RU176507U1 - VALVE LATCH WITH CYLINDER GUIDES OF THE LOCKING BODY - Google Patents

Abstract

The invention relates to valves, in particular to valves, and can be used to shut off pipelines for liquid or gaseous media on production lines in oil and gas, chemical and other industries. The objective of the invention is to create a wedge valve with cylindrical guides of a shut-off element having a low the complexity and cost of manufacturing and providing a high level of reliability. The problem is solved due to the fact that the wedge gate valve e with cylindrical guides of the locking member, there is a housing with inlet and outlet nozzles, in which apertures are located seats, and a movable locking member, and the guide grooves and protrusions are made on the respective surfaces of the locking member and the housing, one of the contact surfaces of the locking member is perpendicular to the axis of the through hole the housing, and the second contact surface of the movable locking body is made with an angle to the axis of the bore of the housing with the formation of a sealing Linova effect, wherein the guide grooves in the housing and the guides for moving the locking body are formed by cylindrical sealing surfaces without the formation of the wedge effect.

Description

The utility model relates to pipeline valves, in particular to valves, and can be used to shut off pipelines for liquid or gaseous media on production lines in oil and gas, chemical and other industries.

Known wedge gate valves (RU 58645, IPC 8 F16K 3/12, publ. 11/27/2006, RU 63895, IPC 8 F16K 3/12, publ. 10.06.2007) that contain a housing, inlet and outlet nozzles with seats and a movable shut-off organ with two contact surfaces. The contact surfaces of the movable locking element and seats are made symmetrically with an angle of inclination to the axis of the bore.

The closest is the wedge gate valve described in patent RU 2094682, IPC 8 F16K 3/12 publ. 10/27/1997. The known device comprises a housing with inlet and outlet nozzles, in the passage openings of which are seats and a movable locking element with two contact surfaces. In this case, one of the contact surfaces of the locking element is made inclined, and the other is perpendicular to the axis of the housing passage opening. On the locking body and in the housing there are guide grooves and protrusions.

A disadvantage of the known structures lies in the high complexity of the manufacture of the housing, in particular in the high complexity of the manufacture of guide grooves, obtained most often by chiselling or planing. The high complexity of manufacturing and guides on the locking body. The rectangular shapes of the guide grooves used in the known constructions cannot ensure the exact positioning of the locking element in the direction parallel to the axis of the through holes, which, with a certain spatial orientation of the valve, can lead to jamming of the locking element in the guides or to loss of valve tightness.

The objective of the utility model is to create a wedge gate valve with cylindrical guides of the shut-off element, which has low labor input and manufacturing cost, and provides a high level of reliability.

The problem is solved due to the fact that the wedge gate valve with cylindrical guides of the locking body contains a housing with inlet and outlet pipes, in the passage openings of which the seats are located, and a movable locking body, and the guide grooves and protrusions are made on the corresponding surfaces of the locking body and body, one of the contact surfaces of the locking body is perpendicular to the axis of the housing passage opening, and the second contact surface of the movable locking body is made with an angle of inclination to and a passage opening of the housing with the formation of a sealing wedge effect, moreover, the guide grooves in the housing and the guide protrusions on the movable locking member are formed by cylindrical surfaces without forming a sealing wedge effect.

The proposed utility model allows to reduce the complexity and cost of manufacturing the valve body by reducing the number of time-consuming operations of machining the guide grooves; increase the level of reliability by reducing the likelihood of jamming of the locking element in the guides and loss of valve tightness. The possibility of rotation of the locking element relative to its axis is limited by providing the required clearance between the inclined contact surface and the seat.

The essence of the described utility model is illustrated by the following drawings.

FIG. 1 is a frontal section of a wedge gate valve with cylindrical guides of a locking member.

FIG. 2 is a horizontal section of a wedge gate valve with cylindrical guides of a locking member.

The wedge gate valve with cylindrical guides of the locking member comprises a housing 1 and a movable locking member 2 (Fig. 1, Fig. 2). The housing 1 includes a Central hole 3, the inlet pipe 4 and the outlet pipe 5. In the Central hole is a saddle 6.

A wedge gate valve with cylindrical guides of the locking member operates as follows.

The working medium can be supplied through the opening of any of the nozzles 4 or 5. In the closing mode, the locking element 2 moves downward, interacting by means of its outer cylindrical surface with the inner cylindrical surface of the central hole 3. This eliminates the displacement of the locking element 2 in the direction perpendicular to the axis of the input 4 and output 5 nozzles and allows it to freely enter into contact with the saddle 6, forming a sealed connection due to the wedge effect, blocking the flow of the working medium. In the opening mode, the shut-off member 2 likewise moves upward, opening a full passage for the flow of the working medium. The gap between the inclined contact surface of the locking element 2 and the seat 6 is calculated from the condition of preventing rotation of the locking element 2 about its axis by more than 15 °.

Claims (1)

A wedge gate valve with cylindrical guides of the locking member, comprising a housing with inlet and outlet nozzles, in which the seats are located in the passage holes, and a movable locking member, wherein the guide grooves and protrusions are made on the respective surfaces of the locking member and the housing, one of the contact surfaces of the locking member is perpendicular to the axis the passage of the housing, and the second contact surface of the movable locking element is made with an angle to the axis of the passage of the housing with the formation of g sealing wedge effect, characterized in that the guide grooves in the housing and the guide protrusions on the movable locking body are formed by cylindrical surfaces without the formation of a sealing wedge effect.

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