CS268032B1 - Electric rotary machine - Google Patents

Abstract

The storage of the bearing bushings of the rotor in the hubs of the Shields of the electric machine is carried out with the help of hardened material, which forms a layer between the outer sides of the bearing bushings and the inner sides of the hubs of the Shields. The outer sides of the bearing housings are conically narrowed towards the outputs of the electric machine, and the Stit hubs have a conical shape with the same orientation of the conical tip. The hardened mass is created by thermal hardening of the plastic thermoset layer, which is not supported on the outer conical sides of the bearing housings. Thermal curing is carried out after the rotor with the bearings in the bearing bushings has been precisely set up in relation to the stator and the shields have been assembled. In this way, a very precise positioning of the rotor is achieved without the need for precise production of bearing bearing surfaces and the difficulty of mounting bearing assemblies. Axial forces from the rotor are absorbed by the gel-shaped storage surfaces, which enables a more favorable loading of the Stits. This solution is especially suitable for small electric machines with sheet frames and Shields, used as washing machine motors.

Description

The invention relates to an electric rotating machine, the bearings of which are housed in bearing housings fixed in the hubs of its shields by means of a hardened mass.

In current rotating electrical machines, especially small sizes, which have sheet metal carcasses with sheet metal shields or light alloy shields and whose shields are centered on the inner or outer surface of the stator assembly, predominantly cylindrical bearing housings are housed directly in the cylindrical shield hubs. With this solution, it is very difficult to achieve that, together with the required accuracy and uniformity of the air gap between the rotor and the stator, the required coaxiality and perpendicularity of the bearing surfaces of the bearing nodes is achieved. A disadvantage is that the bearing surfaces must be manufactured with great precision, that the assembly of the bearing assemblies is quite difficult with frequent additional bearing modifications and that the attachment of axial forces from the rotors causes an unfavorable stress distribution in the shields of the electric machine. These disadvantages are particularly unfavorable in the large-scale production of electrical machines, where they significantly increase production costs.

The above disadvantages are eliminated in an electric rotary machine according to the invention, the essence of which consists in that the bearing bushes are fixed to the shield hubs by means of a hardened mass forming a layer between the outer sides of the bearing bushes and the inner sides of the shield hubs, the outer sides of the bearing bushes being conical tapered towards the outlet of the electric machine and the hubs of the shields have a conical shape with a congruent taper orientation. The cured mass is formed by thermally curing a plastic thermosetting layer, which is applied to the outer conical sides of the bearing bushes. Thermal curing is performed after precise positioning of the rotor with bearings in the bearing housings relative to the stator and assembly of the shields, the hubs of which first form the plastic thermosetting layers.

The advantage of fixing the bearing bushes according to the invention is to achieve high accuracy of the rotor bearing, while maintaining the required accuracy and uniformity of the air gap as well as the required coaxiality and perpendicularity of bearing bearing surfaces even in the most demanding bearings. The requirements for the accuracy of the production of bearing surfaces in the hubs of the shields and the outer sides of the bearing housings are considerably lower and the assembly of the bearing nodes is simpler, without the possible need for additional bearing modifications. Due to the conical shape of the outer sides of the bearing bushes and the hubs of the shields, the stress of the shields from the axial forces of the rotor transmitted by the bearings is distributed over a larger area and has a more advantageous course.

The attached drawing shows an example of an embodiment of a bearing housing mounting according to the invention, in which FIG. shield of an electric rotating machine before their mutual assembly. For the sake of clarity, the rotor shaft with the bearing is not shown in FIG. 2 in the bearing housing.

The rotor 8 is mounted in a stator 7. At the tapered end of the rotor shaft 8 a bearing 5 is pressed, which rests with its inner ring on the shaft and with its outer ring is inserted into a bearing housing 1 which is conical on the outside, on the front facing rotor 8 is provided with an outer collar 3 and on the opposite end part with an inner collar Z. Between the outer ring of the bearing 5 and the inner collar 2 of the bearing housing 1 a resilient corrugated washer 6 is inserted, which provides the required axial play in the bearing 5. Between the outside of the bearing housing 7 conically tapered towards the outlet of the electric machine and the hub 11 of the shield 10, which also has a conical shape with a concentric orientation of the conicity, is a hardened mass 12, precisely defining the position of the bearing housing 7. The bearing housing 1 (Fig. 2) is provided on the outer conical side with a plastic thermosetting layer 4. Its inner cylindrical part is made with a tolerance allowing axial displacement of the outer ring of the bearing 5 after positioning the rotor 8 in the stator 7 with precise air gap between them. by means of the centering washers shown in Fig. 1, and after mounting the bearing 5 with the bearing housing 1 on the shaft

CS 268032 B1 of the rotor 8 shields the bearing 10 with its hub 11 and secures it in a position ensuring the required axial play in the bearing 5. The plastic thermoset layer 4 is thus deformed into the desired shape and completely fills the space between the outside of the bearing housing JL and charge 11. Subsequent heat treatment produces a cured mass 12 which has a solid state and the desired mechanical properties. After attaching the shield 10 to the casing of the electric machine, the axial displacement of the rotor 8 is limited only by the elasticity of the elastic corrugated washers 6 and the axial forces from η ^ Λο shields 10.

The mountings of the bearing bushes according to the invention can be used for precise mounting of rotating machine parts, in particular for mounting the rotors of small rotary machines with sheet metal frames, sheet metal shields or shields made of light Mitin used as washing machine motors.

Claims (2)

OBJECT OF THE INVENTION An electric rotating machine, the bearings of which are mounted in bearing housings fixed in the hubs of its shields, characterized in that the bearing housings (1) are fixed to the hubs (11) of the shields (10) of the electric rotating machine by means of a hardened material (12). , forming a layer between the outer sides of the bearing bushes (1) and the inner sides of the hubs (11) of the shields (10), the outer sides of the bearing bushes (1) tapering conically towards the outlets of the electric rotating machine and the hub (11) of the shields (10) they have a conical shape with a concordant orientation of the leatheriness. 2. A rotating electric machine according to claim 1, characterized in that the cured mass (12) is formed by thermally curing a plastic thermosetting layer (4) which is applied to the outer conical sides of the bearing housings (1). positioning the rotor (8) with bearings (5) in the bearing housings (1) relative to the stator (7) of the electric rotating machine and mounting its shields (10), the hubs (11) of which first form the plastic thermosetting layers (*).