SU1663300A2 - Shutoff device - Google Patents

Abstract

The invention relates to valves and can be used in heat and water supply systems, the petrochemical industry and sewage. The purpose of the invention is to increase the reliability of operation by adjusting the degree of opening of the valve. When the closure member 5 moves to close, the piston 33 moves, as a result of which the pressure in the cavity 32 drops, which causes braking of the piston 33, and therefore dampens the hydraulic shock when the device is closed. By changing by displacing the piston 29 the volume of the communicated cavities 30 and 32, it is possible to adjust the speed of movement of the locking member 5 and its initial open position. 1 il.

Description

The invention relates to reinforcement and can be used in the systems of heat and water supply, the petrochemical industry and sewage and is an improvement of the invention according to avt.Mg 1483155.

The purpose of the invention is to increase the reliability of operation by adjusting the degree of opening of the valve.

The drawing shows the locking device, a General view in section.

The device is installed on the pressure line of the pump (not shown), and includes a housing 1 with an inlet 2 and an outlet 3 nozzles in which the saddle 4 is located, a locking member 5 with a rod 6 and an actuator 7. The bypass pipe 8 communicates the inlet 2 through a return the valve 9 and the adjusting valve 10 with the outlet nozzle 3. The actuator 7 is made in the form of a conical fairing, movably mounted on

the rod 6 through the sleeve 11 and facing the top downstream. The housing 1 is provided with an annular chamber 12 that surrounds the inlet nozzle 2. The saddle 4 is stepped, with its cylindrical surfaces 13 and 14 separated by an end surface 15. The locking member 5 is equipped with sealing sleeves 16 and 17 with a separating ring 18 that interact with cylindrical surfaces 13 and 14 seats 4 at closing with the formation of a closed chamber 19, communicated by throttle channels 20 with an annular chamber 12, which is connected by an additional bypass pipe 21 to a valve 22 with an outlet nozzle 3. Shut-off 5 is mounted in body 1 by pro- korupse rate 23 of the housing 1 with windows 24 for the passage of the medium. In the spacer 23, a sleeve 25 is fixed with a stop 26 to restrict the movement of the conical nose cone 7, Second stop, you (X ON GO СА) О О

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filled in the form of a washer 27, mounted on the end face of the rod 6. The locking body 5 is provided with an additional drive, made in the form of a cylinder 28 with a piston 29, the cavity 30 of which is connected by a pipeline 31 with a cavity 32 formed by the piston 33 mounted on the rod 6 and spacer 23 , The movement of the piston 29 is carried out by means of a screw 34 installed in the power cylinder 28 by means of a threaded connection.

The device works as follows.

In the initial state, the locking member 5 blocks the flow area of the device, resting on the surface 15 of the seat 4 under the action of pressure of the medium from the outlet nozzle 3. The fairing 7 through the sleeve 11 rests on the flange (not marked) of the rod 6.

After turning on the pump, the pressure in the inlet pipe 2 rises, causing the opening of the check valve 9, which has low inertia. The working medium enters through conduit 8 from the inlet nozzle 2 to the outlet nozzle 3, which prevents a sharp increase in pressure in the inlet nozzle 2. The flow rate adjustment in conduit 8 is performed by valve 10.

When the pressure in the inlet nozzle 2 reaches the operating value, the locking member 5 moves to the right together with the fairing 7 until the latter stops at the stop 26. The working medium enters through the inlet nozzle 2, the housing 1 and the openings 24 in the nozzle nozzle 3.

To regulate the degree of opening of the locking member 5 and the parameters of the working medium, rotate the screw 34, moving the piston 29 downwards, which squeezes the medium through the pipeline 31 into the cavity 32. Under the pressure of the medium, the piston 33 together with the rod 6 and the locking member 5 moves to the left, reducing the passage cross-section of the device to stop the rotation of the screw 34.

When a pump is suddenly disconnected, the working medium flows back from the outlet nozzle 3 into the inlet nozzle 2, which causes the check valve 9 to close and the valve 5 to start closing with the fairing 7 to close,

The forces that are caused by a turbulence in the gap between the latter and the spacer 23, which was previously installed by means of an additional drive, contribute to the rapid start of movement of the locking member 5. This reduces the total closure time of the closure member 5 and prevents the development of significant reverse flow rates, which increases the efficiency of hydraulic shock absorption.

At the same time, the working medium rushes from the outlet nozzle 3 through conduit 21 through the adjusting valve 22 into the annular chamber 12, and from there, through the throttle channels 20, towards the stop member 5, slowly slowing down the movement of the reverse flow of the medium. As the working body 5 with the fairing 7 moves, the conditions for the flow of the latter by the reverse flow of the medium deteriorate due to its swirl between the stop 27 and the fairing 7 which is pushed inside the sleeve 25, which also

inhibits reverse flow through housing 1.

In order to eliminate the creation of a vacuum in the cavity 32 and create forces that inhibit the movement of the closure member 5, the cavity

30 may be filled with air or part with air and part with liquid. Then, choosing the volume of the air part of the medium, it is possible to achieve the creation of a certain rarefaction in

cavities 32 when the air portion of the medium is fully expanded. This will allow creating additional braking force due to the pressure drop to the left and right of the piston 33, which slows down the closing speed of the closure member 5, which increases the effectiveness of the hydraulic shock suppression.

When the closure body 5 is seated on the saddle 4, its cuffs 16, 17 interact with the cylindrical surfaces 13,

14 saddles 4 with the formation between them of the closed chamber 19 and the extrusion of the working medium from the chamber 19 through the channels 20 into the annular chamber 12, and from there through the pipeline 21 into the outlet nozzle 3. This ensures smooth braking of the locking member 5 and eliminates the hydraulic shock in the housing 1 and the outlet 3 device ..

When the pump is turned on again, the locking member 5 will open to a predetermined degree determined by the volume of the medium in the cavity 32 under the pressure created by the hydrodynamic forces of the working medium flow acting on the locking member 5 and through the rod b to the piston 33.

Claims (1)

Claims of the invention Locking device according to auth.St. No. 1483155, characterized in that, in order to increase reliability in operation, it is provided with two interconnected cylinders with pistons, the first piston being fixed on the stem of the locking member, and the second piston in the housing with the possibility of adjusting its position. 22