SU1328632A1 - Quick-release joint of pipelines - Google Patents

Abstract

The invention relates to the field of mechanical engineering and can be used in quick-disconnect automatic connections of pipelines that have been in operation under pressure. The aim of the invention is to prevent arbitrary disconnection of connectors when supplying the working medium by eliminating the resulting axial force. The dryness of the design lies in the fact that the pressure cut-off during disconnection of pipelines is not carried out by tubular rattles, which are pressed to the seats with the force generated by the pressure of the working medium, but by a spool that is activated through a controlled organ. 4 il. from 00 00 o: 00 y

Description

The invention relates to mechanical engineering and can be applied in quick-disconnect automatic connections of pipelines under pressure and used in pneumatic and hydraulic systems.

The purpose of the invention is to prevent arbitrary disconnection of connectors when the working medium is supplied by eliminating the resulting axial force acting on the half connectors.

FIG. 1 shows a slide with a slide; in fig. 2 - the same, with an insert; in fig. 3 - joint in the articulated position; in fig. 4 - the same, before the beginning of the dismemberment.

The device contains two semi-plugs 1 and 2. Semi-jack 1 consists of a body 3 and a cylinder 4 interconnected by threads and sealed with a rubber ring 5. The cylinder 4 is made of two coaxially arranged sleeves 6 and 7. Between the sleeves 6 and 7 there is an annular gap 8 for the passage of the working environment. The sleeve 7 is provided with windows 9 along the inner cylindrical surface. A cavity 10 is formed in the housing 3, communicating with a pressure source (not indicated) by a central channel 11 located in the end wall of the housing with a surrounded protrusion 12.

In the opposite end wall of the housing 3 there is a central channel 13 surrounded by a protrusion 14 and connected to the atmosphere by radial channels 15. The cavity 10 is connected to the annular gap 8 by peripheral channels 16. Inside the cavity 10 there is a spool 17 provided with an internal cavity 18. The spool has blind end faces walls 19 and 20, provided with sealing rings 21 and 22, and sealed relative to the housing 3 and the cylinder 4 with sealing rings 23 and 24. The internal cavity 18 is connected to the outer surface of the valve by windows 25 and 26. The valve 17 on its outer surface it carries a rigidly connected gap 27 with a sealing ring 28. The central channel 11 is connected by channels 29 and 30 through the control valve 31 to the piston cavity 32 of the spool 17. A return spring 33 is placed on the spool 17. The semi-connector 2 comprises a plunger insert 34 with a blind bottom 35 and channels 36 extending to the outer surface between the rings 37 and 38.

The device works as follows. At articulation, plunger insert 34 is inserted inside sleeve 7 to align channels and seal against sleeve by rings 37 and 38. At the same time, the spool 17 is spring pressed by seal 22 to ring annular projection 14, blocking the central channel 13. Channels 29 and 30 are closed by a control valve 31.

When pressure is applied, the working medium passes from the half-plug 1 through the central channel 11, the windows 25, the cavity 18, the windows 26, the peripheral channels 16, the annular gap 8,

Windows 9 and channel 36 to half-socket 2 and further to the consumer. In this case, the axial force separating the connection is absent. Before disconnecting the connection, the control channels 31 and 30 are interconnected by means of a control valve 31. As a result, the working medium from the central channel 11 through the channels 29 and 30 enters the piston cavity 32. Under the influence of the working medium pressure on the piston 27, the valve 17 moves,

by overcoming the force of the spring 33 and the influence of the working medium on the end 19 of the spool 17. The end 19 of the spool 17 by the seal 21 presses against the annular protrusion 12, separating the cavity 10 from the channel 11. At the same time, the end 20 of the gold pan 17 moves away from the annular protrusion 14, connecting the cavity 10 through central channel 13 and channels 15 with atmosphere.

In this case, the pressure from the internal cavity of the joint is released, after which the joint is dismembered by withdrawing

 the plunger insert 34 of the sleeve 7.

Then, using the control valve 31, the pressure from the piston cavity 32 is released and the channels 29 and 30 are separated. Under the influence of the spring 33, the spool 17 moves in the direction of the central channel 13, the sealing ring 22 presses against the annular protrusion 14, separates the cavity 10 and the central channel 13. The quick coupling is prepared for articulation.

Thus, the design eliminates the arbitrary disconnection of connectors when the working medium is supplied by eliminating the axial force arising from this, acting on the half connectors.

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Claims (1)

Invention Formula five A quick-disconnect piping connection containing two coaxially located semi-plugs, one of which has a spring-loaded spool, and the other a plunger insert with a blind bottom and channels that extend to the outer surface, in order to prevent any disconnection of connectors when working Q environment by eliminating the axial force arising in this case acting on the semi-plugs, a cavity is made in the housing of one of the semi-plugs, communicating with a pressure source, and in the end walls of the hull from the cavity side there are central channels, each of which is surrounded by a protrusion, housed in said cavity and made in the form of a hollow cylinder having deaf end walls with a cavity sealing, one of said mi and rigidly fixed on its outer-central channels associated with the atmosphere surface of the piston ring, while surrounded by peripheral channels, and on the spool cylinder walls, windows are made to communicate with its inner The valve is communicated with the valve cavity of the valve through a controllable valve. cavity, with one of the mentioned and is surrounded by peripheral channels, and the other communicates with the valve cavity of the valve through a controllable valve. // S / 2 / i9 / 7 18 L 32 5 S 22 16 i3 6 8 7 9 II / 1 U // //  2/25 23 3 28 27 4 26 15 20/4 36 -38 J (Rig.2 1 Yu 12 19 77 25 18 JJ 32 5 / I I I .L. (./ .. (./20 J5 1 13 6 8 9 36  / /     V 35 7 37 J "38 Fig.z CN