RU232904U1 - WEDGE GATE VALVE - Google Patents

Abstract

The utility model relates to pipeline fittings, namely to wedge gate valves with a non-rising stem, intended for shutting off and opening the flow of gas and liquid (oil, water, etc.) working media transported through pipelines, including in geographic areas with a cold climate. The wedge gate valve consists of a body with elements for connection to the pipeline and a cover in which a gate assembly is fixed by means of a support nut, including a spindle with a flange fixed between the cover and the support nut, and a shut-off wedge, wherein the flange is provided with sliding washers on the side of the cover and on the side of the support nut, and seals made of frost-resistant elastomer are installed between the cover and the support nut, as well as between the support nut and the spindle. The wedge gate valve is preferably made as follows. The locking wedge is coated with a frost-resistant elastomer. The frost-resistant elastomer contains butadiene-nitrile rubber, or fluororubber, or silicone, or ethylene propylene diene monomer, or polyethylene. The locking wedge is equipped with antifriction guide shoes. The sliding washers are made of metal-polymer. The support nut forms the upper stop, by means of which the support nut is pressed against the upper surface of the cover with the possibility of a detachable connection. The body, cover and part of the locking wedge are made of cold-resistant steel or cast iron. The body and cover are made in the form of a single-piece non-separable structure or in the form of separate parts, between which a sealing gasket made of frost-resistant elastomer is installed. The seals between the cover and the support nut are made in the form of two fixed sealing rings. The seals between the support nut and the spindle are made in the form of a dirt-protecting cuff and three movable sealing rings. The elements of connection to the pipeline are made in the form of flanges, welding pipes or in the form of permanently connected steel and polyethylene pipes. The utility model allows to increase the reliability of the wedge gate valve. 14 ref. f-ly, 4 ill.

Description

Field of technology

The utility model relates to pipeline fittings, namely to wedge gate valves with a non-rising spindle, designed to shut off and open the flow of gas and liquid (oil, water, etc.) working media transported through pipelines, including in geographic areas with cold climates.

State of the art

The closest in technical essence to the claimed utility model is a wedge gate valve consisting of a body with elements for connection to a pipeline and a cover in which a gate group is fixed by means of a support nut, including a spindle with a flange fixed between the cover and the support nut, and a shut-off wedge, wherein the flange is provided with sliding washers on the side of the cover and on the side of the support nut, and seals are installed between the cover and the support nut, as well as between the support nut and the spindle (see patent RU 2292506 C2; IPC F16K 3/28; published 27.01.2007). The disadvantages of the known technical solution are:

open metal parts of the wedge, which is associated with significant risks of leaky shut-off of the flow of the working medium and increased erosion of the wedge in the presence of sand and other abrasive particles in the pipeline;

the complex prefabricated structure of the wedge, the presence of fastening ties and gaps between its parts, where dirt can accumulate, as well as moisture, which, expanding when frozen, can damage or destroy the parts of the structure and the product as a whole;

limited climatic capability of its operation, since this device is not intended for operation in geographical areas where the temperature drops below -50°C (climate type - cold moderate). The use of the known device at temperatures below -50°C carries the risk of its cracking and destruction due to thermomechanical stresses that arise during cooling of the material, exceeding the strength of the structure.

The technical problem is to eliminate the indicated drawback and create a device designed with the possibility of its operation in critical environmental conditions in the presence of abrasive particles in the flow of the pipeline working medium and at a temperature below -50°C.

Disclosure of the essence of the utility model

The technical result of the claimed utility model is an increase in the reliability of the wedge gate valve.

The specified problem is solved, and the technical result is achieved by the fact that the wedge gate valve consists of a body with elements for connecting to a pipeline and a cover, in which a gate group is fixed by means of a support nut, including a spindle with a flange fixed between the cover and the support nut, and a shut-off wedge, wherein the flange on the side of the cover and on the side of the support nut is equipped with sliding washers, and between the cover and the support nut, as well as between the support nut and the spindle, seals are installed made of frost-resistant elastomer.

The wedge gate valve is preferably made as follows. The shut-off wedge is provided with a coating of frost-resistant elastomer. The frost-resistant elastomer contains butadiene-nitrile rubber, or fluororubber, or silicone, or ethylene propylene diene monomer, or polyethylene. The shut-off wedge is provided with antifriction guide shoes. The sliding washers are made of metal-polymer. The support nut forms the upper stop, by means of which the support nut is pressed against the upper surface of the cover with the possibility of a detachable connection. The body, the cover and part of the shut-off wedge are made of cold-resistant steel. The body, the cover and part of the shut-off wedge are made of cast iron. The body and the cover are made in the form of a single-piece non-separable structure. The body and the cover are made in the form of separate parts, between which a sealing gasket is installed, made of frost-resistant elastomer. The seals between the cover and the support nut are made in the form of two fixed sealing rings. The seals between the support nut and the spindle are made in the form of a dirt-protective cuff and three movable sealing rings. The elements of connection to the pipeline are made in the form of flanges. The elements of connection to the pipeline are in the form of welding pipes. The elements of connection to the pipeline are made in the form of permanently connected steel and polyethylene pipes.

Brief description of the drawings

Fig. 1 shows a cross-section of the valve;

Fig. 2 – gate valve, side view, elements for connecting to the pipeline are made in the form of welding pipes;

Fig. 3 – gate valve, side view, elements for connection to the pipeline are made in the form of flanges;

Fig. 4 – gate valve, side view, elements for connection to the pipeline are made in the form of permanently connected steel and polyethylene pipes.

Implementation of the invention

The wedge gate valve 1 consists of a body 2 containing a seat 3 and a constant cross-section flow channel for the working medium, elements for connecting to the pipeline and a cover 4. Preferably, the body 2 and the cover 4 are made of cold-resistant steel and are connected by welding, forming a solid non-separable structure in the form of a single part. In an alternative embodiment of the utility model, the body 2 and the cover 4 can be made of cast iron in the form of separate parts connected by screws, between which a sealing gasket 5 made of a frost-resistant elastomer is installed, which makes it possible to increase the reliability of the operation of the device 1.

The stated preference is due to the following advantages of a steel gate valve 1 over a cast iron one: the possibility of welding to a pipeline, the possibility of welding the cover to the body, the weight is 25% lower, the yield strength of the material is 20% higher (300 MPa versus 250 MPa), the tensile strength (ultimate strength) of the material is 25% higher (500 MPa versus 400 MPa).

The connection elements to the pipeline are made either in the form of flanges 6, or in the form of welding pipes 7, or in the form of permanently connected steel 8 and polyethylene pipes 9 (NSPS). The connection of the valve 1 to the pipeline without the use of bolted connections (which are used in the case of the connection elements to the pipeline in the form of flanges 6) eliminates the loosening of the thread due to pipeline vibrations, ensures the strength (close to the strength of the metal of the pipeline and the valve 1) of the connection, such a solution does not require maintenance, which significantly increases the reliability of the valve 1.

In the cover 3, a support nut 10 is installed, on one side forming an upper stop 11 (the support nut 10 and the upper stop 11 are made in the form of a single part). The support nut 10 is tightly pressed by the stop 11 to the upper surface of the cover 4, which ensures tightness in this section of the device 1.

A locking group is installed in the support nut 10, including a spindle 12 with a flange 13 and a locking wedge 15 mounted on it by means of a nut 14. The flange 13 is fixed between the cover 4 and the support nut 10, and both on the side of the cover 4 and on the side of the support nut 10 it is provided with sliding washers 16. The sliding washers 16 are preferably made of a metal-polymer and significantly reduce the torque of the spindle 12 of the valve 1, as well as the risk of its distortion and jamming, thereby ensuring failure-free operation and additional reliability of the valve 1.

The shut-off wedge 15 is made of cold-resistant steel or cast iron and is completely covered with a frost-resistant elastomer, providing protection against corrosion, increasing the durability and reliability of the operation of the gate valve 1. The said frost-resistant elastomer preferably contains butadiene-nitrile rubber, or fluororubber, or silicone, or ethylene propylene diene monomer, or polyethylene and can completely repeat the material of the gasket 5 or differ from it. This elastic coating also provides protection of the wedge 15 from erosion by means of deformation of the coating in response to abrasive particles (sand, condensate, etc.) that have entered the contact zone - the junction of the wedge 15 and the seat 3. The possibility of the said deformation ensures the preservation of the required degree of tightness in the contact zone to continue the operation of the gate valve 1 in the normal mode in the presence of abrasive particles. In this case, the working medium passage channel is made with a constant cross-section without additional cavities, eliminating the accumulation of dirt and ice, which also contributes to a reliable hermetic connection of the wedge 15 in the contact zone. In addition, the shut-off wedge 15 is equipped with antifriction guide shoes 17 (preferably made of polyamide 66 OST-6-06-369-64) with a low coefficient of friction on the inner surface of the body 2, which ensures an increase in the durability of the mating parts of the valve 1 and a decrease in the torque of the spindle 12.

Between the cover 4 and the support nut 10, two fixed sealing rings 18 are installed, preferably manufactured according to GOST 9833-73. One fixed ring 18 is located under the stop 11 of the support nut 10, the second fixed ring 18 is on the opposite side of the support nut 10, and both fixed sealing rings 18 are fixed in the seating recesses made in the support nut 10.

Between the support nut 10 and the spindle 12 (the movable unit of the bolt group), a dirt-protective cuff 19 and three movable sealing rings 20 are installed. Moreover, the dirt-protective cuff 19 is located above the upper stop 11 of the support nut 10, providing protection against dirt getting into the movable unit of the bolt group, and the movable sealing rings 20 are preferably manufactured according to GOST 9833-73 and are located below the dirt-protective cuff 19 along the spindle 12 at a distance from each other, ensuring the tightness and reliability of the movable unit of the bolt group. The dirt-protective cuff 19 and the movable sealing rings 20 are located in the seating recesses made in the support nut 10. In this case, the support nut 10 is installed with the possibility of a detachable connection with the cover 4, which increases the maintainability of the valve 1 due to the possibility of replacing the fixed sealing rings 18, the dirt-protective cuff 19 and the movable sealing rings 20 without preliminary dismantling of the cover 4 or the valve 1 from the pipeline as a whole.

The sealing gasket 5, the fixed sealing rings 18, the dirt-protecting cuff 19 and the movable sealing rings 20 (seals) are made of a frost-resistant elastomer, due to which the reliability of the valve 1 is increased, in particular during its operation in critical environmental conditions, namely at a temperature of -60°C. In this case, the frost-resistant elastomer preferably contains butadiene-nitrile rubber, or fluororubber, or silicone, or ethylene propylene diene monomer, or polyethylene. The choice of the elastomer composition is determined by the purpose of the valve, namely the working medium of the pipeline, which can be, for example, natural gas, oil, oils, chemical or food products, drinking water, industrial water, wastewater, etc. The corresponding elastomer is selected based on its best corrosion and erosion resistance, wear resistance.

The ability to operate valve 1 at a temperature of -60°C in normal mode allows it to be used in geographic areas with a cold climate (the climate type is determined relative to the absolute extreme temperature value of -60°C, in accordance with Table 1 "Values of indicators for various types of climates" of Appendix 11 to GOST 15150-69 "Machines, devices and other technical products designed for various climatic regions. Categories, conditions of operation, storage and transportation in terms of the impact of climatic factors of the external environment").

The proposed product works as follows:

Gate valve 1 is connected to the pipeline by means of welding pipes 7, permanently connected steel pipes 8 and polyethylene pipes 9 or through flanges 6. The flow of the working medium is closed and opened by means of shut-off wedge 15, which is lowered or raised respectively perpendicular to the direction of the flow of the working medium by rotating spindle 12 of gate valve 1 manually using a flywheel or rod (not shown in the drawings) connected to spindle 12, or mechanized using an electric drive (not shown in the drawings). In the closed position of gate valve 1, wedge 15 is tightly and hermetically connected to body 2, hermetically blocking the movement of the flow of the working medium through the passage channel. In the normally open position of gate valve 1, the flow of the working medium passes unimpeded along the passage channel.

Reliable hermetic shut-off of the flow of the working medium by the shut-off wedge 15 at negative temperatures from -60 °C is ensured by gas-tight coupling of the coating of the wedge 15 made of frost-resistant elastomer with the surface of the seat 3 of the body 2 due to the maintenance of constant plasticity of the said coating in the working temperature range.

Thus, the above-mentioned design features of the utility model, as well as the materials from which the parts of the claimed device are made, ensure the achievement of the technical result - increased reliability of the wedge gate valve 1. In this context, the term "reliability" should be interpreted in accordance with the definition of the Interstate Standard GOST 27.002-89 "Reliability in Engineering. Basic Concepts. Terms and Definitions" as a complex property that includes failure-free operation, durability, maintainability and storability or certain combinations of these properties.

In particular, the reliability of the gate valve 1 is increased due to the fact that the seals 5, 18, 19, 20 and the coating of the shut-off wedge 15 are made of frost-resistant elastomer, the sliding washers 16 are made of metal-polymer, and the body 2, cover 4 and wedge 15 are made of cold-resistant steel or high-strength cast iron. Additionally, the reliability of the gate valve 1 is increased due to the wedge 15 being equipped with antifriction guide shoes 17 and the support nut 10 being designed with the possibility of its detachable connection with cover 4 for maintenance and replacement of seals 5, 18, 19, 20 without preliminary dismantling of cover 4 or the gate valve 1.

Claims (15)

1. A wedge gate valve consisting of a body with elements for connection to a pipeline and a cover in which a gate assembly is fixed by means of a support nut, including a spindle with a flange fixed between the cover and the support nut, and a shut-off wedge, wherein the flange is provided with sliding washers on the side of the cover and on the side of the support nut, and seals are installed between the cover and the support nut, as well as between the support nut and the spindle, characterized in that the seals are made of a frost-resistant elastomer. 2. A gate valve according to item 1, characterized in that the shut-off wedge is provided with a coating made of frost-resistant elastomer. 3. A valve according to item 1, characterized in that the frost-resistant elastomer contains butadiene-nitrile rubber, or fluororubber, or silicone, or ethylene propylene diene monomer, or polyethylene. 4. A gate valve according to item 1, characterized in that the shut-off wedge is equipped with antifriction guide shoes. 5. A gate valve according to item 1, characterized in that the sliding washers are made of metal-polymer. 6. A valve according to item 1, characterized in that the support nut forms an upper stop, by means of which the support nut is pressed against the upper surface of the cover with the possibility of a detachable connection. 7. A gate valve according to item 1, characterized in that the body, cover and part of the shut-off wedge are made of cold-resistant steel. 8. A gate valve according to item 1, characterized in that the body, cover and part of the shut-off wedge are made of cast iron. 9. A gate valve according to item 1, characterized in that the body and cover are made in the form of a single, non-separable structure. 10. A gate valve according to item 1, characterized in that the body and cover are made in the form of separate parts, between which a sealing gasket made of a frost-resistant elastomer is installed. 11. A gate valve according to item 1, characterized in that the seals between the cover and the support nut are made in the form of two fixed sealing rings. 12. A gate valve according to item 1, characterized in that the seals between the support nut and the spindle are made in the form of a dirt-protective cuff and three movable sealing rings. 13. A gate valve according to item 1, characterized in that the elements for connection to the pipeline are made in the form of flanges. 14. A gate valve according to item 1, characterized in that the elements for connection to the pipeline are made in the form of welding-on branches. 15. A gate valve according to item 1, characterized in that the elements for connection to the pipeline are made in the form of permanently connected steel and polyethylene pipes.