RU203497U1 - ASYNCHRONOUS TRACTION MOTOR ROTOR - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular to the rotor of an asynchronous traction motor. The rotor of an asynchronous traction motor contains a rotor shaft with landing cones for installing small gear wheels. The rotor core is assembled from electrical steel sheets, shrink-fitted onto the rotor shaft sleeve and tightened by rotor pressure plates. New features: The hub with the rotor core is mounted on the shaft. In this case, the shaft sleeve is made with internal cavities, inside of which there are baffles that prevent the circulation of cooling air through the sleeve. The technical result is that the sleeve allows to reduce the mass of the engine and increase the bearing life. Maintainability: the design allows you to replace the shaft or rotor package separately during repair.

Description

The utility model relates to the field of electrical engineering, in particular to the rotor of an induction traction motor.

The rotor of an asynchronous traction motor (RU 2682243, IPC Н02К 17/16, publ. 03/18/2019) is known from the prior art, which contains a shaft with landing cones, short-circuiting rings, protrusions and depressions on the short-circuiting ring are mounted on the shaft.

Disadvantages: the rotor is designed for use in asynchronous motors without forced ventilation, as a result, the use of the specified rotor is not effective, because it has a reduced heat dissipation compared to the proposed design.

The technical task of the technical solution of an induction motor rotor proposed for legal protection is to ensure high maintainability and reduce the mass of the unit in comparison with known analogues.

The technical result is aimed at improving the maintainability and reducing the material consumption of the rotor of an asynchronous traction motor.

The technical result is achieved in that an intermediate shaft sleeve is pressed onto the rotor shaft. For additional mechanical strength, in order to avoid possible rotation of the rotor core under the influence of the electromagnetic forces of the stator with the traction motor winding, there are two keyways on the bushing. Two keys are installed on the bushing and the rotor core is pressed in, consisting of two pressure plates and a package of electrical steel sheets. A squirrel cage-type rotor winding is installed on the rotor core.

The positions in FIG. 1 the following elements are indicated:

1 - shaft; 2 - bushing; 3 - winding; 4 - pressure plate; 5 - a package of electrical steel sheets; 6 - key; 7 - retaining ring; 8 - retaining ring, 9 - ventilation ducts.

The proposed rotor of an asynchronous traction motor with a winding 3 of the "squirrel cage" type contains a core, a shaft, keys, a winding.

In this case, the rotor core is assembled from a package of electrical steel sheets, installed by shrink-fitting on the bushing 2 of the rotor shaft 1 and pulled together by the pressure plates of the rotor 4. The core is additionally fixed on the bushing 2 with a retaining ring 8. The bushing 2 is made with internal cavities with partitions preventing circulation cooling air through the sleeve. The rotor shaft 1 is made with landing cones for installing small gears and has a stop for pressing in the sleeve 2. After pressing, the sleeve 2 is additionally fixed with a retaining ring 7. The winding 3 is installed on the rotor core.

The technical solutions used in the presented rotor of the traction motor make it possible to reduce the cost of repair work to replace the rotor shaft, to reduce the mass of the unit, as a result, the load on the bearings and to extend their service life.

The prototype of the rotor of the asynchronous traction motor was tested as part of the main product (traction motor) to meet the requirements of the technical assignment ATD01.00.000.000 TK, which confirms the operability of the unit made using these technical solutions proposed for legal protection.

Claims (1)

The rotor of an asynchronous traction motor with a squirrel cage winding, containing a core with ventilation channels, a shaft with landing cones for installing small gear wheels, characterized in that the core is assembled from sheets of electrical steel, shrink-fitted on the rotor shaft sleeve, pulled pressure plates of the rotor and has ventilation ducts for improved cooling of the winding, and the bushing is made with internal cavities with partitions.

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