RU1820139C - Quick release coupling - Google Patents

Abstract

Use: in hydraulic and pneumatic lines to quickly connect or disconnect pressurized cavities. SUMMARY OF THE INVENTION: A movable conical stem and a supply fitting with a spring-loaded valve are mounted in a conical body. The body and stem are tapered. A L-shaped groove is made in the middle part of the body, a conical-cylindrical groove is made in the middle part of the rod; a cut-in fitting with a conical-cylindrical tip and a chord-shaped platform in its middle part is installed in a cut, forming a single unit when paired with the rod conical surface. On the side of the housing cover, a cavity is formed between the stem and the housing, connected by channels to the inlet fitting. 2 ill.

Description

The invention relates to mechanical engineering and can be used, for example, in hydraulic and pneumatic lines for quick connection or disconnection of cavities. under pressure.

The purpose of the invention is to increase the reliability of the coupling over the entire pressure range of the medium.

Figure 1 shows a General view (longitudinal section) of the coupling; Fig. 2 is a general view from the side of the inlet fitting.

The quick disconnect coupling (BRM) consists of a conical body 1 (Fig. 1), a movable conical rod 2, a supply fitting 3 with a chordate platform 4 in its middle part, a cover 5 mounted using a threaded connection on the conical body 1. Conical body 1 has in its middle part an L-shaped groove 6.23 for installation and fixation

supply nozzle 3. Housing 1 also has a discharge nozzle 7 made at an angle of 90 ° to the sectional plane passing through the longitudinal axis of the housing 1 and the axis of the supply nozzle 3 (Fig. 2). In the movable conical rod 2 there are axial channels 8-10 of various sections, a radial outlet channel 11, a groove of complex shape 12 for installing the supply fitting 3 and representing a groove with a flat base, then conical in shape (until intersection with the axial channel 9) and ends with its cylindrical part, the indicated groove having a flat base (in FIG. 2, in a projection, it looks like a trapezoid is designed to install a chordate platform 4 of the supply fitting 3, a groove 13 forming together with a conical cor mustache 1 and cover 5 A sealing cavity associated axial passage 10c of the axial channel 9. The movable

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the conical rod 2 also forms a cavity B with the conical body 1, which is connected by the axial channel 8 with the axial channel 9.

The inlet fitting 3 with a chordate platform 4 in its middle part has: an axial channel 14 in which a ball-top valve 15 is installed, loaded with a spring 16 and supported from the valve side by a stop shoulder 17 (in its closed state), and from the spring side in the flange 18, the axial hole 19 (for mounting the valve stem 15), the radial holes 20,21 communicating with the axial channels of the movable conical rod 2, respectively 10 and 9, the outer part (protruding from the BRM body) of the inlet fitting 3 is connected to the inlet hose 22.

To bring the quick coupler (BRM) in working condition, it is necessary to install the inlet fitting 3 into the L-shaped groove 6 as far as it will go and turn clockwise 6.23 fully-shaped grooved grooves to the stop and move it a bit forward (in according to the shape of the curly groove). To disconnect the BRM, operations must be performed in the reverse order.

Quick coupler (BRM) works as follows.

After the BRM is brought into operable state, the radial outlet channel 11 of the movable conical rod 2 is combined with the outlet pipe 7 of the conical body 1, i.e., both the connection and disconnection of the BRM outlet line are carried out like a plug valve; the working fluid under pressure enters through the inlet hose 22 to the inlet fitting 3, flows around an open ball-type valve 15 (the valve is open, since it is supported by the thrust rod in the body of the conical movable rod), enters through the axial channel 14, the radial hole 20i to the axial channel 9 to the radial outlet channel 11 to the outlet pipe 7. At the same time, the working fluid enters the axial channels 10 and 8 in the cavity A and B, respectively, while falling into the cavity A, helps to move the movable conical rod 2, thereby reducing gaps between the conical body 1, the movable conical rod 2 and the inlet fitting 3 with the movable conical rod 2 due to the outer surface of the chordoid platform 4 of the inlet fitting 3, thereby providing self-sealing of the connections - the inlet fitting 3 is movable. rod 2 and a movable conical rod 22 - conical body 1, and when moving

the movable conical rod 2 due to the pressure of the working fluid, is squeezed out of the cavity B through the axial channel 8 into the axial channel 9, the radial outlet channel 11

outlet pipe 7. This is due to the difference in the end surfaces of the movable conical rod 2 extending into the cavities A and B, and consequently the different forces created by the pressure of the working medium in these cavities. Due to the greater force arising from the side of the cavity A, the movable conical rod 2 moves in the direction of the cavity B until the gap between the conical

5 by the housing 1 and the movable conical rod 2, while the outer part of the supply. the nozzle 3 moves along the longitudinal groove of the figured L-shaped groove 6.23, which eliminates the accidental separation of the BRM

0 during operation and provides self-sealing of the connection: the inlet fitting 3 is a movable conical rod 2, due to the chordate platform 4 of the inlet fitting 3. To disconnect the BRM, it is necessary to disconnect the source of the working medium pressure setting 5, for which, by hand, transfer (for the protruding part of the inlet nipple 3) inlet nipple 3 all the way to the right (along the curved L-shaped groove of 6.23 tapered housing 1) and then counterclockwise along the curved L-shaped groove 6 to align the chord-shaped area 4 of the inlet nipple 3 with the window in the conical body of the BRM. In this case, the radial

5, the outlet channel 11 is disconnected from the outlet pipe 7, which prevents the medium from escaping from the outlet line, and the ball-spring-loaded valve 15 and the stop shoulder 17 provide sealing of the inlet line.

The cavity B and the axial channel 8 are designed to collect and exit the working medium when it seeps through the gaps between the conical body 1 and the movable conical rod 2, which increases the reliability of the BRM and eliminates the appearance of the BRM hydraulic wedge.

Such a constructive implementation provides an increase in the reliability of the BRM operation over the entire pressure range of the working medium and prevention of leakage of the working medium from the system when the coupling is disconnected even when there is pressure in the system.

5 as a result of using the design of the proposed BRM, the time for disconnecting the lines will be reduced, the use of any tool for disconnecting (connecting) will be excluded, as well as the reliability and durability of the BRM when using it over the entire range of operating pressures will be eliminated, and the medium will not leak from the lines when separation of the BRM (including in the presence of pressure of the working medium in the line). Using the proposed BRM for the above purposes will reduce the time for maintenance and repair of equipment with hydraulic and pneumatic lines. and also will allow to save at the same time the working environment located in the highway x.

Claims (1)

SUMMARY OF THE INVENTION A quick-disconnect coupling in a conical body of which a movable conical rod and a supply fitting with a spring-loaded valve, characterized in that the housing and the movable stem of the coupling are conical, with a L-shaped groove in the middle part of the housing, and a conical-cylindrical shape in the middle part of the movable rod, in which a supply fitting with a conical - a cylindrical tip and a chord-shaped platform in its middle part, forming a single conical surface when paired with a movable conical rod, while from the side of the housing cover between the movable conical rod and the housing A cavity is connected that is connected by channels to the inlet fitting.