RU184847U1 - Wedge gate valve - Google Patents

Abstract

A wedge gate valve refers to pipeline valves and is designed to shut off the flow of a liquid or gaseous medium. It can be used in oil and gas and other industries.

The wedge gate valve contains a housing (1) with landing holes (2), in each of which a seat (3) is installed. Between the saddles (3) there is a solid wedge (4), connected to the spindle (5), mounted in the housing (1) with the possibility of movement. What is new is that at the lower end of the solid wedge (4), coaxially to the spindle (5), a cylindrical blind sampling (6) is made with an internal thread (7) at the lower end of the side wall. In this case, a hollow rod (8) is installed in the cylindrical sample (6) with the open end at the top. It is made with an annular protrusion (9) at the upper end of the outer side wall (10) and the same protrusion (11) at the lower end of the inner side wall (12). The hollow rod (8) is spring loaded relative to the housing (1) by a compression spring (13) located inside this rod. A screw (14) is screwed onto the internal thread (7) of the cylindrical sample (6). The screw is made with a hexagonal head (15) and a coaxially located cylindrical selection (16), through which the hollow rod (8) passes with the possibility of axial movement.

When using the proposed device increases convenience. 3 ill.

Description

The proposed utility model relates to pipe fittings and is intended to shut off the flow of a liquid or gaseous medium. It can be used in oil and gas and other industries.

A known valve (patent RU No. 2572031, IPC F16K 3/12, F16K 1/42, published. 12/27/2015 Bull. No. 36), comprising a hollow body with inlet and outlet nozzles, an integral wedge and saddles installed on both sides of the wedge the inner surface of the inlet and outlet nozzles of the housing is profiled, containing one protrusion and one annular groove, and the seats are placed and fixed on these annular protrusions formed by the surfaces of the half rings installed in the annular grooves made on the inner wall of the inlet and outlet nozzles in, the seat fixed to the annular lip formed by the surfaces of half rings, with the nuts mounted on the sides of the saddle, opposite the working surfaces. A disadvantage of the known gate valve is the complexity of the design due to the implementation of the inlet and outlet pipes of the housing profiled containing a protrusion and an annular groove.

Known wedge gate valve (US patent (US) No. 4441688) containing a solid wedge interacting with the sealing surfaces of the seats, resting on the shoulder of the body and sealed relative to the body by flaring. The disadvantages of this design include sealing seats relative to the body by flaring. This requires high accuracy of the angle of the wedge, the angles of the saddles and their exact mutual installation in relation to the body before the flare seats.

A wedge gate valve is also known, comprising a housing with mounting holes, in each of which a saddle is installed, and between the saddles there is a single wedge connected to a spindle mounted in the housing with the possibility of movement (patent RU No. 2186277, IPC F16K 3/12, published. 27.07 .2002 Bull. No. 21).

In known wedge gate valves, the whole wedge, after closing the valve, remains pinched between the two inclined walls of the seats. A pinched solid wedge creates a very high resistance to its movement. To raise such a solid wedge when opening the valve, a significant effort is applied to the spindle. To increase the torque, the operator uses a lever that connects to the flywheel and applies a force to the lever to open the valve.

The objective of the utility model is to increase usability.

The solution to this problem is achieved by the fact that in a wedge gate valve containing a housing with landing holes, in each of which a saddle is installed, and between the saddles there is a single wedge connected to a spindle mounted in the housing with the ability to move, the new one is that in the lower end a solid wedge, coaxial to the spindle, made cylindrical blind sampling with internal thread on the lower end of the side wall, while a hollow rod made with an annular height is installed in the cylindrical sampling with the open end at the top blunt on the upper end of the outer side wall, and the same protrusion in the lower end of the inner side wall, and the hollow rod is spring-loaded relative to the housing by a compression spring located inside this rod, and a screw made with a hexagonal head and coaxially arranged cylindrical is screwed onto the internal thread of the cylindrical selection a sample through which a hollow rod passes with the possibility of axial movement.

In FIG. 1 shows a general view of a valve; in FIG. 2 is a view A of FIG. one; in FIG. 3 is a view A of FIG. 1, explaining the principle of operation of the device.

The wedge gate valve contains a housing 1 with landing holes 2, in each of which a saddle 3 is installed. Between the saddles 3 there is an integral wedge 4 connected to the spindle 5, which can be moved in the housing 1. At the lower end of the solid wedge 4, coaxially with the spindle 5, a cylindrical blind sample 6 is made with an internal thread 7 at the lower end of the side wall. At the same time, a hollow rod 8 is installed in the cylindrical sample 6 with the open end at the top. It is made with an annular protrusion 9 at the upper end of the outer side wall 10, and the same protrusion 11 at the lower end of the inner side wall 12. The hollow rod 8 is spring-loaded relative to the housing 1 13 located inside this stem. A screw 14 is screwed onto the internal thread 7 of the cylindrical sampling 6. The screw is made with a hexagon head 15 for a wrench and a coaxially arranged cylindrical sampling 16, through which the hollow rod 8 is axially movable. The axial displacement of the rod 8 is ensured by the diameters of the mating walls of the cylindrical sampling 16 and this rod 8 in a sliding fit. An annular protrusion 9 located at the upper end of the hollow rod 8, abuts against the upper end of the screw 14 with its lower end and holds this rod 8 inside the cylindrical set 6. The annular protrusion 11 serves as a stop for the compression spring 13.

The proposed valve operates as follows. To close the valve, the flywheel 18 is rotated in the desired direction. In this case, the integral wedge 4 moves downward and remains pinched between the two inclined walls of the seats 3. The integral wedge 4 relative to the housing 1 takes its lower extreme position (Fig. 2). In the closed position of the valve, the compression spring 13 is compressed, the annular protrusion 11 of the hollow rod 8 abuts against the wall 17 of the housing 1. Between the annular protrusion 9 and the upper end of the screw 14, a free annular space A is formed. To open the valve, the flywheel 18 is started to rotate in the opposite direction. In this case, the spindle 5 pulls the solid wedge 4 up, and the compression spring 13, due to the elastic force of the material of this spring, pushes the solid wedge 4 also up. Thus, when the valve is opened, two forces act on the whole wedge 4: one from the spindle 5 and the other from the compression spring 13. Therefore, the whole wedge 4, by applying little effort to the flywheel, easily breaks away from the inclined walls of the seats 3 and rises up. When lifting the whole wedge 4 up, the hollow rod 8 also rises with it up. The hollow rod 8 is held in a cylindrical selection 16 of the screw 14 by an annular protrusion 9, which abuts against the upper end of the screw 14 (Fig. 3).

When opening the proposed valve on a solid wedge, resting on the wall of the valve body, the compression spring presses the upper end. Therefore, the operator, when opening the valve, applies little effort to the flywheel. Because of this, the convenience is improved when using the proposed device.

Claims (1)

A wedge gate valve comprising a housing with mounting holes, in each of which a saddle is installed, and between the saddles there is a single wedge connected to a spindle mounted in the housing with the possibility of movement, characterized in that the cylindrical blind is made in the lower end of the whole wedge, coaxial to the spindle a sample with an internal thread at the lower end of the side wall, while a hollow rod is installed in the cylindrical sample with the open end at the top, made with an annular protrusion at the upper end of the outer side wall and the same protrusion in the lower end of the inner side wall, and the hollow rod is spring-loaded relative to the housing by a compression spring located inside this rod, and a screw made with a hexagonal head and coaxially arranged cylindrical sample is screwed onto the internal thread of the cylindrical sampling, through which axially moves hollow stock.

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