RU49172U1 - RUBBER AND METAL SUPPORT - Google Patents

Abstract

The utility model relates to the field of designing a rubber-metal support, consisting of a rubber element, simultaneously connected with an external metal reinforcement of a conical shape and an internal one made in the form of a metal sleeve consisting of several cylindrical parts or a cylindrical and conical part. The purpose of the utility model is to propose the design of a rubber-metal support with low heat generation in the rubber element and high values of axial and radial stiffness. The goal is achieved in that claim 1 rubber-metal bearing, consisting of a rubber element simultaneously glued and / or vulcanized to an external metal reinforcement of a conical shape and internal reinforcement made in the form of a metal sleeve, consisting of several cylindrical parts or a cylindrical and conical part has fins on the upper and / or lower end surface of the rubber element, made in the form of symmetrical and / or asymmetric protrusions, the basis of which are a triangle , rectangle, trapezoid, wave, or combinations thereof. claim 2 support according to claim 1, characterized in that the rubber element is made of two rubbers, differing from each other in terms of stiffness.

Description

The utility model relates to the field of designing a rubber-metal support, consisting of a rubber element, simultaneously connected with an external metal reinforcement of a conical shape and an internal one, made in the form of a metal sleeve, consisting of several cylindrical parts or a cylindrical and conical part.

A known construction of a rubber-metal support, in which the rubber element is simultaneously glued and / or vulcanized to an external metal conical shape and internal, made in the form of a metal sleeve consisting of two cylindrical parts [RU patent No. 39182 U1 Patent RU No. 366868 U1]. However, due to the small outer surface of the rubber element, there is insufficient heat removal from it, as a result of which the rubber element heats up during the operation of the support, and this leads to accelerated aging of the rubber and premature destruction of the rubber-metal support.

A known construction of a rubber-metal support with an increased outer surface of the rubber element, which is achieved due to the finning of the conical part of the rubber support element [Patent RU No. 34231 U1]. However, due to the fact that the connection of the rubber element with the external metal reinforcement of a conical shape is due to the friction force, the support of this design is characterized by low values of axial and radial stiffness.

The purpose of the utility model is to propose the design of a rubber-metal support with an enlarged outer surface of the rubber element and high values of axial and radial stiffness.

This goal is achieved in that claim 1, a rubber-metal support consisting of a rubber element glued and / or vulcanized to an external metal reinforcement of conical shape and internal reinforcement made in the form of a metal sleeve consisting of several cylindrical parts or a cylindrical and conical part has fins on the upper and / or lower end surface of the rubber element, made in the form of symmetrical and / or asymmetric protrusions, the basis of which are a triangle , rectangle, trapezoid, wave, or combinations thereof - claim 2, the support according to claim 1, characterized in that the rubber element is made of two rubbers that differ in stiffness from each other.

Example. Figure 1 and figure 2 shows the known construction of a rubber-metal support. Figure 1 shows a rubber-metal support in which the rubber element (1) is simultaneously glued and / or vulcanized to an external metal conical shape (2) and an internal reinforcement (3) made in the form of a metal sleeve consisting of two cylindrical parts . The support of this design has good axial and radial stiffness, but due to the small values of the end surfaces of the rubber element, the rubber mass is heated during operation of the support.

Figure 2 shows a support in which a rubber element with a finned conical surface (1) is glued and / or vulcanized to an internal metal reinforcement (2) consisting of a cylindrical and conical part. At the support of this design, the rubber mass is slightly heated during operation of the support. However, due to the fact that the connection of the conical surface of the rubber element with the external metal reinforcement is due to the friction force, this design has insufficient radial and axial stiffness.

Figure 3-6 shows the proposed design of the rubber-metal support, in which the rubber element (1) is simultaneously glued and / or vulcanized to the outer (2) and inner (3) metal reinforcement. The main difference between them and the support depicted in figure 1 is that the end surface of the rubber element of the support has fins on the end surface of the upper (figure 3), lower (figure 4) or both surfaces (figure 5, 6) in the form of protrusions, the basis of which are a triangle (figure 3), a trapezoid (figure 4), a wave (figure 5), or a combination thereof (figure 6).

The difference between the supports shown in Fig.3-6 from the support in Fig.2 is that the fins are made on the end surfaces of the rubber element, and not on its conical surface, which allows the rubber element to be connected to the external reinforcement due to chemical crosslinking, not by friction.

Figure 6 shows the support of the proposed design, in which the rubber element (1) is made of two rubbers that differ in stiffness from each other.

Claims (2)

1. Rubber-metal bearing, consisting of a rubber element glued and / or vulcanized to the metal external reinforcement of a conical shape and internal, in the form of a metal sleeve consisting of several cylindrical parts or a cylindrical and conical part, characterized in that the upper and / or lower the end surface of the rubber element has fins made in the form of symmetrical and / or asymmetric protrusions, the basis of which is a triangle, rectangle, trapezoid, wave, or a combination thereof. 2. The support according to claim 1, characterized in that the rubber element is made of two rubbers that differ in stiffness from each other.