DD259504A1 - MOUNTING OF AXLE SHAFT COMPENSATING SLIDING BEARINGS IN PLASTIC BEARING PLATES - Google Patents

Abstract

The invention relates to the attachment of plain bearings in electric motors, especially small motors with bearings of small size and low load, at low and tight tolerances Kalottenverstellmomenten. The aim of the invention is to eliminate the problems of the known solutions and to significantly reduce the manufacturing and material costs. The object of the invention is to integrate by appropriate structural design of the plastic bearing shield, the resilient element without additional expense parts in the Plastspritzteil to achieve a substantial deffification of the plastic part tolerances, and to secure the setting of defined Verstellmomente. According to the invention, the object is achieved in that the bottom surface of the bearing plate has an inwardly directed semicircular ring structure, which merges into a spherical ring surface for receiving the spherical bearing and that an amplified ring structure is subsequently provided thereon. figure

Description

For this 1 page drawing

Field of application of the invention

The invention relates to the attachment of spherical bearings in equipment or machinery, especially small engines, with at least one of a rotor shaft durchfaßten bearing, which is used in a receiving body and pressed and held by a disc in the axial direction.

Characteristic of the known technical solutions

In a known solution (DE-GM 8419027), the pendulum sliding bearing is held by a clamping goggles, which has an outer clamping edge and inner spring tabs, which are adapted against the mounting direction, the bearing shape adapted, are bent.

In most cases, these flat form springs have a complicated geometric shape. Their use is relatively expensive in terms of manufacturing and material costs. They have a hard spring characteristic which, in conjunction with the tolerances of the components involved, results in a high spread of the Kalottenverstellmomentes result.

The use of the described clip-on glasses does not guarantee a deposed depot space.

After DE-GM 7147161 a sliding bearing assembly is known in which the pendulum sliding bearings are pressed into radially slotted plastic cups. A disadvantage of this solution is that when pressing the bearing, the claws of the slotted plastic cups must be bent up to the maximum ball diameter of the bearing, with the risk of material overstress exists.

The assurance of a small scattering range of the Kalottenverstellmomentes requires in this solution, the execution of the plastic pans in a very close for Plastspritzteile tolerance range.

The tolerance of the ball diameter of the bearing has a strong effect on the dispersion of the Kalottenverstellmomentes due to the equally hard spring characteristic of the plastic pans.

Object of the invention

The aim of the invention is. Lack of known technical solutions to exclude by a portion of the plastic bearing shield or a plastic component is formed by appropriate design as an axially resilient element. Other goals are to significantly reduce the manufacturing and assembly costs and to improve the functionality.

Explanation of the essence of the invention

The invention is based on the objects to integrate a resilient element in the axial direction by appropriate structural design in Plastspritzteil without additional parts cost, to achieve a substantial refinement of the plastic part tolerances, and to secure the setting of defined Verstellmomente.

According to the invention the object is achieved in that the bottom surface of the bearing plate has an inwardly directed, semi-circular ring structure, which merges into a spherical annular surface for receiving the spherical bearing and that adjoins a reinforced ring structure.

In connection with a mounting device, defined Kalottenverstellmomente are adjustable, regardless of the plastic part tolerances. The tolerance of the ball diameter of the calotte has no influence on the adjusting torque.

Due to the geometrically simple thrust washer made of inexpensive suitable material, a space usable for the additional depot is completely covered.

embodiment

Reference to the drawing, in which an embodiment is shown, the invention is explained in detail.

The figure shows an exemplary embodiment of a bearing plate ί made of thermoplastic, in which an open towards the rotor 10 cylindrical shaft 2 is provided.

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This shaft 2 is flared on the rotor side to facilitate the assembly of the thrust washer 9. The bottom surface 3 of the shaft 2 is designed so that a curved towards the rotor side ring structure 4 merges with a semicircular cross section in a adapted to receive the spherical bearing 5 spherical-spherical annular surface 7 and at the passage opening for the rotor shaft 6 has a reinforced ring structure 8.

In the spherical-spherical ring surface 7, the spherical bearing 5 is pressed by the pressure plate 9 and the soil is elastically biased.

The angled against the outer diameter of the mounting direction thrust washer 9 hooks in the cylindrical shaft 2, ensures the secure fit of the spherical bearing 5 and closes the depot space 11. The shape, wall thickness and material properties of the bottom surface 3 determine its elasticity.

Claims (2)

Claim: 1. Attachment of misalignment compensating plain bearings in plastic bearing shields for small engines, with at least one of a rotor shaft durchfaßten pendulum sliding bearing, which is held in a bearing plate and fixed by a disc in the axial direction against this, characterized in that the bottom surface (3) of the bearing plate (1) has an inwardly directed semicircular ring structure (4), which merges into a spherical annular surface (7) for receiving the spherical bearing (5) and that thereafter a reinforced ring structure (8) is provided. 2. attachment of misalignment compensating plain bearings according to claim 1, characterized in that by adjusting the mounting device, the bias of the elastic bottom and thus the Kalottenverstellmomentes is varied.