WO2021075644A1 - Discharge apparatus for enabling selection or mixing ratio control of extinguishing agents - Google Patents

Abstract

The present invention relates to an apparatus capable of selecting extinguishing agents or mixing extinguishing agents at various mixing ratios so as to supply suitable extinguishing agents in accordance with situations at a complex fire and, more specifically, to a discharge apparatus capable of easily selecting any one of inert gas, dry foam, wet foam, and mist water as an extinguishing agent or mixing same.

Description

Discharge device capable of selecting extinguishing agent or controlling mixing ratio

The present invention relates to a device that enables the selection or mixing of various mixing ratios of extinguishing agents so that appropriate extinguishing agents can be selectively supplied according to the situation in case of a complex fire, and in more detail, the extinguishing agent is easily incorporated into an inert gas, a dry cloth, It relates to a device capable of discharging by selecting or mixing either wet cloth or finely atomized water.

Argon gas as a fire extinguishing agent is a colorless, odorless, tasteless inert gas that exists in the air. It is not only harmless to the human body, but also has the advantage of excellent extinguishing effect and low manufacturing cost. In addition, compared to other clean fire extinguishing agents, argon gas is known to have excellent extinguishing performance against metallic fires such as sodium fire. The argon gas fire extinguishing facility has the advantage that it can be applied to the main control room, computer room, electric room, diesel generator room, and all fire prevention areas of nuclear power plants. Since general clean extinguishing agents have a lower specific gravity than air, there is a lot of leakage of extinguishing agents in the fire zone, whereas argon gas has a specific gravity of 1.38, which is heavier than air. It is very suitable for fire protection in space.

Meanwhile, in accordance with the advent of the era of the 4th industrial revolution and the policy to expand the supply of new and renewable energy, the use of energy storage systems (ESS) at home and abroad is increasing significantly. In addition, as a countermeasure against global warming, the conversion to new and renewable energy such as solar and wind power is being promoted as a national project. Accordingly, the spread of ESS that stores energy in advance and uses it in the required time period is rapidly increasing.

The ESS consists of a power storage source such as a battery, a power control device (PCS, Power Conversion System), and an energy management system (EMS, Energy Management System), and among them, the battery, which is the power storage source, is the most vulnerable to fire. However, the development of technology for fire explosion protection measures for lithium-ion batteries is very insufficient in Korea.

For the stable use of ESS, a new fire suppression technology suitable for the system must be developed. Since ESS lithium-ion battery fires are different from ordinary fires, it is difficult to properly suppress them with general fire extinguishing devices. ESS fires are complex fires that have all of the characteristics of Class A, Class B, Class C, and Class D, and it is difficult to apply general fire extinguishing agents.

Class A for general fires, Class B for oil fires, Class C for electric fires, and Class D for metal fires, the principles of cooling extinguishing, suffocation extinguishing, and elimination extinguishing should be appropriately selected and applied. Fire extinguishing is possible with water, but Class B fires require the use of foam extinguishing agents, and Class C fires use carbon dioxide extinguishing agents mainly for electric shock problems, and Class D fires use suffocation extinguishing.

Therefore, according to the aspect of the fire, it must be able to selectively discharge dry or wet cloth according to the proper mixing of extinguishing agent and inert gas, and also release only inert gas or water mist. It should be made possible.

Foaming explosives are liquids in which a foam stabilizer and other drugs are added to the main raw material, and are mixed with water at a certain concentration and mechanically mixed with air or inert gas to generate bubbles and used for extinguishing. Compressed air bubbles with a ratio of 10 times or less (the ratio of the mixture of aqueous solution and pressurized air added with water to foaming explosives), dry foam refers to compressed air bubbles with more than 10 times the air bubble ratio.

Wet cloth can be applied by terrain inside and outside the building and is suitable for fires that need to apply cooling and suffocation effects, and dry cloth can be applied inside buildings and fires that need to prevent fire propagation or apply a suffocation effect to the surroundings. Suitable for The pulverized water is suitable for fires where only the cooling effect must be maximized, and the gas is suitable for fires where only the suffocation effect is required.

Gas-based fire extinguishing facilities that use inert gases such as argon as fire extinguishing agents themselves, foam fire extinguishing facilities that use inert gases as a pressurization source for discharging the fire extinguishing agents, and discharge devices of fine spray fire extinguishing facilities are developed and manufactured separately. However, if the discharge device of each fire extinguishing facility is unified through simple structural improvement, there is an advantage of reducing manufacturing cost and reducing inventory burden.

Therefore, there is a need for a function that allows at least four fire extinguishing agents such as inert gas, dry cloth, wet cloth, and finely sprayed water to be selectively provided through a single device.

According to Korean Patent No. 10-1402520, the'foaming liquid mixing spraying device', when mixing the foaming agent and water, a flow rate control valve is provided to control the flow rate of water, but the valve can control the flow rate of water linearly. In addition, there is a disadvantage that the effect of the fire extinguishing effect is reduced, only the amount of use is increased, and the control of the mixing ratio must depend on the skill level of the worker because it is not possible to mix the wet cloth and the dry cloth in an appropriate ratio.

According to the'Compressed Air Bubble Mixing Device' of Korean Patent No. 10-1666036, there is shown a configuration including a fabric undiluted liquid control unit to automatically mix the undiluted fabric and fire extinguishing water at the optimum mixing ratio, which is equipped with a separate control device. It has to be done, so its composition is complicated.

Thus, with a simple configuration like a valve, a discharge device that can easily and selectively determine the fire extinguishing agent or determine the mixing ratio of the fire extinguishing agent and manipulate it has been devised.

An object of the present invention for solving the above problems is to provide a discharging device capable of selecting an extinguishing agent, such as a extinguishing agent and an inert gas, or controlling a mixing ratio with a simple configuration.

Another object of the present invention is to provide a discharging device capable of injecting four types of fire extinguishing agents only by simply switching the valve or switch type.

Another object of the present invention is to provide a discharge device capable of discharging an applicable fire extinguishing agent by turning a valve or a switch according to a fire situation.

Another object of the present invention is to provide a discharging device capable of injecting the extinguishing agent into the container while discharging the mixed extinguishing agent through a discharging device coupled to the extinguishing agent container.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by an embodiment of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

Embodiments of the present invention to achieve the above object, in the discharge device for discharging by mixing two or more types of fluids for fire extinguishing, one side is in communication with the container (1) containing the fire extinguishing agent, the other side is fire extinguishing Consists of a main body 110 in communication with the injection passage 4 through which the drug is discharged, and a rotating member 130 positioned to include a portion in the main body 110 that rotates between the container and the injection passage, and the A plurality of pipes are formed inside the main body 110, and a plurality of pipes communicating between the pipes of the main body 110 are formed inside the rotating member 130, so that the rotation of the rotating member 130 Accordingly, it provides a discharge device capable of selecting or adjusting the mixing ratio of the fire extinguishing agent, characterized in that the pipeline between the main body 110 and the rotating member 130 are communicated or blocked.

The rotating member 130 includes a first layer portion 131 and a second layer portion 133 at different positions forming a vertical plane with the rotation center axis, and the first layer portion 131 and the second layer portion ( 133) is characterized in that a plurality of pipes are formed, respectively.

The first layer part 131 has a predetermined angle based on the rotation center, and a pipe including a first gas pipe 1311, a second gas pipe 1312, and a third gas pipe 1313 is formed. The second-floor part 133 is characterized in that a pipe path including a drug pipe 1331, a narrow pipe 1332, and a light pipe 133 is formed at a certain angle based on the rotation center.

The first gas pipe line 1311 of the first layer portion 131 and the drug pipe line 1331 of the second layer portion 133 are formed to extend in different directions, and the second layer of the first layer portion 131 The gas conduit 1312 and the narrow conduit 1332 of the second layer part 133 extend through the same direction, and the third gas conduit 1313 and the second layer part ( The light pipe path 1333 of 133 is characterized in that it extends through the same direction.

The main body 110 includes, on one side, a gas pipe 1161 communicating with the pipe of the first layer 131 and a drug discharge pipe 1163 communicating with the pipe of the second layer 133, On the other side, an injection gas pipe 1151 communicating with the pipe of the first layer part 131 and an injection pipe 1153 communicating with the pipe of the second layer part 133 are provided, and the rotating member 130 ), only the gas pipe 1161 and the injection gas pipe 1151 communicate, or only the drug discharge pipe 1163 and the injection pipe 1153 communicate, or at the same time. It is characterized.

The main body 110 has an entry and exit portion 117 communicating with the drug passage 3, and a drug inlet passage 1171 connected to the entry and exit portion 117 to communicate with the extinguishing agent container 1 side. Characterized in that.

The main body 110 is characterized in that a gas inlet portion 118 communicating with the gas passage 2 is formed, and the gas inlet portion 118 communicates with the gas passage 1161.

The present invention has the effect of being able to select any one of a foaming agent and an inert gas or adjust the mixing ratio by a simple method.

In addition, the present invention has the effect of allowing selective injection of four types of fire extinguishing agents only by simple switching of a valve or switch type.

In addition, the present invention has an effect that the discharge device coupled to the extinguishing agent container can be used to inject the extinguishing agent into the container.

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those of ordinary skill in the technical field to which the present invention pertains from the following description. .

1 is a view showing a connection structure of a fire extinguishing device combined with a discharge device of the present invention.

2 is a view showing a discharge device of the present invention.

3 is an exploded view showing the discharging device of the present invention.

4 to 6 are views showing cross-sections of the discharging device of the present invention.

7 is a view showing a combination example for mixing four types of fire extinguishing agents.

8 to 9 are views for showing the mixing process by the discharge device of the present invention.

10 is a view showing embodiments of a discharge device having an inlet and outlet portion of the present invention.

[Explanation of code]

1: fire extinguishing agent container 2: gas flow path

3: Pharmaceutical flow channel 4: Injection flow channel

100: ejection device 110: main body

111: gas 112: dry cloth

113: wet cloth 114: fine atomized water

115: discharge member 1150: collection unit

1151: injection gas pipe 1153: injection pipe

116: connection 1161: gas pipeline

1163: drug discharge pipe 117: entry and exit part

1171: drug inlet pipe 118: gas inlet

120: switch 130: rotating member

131: first floor part 1311: first gas pipeline

1312: 2nd gas pipeline 1313: 3rd gas pipeline

133: second floor 1331: drug pipeline

1332: Hyeopwan-ro 1333: Gwanggwan-ro

The above-described objects, features, and advantages will become more apparent through the following detailed description in connection with the accompanying drawings, whereby those of ordinary skill in the technical field to which the present invention pertains can easily implement the technical idea of the present invention. There will be. In addition, in describing the present invention, when it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless specifically stated to the contrary. In addition, “… A term such as “sub” means a unit that processes at least one function or operation, which may be implemented by hardware or software, or a combination of hardware and software.

1 is a view showing a connection structure of a fire extinguishing device combined with a discharge device of the present invention. Referring to FIG. 1, the discharging device 100 of the present invention is coupled to a container 1 in which an extinguishing agent is accommodated, and this part includes a extinguishing agent container 1, a gas passage 2, and a drug passage 3 And it serves to interconnect the injection passage (4).

The extinguishing agent is contained in the extinguishing agent container 1, and the extinguishing agent may be a foam, ultrapure water, or other fluid extinguishing agent. The gas flow path 2 is connected to the gas inlet 118 of the discharge device 100 and introduces an inert gas such as argon gas. The drug passage 3 is connected to the inlet and outlet portion 117 of the discharge device 100, and allows an additive or a fire extinguishing agent to be introduced.

The fire extinguishing agent mixed in the discharge device 100 is discharged through the discharge member 115 to the injection passage 4 toward the fire site. At this time, the discharge device 100 may select to discharge only inert gas, discharge mixed dry cloth or wet cloth, or discharge only finely sprayed water, depending on the fire or site situation.

2 is a view showing a discharge device of the present invention. 2, the main body 110 is basically a cylindrical structure connecting one side (input side, lower side in the drawing) and the other side (output side, upper side in the drawing), and one side is a fire extinguishing agent container 1 ) Is coupled to the upper end and communicates, and the other side communicates with the injection passage 4 through the discharge member 115.

A rotating member 130 (FIG. 3) coupled with the switch 120 is disposed in a horizontal direction in the center portion, and the switch 120 rotates while rotating the rotating member 130 so that four directions can be selected by default. .

When the switch 120 is rotated to point to the gas 111, the extinguishing agent is not mixed and only the inert gas is discharged through the discharge member 115 side. When the switch 120 is turned to point to the dry cloth 112 marked as Dry, relatively little extinguishing agent and inert gas are mixed and discharged, and if the wet cloth 113 marked as wet is pointed to, relatively many extinguishing agents are inert gas. It is mixed with and discharged. When the switch 120 is further turned and points to the finely sprayed water 114 marked WM (Water Mist), mixing of the inert gas is blocked, and only finely atomized water or fire extinguishing agent is determined to be discharged.

In the present invention, simply by attaching the discharge device 100 having a simple and compact structure to the extinguishing agent container 1, it is possible to select or mix four types of extinguishing agents required at various fire sites. In addition, as will be described later, it is also possible to introduce a fire extinguishing agent into the container 1 at the same time.

3 is an exploded view showing the discharging device of the present invention. Referring to FIG. 3, it is characterized in that a plurality of pipes are formed by dividing the rotating member 130 into two layers perpendicular to the rotating center axis of rotation.

The rotating member 130 includes a first layer portion 131 and a second layer portion 133 based on a plane perpendicular to the rotation center axis and parallel to each other. The first layer portion 131 is defined as a position farther from the switch 120 on the surface, and the second layer portion 133 is defined as a flat portion located closer to the first layer portion 131.

The main body 110 has a vertical communication structure, and the rotating member 130 is a structure that is horizontally inserted in an intermediate portion thereof. The connection part 116 provided on one side is coupled to and communicates with the extinguishing agent container 1, and a separate discharge member 115 may be coupled to the other side. The discharge member 115 is a part that is coupled to communicate with the injection passage 4, in the direction of the main body 110 of the discharge member 115, that is, the collecting part 1150 in the form of a hemisphere, cone, or cone that is inclined downwardly. ) Is preferably formed. The discharge member 115 may be provided on the main body 110 in an integrated form rather than a separate or separate configuration.

The entrance/exit part 117 is provided in the side of the body part 110, and a gas inlet part 118 (FIG. 5) is provided in the other direction, and the entrance/exit part 117 is a passage through which an extinguishing agent or an additive is introduced. And the gas inlet 118 is a passage through which an inert gas, which is a gas, flows.

4 to 6 are views showing cross-sections of the discharging device of the present invention. Referring to FIG. 4, it is a cross-sectional view taken along line A-A of FIG. 3, that is, a plane of the second layer portion 133 of the rotating member 130.

The body portion 110 may be formed of a metal material such as brass, aluminum, or synthetic resin, and is filled to be sealed except for the inner tube or the rotating member 130 interior space. The drug discharge pipe 1163 extending inward from the lower connecting portion 116 extends vertically and is formed to communicate with the upper injection pipe 1153 via the rotating member 130.

In the second layer portion 133 of the rotating member 130, three pipes passing through the same center, that is, a drug pipe 1331, a narrow pipe 1332, and a light pipe 1333 are formed. According to the rotation, any one of the drug pipe 1331, the narrow pipe 1332, and the light pipe 1333 communicates between the drug discharge pipe 1163 and the injection pipe 1153, or is blocked at other positions. Will be ordered. The narrow pipe 1332 is a flow path having a relatively small cross-sectional area, and the light pipe 1333 is a flow path having a large cross-sectional area.

When the rotating member 130 is rotated so that the drug pipe 1331 is vertically positioned, the drug discharge pipe 1163, the drug pipe 1331 and the injection pipe 1153 are vertically connected, so that the fire extinguishing agent in the container 1 Is moved upwards along the drug discharge pipe 1163, and is collected in the collection unit 1150 through the drug pipe 1331 and the injection pipe 1153, and may be discharged to the upper side of the discharge member 115.

Likewise, when the rotating member 130 is rotated so that the narrow pipe 1332 is vertically positioned, the same operation is performed, but since the cross-sectional area of the flow path is relatively small, the amount of medicine supplied is relatively small, and the light pipe 1333 When is positioned vertically, the amount of medicines supplied is relatively large.

On the side of the drug discharge pipe 1163, a drug inlet pipe 1171 is vertically formed, which is connected to the outside through the inlet and outlet portion 117 to remove the pressure in the container, or by introducing a fire extinguishing agent into the container 1 It serves to supply. That is, a relief valve (not shown) is applied to the inlet/outlet part 117 to relieve pressure inside the medicine container, and additionally, it may be utilized as a path through which the fire extinguishing agent is introduced through the inlet/outlet part 117. In this case, it is possible to introduce an external fire extinguishing agent into the container (1).

Referring to FIG. 5, it is a cross-sectional view taken along the line B-B of FIG. 3, that is, the plane of the first layer part 131 of the rotating member 130. The gas inlet 118 formed at the rear is connected to the gas pipe 1161 extending vertically, and the gas pipe 1161 extends vertically, and the injection gas pipe 1151 at the upper side through the rotating member 130 It is formed to communicate with.

The first layer portion 131 of the rotating member 130 is formed with three pipes passing through the same center, that is, the first, second, and third gas pipes 1311, 1312, 1313, and the rotation of the rotating member 130 Accordingly, any one of the first, second, and third gas pipes 1311, 1312, and 1313 communicates between the gas pipe 1161 and the injection gas pipe 1151, or blocks at other positions.

The inert gas introduced from the gas inlet 118 flows downward through the gas pipe 1161, and flows upward through the first, second, and third gas pipes 1311, 1312, 1313, and the injection gas pipe 1151 ) Can be collected in the collection unit 1150 and discharged above the discharge member 115. That is, the inflowed gas is supplied to the upper and lower sides simultaneously, and in the case of the lower side, the gas pressurizes the extinguishing agent and moves it to the drug discharge channel 1163 through the siphon pipe. Will form. In addition, there is a screw thread (see Figs. 4 and 6) at the lower end of the drug discharge pipe 1163 so that it can be connected to the siphon pipe. The collection unit 1150 is formed in a hemispherical, conical, or conical shape to be introduced and is connected to the gas pipe 1151 and the injection pipe 1153 at the same time, and the gas supplied from the gas pipe 1151 and the injection pipe 1153 And the drug can be collected and mixed at the same time.

Referring to FIG. 6, the first gas pipe 1311 of the first layer 131 is positioned parallel to the gas pipe 1161 and the injection gas pipe 1151, and the light pipe 1333 of the second layer 1333 ) Is located side by side of the drug discharge pipe 1163 and the injection pipe 1153, but they are not in communication with each other and remain blocked.

The main body 110 is provided with a combination of two layers of vertical flow paths, that is, a gas pipe 1161 and an injection gas pipe 1151, and a combination of a drug discharge pipe 1163 and an injection pipe 1153. The structure is merged in the collecting part 1150 of the discharge member 115, so that the gas and the fire extinguishing agent are guided into the collecting part 1150, which is a mixing chamber, in parallel. At this time, it is preferable that the ratio of the inner diameter of the injection gas pipe 1151 and the inner diameter of the injection pipe 1153 is in the range of 1:1 to 1:4.

Likewise, the rotating member 130 also has a multi-channel of two layers, that is, a combination of the first, second, and third gas pipes 1311, 1312, 1313, a drug pipe 1331, a narrow pipe 1332, a light pipe 1333 A combination is provided, and a flow path is formed for each layer.

7 is a diagram showing a combination example for selecting or mixing four types of fire extinguishing agents. Referring to FIG. 7, the discharge device 100 combines various fire extinguishing agents according to the mixing ratio corresponding to (a) gas, (b) dry cloth, (c) wet cloth, and (d) finely sprayed water.

Referring to (a), in order to discharge only gas, it is necessary to communicate only inert gas such as argon gas without discharging the extinguishing agent. To this end, when the first gas pipe 1311 of the first layer portion 131 of the rotating member 130 is vertically disposed, the second layer portion 133 is between the drug discharge pipe 1163 and the injection pipe 1153 It should be in the form of blocking without communicating. Therefore, the drug pipe 1331, the narrow pipe 1332, and the light pipe 1333 are formed so as not to be parallel to the first gas pipe 1311 in the same direction. In this case, the gas introduced into the gas pipe 1161 is discharged to the discharge member 115 along the first gas pipe 1311, and the fire extinguishing agent rising along the drug discharge pipe 1163 The flow path is blocked by the outer surface and the ascent is blocked. Therefore, only gas is discharged through the discharge member 115.

Referring to (b), in order to discharge dry cloth, a small amount of extinguishing agent must be mixed with an inert gas. Unlike (a), although the fire extinguishing agent is communicated and discharged, it must be mixed with a relatively small amount. For this purpose, when the second gas pipe 1312 is vertically positioned, the narrow pipe 1332 is also vertically positioned and communicated. do. Accordingly, the second gas pipe 1312 and the narrow pipe 1332 are parallel to each other in the same direction. In this case, the gas introduced into the gas pipe 1161 is discharged to the discharge member 115 along the second gas pipe 1312, and only a relatively small amount of the extinguishing agent rising along the drug discharge pipe 1163 is narrow. It is discharged through the pipeline 1332. Therefore, the dry cloth is discharged through the discharge member 115.

Referring to (c), in order to discharge the wet cloth, a relatively larger amount of extinguishing agent must be mixed with an inert gas. To this end, when the third gas pipe 1313 is vertically positioned, the light pipe 1333 is also vertically positioned and communicates with each other. Therefore, the third gas pipe 1313 and the light pipe 1333 are parallel to each other in the same direction. In this case, the gas introduced into the gas pipe 1161 is discharged to the discharge member 115 along the third gas pipe 1313, and a relatively large amount of the extinguishing agent rising along the drug discharge pipe 1163 It is discharged through the furnace 1333. Therefore, the wet cloth is discharged through the discharge member 115.

Referring to (d), in order to discharge only finely sprayed water or fire extinguishing agent, only the fire extinguishing agent should be communicated without discharging inert gas. To this end, when the drug pipe 1331 of the second layer portion 133 of the rotating member 130 is vertically disposed, the first layer portion 131 does not communicate between the gas pipe 1161 and the injection gas pipe 1151. Should be blocked without. Accordingly, the first, second, and third gas pipes 1311, 1312, and 1313 are formed so as not to be parallel to the drug pipe 1331 in the same direction. In this case, the gas flowing into the gas pipe 1161 is blocked by the outer surface of the rotating member 130 to block the rise, and the extinguishing agent rising along the drug discharge pipe 1163 Accordingly, it is discharged to the discharge member 115. Therefore, only finely sprayed water or fire extinguishing agent is discharged through the discharge member 115.

8 to 9 are views for showing the mixing process by the discharge device of the present invention. Referring to Figure 8, (a) shows the mixing process of the dry cloth, (b) shows the mixing process of the wet cloth.

Referring to (a), when mixing dry cloth, when the second gas pipe 1312 is vertically positioned, the narrow pipe 1332 is also vertically positioned, and the foaming agent rising along the drug discharge pipe 1163 Only a relatively small amount passes through the narrow pipe 1332, and the gas introduced through the second gas pipe 1312 is mixed in the collecting unit 1150, and is discharged upwards as a dry cloth mixture.

Referring to (b), when mixing wet cloth, when the third gas pipe 1313 is vertically positioned, the light pipe 1333 is also vertically positioned, and the foaming agent rising along the drug discharge pipe 1163 A relatively large amount passes through the light pipe 1333, the gas introduced through the third gas pipe 1313 is mixed in the collecting unit 1150, and is discharged upward as a wet cloth mixed chemical.

Referring to FIG. 9, when only gas is discharged, when the first gas pipe 1311 is vertically positioned, the pipe of the second layer portion 133 should not be vertically positioned. In this case, only gas is discharged through the discharge member 115.

10 is a view showing embodiments of a discharge device having an inlet and outlet portion of the present invention. Referring to FIG. 10, not only simply mixing and discharging, but also a function of additionally introducing a drug into the container 1 may be performed.

The entry/exit part 117 for introducing a drug may supply a drug or an additive to the container 1 through the drug inlet pipe 1171, and as shown in (b), a plurality of inlet and outlet portions 117 and a drug inlet pipe ( 1171), it is also possible to supply a large number of fire extinguishing agents and additives.

In addition, it is possible to reduce the pressure inside the extinguishing agent container in case of emergency by applying a relief valve that can control the pressure inside the extinguishing agent container.

By communicating the structure as described above, that is, the multilayer structure of the rotating member 130 and the multilayer structure of the conduit in the main body 110, it is possible to select or mix and discharge four types of fire extinguishing agents. As the operator simply rotates the valve or switch to a predetermined position, the gas and the extinguishing agent are selected or mixed according to the predetermined combination and mixing ratio.Therefore, the operator's skill is not required, and the extinguishing agent can be selected and supplied quickly and accurately. There will be.

This discharge device 100 is a compact structure that does not require complicated equipment, and it is only necessary to connect it to the upper opening of the container (1) and connect it to the gas flow channel (2), the drug flow channel (3) and the injection channel (4). Therefore, it has the advantage of being very easy to assemble, transport, and utilize. In addition, at the site of a complex fire such as an ESS fire, it is possible to extinguish a lithium metal fire by injecting only argon gas when necessary, so that an appropriate extinguishing agent can be quickly selected and provided according to the type or situation of the fire.

While this specification includes many features, such features should not be construed as limiting the scope or claims of the invention. In addition, features described in separate embodiments of the present specification may be combined and implemented in a single embodiment. Conversely, various features described in a single embodiment of the present specification may be individually implemented in various embodiments, or may be properly combined and implemented.

The present invention described above, for those of ordinary skill in the art to which the present invention pertains, various substitutions, modifications and changes are possible within the scope of the technical spirit of the present invention. It is not limited by the drawings.

Claims (7)

1. In a discharge device for selecting a fire extinguishing agent for fire extinguishing or for discharging by mixing two or more fluids,

   One side is in communication with the container containing the fire extinguishing agent, and the other side is the main body that communicates with the injection passage through which the fire extinguishing agent is discharged.

   And a rotating member positioned to include a portion that rotates between the container and the injection passage in the main body,

   A plurality of pipes are formed inside the main body, and a plurality of pipes communicating between the pipes of the main body are formed inside the rotating member,

   A discharging device capable of selecting a fire extinguishing agent or adjusting a mixing ratio, characterized in that the main body and a pipe passage between the rotating member are communicated or blocked according to the rotation of the rotating member.
2. The method of claim 1,

   The rotating member,

   It comprises a first layer portion and a second layer portion at different positions forming a vertical plane with the rotation center axis,

   A discharging device capable of selecting or adjusting a mixing ratio of a fire extinguishing agent, characterized in that a plurality of pipes are formed in each of the first layer and the second layer.
3. The method of claim 2,

   The first layer has a predetermined angle with respect to the center of rotation, and a pipeline including a first gas pipe, a second gas pipe, and a third gas pipe is formed,

   A discharge device capable of selecting or adjusting a mixing ratio of a fire extinguishing agent, characterized in that the second layer has a certain angle with respect to the rotation center, and includes a drug pipe, a narrow pipe, and a light pipe.
4. The method of claim 3,

   The first gas pipeline of the first layer and the drug pipeline of the second layer are formed to extend in different directions,

   The second gas pipe of the first layer and the narrow pipe of the second layer extend through the same direction,

   A discharge device capable of selecting or adjusting a mixing ratio of an extinguishing agent, characterized in that the third gas pipe of the first layer and the light pipe of the second layer extend in the same direction.
5. The method of claim 3,

   The main body,

   On one side,

   A gas pipeline capable of communicating with the pipeline of the first floor, and

   It has a drug discharge pipe capable of communicating with the pipe passage of the second layer,

   On the other side,

   An injection gas pipe capable of communicating with the pipe of the first floor portion, and

   It has an injection pipe capable of communicating with the pipe passage of the second layer,

   According to the rotation of the rotating member, it is possible to select or adjust the mixing ratio of fire extinguishing agents, characterized in that only the gas pipe and the injection gas pipe communicate, or communicate only with the drug discharge pipe and the injection pipe, or at the same time. Ejection device.
6. The method of claim 3,

   In the body:

   An entry and exit portion communicating with the drug flow path is formed

   A discharge device capable of selecting or adjusting a mixing ratio of a extinguishing agent, characterized in that it comprises a drug inlet pipe connected to the inlet and outlet and communicated with the extinguishing agent container side.
7. The method of claim 5,

   The body is:

   A gas inlet part communicating with the gas flow path is formed,

   A discharge device capable of selecting an extinguishing agent or adjusting a mixing ratio, wherein the gas inlet is in communication with the gas pipe.

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