CN214318949U - Fire extinguishing device - Google Patents

Abstract

The utility model relates to a fire extinguishing device, which comprises a fire extinguishing mechanism, a fire extinguishing mechanism and a fire extinguishing agent, wherein the fire extinguishing agent is arranged in a first container; a drive assembly mounted within the first container and comprising a mount and a solid propellant; the mounting member is assembled in the first container, and the solid propellant is fixed in the mounting member, and the solid propellant is triggered to push the fire extinguishing agent to spout the first container. The solid propellant does not have large driving pressure when not triggered, so that safety accidents such as explosion and the like caused by high pressure of the solid propellant are avoided, and the solid propellant which is not triggered is safer to store. And when the solid propellant is not triggered, the solid propellant does not have a high-pressure driving force, the problem of pressure relief is avoided, the process of packaging high-pressure gas is not needed, and the assembly of the solid propellant is simpler. Meanwhile, the second container is positioned inside the first container, the overall structure of the fire extinguishing device is more compact, and the required installation space is smaller.

Description

Fire extinguishing device

Technical Field

The utility model relates to a technical field that puts out a fire especially relates to extinguishing device.

Background

The fire extinguishing device is a necessary device in an important place, and the fire extinguishing agent is stored in the fire extinguishing device, so that the fire extinguishing device can be opened to extinguish fire when a fire disaster happens. Generally, the containing cavity of the fire extinguisher stores fire extinguishing agent and high-pressure gas, and the fire extinguishing agent is pushed by the high-pressure gas to be sprayed out of the fire extinguisher when a valve of the fire extinguisher is opened. However, the process of packaging high-pressure gas inside the fire extinguisher is complicated, and the risk of pressure relief and explosion caused by the high-pressure gas stored in the fire extinguisher is high. Therefore, the high-pressure gas stored in the fire extinguisher has potential safety hazards, and the operation of the inflation process is complicated.

SUMMERY OF THE UTILITY MODEL

Accordingly, there is a need for a fire extinguishing apparatus that improves the safety of the fire extinguishing apparatus and simplifies the assembly process.

A fire suppression apparatus, comprising:

the fire extinguishing mechanism comprises a first container and a fire extinguishing agent, the fire extinguishing agent is arranged in the first container, and the spraying assembly is communicated with the interior of the first container;

a drive assembly mounted within the first container and comprising a mount and a solid propellant;

wherein the mounting member is mounted to the first container, the solid propellant is secured to the mounting member, and the solid propellant is triggered to propel the fire suppressant out of the first container.

In the fire extinguishing device, the second container is used for containing the solid driving agent, and the solid driving agent can have driving pressure for pushing the fire extinguishing agent to be sprayed when being triggered, so that the fire extinguishing agent is sprayed out of the first container to extinguish fire. Meanwhile, the solid propellant does not have large driving pressure when not triggered, so that safety accidents such as explosion and the like caused by high pressure of the solid propellant are avoided, and the solid propellant which is not triggered is stored safely. And when the solid propellant is not triggered, the solid propellant does not have a high-pressure driving force, the problem of pressure relief is avoided, the process of packaging high-pressure gas is not needed, and the assembly of the solid propellant is simpler. Therefore, the fire extinguishing device has high safety performance, and the assembly process of the solid driving agent is simple. Meanwhile, the second container is positioned inside the first container, the overall structure of the fire extinguishing device is more compact, and the required installation space is smaller.

In one embodiment, the solid propellant comprises an aerosol.

In one embodiment, the solid propellant has a quiescent state when not activated and a driving flow state when activated, and the pressure of the solid propellant in the driving flow state is greater than the pressure of the fire suppressant.

In one embodiment, the mounting member is a second container, the solid propellant is contained in the second container, and the second container is provided with a through hole for communicating the second container with the first container.

In one embodiment, the first container includes a first container body and a first cover, the fire suppressant is received in the first container body, the first cover seals the first container body, and the second container is coupled to the first cover and extends into the first container body.

In one embodiment, the device further comprises a trigger member, wherein the trigger member is assembled on the first cover body and extends into the second container to controllably trigger the solid propellant in the second container.

In one embodiment, the trigger includes a controller and an ignition head electrically connected to the controller, the ignition head being in contact with the solid propellant and triggering the solid propellant under the control of the controller.

In one embodiment, the ignition device comprises a sensor for sensing a fire, and the controller controls the ignition head to trigger the solid propellant when the sensor senses a fire source.

In one embodiment, the solid propellant ignition device comprises an emergency start key, and the controller controls the ignition head to trigger the solid propellant when the emergency start key is turned on.

In one embodiment, the device further comprises a hair spray assembly, wherein the hair spray assembly is assembled on the first container and is communicated with the interior of the first container; the solid propellant enters the first container when triggered and pushes the fire suppressant out of the first container through the burst assembly.

In one embodiment, the hair spray assembly includes a first spout and a spray head, one end of the first spout extends into the first container, and the other end of the first spout extends out of the first container and is coupled to the spray head.

In one embodiment, the fire assembly comprises a second spray pipe and a fire probe pipe, wherein one end of the second spray pipe extends into the first container, and the other end of the second spray pipe extends out of the first container and is matched with the fire probe pipe; the fire-detecting pipe has a closed state at normal temperature and a softened state after being heated, and the fire extinguishing agent pushed into the spraying assembly can flush out of the fire-detecting pipe in the softened state.

Drawings

Fig. 1 is a schematic structural view of a fire extinguishing apparatus according to an embodiment of the present invention.

100. A fire extinguishing device; 10. a fire extinguishing mechanism; 12. a first container; 121. a first container body; 123 a first cover body; 14. a fire extinguishing agent; 16. a hair spray assembly; 161. a first nozzle; 163. a spray head; 165. a one-way valve; 30. a drive assembly; 32. a second container; 33. a through hole; 34. a solid propellant; 50. an emergency start key.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, in an embodiment of the present invention, a fire extinguishing apparatus 100 is provided, which includes a fire extinguishing mechanism 10 and a driving assembly 30, the fire extinguishing mechanism 10 includes a first container 12 and a fire extinguishing agent 14, the fire extinguishing agent 14 is disposed in the first container 12, and the fire extinguishing agent 14 can be sprayed to the outside under the action of the driving assembly 30 to extinguish a fire.

Alternatively, the solid propellant 34 is a solid piece that can generate pressure when triggered, such as an aerosol or black powder; the fire suppressant 14 is a liquid or gaseous fire suppressant and may be flowed to spray out of the first container 12, such as perfluorohexanone, under the push of the solid propellant 34 triggered.

The propellant assembly 30 is mounted within the first container 12 and includes a mounting member mounted to the first container 12 and a solid propellant 34 secured to the mounting member, the solid propellant 34 propelling the fire suppressant 14 out of the first container 12 when activated. That is, the solid propellant 34 is fixed in the first container 12 by the mounting member, and the solid propellant 34 can have a driving pressure to push the fire extinguishing agent 14 to be sprayed when being triggered, so that the fire extinguishing agent 14 is sprayed out of the first container 12 to extinguish the fire. Meanwhile, the solid propellant 34 does not have a large driving pressure when not triggered, so that safety accidents such as explosion and the like caused by high pressure of the solid propellant 34 are avoided, and the storage of the solid propellant 34 which is not triggered is safer. Further, when the solid propellant 34 is not triggered, there is no high-pressure driving force, there is no problem of pressure release, and a process of encapsulating high-pressure gas is not required, so that the assembly of the fire extinguishing apparatus 100 is simple. Thus, the fire extinguishing apparatus 100 has high safety performance, and the assembly process of the solid propellant 34 is simple.

Specifically, the solid propellant 34 has a quiescent state when not activated and a driving flow state when activated, with the pressure of the solid propellant 34 in the driving flow state being greater than the pressure of the fire suppressant 14. Under normal conditions, the solid propellant 34 is contained in the second container 32 in a static state, which is relatively stable and has no potential safety hazard. In the event of a fire, the solid propellant 34 is triggered to a propellant flow state and is pressurized to force the fire suppressant 14 out of the first container 12 after entering the first container 12, causing the fire suppressant 14 to be sprayed out to extinguish the fire.

Solid propellant the solid propellant is optionally, the mounting member is a second container 32, the solid propellant 34 is accommodated in the second container 32, and the second container 32 is provided with a through hole 33 communicating the second container 32 with the first container 12, so that when the solid propellant 34 in the second container 32 is triggered, the generated high-pressure fluid can enter the first container 12 through the through hole 33, and further, the fire extinguishing agent 14 is pushed to burst. Further, by disposing the second container 32 inside the first container 12, the overall structure of the fire extinguishing apparatus 100 is more compact, and a smaller installation space is required. It is to be understood that the mounting member may have other structures such as a screw, and the solid propellant (solid) may be mounted in the first container 12, which is not limited herein.

Specifically, the first container 12 includes a first container body 121 and a first cover 123, the fire extinguishing agent 14 is accommodated in the first container body 121, and the first cover 123 is hermetically sealed to the first container body 121 to hermetically seal the fire extinguishing agent 12 inside the first container body 121. Moreover, the second container 12 is coupled to the first cover 123 and extends into the first container body 121, that is, the first cover 123 is used as an assembly base of the second container 12, so that the second container 12 is accommodated in the first container body 121, thereby reducing the overall size of the fire extinguishing apparatus 100 and facilitating transportation and installation of the fire extinguishing apparatus 100.

Further, the fire suppression apparatus 100 further includes a trigger member (not shown) mounted to the first cover 123 and extending into the second container 32 for controlled triggering of the solid propellant 34 in the second container 32. Thus, using the first cap 123 as a base for the trigger, when mounted on the first cap 123, may extend into the second container 32 to contact the solid propellant 34 and trigger the solid propellant 34.

Specifically, the trigger includes a controller and an ignition head electrically connected to the controller, the ignition head contacts with the solid propellant 34 and triggers the solid propellant 34 under the control of the controller, and the controller can control the ignition head to be powered on and off, so as to trigger the solid propellant 34 after the ignition head is powered on.

Further, the fire suppression apparatus 100 may further include a sensor (not shown) for sensing a fire, and the controller may control the ignition head to trigger the solid propellant 34 when the sensor senses a fire source. When the inductor senses the condition of a fire, through the control of controller, the ignition head can automatic trigger solid propellant 34, automatic trigger solid propellant 34 when taking place the condition of a fire to in time put out a fire control to the condition of a fire.

In some embodiments, the fire suppression apparatus 100 further includes an emergency activation key 50, and the controller controls the firing head to fire the solid propellant 34 when the emergency activation key 50 is activated. The emergency start key 50 is a backup start switch and when the sensor or controller fails, the emergency start key 50 can be manually depressed to energize the igniter head and activate the solid propellant 34. Specifically, the emergency start key 50 is disposed on the first cover 123 and electrically connected to the controller.

In the embodiment, the fire extinguishing mechanism 10 further comprises a burst assembly 16, wherein the burst assembly 16 is assembled in the first container 12 and is communicated with the interior of the first container 12; the solid propellant 34 enters the first container 12 when activated and propels the fire suppressant 14 through the burst assembly 16 out of the first container 12 and into the external fire source for extinguishing the fire, the burst assembly 16 serving to direct the fire suppressant 14 out of the first container 12.

In some embodiments, the hair spray assembly 16 includes a first spout 161 and a spray head 163, wherein one end of the first spout 161 extends into the first container 12 and the other end of the first spout 161 extends out of the first container 12 and is coupled to the spray head 163. The fire-extinguishing agent 14 in the first container 12 is driven by the solid propellant 34 and then enters the first nozzle 161 to reach the nozzle 163, and the fire-extinguishing agent 14 and the solid propellant 34 are sprayed to the outside together to extinguish the fire.

Specifically, the first nozzle 161 extends into one end of the first container 12, extends to the bottom of the first container 12, and has a certain gap with the bottom wall of the first container 12, so as to deliver the fire-extinguishing agent 14 at the bottom of the first container 12 to the nozzle 163. Alternatively, the first nozzle 161 may extend to the bottom of the first container 12 after passing through the second container 32, or the first nozzle 161 may extend to the bottom of the first container 12 after bypassing the second container 32, and the arrangement manner of the first nozzle 161 is not limited herein.

Optionally, the spraying assembly 16 further includes a check valve 165, and the first spray pipe 161 is provided with the check valve 165 to allow the fire extinguishing agent 14 to be sprayed from the first container 12 to the outside only, thereby preventing the fire extinguishing agent 14 from flowing backwards.

In other embodiments, the dispensing assembly 16 includes a second nozzle having one end extending into the first container 12 and the other end extending out of the first container 12 and coupled to a probe; wherein the fire-detecting tube has a closed state at normal temperature and a softened state after being heated, and the fire extinguishing agent 14 pushed into the spraying assembly 16 can flush out the fire-detecting tube in the softened state to extinguish a fire in case of a fire. Specifically, in the event of a fire, the solid propellant 34 is triggered to enter the first container 12 and push the fire-extinguishing agent 14 in the first container 12 into the fire-fighting module 16, and the fire-fighting pipe is softened by heat, so that the fire-extinguishing agent 14 with impulse force enters the fire-fighting pipe and breaks through the fire-fighting pipe, and is sprayed to the outside to extinguish the fire.

That is, the difference between this embodiment and the above embodiment is only that the nozzle 163 of the hair spray assembly 16 is replaced by a fire-detecting tube, and other structures and arrangements of the hair spray assembly 16 are similar, and are not described herein.

In the fire extinguishing apparatus 100, the solid propellant 34 is received by the second container 32, and the solid propellant 34 is activated to exert a driving pressure that pushes the fire extinguishing agent 14 into the dispensing assembly 16, thereby dispensing the fire extinguishing agent 14. Meanwhile, the solid propellant 34 does not have a large driving pressure when not triggered, so that safety accidents such as explosion and the like caused by high pressure of the solid propellant 34 are avoided, and the storage of the solid propellant 34 which is not triggered is safer. Further, when the solid propellant 34 is not triggered, there is no high-pressure driving force, there is no problem of pressure release, and a process of encapsulating high-pressure gas is not required, so that the assembly of the fire extinguishing apparatus 100 is simple. Thus, the fire extinguishing apparatus 100 has high safety performance, and the assembly process of the solid propellant 34 is simple. Meanwhile, the second container 32 is positioned inside the first container 12, so that the fire extinguishing apparatus 100 is more compact in overall structure and requires less installation space.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A fire suppression apparatus, comprising:

the fire extinguishing mechanism comprises a first container and a fire extinguishing agent, and the fire extinguishing agent is arranged in the first container;

a drive assembly mounted within the first container and comprising a mount and a solid propellant;

wherein the mounting member is mounted to the first container, the solid propellant is secured to the mounting member, and the solid propellant pushes the fire suppressant out of the first container when triggered;

the fire extinguishing device comprises a trigger piece, the trigger piece comprises a controller and an ignition head electrically connected with the controller, and the ignition head is in contact with the solid driving agent and triggers the solid driving agent under the control of the controller;

the fire extinguishing device comprises an emergency starting key, and the controller controls the ignition head to trigger the solid propellant when the emergency starting key is started.

2. The fire suppression apparatus of claim 1, wherein the solid propellant comprises an aerosol.

3. The fire suppression apparatus of claim 1, wherein the solid propellant has a quiescent state when not activated and a driving flow state when activated, the pressure of the solid propellant in the driving flow state being greater than the pressure of the fire suppressant.

4. The fire extinguishing apparatus of any one of claims 1 to 3, wherein the mounting member is a second container in which the solid propellant is received, the second container having a through hole formed therein to communicate the second container with the first container.

5. The fire suppression apparatus of claim 4, wherein the first container includes a first container body and a first cover, the fire suppressant being received in the first container body, the first cover sealingly engaging the first container body, and the second container being coupled to the first cover and extending into the first container body.

6. The fire suppression apparatus of claim 5, wherein the trigger is mounted to the first cover and extends into the second container for controlled triggering of the solid propellant in the second container.

7. The fire suppression apparatus of claim 1, comprising a sensor for sensing a fire, wherein the controller controls the firing head to trigger the solid propellant when the sensor senses a fire source.

8. The fire suppression apparatus of claim 1, wherein said fire suppression mechanism further comprises a burst assembly mounted to said first container and in communication with the interior of said first container; the solid propellant enters the first container when triggered and pushes the fire suppressant out of the first container through the burst assembly.

9. The fire suppression apparatus of claim 8, wherein the spray assembly comprises a first spray tube and a spray head, one end of the first spray tube extending into the first container and the other end of the first spray tube extending out of the first container and coupled to the spray head.

10. The fire suppression apparatus of claim 8, wherein the fire fighting module comprises a second lance and a fire probe, one end of the second lance extending into the first container and the other end of the second lance extending out of the first container and mating with the fire probe; the fire-detecting pipe has a closed state at normal temperature and a softened state after being heated, and the fire extinguishing agent pushed into the spraying assembly can flush out of the fire-detecting pipe in the softened state.

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