CN114412669B

CN114412669B - Gas inlet valve group of hydrogen generating set and control system

Info

Publication number: CN114412669B
Application number: CN202210119265.8A
Authority: CN
Inventors: 夏泉康; 夏晋安; 喻子威; 谢备; 沈沉
Original assignee: Camda New Energy Equipment Co ltd
Current assignee: Camda New Energy Equipment Co ltd
Priority date: 2022-02-08
Filing date: 2022-02-08
Publication date: 2023-02-03
Anticipated expiration: 2042-02-08
Also published as: CN114412669A

Abstract

The invention relates to the technical field of air inlet valve banks, in particular to an air inlet valve bank and a control system of a hydrogen generating set, which comprise a monitoring assembly, a main valve assembly, an auxiliary valve assembly and a pressure stabilizing assembly, wherein the monitoring assembly is connected with the main valve assembly, the auxiliary valve assembly and the pressure stabilizing assembly, the main valve assembly comprises a switch valve, an assembling pipe, a quick-closing valve and a pressure reducing valve, and the air inlet valve bank and the control system of the hydrogen generating set are characterized in that air is decompressed and then enters the main valve assembly, the quick-closing valve and the pressure reducing valve in sequence.

Description

Gas inlet valve group of hydrogen generating set and control system

Technical Field

The invention relates to the technical field of air inlet valve banks, in particular to an air inlet valve bank of a hydrogen generating set and a control system.

Background

As is well known, the gas inlet valve is a novel safety matching device for gas pipeline engineering; the gas valve is used for cutting off, connecting and adjusting gas in a pipeline, and has good control characteristics and closing sealing performance; it is suitable for various gas medium pipelines such as city gas, liquefied petroleum gas, natural gas and oxygen.

The existing intake valve group and control system are found in use, the existing intake valve group and control system do not have a buffering protection component, are damaged locally and are inconvenient to replace and disassemble, and are not protected by voltage stabilization, so that safety accidents are easy to occur, and the use limitation is high.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an air inlet valve group of a hydrogen generating set and a control system.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a hydrogen generating set inlet valve group and control system, includes monitoring subassembly, main valve subassembly, auxiliary valve subassembly and steady voltage subassembly, the monitoring subassembly with main valve subassembly, auxiliary valve subassembly and steady voltage subassembly are connected, main valve subassembly includes ooff valve, assembly pipe, fast valve and relief pressure valve, ooff valve, fast valve and relief pressure valve are arranged along material input to output direction in proper order, pass through between ooff valve, fast valve and the relief pressure valve the assembly pipe connects gradually, auxiliary valve subassembly pass through the shunt tubes with assembly pipe between ooff valve and the fast valve is connected, auxiliary valve subassembly includes active valve, auxiliary tank, buffer tube, piston, cylinder and assembly subassembly, be provided with on the shunt tubes the active valve, be provided with in the auxiliary tank and connect the cavity, be provided with a plurality of groups drive groove in the auxiliary tank, drive groove one end with connect the cavity and link up, be provided with in the drive groove cylinder, buffer tube, assembly subassembly and piston, the buffer tube lateral wall with drive groove lateral wall is connected, be provided with the buffer cavity on the auxiliary tank, the buffer cavity with connect the cavity, the piston with the buffer cavity phase-match, the cylinder one end with drive groove is kept away from all sides the drive groove connect the buffer tube subassembly and link up with the steady voltage piston subassembly and link up the assembly subassembly.

In order to facilitate the assembly of the air cylinder and the piston, the assembly component comprises a connecting pipe, a connecting seat, an installation seat, a driver, a driving gear, a driven gear, a positioning block and a pre-positioning component, the connecting pipe is arranged on the piston, the installation seat is connected with the air cylinder, the connecting seat is arranged on one side, away from the air cylinder, of the installation seat, a driving groove and a driven groove are formed in the connecting seat, one side of the driven gear is connected with the positioning block to form a locking block, the driver, the driving gear and the locking block are respectively arranged in the driving groove, the driving groove and the driven groove in the connecting seat, the output end of the driver is connected with the driving gear, the driving gear is meshed with the other side of the driven gear, a positioning groove is formed in the inner wall of the connecting pipe, the positioning block is matched with the positioning groove, a pre-positioning component is arranged on one side, away from the installation seat, of the connecting seat, and the pre-positioning component is matched with the piston.

Furthermore, in order to facilitate the assembly of the piston and the assembly component, the invention is improved in that the pre-positioning component comprises a limiting block, a first magnetic suction block and a second magnetic suction block, a guide groove is formed in the piston, the limiting block is matched with the guide groove, the connecting seat is provided with the first magnetic suction block, the piston is provided with the second magnetic suction block, the first magnetic suction block is matched with the second magnetic suction block, and the limiting block is arranged on the periphery of the first magnetic suction block.

The invention further provides buffer protection and voltage stabilization protection, and the improvement of the invention is that the voltage stabilization component comprises a return tank, a return pipe, a return pump and an output pipe, wherein the return pipe is connected with the lower wall of one side, close to the cylinder, of the buffer pipe, the other end of the return pipe is connected with the return tank, the return tank is provided with the return pump, and the return pump is connected with an assembly pipe between the switch valve and the quick-closing valve through the output pipe.

In order to provide heat dissipation protection conveniently, the auxiliary box is improved, a heat dissipation groove is formed in the auxiliary box, a heat dissipation assembly is arranged in the heat dissipation groove and comprises a support and heat dissipation fans, two ends of the support are connected with the side walls of the heat dissipation groove, and the heat dissipation fans are arranged on the support.

Furthermore, in order to provide dustproof protection conveniently, the invention is improved in that a dustproof net is arranged on the heat dissipation groove and is arranged above the heat dissipation assembly.

(III) advantageous effects

Compared with the prior art, the invention provides an air inlet valve group of a hydrogen generating set and a control system, which have the following beneficial effects:

this hydrogen generating set valve and control system that admits air, it is gaseous through the ooff valve in proper order, admit air after fast valve and the relief pressure valve decompression, when special cases appearing, monitoring subassembly control fast valve closes, and the master valve is opened, and gaseous connection cavity that gets into the auxiliary tank through the shunt tubes is close to on the piston and is connected cavity one side and be provided with pressure sensor, and pressure sensor coordinates with the cylinder, and the position of control piston in the cushion tube conveniently provides buffer protection.

This hydrogen generating set inlet valve group and control system, when pressure exceeded the threshold value, the cylinder drove the piston and removes to keeping away from the connection cavity department, link up until back flow, buffering cavity and connection cavity, further provide the pressure release protection through the flow-back box to supply operating personnel to close the ooff valve.

This hydrogen generating set valve and control system that admits air is provided with radiator unit on the auxiliary tank, and the heat dissipation fan on the support starts, conveniently provides the heat dissipation protection for equipment, prevents that equipment from damaging because of high temperature, and the dust screen prevents that other people from missing and bumping the heat dissipation fan when playing dirt-proofly simultaneously, through backwash pump and monitoring subassembly coordinated control, when the valves admits air once more, conveniently sends the gaseous piping of assembling into through the output tube of sending into of backflow box, provides the steady voltage protection.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a partially enlarged view of FIG. 1 according to the present invention;

FIG. 3 is a schematic front view of the structure of the present invention.

In the figure: 1. an on-off valve; 2. assembling a pipe; 3. quickly closing the valve; 4. a pressure reducing valve; 5. a shunt tube; 6. an active valve; 7. an auxiliary tank; 8. a buffer tube; 9. a piston; 10. a cylinder; 11. a support; 12. a connecting pipe; 13. a connecting seat; 14. a mounting seat; 15. a driver; 16. a driving gear; 17. a driven gear; 18. positioning blocks; 19. a limiting block; 20. a first magnetic attraction block; 21. a second magnetic attraction block; 22. a return tank; 23. a return pipe; 24. a reflux pump; 25. an output pipe; 26. a heat dissipation fan; 27. a dust screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, an air inlet valve set and a control system for a hydrogen generating set comprises a monitoring component, a main valve component, an auxiliary valve component and a pressure stabilizing component, wherein the monitoring component is connected with the main valve component, the auxiliary valve component and the pressure stabilizing component, the main valve component comprises a switch valve 1, an assembling pipe 2, a quick-closing valve 3 and a pressure reducing valve 4, the switch valve 1, the quick-closing valve 3 and the pressure reducing valve 4 are sequentially arranged along the material input and output direction, the switch valve 1, the quick-closing valve 3 and the pressure reducing valve 4 are sequentially connected through the assembling pipe 2, the auxiliary valve component is connected with the assembling pipe 2 between the switch valve 1 and the quick-closing valve 3 through a shunt pipe 5, the auxiliary valve component comprises an active valve 6, an auxiliary tank 7, a buffer pipe 8, a piston 9, a cylinder 10 and an assembling component, the active valve 6 is arranged on the shunt pipe 5, be provided with the connection cavity in the auxiliary box 7, be provided with a plurality of groups drive groove in the auxiliary box 7, drive groove one end with the connection cavity link up, be provided with in the drive groove cylinder 10, buffer tube 8, assembly components and piston 9, the buffer tube 8 lateral wall with the drive groove lateral wall is connected, be provided with the buffering cavity on the buffer tube 8, the buffering cavity with the connection cavity link up, piston 9 with the buffering cavity phase-match, cylinder 10 one end with the drive groove is kept away from connection cavity one side is connected, the cylinder 10 other end link up the buffering cavity and pass through the assembly components with piston 9 is connected, 7 week sides of auxiliary box are provided with the steady voltage subassembly, the steady voltage subassembly with buffer tube 8 is connected.

The assembly subassembly includes connecting pipe 12, connecting seat 13, mount pad 14, driver 15, driving gear 16, driven gear 17, locating piece 18 and pre-positioning spare, be provided with on the piston 9 connecting pipe 12, mount pad 14 with cylinder 10 is connected, mount pad 14 is kept away from cylinder 10 one side is provided with connecting seat 13, be provided with drive slot, initiative groove and driven groove in the connecting seat 13, driven gear 17 one side with locating piece 18 is connected and is constituted the piece that locks, be provided with respectively in drive slot, initiative groove and the driven groove in the connecting seat 13 driver 15, driving gear 16 and the piece that locks, driver 15 output with driving gear 16 connects, driving gear 16 with driven gear 17 opposite side meshing, connecting pipe 12 inner wall is provided with the constant head tank, locating piece 18 with the constant head tank phase-match, connecting seat 13 is kept away from mount pad 14 one side is provided with pre-positioning subassembly, pre-positioning subassembly with piston 9 phase-match, for the convenience cylinder 10 assembles with piston 9.

The pre-positioning assembly comprises a limiting block 19, a first magnetic suction block 20 and a second magnetic suction block 21, a guide groove is formed in the piston 9, the limiting block 19 is matched with the guide groove, the connecting seat 13 is provided with the first magnetic suction block 20, the piston 9 is provided with the second magnetic suction block 21, the first magnetic suction block 20 is matched with the second magnetic suction block 21, the limiting block 19 is arranged on the first magnetic suction block 20, and further, the piston 9 and the assembly are convenient to assemble.

The voltage stabilizing component comprises a return tank 22, a return pipe 23, a return pump 24 and an output pipe 25, the return pipe 23 is close to the buffer pipe 8, the lower wall of one side of the cylinder 10 is connected, the other end of the return pipe 23 is connected with the return tank 22, the return tank 22 is provided with the return pump 24, the return pump 24 is connected with the assembly pipe 2 between the switch valve 1 and the quick-closing valve 3 through the output pipe 25, and further, the voltage stabilizing protection is provided while the buffer protection is provided.

Be provided with the radiating groove on the auxiliary tank 7, be provided with radiator unit in the radiating groove, radiator unit includes support 11 and heat dissipation fan 26, support 11 both ends with the radiating groove lateral wall is connected, be provided with on the support 11 heat dissipation fan 26, for the convenience provides the heat dissipation protection.

Be provided with dust screen 27 on the radiating groove, dust screen 27 sets up the radiator unit top, and is further, in order to provide dustproof protection for the convenience.

In summary, in the air inlet valve set and the control system of the hydrogen generator set, when in use, air enters after being decompressed through the switch valve 1, the quick-closing valve 3 and the pressure reducing valve 4 in sequence, when special conditions occur, the monitoring component controls the quick-closing valve 3 to be closed, the active valve 6 is opened, the air enters the connecting cavity of the auxiliary box 7 through the shunt pipe 5, a pressure sensor is arranged on one side, close to the connecting cavity, of the piston 9, the pressure sensor is in coordination with the cylinder 10, the position of the piston 9 in the buffer pipe 8 is controlled, buffer protection is conveniently provided, when the pressure exceeds a threshold value, the cylinder 10 drives the piston 9 to move to a position far away from the connecting cavity until the return pipe 23, the buffer cavity and the connecting cavity are communicated, pressure relief protection is further provided through the return box 22, so that an operator can close the switch valve 1, the heat dissipation component is arranged on the auxiliary box 7, the heat dissipation fan 26 on the support 11 is started, heat dissipation protection is conveniently provided for equipment, the equipment is prevented from being damaged due to high temperature, meanwhile, the dust is prevented from mistakenly touching the heat dissipation fan 26 while dust is prevented, the return pump 24 is coordinately controlled with the air inlet valve set and the monitoring component, when the air is convenient for sending the gas in the return box 22 again, and the pressure stabilizing pipe 2 is sent into the pressure output pipe 2.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a hydrogen generating set valve and control system that admits air, includes monitoring subassembly, main valve subassembly, auxiliary valve subassembly and steady voltage subassembly, its characterized in that: the monitoring assembly is connected with the main valve assembly, the auxiliary valve assembly and the pressure stabilizing assembly, the main valve assembly comprises a switch valve (1), an assembly pipe (2), a quick-closing valve (3) and a pressure reducing valve (4), the switch valve (1), the quick-closing valve (3) and the pressure reducing valve (4) are sequentially arranged along the material input direction to the output direction, the switch valve (1), the quick-closing valve (3) and the pressure reducing valve (4) are sequentially connected through the assembly pipe (2), the auxiliary valve assembly is connected with the assembly pipe (2) between the switch valve (1) and the quick-closing valve (3) through a shunt pipe (5), the auxiliary valve assembly comprises a driving valve (6), an auxiliary box (7), a buffer pipe (8), a piston (9), a cylinder (10) and the assembly, the driving valve (6) is arranged on the shunt pipe (5), a connecting cavity is arranged in the auxiliary box (7), a plurality of driving grooves are arranged in the auxiliary box (7), one end of the driving groove is connected with the connecting cavity, the cylinder (10), the through assembly valve (8), the assembly valve (9) and the buffer pipe (9) are arranged in the buffer groove (8), a side wall is connected with the buffer pipe (8), and a buffer groove wall (9) is arranged on the buffer groove wall, cylinder (10) one end with the drive groove is kept away from connect cavity one side and is connected, cylinder (10) other end link up the buffering cavity and pass through the assembly subassembly with piston (9) are connected, auxiliary box (7) week side is provided with the steady voltage subassembly, the steady voltage subassembly with buffer tube (8) are connected.

2. The intake valve group and control system of a hydrogen generator set according to claim 1, wherein: the assembly subassembly includes connecting pipe (12), connecting seat (13), mount pad (14), driver (15), driving gear (16), driven gear (17), locating piece (18) and prepositioning piece, be provided with on piston (9) connecting pipe (12), mount pad (14) with cylinder (10) are connected, mount pad (14) are kept away from cylinder (10) one side is provided with connecting seat (13), be provided with drive groove, initiative groove and follower slot in connecting seat (13), driven gear (17) one side with locating piece (18) are connected and are constituted the dead block of lock, be provided with respectively in drive groove, initiative groove and the follower slot in connecting seat (13) driver (15), driving gear (16) and the dead block of lock, driver (15) output with driving gear (16) are connected, driving gear (16) with driven gear (17) opposite side meshing, connecting pipe (12) inner wall is provided with the constant head tank, locating piece (18) with the constant head tank phase-match, connecting seat (13) are kept away from mounting seat (14) one side is provided with prepositioning piece, the prepositioning piece subassembly with piston (9) phase-match.

3. The intake valve group and control system of a hydrogen generator set according to claim 2, wherein: the pre-positioning assembly comprises a limiting block (19), a first magnetic suction block (20) and a second magnetic suction block (21), a guide groove is formed in the piston (9), the limiting block (19) is matched with the guide groove, the first magnetic suction block (20) is arranged on the connecting seat (13), the second magnetic suction block (21) is arranged on the piston (9), the first magnetic suction block (20) is matched with the second magnetic suction block (21), and the limiting block (19) is arranged on the peripheral side of the first magnetic suction block (20).

4. The intake valve group and control system of a hydrogen generator set according to claim 3, wherein: the steady voltage subassembly includes flow-back box (22), back flow (23), backwash pump (24) and output tube (25), back flow (23) with buffer tube (8) are close to cylinder (10) one side lower wall is connected, back flow (23) other end with flow-back box (22) are connected, be provided with on flow-back box (22) backwash pump (24), backwash pump (24) pass through output tube (25) with assembly pipe (2) between ooff valve (1) and the fast valve (3) are connected.

5. The intake valve group and control system of a hydrogen generator set according to claim 4, wherein: be provided with the radiating groove on auxiliary tank (7), be provided with radiator unit in the radiating groove, radiator unit includes support (11) and heat dissipation fan (26), support (11) both ends with the radiating groove lateral wall is connected, be provided with on support (11) heat dissipation fan (26).

6. The intake valve group and control system of a hydrogen generator set according to claim 5, wherein: the heat dissipation assembly is characterized in that a dust screen (27) is arranged on the heat dissipation groove, and the dust screen (27) is arranged above the heat dissipation assembly.