RU2667409C1 - Rubber-metal vibration isolating element - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to machine building. Rubber-metal vibration isolating element comprises alternating metallic reinforcing plates and elastomer layers placed between the metal support rings. Thickness of the elastomer layer is equal to the thickness of the metal reinforcing plate. Deaf annular grooves of rectangular cross-section are made on the ends of metal support rings. In the metal reinforcing plates are made evenly located through holes. Deep annular grooves, through holes and grooves on the inner surface in the metal support rings and through holes in the metal reinforcing plates are filled with an elastomer-shaped array of the same composition formed integrally with the elastomer layers.EFFECT: increased degree of damping vibration in the radial direction and the reliability of the connection between the elastomer and the metal support rings while maintaining the stability of the metal reinforcing plates is achieved.1 cl, 2 dwg

Description

The invention relates to mechanical engineering and can be used both as a compensator for working and installation displacements in pipelines for pumping a working medium, and as an elastic element of shock absorption and vibration isolation systems.

A known flexible shock absorber (RF patent No. 117170, IPC F16F 1/40, publ. 20.06.2012, Bull. No. 1), containing alternating layers of elastomer and metal reinforcing plates placed between the metal support rings used in pipelines.

A disadvantage of the known flexible shock absorber is the high rigidity when the shock absorber is in the radial direction.

Closest to the claimed invention by its technical nature and the technical result achieved is a thin-layer rubber-metal element (RF patent No. 2538500, IPC F16F 1/40, F16F 3/08, publ. 10.01.2015, Bull. No. 1), containing alternating layers of elastomer and metal reinforcing plates placed between metal support rings, used as an angular compensator in pipelines.

The disadvantages of the known thin-layer rubber-metal element are the high rigidity when working in the radial direction, as well as the insufficient strength of the adhesive bond between the elastomer and the metal support rings due to the presence of gas being locked in the T-grooves during the formation of the elastomer.

The technical result of the claimed invention is to increase the degree of vibration damping in the radial direction of the rubber-metal vibration isolating element and to ensure reliable bond strength between the elastomer and the metal support rings while maintaining the stability of the metal reinforcing plates.

The technical result is achieved by the fact that in the rubber-metal vibration-isolating element the alternating metal reinforcing plates and the elastomer layers are made equal in thickness, and also by increasing the contact area of the elastomer with the metal support rings and metal reinforcing plates by performing metal support rings facing the ends extreme metal reinforcing plates, blind annular grooves of rectangular cross-section, while in metal reinforcing Harel formed uniformly arranged through holes.

The essence of the inventive rubber-metal vibration-isolating element is illustrated by the following drawings:

FIG. 1 is a longitudinal section of a rubber-metal vibration isolating element;

FIG. 2 is a section of a rubber-metal vibration-isolating element.

The rubber-metal vibration-isolating element (Fig. 1) contains alternating metal reinforcing plates 1 and elastomer layers 2 made equal in thickness and placed between the metal support rings 3 and 4. Grooves 5 are made in the metal support rings 3 and 4 on the inner surface and 6, ending with a shoulder 7 and 8, which can be performed as a separate element. On the ends of the metal support rings 3 and 4 facing the extreme metal reinforcing plates 1, blind ring grooves 9 and 10 of rectangular cross section are made, interconnected by grooves in which through holes 11 and 12 are made. In the metal reinforcing plates 1, uniformly located through holes are made 13.

The blind annular grooves 9 and 10, the through holes 11 and 12 and the grooves 5 and 6 on the inner surface in the metal support rings 3 and 4, the through holes 13 in the metal reinforcing plates 1 are filled with an array 14 of elastomer formed integrally with the layers of elastomer 2 same composition.

The inventive rubber-metal vibration-isolating element operates as follows (Fig. 2).

During operation, when radial vibrations are transmitted to one of the metal support rings that occur during operation of the equipment, due to the flexibility of the layers of elastomer 2, one metal support ring is moved relative to the other, as a result of which the elastomer dampens most of the reported vibrations and transfers it to the second metal support ring reduced disturbing force.

The elastomer layer 2, limited by the grooves 5, 6 and the shoulder 7, 8, is pressed by the pressure of the working medium against the inner surface of the metal support rings 3, 4 and thereby prevent the leakage of the working medium from the inner cavity of the rubber-metal vibration-isolating element.

The implementation of the layers of elastomer equal in thickness to the metal reinforcing plates during their alternation makes the layers of the elastomer pliable, which reduces stiffness and increases the level of vibration damping in the radial direction.

To increase the strength and stability of the adhesive bond with the layers of elastomer 2, the contact area is increased due to the fact that on the ends of the metal support rings facing the extreme metal reinforcing plates 1, blind ring grooves of rectangular cross section are made, interconnected by grooves where through holes are made, which in combination with each other, they prevent gas blocking during molding and allow creating a monolithic structure - an array 14 of an elastomer of the same composition.

Grooves on the inner surface in the metal support rings, ending with a collar, create an additional layer of elastomer, preventing leakage of the working medium from the inner cavity of the rubber-metal vibration-isolating element, while the collar, which can be made as a separate element, protects the edges of the additional layer from inversion when installing the rubber-metal vibration-isolating element into the pipeline for pumping the working medium.

The claimed invention ensures the achievement of a technical result: increasing the degree of vibration damping in the radial direction of the rubber-metal vibration-isolating element and ensuring reliable bond strength between the elastomer and the metal support rings while maintaining the stability of the metal reinforcing plates.

Claims (2)

1. A rubber-metal vibration-isolating element comprising alternating metal reinforcing plates and elastomer layers interposed between the metal support rings, characterized in that the thickness of the elastomer layer is equal to the thickness of the metal reinforcing plate at the ends of the metal support rings facing the extreme metal reinforcing plates, blind ring grooves of rectangular cross section are made, uniformly located through holes are made in metal reinforcing plates Stia, the deaf annular grooves, through holes and grooves on the inner surface of metallic support rings and through openings in the metal reinforcing tareli filled integrally formed with an array of layers of elastomer from an elastomer of the same composition. 2. A rubber-metal vibration-isolating element according to claim 1, characterized in that the blind annular grooves of rectangular cross section in the metal support rings are interconnected by grooves with through holes, the grooves on the inner surface end with a shoulder, and the bead can be made a separate element.

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