conveyor is known that contains a belt that covers the drive and tension drums and is located on the load carrying branch above the magnetic supports made as separate blocks with magnets whose poles coincide with the same poles of the tape. the sections have restrictive rollers and are mounted with the possibility of lateral movement relative to the longitudinal axis of the belt 1.

The disadvantage of this conveyor is the complexity of the structural design of the support from separate blocks, since each block must have separate rollers and guides for them. The displacement of the blocks installed on the rollers is carried out by a tape, which, with its edge, interacts with the block's limiting rollers, which leads to intensive wear of the edges of the tape. In addition, a situation is possible in which all the blocks with magnets will be displaced in one direction, which will not ensure steady movement of the tape over the magnetic support.

The closest to the proposed technical essence and the achieved result is a belt conveyor, which includes a belt with magnets, which cover the drive and bypass drums, the poles of which on the load-carrying branch of the belt are located above the poles of the base magnets mounted on the frame along the longitudinal axis of the tape above its idle branch. The non-working lining and base are made of magnetized material, which is magnetized in the form of strips arranged along the longitudinal axis of the conveyor.

However, in this conveyor, the stable movement of the belt over the magnetic base along the conveyor axis of the conveyor is not ensured, since the central position of the belt is unstable. Side force, i.e. the force that tends to move the tape to the side is zero only if absolutely magnetic systems (tape and base) are placed one above the other. In all other positions, this force is not equal to zero, and the larger the relative displacement of the systems, the greater the lateral force. However, since during the operation of the conveyor belt deviations from the central position are possible, with the existing nature of the lateral forces, the deviation process will develop like an avalanche and the tape will either sideways, or the opposite fields of the tape and the base will interact and the tape will stick on the base. The belt is centered by mechanical forces — deflector rollers interacting with the belt edge. This reduces the efficiency of the conveyor.

The aim of the invention is to increase the efficiency of the conveyor by providing a stable position of the belt on a magnetic base.

This goal is achieved by the fact that the belt conveyor, which includes a tape with magnets, which drive and bypass drums, the poles of which on the load-carrying branch of the belt are located above the poles of the base magnets mounted on the frame along the longitudinal axis of the belt above its idle branch, is provided with bases along the edges between the branches of the tape magnetic rollers, the 0 poles of the magnets are located opposite to the opposite poles of the tape magnets.

In this case, the magnets on the base are installed with the possibility of their location

poles above the opposite poles of the magnets of the idle branch of the tape in contact with the magnetic rollers.

In addition, the magnetic rollers have a diameter greater than the thickness of the base.

The base can be mounted on the frame with magnetic rollers.

FIG. 1 shows a belt conveyor, general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows an embodiment of the base; in fig. 4 - magnetic roller;

in fig. 5 shows an embodiment of a magnetic roller.

Belt conveyor contains a tape 1 with magnets 2 on the non-working plate 3, covering the drive 4 and bypass 5

the drums. Tape 1 on the carrying branch is located above the base 6 mounted on frame 7 along the longitudinal axis of the tape. The tape 1 is a conventional conveyor belt (cloth or rubber cable), in the lower face of which there are magnetoelastics magnetized in the longitudinal direction, magnetized so that their poles are located above the same poles of the magnets 8 of the base 6. The base 6 can be attached directly to the frame 7 or attached to the ends of the axes of the magnetic rollers 9, which are connected to the frame 7 by the opposite ends of the axes. The magnetic rollers 9 are mounted in such a way that the tape 1 can rest on them with its edge sections.

Magnetic rollers 9 can be made with magnets 10 in the form of rings, and with individual sector magnets 11 located in the roller housing. Wherein

the orientation of the magnets in the rollers 9 is chosen so that their poles are located opposite the opposite poles of the tape magnets, as a result of which the magnets 2 of the tape 1 are attracted to the rollers 9. The spacing of the magnets along the axis of the rollers 9 is equal to or a multiple of the spacing of the magnets in the tape . The magnetic rollers simultaneously perform the supporting functions of slightly loaded edge sections of the tape.

In order to increase the stability of the belt movement, the base 6 can be made curved (Fig. 3). The ribbon branch may be located on ordinary supporting rollers (Fig. 3), on rollers of type 9, on a base made similarly to base 6 with magnetic rollers 9, or may be suspended from base 6 and magnetic rollers 9. For this, magnets 8 on The bases are installed with the possibility of their poles being located above the opposite poles of the magnets of the idle branch of the tape on the load carrying branch from the magnetic rollers to the support and excluding contact with the base 6 of the idle branch of the tape, the base 6 has a thickness less than the diameter of the sides x videos. Here, the diameter of the rollers 9 and the thickness of the base 6 are selected depending on the magnitude of the interaction force of the tape magnets and the base.

The conveyor works as follows.

Tape 1 with magnets arranged longitudinally therein represents a magnetic system. Under the load-carrying branch of the tape in the middle part there is a fixed base 6 with longitudinally located permanent magnets 8, representing the second magnetic system. As a result of the opposing arrangement of the fields of the two systems, a lift force is created and the middle part of the load-carrying branch of the belt is positioned with a gap above the surface of the base. At the same time, the edge regions of the belt 1 are pressed by magnetic forces to the magnetic rollers 9. A stable lateral position of the edge parts of the belt on the rollers is achieved by the interaction (attraction) of the magnets 2 of the ribbon 1 with the magnets 10 of widths determined by width. The dimensions of the magnets 10 are such that any significant lateral displacement of the magnets 2 relative to them is eliminated. The magnitude of the force holding the tape from lateral gathering is determined by the number of magnets 10 and their magnetic properties.

On the idle branch, the tape is attracted to the magnetic rollers 9 and the base 6. As the driving drum rotates, the flax, that 1 moves with a gap above the base B and rolls along the rollers 9.

With an angle of inclination of the rollers of 36 and 45 °, the middle part of the tape is respectively 66 and the load, therefore the coefficient of resistance to the movement of the tape, practically determined by the nature of the movement of its middle part, is insignificant.

The conveyor can also be used to move coarse loads, but in this case, the base 6 should be made of an elastic material, for example sheet rubber, with magnetoelastics placed in it. To prevent the tape from coming off on the drums, the latter can be made similarly to the rollers 9 - with magnetic rings. If the drive drum is made of materials with magnetic properties, then the presence of a magnetic system in the tape at the expense of additional pressing increases the pull capacity of the drum; The introduction of magnetic rings into the drum or radially magnetized zones to center the belt further enhances the pulling power. The proposed conveyor improves the stability of the lateral movement of the conveyor belt and also increases its service life.

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Claims (4)

(57M. TAPE CONVEYOR, including a tape covering magnets of intake and bypass drums with magnets whose poles on the load-bearing branch of the belt are located above the poles of the base magnets of the same name, mounted on the frame along the longitudinal axis of the belt above its idle branch, characterized in that, in order to increase the efficiency of the conveyor by ensuring a stable position of the tape on a magnetic base, it is equipped with magnetic rollers located on the edges of the base between the branches of the tape, the poles of the magnets of which are located in trechno to opposite poles of the magnets of the tape. 2. The conveyor in π. 1, characterized in that the magnets on the base are installed with the possibility of placing their poles above the opposite poles of the magnets of the idle branch of the tape in contact with the magnetic rollers. 3. The conveyor according to paragraphs. 1 and 2, characterized in that the magnetic rollers have a diameter greater than the thickness of the base. 4. The conveyor according to paragraphs. 1 and 2, characterized in that the base is mounted on the frame with magnetic rollers. G