RU2563298C1 - Double-row spherical bearing - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: claimed bearing comprises outer and inner racers (1, 2) with inner and outer spherical surfaces, rows of solids of revolution (3, 5) fitted in appropriate aligned outer and inner cages (4, 6), double-sided spherical housing (7) arranged between said rows of solids of revolution (3, 5). Rigidly connected rings (1, 2) can turn relative to housing (7) around centre of spheres located outside the bearings at its axis. Outer ring (1) is composed of a single spherical part coupled with inner ring (2) by circular sleeve (8) with flange. Said solids of revolution (3, 5) are balls. Said spherical rings (1, 2) and housing (7) can be made of metal, for example, steel or ceramic material.

EFFECT: improved manufacturability, enhanced performances.

3 cl, 1 dwg

Description

The invention relates to the field of engineering and instrumentation, in particular to spherical double row bearings with rolling bodies made in the shape of a ball, and can be used in the construction of machines and devices operating under high vibrational loads along three coordinate axes.

Closest to the claimed invention in terms of essential features is a double-row spherical bearing according to patent RU No. 2159877 [with priority from 09.24.1998, IPC F16C 23/06, publ. 27.11.2000], containing outer and inner rings, between which rows of rolling bodies are placed in the separator, while the inner and outer surfaces of the rings are spherical in shape, the outer ring is made in the form of two rigidly connected parts of complex shape, and between the rows of rolling bodies is fixed the housing, the outer and inner surfaces of which have a spherical shape corresponding to the rings, the rings being mounted rotatably relative to the stationary housing around the center of the spheres located outside the bearing but on its axis.

This device is selected for the nearest equivalent.

The disadvantage of the closest analogue is the lack of manufacturability, the high complexity and complexity of manufacturing the main functional parts, for example, such as a separator and a composite outer ring.

The task to which the invention is directed is to increase manufacturability and reduce labor costs for the manufacture of the device.

The technical result achieved is to improve the structural, technological and operational characteristics of the bearing.

The problem is solved, and the technical result is achieved due to the fact that the spherical double-row bearing contains outer and inner rings, the inner and outer surfaces of which are spherical, the rows of rolling bodies installed in the cage, the two-sided spherical housing located between the rows of rolling bodies, rigidly connected outer and inner rings are rotatably mounted relative to the stationary two-sided spherical housing around the bearing Center of the spheres located on its axis.

Unlike the closest analogue, the outer ring is made in the form of a single part of a spherical shape and is interfaced with the inner ring by means of an annular sleeve with a flange, and the separator consists of an outer separator adjacent to each other adjacent to the outer ring and containing the upper row of rolling elements, and an inner separator adjacent to the inner ring and containing the lower row of rolling elements.

In this case, the rolling bodies can be made in the form of a ball.

In addition, the rings and the double-sided spherical body can be made of metal, for example, steel, or ceramic material.

The implementation of the outer ring in the form of a single part of a spherical shape, conjugated with the second part — the inner ring by means of the third part — an annular sleeve with a flange, as well as the design of the separator in the form of two independent parts that are combined when assembling: an outer separator adjacent to the outer ring and containing the upper row rolling elements, and an internal separator adjacent to the inner ring and containing the lower row of rolling bodies, provides the necessary manufacturability and ease of manufacturing of parts.

The essence of the claimed technical solution is illustrated by the drawing.

In FIG. shows a General view of a spherical double row bearing with a slit.

The device comprises an outer ring 1, an inner ring 2, an upper row of rolling bodies 3 made in the form of balls and located in the separator 4, a lower row of rolling bodies 5 made in the form of balls and located in the separator 6, as well as a two-sided spherical body 7, placed between the rows of rolling bodies 3 and 5 (separators 4 and 6), and the sleeve with flange 8.

The sleeve 8 is flange-mounted to the device support assembly (not shown in FIG.), And the housing 7 is fixed to the device beam (not shown in FIG.).

The device operates as follows.

When changing the position of the device in space relative to a given direction, the sleeve 8, attached by a flange to the node of the support of the device, together with the outer ring 1 fixed on it, the inner ring 2 and the corresponding rows of balls 3 and 5 located in the separators 4 and 6, rotates around the center of the spheres O ₁ (Fig.). In this case, the housing 7 together with the beam of the device (not shown in Fig.) Remains stationary. When the housing 7 is rotated relative to the outer ring 1, the balls 3 and 5, which are in contact with the spherical rolling surfaces, roll along them, entraining the respective separators 4 and 6. Earlier than the balls 3 and 5, the edges of the corresponding spherical rolling surfaces reach the outer ring 1 rises to the stop formed by the external beam of the device.

Unlike the closest analogue, in which details of complex shape with closed spherical surfaces cannot be manufactured due to the lack of output of the grinding tool, the claimed design of a spherical double-row bearing not only increases its manufacturability, but also ensures that all the necessary structural, technological and operational characteristics of the bearing are observed.

The inventive bearing is intended for use mainly in the nodes of the supports of gyrostabilized platforms of different types, different weights and dimensions.

Claims (3)

1. Double-row spherical bearing containing outer and inner rings, the inner and outer surfaces of which are spherical, rows of rolling bodies installed in the cage, two-sided spherical housing located between the rows of rolling bodies, and the rigidly connected outer and inner rings are rotatably mounted relatively stationary double-sided spherical housing around the center of spheres located outside its bearing located on its axis, characterized in that the outer ring is molded in the form of a single part of a spherical shape and mated to the inner ring by means of an annular sleeve with a flange, and the separator consists of an external separator adjacent to each other adjacent to the outer ring and containing the upper row of rolling elements, and an internal separator adjacent to the inner ring and containing lower row of rolling bodies. 2. The bearing according to claim 1, characterized in that the rolling bodies are made in the shape of a ball. 3. The bearing according to claim 1, characterized in that the spherical rings and the housing are made of metal, for example, steel, or ceramic material.