CS231138B1 - Ventilating device for middle or great asynchronous motors with one radial ventilator - Google Patents

Abstract

The invention relates to a ventilation device medium and large asynchronous motors with one radial fan, which is particularly suitable for asynchronous vertical construction engines. The centrifugal fan is mounted on the rotor engine. The rotor is axial channels formed by the ribs of the rotor star shaft and sloping rotor plates. Listed the axial channels are at the end of their exhaust sides covered with radial wall the fan. On the exhaust side of the axial channels, a control aperture is inserted. Between the regulating orifice and the annulus is annular aperture that is threaded on the top the edges of the rotor star ribs. Diameter fan impeller is equal to or less than the diameter of the asynchronous rotor engine.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to medium and high power asynchronous motor ventilators with a single radial fan, particularly suitable for asynchronous motors of vertical construction.

The prior art ventilation devices of said asynchronous motors have a one-sided single-radial fan ventilation system designed such that its impeller mounted on a shaft has a diameter greater than the rotor diameter of the asynchronous motor.

The disadvantage of this arrangement is, on the one hand, the extension of the axial length of the machine and, on the other hand, that the air passing around the stator winding faces of the motor is already considerably warmed, thereby reducing the cooling efficiency. Another drawback is that due to the use of an impeller fan larger than the rotor diameter, these machines have a higher noise level than machines with a double-sided ventilation system, which may have a diameter of both impellers smaller than their rotor diameter.

According to the invention, these disadvantages are overcome by the medium and large power asynchronous motor ventilation device with a single radial fan mounted on a rotor, which is provided with axial ducts formed by rotor star ribs, a shaft and rotor plate bundles. The principle of the invention is that the axial ducts in the rotor are covered by a radial fan wall at the end of their exhaust side and a control orifice is inserted into the axial ducts on their exhaust side at the end of the rotor plate bundles. Between this control orifice and the annular ring which covers the radial fan impeller blades on its inner side is an annular orifice which is threaded on the upper edges of the rotor star ribs. Prů ^ 2

The radial fan impeller 231 138 is equal to or smaller than the rotor diameter of the asynchronous motor.

Advantages of the invention of the proposed ventilation device are in particular the reduction of the axial length of the machine, the uniformity of cooling of the stator winding faces, the reduction of ventilation losses and the noise level.

In the accompanying drawing, according to the invention, an example of a ventilation device of medium and high power asynchronous motors with one radial fan is schematically shown. The motor is of vertical construction and is drawn in longitudinal section.

On the asynchronous motor shaft 4 there is a rotor consisting of ribs 3 of the rotor star and bundles of 5 rotor plates, which is located in the stator. The ventilation device is one-sided and is designed such that the impeller 7 of the radial fan with the blades 12 is mounted on the rotor at the level of the stator winding faces 15 on the exhaust side. The ribs 3 of the rotor star together with the shaft 4 and the bundles

5. the rotor plates have axial ducts in the rotor around the periphery of the shaft, serving to supply air to both the radial air ducts 6 of the rotor and the radial air ducts 14 of the stator, as well as to the impeller 7 of the radial fan. an orifice 8, which is located between the ribs 2 of the rotor star in the axial channels. The blades 12 of the centrifugal fan impeller 7 are covered on their inner side by an adjacent annular ring 11. Between the control orifice 8 and the annular ring 11 is an annular orifice 5. This annular orifice 9 is threaded on the upper edges of the ribs 2 of the rotor star. The intake side stator winding faces 2 are located opposite the intake openings at the bottom of the motor housing. The exhaust-side stator winding faces 13 are located opposite the exhaust openings 13 provided with the engine cover at its top. The axial ducts in the rotor star are covered on the exhaust side by a radial fan wall 10. The diameter of the impeller 7 of the radial fan is the same as the diameter of the rotor of the asynchronous motor.

The operation of the ventilation device is as follows: the cooling air sucked in by the radial fan first cools the faces 2 of the stator winding on the suction side. It then passes through the axial ventilation ducts to the radial ventilation ducts

231 138

6 of the rotor and into the radial fan inlet formed by the control orifice 8. It passes through the radial fan impeller 7 and enters the stator winding front space, which cools and exits through the exhaust openings 13 from the motor. A portion of the air passing from the radial ventilation ducts 6 of the rotor through the air gap to the radial ventilation ducts 14 of the stator also exits from the exhaust ports 1g.

The ventilation device according to the invention can be used in asynchronous motors of both vertical and horizontal construction.

Claims (1)

SUBJECT OF THE INVENTION 231 138 Medium and high power asynchronous motor ventilation equipment with one radial fan mounted on a rotor and equipped with axial ducts formed by rotor ribs, shaft and rotor plate bundles, characterized in that the axial ducts in the rotor are covered by a wall at the end of their exhaust side. a radial fan, at the end of the rotor plates bundles (5), a control orifice (8) is inserted into the axial ducts on their exhaust side, between this control orifice (8) and the annular ring (11), covering the vanes (12) 1) of the radial fan impeller (7) is an annular diaphragm (9) which is threaded along the upper edges of the rotor star ribs (3) and the diameter of the radial fan impeller (7) is equal to or less than the rotor diameter of the asynchronous motor.