RU58645U1 - Wedge Gate Valve - Google Patents

Abstract

The utility model relates to the field of valve engineering and is intended to shut off the flow of the working medium transported through pipelines, in particular, in piping systems of oil products commercial metering units. The technical result of the utility model is the creation of a gate valve having a two-sided guaranteed density. This result is ensured by the fact that the interacting sealing fields of the shutter, or of the locking element, or the housing are provided with annular grooves with elastic elements placed in them.

Description

The utility model relates to the field of valve engineering and is intended to shut off the flow of the working medium transported through pipelines, in particular, at commercial metering stations for the extraction of petroleum products, where reliable shutoff of the flow is necessary, eliminating the leakage of the shutter on both sides of the wedge due to the connection to the internal wedge volume of the housing pressure gauge. The absence of pressure in this cavity is a criterion for assessing the accuracy of measuring the volume of oil passed through the site.

Known valve (see RU 16777 F 16 k 3/14), containing a housing with a passage channel and sealing fields of annular shape, interacting when closing the valve with the response fields of the locking element of the wedge-shaped, and to create two-sided tightness of the wedge require the use of a gearbox with a certain gear ratio, and the increase in this specific pressure on the sealing fields of the shutter will entail an increase in mass and rigidity of the housing, eliminating the deformation of the latter

The disadvantages of the known design include the limited use of it due to a certain diameter of the passage channel of the housing and the non-rigidity of the housing structure.

A valve is also known (see RU 2147703 F 16 K 3/12, prototype) comprising a housing with a passage channel and ring-shaped sealing fields interacting when the valve is closed with torus-shaped response fields of a wedge-shaped locking element.

The disadvantages of the known design should also include the impossibility of providing a two-way guaranteed gate density both from the input side and from the output side of the medium, regardless of the direction of its movement, since in order to achieve this both the body and the locking element must have great rigidity. However, with the presence of a flexible element on the shut-off organ, in a wide range of pressures of the medium, it is very difficult to achieve this.

The purpose of the utility model is to create a wedge gate valve with two-way guaranteed shutter density.

This goal is achieved by the fact that the interacting sealing fields of the shutter, or the locking element, or the body are equipped with annular grooves with elastic elements placed in them.

Figure 1 shows a cross section of a valve; figure 2 is a view a of figure 1. (option).

The device consists of a housing 1 with sealing fields 2 having grooves 3 in which elastic elements 4 are placed, interacting with a rigid locking element (wedge) 5, the shape of the grooves 3 depending on the design of the elastic element, which can be, for example, round, rectangular, including rounding, triangular, square, including recesses, or another section.

The device operates as follows.

Zone 6 of the housing 1 possible installation zones of pressure gauges.

When lowering the wedge 5 using the drive (not shown in Fig.) Down to the contact of the sealing fields 2 of the housing 1, the elastic element 4 protruding from the grooves 3 by a certain amount is deformed, fills the entire volume of the groove and seals the micro-gap remaining between the sealing fields of the housing and wedge.

Since various designs of an elastic element, for example rubber, can be used in the device, the shape of the grooves 3 and the fixing of the element (not shown in Fig.), Respectively, can be different. But in all cases, as a result of deformation of the elastic element and under the influence of the conducted medium, self-sealing of the micro-gap between the wedge and the body occurs.

Thus, due to the presence of an elastic element to create a two-way guaranteed gate density, there is no need to apply forces to the drive that prevent the medium from penetrating through the micro-gap between the fields, which means that the use of an elastic element that provides self-sealing regardless of the size and pressure of the medium allows to expand the application range this device both in pressure and in the nominal diameter of the valves.

Claims (1)

A wedge gate valve, comprising a housing with a passage channel and annular sealing fields interacting at closure with the response fields of the locking member, characterized in that the interacting sealing fields of the shutter, or locking member, or the housing are provided with annular grooves with elastic elements placed in them.