RU191789U1 - ELECTRIC MACHINE BRUSH AND CONTACT - Google Patents

Abstract

The utility model relates to the field of electrical engineering and can be used in the design of electric machines. The essence of the utility model is to increase the reliability of the brush-contact apparatus of an air-cooled electric machine. The technical result obtained by using the utility model is to improve the design of the brush-contact apparatus of electric machines, ensuring high-tech manufacturing, improving product performance. This result is achieved by the fact that in the design of the brush-contact apparatus of the electric machine, a screw thread is made on the outer surface of the contact rings, which has a profile in the form of a persistent thread, while the screw thread of one ring is made clockwise and the other counterclockwise. The technical solution is confirmed by experimental studies on 2STD type electric motors.

Description

The utility model relates to the field of electrical engineering and is intended for use in electrical machines.

In electric machines, brush-contact devices are widely used. The contact rings of the rotors are an integral part of the brush-contact device and are used to transfer current from stationary graphite brushes to the excitation winding of a rotating rotor.

It is known (Turbogenerators: Calculation and construction. / Edited by NP Ivanov and R A. Luther - L .: Publishing house "Energy", 1967. - 895 p., Pp. 43-45), the operating mode of the contact rings is very strained, mainly due to high friction losses of the brushes on the slip rings. Therefore, the contact rings are provided with special channels, and, if necessary, with individual fans. A rectangular cut is made on the outer surface of the contact rings to improve the working conditions of the brushes: without it, due to the high speed of rotation, air would be sucked under the brushes due to viscosity and would tear off the brushes from the contact ring. Cutting increases the cooled surface of the slip ring.

A technical solution is known "Composite contact ring for brush-contact devices of synchronous generators" (patent RU No. 2347305, C2; H01R 39/08 (2001.01), containing a composite contact ring with copper segments. Patent RU No. 2347305 has a problem of reducing resistance sliding contact is achieved using low resistance metal, but this solution is rather complicated in design and is applicable for low-speed electric machines of high enough power.

A technical solution is known "The method and design of the installation of the brush holder, eliminating the appearance of waviness on the contact surfaces of the electric brushes and rings (collectors)" (patent RU No. 2396668, C1; Н02К 5/14 (2006.01), containing the brush holder, collector ring crosshead and wedge gaskets In RU Patent No. 2396668, reliability problems of the brush-contact apparatus are achieved using the angular installation of the brush holders, but this solution is complex in design.

The technical problem in a utility model of a brush-contact apparatus of an electric machine is to increase the reliability of the sliding contact between the ring and brushes during operation of the electric machine, to increase manufacturability, and to increase the service life of the brush-contact apparatus.

The technical result in the utility model is achieved by the fact that in the brush-contact apparatus, the contact rings on the outer surface have a screw thread made with a profile in the form of a persistent thread, while the screw thread of one ring is made clockwise and the other counterclockwise.

Using the utility model significantly increases the reliability of the brush-contact device.

The technical solution is confirmed by experimental studies on 2STD type electric motors.

Claims (1)

A brush-contact apparatus of an electric machine containing brushes and slip rings, wherein a screw thread is made on the outer surface of the contact rings, wherein the screw thread is made with a profile in the form of a threaded thread, while the screw thread of one ring is made clockwise, and another - counterclockwise.