RU2700810C1 - Attachment assembly of flexible tight shell of pneumatic element - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to chemical engineering, particularly to design of flexible elastomer elements of machines, and can be used in systems of pneumatic damping of various structures and structures. In the metal wall of the fastening assembly in the area of vulcanization of the flexible tight shell there are through holes.

EFFECT: improving reliability of a tightening unit of a tight shell.

1 cl, 1 dwg

Description

The invention relates to chemical engineering, in particular to the design of flexible elastomeric elements of machines and can be used in pneumatic damping systems of various structures and structures.

The closest in technical essence and the achieved technical result to the claimed attachment point of the flexible sealed shell of the pneumatic element is the attachment point of the pneumatic elastic element of the pillow type (copyright certificate SU 1758309 A1, publ. 30.08.1992, bull. No. 32), containing located between the supporting metal plates and a vulcanized rubber-cord sheath with a nipple and a layer of rubber between the cover layer and the power frame vulcanized to them.

A disadvantage of the known attachment point is the low reliability due to the fact that when the pressure in the inner cavity of the rubber cord shell decreases during operation, the vulcanized part of the rubber cord shell breaks off in the vulcanization zone under the influence of diffused gas.

The technical result of the claimed invention is to increase the reliability of the mount of the sealed enclosure.

The technical result is achieved due to the fact that through holes are made in the metal wall of the mount in the vulcanization area of the flexible airtight shell.

The essence is illustrated by the drawing, which shows a General view of the mounting unit of a flexible sealed shell of a pneumatic element.

The claimed attachment point of the flexible airtight shell of the pneumatic element contains a metal wall 1 and a flexible airtight shell 2 vulcanized to it, through holes 3 are made in the metal wall 1 in the vulcanization area of the flexible airtight shell 3. The flexible airtight shell, as a rule, works as part of a pneumatic element with a reinforced wall, or combined with a reinforced wall structurally.

The claimed attachment point of a flexible sealed shell of a pneumatic element operates as follows.

During operation of the flexible sealed shell 2, its internal cavity is filled with gas under constant pressure. Since rubber is a low-density material, gas molecules partially diffuse through the wall of flexible shell 2. When diffusing through the wall in the contact area of the wall with the external environment, the gas molecules freely enter the atmosphere. Since the rate of diffusion of gases in a metal is 5-10 times less than the rate of diffusion in rubber, in the area of vulcanization of a flexible sealed shell 2 to a metal wall 1 of a gas molecule, it does not saturate from the wall of a flexible sealed shell 2. The saturation of the wall of the flexible hermetic shell 2 with gas molecules is a gradient field in which the maximum saturation is located in the area of vulcanization of the flexible hermetic shell 2 to the metal wall 1. In the region of the maximum saturation of the wall of the flexible hermetic shell 2 with gas, the gas molecules form microcavities with gas under pressure equal to the working pressure of the flexible sealed shell 2.

Through the claimed fastener assembly of the flexible sealed shell of the pneumatic element in the metal wall 1, through holes 3 are made in the vulcanization area of the flexible sealed shell 3, through which the gas molecules diffuse from the vulcanization zone into the atmosphere, which reduces the maximum saturation of the wall of the flexible sealed shell 2 with gas.

Reducing the maximum saturation prevents the formation of flexible micro-cavities of gas under pressure in the wall of the flexible sealed shell 2, which prevents the expansion of micro-cavities in the wall of the flexible sealed shell 2 with a possible short-term decrease in pressure in the inner cavity of the sealed shell 2, for example, with large working deformations or differential pressure in the system supply a flexible airtight shell. This increases the reliability of the mount of the flexible sealed shell of the pneumatic element.

Claims (1)

A fastener assembly of a flexible airtight shell of a pneumatic element comprising a metal wall and a flexible airtight shell vulcanized to it, characterized in that through holes are made in the metal wall in the vulcanization area of the flexible airtight shell.

Images