KR102670581B1 - Automatic fire extinguishing device for small spaces - Google Patents

Abstract

The present invention relates to a small space automatic fire extinguishing device, comprising: a chemical tank in which a fire extinguishing agent is stored at a predetermined pressure; A tank assembly with a barrier installed and coupled to the chemical tank; a spray body coupled to the tank assembly and supporting the bulb support; a body assembly having a plurality of second injection holes through which a fire extinguishing agent is ejected and coupled to the injection body; a moving member installed inside the body assembly so that when the bulb is damaged by a flame, it can move toward the tank assembly by the elastic force of the spring; A bulb support that supports the bulb and is located below the moving hole formed in the moving member and supported by the coupling/supporting protrusion of the spray body; A striking member coupled to the lower part of the moving member so that the fire extinguishing agent stored in the chemical tank is moved toward the body assembly and sprayed by piercing the blocking film installed on the tank assembly 20 by the elastic force of the spring; A bulb installed between the bulb support and the fastening member and located inside the moving member; A spring located between the fastening member coupled to the upper part of the moving member and the body assembly and moving the moving member toward the tank assembly by elastic force when the bulb is broken, and a fog (fog) when the fire extinguishing agent is ejected. By spraying in the form of fog, the fire extinguishing ability is maximized and fires that occur in small spaces where fire extinguishing agents cannot be sprayed directly are easily extinguished.

Description

Automatic fire extinguishing device for small spaces}

The present invention relates to a small space automatic fire extinguishing device, and more specifically, when a fire occurs in a small space such as a switchboard, control panel, various mechanical devices or home appliances, the bulb ruptures due to heat and at the same time extinguishing agent is extinguished by blow. This is about a small space automatic fire extinguishing device that allows fire to be extinguished at an early stage by spewing out.

Fire extinguishing devices that are triggered by thermal trigger elements to release extinguishing agent for fire extinguishing or fire-protection when the ambient temperature rises beyond a normal and acceptable level; or The provision of firefighting equipment has been known for a long time. Since the above devices have been known for quite a long time in the form of sprinkler systems for the protection of areas of large areas, especially in the interior spaces of buildings, such as office spaces, living spaces, covered garages, etc. Consideration and approaches to use corresponding fire extinguishing systems and/or firefighting equipment for the protection of smaller dimensioned spaces and volumes are also increasing.

For example DE 10 2009 023 422 A1 describes an electrical structural component fitted within a housing, which in one embodiment comprises an electric reading light arranged in a vehicle, wherein the electric reading light comprises: , Due to the special fire hazard of the electrical components, a miniaturized fire extinguishing device suitable for extinguishing or preventing a fire occurring inside the housing through the release of a fire extinguishing agent is placed inside the housing. For triggering the fire extinguishing device, a thermal sensor has been proposed, which can be bimetallic or memory metal, for example. As an advantage of the sensor components, the possibility of making it possible to monitor the ambient temperature passively, especially in a current-free state, is mentioned here. However, a more precise description of the type and method of the small fire extinguishing device described in DE 10 2009 023 422 A1 is not specified in the above German publication.

A further example of providing locally concentrated fire extinguishing capacity in fire-hazard areas of densely confined spaces is given in DE 10 2011 087 608 B3. In this German publication, a laundry dryer with a passive extinguishing system is disclosed. In the case of the passive fire extinguishing system proposed in the German publication, a storage tank for the extinguishing agent is provided in the form of a centrally placed container, from which extinguishing agent lines are connected to various sensitive and fire-hazardous points. The extinguishing agent lines are closed with thermally triggered valves, so that in the event of a fire at any one of the sensitive points, the valve at that point is opened and the extinguishing agent is distributed from a centrally placed container. It may be supplied via lines to a possible fire source and released. For thermal trigger elements of thermally triggered valves, the German publication exemplifies the so-called thermo-bulb, which is a tubular glass vessel filled with a thermal trigger liquid and closed on both sides, the thermal trigger liquid being , when the preset triggering temperature is reached or exceeded, the pressure built up expands in such a way that the wall of the glass container ruptures, thereby destroying the thermal trigger element and causing the opening of the valve.

A similar thermal trigger element as part of a valve assembly is indicated in DE 199 11 530 C2, wherein in one embodiment, as shown in the drawing of this German publication, the trigger valve comprises a perforated element in the form of a hollow needle. , the hollow needle is disposed on a trigger portion. The trigger element is held in the standby position by a thermal trigger element, here again the so-called heat bulb, and is preloaded in the direction of the triggering position via a helical spring, and when the thermal trigger element is triggered (the heat bulb ruptures) the trigger element triggers the trigger element. moves into position and at the same time drives the hollow needle forward. In the triggering position, the hollow needle pierces the closure membrane closing the overflow channel. The thermally triggered valve shown herein is described in connection with use as a safety valve for compressed gas containers, wherein the safety valve is filled with a flammable gas as required when the triggering temperature exceeds a critical level. To relieve the pressure of the pressurized vessel and thereby eliminate the risk of fire or explosion, the emergency opening is opened to release the compressed gas. However, in principle the valve shown in DE 199 11 530 C2 can also be considered as a trigger valve for fire extinguishing systems and/or fire fighting equipment where compressed extinguishing agent is suitably applied instead of pressurized flammable compressed gas in the overflow channel. .

In EP 2 332 616 A1, additional possibilities for fire protection of electrical appliances are described. In the case of the solution presented in this European Publication, a storage tank or storage vessel for the fire extinguishing agent is integrated into the housing element, which opens the openings, for example by melting the corresponding material of the walls, when a critical temperature is exceeded. , As a result, the fire extinguishing agent placed in the storage container, such as C6 fluorinated ketone, is designed to be released through the opening.

US 7,703,640 B1 describes a thermally triggered vent valve mounted on a pressurized gas container to open the pressurized gas container when overheated and thus discharge the gas contained within the container, thus preventing rupture of the gas container. there is. Fire extinguishing systems or fire fighting equipment are not disclosed in this US bulletin.

In other words, it can be seen that there is an increasing need for miniaturized fire extinguishing devices and/or fire-fighting equipment that are specifically, correspondingly limited in scope and are equipped in spaces exposed to increased fire risk and enable these spaces to be protected. . This applies, for example, to special areas and interiors of household appliances, for example areas in which heat-generating electronic components are placed (e.g. switchboards and control panels with their own housing), or corresponding appliances. The fields themselves also apply to areas that generate process heat, for example in the case of laundry dryers. In particular, here, it is formed as an independent member and part, which can be dimensionally designed compactly and, as an independent member, can be installed flexibly and independently in a number of fields of application in areas with corresponding hazards or spaces with corresponding fire hazards. and, if the triggering is carried out immediately at the installation site, on the one hand to prevent fires as a result, in some cases by extinguishing local fires that have already occurred to prevent their further spread, and on the other hand, to prevent further escalation of fires, e.g. In order to exclude that additional members and parts of relatively more complex structures, such as larger domestic appliances or, for example, entire vehicles, being damaged through the use of extinguishing agents or extinguishing agents, the corresponding fire extinguishing device and/or It is necessary to specify that fire extinguishing systems and/or fire fighting equipment are capable of discharging a quantity of extinguishing agent matching the volume of the compartment in which the fire fighting equipment is placed.

As a prior document to improve the above-mentioned problems, Patent Publication No. 10-2035895 (announced on October 23, 2019) titled “Compact small fire extinguishing device and/or fire-fighting equipment” is a passive thermally controlled trigger valve for forming fire-fighting equipment. As, a bearing part; a trigger portion movable relative to the bearing portion between a standby position and a triggering position; A perforation member disposed on the trigger portion; Spring means disposed between the bearing portion and the trigger portion to preload the trigger portion to the triggering position relative to the bearing portion; 1. A passive thermally controlled trigger valve comprising a thermal trigger member for maintaining the trigger portion in a resting position against a preload applied by spring means, wherein the trigger portion surrounds the bearing portion in at least one section (21) and is connected to the bearing portion. Characterized in that it forms a sleeve section that is seated on the bearing section and is movable on the bearing section in the longitudinal direction of the bearing section between a standby position and a triggering position.

Additionally, the perforating member is preloaded in the direction of the triggering position and maintained in a waiting position different from the triggering position by the thermal trigger member, wherein the thermal trigger member is configured to trigger when triggering is caused via reaching a preset triggering temperature. , characterized in that the piercing member is released in such a way that the piercing member is driven from the standby position through a preload applied to it and moves to a triggering position where it pierces the closure member.

The above prior literature shows that when a fire occurs and the bulb bursts due to the flame, the compression spring is relaxed and the bearing moves to the upper part of the dome section, moving the pressure vessel in the direction where the perforating member is located. At this time, the closing film is closed by the perforating member. The fire extinguishing agent stored in the pressure vessel is pierced and extinguished.

However, when the pressure vessel containing the fire extinguishing agent moves by the compression spring, the outer surface of the bearing part remains in close contact with the inner surface of the trigger part, so it is not easy to move due to friction, and as a result, the perforating member is not able to properly perforate the closure film. There were cases where learning was not possible.

Registered Patent Publication No. 10-2035895 (announced on October 23, 2019)

In order to solve the above-mentioned problems, the present invention is designed to initiate the fire by rupturing the bulb due to heat when a fire occurs in a small space such as a switchboard, control panel, various mechanical devices, or home appliances, and at the same time extinguishing agent is ejected by a blow. The purpose is to provide a small space automatic fire extinguishing device that can extinguish the fire.

The purpose of the present invention is to provide a small space automatic fire extinguishing device that maximizes fire extinguishing ability by spraying the extinguishing agent in the form of fog when it is ejected.

The present invention is a small space automatic fire extinguisher that allows heat to easily flow into the bulb due to a fire occurring inside a small space, causing quick damage to the bulb in the event of a fire, facilitating the ejection of the fire extinguishing agent stored in the chemical tank, and enabling initial fire extinguishment. The purpose is to provide a device.

The present invention is a means to achieve the above object,

a chemical tank in which fire extinguishing chemicals are stored at a predetermined pressure; A tank assembly with a barrier installed and coupled to the chemical tank; a spray body coupled to the tank assembly and supporting the bulb support; a body assembly having a plurality of second injection holes through which a fire extinguishing agent is ejected and coupled to the injection body; a moving member installed inside the body assembly so that when the bulb is damaged by a flame, it can move toward the tank assembly by the elastic force of the spring; A bulb support that supports the bulb and is located below the moving hole formed in the moving member and supported by the coupling/supporting protrusion of the spray body; A striking member coupled to the lower part of the moving member so that the fire extinguishing agent stored in the chemical tank is moved toward the body assembly and sprayed by piercing the blocking film installed on the tank assembly 20 by the elastic force of the spring; A bulb installed between the bulb support and the fastening member and located inside the moving member; A spring located between the fastening member coupled to the upper part of the movable member and the body assembly moves the movable member toward the tank assembly by elastic force when the bulb is damaged.

The tank assembly of the present invention is characterized in that a pressure gauge is installed to check the pressure while coupled to the chemical tank, and the pressure gauge is equipped with a support panel to prevent deformation of the pressure gauge due to impact, etc.

The spraying body of the present invention has a coupling/supporting protrusion formed at the top to protrude inward from the body assembly so that the bulb support can be supported and the bulb can be installed, and the spraying body is in close contact with the tank assembly so that the striking member is A protrusion is formed at 2/3 of the inside from the top to limit the movement of the coupled moving member, and a plurality of first injection holes through which the fire extinguishing agent is sprayed are formed in the area where the protrusion is formed. .

The moving member of the present invention is formed with a moving member body that moves in the direction in which the tank assembly is located while being guided to the bulb support by the elastic force of the spring, and a fastening hole into which the striking member is coupled is formed in the lower part of the moving member, and the moving member It is characterized by movable holes being formed in four directions so that the bulb holder can be inserted into the body.

The fastening member of the present invention is composed of a fastening member body formed in a cylindrical shape, a portion of which flows into the inside of the moving member and is screwed, and a flange is formed on the outer periphery of the fastening member body to adhere to the upper end of the moving member 50. In this state, a space is provided for the bulb to be installed, and when the bulb is damaged by heat, the blocking film installed on the tank assembly is pierced by the striking member, so that the fire extinguishing agent stored in the chemical tank can be sprayed through the second injection hole of the body assembly. It is characterized in that a first discharge hole formed in and a plurality of second discharge holes are formed on the outer periphery of the first discharge hole.

The bulb support of the present invention is located at the bottom of the moving hole of the moving member and is supported on the top of the coupling/supporting protrusion of the spray body, so that when the bulb is ruptured by flame, the moving member can move downward so that the cross-shaped edge is oriented inward. The cross-section is formed in a 'U' shape to guide the movement of the moving member, and a bulb support hole is formed in the center of the cross shape to support the bulb.

The striking member is made of a cylindrical shape, has a first inlet hole through which the fire extinguishing agent flows in, and is composed of a striking member body whose lower end is formed with an inclined surface inclined at a predetermined angle, and strikes to facilitate the introduction of the fire extinguishing agent stored in the chemical tank. A plurality of second inlet holes are formed in the member body, and a fastening protrusion coupled to the fastening hole of the moving member body is formed on the upper part of the striking member body.

The spring of the present invention is installed in a compressed state while being supported on the lower part of the flange of the fastening member and the upper part of the body assembly, respectively, and when the bulb is damaged by flame, it is released and moves the moving member to which the fastening member is coupled to where the chemical tank is located. It is characterized in that the blocking film installed on the tank assembly is damaged by the striking member installed on the moving member by moving in the direction, and the initial fire extinguishing agent is carried out by the fire extinguishing agent in the chemical tank.

In the present invention, when a fire occurs in a small space such as a switchboard, control panel, various machinery or home appliances, the bulb is ruptured by heat and at the same time, the fire extinguishing agent is sprayed in the form of a force (fog) by the blow to initially extinguish the fire. This has the effect of preventing the fire from spreading.

In addition, the present invention maximizes fire extinguishing ability by spraying the fire extinguishing agent in the form of fog when it is ejected, making it suitable for use in small spaces where it is difficult to spray the fire extinguishing agent directly in the event of a fire.

In addition, the present invention has the effect of allowing the heat generated inside the small space to easily flow into the bulb, so that in the event of a fire, the bulb is quickly damaged and the fire extinguishing agent stored in the chemical tank is easily ejected, thereby achieving initial fire extinguishment.

In addition, the present invention has the effect of being very easy to use for fire suppression by installing it in small spaces such as switchboards, control panels, various mechanical devices, or home appliances.

In addition, the present invention not only allows the small space automatic fire extinguishing device to be installed in different sizes depending on the size of the space in which it is installed, but also prevents the fire from spreading by quickly extinguishing the fire at an early stage when a fire occurs in the installed space. There is a possible effect.

Figure 1 is a perspective view showing a small space automatic fire extinguishing device according to the present invention.
Figure 2 is an exploded view showing the small space automatic fire extinguishing device shown in Figure 1.
Figure 3 is an exploded cross-sectional view of the small space automatic fire extinguishing device shown in Figure 1.
Figure 4 is a cross-sectional view showing the combined configuration of the small space automatic fire extinguishing device shown in Figure 1.
Figure 5 is a cross-sectional view showing a state in which the chemical tank and tank assembly of the small space automatic fire extinguishing device shown in Figure 1 are combined.
Figure 6 is a cross-sectional view showing the spray body of the small space automatic fire extinguishing device shown in Figure 1.
Figure 7 is a perspective view showing a movable member of the small space automatic fire extinguishing device shown in Figure 1.
Figure 8 is a perspective view showing the bulb support of the small space automatic fire extinguishing device shown in Figure 1.
Figure 9 is a perspective view showing a striking member of the small space automatic fire extinguishing device shown in Figure 1.
Figure 10 is a bottom perspective view showing a fastening member of the small space automatic fire extinguishing device shown in Figure 1.
Figure 11 is a view showing a state in which the small space automatic fire extinguishing device according to the present invention is fixed to a clip.
Figure 12 is an operating state diagram showing a state in which a small space automatic fire extinguishing device according to the present invention sprays a fire extinguishing agent while being fixed to a clip.

Hereinafter, a small space automatic fire extinguishing device according to the present invention will be described.

The small space automatic fire extinguishing device according to the present invention includes a chemical tank (10) in which a fire extinguishing agent is stored at a predetermined pressure; A tank assembly (20) equipped with a barrier film (26) and coupled to the chemical tank (10); a spray body (30) coupled to the tank assembly (20) and supporting the bulb support (70); A body assembly (40) having a plurality of second injection holes (41) through which the fire extinguishing agent is ejected and coupled to the injection body (30); a moving member 50 installed inside the body assembly 40 so that when the bulb is damaged by a flame, it can move toward the tank assembly by the elastic force of the spring; A bulb support (70) supporting the bulb (90) and positioned below the moving hole (53) formed in the moving member (50) and supported by the coupling/supporting protrusion (31) of the spraying body (30); It is coupled to the lower part of the moving member 50 so that the fire extinguishing agent stored in the chemical tank 10 is moved toward the body assembly 40 and sprayed by piercing the blocking film 26 installed on the tank assembly 20 by the elastic force of the spring 100. A striking member (80) and; A bulb 90 installed between the bulb support 70 and the fastening member 60 and located inside the moving member 50; It is located between the fastening member 60 coupled to the upper part of the moving member 50 and the body assembly 40, and when the bulb 90 is damaged, the moving member 50 is moved toward the tank assembly 20 by elastic force. It is characterized in that it includes a spring (100).

The small space automatic fire extinguishing device according to the present invention, which has the above features, will be described in detail with the accompanying drawings.

When described in detail with reference to FIGS. 1 to 12, the small space automatic fire extinguishing device according to the present invention includes a chemical tank (10), a tank assembly (20), a spray body (30), a body assembly (40), and a moving member (50). ), bulb support 70, striking member 80, fastening member 60, bulb 90, and spring 100.

The chemical tank 10 has a space inside which the fire extinguishing agent is stored, and a tank body 11 is formed in an oval shape. The tank body 11 has an external top so that a tank assembly 20 can be coupled thereto. A screw is formed on the periphery to form a protruding coupling protrusion (12), and a hole is formed in the coupling protrusion (12) to allow the medicine to be injected into the tank body (11).

The tank assembly 20 is coupled to the chemical tank 10 to facilitate the spraying of the fire extinguishing agent and at the same time to check the pressure of the fire extinguishing agent. In addition, the tank assembly 20 is installed inside the small space and acts to guide the fire extinguishing agent to be sprayed to a location where a fire may occur.

The bent angle of the tank assembly 20 is characterized in that it has an inclination of at least one of 30° to 60° around the vertical direction of the chemical tank. In addition, the tank assembly 20 is bent at an angle so that the fire extinguishing agent can be instantly spread to the area where a fire may occur, making it easy to extinguish a fire at an early stage.

The tank assembly 20 is made to penetrate from one side to the other side and has a predetermined slope from the middle portion to one side to form a combination body 21, and at the bottom of the combination body 21 is a chemical tank 10. A coupling bolt 22 is integrally formed to be coupled to the coupling coupling protrusion 12, and a gauge coupling protrusion 23 to which the pressure gauge 24 is coupled is formed integrally in the upward direction of the coupling bolt 22. do.

In addition, a blocking film 26 is installed at the entrance of the combination body 21, and the blocking film 26 prevents the medicine stored inside the tank body 11 from being discharged to the outside. And the blocking film 26 allows the fire extinguishing agent to be ejected only when damaged by the striking member 80.

The pressure gauge 24 is installed on the gauge coupling protrusion 23 formed on the tank assembly 20 to check the pressure of the fire extinguishing agent stored in the chemical tank 10. In addition, the pressure gauge 24 is provided with a support panel 25 to prevent deformation of the pressure gauge 24 due to impact, etc. The outer periphery of the support panel 25 is inclined at a predetermined angle so that it can be supported in a way that surrounds the outer periphery of the pressure gauge 24.

The spray body 30 is coupled to the tank assembly 20 to support the bulb support 70 while interdicting the movement of the moving member 50 to which the striking member 80 is coupled. do.

A coupling/supporting protrusion 31 is formed at the top of the spray body 30, and the coupling/supporting protrusion 31 is installed to protrude inward on the body assembly 40 so that the bulb support 70 is supported. (90) so that it can be installed.

The injection body 30 has a protrusion 32 formed at a 2/3 point from the top to the inside, and the protrusion 32 is in close contact with the injection body 30 while it is coupled to the tank assembly 20, and is struck. The member 80 limits the movement of the coupled moving member 50.

In addition, a plurality of first injection holes 33 are formed in the portion where the protrusion 32 is formed so that the fire extinguishing agent is sprayed in the form of a mist fork to promote fire suppression, and the plurality of first injection holes 33 are formed. The fire extinguishing agent supplied from the chemical tank (10) is sprayed in the form of a fog fork through (33).

On the downward side of the protrusion 32, a threaded coupling hole 34 is formed on the inner lower side of the spray body 30, and a through hole 35 is formed to be connected to the coupling hole 34. (35) is formed on the inside of the spray body (30) on the upper side of the protrusion (32) so that the fire extinguishing agent supplied from the chemical tank (10) can be supplied to the body assembly (40).

The body assembly 40 is coupled to the top of the spray body 30 to spray the fire extinguishing agent supplied from the chemical tank 10 to achieve initial firefighting.

A second injection hole 41 is formed in the body assembly 40 to allow the fire extinguishing agent to spread in four directions, and the second injection hole 41 is formed in a peanut shape so that the fire extinguishing agent is sprayed as it spreads. do. In addition, a blowing hole 42 is formed at the top of the body assembly 40 so that the fire extinguishing agent can be sprayed in the form of fog.

The moving member 50 is located at the upper part of the spray body 30 and installed inside the body assembly 40. The moving member 50 is formed with a cylindrical moving member body 51, and the bottom of the moving member body 51 has a fastening hole formed on the inner periphery so that the striking member 80 can be screwed ( 52) is formed, and a plurality of moving holes 53 are formed vertically in four directions so that the bulb support 70 can be coupled and moved.

The fastening member 60 is coupled to the upper part of the moving member 50 to fix the bulb 90 installed inside the moving member 50. In addition, the fastening member 60 includes a fastening member body 61 formed in a cylindrical shape, a portion of which flows into the inside of the moving member 50 and is screw-fastened, and a flange is attached to the outer periphery of the fastening member body 61. (62) is formed to provide a space for the bulb 90 to be installed in close contact with the top of the moving member 50, and the bulb 90 is damaged by heat and is formed by the striking member 80 to form a tank assembly ( A first discharge hole (63) formed in the center so that the fire extinguishing agent stored in the chemical tank (10) can be sprayed through the second injection hole (41) of the body assembly (40) by piercing the blocking film (26) installed in the body assembly (40). And a plurality of second discharge holes (64) are formed around the first discharge hole (63) and its outer periphery.

In addition, the lower end of the first discharge hole 63 is formed in an arch shape so that it can be installed stably when the upper part of the bulb 90 is coupled.

The fire extinguishing agent flowing through the first discharge hole 63 and the second discharge hole 64 is sprayed through the second injection hole 41 formed in the body assembly 40 to suppress the fire at an early stage. do.

The bulb support 70 is shaped like a cross and is located at the lower end of the moving hole 53 of the moving member 50, and is supported on the upper end of the coupling/supporting protrusion 31 of the spraying body 30, so that the bulb 90 is provided. When ruptured by flame, the moving member 50 is guided to move downward.

And a bulb support hole 71 is formed at the center of the bulb support 70 to support the bulb 90.

In addition, the bulb support 70 is formed so that the cross-shaped edges are gathered in the inward direction, and the cross-section is formed in a 'U' shape, so that it serves as a guide when moving the moving member 50 to facilitate movement.

The striking member 80 pierces the blocking film 26 installed on the tank assembly 20, and the fastening hole of the moving member 50 allows the fire extinguishing agent stored in the chemical tank to be supplied to the body assembly 40 to extinguish the fire ( 52).

The striking member 80 is made of a cylindrical shape, has a first inlet hole 83 through which the fire extinguishing agent flows, and is formed with a striking member body 81 whose lower end is formed with an inclined surface 82 inclined at a predetermined angle. A plurality of second inlet holes 84 are formed in the striking member body 81 to facilitate the introduction of the fire extinguishing agent stored in the chemical tank 10, and are coupled to the fastening hole 52 of the moving member body 51. A fastening protrusion 85 is formed on the upper part of the striking member body 81.

In addition, a hole (not marked) through which the fire extinguishing agent is moved is provided on the fastening protrusion 85 so that the fire extinguishing agent flowing through the first inlet hole 83 and the second inlet hole 84 can be supplied to the body assembly 40. is formed

The lower and upper ends of the bulb 90 are supported on the upper part of the bulb support hole 71 of the bulb support 70 and the bottom formed in the center of the fastening member 60, so that it can be used as a distribution board, control panel, various mechanical devices or home appliances, etc. When a fire occurs where a small space is formed, it is damaged by flame flowing in through the second injection hole (41) of the body assembly (40).

The spring 100 is installed in a compressed state while being supported at the lower part of the flange 62 of the fastening member 60 and the upper part inside the body assembly. The spring 100 is relaxed when the bulb 90 is damaged by a flame and moves the moving member 50 to which the fastening member 60 is coupled in the direction in which the chemical tank 10 is located. The blocking film 26 installed on the tank assembly 20 is damaged by the striking member 80 installed in the tank, so that initial fire extinguishing is carried out using the fire extinguishing agent in the chemical tank 10.

The small space automatic fire extinguishing device of the present invention configured as described above is installed in a small space using a fixing clip 110. The fixing clip 110 is composed of a clip body 111 formed in a 'C' shape with the top and one side open so that the chemical tank 10 can be inserted and fixed, and the upper part of the clip body 111 A protruding panel 112 is integrally formed to be fixed to the inner wall of the small space by screws, bolts, etc.

The process in which a fire extinguishing agent is sprayed to extinguish a fire when a fire occurs in the small space automatic fire extinguishing device according to the present invention configured as described above will be described.

First, it is inserted into the protruding panel 112 of the fixing clip 110 and fixed to the inner wall of the small space using screws or bolts. With the fixing clip 110 fixed, the chemical tank 10 is introduced into the clip body 111, and the small space automatic fire extinguishing device of the present invention is installed inside the switchboard.

If a fire occurs while the small space automatic fire extinguishing device of the present invention is installed inside the small space, the flame flows inside through the second injection hole 41 formed in the body assembly 40, and flows into the inside. The flame is transmitted to the bulb 90 installed inside the moving member 50, and the bulb 90 is damaged by the flame.

When the bulb 90 is damaged, a space is created between the bulb support 70 and the fastening member 60, and the compressed spring 100 is relaxed, and as the spring 100 is relaxed, the fastening member 60 ) and moves the moving member 50 in the direction in which the tank assembly 20 is located.

The moving member 50 is moved while being guided by the bulb support 70. That is, when the moving member 50 is moved while the bulb support 70 is supported on the top of the coupling/supporting protrusion 31 of the spray body 30, the cross-shaped edge of the bulb support 70 moves inward. Since the cross-section is formed in a 'U' shape by gathering together, the moving member 50 can be easily moved in the longitudinal direction without being tilted to one side.

The moving member 50 moved by the spring 100 moves because the flange 62 of the fastening member 60 coupled to the upper part is supported by the coupling/supporting protrusion 31 formed on the top of the spray body 30. Since the member 50 moves only in a limited space, it prevents interference with the passage through which the fire extinguishing agent moves.

When the moving member 50 approaches the protrusion 32 formed inside the spray body 30 by the spring 100, the striking member 80 installed at the bottom of the moving member 50 moves to the inlet of the tank assembly 20. It enters the inside of the assembly body (21) of the tank assembly (20) while hitting the blocking film (26) installed on the side.

As the barrier film 26 ruptures, the fire extinguishing agent stored at a predetermined pressure flows in through the first inlet hole 83 and the second inlet hole 84 of the striking member 80 introduced into the tank assembly 20. , the introduced fire extinguishing agent is supplied to the first discharge hole 63 and the second discharge hole 64 of the fastening member 60 through the moving member 50.

And a certain amount of fire extinguishing agent supplied through the first inlet hole 83 and the second inlet hole 84 of the hitting member 80 is fogged from the plurality of first injection holes 33 formed in the injection body 30. The fire extinguishing agent is first sprayed in the form of a fork, and the rest is sprayed in the form of fog through the second injection holes 41 formed in four directions in the body assembly 40 to extinguish the fire.

As described above, when a fire occurs in a small space such as a switchboard, control panel, various mechanical devices, or home appliances, the bulb 90 bursts due to the flame, forming a space, and the upper part of the fastening member 60 is compressed. As the installed spring 100 is relaxed, the fastening member 60 and the moving member 50 are moved to the part where the tank assembly 20 is located, and the blocking film 26 is formed by the striking member 80 installed at the lower part of the moving member 50. ) is damaged and the fire is extinguished by the fire extinguishing agent stored in the chemical tank 10, thereby preventing the fire from spreading.

In addition, when the fire extinguishing agent is sprayed, it is sprayed in the form of fog, thereby maximizing the fire extinguishing ability and easily extinguishing fires that occur in small spaces where the fire extinguishing agent cannot be sprayed directly.

In addition, heat from fires generated inside small spaces such as switchboards, control panels, various mechanical devices, or home appliances easily flows into the bulb 90, and the bulb 90 is quickly damaged by the inflow of heat, causing chemical damage. There is an advantage that the fire extinguishing agent stored in the tank 10 is sprayed in the form of force, making initial fire extinguishing easy.

In the present invention, the size of the small space automatic fire extinguishing device is installed differently depending on the size of the space in which it is installed, and when a fire occurs in the installed space, the fire is extinguished quickly at an early stage to prevent the fire from spreading.

The above description is merely an illustrative explanation of the technical idea of the present invention, and various modifications, changes, and substitutions can be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical idea of the present invention, but are for illustrative purposes, and the scope of the technical idea of the present invention is not limited by these embodiments and the attached drawings. The scope of protection of the present invention should be interpreted in accordance with the claims below, and all technical ideas within the equivalent scope should be construed as being included in the scope of rights of the present invention.

10: Chemical tank 11: Tank body
12: combination assembly protrusion 20: tank assembly
21: combination body 22: combination bolt
23: Gauge coupling protrusion 24: Pressure gauge
25: support panel 26: barrier
30: Injection body 31: Combined/supporting protrusion
32: protrusion 33: first injection hole
34: coupling hole 35: through hole
40: Body assembly 41: Second injection hole
42: Blowout hole 50: Moving member
51: moving member body 52: fastening hole
53: moving hole 60: fastening member
61: Fastening member body 62: Flange
63: first discharge hole 64: second discharge hole
70: Bulb support 71: Bulb support hole
80: striking member 81: striking member body
82: Slope 83: First inlet hole
84: second inlet hole 85: fastening protrusion
90: Bulb 100: Spring
110; Fixed clip 111: clip body
112: Protruding panel

Claims (8)

a chemical tank (10) in which fire extinguishing chemicals are stored at a predetermined pressure;
A tank assembly (20) equipped with a barrier film (26) and coupled to the chemical tank (10);
a spray body (30) coupled to the tank assembly (20) and supporting the bulb support (70);
A body assembly (40) having a plurality of second injection holes (41) through which the fire extinguishing agent is ejected and coupled to the injection body (30);
a moving member 50 installed inside the body assembly 40 so that when the bulb is damaged by a flame, it can be moved toward the tank assembly by the elastic force of the spring 100;
A bulb support 70 that supports the bulb 90 and is located below the moving hole 53 formed in the moving member 50 and supported by the coupling/supporting protrusion 31 of the spraying body 30;
It is coupled to the lower part of the moving member 50 so that the fire extinguishing agent stored in the chemical tank 10 is moved toward the body assembly 40 and sprayed by piercing the blocking film 26 installed on the tank assembly 20 by the elastic force of the spring 100. A striking member 80 and;
A bulb 90 installed between the bulb support 70 and the fastening member 60 and located inside the moving member 50;
It is located between the fastening member 60 coupled to the upper part of the moving member 50 and the body assembly 40, and when the bulb 90 is damaged, the moving member 50 is moved toward the tank assembly 20 by elastic force. Includes spring 100;
The injection body 30 is,
A coupling/support protrusion 31 is formed at the top of the body assembly 40 to protrude inward so that the bulb support 70 is supported and the bulb 90 can be installed,
While the injection body 30 is coupled to the tank assembly 20, it is in close contact with the striking member 80 at a 2/3 point inward from the top so as to restrict the movement of the coupled moving member 50. A protrusion 32 is formed,
A small space automatic fire extinguishing device, characterized in that a plurality of first injection holes (33) are formed in the area where the protrusion (32) is formed so that the fire extinguishing agent is converted into mist and sprayed in the form of a fog fork. According to paragraph 1,
The tank assembly 20 is,
A pressure gauge (24) is installed to check the pressure while coupled to the chemical tank (10),
The pressure gauge (24) is a small space automatic fire extinguishing device characterized in that a support panel (25) is installed to prevent deformation of the pressure gauge (24) due to impact, etc. delete According to paragraph 1,
The moving member 50 is,
A moving member body 51 is formed that moves in the direction in which the tank assembly 20 is located while being guided to the bulb support 70 by the elastic force of the spring 100,
A fastening hole 52 to which the striking member 80 is coupled is formed in the lower part of the moving member 50,
A small space automatic fire extinguishing device characterized in that moving holes (53) are formed in four directions so that the bulb support (70) can be inserted into the moving member body (51). According to paragraph 1,
The fastening member 60 is,
A fastening member body 61 formed in a cylindrical shape is formed, and a portion thereof flows into the inside of the moving member 50 and is screwed,
A flange 62 is formed on the outer periphery of the fastening member body 61 to provide a space for the bulb 90 to be installed in close contact with the upper end of the moving member 50,
The bulb 90 is damaged by heat and the blocking film 26 installed on the tank assembly 20 is pierced by the striking member 80, so that the fire extinguishing agent stored in the chemical tank 10 is released into the second injection hole of the body assembly 40 ( Characterized in that a first discharge hole 63 formed in the center so that it can be sprayed through 41) and a plurality of second discharge holes 64 are formed on the outer periphery of the first discharge hole 63. Small space automatic fire extinguishing device. According to paragraph 1,
The bulb support 70 is,
It is located at the bottom of the moving hole 53 of the moving member 50 and is supported on the upper end of the coupling/supporting protrusion 31 of the spraying body 30. When the bulb 90 is ruptured by flame, the moving member 50 The cross-section is formed in a 'U' shape so that the cross-shaped edges are gathered inward so that it can move downward, and it guides the movement of the moving member 50,
A small space automatic fire extinguishing device, characterized in that a bulb support hole (71) is formed in the center of the cross shape to support the bulb (90). According to paragraph 1,
The striking member 80 is,
A striking member body 81 is formed in a cylindrical shape, has a first inlet hole 83 through which the fire extinguishing agent flows, and has a lower end inclined at a predetermined angle.
A plurality of second inlet holes 84 are formed in the hitting member body 81 to facilitate the introduction of the fire extinguishing agent stored in the chemical tank 10,
A small space automatic fire extinguishing device, characterized in that a fastening protrusion (85) coupled to the fastening hole (52) of the moving member body (51) is formed on the upper part of the striking member body (81). According to paragraph 1,
The spring 100 is,
It is installed in a compressed state while being supported on the lower part of the flange 62 of the fastening member 60 and the upper inner part of the body assembly 40,
When the bulb 90 is damaged by flame, it relaxes and moves the moving member 50 to which the fastening member 60 is coupled in the direction in which the chemical tank 10 is located, thereby causing the striking member 80 installed on the moving member 50 to move. ) A small space automatic fire extinguishing device characterized in that the barrier film (26) installed on the tank assembly (20) is damaged and initial fire extinguishing is performed by the fire extinguishing agent in the chemical tank (10).

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