JP4629265B2 - Gas generator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gas generator, and more particularly to a gas generator suitable for starting a fire extinguishing device or the like.
[0002]
[Prior art]
There is a fire extinguishing device that detects the occurrence of a fire with a fire detector, opens a differential pressure valve provided in the fire extinguishing device, and jets out a fire extinguishing agent in the fire extinguishing device.
[0003]
Conventionally, a gas generator is often used to open a differential pressure valve or the like of this type of fire extinguishing device and start the fire extinguishing device.
[0004]
These gas generators are required to be attachable to a fire extinguishing device, and to be reduced in size and cost. Therefore, it is necessary to reduce the number of components of the gas generator without reducing the amount of gas generated by the gas generator and maintaining safety.
[0005]
[Problems to be solved by the invention]
The gas generator according to the present invention reduces the amount of gas generated by the gas generator, reduces the number of gas generator components while maintaining safety, and reduces the size and cost of the gas generator. The purpose is to provide a vessel.
[0006]
[Means for Solving the Problems]
The gas generator according to claim 1 for solving the above-mentioned problem, a loading cylinder loaded with a gas generating agent for generating gas by combustion, ignition means for igniting and burning the gas generating agent by energization, A sealing member that fits so as to cover an upper surface portion and a side surface portion of the loading cylinder, and a metal holder that houses and fixes the loading cylinder and the ignition means together with the sealing member. is there. Further, the sealing member is made of resin and is formed so as to cover an upper surface portion and a side surface portion excluding a central portion of the loading cylinder body, and covers the entire side surface portion of the loading cylinder body. Is formed. Further, the holder exposes the central portion of the upper surface portion of the loading cylinder.
According to this configuration, it is possible to reduce the number of components and to reduce the size of the gas generator. Further, gas can be ejected in a concentrated manner from the center of the upper surface of the loading cylinder loaded with the gas generating agent. For this reason, since the gas generated by the combustion of the gas generating agent can be used efficiently, the amount of the gas generating agent can be reduced, and the gas generator can be downsized. Furthermore, when the holder is made of metal, the resin sealing member covers the entire side surface portion of the loading cylinder, so that stray current can be prevented from occurring in the igniter. For this reason, the malfunction by the static electricity etc. of an igniter can be prevented reliably.
[0007]
The gas generator according to claim 2 includes an igniter including a loading cylinder loaded with a gas generating agent that generates gas by combustion, and ignition means that ignites and burns the gas generating agent by energization; A sealing member that is fitted so as to cover an upper surface portion and a side surface portion of the loading cylinder, and a metal holder that accommodates and fixes the igniter together with the sealing member. Further, the sealing member is made of resin and is formed so as to cover an upper surface portion and a side surface portion excluding a central portion of the loading cylinder body, and covers the entire side surface portion of the loading cylinder body. Is formed. Further, the holder exposes the central portion of the upper surface portion of the loading cylinder.
According to this configuration, it is possible to reduce the number of components and to reduce the size of the gas generator. Further, gas can be ejected in a concentrated manner from the center of the upper surface of the loading cylinder loaded with the gas generating agent. For this reason, since the gas generated by the combustion of the gas generating agent can be used efficiently, the amount of the gas generating agent can be reduced, and the gas generator can be downsized. Furthermore, when the holder is made of metal, the resin sealing member covers the entire side surface portion of the loading cylinder, so that stray current can be prevented from occurring in the igniter. For this reason, the malfunction by the static electricity etc. of an igniter can be prevented reliably.
[0009]
According to a third aspect of the present invention, there is provided the gas generator according to the second aspect, wherein the holder is caulking and fixing the igniter together with the sealing member on an upper surface of the sealing member. According to this configuration, the igniter and the sealing member can be integrally fixed only by the holder. For this reason, it is possible to easily assemble and to reduce the number of parts at the time of fixing. Further, since the igniter is fixed from the upper surface side, the igniter can be fixed with a pressing force in the direction opposite to the gas ejection direction, and the fixing force of the igniter is improved.
[0011]
A gas generator according to claim 4 is used for starting the fire extinguishing apparatus according to claim 1 or 2. The igniter is ignited by a signal from the fire detector, the gas generating agent loaded in the loading cylinder is burned, and a large amount of gas is instantaneously generated. Thereby, a differential pressure valve or the like provided in the fire extinguisher can be opened.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an example of an embodiment of a gas generator concerning the present invention is explained, referring to drawings.
[0013]
A gas generator G shown in FIG. 1 includes a loading cylinder 1 loaded with a gas generating agent that generates gas by combustion, and an igniter 2 that includes ignition means that ignites and burns the gas generating agent when energized. A sealing member 5 having both ends opened so as to cover the upper surface portion 3 and the side surface portion 4 excluding the central portion of the cylindrical body 1 and a holder 6 for storing and fixing the igniter 2 together with the sealing member 5 are provided. Yes.
[0014]
The igniter 2 is formed in a cylindrical cup shape and is ignited by energizing the electrode pins 8 and 9 with the loading cylinder 1 in which a transfer agent and a gas generation agent are loaded. It is comprised with the ignition part 2a to burn. In the present embodiment, the case where the transfer agent and the gas generating agent are accommodated in the loading cylinder 1 will be described. However, the gas generating agent is accommodated in another container or the like and transmitted as desired. It is also possible to connect them with an ignition means containing explosives and the like by means of the sealing member 5.
[0015]
The sealing member 5 is processed into a cylindrical shape with both ends opened. The sealing member 5 is formed such that its inner diameter is the same as or slightly larger than the outer diameter of the side surface portion 4 of the loading cylinder 1 of the igniter 2. The one end 5 a side is formed in a shape that matches the tapered surface 7 a of the embolus 7 of the igniter 2. The other end 5b is formed with a protruding portion 5c that protrudes toward the center. Accordingly, it is possible to cover from the side surface portion 4 of the loading cylinder 1 to the upper surface portion 3 except for the central portion of the upper surface portion 3 of the igniter 2. For this reason, gas can be ejected intensively from the center part of the upper surface part 3 of the loading cylinder 1 loaded with the gas generating agent. Furthermore, since it is arranged over the entire side surface portion 4 of the loading cylinder 1, even when it is mounted on a fire extinguishing device or the like, a tightening pressure or an external impact is not directly applied to the loading cylinder 1. For example, the loading cylinder 1 is protected.
[0016]
Even if the hole is not formed in the central portion of the upper surface portion 3 of the loading cylinder 1 on the other end 5 b side of the sealing member 5, for example, the gas from the upper surface portion 3 of the loading cylinder 1 It can also be formed thin so that it can be easily ruptured by the jet power. Moreover, a notch etc. can also be formed so that it may burst easily.
[0017]
The sealing member 5 is formed of, for example, a resin such as polybutylene terephthalate, polyethylene terephthalate, nylon 6, nylon 66, polyphenylene sulfide, polyphenylene oxide, or the like containing glass fiber or the like. . For this reason, even if the holder 6 described later is made of metal, stray current can be prevented from occurring in the igniter 2.
[0018]
The holder 6 is made of, for example, a metal such as aluminum, and a screw 11 is formed on the side tube portion 10 for attachment to a fire extinguisher or the like. Further, the side tube portion 10 is formed with a recess 12 and is provided with a seal member 13 such as an O-ring. The seal member 13 can seal the inside of the fire extinguishing device when attached to the fire extinguishing device 21 (see FIG. 2) or the like. Further, a convex portion 14 is provided on the inner peripheral portion of the holder 6 so that the igniter 2 can be placed via the seal member 15. The end portion 16 of the holder 6 is bent inward in the radial direction, and the sealing member 5 is caulked and fixed, whereby the igniter 2 is fixed to the holder 6. In addition, when the holder 6 is attached to a fire extinguisher or the like, instead of the screw 11 formed on the outer periphery of the side tube portion 10, for example, a concave portion or a convex portion is formed and caulked to the fire extinguisher etc. For example, various fixing means can be used.
[0019]
In the gas generator G composed of the above components, the sealing member 15 is installed on the convex portion 14 in the holder 6, and then the igniter 2 is inserted, and then the sealing member 5 is attached to the loading cylinder 1 of the igniter 2. It is inserted into the holder 6 so as to be covered, and the end portion 16 of the holder 6 is bent inward, and is caulked and fixed on the upper surface of the sealing member 5. Thus, the igniter 2 and the sealing member 5 can be integrally fixed only by the holder 6. For this reason, it is possible to easily assemble and to reduce the number of parts at the time of fixing. Further, since the igniter 2 is fixed from the upper surface side, the igniter 2 can be fixed with a pressing force in a direction opposite to the gas ejection direction, and the fixing force of the igniter 2 is improved.
[0020]
Next, an example in which the gas generator G according to the present embodiment is used for starting a fire extinguisher will be described.
[0021]
2 and 3 are schematic cross-sectional views of an example in which the gas generator according to the present embodiment is used for starting a fire extinguisher. FIG. 2 shows the gas generator G before operation, and FIG. 3 shows the gas generator G after operation.
[0022]
As shown in FIG. 2, the gas generator G is attached to one end of the pressure cylinder 21 of the fire extinguishing apparatus 20. At this time, the internal space 22 of the pressure cylinder 21 is sealed by the sealing member 13 provided in the gas generator G. A piston 23 is attached to the other end of the pressure cylinder 21. The piston 23 reliably encloses the internal space 22 with a seal member 24. The piston 23 is provided in the digestive agent container valve 25, and is abutted against a valve shaft 28 of a valve body 27 that opens and closes the opening 30 to release the fire extinguishing agent from the digestive agent discharge port 26. Usually, the valve body 27 is in a state in which the opening 30 is closed as shown in FIG.
[0023]
When the gas generator G is activated, the pressure in the internal space 22 in the pressure cylinder 21 is increased by a large amount of gas instantaneously generated from the gas generator G, as shown in FIG. Then, it becomes higher than the pressure in the digestive agent chamber 29, and the piston 23 moves so as to protrude from the pressure cylinder 21 to push the valve body 27. Thereby, the valve body 27 moves into the digestive agent chamber 29, opens the opening 30, and releases the digestive agent.
[0024]
As described above, the gas generator G according to the present embodiment has a small number of components and is miniaturized, and can reduce the manufacturing cost with excellent assemblability. In addition, since the loading cylinder loaded with the gas generating agent is protected by the sealing member, the sealing member is excellent in mechanical strength and can be suitably used for starting a fire extinguishing device or the like. The fire extinguishing apparatus shown in the present embodiment is one example of application of the gas generator according to the present embodiment, and the form of the fire extinguishing apparatus is not limited to that shown in the present embodiment.
[0025]
【The invention's effect】
According to the gas generator of the present invention, the gas can be ejected in a concentrated manner from the center of the upper surface of the loading cylinder loaded with the gas generating agent. For this reason, since the gas generated by the combustion of the gas generating agent can be used efficiently, the amount of the gas generating agent can be reduced, and the gas generator can be downsized. Moreover, the igniter provided with the ignition means and the sealing member can be integrally fixed only by the holder. For this reason, it is possible to easily assemble and to reduce the number of parts at the time of fixing. Furthermore, since the igniter is fixed from the upper surface side, the igniter can be fixed with a pressing force in the direction opposite to the gas ejection direction, and the fixing force of the igniter is improved. Further, when the holder is made of metal, the resin sealing member covers the entire side surface portion of the loading cylinder, so that stray current can be prevented from being generated in the igniter. For this reason, the malfunction by the static electricity etc. of an igniter can be prevented reliably. Further, the igniter is ignited by the signal from the fire detector, the gas generating agent loaded in the loading cylinder is burned, and a large amount of gas is instantaneously generated. Thereby, a differential pressure valve or the like provided in the fire extinguisher can be opened.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an example of an embodiment of a gas generator according to the present invention.
FIG. 2 is a cross-sectional view showing an example of a case where a gas generator according to an embodiment of the gas generator according to the present invention is used for starting a fire extinguisher, and shows a state before starting the gas generator FIG.
FIG. 3 is a cross-sectional view showing an example of a gas generator according to an embodiment of the present invention when the gas generator is used for starting a fire extinguisher, and shows a state after the gas generator is started. FIG.
[Explanation of symbols]
G gas generator 1 loading cylinder 2 igniter 3 upper surface portion 4 side surface portion 5 sealing member 6 holder 7 plug 8, 9 electrode pin 10 side tube portion 11 screw 12 recessed portion 13 sealing member 14 protruding portion 15 sealing member 16 holder end Part 20 Fire extinguishing device

Claims (4)

A loading cylinder loaded with a gas generating agent for generating gas by combustion, ignition means for igniting and burning the gas generating agent by energization, and a seal fitted to cover the upper surface portion and the side surface portion of the loading cylinder body A stop member, and a metal holder for storing and fixing the loading cylinder and the ignition means together with the sealing member ,
The sealing member is made of resin and is formed so as to cover an upper surface portion and a side surface portion excluding a central portion of the loading cylinder body, and is formed so as to cover the entire side surface portion of the loading cylinder body. And the holder is configured to expose the central portion of the upper surface portion of the loading cylinder . An igniter including a loading cylinder loaded with a gas generating agent that generates gas by combustion, and ignition means for igniting and burning the gas generating agent when energized, and covers an upper surface portion and a side surface portion of the loading cylinder. And a metal holder for housing and fixing the igniter together with the sealing member,
The sealing member is made of resin and is formed so as to cover an upper surface portion and a side surface portion excluding a central portion of the loading cylinder body, and is formed so as to cover the entire side surface portion of the loading cylinder body. And the holder is configured to expose the central portion of the upper surface portion of the loading cylinder .   The gas generator according to claim 2, wherein the holder is caulking and fixing the igniter together with the sealing member on an upper surface of the sealing member.   The gas generator of Claim 1 or 2 used for starting of a fire extinguisher.

Images