RU2018733C1 - Block bearing - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: block bearing consists of body with inner cylindrical surface and supporting blocks mounted in it. Mounted between the bearing surface of each supporting block and inner cylindrical surface of body are intermediate members made in form of circular segments. Radius of bearing (cylindrical or spherical) of each supporting block is lees than radius of inner cylindrical surface of body. Inner radius of each circular segment is more than radius of bearing surface of supporting block and outer radius is equal to that of inner cylindrical surface of body. Supporting blocks may be made monolithic or sectional. During operation neither housing of the machine not bearing body gets worn. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to turbocompressor engineering and can be used in mechanisms with multisubmarine thrust bearings.

 Support bearings are known with support blocks having two cylindrical surfaces. One surface of such a support block is a support for the shaft, another supporting cylindrical surface of the support block rests on the cylindrical surface of the bore of the machine body (Krezo-Loire prospectus, 1985, 706 2517, p. 10.11).

 For the support bearing to operate, the support block must swing freely in a plane perpendicular to the axis of the machine shaft. For this, the diameter of the cylindrical surface of the bore of the machine body is larger than the diameter of the supporting cylindrical surface of the support block.

 The disadvantage of this design is the wear of both the machine body and the bearing surface of the support block along their contact line. If the support block needs to be replaced, then replacing the machine body is an expensive and sometimes impossible operation.

 Known thrust bearings with five bearings [1]. One surface of the support block is a support for the shaft, the other supporting cylindrical surface of the support block rests on the cylindrical surface of the bearing housing. All five pads are mounted in this case in the bearing housing using a cage. In order for the support pads to swing freely in a plane perpendicular to the axis of the machine shaft, the diameter of the bore of the bearing housing is made larger than the diameter of the support cylindrical surfaces of the support pads.

 The disadvantage of this design is the wear of both the bearing housing and the bearing surface of the bearing block along their contact line.

 The task is to eliminate the wear of the cylindrical surface of the bore of the machine housing or bearing housing.

 This is achieved by the fact that the bearing is provided with intermediate elements in the form of ring segments with an inner radius greater than the radius of the bearing surface of the bearing block and an outer radius equal to the radius of the inner cylindrical surface, installed between the supporting surface of each of the bearing blocks and the inner cylindrical surface of the machine or bearing housing machine housings or bearing housings, while the support blocks are made monolithic or composite.

 In FIG. 1 shows a thrust bearing, cross section; in FIG. 2 - composite support block.

 The support bearing consists of several support blocks 1, as many intermediate elements 2, the housing 3. The support block has a cylindrical surface on which the shaft 4 rests, as well as a cylindrical or spherical support surface with which it rests on the intermediate element. The latter is made in the form of an annular segment with an inner radius greater than the radius of the supporting cylindrical or spherical surface of the support block, and an outer radius equal to the radius of the inner cylindrical surface of the housing 3.

 During the operation of the support bearing, the support block rests on an intermediate element. Due to the fact that the inner radius of the intermediate element is made larger than the radius of the supporting cylindrical or spherical surface of the support block, the latter can freely swing in a plane perpendicular to the axis of the shaft 4. The intermediate element rests on the housing of the machine or bearing 3. Due to the fact that the outer radius of the intermediate element is equal to the radius of the inner cylindrical surface of the machine housing or the bearing housing 3, wear of the machine housing or the bearing housing does not occur. From displacement in the circumferential and axial directions, the support pads 1 and the intermediate elements 2 are held by a separator 5, which is fixedly mounted relative to the housing 3.

 The invention is applied to natural gas blowers of the Baltika type.

Claims (1)

 A BEARING bearing comprising a housing with an inner cylindrical surface and support pads installed therein with a radius of the support cylindrical or spherical surface smaller than the radius of the inner cylindrical surface of the housing, characterized in that it is provided with intermediate spacers between the support surface of each of the support blocks and the inner cylindrical surface of the housing elements in the form of annular segments with an inner radius greater than the radius of the supporting cylindrical or spherical surface and the support pad, and an outer radius equal to the radius of the inner cylindrical surface of the housing, wherein the bearing pads are made monolithic or composite.

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