阅读说明：本技术 灭火器阀门结构 (Fire extinguisher valve structure ) 是由 田超 于 2021-08-18 设计创作，主要内容包括：本发明公开了灭火器阀门结构,包括阀座、阀芯、弹簧、固定臂以及转动臂,阀座上设置有喷射通道,阀座上活动设置有穿入喷射通道的阀芯,弹簧推动阀芯封堵喷射通道,阀芯顶部位于转动臂下方,转动臂转动设置于阀座上,固定臂与阀座固定连接,阀座上设置有底部开口的活塞套,活塞套内活动设置有活塞,活塞连接有连杆,连杆从活塞套顶部穿出并穿过转动臂上的腰孔,位于转动臂两侧的连杆上设置有限位块,活塞套底部的开口上设置有可拆卸的堵头。这种灭火器阀门结构对防误喷结构进行改进,防误喷结构不易失效,在搬运过程中可有效防止勿喷。(The invention discloses a fire extinguisher valve structure, which comprises a valve seat, a valve core, a spring, a fixed arm and a rotating arm, wherein a spraying channel is arranged on the valve seat, the valve core penetrating into the spraying channel is movably arranged on the valve seat, the spring pushes the valve core to block the spraying channel, the top of the valve core is positioned below the rotating arm, the rotating arm is rotatably arranged on the valve seat, the fixed arm is fixedly connected with the valve seat, a piston sleeve with an opening at the bottom is arranged on the valve seat, a piston is movably arranged in the piston sleeve, the piston is connected with a connecting rod, the connecting rod penetrates out of the top of the piston sleeve and penetrates through a waist hole in the rotating arm, limiting blocks are arranged on the connecting rods positioned at two sides of the rotating arm, and a detachable plug is arranged on an opening at the bottom of the piston sleeve. This kind of fire extinguisher valve structure improves the structure of preventing spouting by mistake, prevents that mistake spouts the difficult inefficacy of structure, can effectively prevent not spouting in handling.)

1. Fire extinguisher valve structure, including disk seat (1), case (2), spring (3), fixed arm (4) and rotor arm (5), be provided with injection passageway (11) on disk seat (1), the activity is provided with on disk seat (1) and penetrates case (2) of injection passageway (11), spring (3) promote case (2) shutoff injection passageway (11), case (2) top is located rotor arm (5) below, rotor arm (5) rotate set up in on disk seat (1), fixed arm (4) with disk seat (1) fixed connection, its characterized in that: be provided with bottom open-ended piston cover (12) on disk seat (1), piston cover (12) internalization is provided with piston (13), piston (13) are connected with connecting rod (14), connecting rod (14) are followed piston cover (12) top is worn out and is passed waist hole (51) on rotor arm (5) are located rotor arm (5) both sides be provided with stopper (141) on connecting rod (14), be provided with detachable end cap (8) on the opening of piston cover (12) bottom.

2. A fire extinguisher valve structure as claimed in claim 1, wherein: a cavity defined by the piston (13) and the top of the piston sleeve (12) is connected with a first channel (15) and a second channel (16), a compressed gas bottle (9) is arranged on the valve seat (1), the first channel (15) is connected with the compressed gas bottle (9), the second channel (16) is communicated with the atmosphere, and a first valve core part (61) and a second valve core part (62) for controlling on-off are respectively arranged on the first channel (15) and the second channel (16).

3. A fire extinguisher valve structure as claimed in claim 2, wherein: the first valve core part (61) and the second valve core part (62) are rotatably arranged in the valve seat (1), valve channels (63) are axially arranged on the first valve core part (61) and the second valve core part (62), and the first valve core part (61) and the second valve core part (62) rotate to enable the valve channels (63) to be communicated or cut off from channels on two sides.

4. A fire extinguisher valve structure as claimed in claim 3, wherein: the valve seat (1) is provided with a cylindrical valve chamber (17) communicated with the first channel (15) and the second channel (16), a cylindrical valve core (6) is rotatably arranged in the cylindrical valve chamber (17), the cylindrical valve core (6) is provided with the first valve core part (61) and the second valve core part (62), and at most one of the first channel (15) and the second channel (16) is communicated when the cylindrical valve core (6) is at any angle.

5. The fire extinguisher valve structure of claim 4, wherein: and a rotating handle (64) is arranged at one end of the columnar valve core (6) extending out of the valve seat (1).

6. A fire extinguisher valve structure as claimed in claim 2, wherein: the valve seat (1) is provided with a gas cylinder connecting port (19) communicated with the first channel (15), the gas cylinder connecting port (19) is in threaded connection with the opening of the compressed gas cylinder (9), a sealing cover (91) is arranged on the opening of the compressed gas cylinder (9), and a push rod (10) used for puncturing the sealing cover (91) is arranged on the gas cylinder connecting port (19).

7. A fire extinguisher valve structure as claimed in claim 2, wherein: a sharp head (101) is arranged at one end of the ejector rod (10) facing the opening side of the gas cylinder connecting port (19), and the cross section of the ejector rod (10) is non-circular.

8. A fire extinguisher valve structure as claimed in claim 2, wherein: a one-way valve (7) which can only flow towards the interior of the piston sleeve (12) in one way is arranged in the first channel (15).

9. A fire extinguisher valve structure as claimed in claim 2, wherein: a limiting ring (18) is arranged in the piston sleeve (12), and the limiting ring (18) limits the piston (13) to be positioned below the openings of the first channel (15) and the second channel (16).

10. A fire extinguisher valve structure as claimed in claim 1, wherein: the plug (8) is in threaded connection with an opening at the bottom of the piston sleeve (12).

Technical Field

The invention belongs to the technical field of fire extinguisher valves, and particularly relates to a fire extinguisher valve structure.

Background

The fire extinguisher is a portable fire extinguishing tool, chemical articles are placed in the fire extinguisher to extinguish fire, the fire extinguisher is one of common fire-proof facilities, the fire extinguisher is stored in public places or places where fire may happen, the components filled in different kinds of fire extinguishers are different and are specially designed for different fires, and attention must be paid to avoid adverse effects and danger during use.

The existing fire extinguisher is generally provided with a safety pin, the safety pin is generally inserted between a fixed arm and a rotating arm to limit the rotation of the rotating arm, but the safety pin is easily pulled out by mistake or falls off due to gravity in the carrying process, and the safety pin falls off by mistake when the fire extinguisher is produced and transported to easily generate mistaken spraying.

Disclosure of Invention

The invention provides a fire extinguisher valve structure aiming at the defects of the prior art, which improves an anti-misspray structure, the anti-misspray structure is not easy to lose effectiveness, and the fire extinguisher valve structure can effectively prevent no-spraying in the carrying process.

In order to solve the technical problem, the invention is solved by the following technical scheme: fire extinguisher valve structure, including disk seat, case, spring, fixed arm and rotor arm, be provided with the injection passageway on the disk seat, the activity is provided with on the disk seat and penetrates the case of injection passageway, the spring promotes the case shutoff sprays the passageway, the case top is located the rotor arm below, the rotor arm rotate set up in on the disk seat, the fixed arm with disk seat fixed connection, be provided with bottom open-ended piston bush on the disk seat, the activity is provided with the piston in the piston bush, the piston is connected with the connecting rod, the connecting rod is followed piston bush top is worn out and is passed waist hole on the rotor arm is located the rotor arm both sides be provided with the stopper on the connecting rod, be provided with the detachable end cap on the opening of piston bush bottom. This kind of fire extinguisher valve structure plugs up the opening of piston sleeve bottom through the end cap, can no longer use traditional safety pin, can plug up the opening of piston sleeve bottom by the end cap, when the opening of piston sleeve bottom is plugged up, even the mistake is held the rotor arm and also can not make the relative fixed arm of rotor arm rotate, a guard action is used for playing, difficult production mistake is spouted in production and handling, this kind of fire extinguisher valve structure improves the structure of spouting by the mistake, prevent that the mistake spouts the difficult inefficacy of structure, can effectively prevent not spouting in the handling.

In the above technical solution, preferably, a cavity enclosed by the piston and the top of the piston sleeve is connected with a first channel and a second channel, the valve seat is provided with a compressed gas cylinder, the first channel is connected with the compressed gas cylinder, the second channel is communicated with the atmosphere, and the first channel and the second channel are respectively provided with a first valve core part and a second valve core part for controlling on-off. When the existing fire extinguisher valve is used, a large holding force is needed, so that old people and children have certain obstruction when using the fire extinguisher, and even if the fire extinguisher valve can be normally used, the body of a user can be tired due to long-time pressing use; after the use is finished, the first channel is controlled to be disconnected by the first valve core part, and then the second channel is controlled to be communicated by the second valve core part, so that gas in a cavity surrounded by the piston and the top of the piston sleeve can be discharged, the valve core and the rotating arm are pushed to reset under the action of the spring, the injection can be automatically stopped, after the gas cylinder is used for a period of time, the pressure in the gas cylinder is possibly not enough to push the piston to move downwards and the compression spring is compressed to realize automatic injection, at the moment, the injection can be started by holding the rotating arm to rotate under the state that the first channel is disconnected and the second channel is communicated. The valve structure of the fire extinguisher can be used for handheld injection and automatic injection, large grip strength is not needed during automatic injection, physical strength can be saved, and old people and children with small grip strength can easily inject.

In the above technical solution, preferably, the first valve core portion and the second valve core portion are rotatably disposed in the valve seat, the first valve core portion and the second valve core portion are both axially provided with a valve passage, and the first valve core portion and the second valve core portion rotate to enable the valve passage to communicate with or disconnect from passages on two sides. With this structure, the passages on both sides can be communicated or disconnected by the rotation of the first valve core portion and the second valve core portion.

In the above technical solution, preferably, a cylindrical valve chamber communicating the first channel and the second channel is provided on the valve seat, a cylindrical valve core is rotatably provided in the cylindrical valve chamber, the cylindrical valve core is provided with the first valve core portion and the second valve core portion, and at most one of the first channel and the second channel is communicated when the cylindrical valve core is at any angle. By adopting the structure, the operation is more convenient, the first valve core part and the second valve core part can be operated simultaneously only by rotating the cylindrical valve core, and the misoperation that the first channel and the second channel are communicated can not occur.

In the above technical solution, preferably, a rotating handle is arranged at one end of the columnar valve core extending out of the valve seat. By adopting the structure, the columnar valve core can be conveniently rotated through the rotating handle.

In the above technical scheme, preferably, the valve seat is provided with a gas cylinder connecting port communicated with the first channel, the gas cylinder connecting port is in threaded connection with a mouth of the compressed gas cylinder, a sealing cover is arranged on the mouth of the compressed gas cylinder, and a push rod for puncturing the sealing cover is arranged on the gas cylinder connecting port. Adopt this structure to make compressed gas cylinder change that can be convenient, the atmospheric pressure in the compressed gas cylinder can reduce after using, and the accessible is changed compressed gas cylinder and is guaranteed that the atmospheric pressure in the compressed gas cylinder can promote the piston and move down and compression spring realizes automatic injection after repetitious usage.

In the above technical scheme, preferably, a tip is arranged at one end of the ejector rod facing the opening side of the gas cylinder connecting port, and the cross section of the ejector rod is non-circular. By adopting the structure, after the sealing cover is punctured by the ejector rod, a sufficient air outlet gap is formed between the ejector rod and the sealing cover.

In the above technical solution, preferably, a check valve is disposed in the first passage and can flow only in one direction toward the piston sleeve. Adopt this structure to make after starting automatic injection, compressed gas cylinder can take off and alleviate the whole weight of fire extinguisher and reduce the whole volume of fire extinguisher, and the effect of check valve can prevent that the gas in the cavity that the piston encloses to the piston sleeve top from the reverse discharge of first passageway.

In the above technical solution, preferably, a limit ring is disposed in the piston sleeve, and the limit ring limits the piston to be located below the openings of the first channel and the second channel. By adopting the structure, the piston is always positioned below the openings of the first channel and the second channel, so that the gas in the compressed gas cylinder is prevented from being directly sprayed away from the opening at the bottom of the piston sleeve to influence normal use.

In the above technical scheme, preferably, the plug is in threaded connection with the opening at the bottom of the piston sleeve. By adopting the structure, the plug is more firmly fixed and is convenient to disassemble and assemble.

Compared with the prior art, the invention has the following beneficial effects: this kind of fire extinguisher valve structure plugs up the opening of piston sleeve bottom through the end cap, can no longer use traditional safety pin, can plug up the opening of piston sleeve bottom by the end cap, when the opening of piston sleeve bottom is plugged up, even the mistake is held the rotor arm and also can not make the relative fixed arm of rotor arm rotate, a guard action is used for playing, difficult production mistake is spouted in production and handling, this kind of fire extinguisher valve structure improves the structure of spouting by the mistake, prevent that the mistake spouts the difficult inefficacy of structure, can effectively prevent not spouting in the handling.

Drawings

Fig. 1 is a schematic cross-sectional structure diagram of an embodiment of the present invention.

Fig. 2 is a schematic sectional view taken along the line a-a in fig. 1.

Fig. 3 is a schematic sectional structure diagram of the automatic injection according to the embodiment of the present invention.

Fig. 4 is a schematic sectional view along the direction B-B in fig. 3.

Detailed Description

The invention is described in further detail below with reference to the following detailed description and accompanying drawings: referring to fig. 1 to 4, the fire extinguisher valve structure includes a valve seat 1, a valve core 2, a spring 3, a fixed arm 4 and a rotating arm 5, wherein an injection channel 11 is arranged on the valve seat 1, the valve core 2 penetrating the injection channel 11 is movably arranged on the valve seat 1, the spring 3 pushes the valve core 2 to block the injection channel 11, the top of the valve core 2 is positioned below the rotating arm 5, the rotating arm 5 is rotatably arranged on the valve seat 1, the fixed arm 4 is fixedly connected with the valve seat 1, a piston sleeve 12 with an opening at the bottom is arranged on the valve seat 1, a piston 13 is movably arranged in the piston sleeve 12, the piston 13 is connected with a connecting rod 14, the connecting rod 14 penetrates out of the top of the piston sleeve 12 and penetrates through a waist hole 51 on the rotating arm 5, limit blocks 141 are arranged on the connecting rod 14 at two sides of the rotating arm 5, and a detachable plug 8 is arranged on the opening at the bottom of the piston sleeve 12. This kind of fire extinguisher valve structure plugs up the opening of piston cover 12 bottom through end cap 8, can no longer use traditional safety pin, can plug up the opening of piston cover 12 bottom by end cap 8, when the opening of piston cover 12 bottom is plugged up, even the mistake is held rotor arm 5 and can not make rotor arm 5 rotate relative fixed arm 4 yet, be used for playing the effect of insurance, difficult production mistake is spouted in production and handling, this kind of fire extinguisher valve structure improves the structure of preventing spouting, prevent mistake and spout the difficult inefficacy of structure, can effectively prevent not spouting in the handling.

The valve of the existing fire extinguisher needs larger holding power when in use, which causes a certain obstruction to the old and the children when in use, and even if the valve can be normally used, the body of the user can be tired even if the valve is pressed for a long time, in the embodiment, a cavity enclosed by the top of the piston 13 to the top of the piston sleeve 12 is connected with a first channel 15 and a second channel 16, a compressed gas cylinder 9 is arranged on the valve seat 1, the first channel 15 is connected with the compressed gas cylinder 9, the second channel 16 is communicated with the atmosphere, and a first valve core part 61 and a second valve core part 62 for controlling the on-off are respectively arranged on the first channel 15 and the second channel 16. The cavity enclosed by the piston 13 and the top of the piston sleeve 12 of the fire extinguisher valve structure can be communicated with the compressed gas cylinder 9 through the first channel 15, the cavity enclosed by the piston 13 and the top of the piston sleeve 12 can be communicated with the external atmosphere through the second channel 16, when the fire extinguisher valve structure is used, the second channel 16 is controlled to be disconnected through the second valve core part 62, the first channel 15 is controlled to be communicated through the first valve core part 61, the piston 13 can move downwards through the gas pressure of the compressed gas cylinder 9, the connecting rod 14 on the piston 13 pulls the rotating arm 5 to descend, and therefore the valve core 2 is pressed downwards, and the fire extinguisher can be automatically sprayed; after the use is finished, the first channel 15 is controlled to be disconnected by the first valve core part 61, and then the second channel 16 is controlled to be communicated by the second valve core part 62, so that gas in a cavity surrounded by the piston 13 and the top of the piston sleeve 12 can be discharged, the valve core 2 and the rotating arm 5 are pushed to reset under the action of the spring 3, the injection can be automatically stopped, the pressure in the compressed gas cylinder can not be enough to push the piston 13 to move downwards and compress the spring 3 to realize the automatic injection after the use for a period of time, and at the moment, under the state that the first channel 15 is disconnected and the second channel 16 is communicated, the rotating arm 5 can be rotated by holding a hand to start the injection. The valve structure of the fire extinguisher can be used for handheld injection and automatic injection, large grip strength is not needed during automatic injection, physical strength can be saved, and old people and children with small grip strength can easily inject.

In this embodiment, the first spool portion 61 and the second spool portion 62 are rotatably disposed in the valve seat 1, the valve passages 63 are axially disposed on both the first spool portion 61 and the second spool portion 62, and the first spool portion 61 and the second spool portion 62 are rotated to connect or disconnect the passages on both sides of the valve passages 63. With this structure, the first valve core portion 61 and the second valve core portion 62 can rotate to connect or disconnect the channels on the two sides, and of course, in other embodiments, valve core portions with other structures may be adopted, as long as on-off control of the first channel 15 and the second channel 16 can be achieved, and the first valve core portion 61 and the second valve core portion 62 may be an integral valve core or may be two separate valve cores.

In this embodiment, a cylindrical valve chamber 17 communicating the first passage 15 and the second passage 16 is provided on the valve seat 1, a cylindrical valve core 6 is rotatably provided in the cylindrical valve chamber 17, a first valve core part 61 and a second valve core part 62 are provided on the cylindrical valve core 6, and at most one of the first passage 15 and the second passage 16 is communicated when the cylindrical valve core 6 is at any angle. By controlling the aperture of the valve channel 63, it can be ensured that at any angle, the first channel 15 and the second channel 16 are communicated with each other at most, and in the present embodiment, the two valve channels 63 on the first valve core part 61 and the second valve core part 62 are perpendicular to each other. With this structure, the operation is made more convenient, the first spool portion 61 and the second spool portion 62 can be operated simultaneously as long as the cylindrical spool 6 is rotated, and there is no malfunction in which both the first passage 15 and the second passage 16 are communicated.

In this embodiment, a rotating handle 64 is arranged at one end of the columnar valve core 6 extending out of the valve seat 1. By adopting the structure, the columnar valve core 6 can be conveniently rotated through the rotating handle 64, and the marking characters or marks for automatically spraying the opening and closing positions are required to be made on the rotating handle 64 and the valve seat 1 around the rotating handle 64.

In order to improve the sealing performance, the cylindrical valve core 6 is provided with a plurality of first sealing rings 65, in this embodiment, three first sealing rings 65 are provided on the cylindrical valve core 6, and two second sealing rings 142 are provided between the connecting rod 14 and the hole wall of the top of the piston sleeve 12 through which the connecting rod passes.

In this embodiment, a gas cylinder connection port 19 communicated with the first channel 15 is disposed on the valve seat 1, the gas cylinder connection port 19 is in threaded connection with a cylinder opening of the compressed gas cylinder 9, a sealing cover 91 is disposed on the cylinder opening of the compressed gas cylinder 9, and a push rod 10 for puncturing the sealing cover 91 is disposed on the gas cylinder connection port 19. Adopt this structure to make compressed gas bottle 9 convenient change, the atmospheric pressure in compressed gas bottle 9 can reduce after using, accessible change compressed gas bottle 9 after repetitious usage guarantees that the atmospheric pressure in compressed gas bottle 9 can promote piston 13 and move down and compression spring 3 realizes automatic the injection.

In this embodiment, a tip 101 is provided at an end of the ejector rod 10 facing the opening side of the gas cylinder connection port 19, and the cross section of the ejector rod 10 is non-circular. With this structure, it is ensured that there is a sufficient air-out gap between the stem bar and the cap 91 after the stem bar 10 punctures the cap 91.

In this embodiment, a one-way valve 7 is arranged in the first channel 15, which allows only one-way flow into the piston sleeve 12. By adopting the structure, after the automatic injection is started, the compressed gas cylinder 9 can be taken down to lighten the whole weight of the fire extinguisher and reduce the whole volume of the fire extinguisher, and the function of the check valve 7 can prevent the gas in the cavity enclosed by the piston 13 to the top of the piston sleeve 12 from being reversely discharged from the first channel 15.

In this embodiment, a stop ring 18 is provided in the piston sleeve 12, and the stop ring 18 stops the piston 13 below the openings of the first passage 15 and the second passage 16. With this structure, the piston 13 is always positioned below the openings of the first passage 15 and the second passage 16, so that the gas in the compressed gas cylinder 9 is prevented from being directly ejected from the opening at the bottom of the piston sleeve 12 to affect normal use.

In this embodiment, the plug 8 is threadedly connected to the opening at the bottom of the piston sleeve 12. By adopting the structure, the plug 8 is more firmly fixed and is convenient to disassemble and assemble.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that it is obvious to those skilled in the art that various modifications and improvements can be made without departing from the principle of the present invention, and these modifications and improvements should also be considered as the protection scope of the present invention.