SU1105767A1 - Balancing device - Google Patents

Abstract

BALANCING DEVICE containing a yoke with an annular groove on one of its ends, the surface of a larger diameter wall of which is made conical and its forming crosses the yoke axis from the groove side, the balls placed in this groove and the source of the magnetomotive force mounted from the annular groove side, differing the fact that, in order to increase productivity and accuracy of balancing, the wall surface of a smaller diameter of the annular groove is made with a reverse cone, the source of the magnetomotive force is in the form of an electromagnet with an annular groove at one of the ends mated to the annular groove of the cage, at the bottom of which hemispherical pockets are made around the circumference. (L ate about

Description

The invention relates to a balancing technique and can be used to balance rotating masses in mechanical engineering, in particular for balancing grinding wheels. A device for balancing rotating masses is known, comprising a face plate with an annular groove and balancing weights located in the face plate groove, each of the weights is made of two halves, mutually movable and spring-loaded in the radial direction, one of which interacts with the surface of a larger groove diameter, and the other has pointed protrusions, by means of which it interacts with the surface of a smaller groove diameter flJ Device flaws - the structural complexity of the weights, the wear of the rubbing surfaces and the necessary The inclinability of the acceleration of the grinding load to revolutions significantly exceeding the workers. The closest to the invention to the technical essence and the achieved result is a balancing device containing a holder with an annular groove on one of its ends, the surface of the wall of larger diameter which is made conical and forming the axis clips from the side of the groove, and the wall surface of a smaller diameter is cylindrical, the balls placed in this groove and the source of the magnetomotive force mounted from the side rotating arm of the groove in the disk, wherein the formed circumferentially through holes whose diameters are larger than the diameter of balls, and the lateral surface openings conjugated to the annular cage groove t2. However, the need to accelerate the rotor to supercritical revolutions, holding at these revolutions, and then reducing them to workers (subcritical) increases the time of the balancing process and reduces the accuracy of the specified device. The purpose of the invention is to improve the performance and accuracy of balancing. ; This goal is achieved by the fact that in a balancing device containing a holder with an annular groove on one of its ends, the surface of a larger diameter wall is made conical and its forming crosses the axis-collars on the side of the groove, the balls placed in this groove and the source of magnetic-motive force mounted on the side of the annular groove, the wall surface of a smaller diameter of the annular groove is made with a reverse cone, the source of the magnetomotive force is in the form of an electromagnet with an annular groove on one of the torus The adapter is fitted with an annular groove of the holder, at the bottom of which around the circumference there are hemispherical pockets. FIG. 1 shows the structure of the proposed balancing device; in fig. 2 shows section A-A in FIG. 1. The balancing device contains a yoke 1 made of a non-magnetic material, with an annular groove 2 on one of its ends, the surface of a larger diameter wall is made conical and its forming intersects the yoke axis on the side of the groove, and the smaller diameter surface of the wall is made with an inverse cone. The device also contains Balls 3 placed in an annular groove 2, an electromagnet 4 with an annular groove 5 on one of the ends adjacent to the annular groove 2 of the holder 1, at the bottom of which the hemispherical pockets 6 are made. At the initial moment, an electromagnet 4 is turned on, which attracts the balls 3 to the annular groove 5. Then the device turns are turned on. The balls held by the electromagnet 4 are distributed along its annular groove depending on the imbalance and compensate for it. After the balls 3 are distributed in the annular groove 5 of the electromagnet 4, the electromagnet is switched off depending on the imbalance. Under the action of centrifugal forces, the balls 3 along the annular groove 2 of the cage 1 move to a larger diameter (towards the bottom of the groove) and, having reached it, fall into the pockets 6, where the device remains in operation. The balls, located in the pockets of the clip, eliminate the initially defined imbalance. The application of the proposed device provides significant energy savings on the power of an electromagnet, improves performance and accuracy of balancing.

Claims (1)

A BALANCING DEVICE containing a holder with an annular groove on one of its ends, the surface of the wall of a larger diameter which is made conical and its generatrix intersects the axis of the holder on the side of the groove, balls placed in this groove, and a magnetizing force source installed on the side of the annular groove, characterized in that, in order to improve performance and balancing accuracy, the wall surface of the smaller diameter of the annular groove is made with a reverse cone, the source of magnetomotive force in the form of an electric omagnita with an annular groove at one end, with an annular groove mating holder, the bottom of which circumferentially formed hemispherical pockets. CZZ • h <x> • m (rig. 1 1105767 2