KR101134359B1 - Solid-aerosol automatic extinguisher - Google Patents

Abstract

The present invention relates to a solid aerosol fire extinguishing device, and more particularly, to a solid aerosol fire extinguishing device which is capable of stably starting the fire extinguishing device without being affected by ambient temperature.
Solid aerosol fire extinguishing device 200 of the present invention, the housing tube 210; An annular annular tertiary solid aerosol extinguishing agent 220 mounted inside the housing tube; A coolant 230 mounted inside the housing tube and spaced apart from the tertiary solid aerosol extinguishing agent by a predetermined distance in the axial direction; The housing 110 which is fastened to the upper part of the housing tube and has a stepped through hole 111 formed in the axial direction, the heating part 120 seated in the stepped through hole, and the axial direction of the side in which the housing tube is fastened The cylinder 130 is inserted into the through-hole and is in close contact with the heating part, and the cylinder 130 is formed with an acceleration hole 131 penetrating in the axial direction from the outer circumferential surface thereof, and one end is inserted into the pipe shape so as to be in close contact with the heating part. In addition to being formed through the other end, the inner cylinder 140 having a gas acceleration outlet 141 having a smaller diameter, and the primary solid aerosol extinguishing agent 150 pressed and filled with the inner cylinder to be in close contact with the gas acceleration outlet and the heating part. , A solid aerosol fire extinguishing device composed of a secondary solid aerosol extinguishing agent 160, which is pressed and filled at regular intervals in the lower part of the inner cylinder through the acceleration hole in the lower part of the cylinder Characterized in that it comprises a part (100).

Description

Solid Aerosol Fire Extinguisher {SOLID-AEROSOL AUTOMATIC EXTINGUISHER}

The present invention relates to a solid aerosol fire extinguishing device, and more particularly to a solid aerosol fire extinguishing device capable of stably starting the fire extinguishing device without being affected by ambient temperature.

In general, a solid aerosol fire extinguishing device includes a fire extinguishing agent, a coolant, an ignition device in the fire extinguishing device, and the fire extinguishing agent is generally composed of potassium oxide, a resin, an additive, and the like. Extinguishing agent in the extinguishing system is burned by an external operating electrical signal, self-sensing or operating system to produce extinguishing element, at which point the extinguishing element passes through the cooling bed and is injected through the nozzle at the generated gas pressure. . When the extinguishing component injected is applied where extinguishing is required, potassium ions in the extinguishing component block the hydroxyl radicals generated in the fire and thus extinguish the fire.

In addition, the solid aerosol extinguishing system has a very small amount of extinguishing particles generated by combustion (generally 1 to 5㎛), and the extinguishing efficiency is several times higher than that of other extinguishing systems. It is very useful from the user side because it is easy to clean. In addition, unlike the existing gas-based fire extinguishing device, it is very simple to install and maintain because it is simply fixed without piping work.

In addition, the solid aerosol fire extinguishing system is very effective for oil and electric fires that can not use water, for example, various electrical panels, art galleries, library, computer room, mobile communication equipment, expensive electronic equipment, ships, electronic equipment assembly of the factory The range of application is wide such as the place with high temperature and humidity due to the poor conditions such as factory and electric room.

Conventional solid aerosol fire extinguishing device is a patent application No. 10-0806066, filed and registered with the Korean Patent Office, "Method for manufacturing aerosol fire extinguisher and aerosol fire extinguisher" and Utility Model Registration No. 20-0447025 as "electric solid fish Sol fire extinguishing device ", and utility model registration No. 20-0447030" heat sensing operating device comprising a fusible metal, and solid aerosol fire extinguishing device including the same ", and patent registration No. 10-0932097," including side discharge port Electric aerosol fire extinguishing device which is to operate, "electric solid aerosol fire extinguishing device including a side discharge port" as patent registration No. 10-0932099, and "solid aerosol fire extinguishing device including a side discharge port as patent registration No. 10-0920900. &Quot; Solid aerosol fire extinguishing device " is known as Utility Model Registration No. 20-0452293.

According to the conventional solid aerosol fire extinguishing device, when electricity is supplied to the starting unit, the electric spark is exploded in a ignition jade (fuse head), which is a material applied to the electric primer, and then exploded in another ignition agent in close proximity. Let's do it. However, the ignition jade and the ignition agent has a problem that a certain time elapses at 65 ~ 70 ℃ or more, the change in the physical properties to cause an unstable ignition occurs in the starting portion can not guarantee that the solid aerosol fire extinguishing device works stably.

The present invention is to solve the above problems, solid aerosol fire extinguishing is to be able to start the fire extinguishing device stably without being affected by the ambient temperature by starting with a solid aerosol medicament without using any kind of jade or ignition agent The object is to provide a device.

In the present invention, the heated high-temperature, high-pressure solid aerosol drug gas is passed through a narrow hole to amplify the energy, and this amplified energy heats the extinguishing agent again to generate a high-temperature, high pressure, and then passes through the narrow hole. It is an object of the present invention to provide a solid aerosol fire extinguishing device that can be easily produced.

Solid aerosol fire extinguishing device according to the present invention, the housing tube; An annular annular tertiary solid aerosol extinguishing agent mounted inside the housing tube; A coolant mounted inside the housing tube and spaced apart from the tertiary solid aerosol extinguishing agent in an axial direction; A housing which is fastened to an upper portion of the housing tube to be seated through the center of the tertiary solid aerosol extinguishing agent and is formed with a stepped through hole in the axial direction, a heating part seated in the stepped through hole, and the fire extinguishing device. A cylinder which is inserted into an axial through-hole formed in the housing on the side of the housing tube to be coupled to the housing tube and is in close contact with the heating part, and has an acceleration hole penetrating in the axial direction from an outer circumferential surface thereof, and a predetermined length is inserted in the axial direction of the cylinder, One end is penetrated in the form of a pipe to be in close contact with the heating part, and the other end has an inner cylinder having a gas acceleration outlet having a smaller diameter, and a primary solid aerosol fire extinguishing which is pressed into the inner cylinder to be in close contact with the gas acceleration outlet and the heating part. Medicine and a lower portion of the inner cylinder through the acceleration hole in the lower portion of the cylinder It characterized in that it includes a start-up consisting of a secondary solid aerosol foam filled are pressed with an interval.

The heating unit may include an insulating material seated in the through hole, a terminal fixed by the insulating material, and a heating coil connected to the terminal and heated.

And it is characterized in that the plurality of acceleration holes are formed in a radial isometric at the central portion in the longitudinal direction of the cylinder.

In addition, the secondary solid aerosol extinguishing agent is characterized in that the cylinder is filled only to the position that is not inserted into the through hole of the housing.

As described above, according to the solid aerosol fire extinguishing device of the present invention, since no ignition jade or an ignition agent is used in the starting part, any physical property change due to heat is not generated even at a high temperature, so that the fire extinguishing device can be stably started. There is.

According to the solid aerosol fire extinguishing device of the present invention, the solid aerosol fire extinguishing device can be used safely and stably in a place where the temperature is continuously increased due to the sealing of a fishing vessel engine room, an underground cavity, an electric switchboard, or a high temperature place. .

According to the solid aerosol fire extinguishing device of the present invention, there is an effect that is easy to use even in a moving object resistant to vibration.

1 is a front view showing the starting portion of the solid aerosol fire extinguishing device according to an embodiment of the present invention,
Figure 2 is a longitudinal cross-sectional view showing the starting portion of the solid aerosol fire extinguishing device according to an embodiment of the present invention,
3 is an explanatory view showing a solid aerosol fire extinguishing device of the present invention.

Hereinafter, a solid aerosol fire extinguishing device according to an embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 is a front view showing a starting portion of a solid aerosol fire extinguishing device according to an embodiment of the present invention, Figure 2 is a longitudinal sectional view showing a starting portion of a solid aerosol fire extinguishing device according to an embodiment of the present invention, Figure 3 is a solid of the present invention It is explanatory drawing which shows an aerosol fire extinguishing device.

In adding the reference numerals to the components of the drawings, the same components are to have the same reference numerals as possible even if displayed on different drawings, and known functions that are determined to unnecessarily obscure the subject matter of the present invention Detailed description of the configuration will be omitted. Also, directional terms such as 'top', 'bottom', 'front', 'back', 'tip', 'front', 'back' and the like are used in connection with the orientation of the disclosed figure (s). Since the elements of the embodiments of the present invention can be positioned in various orientations, the directional terminology is used for illustrative purposes, not limitation.

Solid aerosol fire extinguishing device 200 according to an embodiment of the present invention, as shown in Figures 1 to 3, and the housing tube 210; An annular annular tertiary solid aerosol extinguishing agent 220 mounted inside the housing tube 210; A coolant 230 mounted inside the housing tube 210 and installed spaced apart from the tertiary solid aerosol extinguishing agent 220 in an axial direction; It is fastened to the upper portion of the housing tube 210 includes a starting part 100 is seated through the center of the tertiary solid aerosol extinguishing agent 220.

In this case, the starting part 100 is fastened to the upper portion of the housing tube 210 to be penetrated through the center of the tertiary solid aerosol extinguishing agent 220 and a stepped through hole 111 is formed in the axial direction. Inserted into the housing 110, the heating portion 120 seated in the stepped through hole 111, and the axial through hole 111 formed in the housing 110 on the side to be engaged with the housing tube of the fire extinguishing device The cylinder 130 is in close contact with the insulating material 121 and has an acceleration hole 131 formed therein through the outer circumferential surface thereof to discharge the gas at a high temperature and high pressure, and a predetermined length is inserted in the axial direction of the cylinder 130. The inner side is in close contact with the insulating material 121 and the inner side has a gas acceleration discharge port 141 through which one side penetrates in the form of a pipe so as to communicate with the electric coil 122 and the other side is smaller in diameter so that the gas of high temperature and high pressure is discharged to the lower portion. Cylinder 140 and the gas The primary solid aerosol extinguishing agent 150 is pressed and filled in the inner cylinder 140 to be in close contact with the acceleration discharge port 141 and the electric coil 122, and passes through the acceleration hole 131 in the lower portion of the cylinder 130 The secondary solid aerosol extinguishing agent 160 is filled at regular intervals in the lower portion of the inner cylinder 140.

Therefore, the solid aerosol fire extinguishing device 200 of the present invention does not use the ignition jade or the ignition agent in the starter 100, and does not generate any physical property change due to heat even at a high temperature place, so that the fire extinguishing device can be stably started. .

That is, when the power is supplied to the heating unit 120 is heated to heat the first solid aerosol fire extinguishing agent 150 to generate a gas of high temperature and high pressure, the generated gas is formed in the lower portion of the inner cylinder 140 Accelerated gas discharge outlet 141 is to be discharged, this high-temperature high-pressure gas is heated by gasifying the second solid aerosol fire extinguishing agent 160 is accelerated through the acceleration hole 131 to extinguish the gas as it is sprayed Will be done.

Here, the housing 110, the through-hole 111 formed stepped in the axial direction, the receiving seat 112 is inserted into the housing tube of the solid aerosol fire extinguishing device, and extending from the receiving seat and fastened to the housing tube It consists of a screw 113 and a flange portion 114 extending from the screw portion is seated on the upper surface of the housing tube.

Therefore, the screw 113 is fastened to the upper portion of the housing tube 210 of the solid aerosol fire extinguishing device 200 is fixed to the starting unit 100 on the upper portion of the housing tube 210.

In addition, the stepped through hole 111 formed in the axial direction of the housing 110 extends from the cylinder accommodation portion 111a to which the heating part 120 and the cylinder 130 are fitted. It consists of a cylinder stopper (111b) extending a certain length in a state of small diameter, and a power supply (111c) diameter expanded to the other end from the cylinder stopper (111b).

Accordingly, the heater 120 and the cylinder 130 are fitted into and fixed to the cylinder accommodating portion 111a, and the cylinder stopper 111b allows the heater 120 to be seated at a predetermined position.

Here, the heating part 120 is an insulating material 121 such as an epoxy and a backlight seated in the through hole 111, a terminal 122 molded and fixed by the insulating material, and is connected to the terminal and heated It has a structure with a heating coil (123).

Therefore, when power is supplied to the terminal 122 while the insulating material 121 is seated in the axial direction on the cylinder stopper 111b, the heating coil 123 is heated to heat the primary solid aerosol extinguishing agent 150. It is made into a gas of high temperature and high pressure.

In addition, a plurality of acceleration holes 131 are formed at radial centers in the longitudinal direction of the cylinder 130.

Therefore, since the acceleration holes 131 are arranged at an equal angle, the extinguishing gas is well discharged to the surroundings, thereby shortening the extinguishing time.

In addition, the secondary solid aerosol extinguishing agent 160 is filled only to the position where the cylinder 130 is not fitted into the through hole 111 of the housing 110.

Therefore, the gas acceleration outlet 141 and the secondary solid aerosol extinguishing agent 160 is spaced apart from the secondary solid aerosol extinguishing agent 160 while the gas is activated at a high temperature and high pressure of the primary solid aerosol extinguishing agent 150. It is heated to high temperature and high pressure to make extinguishing gas. The gasified secondary solid aerosol extinguishing agent 160 is installed in the housing tube 210 shown in FIG. 3 while being discharged to the acceleration hole 131 and the tertiary solid located on the coolant 230. The aerosol extinguishing agent 220 is discharged toward the third solid aerosol extinguishing agent 220 to be gasified at a high temperature and high pressure to discharge to the outside of the housing tube 210.

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention if they are apparent to those skilled in the art.

100: starting unit 110: housing
111: through hole 120: heating portion
130: cylinder 131: acceleration hole
140: inner cylinder 141: gas acceleration outlet
150: primary solid aerosol extinguishing agent 160: secondary solid aerosol extinguishing agent
200: solid aerosol extinguishing device 210: housing tube
220: tertiary solid aerosol extinguishing agent 230: coolant

Claims (4)

A housing tube 210;
An annular annular tertiary solid aerosol extinguishing agent 220 mounted inside the housing tube 210;
A coolant 230 mounted inside the housing tube 210 and installed spaced apart from the tertiary solid aerosol extinguishing agent 220 in an axial direction;
The housing 110 is fastened to the upper portion of the housing tube 210 and penetrated to the center of the tertiary solid aerosol extinguishing agent 220 and has a through hole 111 stepped in the axial direction. The heating unit 120 seated in the through-hole 111 and the axial through-hole 111 formed in the housing 110 on the side of the housing tube to be fastened to be in close contact with the heating unit 120, the outer peripheral surface In addition, the cylinder 130 having an acceleration hole 131 penetrated in the axial direction and a predetermined length in the axial direction of the cylinder 130 are inserted into one end in a pipe form so as to be in close contact with the heating part 120. The other end of the primary solid aerosol is pressed and filled with the inner cylinder 140 and the inner cylinder 140 to be in close contact with the gas acceleration discharge port 141 and the heating unit 120 having a gas acceleration outlet 141 is reduced in diameter Extinguishing agent 150 and the cylinder 130 Solid aerosol characterized in that it comprises a moving part 100 made of a secondary solid aerosol extinguishing agent 160 is compressed by pressing at a lower portion of the inner cylinder 140 past the acceleration hole 131 at a portion. Fire Extinguishing System. The method of claim 1,
The heating part 120 includes an insulating material 121 seated in the through hole 111, a terminal 122 fixed by the insulating material, and a heating coil 123 connected to and heated by the terminal. Equipped with a solid aerosol fire extinguishing device characterized in that. 3. The method according to claim 1 or 2,
The acceleration hole 131 is a solid aerosol fire extinguishing device, characterized in that formed in a plurality of radial equal angles from the longitudinal center side of the cylinder (130). The method of claim 3, wherein
The secondary solid aerosol extinguishing agent 160 is a solid aerosol fire extinguishing device, characterized in that the cylinder 130 is filled only to the position that is not fitted into the through-hole 111 of the housing (110).

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