KR20220118066A - Priming for ignition device for solid aerosol fire extinguisher and ignition device for solid aerosol fire extinguisher including the same - Google Patents

Abstract

According to an embodiment of the present invention, a catalyst for an ignition device of a solid aerosol fire extinguisher can comprise industrial nitro celluiose having 11.5-12.2 wt% of nitrogen. In addition, an ignition device of a solid aerosol fire extinguisher according to the other embodiment of the present invention comprises: a heat wire board (30); the catalyst for an ignition device of a solid aerosol fire extinguisher (40); a cap (50); and an ignition agent (20). The heat wire board (30) generates heat energy by receiving electricity generated in a fire detecting device. The catalyst for an ignition device of a solid aerosol fire extinguisher (40) according to an aforementioned embodiment is arranged to surround the heat wire board (30), amplifies the heat energy generated in the heat wire board (30), and helps stable combustion of the ignition agent (20). The cap (50) is arranged to surround outer surfaces of the heat wire board (30) and the catalyst for an ignition device of a solid aerosol fire extinguisher (40), and has an opened upper part and an opened lower part. The ignition agent (20) is touched to the catalyst for an ignition device of a solid aerosol fire extinguisher (40), is combusted by the heat energy, and combusts an extinguishing agent. The present invention can optimize an operation performance of the fire extinguisher.

Description

Initiator for ignition device of solid aerosol fire extinguisher and ignition device of solid aerosol fire extinguisher comprising same

The present invention relates to an initiator for an ignition device of a solid aerosol fire extinguisher and an ignition device for a solid aerosol fire extinguisher. By using an initiator containing an easy-to-handle industrial nitriding surface, it helps the stable combustion of the ignition agent, and even if the thermal energy generated from the heating board of the ignition device is small, it can be sufficiently amplified to burn the extinguishing agent normally. It relates to an initiator for an ignition device of a solid aerosol fire extinguisher that can provide sufficient thermal energy so as to optimize the operating performance of the fire extinguisher, and an ignition device for a solid aerosol fire extinguisher comprising the same.

Fire extinguishers used for fire suppression may be classified into powder fire extinguishers, carbon dioxide fire extinguishers, halon and gas fire extinguishers, solid aerosol fire extinguishers, etc. according to the extinguishing agent charged therein.

Among them, the solid aerosol fire extinguisher refers to a fire extinguishing device that extinguishes a fire by automatically or manually emitting aerosol by sensing heat, smoke, or flame generated by a fire. Since the solid aerosol fire extinguisher rapidly discharges the extinguishing aerosol and quickly fills the space to be extinguished with the extinguishing aerosol, it can be easily introduced in a place where it is difficult to effectively operate a general fire extinguishing system, and thus has been widely applied in practice.

Suppression of fires using solid aerosol fire extinguishers is based on a novel mechanism consisting primarily of combustion of a means (i.e., extinguishing agent) that forms a gaseous, highly dispersed, condensed product with flame-extinguishing properties by inhibiting the chain reaction of combustion. do. That is, as the extinguishing agent, which is a solid substance, is ignited and burned by the ignition means, the extinguishing component passes through the cooling layer by the generated gas pressure and is sprayed to the outside, thereby suppressing the fire by blocking the cause of the fire. The aerosol formed by such combustion may exhibit extinguishing properties due to the presence of alkali metal ions therein. As the source of alkali metal ions in the aerosol, potassium nitrate or a mixture of potassium nitrate and potassium perchlorate is generally used.

When a fire occurs in a space where a solid aerosol fire extinguisher is installed, electricity is instantaneously automatically supplied by the fire detection device, and heat and sparks are generated from the heating wire of the ignition device. At this time, since the generated heat and flame lacks the thermal energy to burn the extinguishing agent, there must be an ignition powder (ignition agent) to burn the extinguishing agent normally. The initiator is first burned by the heat and flame generated from the heating wire to generate a flame, and then the extinguishing agent is burned by the flame generated while the ignition powder is burned to form an aerosol.

Ignition devices of solid aerosol fire extinguishers can be classified into electric and self-powered types.

The electric ignition device can burn the ignition powder by the thermal energy of the heating wire in a way to obtain thermal energy by operating the heater heating wire with sufficient power, and burn the extinguishing agent by the thermal energy by the combustion of the ignition agent. In some cases, an initiator can be used to aid in the stable combustion of the ignition powder.

A self-powered ignition device used in a non-powered room is a method of using power generated in a very short moment, for example, several milliseconds, from the self-powered device. However, the amount of electric power generated in a very short time in the self-generation device is limited, and it is very difficult to normally operate the ignition device for normally burning the extinguishing agent only with the output of the self-generation device. Therefore, there is a need for an initiator for amplifying the thermal energy of the heating wire that operates with instantaneous power generated from the self-generation device for the combustion of the extinguishing agent.

In Patent Document 1 (Korean Patent Registration No. 10-1212982), a conventional solid aerosol fire extinguishing device (1) in which the ignition agent (3) in the ignition device (2) is accommodated in a bag (4) such as a conventional nonwoven fabric (1) is disclosed. However, there is a risk that the fire extinguishing agent 5 is delayed or incomplete because the directivity is not provided so that the flame generated when the ignition agent burns is directed toward the extinguishing agent 5 .

In addition, in Patent Document 2 (Korean Patent Registration No. 10-2020584), a body 6, an ignition agent 7 accommodated in the body, a heating board 9 for burning the ignition agent, and the circumference of the body A conventional solid aerosol ignition device (5) comprising a flame emitting hole (8) formed in the portion is disclosed. Such a conventional solid aerosol ignition device 5 may direct the flame toward the extinguishing agent and promote ignition of the extinguishing agent.

However, according to the Korean Patent Registration No. 10-1212982 and Korean Patent Registration No. 10-2020584, it is impossible to completely remove the moisture inside the ignition device, and there is a limit in preventing the penetration of moisture. When moisture exists inside the ignition device, the heating wire having originally low thermal energy cannot emit thermal energy sufficient to burn the ignition agent, and the ignition agent may be altered or deformed by the moisture. Accordingly, the combustion operation inside the fire extinguisher becomes uncertain, and malfunction of the fire extinguisher may be a problem. That is, in an emergency situation such as a fire, as the fire extinguisher does not work properly, severe damage may be caused.

Therefore, regardless of the operation method of the ignition device, even if the thermal energy generated from the heating board of the ignition device is small, sufficient thermal energy can be provided to normally burn the fire extinguishing agent, and the characteristics can be effectively exhibited without the influence of the environment. There is still a need for a catalyst that is present.

Patent Document 1: Korean Patent Registration No. 10-1212982 (2012.12.11.) Patent Document 2: Korean Patent Registration No. 10-2020584 (2019.09.04.)

The problem to be solved by the present invention is to help the stable combustion of the ignition agent, and even if the thermal energy generated from the heating board of the ignition device is small, sufficient thermal energy can be provided so that the extinguishing agent can be burned normally, while It is to provide an initiator for the ignition device of a solid aerosol fire extinguisher that can effectively exhibit the properties without influence, and further increase the efficiency because it is easy to obtain and handle, and an ignition device for a solid aerosol fire extinguisher comprising the same.

An embodiment of the present invention for solving the above problems provides an initiator for the ignition device of a solid aerosol fire extinguisher, and the initiator may include an industrial nitriding surface having a nitrogen content of 11.5 to 12.2 wt%.

In the above embodiment, the industrial nitriding surface may have a moisture content of 4.0% by weight or less.

In the above embodiment, the industrial nitriding surface may have an acid content of 0.05% by weight or less.

In the above embodiment, the industrial nitriding surface may be in a processed state to remove the wetting agent.

In the above embodiment, the industrial nitriding surface may be in a state in which the wetting agent has been removed by treatment at 30 to 170° C. for 30 minutes to 10 hours, or by natural drying at room temperature.

Another embodiment of the present invention for solving the above problems provides an ignition device of a solid aerosol fire extinguisher, the ignition device is a heating board 30 for generating thermal energy by receiving electricity generated from a fire detection device; The ignition device of the solid aerosol fire extinguisher according to the above-described embodiment that is disposed to surround the heating board 30, amplifies the thermal energy generated from the heating board 30, and helps the stable combustion of the ignition agent 20 dragon initiator (40); The heating board 30 and the cap 50 which is disposed to surround the outer surface of the initiator 40 for the ignition device of the solid aerosol fire extinguisher, and the upper and lower portions are in an open state; and an ignition agent 20 that is disposed in contact with the initiator 40 for the ignition device of the solid aerosol fire extinguisher and is combusted by thermal energy to burn the extinguishing agent.

In the above embodiment, the cap 50 supports the initiator 40 for the ignition device of the solid aerosol fire extinguisher not to be separated from the heated board 30, and generated from the heated board 30 according to the change of ambient temperature. It prevents the thermal energy from being lowered, and can serve to prevent a malfunction of the combustion of the initiator 40 for the ignition device of the solid aerosol fire extinguisher.

In the above embodiment, the cap 50 may be made of a thermoplastic resin.

In this embodiment, the ignition agent 20 is potassium iodide (potassium iodide), potassium bromide (potassium bromide), lithium chloride (lithium chloride), potassium iodate (potassium iodate), potassium nitrate (potassium nitrate), bromic acid Potassium (potassium bromate), sodium nitrate (sodium nitrate), lithium perchlorate (lithium perchlorate), AN / KN (ammonium nitrate phase-stabilized with potassium nitrate), and may further comprise one or more oxidizing agents selected from the group consisting of, and combinations thereof. can

According to an embodiment of the present invention, by using an initiator that can help the stable combustion of the ignition agent and sufficiently amplify it, even if the thermal energy generated from the heating board of the ignition device of the solid aerosol fire extinguisher is small, the extinguishing agent is Sufficient thermal energy can be provided for normal combustion, thereby optimizing the operating performance of the fire extinguisher.

In addition, the initiator for the ignition device of the solid aerosol fire extinguisher according to an embodiment of the present invention can effectively exhibit the characteristics as an initiator without the influence of the environment, and is widely used in the ignition device of the solid aerosol fire extinguisher regardless of the operation method of the ignition device can be applied.

In addition, the initiator for the ignition device of the solid aerosol fire extinguisher according to an embodiment of the present invention can be easily purchased and has the advantage of easy handling, thereby further increasing the efficiency in terms of manufacture and use.

1 is a schematic cross-sectional view of an ignition device of a solid aerosol fire extinguisher using a vacuum pack according to an embodiment of the present invention.
2 is a schematic cross-sectional view of a solid aerosol fire extinguisher according to an embodiment of the present invention.
3 is a cross-sectional view of a solid aerosol fire extinguisher according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the drawings in order to describe in detail enough that a person of ordinary skill in the art to which the present invention pertains can easily implement the technical idea of the present invention. In the following description, many specific details such as specific components are shown, which are provided to help a more general understanding of the present invention, and it is common knowledge in the art that the present invention may be practiced without these specific details. It will be self-evident to those who have And, in describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

First, the general configuration and operating principle of a solid aerosol fire extinguisher will be described. In general, the solid aerosol automatic fire extinguishing device can be divided into an ignition unit, a combustion unit (or ignition unit), an extinguishing agent unit, and an exhaust unit. The ignition unit detects a fire from the outside and induces electrical, chemical, or mechanical ignition within the aerosol fire extinguishing system. discharged through the exhaust. A fire can be extinguished by shutting off oxygen as the extinguishing gas is released or by interrupting the chain reaction of the fire.

In the embodiments of the present invention, there is provided an initiator for an ignition device that can be applied to a solid aerosol fire extinguisher having such a configuration and an ignition device including the same.

One embodiment of the present invention relates to an initiator for an ignition device of a solid aerosol fire extinguisher including an industrial nitriding surface.

Industrial nitrided surface is a nitrate ester of cellulose, and its use has been expanded as a paint based on the fact that its viscosity decreases when heated with water from uses such as collodion, for photo film base, and for nitriding surface lacquer. Its main use today is as lacquer, but it is also used for special printing inks. Nitride lacquer is applied to metal, leather, paper, wood, and various other uses, and the coating film formed therefrom strongly adheres to these objects, has no water absorption, gives a beautiful luster and excellent touch, and has high strength, Since it is not easily damaged, it has its own application fields for various protection and decoration along with its quick drying properties.

In one embodiment of the present invention, it is characterized in that it is applied as an initiator for the ignition device of a solid aerosol fire extinguisher by processing the industrial nitride screen, which is usually used as a coating film forming element of lacquer, to have specific physical properties.

There are many kinds of combustible materials that can be used as initiators for ignition devices of solid aerosol fire extinguishers, but it is not easy to obtain a combustible material that can effectively exhibit the necessary properties of an initiator with only a small amount of heat energy without actually being affected by the environment. In order to solve this problem, in one embodiment of the present invention, it can be used as an initiator for the ignition device of a solid aerosol fire extinguisher by making an industrial nitriding surface widely used and easily available as lacquer with specific characteristics. Therefore, according to one embodiment of the present invention, by using the initiator for the ignition device of the solid aerosol fire extinguisher including the industrial nitriding surface, it helps the stable combustion of the ignition agent, and even when the thermal energy generated from the heating wire is small, the environment By effectively amplifying it without the influence of In addition, the initiator for the ignition device of the solid aerosol fire extinguisher according to an embodiment of the present invention is easily available, and uses, easy to use, handle and store industrial nitriding screen, so that it is possible to increase the efficiency in manufacturing and use.

Industrial nitride, which can be used as an initiator for an ignition device of a solid aerosol fire extinguisher according to this embodiment, is a white material having a specific gravity of about 1.6, and has a flash point of 180° C. or higher. In addition, industrial nitriding surface is strong against weak acids, but hydrolyzed by strong acids, and saponified and decomposed by weak alkalis. It can be completely dissolved in ketones and esters, and has excellent compatibility with resins and plasticizers.

Industrial nitriding which can be used as an initiator for the ignition device of the solid aerosol fire extinguisher according to this embodiment may have a nitrogen content of 11.5 to 12.2 wt%.

When the nitrogen content exceeds the above range, it is a hazardous material having explosive and strong combustibility, and it is impossible to use, store, transport and handle it as an industrial nitriding surface. In addition, if the nitrogen content is less than the above range, there is a problem that it cannot act as an initiator for the ignition device of a solid aerosol fire extinguisher, or the performance is insufficient. That is, when the nitrogen content is less than the above range, it cannot help the stable combustion of the ignition agent, and cannot amplify the thermal energy of the heating wire operating with instantaneous power, so it is difficult to be applied as an initiator.

The industrial nitriding surface that can be used as an initiator for the ignition device of the solid aerosol fire extinguisher according to this embodiment may have a moisture content of 4.0% by weight or less.

When the moisture content exceeds the above range, the quality of the industrial nitriding surface itself is deteriorated, and accordingly, it cannot exhibit sufficient properties as an initiator for the ignition device of a solid aerosol fire extinguisher.

Industrial nitriding screen that can be used as an initiator for the ignition device of the solid aerosol fire extinguisher according to this embodiment may have an acid content of 0.05 wt% or less, preferably 0.03 wt% or less.

The lower the acid content of the industrial nitriding surface, the better it is in terms of physical properties. If the acid content is high, the industrial nitriding surface solution is sulfided during manufacture, and the physical properties may be reduced. cannot exhibit sufficient characteristics.

In this embodiment, the industrial nitriding surface used as an initiator for the ignition device of a solid aerosol fire extinguisher may be used in a processed state to remove the wetting agent.

Industrial nitriding surfaces are dangerous for friction, impact, sparks, etc. and have poor storage stability, so wetting agents such as isopropyl alcohol, butyl alcohol, and water are added to them and sold and distributed while maintaining a wet state. In this embodiment, by drying and processing the wet industrial nitriding surface to remove the wetting agent, combustion can be performed well even with a small amount of thermal energy.

As described above, the drying and processing performed on the industrial nitriding surface primarily removes the wetting agent to ensure good combustion even with a small amount of thermal energy, and secondarily, the industrial nitriding surface is effectively used as an initiator for the ignition device of a solid aerosol fire extinguisher. It can be made to have certain physical properties in order to function. As long as the above object can be achieved, detailed method steps, process conditions, etc. in drying and processing are not particularly limited and may be applied.

In one embodiment, by treating the industrial nitriding surface by appropriately controlling the temperature and time, it is possible to effectively remove the wetting agent and to have effective physical properties as an initiator.

To this end, at a temperature in the range of 30 to 170 ° C., preferably 40 to 150 ° C., more preferably 50 to 130 ° C., for 30 minutes to 10 hours, preferably 1 hour to 8 hours, more preferably 2 to 7 hours. Can deal with vaginal surfaces. The treatment temperature and time can be selected to remove the wetting agent of the industrial nitriding surface and to exhibit sufficient properties as an initiator.

Alternatively, in another embodiment, the wetting agent may be removed through natural drying at room temperature (eg, 20±5° C.) for a sufficient time without additional heating.

In this way, by treating the industrial nitriding screen sold in the form containing the wetting agent under temperature and time control, or by drying it naturally at room temperature, the wetting agent can be effectively removed and the properties as an initiator can be sufficiently exhibited.

The initiator for the ignition device of the solid aerosol fire extinguisher according to an embodiment of the present invention can be applied regardless of the type of ignition device to increase the characteristics of the fire extinguisher. For example, when applied to an electric ignition device of a method of obtaining thermal energy by operating a heater heating wire by sufficient power, it helps to stably burn the ignition agent, thereby effectively burning the extinguishing agent. In addition, when applied to a self-powered ignition device of a method using instantaneous power generated from the self-generation device, the ignition agent is effectively burned by effectively amplifying the thermal energy of the heating wire by overcoming the limit of the amount of power, and thereby The fire extinguishing agent can be burned normally by thermal energy.

That is, the initiator for the ignition device of the solid aerosol fire extinguisher according to an embodiment of the present invention helps the stable combustion of the ignition agent, and even if the thermal energy generated from the heating board of the ignition device is small, it sufficiently amplifies it, Sufficient thermal energy can be provided for normal combustion, thereby optimizing the operating performance of the fire extinguisher. In addition, the initiator for the ignition device of the solid aerosol fire extinguisher according to an embodiment of the present invention can effectively exhibit the characteristics as an initiator without the influence of the environment, and is widely used in the ignition device of the solid aerosol fire extinguisher regardless of the operation method of the ignition device can be applied. Furthermore, the initiator for the ignition device of the solid aerosol fire extinguisher according to an embodiment of the present invention can be easily purchased and has the advantage of easy handling, so that the efficiency can be further increased in terms of manufacture and use.

Next, an ignition device of a solid aerosol fire extinguisher according to an embodiment of the present invention will be described.

1 is a schematic cross-sectional view of an ignition device of a solid aerosol fire extinguisher according to an embodiment of the present invention.

1, the ignition device 100 of the solid aerosol fire extinguisher according to an embodiment of the present invention is accommodated in the body 10, the heating board 30; An initiator 40 for the ignition device of a solid aerosol fire extinguisher; ignition agent (20); and a cap 50 . In this embodiment, the initiator 40 for the ignition device of the solid aerosol fire extinguisher is according to the above-described embodiment, and since it has been described in detail above, in this embodiment, the detailed description is omitted to avoid repetition.

The body 10 includes a heating board 30; An initiator 40 for the ignition device of a solid aerosol fire extinguisher; ignition agent (20); And it may serve as a container for accommodating the cap 50 therein, and may include at least one inlet 11 .

In one embodiment, the body 10 may be made of a vacuum pack with an inside in a vacuum state. The construction of the vacuum state may be performed by various known methods. For example, by filling the initiator 40 and the ignition agent 20 into the vacuum pack through the inlet 11 of the vacuum pack 10, and then maintaining the inside of the vacuum pack in a vacuum state, the interior of the ignition device moisture can be removed. Alternatively, for example, after the initiator 40 and the ignition agent 20 are filled in the vacuum pack, the air inside the vacuum pack may be sucked into a vacuum state, or nitrogen may be charged using a vacuum pump or the like. This can create a vacuum.

The cap 50 of the ignition device 100 of the solid aerosol fire extinguisher according to an embodiment of the present invention surrounds the heating board 30 and the initiator 40 for the ignition device of the solid aerosol fire extinguisher, the upper and lower portions are open may have a form. For example, the initiator 40 for the ignition device of the solid aerosol fire extinguisher may be disposed to surround the side, or the side and top, or the side, top and bottom of the heated board 30, and the ignition device of this solid aerosol fire extinguisher A cap 50 may be disposed to surround the outer surface of the container initiator 40 . The upper portion of the initiator 40 for the ignition device of the solid aerosol fire extinguisher in which the cap 50 is not disposed may be opened and in contact with the ignition agent 20 , and the lower portion may be opened and contact the body 10 .

The cap 50 of the ignition device 100 of the solid aerosol fire extinguisher according to an embodiment of the present invention supports the initiator 40 for the ignition device of the solid aerosol fire extinguisher not to be separated from the heating board 30, and the ambient temperature change Accordingly, it is possible to prevent the thermal energy generated from the heating board 30 from being lowered and to prevent the malfunction of the combustion of the initiator 40 for the ignition device of the solid aerosol fire extinguisher.

In one embodiment, the cap 50 may be made of a thermoplastic resin.

For example, the cap 50 may include polyethylene (PE), polypropylene (PP), or a combination thereof.

The ignition agent 20 is accommodated in the body 10 and is disposed in contact with the initiator 40 for the ignition device of the solid aerosol fire extinguisher enclosed by the cap 50, and is combusted by thermal energy to burn the extinguishing agent have.

The ignition agent 20 may be burned by heat and flame generated from the heating board 30 , and/or may be burned by thermal energy amplified by the initiator 40 . That is, since the ignition device 100 of the solid aerosol fire extinguisher according to this embodiment uses the initiator 40 including an industrial nitriding surface, it helps the stable combustion of the ignition agent 20, and is generated from the heating board 30 Even when the combustion of the ignition agent 20 is difficult or insufficient with only the thermal energy to be used, the thermal energy is effectively amplified by the initiator 40 so that the ignition agent 20 can be effectively burned. As a result, the extinguishing agent of the solid aerosol extinguisher can be burned normally, and effective extinguishing performance can be exhibited.

In one embodiment, the ignition agent 20 may further include an oxidizing agent to facilitate combustion. For example, the oxidizing agent is potassium iodide (potassium iodide), potassium bromide (potassium bromide), lithium chloride (lithium chloride), potassium iodate (potassium iodate), potassium nitrate (potassium nitrate), potassium bromate, It may be selected from the group consisting of sodium nitrate, lithium perchlorate, ammonium nitrate phase-stabilized with potassium nitrate (AN/KN), and combinations thereof.

In one embodiment, the ignition agent 20 may further include a combustion promoter. By further including a combustion accelerator, the combustion of the ignition agent 20 can be made more easily, and as a result, the normal combustion of the extinguishing agent can be increased.

In one embodiment, the combustion promoter may include a metallic combustion promoter, an organic combustion promoter, or a combination thereof.

Examples of metallic combustion accelerators include, but are not limited to, titanium hydride, aluminum, aluminum hydride, copper, copper oxide, magnesium, magnesium hydride, titanium, titanium hydride, beryllium, and combinations thereof. Organic combustion accelerators include, but are not limited to, guanidine nitrate.

The heating board 30 may be installed on the opposite side of the inlet 11 inside the body 10, and may generate thermal energy by receiving electricity generated from the fire detection device. The thermal energy generated by the heating board 30 may directly burn the ignition agent 20 , and/or may be amplified by the initiator 40 to burn the ignition agent 20 .

The heating board 30 may be surrounded by the initiator 40 .

The heating board 30 may be formed of a heating wire having a low thermal energy source using instantaneous power. That is, the heating wire board 30 may be formed of a heating wire having low thermal energy. For example, the heating wire may be a tungsten wire, a stainless wire, or a nickel alloy wire. Since such a heating wire has little thermal energy of the heating wire itself, the thermal energy may not be sufficient to burn the ignition agent 20 . Accordingly, the ignition device 100 of the solid aerosol fire extinguisher of the present invention may further include an initiator 40 to amplify the thermal energy generated from the heating wire.

In addition, ignition jade (explosive material) may be applied to the heating wire having a low heat energy source using the instantaneous power. Ignition jade can provide heat in the form of a transient explosion powered by an electric spark. Therefore, when using a heating wire coated with ignition jade, it is possible to generate thermal energy capable of burning the ignition agent without an initiator.

In addition, the heating board 30 may be formed of a heating wire having a high thermal energy source using continuous power. That is, the heating wire board 30 may be formed of a heating wire having high thermal energy. For example, the hot wire may be a nichrome or nickel alloy wire, and a hot wire with high resistivity. Since such a heating wire can emit sufficient thermal energy, it is possible to directly burn the ignition agent 20 without an ignition jade or an initiator.

The ignition device of the solid aerosol fire extinguisher according to this embodiment can burn well even by small thermal energy, and by using an initiator including an industrial nitriding surface that can be easily purchased and is easy to handle, in the heating board of the ignition device Even if the generated thermal energy is small, it can be sufficiently amplified to provide sufficient thermal energy to normally burn the fire extinguishing agent, thereby optimizing the operating performance of the fire extinguisher.

Next, with reference to FIGS. 2 and 3, a solid aerosol fire extinguisher to which the ignition device according to an embodiment of the present invention is applied will be described.

Figure 2 is a schematic cross-sectional view of a solid aerosol fire extinguisher according to an embodiment of the present invention, Figure 3 is a cross-sectional view of a solid aerosol fire extinguisher according to an embodiment of the present invention. In the description of the solid aerosol fire extinguisher 1000, the initiator 40 for the ignition device of the solid aerosol fire extinguisher described in detail in the above-described embodiment and the ignition device 100 of the solid aerosol fire extinguisher are detailed in order to avoid repetition. A description is omitted.

The solid aerosol fire extinguisher 1000 of the present invention may include an extinguishing agent 200 for generating extinguishing gas by combustion and an ignition device 100 for burning the extinguishing agent. 2 and 3 , the ignition device 100 is disposed on one side of the inside of the fire extinguisher, and the extinguishing agent 200 may be accommodated around the ignition device 100 . The extinguishing agent 200 is burned by the ignition device 100, and the extinguishing component in the form of a solid aerosol may be discharged through the outlet 400 provided on the other side of the extinguisher. A coolant 300 may be provided between the extinguishing agent 200 and the outlet 400 . The coolant 300 provides a space through which the extinguishing component can pass, and may serve to cool the combustion heat generated while the extinguishing agent is burned through an endothermic reaction. On the other hand, the outlet 400 may be optionally provided with a breathable tape (500). The breathable tape 500 may continuously discharge the explosive gas inside the fire extinguisher to the outside.

Next, the operation of the solid aerosol fire extinguisher 1000 of the present invention will be described. When a fire occurs in the space where the solid aerosol fire extinguisher is installed, electricity is instantaneously automatically supplied by the fire detection device to generate heat and sparks from the heating board 30 of the ignition device 100 . At this time, the ignition agent 20 is directly burned by the generated thermal energy, and/or this thermal energy is amplified by the initiator 40, and the ignition agent 20 is burned by the amplified thermal energy, thereby The flame burns the extinguishing agent 200 to generate a solid aerosol. The solid aerosol is cooled while passing through the coolant 300 and discharged out of the fire extinguisher through the outlet 400 . The discharged solid aerosol extinguishes the fire by shutting off oxygen in the fire area or by interrupting the chain reaction of the fire.

The present invention is not limited by the above-described embodiments and the accompanying drawings, and it is common in the art to which the present invention pertains that various substitutions, modifications, and changes are possible within the scope of the technical spirit of the present invention. It will be clear to those who have knowledge.

10: body
11: Inlet
20: ignition agent
30: heated board
40 : Catalyst
50: cap
100: Ignition device of a solid aerosol fire extinguisher
200: extinguishing agent
300: coolant
400: outlet
1000: solid aerosol fire extinguisher

Claims (10)

An initiator for the ignition device of a solid aerosol fire extinguisher comprising an industrial nitriding surface having a nitrogen content of 11.5 to 12.2% by weight.
According to claim 1,
The industrial nitriding surface has a moisture content of 4.0% by weight or less.
A detonator for the ignition system of a solid aerosol fire extinguisher.
According to claim 1,
The industrial nitride screen has an acid content of 0.05% by weight or less.
A detonator for the ignition system of a solid aerosol fire extinguisher.
According to claim 1,
The industrial nitriding surface is a state in which the wetting agent is removed.
A detonator for the ignition system of a solid aerosol fire extinguisher.
5. The method of claim 4,
The industrial nitriding screen is a state in which the wetting agent is removed by treatment at 30 to 170° C. for 30 minutes to 10 hours, or by natural drying at room temperature.
A detonator for the ignition system of a solid aerosol fire extinguisher.
According to claim 1,
The industrial nitriding surface helps the stable combustion of the ignition agent included in the ignition device of the solid aerosol fire extinguisher, and can amplify the thermal energy even when the thermal energy of the heating wire is small.
A detonator for the ignition system of a solid aerosol fire extinguisher.
In the ignition device of a solid aerosol fire extinguisher,
a heating board 30 receiving electricity generated from a fire detection device to generate thermal energy;
According to any one of claims 1 to 6, which is arranged to surround the heating board 30, amplifies the thermal energy generated from the heating board 30, and helps the stable combustion of the ignition agent 20 Initiator 40 for the ignition device of the solid aerosol fire extinguisher according to;
a cap 50 which is disposed to surround the outer surface of the initiator 40 for the ignition device of the solid aerosol fire extinguisher, the upper and lower portions are in an open state; and
It is disposed in contact with the initiator 40 for the ignition device of the solid aerosol fire extinguisher, and is combusted by thermal energy, comprising an ignition agent 20 capable of burning the extinguishing agent.
Ignition device for solid aerosol fire extinguishers.
8. The method of claim 7,
The cap 50 supports the initiator 40 for the ignition device of the solid aerosol fire extinguisher not to be separated from the heating board 30, and the thermal energy generated from the heating board 30 according to the change of ambient temperature is lowered. to prevent the combustion malfunction of the initiator 40 for the ignition device of the solid aerosol fire extinguisher
Ignition device for solid aerosol fire extinguishers.
8. The method of claim 7,
The cap 50 is made of a thermoplastic resin.
Ignition device for solid aerosol fire extinguishers.
8. The method of claim 7,
The ignition agent 20 is potassium iodide (potassium iodide), potassium bromide (potassium bromide), lithium chloride (lithium chloride), potassium iodate (potassium iodate), potassium nitrate (potassium nitrate), potassium bromate (potassium bromate) , sodium nitrate (sodium nitrate), lithium perchlorate (lithium perchlorate), AN / KN (ammonium nitrate phase-stabilized with potassium nitrate), and further comprising one or more oxidizing agents selected from the group consisting of combinations thereof
Ignition device for solid aerosol fire extinguishers.

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