SU1171629A1 - Quick-action valve - Google Patents

Abstract

QUICKLY VALVES, I containing a locking needle placed in the housing, connected to a piston, the loading cavity above which. opposite: inlet,: communicated with a pressure source through a valve and with a drain cavity through a discharge valve provided with a sealing element placed with one of its ends in the control cavity communicated with a source of control pressure, characterized in that the valve is made in the lash of the sleeve, which encircles the piston, the sealing element is placed on the end of the sleeve, facing the load cavity, i with the ability to interact with the housing, and on the housing with ones nagSL ruzochnoy cavity formed shoulder, bows sleeve whose height is less than the working stroke of the sleeve.

Description

ABOUT)

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The invention relates to reinforcement engineering and can be used in installations and devices intended to create loads, as well as in installations of high pressure as a drain valve.

The purpose of the invention is to reduce the size of the device by reducing its axial size when performing a relief valve in the form of a sleeve, as well as by reducing the diameter of the piston when specified for its location, the required cross section of the discharge valve is provided with a smaller piston diameter.

The drawing shows a valve, a general view in section.

A valve needle 2 is installed in the valve body 1, locking the inlet 3. The locking needle with the piston 4, the loading cavity 5 over which is opposite to the inlet, is communicated by channel 6 through valve 7 with pressure source 8. In addition, the load-half-port 5 communicates with the drain cavity 9 through an unloading valve made in the form of a sleeve 10, encircling the piston 4 and placed with one of its ends in the control cavity 11, and the other, provided with a sealing element 12 facing the load cavity and interacting with case.

The control cavity 11 communicates with the source 13 of the control pressure through the valve 14 and with the drain through the valve 15.

On the case from the side of the load cavity, a collar 16 is made around the sleeve, the height of which is less than the stroke of the sleeve.

High-speed valve operates as follows.

From the source 13 of the control pressure, pressure is applied to the control cavity 11. The end of the sleeve 10 is pressed by the sealing element 1 to the body, and then the valve 14 is closed. Then, the working pressure is supplied to the loading cavity 5 from the source 8, and the locking needle 2 is pressed through the channel 6 seat, blocking the inlet 3, after which the valve 7 is closed.

To actuate the quick-action valve, pressure is released from the control cavity 11 through the valve 15. When the pressure in the cavity 11 becomes several times less than the pressure in the loading cavity 5, the sleeve 10 is detached from the housing and quickly moves under the pressure of the compressed fluid in the loading cavity 5 The difference in pressure in cavities 11 and 5, at which the sleeve breaks off from the end of the piston chamber, is determined by the difference between the end area of the sleeve 11 of the cavity 11 and the area of the part of the opposite end located between the morning diameter of the sleeve 10 and the sealing element 12. The larger this difference, the faster the sleeve 10 moves. When the sealing end of the sleeve moves a distance greater than the height of the drill 16, a col1 is formed. The crank gap connecting the cavity 5 with the drain a cavity 9 into which the liquid rushes out of the cavity 5. Under the action of pressure in the opening 3, the end of the locking needles 2 last, together with the piston 4, will move, connecting the inlet opening 3 to the outlet opening. When moving, the needle 2 and the piston 4 will almost not experience the resistance of the fluid displaced from cavity 5, as it flows into the drain cavity.

Claims (1)

A QUICK VALVE, ^ containing a locking needle located in the body, connected to a piston, the loading cavity above which is opposite; the inlet / is in communication with a pressure source through a tap and with a drain cavity through a discharge valve provided with one of its ends in a control cavity in communication with a control pressure source, characterized in that, in order to simplify the design, the discharge valve is made in the form the sleeve encircling the piston, the sealing element is placed on the end of the sleeve facing the loading cavity, with the possibility of interaction with the housing, and on the housing from the side of the loading cavity Execute the shoulder, sleeve clasps, the height of which is less than the working stroke of the sleeve. > 1171629 2