SU1537907A1 - Friction member - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to the friction elements of the friction units of machines and mechanisms, and can be used in all sectors of the national household. The purpose of the invention is to increase the service life by improving the thermal mode of operation by ensuring uniform heating. The friction element (PE) consists of a steel substrate in the form of a disk alternately arranged sectors (C) 2, 3 of heat-conducting lubricant and C 4.5 of wear-resistant material on each of its end surface. Area C 2,3 on each end surface is equal to 20-33% of the area of this surface. In the process of friction, C 4.5 is heated. The presence of C 2 and 3 of thermally conductive material provides an intensive removal of thermal energy from C 4 and 5. Improving the thermal mode of operation is also achieved due to the fact that the area C 4 on one surface covers the area C 3 on the other surface. The thermally conductive material C 2 and 3 also has the properties of a solid lubricant. When working with C 2,3, with high thermal conductivity, provide intensive heat removal from the contact zone, and the location of C 2 on one side of the FE at an angle of 90 ° to C 3 on the other side of the FE ensures uniform heating. 2 Il.

Description

FIG. 2

s

The invention relates to mechanical engineering, in particular to the friction elements of the friction units of machines and mechanisms, and can be used in all sectors of the national household.

The purpose of the invention is to increase the service life by improving the thermal mode of operation by ensuring uniform heating.

FIG. 1 shows a friction element, a general view; in fig. 2 shows section A-A in FIG. one.

The friction element consists of a steel substrate 1, for example, in the form of a disk and sectors 2 and 3 of heat-conducting lubricant alternately arranged with sectors k and 5 of wear-resistant material on each of its end surfaces. Sectors 2 on one end surface are located with overlapping in area by sectors 5 on the second end surface. Sectors 3 are located with overlap in area by sectors C. The area of sectors 2 and 3 on each end surface is 20-33% of the area of this surface.

The friction element works as follows.

In the course of friction, sectors C and 5 of the wear-resistant material are heated. The presence of sectors 2 and 3 of thermally conductive material ensures an intensive removal of thermal energy from sectors 4 and 5. Improving the thermal mode of operation is also achieved due to the fact that the area of sectors 4 and one end surface covers the area of sectors 3 on the second

surface, and the area of sector 5 overlaps the area of sector 2. At the same time, the friction element is uniformly heated under conditions of a low temperature gradient over the entire volume of the element. The heat-conducting material of sectors 2, 3 also has the properties of a solid lubricant. In the process of work, a constant mass transfer of a thin layer of lubricant to the

sectors of the material.

5 of wear-resistant form 15

l and

acquisitions

Q

0

five

0

five

containing and alternately from its face-friction element, a metal plate located on one outward surface sectors of wear-resistant and heat-conducting lubricating materials, characterized in that, in order to increase service life by improving the thermal mode of operation by ensuring uniform heating, it is equipped with additional sectors, made of the above-mentioned materials and alternately arranged on its other end surface, each sector of heat conducting lubricant The material on one of the surfaces is overlapped in sectors with sectors of wear-resistant material on the second surface, and the sectors of heat-conducting lubricant sectors on each side are 20–33% of the area of one end surface of the friction element.

Claims (1)

15 claims A friction element containing a metal plate and sectors alternately located on one of its end surfaces 2θ from wear-resistant and heat-conducting lubricating materials, characterized in that, in order to increase the service life by improving the 25 thermal operating conditions by ensuring uniform heating , it is equipped with additional sectors made of the above materials and located alternately on its other end surface, with each sector of a thermally conductive lubricating the material on one of the surfaces is located with an area overlapping by sectors 35 of wear-resistant material on the second surface, and the area of the sectors of heat-conducting lubricant on each side is 20 33% of the area of one end surface of the friction element.