RU2056566C1 - Gas cock-valve - Google Patents

Abstract

FIELD: domestic low-pressure gas supply systems. SUBSTANCE: gas cock-valve has body with inlet and outlet holes and seat, cover, shut-off member made in form of plate with sealing gasket and spring loading the shut-off member towards seat. Two diaphragms are secured between body and cover and in body proper. Mounted in body is plug with guide members for rod of shut-off member. Drive is made in form of rod connected with handle. Received by hole of rod perpendicularly to its axis is pin. Provided on inner surface of cover are two vertical opposite slots receiving the pin. Fitterd on sealing gasket of shut-off member is pusher engageable with diaphragm. EFFECT: enhanced reliability. 5 cl, 1 dwg

Description

 The invention relates to locking devices for use in low pressure gas networks.

 Known plug valves for gas stoves [1] which are made of brass and bronze alloys and in this regard are expensive. In addition, they require periodic lubrication during operation.

 Known ball valves [2] containing non-metallic seals are difficult to manufacture, financially unprofitable and require considerable effort to open and close, which is not acceptable in everyday practice.

 Known locking device used in gas heating apparatus OAGV [3] containing a housing with inlet and outlet openings and a saddle, the housing is closed by a cover in which the drive of the locking body is located. The locking body is made in the form of a plate with a sealing gasket and is loaded with a spring. A membrane is fixed between the housing and the cover. The valve actuator is made in the form of an electromagnet.

 However, the known device is not convenient in operation due to the lack of a manual drive in it.

 The objective of the invention is the creation for domestic gas supply systems shut-off device, which can operate without scarce lubricating oils and is easy to manage.

 The technical result is achieved by the fact that in the gas valve valve comprising a housing with inlet and outlet openings and a seat, a cover in which the drive is placed, a locking member in the form of a plate with a gasket, a spring loading the locking member in the direction of the saddle, a membrane fixed between the cover and the body, the plug with guiding elements for the rod of the locking element, the actuator is made in the form of a rod connected to the handle of the rod, in the hole of which a pin is installed perpendicular to its axis, on the inner surface of the cover you olneny two oppositely disposed vertical groove, and the rod is arranged to move axially when the pins in the slots and rotating at an output pin of the slots, wherein the gasket on the closure member mounted tappet, contacting the membrane.

 In addition, an axial channel is made at the end of the actuator stem and an mushroom-shaped insert is installed in it, which contacts the convex surface with the membrane.

 The valve valve is equipped with an additional membrane and a disk in contact with them is placed between the membranes.

 Moreover, the pusher is made mushroom-shaped and installed with the possibility of contact with an additional membrane convex surface.

 In addition, a spring is placed in the axial channel of the rod, loading the insert towards the membrane.

 The drawing shows a gas valve, section.

 The valve valve comprises a housing 1 with inlet and outlet openings, a seat 2 is made in the housing. The housing is closed by a cover 3 from above, a membrane is clamped between the housing and the cover 4. Another membrane 5 is fixed by a ring 6 directly to the housing. A locking member 7 is arranged in the cavity of the housing in the form of a plate with a sealing gasket 8. On the locking member there is a rod 9 included in the guiding elements of the plug 10. The locking member is loaded with a spring 11 in the direction of closing the seat 2. A pusher 12 is placed on the sealing gasket 8, made in in the form of a fungus and a convex surface in contact with the membrane 5. Between the membranes 4 and 5, a disk 13 contacting them is placed.

 The crane drive is made in the form of a rod 14 connected to a handle 15, in which a through hole is made and a pin 16 is placed in it. Two vertical slots 17 are located opposite each other in the cover. The rod 14 is mounted with the possibility of axial movement when the pin 16 is in the specified grooves 17 and rotated when the pin exits the grooves. An axial channel 18 is made in the rod from the side of its end, in which an insert 19 is placed, which has a mushroom shape and contacts a convex surface with a membrane 4. The insert 19 is loaded with a spring 20 located in the same axial channel 18. The cover 3 is fixed to the housing with screws 21.

 The valve valve operates as follows.

 In the initial position, when the valve valve is closed, the handle 15 is installed perpendicular to the axis of the nozzles. The rod 14 is in this case in the upper position and does not affect the movable parts of the valve-valve, namely the membrane 4 and 5, the pusher 12 and the locking member 7.

 Under the action of the spring 11, the locking member 7 by a gasket 8 tightly closes the seat 2 in the housing, preventing the passage of the gas medium.

When the handle 15 is pressed all the way, the rod 14 moves down. The pin 16, mounted in the rod, comes out of the grooves 17. After the handle 15 is rotated 90 ^°, it is located along the axis of the inlet and outlet pipes. When releasing the handle, the pin 16 abuts against the end surface of the protrusion made in the lid, fixing the rod 14 in the lower position.

 When moving down the rod 14 through the membrane 4, the disk 13 and the membrane 5 and the pusher 12 acts on the locking member 7, moving it away from the seat 2 and opening its passage hole. The valve valve is open.

Closing the valve valve is done by turning the handle 15 to 90 ^about in any direction. When the pin 16 coincides with the grooves 17, the rod 14 moves upward under the action of a spring 11 loading the locking member 7 towards the closing side of the seat 2. The gasket 8 of the locking member fits snugly against the seat 2 and the passage of the gas medium stops.

 Repair and replacement of drive parts is carried out after loosening the screws 21 and removing the cover 3 with the stem 14 located therein, the insert 19 and the spring 20. Moreover, the presence of the membrane 5 prevents the passage of the gaseous medium into the atmosphere.

Claims (5)

 1. A gas valve valve comprising a housing with inlet and outlet openings and a seat, a cover in which the actuator is located, a locking member in the form of a plate with a gasket, a spring loading the locking member in the direction of the saddle, a membrane fixed between the cover and the housing, a plug with guiding elements for the rod of the locking element, characterized in that the actuator is made in the form of a rod connected to the handle, in the hole of which a pin is installed perpendicular to its axis, two vertical x opposite the groove, and the rod is placed with the possibility of axial movement when the pin is in the grooves and rotate when the pin exits the grooves, while the pusher in contact with the membrane is installed on the sealing gasket of the locking body.  2. The valve valve according to claim 1, characterized in that an axial channel is made in the end of the actuator stem and an mushroom-shaped insert is installed in it, which contacts the convex surface with the membrane.  3. The valve valve according to claim 1, characterized in that it is provided with an additional membrane and a disk in contact with them is placed between the membranes.  4. The valve valve according to claim 3, characterized in that the pusher is made mushroom-shaped and installed with the possibility of contact with an additional membrane with a convex surface.  5. The valve valve according to claim 2, characterized in that a spring is placed in the axial channel of the rod, loading the insert towards the membrane.

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