KR101289761B1 - Automatic exhauster for rechargeable odorant of automatic fire extinguishing device - Google Patents

Abstract

The present invention relates to a deodorant storage and automatic injection device of the automatic fire extinguishing system, to use the flexible odorant storage member to safely store and automatically spray and reuse the odorant with the extinguishing agent.
To this end, the present invention in the injection device of the automatic fire extinguishing equipment for injecting the extinguishing agent in the gas state through the extinguishing agent discharge pipe connected to the inside of each protective zone, the deodorant is stored in the body capable of deformation A deodorant storage member having an outlet formed therein, an internal conduit for storing and compressing the deodorant storage member is formed, and one end portion of the protection cylinder is coupled to communicate on the extinguishing agent discharge pipe, extinguishing the outlet of the deodorant storage member It provides a deodorant storage and automatic injector of an automatic fire extinguishing system that includes a lifting device for fixing the pack fixed to face the drug discharge pipe and guided along the inner duct of the protection cylinder to compress the body of the odorant storage member Stable transport and storage of odorants, elimination of side effects caused by debris caused by rupture It can be used again and again, which reduces production costs and maintenance costs.

Description

Automatic exhauster for rechargeable odorant of automatic fire extinguishing device

In the present invention, when an extinguishing agent is released into a protective area in an automatic extinguishing system using a colorless odorless gas having asphyxiation, such as CO2, the automatic deodorant is added to prevent human injury in the protective area. The present invention relates to an injector, and more particularly, to stably store odorants injected into the protective area so that the smell of the extinguishing agent can be detected through the sense of smell, and in response to the pressure of the extinguishing agent released through the pipe in case of fire. By discharging the extinguishing agent for fire suppression, it is possible to automatically and safely discharge it with the extinguishing agent automatically and to restore the odor storage member to its original state after repeated discharge. A rechargeable odorant automatic injector for an automatic fire extinguishing system.

In general, a fire extinguishing system is not directly installed in power distribution panels, electrical panels of various equipment, etc. installed in electric rooms in power plants, substations, factories, buildings, etc. It is designed to extinguish by installing the Halon fire extinguishing system, CO2 fire extinguishing system or clean extinguishing system that operates when it occurs.

In addition, the Halon fire extinguishing system, CO2 fire extinguishing system, or clean fire extinguishing system installed on the ceiling of the building itself is configured to start operation only when the fire spreads inside the building. Was done.

In order to solve such a problem, Korean Patent Registration No. 10-0425877 is installed on the Halon injection head by electrically switching the detected signal from the control box by installing a heat and smoke-sensing device inside the general switchboard and panel. By heating the heater, the ethanol-containing glass tube installed in the Halon injection head was ruptured by thermal expansion, and the fire extinguisher was opened to allow the initial evolution.

However, in the prior art, since the heater is heated by the electrical signal after the fire detection, the glass tube containing ethanol is ruptured by thermal expansion and sprayed, so that the glass tube does not burst quickly due to the time difference of heating the heater. Not only was it delayed, but it was not ruptured correctly.

On the other hand, Republic of Korea Patent Publication No. 10-2006-0039611 (name: "injection head of the automatic fire extinguishing device for electric switchboard and panel") is installed on the pipe of the pipe for the injection of the fire extinguishing agent and the packing is supported by the glass pipe When the fire is detected, the glass tube is ruptured quickly by using the striking rod. In the event of a fire, the packing is opened along with the glass tube rupture, and the gaseous extinguishing agent can be discharged quickly through the pipe to the protective area. have. In addition, in the case of the prior art, if the chemical tube is thermally expanded inside the glass tube and the glass tube is not ruptured accurately by the striking rod, the glass tube is ruptured by the thermal expansion of the chemical in case of fire. The chemicals are stored so that they can be released quickly into the protective area along with the gaseous extinguishing agents.

However, in the case of spraying a fire extinguishing agent by rupturing the glass tube with a striking rod, as in this technique, fine fragments of the ruptured glass tube are released together with the extinguishing agent into the protection zone, which may cause the extinguishing agent discharge nozzle to close or cause a discharge failure. In addition, in such a conventional technology, as well as using an expensive glass bottle, it is not possible to use the ruptured glass tube again, there is a problem such as lowering the price competitiveness.

The technical problem to be solved by the present invention, automatic fire extinguishing agent injecting gaseous extinguishing agent in the protective area in the event of a fire automatically due to the flexible deformation of the shape (flexible) and the change in the internal pressure by the shape deformation By using the deodorant storage member that can be sprayed, the deodorant can be stably stored and automatically fired with the extinguishing agent safely inside the protective area only by the deformation of the shape of the extinguishing agent released through the pipe in case of fire. It is an object of the present invention to provide a rechargeable automatic deodorant injection device for fire extinguishing equipment.

Another technical problem to be solved by the present invention is to regenerate the automatic fire extinguishing equipment to stably store, safely spray and economically reuse the odorant by restoring the odorant storage member to its original state after fire suppression. It is to provide a possible odor automatic injection device.

One embodiment of the present invention for achieving the above object, in the injector of an automatic fire extinguishing system for injecting a gaseous extinguishing agent through a fire extinguishing agent discharge pipe connected to the interior of each protective zone, by an external pressure The deodorant storage member and the deodorant storage member which store the deodorant inside the body which can be deformed and are stored in the protection cylinder and are formed on one side of the body by an outlet opening which is opened by an internal pressure higher than the set level due to the shape deformation. A protective cylinder is formed with an inner conduit for storage and compression, and one end thereof is communicatively coupled vertically on the extinguishing agent discharge pipe, and the outlet of the odorant storage member is fixed to the extinguishing agent discharge pipe side. It is press-fitted in the lower part of the system, but is guided along the inner pipe of the protection cylinder by the discharge pressure of the extinguishing agent. Rechargeable odorant automatic injection device of the automatic fire extinguishing system comprising a lifting device for fixing the pack is installed to compress the body of the storage member.

Another embodiment of the present invention for achieving the above object is configured so that the cylinder cap is assembled or disassembled at the other end of the protection cylinder, so as to open the interior of the protection cylinder as necessary and to fill the exhausted deodorant It is a rechargeable odorant automatic injection device of an automatic fire extinguishing system which separates the odorant storage member from a protection cylinder to enable recharging of the odorant.

Rechargeable odorant automatic injection device of the automatic fire extinguishing system according to the present invention, by using the odorant storage member of the flexible body can be stably transported and stored odorant, fire extinguishing agent released through the pipe in case of fire The outlet pressure of the deodorant storage member is automatically opened by the release pressure of the deodorant, so that the deodorant can be safely released into the protection zone together with the extinguishing agent in the gas state, thereby eliminating the possibility of the occurrence of debris due to rupture and the side effects caused by the rupture. There is an advantage to that.

In addition, the present invention, after the fire is extinguished by opening the cap of the protection cylinder to restore the odor storage member to its original state can be used repeatedly, so that the odorant can be automatically sprayed and reused in a safe and economical manner and the production cost and The advantage of low cost of re-installation maintenance.

1 is a partial schematic view of a fire extinguishing system illustrating an installation state of a rechargeable odorant automatic spray device of an automatic fire extinguishing system according to the present invention.
2 and 3 are an assembled perspective view and an exploded perspective view illustrating a rechargeable odorant automatic injection device of the automatic fire extinguishing system according to an embodiment of the present invention.
FIG. 4 is a reference perspective view of the assembly of the pack fixing lifting member and the odor storage member of FIG. 3 and viewed from the bottom thereof. FIG.
5A and 5B are reference cross-sectional views illustrating a state in which a protective cap is removed and assembled at an outlet of the odorant storage member of FIG. 3, respectively.
FIG. 6 is a reference cross-sectional view illustrating an essential part of a state in which the protective cylinder of FIG. 3 is assembled to the extinguishing agent discharge pipe by a cylinder coupling member.
7A and 7B are reference cross-sectional views for explaining the operation of the rechargeable odorant automatic injection device of the automatic fire extinguishing system according to the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, the structure and operation | movement of the rechargeable odorant automatic injection apparatus of the automatic fire extinguishing system by one Embodiment of this invention are demonstrated in detail with reference to an accompanying drawing.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention. Therefore, it is to be understood that the embodiments described herein and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and that various modifications may be made thereto at the time of filing of the present application.

1 is a partial schematic view of an automatic fire extinguishing system illustrating a state in which the reusable odorant automatic spraying device according to the present invention is installed in an automatic fire extinguishing system, and the odorant storing and automatic spraying device 100 according to the present invention is a fire extinguishing agent. The gaseous extinguishing agent stored in the storage cylinder (1) is installed vertically on the extinguishing agent discharge pipe (10) which is connected to discharge through each selector valve (2) into the interior of each protective zone.

2 and 3 is an assembled perspective view and an exploded perspective view illustrating in detail the reusable odorant automatic injection device according to an embodiment of the present invention, Figure 4 is a pack fixing lifting member and odorant storage member of FIG. 5 is a reference cross-sectional view illustrating the state in which the protective cap is removed and assembled at the outlet of the odorant storage member of FIG. 3, respectively. 3 is a reference cross-sectional view illustrating the main parts of the protective cylinder of Figure 3 is assembled to the extinguishing agent discharge pipe by the cylinder coupling member, odor storage and automatic injection device 100 according to the present invention, It comprises a blowing storage member 110, the protection cylinder 120, and the lifting member 130 for fixing the pack.

As shown in FIGS. 3 and 4, the odor storage member 110 may be elastically modified to allow the deformation of the external shape as the volume of the body is reduced or expanded by the external pressure, and the internal pressure may be changed by the external deformation. It has a flexible body having. Inside the flexible body, a deodorant 101 which is diffused in the air with a digestive gas such as D-LIMONEN and displays color or smell can be stored. It is preferable to be made of a material having elasticity so that the volume of the flexible body according to the change. Such a flexible material body is preferably a plastic pack or the like as a transparent or translucent chemical-resistant material, and if the plastic pack is composed of a change in the internal pressure of the body according to the volume change of the flexible body will be made sequentially. In addition, the deodorant storage member 110 is formed by forming an outlet 111 for charging or discharging the deodorant on one side of the body, as shown in Figures 5a and 5b, the outlet level 111 is set The film member 112, which can be automatically ruptured by the above internal pressure, is attached to the open end thereof so as to seal the internal space. In particular, the film member 112 has a set level (for example, a gas extinguishing agent ejection pressure of 110 to 120 kg / cm ²⁾ inside the body by deformation of the flexible body. When an internal pressure of 100 kg / cm ² or more is generated as the reference pressure at a lower level, it is preferable that the internal pressure is ruptured or separated by the internal pressure to open the outlet 111. In addition, the outer circumferential surface of the open end of the outlet 111 further extends the screw coupling portion 114 so that the protective cap 113 for double sealing during transportation can be screwed, and this protective cap 113 is automatically When attached to the fire extinguishing system, it can be manually removed in advance.

As shown in FIGS. 2 and 3, the protection cylinder 120 has a space that can accommodate the deodorant storage member 110 sufficiently, and the deodorant storage member 110 is formed in the longitudinal direction of the cylinder. An inner pipeline having a uniform inner diameter is formed to be pushed to compress the volume, and a lower end portion thereof is connected to the extinguishing agent discharge pipe 10 so as to be vertically installed in communication with the inner pipe of the pipe. Detachable coupling and sealing to the extinguishing agent discharge pipe 10 by the 140 and the packing member 142 for sealing. To this end, a protruding jaw 121b is formed at the lower end of the body of the protection cylinder 120 to protrude to the outer circumferential surface as shown in FIGS. 3 and 6, and a locking jaw protrudes inward at the upper end of the body of the cylinder coupling member 140. 141 is formed, thereby the protective cylinder 120 is assembled vertically on the extinguishing agent discharge pipe 10 in a state in which the locking jaw 141 of the cylinder coupling member 140 is caught on the protruding jaw 121b. It becomes possible.

 In addition, the inner conduit of the protection cylinder 120 can be selectively opened as necessary to separate the previously used odorant storage member 110 from the protection cylinder 120 to recharge the odorant 101. Can be configured.

To this end, the protection cylinder 120 is preferably configured to be separated into the cylinder body 121 and the cylinder cap 122, respectively. Cylinder body 121 is formed of a cylindrical body that is open both upper and lower, the lower end is formed with a locking jaw (121b) protruding to the outer circumferential surface so that the lower end is detachable to the extinguishing agent discharge pipe (10). Is coupled to the outer peripheral surface of the screw threaded portion 121a is formed to enable the cylinder cap 122 to be assembled or disassembled by screwing.

As shown in FIGS. 3 and 4, the pack fixing lifting member 130 fixes the outlet 111 of the odorant storage member 110 to face the fire extinguishing agent discharge pipe 10. It is installed under pressure in the lower part of the pipe 120 to be elevated and pushed along the inner wall, and is guided along the inner pipe of the protection cylinder 120 by the discharge pressure of the extinguishing agent released from the extinguishing agent discharge pipe 10 to store the odorant. The body of the member 110 is installed to be compressible. To this end, the pack fixing elevating member 130 is formed of a circular plate having a diameter smaller than the inner diameter of the protective cylinder so as to be inserted into the inner conduit of the protective cylinder 120, the deodorant storage member 110 in the central portion of the circular plate. Outlet support hole 133 is formed to insert and support the outlet 111 of the outlet support hole 133 is formed in the outlet 111 of the odorant storage member 110 is inserted into the outlet for extinguishing agent discharge pipe ( 10) is fixed to the side. At this time, a ring insertion groove 131 is formed in a radial direction around the circular plate constituting the body of the pack fixing lifting member 130, and the ring insertion groove 131 is an O-ring member 132 for airtightness and guidance with the inner wall of the pipe. ) Is fitted and assembled into the protection cylinder 120.

In addition, by forming one or more auxiliary outlet holes 133a around the outlet support hole 133 in the circular plate constituting the body of the pack fixing lifting member 130, the odor storage member 110 by the surrounding environment in case of fire When the outlet 111 of the can not be opened is configured to be used as a secondary outlet of the odorant.

The operation of the present invention configured as described above and the effects thereof will be described.

7a and 7b are reference cross-sectional views for explaining the operation of the rechargeable odorant automatic injection device of the automatic fire extinguishing system according to the present invention, Figure 7a is a odorant storage member 110 accommodated in the protection cylinder 120 ) Is a cross-sectional view illustrating a state in which the odorant 101 is normally filled in the inside, Figure 7b is a lifting member 130 for fixing the pack by the discharge pressure of the extinguishing agent flowing to the extinguishing agent discharge pipe 10 in the event of fire ) Is a cross-sectional view illustrating a state in which the odor storage member 110 is compressed by being pushed into the upper portion of the protective cylinder 120.

First, through the outlet 111 of the odor storage member 110 made of a plastic pack or the like as a transparent or translucent chemical-resistant material, it diffuses in the air together with a digestive gas such as D-LIMONEN and the like to color. The odor agent 101, which can be shown or smelled, is filled and firstly sealed by attaching the film member 112 to the open end of the outlet 111 thereof, and again using the screw thread of the screw coupling part 114. By assembling the protective cap 113, the outlet 111 is secondarily sealed to enable stable transport. At this time, the protective cap 113 is used only during transportation and is manually removed in advance when attached to an automatic fire extinguishing system.

Next, the airtight O-ring member 132 is inserted into the ring insertion groove 131 formed along the circumference of the circular plate, and thus the pack fixing lifting member 130 is assembled, and the odorant is stored in the outlet support hole 133. The outlet 111 of the member 110 is fitted to fix the odorant storage member 110 and the pack fixing lifting member 130.

As described above, the pack fixing lifting member 130 fixed with the odorant storage member 110 is assembled by press-fitting into the lower end of the protection cylinder 120. At this time, the pack fixing lifting member 130 is assembled so that the body of the odor agent storage member 110 fitted in the outlet support hole 133 is received into the inner space of the protective cylinder 120, the outlet of the odor agent storage member 110. (111) is directed toward the fire extinguishing agent discharge pipe (10).

Next, the protective cylinder 120 assembly, in which the pack fixing elevating member 130 is assembled therein and the odorant storage member 110 is stored therein, has an open end of the lower end of the pipe for discharging the extinguishing agent. Positioning on the (10), by assembling the cylinder coupling member 140 through the screw coupling to the extinguishing agent discharge pipe 10 in a state with a conventional packing member 142 between (10). The inner cylinder of) and the inner pipeline of the protective cylinder 120 is substantially in communication with each other to install the protective cylinder 120.

Finally, by assembling the cylinder cap 122 through the screw coupling portion 121a at the upper end of the protection cylinder 120, the pack fixing lifting member 130 is assembled inside, and the odor storage member 110 is disposed therein. Installation of the stored protection cylinder 120 can be completed in a state as shown in FIG. 7A.

When a fire occurs in the installed state, the selection valve 2 will be opened by the normal fire detection signal, and therefore, the extinguishing agent stored in the extinguishing agent storage cylinder 1 will be extinguished through the selection valve 2. It will be possible to be discharged into the protective area along the pipeline of the drug release pipe (10). At this time, the extinguishing agent discharge pipe 10 is in a state in which a normal extinguishing agent discharge pressure (approximately 110 to 120 kg / cm ² ) is applied.

The same pressure (approximately 110 to 120 kg / cm ² ) inside the protection cylinder 120 of the odorant storage and automatic injection device 100 of the present invention by the discharge pressure of the extinguishing agent ) Can be applied at the same time, the pack fixing lifting member 130 is pushed into the upper portion of the protection cylinder 120 by the extinguishing agent discharge pressure. When the pack fixing lifting member 130 is completely pushed toward the upper side of the protection cylinder 120 as shown in FIG. 7B, the volume of the odorant storage member 110 is compressed and the volume thereof is reduced. The internal pressure of the member 110 will increase in inverse proportion to the volume reduction. Therefore, in this process, the film member 112 attached to the outlet 111 of the odorant storage member 110 has an internal pressure at a predetermined level (110-120 kg / cm ² , which is the extinguishing agent ejection pressure). When the pressure level is higher than, for example, 100 kg / cm ² ) as a lower level, the shape deformation of the odorant storage member 110 as described above is formed so as to be automatically ruptured or separated by its internal pressure. Due to the change in the internal pressure by the internal pressure can be automatically ruptured when the internal pressure is greater than the reference set pressure, and thus the odorant stored in the odorant storage member 110 is discharged through the outlet 111 automatically With extinguishing agent it can be ejected into the protective area. Therefore, the inside of the protection zone will be able to recognize whether the gas extinguishing agent is released by the smell of odorant, it is possible to prevent the evacuation of personnel or to enter the protection zone.

On the other hand, in this state, if the film member 112 is not normally ruptured or opened due to the surrounding environment, due to the continuous increase in the internal pressure generated in the process of being pushed to the upper end of the protection cylinder odor storage member 110 As the body of the eruption itself bursts through one or more auxiliary outlet holes 133a formed around the outlet support hole 133 of the pack fixing lifting member 130.

After the fire is extinguished, the cylinder coupling member 140 is released in the opposite direction as in the assembly, and the protection cylinder 120 assembly is separated from the extinguishing agent discharge pipe 10, and the upper portion of the protection cylinder 120 is assembled. The cylinder cap 122 can be opened to expose the pack fixing lifting member 130 to the outside. Therefore, if the pack fixing lifting member 130 is disassembled from the inner conduit of the protection cylinder 120, the odorant is already exhausted. After the deodorant storage member 110 is restored to its original state, the deodorant is re-injected and reused.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, it is intended that the scope of the invention be defined by the claims appended hereto, and that all equivalent or equivalent variations thereof fall within the scope of the present invention.

1: Cylinder for extinguishing agent storage 2: Selection valve
10: Extinguishing agent discharge pipe 100: Deodorant storage and injection device
101: odorant 110: odorant storage member
111 outlet 112 film member
113: protective cap 114,121a, 122a: screw coupling portion
120: protection cylinder 121: cylinder body
121b: protruding jaw 122: cylinder cap
130: lifting member for fixing the pack 131: ring insertion groove
132: O-ring member 133: outlet support hole
133a: secondary outlet hole 140: cylinder coupling member
141: locking jaw 142: packing member

Claims (11)

In the automatic injector of the automatic fire extinguishing system for injecting the extinguishing agent through the extinguishing agent discharge pipe (10) connected to the interior of each protective area,
The odorant 101 is stored inside the body whose shape is deformable by external pressure, and the odorant storage is formed on one side of the body with an outlet 111 opened by an internal pressure of a predetermined level or more due to the shape deformation. Member 110;
An inner conduit for receiving and compressing the odorant storage member 110 is formed, and the cylinder coupling member 140 and the packing member (one end portion thereof can communicate vertically with the conduit of the extinguishing agent discharge pipe 10). A protection cylinder 120 detachably coupled to the extinguishing agent discharge pipe 10 by 142;
The outlet 111 of the odorant storage member 110 is fixed to face the fire extinguishing agent discharge pipe 10 side, and is press-installed in the lower portion of the protection cylinder 120, the fire extinguishing agent discharge pipe ( 10, the pack fixing elevating member 130 which is guided along the inner conduit of the protection cylinder 120 by the discharge pressure of the extinguishing agent released from the extinguishing agent is installed to compress the body of the odorant storage member 110; Rechargeable odorant automatic injector of an automatic fire extinguishing system, characterized in that comprising a. The method of claim 1, wherein the protection cylinder 120,
Rechargeable odorant automatic injector of an automatic fire extinguishing system, characterized in that configured to be able to open the inner conduit by an assembly or disassembleable cylinder cap (122). The method of claim 1, wherein the protection cylinder 120,
A cylindrical cylinder body 121 of which both upper and lower sides are open and a lower end thereof is detachably coupled to the extinguishing agent discharge pipe 10;
Rechargeable deodorant of the automatic fire extinguishing system, characterized in that consisting of; a cylinder cap 122 screwed or disassembled to the upper end of the cylinder body 121 to open the inner conduit of the protection cylinder 120 Injector. According to claim 1, wherein the odor storage member 110,
Rechargeable odor automatic injection device of the automatic fire extinguishing system, characterized in that the body is made of a flexible material having an elastic so that its shape is deformable by external pressure. According to claim 1, wherein the odor storage member 110,
Rechargeable odor automatic injection device of the automatic fire extinguishing system, characterized in that the film member 112 is ruptured by the internal pressure more than the set pressure is attached to the open end of the outlet 111 and sealed. According to claim 1, wherein the odor storage member 110,
Rechargeable odorant of the automatic fire extinguishing system, characterized in that the screw coupling portion 114 is addressed to the outer circumferential surface of the open end of the outlet 111 so that the protective cap 113 for double sealing can be screwed during transportation. Auto injector. The method of claim 1,
Rechargeable odor automatic injection device of the automatic fire extinguishing system, characterized in that the d-limonene is stored in the body of the odorant storage member 110. According to claim 1, The pack fixing lifting member 130,
It is formed of a circular plate having a diameter smaller than the inner diameter of the protective cylinder so as to be inserted into the inner duct of the protective cylinder 120 to be elevated along the inner wall of the protective cylinder 120 in the lower portion of the protective cylinder 120 Rechargeable odorant automatic injector of the automatic fire extinguishing system, characterized in that the press-installed. According to claim 8, The pack fixing lifting member 130,
A ring insertion groove 131 is formed along the circumference of the circular plate constituting the body, and an O-ring member 132 for sealing is inserted into the ring insertion groove 131 to be assembled to the protection cylinder 120. Rechargeable deodorant auto injector of auto fire extinguishing system. The method of claim 9, wherein the pack fixing lifting member 130,
An outlet support hole 133 for inserting and supporting the outlet 111 of the odorant storage member 110 is formed at the center of the circular plate, and the odorant storage member 110 is formed by the outlet support hole 133. Rechargeable odor automatic injection device of the automatic fire extinguishing equipment, characterized in that the outlet 111 is inserted and fixed to the fire extinguishing agent discharge pipe 10 toward the side. The method of claim 10, wherein the pack fixing lifting member 130,
Rechargeable odor automatic injection device of the automatic fire extinguishing system, characterized in that one or more auxiliary outlet hole (133a) is further formed around the outlet support hole (133) of the circular plate.

Images