SU1615125A1 - Mine multiple-rope hoist - Google Patents

Abstract

This invention relates to a lifting and transporting device. The purpose of the invention is to improve the reliability of the lifting installation. The friction pulley contains a rim 1, the profile annular groove of which is covered with a layer 2 of non-magnetic material. A plurality of electromagnets are placed in the groove of the rim, consisting of cores 3 with electromagnetic coils 4 mounted on them, each of which is connected to a controlled current network. The lining is made of ferromagnetic granules 5, covering the electromagnets (cores 3 with coils 4) with a layer height (0.2-0.6) D, where D is the diameter of the rope 6. 3 Il.

Description

The invention relates to lifting and transporting devices, in particular, to a multi-rope mine lifting installation.

The purpose of the invention is to increase the reliability of the lifting installation.

FIG. 1 shows a part of the rim of a pulley of a lifting unit installation, in an annular groove of which, covered with a layer of non-magnetic material, a number of electromagnets covered with a layer of ferromagnetic granules are placed, a partial section; figure 2 - view A on |) ig.1; on fig.Z -section bb in figure 1.

The friction pulley contains about 1, the profile ring groove of which is covered with a non-magnetic material of non-magnetic 2 (for example, a layer of a composite material based on polyacrylate such as AST-T plastics, tX3-2, etc.). A plurality of electromagnets are placed in the groove of the rim, consisting of 3 detectors with Electromagnetic coils 4 mounted on them. Each Electromagnetic coil 4 is connected to a controlled current network (not shown). The liner is made in the form of ferromagnetic | granules 5, covering the electromagnets of cores 3 with coils 4) with a layer height p, 2-0.6) d, where d is the diameter of the rope 6 laid within the arc of the canal pulley on top of a layer of ferromagnetic | granules 5. The rope b is made of austenitic nonmagnetic steel. The holes in the rim 1 of the pulley (there are usually two at diametrically opposite points of the rim 1) through which the electromagnets (cores 3 with coils 4) are led into an annular groove closed by a stopper 7 and a cover 8. The latter is fixed to the rim 1 with the help of bolts 9.

When current is applied to electromagnetic coils 4, the resulting magnetic flux closes through the layer of ferromagnetic granules 5 by covering the profile annular groove of the rim 1 with a layer 2 of non-magnetic material. As the current in electromagnetic coils 4 changes, the magnetic field strength changes, resulting in a change in stiffness and strength bed of ferromagnetic granules 5.

In the process of rotating the rim 1 of the pulley in the area around the point of incidence of the rope 6 on the pulley, the current in the electromagnetic coils 4 is set at such a level that under the action of a magnetic field the bed of ferromagnetic granules 5 is easily compliant for forming corrugations on it under the action of the rope 6 in the vicinity of the points of escape and overlap, which excludes the violation of their contact with the strands of the rope 6 even in the process of elastic deformations of the latter. The corrugations formed on the bed of ferromagnetic granules 5 change their configuration in these areas, the repetition together with the rope 6 the angle of twisting of the strands of the strands of the rope 6 that oscillate under elastic deformations, is absent, and therefore there is no mutual forced wear.

On the peripheral part of the arc of the girth of the pulley rope 6, where the rope is almost no longer undergoes elastic deformations, the strength of the current feeding the electromagnetic coils 4. increase. As a result of this, under the action of a reinforced magnetic field, the corrugations compress and acquire elastic-rigid properties that provide similar conditions for the interaction of corrugations on the bed from ferromagnetic granules 5 with the rope 6, as in the vicinity of the point of its incidence on the pulley.

In a section outside the arc of a pulley grasp by a rope, only centrifugal forces act. Naturally, the current in the electromagnetic coils 4 should provide a magnetic field sufficient to hold the ferromagnetic granules 5 in the rim.

Usually, the magnitude of the active magnetic field in the area in the vicinity of the runaway point of the rope 6 from the pulley is sufficient to hold the ferromagnetic granules 5 in the rim 1 in the area outside the arc of the pulley circumference of the cable 6. Therefore, the current in the electromagnetic coils 4 when the pulley rotates, starting from the area in the vicinity the points of the rope running off the pulley and including the entire pulley section outside the pulley circumference arc and the section in the vicinity of the point of incident are left unchanged.

Thus, the current in the electromagnetic coils 4 per one revolution of the pulley changes only twice: the current increases when each roll 4 leaves the area in the vicinity of the point where the rope 6 runs into the pulley, i.e. at the entrance of each coil 4 to the peripheral part of the arc of the circumference of the pulley by the rope 6: the current decreases when each coil 4 enters the section in the vicinity of the point where the rope escapes from the pulley at the output of each coil 4c of the peripheral part of the circumference of the pulley rope 6. There are no technical difficulties in switching the current in the electromagnetic coils 4. The specific amount of current in the electromagnetic coils 4 and the limits of its change are determined by the specific conditions of operation (load on the rope, pulley speed, diameter of the pulley and rope, dynamic conditions of operation, etc.).

Claims (1)

Claims of an Invention Mine is a multi-rope hoist installation comprising a hoist with a friction pulley and two vessels, each of which is attached to a rope that bends around the friction pulley and is located on the surface of the lining fixed in the grooves of the rim of the said pulley, distinguished by that. what. in order to increase reliability of the lifting unit, it is equipped with electromagnets, successively installed in the grooves of the friction pulley rim, each of the electromagnets connected to a controlled current network, and the lining is made in the form of a layer of ferromagnetic granules placed on said electromagnets, while the ropes are made of a nonmagnetic material. Vida Phie.1