RU2578504C1 - Rubber-cord cassette compensator insert - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: invention relates to elastic elements of hydraulic, pneumatic and hydro-pneumatic systems of pipelines of various purpose. Technical result is achieved due to replacement of a single rubber-cord sleeve by a structure of a rubber-cord cassette compensatory insert consisting of two or more single rubber-cord branch pipes, connected in parallel.

EFFECT: technical result consists in reduced rigidity and higher reliability during operation of pipeline systems.

2 cl, 2 dwg

Description

The invention relates to elastic elements of hydraulic, pneumatic and hydropneumatic piping systems for various purposes.

Known compensatory insert in pipelines in the form of a single straight-through rubber cord pipe (patent 2311582 RU, IPC F16L 33/22, publ. 11/27/2007, bull. No. 33) containing a coating and sealing layers of rubber, reinforcing layers of the cord, side rings and end fixing and connecting flanges.

The disadvantages of the known design of the expansion joint insert in the form of a single rubber-cord cordless pipe are the use of a power frame with high strength, a large number of layers and caliber and, as a result, the pipe has a high rigidity and insufficient reliability of the piping system: failure of the rubber-cord part of a single pipe entails the need shut off the pipeline.

The closest in technical essence and the achieved technical result is a compensatory insert in the pipelines in the form of a single angular reinforced rubber cord sleeve (patent RU 2367838, IPC F16L 51/00, published on 09/20/2009, bull. No. 26) containing a sealing rubber layer, power frame, outer rubber layer.

The disadvantages of the known design of the compensatory insert in the form of a single angular (curvilinear) rubber-cord pipe are also the use of a power frame with high strength, a large number of layers and caliber and, as a result, a large rigidity of the pipe and insufficient reliability of the pipeline system: failure of the rubber-cord part of a single pipe entails the need to shut off the pipeline.

The technical result of the claimed rubber-cord cassette compensatory insert is to reduce the stiffness and increase the reliability of the compensatory insert during operation of the pipeline system.

The technical result is achieved by replacing a single rubber-cord pipe, both direct and curved, with the design of a rubber-cord cassette compensator insert, consisting of two or more single rubber-cord pipes, optionally with the same diameter of the cross-section, connected in parallel, and using a power frame with single rubber-cord pipes less strength, fewer layers and caliber.

The inventive rubber-cord cassette compensatory insert of both a straight and curved design consists of two or several parallel-connected single rubber-cord pipes with a smaller internal diameter of the passage section than a compensatory insert based on a single rubber-cord pipe with a cross-sectional area equal to the sectional area of the conditional passage section of the pipeline, in this case, the total area of the passage sections of all single rubber-cord pipes of the rubber-cord cassette compensatory insert ra in the area of the bore of the conditional passage of the pipeline. The inventive cassette design of a rubber-cord compensator insert, in the event of failure of one of its single rubber-cord branch pipes, allows the pipeline to continue to operate due to the operation of the remaining single rubber-cord joints of the cartridge compensator insert, which ensures increased reliability during operation of the pipeline system.

The inventive design, both straight and curved rubber-cord cassette compensator inserts can reduce the rigidity of the rubber-cord cassette compensator inserts by replacing a single rubber-cord pipe with a large nominal diameter for two or more single rubber-cord pipes with a smaller nominal diameter, which makes it possible to use power pipes frame with less strength, fewer layers and caliber and thereby reduce the rigidity of each single re inokordnogo pipe and all rubber-cord compensatory inserts the cassette as a whole.

The essence of the inventive rubber-cord cassette compensatory insert of both a straight and curved design is illustrated by the following drawings:

FIG. 1 - straight and curved rubber-cord pipes of known design, where: 1a - pipeline; 2a - a single rubber cord pipe;

FIG. 2 - the claimed direct and curved rubber-cord cassette compensatory insert and options for cross-sections AA.

The inventive rubber-cord cassette compensatory insert based on two or more single rubber-cord pipes, comprising a cover and sealing rubber layers, reinforcing cord layers, side rings and end fixing and connecting flanges, consists of two or more single parallel rubber-cord pipes, optionally of equal diameter.

The inventive rubber-cord cassette compensatory insert (Fig. 2) consists of two or several parallel-connected single rubber-cord pipes 2 with a smaller inner diameter than a single rubber-cord pipe 2a with a nominal cross-sectional area equal to the cross-sectional area of the pipeline 1a, while the total area of nominal passages of all single rubber cord nozzles cassette compensatory insert is equal to the nominal diameter of the cross section of the pipeline (Fig. 2, options for cross-sections aa).

The inventive rubber-cord cassette compensatory insert operates as follows.

The working medium transmitted through the pipeline under pressure, reaching the inventive rubber-cord cassette compensator insert, forks into two or more parallel-connected single rubber cord nozzles 2 and at the outlet of the single rubber-cord nozzles of the cartridge compensator insert, the working medium is again combined into a single pipeline flow (Fig. 2 )

In the event of failure of one of the single rubber cord nozzles of the cassette compensator insert, it is shut down and the working medium entering the rubber cord cassette compensator insert continues to move along the remaining operable single rubber cord nozzles.

Since the inner diameter of single rubber-cord nozzles of a cartridge compensating insert is smaller than the inner diameter of a single rubber-cord nozzle, it is possible to use a power frame with lower strength, fewer layers and caliber at the same pressure and, as a result, reduce the stiffness of the nozzle and the entire rubber-cord cartridge compensatory insert as a whole.

Thus, the inventive rubber-cord cassette compensatory insert provides a decrease in stiffness and an increase in reliability during operation of the rubber-cord cassette compensatory insert in pipeline systems for various purposes.

Claims (2)

1. A rubber-cord cassette compensatory insert based on a rubber-cord pipe containing a cover and sealing rubber layers, a power frame made of reinforcing layers of the cord, side rings and end fixing and connecting flanges, characterized in that it consists of two or more single rubber-cord pipes connected in parallel. 2. The rubber-cord cassette compensatory insert according to claim 1, characterized in that the total area of the bore sections of the single rubber-cord nozzles of the cassette compensatory insert is equal to the cross-sectional area of the conditional passage of the pipeline.

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