RU2009107170A - DEVICE FOR CONTROL OF GAS FLOW - Google Patents

Abstract

 1. Device for controlling the supply of combustible gas to the burner, comprising a main gas supply channel (2) in which at least one diaphragm valve (5) with a servo drive is located, including a valve seat (5a) associated with a corresponding shut-off valve an element (5b) with a membrane control device (6) for opening the saddle contrary to the action of the elastic biasing device (7), the membrane valve (5) containing a corresponding control solenoid valve (8) with an electromagnetic control device for controlling the opening / closing by opening a corresponding valve (5), the solenoid valve being configured to open / close the channel (9) of the corresponding servo-driven control circuit in order to control the shut-off element (5b) of the valve (5) indirectly by means of a membrane control device, wherein the channel the control circuit leads the part of the main channel (2), which is located upstream of the valve seat (5a) relative to the direction of gas flow, in communication with the flow with the corresponding control chamber (10) of the membrane o the valve, the first side (6a) of the membrane (6) of the membrane control device is exposed to the pressure existing in the corresponding control chamber (10), characterized in that the second, reverse side (6b) of the membrane (6) limits the space (21), which is separated from the part of the main channel (2), which passes downstream of the valve seat so that the second side (6b) of the membrane is not exposed to the gas supply pressure that exists in the said part of the channel, downstream of the valve seat (5a). ! 2. Devices

Claims (18)

1. Device for controlling the supply of combustible gas to the burner, comprising a main gas supply channel (2) in which at least one diaphragm valve (5) with a servo drive is located, including a valve seat (5a) associated with a corresponding shut-off valve an element (5b) with a membrane control device (6) for opening the saddle contrary to the action of the elastic biasing device (7), the membrane valve (5) containing a corresponding control solenoid valve (8) with an electromagnetic control device for controlling the opening / closing by opening a corresponding valve (5), the solenoid valve being configured to open / close the channel (9) of the corresponding servo-driven control circuit in order to control the shut-off element (5b) of the valve (5) indirectly by means of a membrane control device, wherein the channel the control circuit leads the part of the main channel (2), which is located upstream of the valve seat (5a) relative to the direction of gas flow, in communication with the flow with the corresponding control chamber (10) of the membrane o the valve, the first side (6a) of the membrane (6) of the membrane control device is exposed to the pressure existing in the corresponding control chamber (10), characterized in that the second, reverse side (6b) of the membrane (6) limits the space (21), which is separated from the part of the main channel (2), which passes downstream of the valve seat so that the second side (6b) of the membrane is not exposed to the gas supply pressure that exists in the said part of the channel, downstream of the valve seat (5a). 2. The device according to claim 1, in which the space bounded by the second, reverse side (6b) of the membrane forms a second chamber (21), which is open outward, so that the second side (6b) of the membrane is exposed to atmospheric pressure. 3. The device according to claim 1, in which the second chamber (21) contains, on the side remote from the membrane (6), a wall (22) through which the rod (11) passes to control the locking element (5b), and the rod ( 11) contains the first end, firmly attached to the locking element, and the second, opposite end, made with the possibility of contact with the control membrane (6). 4. The device according to claim 3, in which the second flexible membrane (24), firmly attached to the rod (11), is mounted on the wall (22) in such a way as to provide axial movement of the rod during movement with the possibility of controlling the locking element (5b ) to open / close the seat (5a). 5. The device according to claim 4, in which the second membrane (24) and the locking element (5b) contain facing each other, which contain corresponding protruding parts of the surface, which are essentially equivalent to each other so that the resultant stresses generated in This device pressures acting on facing each other side of the locking element and the second membrane, was mainly such that it did not affect or even be equal to zero. 6. The device according to claim 5, in which the facing each other side of the locking element (5b) and the second membrane (24), respectively, are exposed to the pressure of the gas supply passing through this device. 7. The device according to claim 4, in which the rod (11) for controlling the locking element (5b) passes through the second membrane (34) and is firmly attached to it. 8. The device according to claim 1, in which the biasing device includes a spring (7) acting directly on the locking element (5b) to force it to move towards the overlap position. 9. The device according to claim 1, in which a part of the channel (9) of the control circuit, which passes between the electromagnetic valve (8) and the control chamber (10), is connected to a guide channel (14) for supplying gas to the corresponding starting igniter. 10. The device according to claim 1, in which the first side (6a) of the membrane (6) bounding the control chamber (10) is exposed to the pressure of the gas supply passing through the main channel (2). 11. The device according to claim 6, containing a regulator (20) of the supply pressure in the channel (2), downstream of the valve seat (5a). 12. The device according to claim 11, in which the regulator (20) contains a second membrane servo valve (25) located in series with the membrane valve (5) relative to the direction of gas flow, the second servo valve (25) includes a membrane pressure regulator (30) . 13. The device according to item 12, in which the second servo valve (25) contains a corresponding second control solenoid valve (29) with an electromagnetic control device for controlling the opening / closing of the second servo valve (25), and the second electromagnetic valve is configured to open / close the channel (28) a corresponding servo-driven control circuit (28, 32) in order to control the shut-off element (25b) of the servo valve (25) indirectly by means of a membrane control device. 14. The device according to item 13, in which both channels (9, 28) for the removal of control pressures of the respective control circuits, and these channels are configured to divert the pressure signal for transmission to the respective control chambers (10, 32), are connected and are in fluid communication with the main channel (2) upstream of the first valve (5). 15. The device according to item 13, in which the channel (28) for removing the control pressure of the corresponding control circuit, and this channel is configured to divert the pressure signal for transmission to the corresponding control chamber (32), is connected and is in fluid communication with part of the main channel, which is located between the seats (5A, 25A) of the corresponding valves (5, 25). 16. The device according to item 12, in which the membrane pressure regulator (30) is located in the channel portion (35) of the control circuit of the second servo valve (25), which passes between the corresponding control chamber (32) of the second servo valve (25) and the main channel part ( 2) downstream of the second servo valve (25). 17. The device according to claim 2, in which the second chamber (21) contains, on the side remote from the membrane (6), a wall (22) through which the rod (11) passes to control the locking element (5b), and the rod ( 11) contains the first end, firmly attached to the locking element, and the second, opposite end, made with the possibility of contact with the control membrane (6). 18. The device according to 17, in which the second, flexible membrane (24), firmly attached to the rod (11), is mounted on the wall (22) in such a way as to provide axial movement of the rod during movement with the possibility of controlling the locking element (5b ) to open / close the seat (5a).