CN109985332B

CN109985332B - Igniter for fire-fighting

Info

Publication number: CN109985332B
Application number: CN201910324772.3A
Authority: CN
Inventors: 陈敬伟; 王结财
Original assignee: Anhui Alphabet Industrial Design Co ltd
Current assignee: Anhui Alphabet Industrial Design Co ltd
Priority date: 2019-04-22
Filing date: 2019-04-22
Publication date: 2020-10-30
Anticipated expiration: 2039-04-22
Also published as: CN109985332A

Abstract

The invention belongs to the field of fire fighting, and particularly relates to a detonation device for fire fighting, which comprises a compressed gas cylinder and a time-delay inflation unit, wherein the compressed gas cylinder is communicated with the time-delay inflation unit, the time-delay inflation unit is provided with a trigger device and an exhaust port, the time-delay inflation unit is assembled in a way that the compressed gas cylinder is disconnected with the exhaust port when the trigger unit is not triggered, and the time-delay inflation unit can communicate the compressed gas cylinder with the exhaust port after a set period of time when the trigger device is triggered. The invention adopts the delay inflating device to detonate the water bag in a delay way, and the delay inflating device is activated only before the water bag is thrown, so that the water bag can be detonated automatically after the preset time, and the water bag can not generate open fire by being detonated by high-pressure gas, thereby ensuring that the water bag is fully exploded and avoiding the occurrence of secondary disasters.

Description

Igniter for fire-fighting

Technical Field

The invention belongs to the field of fire fighting, and particularly relates to a detonation device for fire fighting.

Background

Forest fires generally occur in remote areas with dense vegetation, and the forest fires are wide in burning area and high in spreading speed, so that the forest fires are difficult to extinguish in a mode of artificial ground fighting. The helicopter bucket is mainly adopted to sprinkle and extinguish fire in the fire passing area in the prior art, but the bucket in the prior art still has a plurality of defects in the actual use process: firstly, a helicopter generally selects a water taking point nearby for taking water on site, and a bucket is always hung below the helicopter when water is taken, so that the helicopter needs to be suspended for a long time in the water taking process, the saving efficiency is influenced, and the helicopter is suspended for a long time in an uncertain environment, so that a great safety risk exists; secondly, when the bucket in the prior art is used for splashing, water in the bucket cannot be gushed out at one time but slowly pours like a waterfall, and the helicopter is not suitable for hovering above a fire scene and generally directly slightly overflows the fire scene, so that the water splashing amount in unit area of the fire scene is insufficient, the purpose of suppressing fire is difficult to achieve, in addition, water flow can generate atomization in the pouring process, and water mist is easily decomposed into hydrogen and oxygen when meeting high temperature, so that deflagration is generated, and the fire behavior is aggravated; thirdly, in order to improve the fire extinguishing effect, a fire extinguishing agent is generally added into the bucket, however, due to different water quality conditions of different water taking points, the fire extinguishing agent may lose effectiveness after being mixed with water for a long time, and particularly, under the condition that the water taking point is far away from a fire scene, the fire extinguishing agent has sufficient time to react with chemical substances in water in the transportation process, so that the risk of losing effectiveness of the fire extinguishing agent is further increased. The inventor of the present invention has designed a fire-fighting water bag of the whole throwing type, however, the area of the water bag which can be put on a ground surface directly hit down is too small, so that the water bag needs to be detonated in a half-empty state.

Disclosure of Invention

The invention aims to provide a detonation device for fire fighting and extinguishing, which can detonate a fire-extinguishing water bag in a semi-air chamber.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a fire control is detonating device for putting out a fire, includes compressed gas cylinder and time delay inflation unit, compressed gas cylinder and time delay inflation unit intercommunication, be equipped with trigger device and gas vent on the time delay inflation unit, time delay inflation unit is assembled for when trigger unit not triggered, compressed gas cylinder with the gas vent disconnection, and when trigger device was triggered, time delay inflation unit can be after a period of settlement the compressed gas cylinder with the gas vent intercommunication.

The time-delay inflation unit comprises a valve shell and a valve core, the valve core is arranged in the valve shell in a sliding mode, a first cavity and a second cavity are respectively arranged at two ends of the valve core, the exhaust port is formed in the end portion, corresponding to the second cavity, of the valve shell, the compressed gas cylinder is communicated with the second cavity, a plug is arranged at one end, corresponding to the second cavity, of the valve core, and the plug and the exhaust port form plug-in fit; the first chamber is provided with a first inflation interface and a damping hole, and the trigger device is used for controlling the on-off between the damping hole and the atmosphere.

The diameter of the first cavity is larger than that of the valve core, a pressure relief hole is formed in the valve core, one end of the pressure relief hole is located on the peripheral surface of the valve core, the other end of the pressure relief hole is communicated with the exhaust port or the atmosphere, the pressure relief hole is assembled in such a way that when the plug of the valve core is closed with the exhaust port, one end of the pressure relief hole located on the peripheral surface of the valve core is attached to the inner ring surface of the valve shell, when the valve core moves towards the first cavity for a certain stroke, one end of the pressure relief hole located on the peripheral surface of the valve core can be communicated with the first cavity, and the plug and the exhaust port are still in a closed state when the end is just communicated with the first.

A side hole is formed in the side wall of the first cavity, a valve sleeve is linked to the outside of the side hole, a valve block is arranged in the valve sleeve in a sliding mode, a damping hole is formed in the valve block, one end of the damping hole is located on the end face of the inner side of the valve block, the other end of the damping hole is located on the circumferential face of the valve block, limiting holes penetrating through the valve sleeve and the valve block in the radial direction are formed in the valve sleeve and the valve block, a limiting pin is inserted into the limiting holes, and a pull ring is arranged at one end of the; the valve block is assembled such that when the limit pin is inserted into the limit hole, one end of the damping hole on the circumferential surface of the valve block is attached to the inner annular surface of the valve sleeve, and when the limit pin is pulled out of the limit hole, the valve block can move outwards under the pressure of the second chamber and communicate the end of the damping hole on the circumferential surface of the valve block with the limit hole on the valve sleeve.

And a first pressure column with the diameter smaller than that of the valve core is arranged at one end of the valve core opposite to the first cavity, and the first pressure column penetrates through and protrudes to the outer side of the end face of the valve shell.

The valve barrel outer end is equipped with the end cover, the valve piece is equipped with the second compression leg with the opposite side of end cover, the second compression leg runs through and the protruding end cover outside of stretching.

The device still includes fire extinguishing agent splash unit, fire extinguishing agent splash unit includes the fire extinguishing agent storage tank, be equipped with the floating partition in the fire extinguishing agent storage tank, the floating partition constitutes sliding fit with fire extinguishing agent storage tank inner wall, the floating partition separates the fire extinguishing agent storage tank for pressurization storehouse and stock solution storehouse, be equipped with flexible gasbag in the pressurization storehouse, flexible gasbag pass through the pipeline with the valve casing links to each other, and flexible gasbag can with the second cavity intercommunication when the case removes to first cavity, even there is the drain pipe on the stock solution storehouse.

The device comprises a delay inflation unit, a liquid outlet pipe and a connecting pipe, wherein one end of the gas outlet of the delay inflation unit is provided with the connecting pipe, the connecting pipe is of a jacket-shaped structure with double-layer pipe walls, the gas outlet is communicated with a central hole of the connecting pipe, the liquid outlet pipe is communicated with a jacket of the connecting pipe, and the outer wall of the connecting pipe is provided with a splashing port.

And a fiber drainage tube is arranged on the splashing opening.

One end of the connecting pipe, which is far away from the time-delay inflation unit, is communicated with an expansion air bag, and the splashing port is positioned on the outer side of the expansion air bag.

The invention has the technical effects that: the invention adopts the delay inflating device to detonate the water bag in a delay way, and the delay inflating device is activated only before the water bag is thrown, so that the water bag can be detonated automatically after the preset time, and the water bag can not generate open fire by being detonated by high-pressure gas, thereby ensuring that the water bag is fully exploded and avoiding the occurrence of secondary disasters.

Drawings

Fig. 1 is a perspective view of a fire extinguishing initiator according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of an embodiment of the present invention providing a fire extinguishing detonator in an inactivated state;

FIG. 3 is a cross-sectional view of an embodiment of the present invention providing a fire extinguishing detonator activated state;

FIG. 4 is a cross-sectional view of an alternative perspective of a fire extinguishing detonator provided by an embodiment of the present invention;

FIG. 5 is a cross-sectional view of a fire-fighting water bag provided by an embodiment of the present invention when not detonated;

fig. 6 is a sectional view of a fire-fighting water bag provided by an embodiment of the present invention when it is detonated;

FIG. 7 is a perspective view and a partially enlarged view of a forest fire extinguishing apparatus according to an embodiment of the present invention;

FIG. 8 is a perspective view of another perspective of a forest fire fighting apparatus provided by an embodiment of the present invention;

fig. 9 is a bottom view of a forest fire extinguishing apparatus according to an embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

As shown in fig. 7, 8 and 9, the forest fire extinguishing device comprises a water bag, a helicopter and a lifting appliance, wherein the helicopter and the lifting appliance are used for transporting and throwing the water bag, the water bag is provided with a fire extinguishing igniter for igniting the water bag, and the lifting appliance is provided with a releasing device for releasing the water bag and an excitation unit for activating the fire extinguishing igniter. Specifically, as shown in fig. 5 and 6, the water bag includes a bag body 20 made of a thin film, a water injection port is arranged on the bag body 20, and the water injection port is detachably connected with an igniter for fire fighting; as shown in fig. 1, the detonation device for fire fighting comprises a compressed gas cylinder 12 and a delay inflation unit 11, the compressed gas cylinder 12 is communicated with the delay inflation unit 11, the delay inflation unit 11 is provided with a trigger device and an exhaust port, one end of the exhaust port is provided with a connecting pipe 115, the exhaust port is communicated with a central hole of the connecting pipe 115, the connecting pipe 115 is inserted into the bag body 20 from a water injection port, the delay inflation unit 11 is assembled such that when the trigger unit is not triggered, the compressed gas cylinder 12 is disconnected from the exhaust port, and when the trigger device is triggered, the delay inflation unit 11 can communicate the compressed gas cylinder 12 with the exhaust port after a set time. The capsule body 20 is cylindrical, and the water injection port is positioned in the center of the top surface of the capsule body 20; the capsule body 20 comprises 2-3 parts of flame retardant and 47-48 parts of degradable resin according to parts by weight; the flame retardant is cresyldiphenyl phosphate or isopropylated triphenyl phosphate. The invention adopts the integral throwing type water bag to extinguish the forest fire, and meanwhile, the fire-fighting water bag is provided with the detonation device with the time delay function for fire-fighting, so that the water bag can be exploded on the ground without directly smashing and falling on the ground, the extinguishing area can be effectively increased, and the waste of water sources is avoided; in addition, compared with the traditional bucket, the water bag disclosed by the invention can effectively wrap water in the process of falling from high altitude to near above the ground, so that the water is prevented from being atomized due to wind resistance, and further, the deflagration phenomenon in a fire scene is avoided. The water bag is made of degradable refractory materials, so that the broken water bag can be prevented from becoming fuel to aggravate combustion on one hand, and the secondary damage of the broken water bag to the ecological environment can be prevented on the other hand.

As shown in fig. 2 and 3, the time-delay inflation unit 11 includes a valve housing 111 and a valve core 112, the valve core 112 is slidably disposed in the valve housing 111, two ends of the valve core 112 are respectively provided with a first chamber 113 and a second chamber 114, the exhaust port is opened at an end portion of the valve housing 111 corresponding to the second chamber 114, the compressed gas cylinder 12 is communicated with the second chamber 114, one end of the valve core 112 corresponding to the second chamber 114 is provided with a plug 1122, and the plug 1122 and the exhaust port form a plug-in fit; the first chamber 113 is provided with a first inflation interface 1131 and a damping hole 1161, and the triggering device is a device for controlling the on-off between the damping hole 1161 and the atmosphere. The diameter of the first cavity 113 is greater than that of the valve core 112, a pressure relief hole 1121 is formed in the valve core 112, one end of the pressure relief hole 1121 is located on the circumferential surface of the valve core 112, and the other end of the pressure relief hole 1121 is communicated with the exhaust port or the atmosphere, the pressure relief hole 1121 is assembled such that when the plug 1122 of the valve core 112 and the exhaust port are closed, one end of the pressure relief hole 1121 located on the circumferential surface of the valve core 112 is attached to the inner circumferential surface of the valve housing 111, when the valve core 112 moves to the first cavity 113 for a certain stroke, one end of the pressure relief hole 1121 located on the circumferential surface of the valve core 112 can be communicated with the first cavity 113, and when the end is communicated with the first cavity 113, the plug 1122 and the exhaust port are still in a closed state, and when; the end of the valve core 112 opposite to the first chamber 113 is provided with a first compression leg with a diameter smaller than that of the valve core 112, and the first compression leg penetrates through and protrudes to the outer side of the end face of the valve housing 111. A side hole is formed in the side wall of the first chamber 113, a valve sleeve 117 is linked outside the side hole, a valve block 116 is arranged in the valve sleeve 117 in a sliding manner, the damping hole 1161 is formed in the valve block 116, one end of the damping hole 1161 is located on the end face of the inner side of the valve block 116, the other end of the damping hole 1161 is located on the circumferential surface of the valve block 116, limiting holes 1163 which penetrate through the valve sleeve 117 and the valve block 116 in the radial direction are formed in the valve sleeve 117 and the valve block 116, a limiting pin 1162 is inserted into the limiting hole 1163, and a pull ring is arranged at one end of the limiting pin; the valve block 116 is assembled such that when the limit pin 1162 is inserted into the limit hole 1163, one end of the damping hole 1161 on the circumferential surface of the valve block 116 is attached to the inner circumferential surface of the valve housing 117, and when the limit pin 1162 is pulled out of the limit hole 1163, the valve block 116 can move downward and outward under the pressure of the second chamber 114 and communicate one end of the damping hole 1161 on the circumferential surface of the valve block 116 with the limit hole 1163 on the valve housing 117; an end cover is arranged at the outer end of the valve sleeve 117, and a second compression leg is arranged on one side of the valve block 116 opposite to the end cover and penetrates through and protrudes to the outer side of the end cover. The fire extinguishing detonation device is used for timing fire extinguishing in a purely mechanical mode, a power supply is not needed, and secondary disasters caused by fire fighting can be effectively avoided. The specific working principle of the igniter for fire fighting and extinguishing is as follows: in the water bag assembling stage, firstly, pressing the pressing columns on the valve block 116 and the valve core 112 to enable the valve block 116 to be in the right position and the valve core 112 to be in the low position, as shown in fig. 2, inserting the limit pin 1162 into the limit hole 1163 to lock the valve block 116, then pressurizing the first chamber 113, inflating the compressed gas cylinder 12 after the first chamber 113 is pressurized, and ensuring that the pressure of the first chamber 113 is always greater than that of the compressed gas cylinder 12, so as to ensure that the valve core 112 is in the low position, inserting the connecting pipe 115 into the water bag filled with water after inflation is completed, binding a water bag water injection port on the connecting pipe 115 by using a binding belt, and completing the water bag assembling work; when the water sac is thrown, the limit pin 1162 is firstly pulled out, then the water sac is thrown out, at this time, the valve block 116 moves to the left under the action of the pressure of the first chamber 113, the damping hole 1161 is communicated with the atmosphere, as shown in fig. 3, the pressure of the first chamber 113 is gradually reduced, when the pressure of the first chamber 113 is smaller than the pressure of the second chamber 114, the valve core 112 starts to move upwards, the pressure relief hole 1121 is communicated with the first chamber 113 after the valve core 112 moves upwards for a period of time, at this time, the first chamber 113 loses pressure instantaneously, so that the valve core 112 moves upwards quickly, the exhaust port is opened instantaneously, and high-pressure gas in the compressed gas cylinder 12 is quickly filled into the water sac to burst the water sac. The upward movement of the valve element 112 provides the water bladder with sufficient drop time, which can be controlled by the initial pressure difference between the first chamber 113 and the second chamber 114, thereby precisely controlling the height of the water bladder from the ground when the water bladder explodes.

As shown in fig. 4, the device further comprises a fire extinguishing agent splashing unit, the fire extinguishing agent splashing unit comprises a fire extinguishing agent storage tank 13, a movable partition plate 131 is arranged in the fire extinguishing agent storage tank 13, the movable partition plate 131 and the inner wall of the fire extinguishing agent storage tank 13 form a sliding fit, the fire extinguishing agent storage tank 13 is divided into a pressurizing bin and a liquid storage bin by the movable partition plate 131, a telescopic air bag 132 is arranged in the pressurizing bin, the telescopic air bag 132 is connected with the valve housing 111 through a pipeline, the telescopic air bag 132 can be communicated with the second chamber 114 when the valve core 112 moves towards the first chamber 113, and the liquid storage bin is connected with a liquid outlet pipe; the connecting pipe 115 is a jacket-shaped structure with a double-layer pipe wall, the liquid outlet pipe is communicated with the jacket of the connecting pipe 115, and the outer wall of the connecting pipe 115 is provided with a splashing port; a plurality of fiber drainage tubes 1151 are arranged on the splashing port, and the tube openings of the fiber drainage tubes 1151 are uniformly dispersed in the bag body 20; the end of the connection tube 115 remote from the time delay inflation unit 11 is in communication with an inflatable bladder 1152, and the splash port is located between the inflatable bladder 1152 and the bladder 20. After the limit pin 1162 is pulled out, the telescopic air bag 132 is communicated with the second chamber 114 along with the upward movement of the valve core 112, so that the fire extinguishing agent in the fire extinguishing agent storage tank 13 is squeezed into the water bag. The invention also adds an expansion air bag 1152 on the basis of the igniter for fire fighting and extinguishing, high-pressure gas firstly enters the expansion air bag 1152, and the expansion of the expansion air bag 1152 is utilized to expand and break the water bag, thus the pressure of each area of the water bag is uniform, and the water is uniformly dispersed.

As shown in fig. 7, 8 and 9, the lifting appliance comprises a support ring 31 and a plurality of hanging strips 32 arranged at even intervals along the circumferential direction of the support ring 31, the upper end of each hanging strip 32 is detachably connected with a connecting disc 34, the upper end of the connecting disc 34 is hung on the helicopter through a rope 35, the lower end of each hanging strip 32 is folded towards the center of the bottom of the support ring 31, and a tightening device is arranged between each hanging strip 32, the tightening device comprises a pull strip 33, the lower end of each hanging strip 32 is provided with a threading hole, the pull strip 33 sequentially passes through the threading holes of each hanging strip 32, the two ends of the pull strip 33 are folded and then led out from the side surface of the support ring 31 and detachably connected with the connecting disc 34, the pull strip 33 is at least provided with two leading-. The release device comprises a mesh buckle 36, the upper end of the mesh buckle 36 is connected with the connecting disc 34 through a belt body, two ends of the pull belt 33 are connected with a flat rope 37, the flat rope 37 penetrates through a buckle ring at the lower end of the mesh buckle 36, a rope buckle is arranged at the lower end of the mesh buckle 36, a first pull wire 361 is connected onto the rope buckle, the first pull wire 361 extends upwards into the helicopter, and when the first pull wire 361 is lifted upwards, the lower end of the mesh buckle 36 can be lifted up, so that the flat rope 37 is loosened from the mesh buckle 36. The excitation unit comprises a second pull wire 39, the lower end of the second pull wire 39 is fixedly connected with a pull ring on the limiting pin 1162, the upper end of the second pull wire 39 extends into the helicopter, and the limiting pin 1162 can be pulled out of the limiting hole 1163 when the second pull wire 39 is pulled upwards. And a recovery rope 38 is further arranged on the fire-fighting detonating device, the lower end of the recovery rope 38 is connected with the fire-fighting detonating device, and the upper end of the recovery rope 38 is connected with a winch arranged on the helicopter. The forest fire extinguishing device provided by the invention is specifically used in the following processes: firstly, arranging at least two ground personnel at a water taking point to carry out water bag assembly work, firstly laying a lifting appliance in a container by the ground personnel, then putting an empty water bag into the container, then injecting water into the water bag, after the water injection is finished, installing an igniter for fire fighting and extinguishing on the water bag, then connecting the lifting appliance with a connecting plate 34 below the helicopter, and simultaneously connecting a first stay wire 361 and a second stay wire 39 with a mesh buckle 36 and a limit pin 1162 respectively to finish the lifting; the crew member transports the water bag to and fro between the fire scene and the water taking point to implement the fighting, and the ground personnel can synchronously work in the transportation process of the helicopter, thereby greatly improving the loading and putting efficiency of the water bag.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. The utility model provides a fire control is detonating device for putting out a fire which characterized in that: the device comprises a compressed gas cylinder and a delay inflation unit, wherein the compressed gas cylinder is communicated with the delay inflation unit, the delay inflation unit is provided with a trigger device and an exhaust port, the delay inflation unit is assembled in such a way that the compressed gas cylinder is disconnected with the exhaust port when the trigger unit is not triggered, and the delay inflation unit can communicate the compressed gas cylinder with the exhaust port after a set time when the trigger device is triggered; the time-delay inflation unit comprises a valve shell and a valve core, the valve core is arranged in the valve shell in a sliding mode, a first cavity and a second cavity are respectively arranged at two ends of the valve core, the exhaust port is formed in the end portion, corresponding to the second cavity, of the valve shell, the compressed gas cylinder is communicated with the second cavity, a plug is arranged at one end, corresponding to the second cavity, of the valve core, and the plug and the exhaust port form plug-in fit; the first chamber is provided with a first inflation interface and a damping hole, and the trigger device is used for controlling the on-off between the damping hole and the atmosphere; the diameter of the first cavity is larger than that of the valve core, a pressure relief hole is formed in the valve core, one end of the pressure relief hole is located on the peripheral surface of the valve core, the other end of the pressure relief hole is communicated with the exhaust port or the atmosphere, the pressure relief hole is assembled in such a way that when the plug of the valve core and the exhaust port are closed, one end of the pressure relief hole located on the peripheral surface of the valve core is attached to the inner annular surface of the valve shell, when the valve core moves towards the first cavity for a certain stroke, one end of the pressure relief hole located on the peripheral surface of the valve core can be communicated with the first cavity, and when the end is just communicated with the first cavity, the plug and the exhaust port are still in a; and a first pressure column with the diameter smaller than that of the valve core is arranged at one end of the valve core opposite to the first cavity, and the first pressure column penetrates through and protrudes to the outer side of the end face of the valve shell.

2. A fire extinguishing ignition device as defined in claim 1, wherein: a side hole is formed in the side wall of the first cavity, a valve sleeve is linked to the outside of the side hole, a valve block is arranged in the valve sleeve in a sliding mode, a damping hole is formed in the valve block, one end of the damping hole is located on the end face of the inner side of the valve block, the other end of the damping hole is located on the circumferential face of the valve block, limiting holes penetrating through the valve sleeve and the valve block in the radial direction are formed in the valve sleeve and the valve block, a limiting pin is inserted into the limiting holes, and a pull ring is arranged at one end of the; the valve block is assembled such that when the limit pin is inserted into the limit hole, one end of the damping hole on the circumferential surface of the valve block is attached to the inner annular surface of the valve sleeve, and when the limit pin is pulled out of the limit hole, the valve block can move outwards under the pressure of the second chamber and communicate the end of the damping hole on the circumferential surface of the valve block with the limit hole on the valve sleeve.

3. A fire extinguishing initiating device according to claim 2, wherein: the valve barrel outer end is equipped with the end cover, the valve piece is equipped with the second compression leg with the opposite side of end cover, the second compression leg runs through and the protruding end cover outside of stretching.

4. A fire extinguishing ignition device as defined in claim 1, wherein: the device still includes fire extinguishing agent splash unit, fire extinguishing agent splash unit includes the fire extinguishing agent storage tank, be equipped with the floating partition in the fire extinguishing agent storage tank, the floating partition constitutes sliding fit with fire extinguishing agent storage tank inner wall, the floating partition separates the fire extinguishing agent storage tank for pressurization storehouse and stock solution storehouse, be equipped with flexible gasbag in the pressurization storehouse, flexible gasbag pass through the pipeline with the valve casing links to each other, and flexible gasbag can with the second cavity intercommunication when the case removes to first cavity, even there is the drain pipe on the stock solution storehouse.

5. A fire extinguishing initiator according to claim 4, wherein: the device comprises a delay inflation unit, a liquid outlet pipe and a connecting pipe, wherein one end of the gas outlet of the delay inflation unit is provided with the connecting pipe, the connecting pipe is of a jacket-shaped structure with double-layer pipe walls, the gas outlet is communicated with a central hole of the connecting pipe, the liquid outlet pipe is communicated with a jacket of the connecting pipe, and the outer wall of the connecting pipe is provided with a splashing port.

6. A fire extinguishing initiator according to claim 5, wherein: and a fiber drainage tube is arranged on the splashing opening.

7. A fire extinguishing initiator according to claim 5, wherein: one end of the connecting pipe, which is far away from the time-delay inflation unit, is communicated with an expansion air bag, and the splashing port is positioned on the outer side of the expansion air bag.