阅读说明：本技术 一种燃气减压阀 (Gas pressure reducing valve ) 是由 刘进取 倪晓燕 刘振 于 2019-09-04 设计创作，主要内容包括：本发明属于阀门技术领域,具体的说是一种燃气减压阀,包括阀体、活塞、连杆、橡胶管和调节环；所述阀体左端面开设有进气口、右端面开设有出气口；所述进气口和出气口内分别滑动连接有活塞；所述活塞通过连杆铰接连接；所述阀体内部插接有橡胶管；所述进气口内部设有调节环；本发明结构简单,能起到自动化的调节稳压作用,功能较为稳定,通过设置该调节环,使得当第一空腔内的燃气内压增大时,能够快速响应及时减少燃气进气量,避免了活塞和连杆机构响应的滞后性,极大提高燃气的出气均匀性,同时橡胶管具有互换性,防止因橡胶管损坏导致燃气减压阀报废,增加燃气减压阀的使用寿命。(The invention belongs to the technical field of valves, and particularly relates to a gas pressure reducing valve which comprises a valve body, a piston, a connecting rod, a rubber pipe and an adjusting ring, wherein the piston is arranged on the valve body; the left end face of the valve body is provided with an air inlet, and the right end face of the valve body is provided with an air outlet; pistons are respectively connected in the air inlet and the air outlet in a sliding manner; the pistons are hinged through connecting rods; a rubber pipe is inserted in the valve body; an adjusting ring is arranged inside the air inlet; the gas pressure reducing valve is simple in structure, can play a role in automatically adjusting and stabilizing pressure, is relatively stable in function, can quickly respond and timely reduce the gas inflow when the internal pressure of gas in the first cavity is increased by arranging the adjusting ring, avoids the response hysteresis of the piston and the connecting rod mechanism, greatly improves the gas outlet uniformity of the gas, and meanwhile, the rubber pipe has interchangeability, prevents the gas pressure reducing valve from being scrapped due to damage of the rubber pipe, and prolongs the service life of the gas pressure reducing valve.)

1. a gas pressure reducing valve, characterized by: comprises a valve body (1) and a piston (2); the valve body (1) is designed to be columnar; an inner cavity (11) is formed in the valve body (1), and connecting columns (24) are fixedly connected to the left end face and the right end face of the inner cavity (11); the number of the connecting columns (24) is four, and the connecting columns are uniformly arranged by taking the center line of the valve body (1) as the center; the left end face of the valve body (1) is provided with an air inlet (12), and the right end face is provided with an air outlet (13); the air inlet (12) and the air outlet (13) are not on the same axis; the air inlet (12) and the air outlet (13) are respectively connected with a piston (2) in a sliding way; one side surface of the piston (2) facing the inner cavity (11) is hinged with a connecting rod (21); the other ends of the two connecting rods (21) are hinged with a rotating block (22) together; the rotating block (22) is positioned in the center of the inner cavity (11) and is rotatably connected to the surface of one connecting column (24) through a positioning rod (23); an air inlet connecting hole (25) is formed in the position, on the air inlet (12), of the valve body (1); one end of the air inlet connecting hole (25) is communicated with the air inlet (12), and the other end of the air inlet connecting hole is communicated with the inner cavity (11); the valve body (1) is provided with a gas outlet connecting hole (26) at the position of the gas outlet (13), and the shape of the gas outlet connecting hole (26) is arc-shaped; one end of the air outlet connecting hole (26) is communicated with the air outlet (13), and the other end of the air outlet connecting hole is communicated with the inner cavity (11); a spoiler (27) is fixedly connected in the air outlet (13); the spoiler (27) is in a wave-shaped design relative to the side surface of the piston (2), and through holes (28) which are uniformly distributed are formed in the positions of wave troughs of the spoiler (27).

2. A gas pressure reducing valve according to claim 1, wherein: a clamping groove (31) in a circular design is formed in the inner wall of the left side of the valve body (1); the cross section of the clamping groove (31) is in a T-shaped design, and the diameter of an inner circle formed by the clamping groove (31) is larger than that of the air inlet (12); the outer surface of the right side of the valve body (1) is provided with a circular interface (32); the circular connector (32) separates the air outlet (13) of the valve body (1), and the air outlet (13) is fixedly connected with the valve body (1) through a connecting column (24); a rubber pipe (3) is inserted into the circular interface (32); the left end of the rubber tube (3) is inserted into the clamping groove (31); the rubber tube (3) divides the inner cavity (11) into a first cavity (4) and a second cavity, and the first cavity (4) is the position where the connecting rod (21) moves; the second cavity is provided with an air passage on the left side wall of the valve body (1); an adjusting ring (33) is arranged in the air inlet (12); two ends of the adjusting ring (33) are fixedly connected with the inner wall of the air inlet (12), and an inner cavity is formed in the middle of the adjusting ring; the air passage may communicate the second cavity with an inner cavity of the adjustment ring (33).

3. A gas pressure reducing valve according to claim 2, wherein: a cavity is formed in the rubber tube (3); a support ring (36) is slidably connected in the cavity; the inner surface and the outer surface of the support ring (36) are provided with uniformly distributed salient points; the left end face of the rubber tube (3) is fixedly connected with a first expansion ring (34); a first expansion cavity is formed in the first expansion ring (34); the inner surface of the opening of the cavity of the rubber tube (3) is fixedly connected with air bags (37) which are uniformly arranged; the air bag (37) is communicated with the first expansion cavity through an air passage, a one-way valve is arranged at the communication position, the air bag (37) is communicated with the external space, and the one-way valve is arranged at the communication position.

4. A gas pressure reducing valve according to claim 3, wherein: the inner surface of the cavity of the rubber ring is wrapped with a film.

5. A gas pressure reducing valve according to claim 2, wherein: an outer ring (43) is fixedly connected in the second cavity, and the left end face and the right end face of the outer ring (43) are fixedly connected to the inner walls of the left side and the right side of the valve body (1) respectively; the outer ring (43) divides the second cavity into an inner cavity (41) and an outer cavity (42); the inner cavity (41) is positioned between the outer ring (43) and the rubber tube (3); the inner wall of the circular connector (32) is fixedly connected with a second expansion ring (35); a second expansion cavity is formed in the second expansion ring (35); the second expansion cavity is communicated to the outer cavity (42) through an air passage formed in the valve body (1).

6. A gas pressure reducing valve according to claim 5, wherein: a sealing ring (14) is fixedly connected to the interface of the air inlet (12) of the valve body (1); a sealing cavity is formed in the sealing ring (14); the sealed cavity is communicated with the inner cavity (41) through an air passage.

Technical Field

The invention belongs to the technical field of valves, and particularly relates to a gas pressure reducing valve.

Background

the gas pressure reducing valve is an important gas device which is arranged on an angle valve of a liquefied gas steel cylinder and is matched with a household gas appliance for reducing output pressure and stabilizing the output pressure by connecting the angle valve with a rubber tube.

The gas pressure reducing valve is a valve which reduces the inlet pressure to a certain required outlet pressure by adjusting and makes the outlet pressure automatically keep stable by relying on the energy of a medium, and the valve port is automatically adjusted to be opened and closed by simply using a spring and a rubber film by utilizing a lever principle in the prior art, so that the outlet pressure keeps overall stable, but the gas output fluctuation phenomenon problem in a short time exists in the technology, and the use risk is caused. The air inlet pipe of the existing gas pressure reducing valve is in threaded connection with the gas inlet pipe, so that the gas inlet pipe is easy to loosen to generate gas leakage, and the use safety of gas equipment is reduced.

When the internal parts are damaged, the functions of pressure reduction and pressure stabilization of the gas pressure reducing valve are attenuated or failed, but the warning function is not available, so that a user cannot timely perceive the pressure reduction and pressure stabilization function, and potential safety hazards in use are increased. Meanwhile, the internal parts of the damaged gas pressure reducing valve cannot be directly replaced, the maintenance is difficult, and when the internal small parts are damaged, the whole gas pressure reducing valve is easily scrapped, so that the use function of the product is not fully utilized, the product value is greatly reduced, and the service life of the product is also shortened.

Disclosure of Invention

The invention provides a gas pressure reducing valve, which aims to make up for the defects of the prior art and solve the problems that the gas pressure reducing valve in the prior art has insufficient stability, is easy to loose and generates gas leakage phenomenon, has no warning function, is difficult in interchangeability of internal parts and the like.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a gas pressure reducing valve, which comprises a valve body and a piston; the valve body is in a columnar design; an inner cavity is formed in the valve body, and connecting columns are fixedly connected to the left end face and the right end face of the inner cavity; the number of the connecting columns is four, and the connecting columns are uniformly arranged by taking the center line of the valve body as the center; the left end face of the valve body is provided with an air inlet, and the right end face of the valve body is provided with an air outlet; the air inlet and the air outlet are not on the same axis; pistons are respectively connected in the air inlet and the air outlet in a sliding manner; one side surface of the piston facing the inner cavity is hinged with a connecting rod; the other ends of the two connecting rods are hinged with a rotating block together; the rotating block is positioned in the center of the inner cavity and is rotatably connected to the surface of one connecting column through a positioning rod; the valve body is provided with an air inlet connecting hole at the position of the air inlet; one end of the air inlet connecting hole is communicated with the air inlet, and the other end of the air inlet connecting hole is communicated with the inner cavity; the valve body is provided with an air outlet connecting hole at the air outlet, and the shape of the air outlet connecting hole is arc-shaped; one end of the air outlet connecting hole is communicated with the air outlet, and the other end of the air outlet connecting hole is communicated with the inner cavity; a spoiler is fixedly connected in the air outlet; the spoiler is in a wave-shaped design relative to the side surface of the piston, and through holes which are uniformly distributed are formed in the trough position of the spoiler; when the gas inlet pipeline works, when gas in the gas inlet pipeline is communicated with the gas inlet, the gas pressure in the gas inlet is increased, the gas can push the piston in the gas inlet to move rightwards, and when the piston moves to the gas inlet connecting hole to conduct the gas inlet and the internal cavity, the gas can enter the internal cavity through the gas inlet connecting hole; when the piston in the air inlet moves rightwards, the hinged connecting rod on the piston moves rightwards to drive the rotating block to rotate clockwise, the rotating block further drives the piston in the air outlet to move leftwards through the hinged connecting rod at the bottom, so that the air outlet connecting hole can conduct the air outlet with the internal cavity, and the fuel gas led out through the air outlet connecting hole can be led out through the through hole on the spoiler, when the air pressure in the internal cavity is insufficient, the piston in the air inlet can further move rightwards to increase the opening size of the air inlet connecting hole, so that more gas can enter the internal cavity, and the piston in the air outlet can further move leftwards at the moment, so that the opening of the air outlet connecting hole is larger, the air outlet amount is increased, when the air pressure in the internal cavity is larger, the fuel gas in the internal cavity can push the piston in the air inlet to move, and meanwhile, the piston in the air outlet moves rightwards, so that the opening of the air outlet connecting hole is reduced, the air outlet amount is reduced, and when the air inlet connecting hole is completely closed, the air outlet connecting hole is still in a small-opening state, and further certain stability of the air outlet amount is kept. The size adjustment of the air inlet connecting hole and the air outlet connecting hole is realized through the piston and the connecting rod mechanism, the problem of air outlet gas flow fluctuation is greatly improved, meanwhile, the spoiler is designed into a wave shape with a gas convection surface, the through hole is arranged at the trough position of the spoiler, the effect of conducting turbulence and uniform distribution and derivation on the gas can be achieved, the gas derivation flow is stable, meanwhile, the shape of the air outlet connecting hole is designed into a circular arc shape, the gas and the spoiler wave can form convection disturbance at the same side, the turbulence effect is increased, and the phenomenon that the gas flow is derived unevenly is further reduced.

preferably, the inner wall of the left side of the valve body is provided with a clamping groove in a circular design; the cross section of the clamping groove is in a T-shaped design, and the diameter of an inner circle formed by the clamping groove is larger than that of the air inlet; the outer surface of the right side of the valve body is provided with a circular interface; the circular interface separates the air outlet of the valve body, and the air outlet is fixedly connected with the valve body through a connecting column; a rubber pipe is inserted into the circular interface; the left end of the rubber tube is inserted into the clamping groove; the rubber tube divides an inner cavity into a first cavity and a second cavity, and the first cavity is a position where the connecting rod moves; the second cavity is provided with an air passage on the left side wall of the valve body; an adjusting ring is arranged inside the air inlet; two ends of the adjusting ring are fixedly connected with the inner wall of the air inlet, and an inner cavity is formed in the middle of the adjusting ring; the air passage can communicate the second cavity with the inner cavity of the adjusting ring; when the air pressure in the first cavity is increased during work; the gas can be with the outside inflation jack-up of rubber tube, and then makes second cavity inner space reduce, and interior pressure increase, the inside gas of second cavity this moment can get into the inner chamber of adjustable ring through the air flue for adjustable ring inflation grow, the bore reduction of air inlet, the gas volume through the air inlet this moment can reduce fast. Through setting up this adjustable ring for when the increase of the gas internal pressure in the first cavity, can in time reduce the gas air input by quick response, avoided the hysteresis quality of piston and link mechanism response, greatly improved the homogeneity of giving vent to anger of gas.

Preferably, a cavity is formed in the rubber tube; a support ring is connected in the cavity in a sliding manner; the inner surface and the outer surface of the support ring are provided with uniformly distributed salient points; the left end face of the rubber pipe is fixedly connected with a first expansion ring; a first expansion cavity is formed in the first expansion ring; the inner surface of the mouth part of the rubber tube cavity is fixedly connected with uniformly arranged air bags; the air bag is communicated with the first expansion cavity through an air passage, a one-way valve is arranged at the communication position, the air bag is communicated with the external space, and the one-way valve is arranged at the communication position; during operation, when the rubber tube needs to be installed, the rubber tube is soft and is not easy to install, so that the inside of the rubber tube is slidably connected with the support ring to achieve quick and convenient installation. After the rubber tube is installed, the support ring is manually pulled out of the cavity of the rubber tube, in the pulling process, the air bag can be extruded by the convex points uniformly distributed on the surface of the support ring, so that gas in the air bag enters the first expansion cavity of the first expansion ring through the air passage, the volume of the first expansion ring expands to be larger, the expansion ring is clamped into the clamping groove, the rubber tube is prevented from falling off after being subjected to gas acting force, meanwhile, the check valve is arranged in the air passage, the gas in the first expansion ring can be prevented from flowing back into the air bag, and therefore the fixing effect on the rubber tube can be continuously achieved; simultaneously when the rubber tube is damaged, the gas in the first expansion ring leaks, the rubber tube is conveniently pulled out, and the rubber tube can be conveniently replaced in time.

Preferably, the inner surface of the cavity of the rubber tube is wrapped with a film; the during operation, when the rubber tube breakage appears, rubber tube surface film can receive gas shock and produce the vibration to continuously send the sound, can remind the user to know that inside rubber tube has damaged, need in time change, prevent that the user from using the gas relief pressure valve that the rubber tube has damaged for a long time, increase the security of using.

Preferably, the second cavity is fixedly connected with an outer ring, and the left end face and the right end face of the outer ring are fixedly connected with the inner walls of the left side and the right side of the valve body respectively; the second cavity is divided into an inner cavity and an outer cavity by the outer ring; the inner cavity is positioned between the outer ring and the rubber pipe; the inner wall of the circular connector is fixedly connected with a second expansion ring; a second expansion cavity is formed in the second expansion ring; the second expansion cavity is communicated to the outer cavity through an air passage formed in the valve body; during operation, when the rubber tube breakage appears, the gas can get into in the interior cavity of second cavity to the gas can be with the outside inflation jack-up of outer loop, and then makes outer cavity inner space reduce, and interior pressure increases, and outer cavity inside gas can get into the inside second expansion chamber of second expansion ring through the air flue this moment, makes the inflation grow of second expansion ring, and it is fixed to produce the extrusion to the intraductal rubber tube of circular interface, prevents that the gas from passing through the cavity leakage in the rubber tube, leads to the emergence of incident.

preferably, a sealing ring is fixedly connected to the joint of the valve body and the air inlet; a sealing cavity is formed in the sealing ring; the sealing cavity is communicated with the inner cavity through an air passage; the during operation, after the intake pipe was connected to the valve body air inlet, the sealing ring can link up sealedly to the gap in air inlet and the intake pipe, it oozes through the gap between air inlet and the intake pipe to have reduced the gas, produce certain risk, sealed intra-annular chamber and inner chamber pass through the air flue intercommunication simultaneously, when using the gas relief pressure valve, atmospheric pressure increase in the inner chamber, and then the inside gas of inner chamber can get into the sealed intracavity of sealing ring through the pipeline, make the increase of sealing ring volume, further better seal between air inlet and the intake pipe. Preventing gas from leaking through the interface.

The invention has the following beneficial effects:

1. According to the gas pressure reducing valve, the valve body, the piston, the connecting rod and the spoiler are arranged, the inner cavity is formed in the valve body, the pistons in the gas inlet and the gas outlet are connected through the connecting rod, and therefore the movement between the two pistons is related to each other, the movement of the pistons can control the gas inlet amount and the gas outlet amount, the purposes of pressure reduction and pressure stabilization are achieved, meanwhile, the spoiler enables the gas outlet to be more uniform, and the pressure stabilizing effect of the gas pressure reducing valve is further improved. Simple structure, and can play automatic regulatory action, the function is comparatively stable.

2. According to the gas pressure reducing valve, the rubber pipe and the adjusting ring are arranged, so that when the air pressure in the first cavity is increased; the gas can be with the outside inflation jack-up of rubber tube, and then makes second cavity inner space reduce, and interior pressure increase, the inside gas of second cavity this moment can get into the inner chamber of adjustable ring through the air flue for adjustable ring inflation grow, the bore reduction of air inlet, the gas volume through the air inlet this moment can reduce fast. Through setting up this adjustable ring for when the increase is pressed in the gas in the first cavity, can in time reduce the gas air input by quick response, avoided the hysteresis quality of piston and link mechanism response, greatly improve the homogeneity of giving vent to anger of gas, the rubber tube has interchangeability simultaneously, prevents to damage because of the rubber tube and leads to the gas relief pressure valve to scrap, increases the life of gas relief pressure valve.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

in the figure: the air-conditioning valve comprises a valve body 1, an internal cavity 11, an air inlet 12, an air outlet 13, a sealing ring 14, a piston 2, a connecting rod 21, a rotating block 22, a positioning rod 23, a connecting column 24, an air inlet connecting hole 25, an air outlet connecting hole 26, a spoiler 27, a through hole 28, a rubber tube 3, a clamping groove 31, a circular connector 32, an adjusting ring 33, a first expansion ring 34, a second expansion ring 35, a supporting ring 36, an air bag 37, a first cavity 4, an internal cavity 41, an external cavity 42 and an external ring 43.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 4, the gas pressure reducing valve of the present invention includes a valve body 1 and a piston 2; the valve body 1 is in a columnar design; an inner cavity 11 is formed in the valve body 1, and connecting columns 24 are fixedly connected to the left end face and the right end face of the inner cavity 11; the number of the connecting columns 24 is four, and the connecting columns are uniformly arranged by taking the center line of the valve body 1 as the center; the left end face of the valve body 1 is provided with an air inlet 12, and the right end face of the valve body is provided with an air outlet 13; the air inlet 12 and the air outlet 13 are not on the same axis; the air inlet 12 and the air outlet 13 are respectively connected with a piston 2 in a sliding way; one side surface of the piston 2 facing the inner cavity 11 is hinged with a connecting rod 21; the other ends of the two connecting rods 21 are hinged with a rotating block 22; the rotating block 22 is positioned in the center of the inner cavity 11 and is rotatably connected to the surface of one connecting column 24 through a positioning rod 23; an air inlet connecting hole 25 is formed in the position, on the air inlet 12, of the valve body 1; one end of the air inlet connecting hole 25 is communicated with the air inlet 12, and the other end is communicated with the inner cavity 11; the valve body 1 is provided with an air outlet connecting hole 26 at the position of the air outlet 13, and the shape of the air outlet connecting hole 26 is arc-shaped; one end of the air outlet connecting hole 26 is communicated with the air outlet 13, and the other end is communicated with the inner cavity 11; a spoiler 27 is fixedly connected in the air outlet 13; the spoiler 27 is in a wave-shaped design relative to the side surface of the piston 2, and through holes 28 which are uniformly distributed are formed in the trough positions of the spoiler 27; when the gas-liquid separator works, when gas in the gas inlet pipeline ventilates the gas inlet 12, the gas pressure in the gas inlet 12 is increased, the gas can push the piston 2 in the gas inlet 12 to move rightwards, and when the piston 2 moves to the gas inlet connecting hole 25 to conduct the gas inlet 12 and the internal cavity 11, the gas can enter the internal cavity 11 through the gas inlet connecting hole 25; and when the piston 2 in the air inlet 12 moves rightwards, the connecting rod 21 hinged on the piston 2 moves rightwards to drive the rotating block 22 to rotate clockwise, the rotating block 22 further drives the piston 2 in the air outlet 13 to move leftwards through the connecting rod 21 hinged at the bottom, so that the air outlet connecting hole 26 can conduct the air outlet 13 with the internal cavity 11, and the fuel gas led out through the air outlet connecting hole 26 can be led out through the through hole 28 on the spoiler 27, when the air pressure in the internal cavity 11 is insufficient, the piston 2 in the air inlet 12 further moves rightwards to increase the opening size of the air inlet connecting hole 25, so that more gas can enter the internal cavity 11, and at the moment, the piston 2 in the air outlet 13 further moves leftwards to make the opening of the air outlet connecting hole 26 larger and increase the air outlet amount, when the air pressure in the internal cavity 11 is larger, the fuel gas in the internal cavity 11 can push the piston 2 in, the opening of the air inlet connecting hole 25 is reduced, the air inlet amount is reduced, meanwhile, the piston 2 in the air outlet 13 moves rightwards, so that the opening of the air outlet connecting hole 26 is reduced, the air outlet amount is reduced, and when the air inlet connecting hole 25 is completely closed, the air outlet connecting hole 26 is still in a small-opening state, and further certain stability of the air outlet amount is kept. Through above piston 2 and connecting rod 21 mechanism realized the big or small adjustment of connecting hole 25 and the connecting hole 26 of giving vent to anger of admitting air, very big improvement the undulant problem of gas outlet 13 gas flow, simultaneously through with on the spoiler 27 with the gas convection surface design for the wave, and the through-hole 28 is seted up in spoiler 27 trough position, can play the effect of carrying out vortex and evenly distributed derivation to gas, it is more stable to make the gas derive the flow, the connecting hole 26 shape design of giving vent to anger simultaneously is circular-arc, can make gas and spoiler 27 wave simultaneously form the convection current disturbance, the effect of vortex has been increased, further reduce the gas flow and derive inhomogeneous phenomenon.

As an embodiment of the present invention, a circular clamping groove 31 is formed on the inner wall of the left side of the valve body 1; the cross section of the clamping groove 31 is in a T-shaped design, and the diameter of an inner circle formed by the clamping groove 31 is larger than that of the air inlet 12; the outer surface of the right side of the valve body 1 is provided with a circular interface 32; the circular connector 32 separates the air outlet 13 of the valve body 1, and the air outlet 13 is fixedly connected with the valve body 1 through the connecting column 24; a rubber tube 3 is inserted into the circular interface 32; the left end of the rubber tube 3 is inserted into the clamping groove 31; the rubber tube 3 divides the inner cavity 11 into a first cavity 4 and a second cavity, and the first cavity 4 is a position where the connecting rod 21 moves; the second cavity is provided with an air passage on the left side wall of the valve body 1; an adjusting ring 33 is arranged inside the air inlet 12; two ends of the adjusting ring 33 are fixedly connected with the inner wall of the air inlet 12, and an inner cavity is formed in the middle; the air passage may communicate the second cavity with the inner cavity of the adjusting ring 33; in operation, when the air pressure in the first cavity 4 increases; the gas can be with 3 outside inflation jack-ups of rubber tube, and then makes second cavity inner space reduce, and interior pressure increase, the inside gas of second cavity this moment can get into the inner chamber of adjustable ring 33 through the air flue for adjustable ring 33 inflation grow, the bore reduction of air inlet 12, the gas volume through air inlet 12 this moment can reduce fast. Through setting up this adjustable ring 33 for when the internal pressure of the gas in first cavity 4 increases, can the quick response in time reduce the gas air input, avoided the hysteresis quality of piston 2 and connecting rod 21 mechanism response, greatly improve the homogeneity of giving vent to anger of gas.

As an embodiment of the present invention, a cavity is formed in the rubber tube 3; a support ring 36 is slidably connected in the cavity; the inner surface and the outer surface of the support ring 36 are provided with uniformly arranged salient points; the left end face of the rubber tube 3 is fixedly connected with a first expansion ring 34; a first expansion cavity is formed in the first expansion ring 34; the inner surface of the cavity opening of the rubber tube 3 is fixedly connected with air bags 37 which are uniformly arranged; the air bag 37 is communicated with the first expansion cavity through an air passage, a one-way valve is arranged at the communication position, the air bag 37 is communicated with the external space, and the one-way valve is arranged at the communication position; during operation, when the rubber tube 3 needs to be installed, because the rubber tube 3 is soft and is not easy to install, the supporting ring 36 is connected with the inside of the rubber tube 3 in a sliding manner, so that the rubber tube can be installed quickly and conveniently. After the rubber tube 3 is installed, the support ring 36 is manually pulled out from the cavity of the rubber tube 3, in the pulling-out process, the bumps uniformly distributed on the surface of the support ring 36 can extrude the air bag 37, so that the gas in the air bag 37 enters the first expansion cavity of the first expansion ring 34 through the air passage, the volume expansion of the first expansion ring 34 is increased, the expansion ring is clamped into the clamping groove 31, the rubber tube 3 is prevented from falling off after being subjected to gas acting force, meanwhile, the check valve is arranged in the air passage, the gas in the first expansion ring 34 can be prevented from flowing back into the air bag 37, and the rubber tube 3 can be continuously fixed; simultaneously when the rubber tube 3 is damaged, the gas in the first expansion ring 34 leaks, the rubber tube 3 is conveniently pulled out, and the rubber tube 3 can be conveniently replaced in time.

As an embodiment of the present invention, the inner surface of the cavity of the rubber tube 3 is wrapped with a film; the during operation, when the rubber tube 3 appears damaged, 3 surperficial films of rubber tube can receive gas shock and produce the vibration to continuously send the sound, can remind the user to know that inside rubber tube 3 has damaged, need in time change, prevent that the user from using the gas relief pressure valve that rubber tube 3 has damaged for a long time, increase the security of using.

As an embodiment of the present invention, an outer ring 43 is fixedly connected in the second cavity, and the left and right end faces of the outer ring 43 are respectively fixedly connected to the left and right inner walls of the valve body 1; the outer ring 43 divides the second cavity into an inner cavity 41 and an outer cavity 42; the inner cavity 41 is positioned between the outer ring 43 and the rubber tube 3; the inner wall of the circular connector 32 is fixedly connected with a second expansion ring 35; a second expansion cavity is formed in the second expansion ring 35; the second expansion cavity is communicated to the outer cavity 42 through an air passage formed in the valve body 1; the during operation, when the rubber tube 3 breakage appears, the gas can get into in the interior cavity 41 of second cavity, and the gas can be with the outside inflation jack-up of outer loop 43, and then make outer cavity 42 inner space reduce, the increase of interior pressure, the inside gas of outer cavity 42 can get into the inside second inflation intracavity of second inflation ring 35 through the air flue this moment, make the inflation grow of second inflation ring 35, it is fixed to produce the extrusion to the rubber tube 3 in the circular interface 32, prevent that the gas from passing through the cavity leakage in the rubber tube 3, lead to the emergence of incident.

As an embodiment of the invention, a sealing ring 14 is fixedly connected to the interface of the air inlet 12 of the valve body 1; a sealing cavity is formed in the sealing ring 14; the sealed cavity is communicated with the inner cavity 41 through an air passage; the during operation, after valve body 1 air inlet 12 connects the intake pipe, sealing ring 14 can link up sealedly to the gap in air inlet 12 and the intake pipe, it oozes through the gap between air inlet 12 and the intake pipe to have reduced the gas, certain risk produces, sealed chamber in the sealing ring 14 and interior cavity 41 pass through the air flue intercommunication simultaneously, when using the gas relief pressure valve, atmospheric pressure increase in interior cavity 41, and then the inside gas of interior cavity 41 can get into the sealed intracavity of sealing ring 14 through the pipeline, make the increase of sealing ring 14 volume, further better seal up between air inlet 12 and the intake pipe. Preventing gas from leaking through the interface.

The specific working process is as follows:

When the gas-liquid separator works, when gas in the gas inlet pipeline ventilates the gas inlet 12, the gas pressure in the gas inlet 12 is increased, the gas can push the piston 2 in the gas inlet 12 to move rightwards, and when the piston 2 moves to the gas inlet connecting hole 25 to conduct the gas inlet 12 and the internal cavity 11, the gas can enter the internal cavity 11 through the gas inlet connecting hole 25; and when the piston 2 in the air inlet 12 moves rightwards, the connecting rod 21 hinged on the piston 2 moves rightwards to drive the rotating block 22 to rotate clockwise, the rotating block 22 further drives the piston 2 in the air outlet 13 to move leftwards through the connecting rod 21 hinged at the bottom, so that the air outlet connecting hole 26 can conduct the air outlet 13 with the internal cavity 11, and the fuel gas led out through the air outlet connecting hole 26 can be led out through the through hole 28 on the spoiler 27, when the air pressure in the internal cavity 11 is insufficient, the piston 2 in the air inlet 12 further moves rightwards to increase the opening size of the air inlet connecting hole 25, so that more gas can enter the internal cavity 11, and at the moment, the piston 2 in the air outlet 13 further moves leftwards to make the opening of the air outlet connecting hole 26 larger and increase the air outlet amount, when the air pressure in the internal cavity 11 is larger, the fuel gas in the internal cavity 11 can push the piston 2 in, the opening of the air inlet connecting hole 25 is reduced, the air inlet amount is reduced, meanwhile, the piston 2 in the air outlet 13 moves rightwards, so that the opening of the air outlet connecting hole 26 is reduced, the air outlet amount is reduced, and when the air inlet connecting hole 25 is completely closed, the air outlet connecting hole 26 is still in a small-opening state, and further certain stability of the air outlet amount is kept. The size adjustment of the air inlet connecting hole 25 and the air outlet connecting hole 26 is realized through the piston 2 and the connecting rod 21, the problem of gas flow fluctuation of the air outlet 13 is greatly improved, meanwhile, the spoiler 27 and a gas convection surface are designed into a wave shape, and the through hole 28 is formed in the wave trough position of the spoiler 27, so that the effects of carrying out turbulence and uniform distribution and guiding on the gas can be achieved. When the air pressure in the first cavity 4 increases; the gas can be with 3 outside inflation jack-ups of rubber tube, and then makes second cavity inner space reduce, and interior pressure increase, the inside gas of second cavity this moment can get into the inner chamber of adjustable ring 33 through the air flue for adjustable ring 33 inflation grow, the bore reduction of air inlet 12, the gas volume through air inlet 12 this moment can reduce fast. When the rubber tube 3 needs to be installed, the rubber tube 3 is soft and is not easy to install, so that the inside of the rubber tube 3 is slidably connected with the support ring 36, and the rubber tube 3 can be installed quickly and conveniently. After the rubber tube 3 is installed, the support ring 36 is manually pulled out from the cavity of the rubber tube 3, and when the support ring is pulled out, the air bag 37 is extruded by the uniformly arranged salient points on the surface of the support ring 36, so that the air in the air bag 37 enters the first expansion cavity of the first expansion ring 34 through the air passage, and the volume of the first expansion ring 34 is expanded to be larger, and the expansion ring is clamped into the clamping groove 31. When the rubber tube 3 is damaged, the surface film of the rubber tube 3 is impacted by gas to generate vibration and continuously make sound. When the rubber tube 3 breakage appears, the gas can get into in the interior cavity 41 of second cavity to the gas can be with the outside inflation jack-up of outer loop 43, and then makes outer cavity 42 inner space reduce, and interior pressure increases, and the inside gas of outer cavity 42 can get into the inside second inflation intracavity of second inflation ring 35 through the air flue this moment, makes the inflation grow of second inflation ring 35, produces the extrusion fixed to the rubber tube 3 in the circular interface 32. After the intake pipe was connected to valve body 1 air inlet 12, sealing ring 14 can link up the gap on air inlet 12 and the intake pipe and seal, and the sealed chamber in the sealing ring 14 passes through the air flue intercommunication with interior cavity 41 simultaneously, and when using the gas relief pressure valve, atmospheric pressure increase in the interior cavity 41, and then the inside gas of interior cavity 41 can get into the sealed intracavity of sealing ring 14 through the pipeline for sealing ring 14 volume increase.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.