KR101913595B1 - System for recovering extinguishing agent - Google Patents

Abstract

The present invention relates to an extinguishing agent recovery system, and more particularly, to an extinguishing agent recovery system for recovering and recovering a liquid halonous substance contained in an extinguishing agent into a gaseous state, A first pressure reducing valve for increasing the pressure of the extinguishing agent in the liquid state to a gaseous state and a first pressure reducing valve for increasing the pressure of the extinguishing fluid in the liquid state and a secondary pressure reducing valve for changing the flow path of the extinguishing agent introduced into the inlet, A second pneumatic ball valve that opens and closes a path through which the extinguishing agent that has passed through the first pneumatic ball valve is moved to the first booster valve, a path through which the extinguishing agent that has passed through the first pneumatic ball valve is moved to the secondary booster A fourth pneumatic ball valve for opening / closing a path through which the extinguishing agent discharged from the primary pressure accumulator and the secondary pressure accumulator flows out to the outside, a third pneumatic ball valve for opening / A second double acting solenoid valve connected to control operation of the secondary verifying valve, a third double acting solenoid valve connected to control opening and closing of the first pneumatic ball valve, a second double acting solenoid valve connected to control operation of the second double acting solenoid valve, A fourth double acting solenoid valve connected to control the opening and closing of the third pneumatic ball valve, a fifth double acting solenoid valve connected to control opening and closing of the fourth pneumatic ball valve, A check valve for preventing inflow of outside air into the diaphragm or the secondary diaphragm valve in a reverse direction and an outlet for discharging the extinguishing agent in the gaseous state moved through the fourth pneumatic ball valve to the outside to be stored in the storage container Outlet).
The present invention can efficiently recover the halon material contained in the extinguishing agent.

Description

SYSTEM FOR RECOVERING EXTINGUISHING AGENT [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an extinguishing agent recovery system, and more particularly, to a recovery system for converting a liquid halon material contained in an extinguishing agent into a gaseous state.

Commonly used fire extinguishers for fire extinguishers include Halogen materials containing bromine elements in halogen-based materials. Bromine is a non-combustible material and is the most commonly used means of extinguishing halon materials. Halon materials are also used as refrigerants in air conditioners and refrigerators.

However, halon is a substance that destroys the ozone layer, and its ability to destroy ozone per molecule of halon is up to ten times higher than that of freon.

As such, halon is a major source of ozone depletion and global warming, and new production and imports of halon gas classified as the first regulated substance in the Montreal Protocol have been banned from 2010. However, fire extinguishers that already contain halon gas before 2010 are required to be efficiently recovered and reused.

In addition, as of January 20, 2010, the Ministry of Knowledge and Economy announced that halon emission suppression and rationalization guidelines were prohibited for halon production and import.

There was also a problem of releasing Halon-1301, an extinguishing agent contained in a military fire extinguisher, into the atmosphere during the maintenance period of the military combat equipment, because there was no technology to recover Halon materials.

Accordingly, there is a need for a technique capable of recovering the halon material safely and efficiently without leaking the halon material to the outside.

(Patent Document 0001) Korean Patent No. 1204006 " Extinguishing Agent Recovery System and Method "

SUMMARY OF THE INVENTION An object of the present invention to solve the problems derived from the prior art is to efficiently recover and reuse halon materials contained in fire extinguishing agents.

Another object of the present invention is to maximize the recovery rate of halon substances by increasing the phase conversion efficiency in which the extinguishing agent in the liquid state is converted into the gaseous state.

It is a further object of the present invention to efficiently control the valves in the recovery system.

Meanwhile, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

An extinguishing agent recovery system of the present invention comprises an inlet connected to a fire extinguisher to receive a liquid extinguishing agent, a primary booster for increasing a pressure of the extinguishing agent in a liquid state to convert the halon substance into a gaseous state, A first pressurizing unit configured to pressurize the extinguishing agent leaking out of the first pressurizing unit to convert residual halon material into a gaseous state and a second pressurizing unit configured to open and close the movement path of the extinguishing agent introduced into the inlet, A second pneumatic ball valve that opens and closes a path through which the extinguishing agent that has passed through the first pneumatic ball valve is moved to the primary pressure accumulator; A fourth pneumatic ball valve for opening and closing a path through which the extinguishing agent discharged from the primary booster and the secondary booster is discharged to the outside; A second double acting solenoid valve connected to control operation of the secondary diaphragm actuator, a third double acting solenoid valve connected to control opening and closing of the first pneumatic ball valve, A fourth double acting solenoid valve connected to control the opening and closing of the second pneumatic ball valve and the third pneumatic ball valve, a fifth double acting solenoid valve connected to control opening and closing of the fourth pneumatic ball valve, A check valve for preventing inflow of outside air into the primary pressure accumulator or the secondary pressure accumulator when the ball valve is opened; and a check valve for controlling the flow of the gaseous halon and halon in the gaseous phase It is necessary to remove the impurities in the air from the outlets which are separated by an unexposed fire extinguishing agent, Adjusted characterized by comprising the first double-acting solenoid valve, the second double-acting solenoid valve, the third double-acting solenoid valve, the fourth double-acting solenoid valves and filters for supplying air to the fifth double-acting solenoid valve regyulreyiteoeul.

According to the present invention, the following effects can be expected.

1) As the liquid fire extinguishing agent is pressurized by the booster, it can vaporize the Halon material to maximize the Halon material recovery efficiency.

2) Re-pressurizing the extinguishing agent which is pressurized by the primary pressurizer with the secondary pressurizer maximizes the phase conversion efficiency and increases the recovery rate of the halon material.

3) A double-acting solenoid valve provided with air with impurities removed by the filter regulator can control the pneumatic ball valve to perform efficient valve control.

1 is a schematic diagram of an extinguishing agent recovery system according to the present invention;

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various different forms, and these embodiments are not intended to be exhaustive or to limit the scope of the present invention to the precise form disclosed, It is provided to inform the person completely of the scope of the invention. And the terminology used herein is for the purpose of illustrating embodiments and is not intended to be limiting of the present invention. The singular forms herein include plural forms unless the context clearly dictates otherwise.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Brief Description of Drawings FIG. 1 is a block diagram of a computer system according to an embodiment of the present invention; FIG. 2 is a block diagram of a computer system according to an embodiment of the present invention; FIG.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fire extinguishing agent recovery system, and more particularly, to a system for recovering a halon material, which is an ozone depleting substance contained in fire extinguishing agents.

1 is a schematic view showing an extinguishing agent recovery system of the present invention.

Referring to FIG. 1, the extinguishing agent recovery system of the present invention includes an inlet 110 into which liquid or gas can flow, an outlet 160 through which liquid or gas can flow out, A plurality of pneumatic ball valves, a pressure increasing section provided with primary pressure accumulator 131 and secondary pressure accumulator 132 for changing the pressure of liquid extinguishing agent to a vaporized state, and controlling the operation of a plurality of pneumatic ball valves and boosters A plurality of double acting solenoid valves for preventing reverse flow and a check valve 150 for preventing reverse flow. The plurality of pneumatic ball valves, the primary pressure accumulator 131, the secondary pressure accumulator 132, and the check valve 150 are formed in one flow path.

Hereinafter, each configuration of the present invention will be described in detail.

First, referring to the inlet 110, the inlet 110 is the same as the inlet formed so that the liquid extinguishing agent in the extinguisher can be introduced.

The extinguishing agents according to the present invention are all in a liquid state and include liquid halon materials. Here, halon means a compound containing a halogen element in a bromine atom, and halon materials used as a digesting agent include halon-1301, halon-1211, halon-2402, halon-22, halon-23 and the like.

Next, the pneumatic ball valve according to the present invention includes a first pneumatic ball valve 121, a second pneumatic ball valve 122, a third pneumatic ball valve 123, And a pneumatic ball valve (124).

The first pneumatic ball valve 121 is the first pneumatic ball valve and is the first pneumatic ball valve to which the extinguishing agent introduced into the flow path through the inlet 110 first meets. Accordingly, the extinguishing agent can be moved depending on whether the first pneumatic ball valve 121 is opened or closed. When the first pneumatic ball valve 121 is opened, the extinguishing agent can be moved in the direction in which the pressure increasing portions are provided.

The extinguishing agent that has passed through the first pneumatic ball valve 121 is moved toward the second pneumatic ball valve 122 side. The second pneumatic ball valve (122) opens and closes the path that is moved to the primary pressure accumulator (131). When the second pneumatic ball valve 122 is opened, the extinguishing agent can be introduced into the primary pressure accumulator 131.

In addition, the extinguishing agent that has passed through the first pneumatic ball valve 121 can be moved toward the third pneumatic ball valve 123 side. The third pneumatic ball valve 123 opens and closes a path through which the extinguishing agent is moved to the secondary pressure accumulator 132. When the third pneumatic ball valve 123 is opened, the extinguishing agent flows into the secondary pressure accumulator 132.

The fourth pneumatic ball valve 124 is a pneumatic ball valve immediately before the outlet 160. When the fourth pneumatic ball valve 124 is opened, the first pneumatic ball valve 131 and the second pneumatic ball 132 The discharged extinguishing agent is discharged to the outside through the outlet 160.

Next, I will explain the boosters.

The extinguishing agent recovery system according to the present invention may include a boosting unit and the boosting unit may include a primary booster 131 and a secondary booster 132. The first booster 131 and the second booster 132 are devices such as a general booster, which increase the pressure of the liquid or gas introduced into the booster.

The extinguishing agent that has passed through the second pneumatic ball valve (122) flows into the primary pressure accumulator (131). The primary pressure accumulator 131 functions to increase the pressure of the extinguishing agent, and the extinguishing agent is phase-changed from the liquid state to the gaseous state due to the increased pressure. More specifically, the thermodynamic law indicates that pressure and temperature are proportional. Therefore, when the pressure is low, as in the case of being stored in a fire extinguisher, the temperature of the extinguishing agent may be low and may be in a liquid state. On the other hand, when the pressure of the extinguishing agent is high and the temperature of the extinguishing agent is high, The drug changes to the gaseous state.

In particular, the primary vaporizer 131 can increase the pressure of the halon in the liquid state extinguishing agent to the gaseous phase. Each element or substance uses a characteristic having a unique melting point and a vaporization point so that the primary vaporizer 131 can separate from the extinguishing agent by vaporizing the halon material by applying a pressure that can be matched with the vaporization point of the halon material have.

Also, according to one embodiment of the present invention, the extinguishing agent withdrawn after being pressurized by the primary evacuator 131 may be re-pressurized by entering the secondary evacuator 132 again. This is for re-vaporizing and separating the non-vaporized halon material in the primary vaporizer 131.

And the extinguishing agent moved through the third pneumatic ball valve 123 flows into the secondary pressure accumulator 132. The secondary divergent damper 132 has the same function as the primary divergent damper 131 and functions to increase the pressure of the extinguishing agent and the extinguishing agent can be phase-changed from the liquid state to the gaseous state due to the increased pressure.

Then, the secondary pressure accumulator 132 can be reintroduced into the extinguishing agent discharged from the primary pressure accumulator 131, and the extinguishing agent can be re-pressurized.

Next, a description will be given of a plurality of double acting solenoid valves.

The double acting solenoid valve according to the present invention includes a first differential pressure sensor 131, a second differential pressure sensor 132, a first pneumatic ball valve 121, a second pneumatic ball valve 122, a third pneumatic ball valve 123, 4 pneumatic ball valve 124 to control operation and opening and closing.

More specifically, the double acting solenoid valve according to the present invention can function as a switch. The first double acting solenoid valve 141, the second double acting solenoid valve 142, the third double acting solenoid valve 143, the fourth double acting solenoid valve 144 and the fifth double acting solenoid valve 144 And a valve 145.

The first double acting solenoid valve 141 is connected to the primary diaphragm 131 to control the operation of the primary diaphragm 131.

The second double acting solenoid valve 142 is connected to the secondary diverter 132 to control the operation of the secondary diverter 132. [

The third double acting solenoid valve 143 is connected to the first pneumatic ball valve 121 to control the opening and closing of the first pneumatic ball valve 121.

The fourth double acting solenoid valve 144 is connected to the second pneumatic ball valve 122 and the third pneumatic ball valve 123 to open and close the second pneumatic ball valve 122 and the third pneumatic ball valve 123 simultaneously Can be controlled.

The fifth double acting solenoid valve 145 is connected to the fourth pneumatic ball valve 124 to control the opening and closing of the fourth pneumatic ball valve 124.

Next, referring to the check valve 150, the check valve 150 functions to shut off the flow of the fluid that can flow in the reverse direction, allowing the flow only in a single direction. When the fourth pneumatic ball valve 124 is opened, the check valve 150 of the present invention prevents external air, which may be introduced from the outside, from flowing into the primary vaporizer 131 or the secondary vaporizer 132 .

Further, the extinguishing agent recovery system according to an embodiment of the present invention may further include a filter regulator 170.

The filter regulator 170 functions to remove impurities in the air and adjust it to a predetermined pressure or lower, and supplies air to each of the double acting solenoid valves. The filter regulator 170 provides an air pressure of less than a predetermined pressure to the double acting solenoid valve and controls the pneumatic ball valve, the first pressure reducing valve 131 and the second pressure reducing valve 132 by the air pressure, The primary differential pressure sensor 131, and the secondary differential pressure sensor 132, it is possible to perform control more simply and efficiently.

Finally, the outlet 160 (outlet) will be described.

The outlet 160 serves as an outlet for separating the vaporized halon material and the halogenated substance-containing extinguishing agent and discharging it to the outside.

The vaporized halon materials are stored and recovered in a separate storage container. And the extinguishing agent from which halon material has been removed can be released to the atmosphere or stored in another container.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the claims of the invention to be described below may be better understood. It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the appended claims and their equivalents should be construed as being included within the scope of the present invention.

110: inlet
121: first pneumatic ball valve
122: second pneumatic ball valve
123: Third pneumatic ball valve
124: Fourth pneumatic ball valve
131:
132:
141: First double acting solenoid valve
142: Second double acting solenoid valve
143: Third double acting solenoid valve
144: Fourth double acting solenoid valve
145: 5th double acting solenoid valve
150: Check valve
160: Outlet
170: Filter regulator

Claims (3)

An inlet connected to a fire extinguisher to introduce a liquid extinguishing agent;
A primary diaphragm for converting the Halon material into a gaseous state by increasing the pressure of the extinguishing agent in a liquid state and a secondary diaphragm for converting the residual halon material into a gaseous state by re-pressurizing the extinguishing agent discharged from the primary diaphragm A configured boosting portion;
A first pneumatic ball valve for opening and closing a movement path of the extinguishing agent introduced into the inlet;
A second pneumatic ball valve for opening and closing a path through which the extinguishing agent having passed through the first pneumatic ball valve is moved to the primary pressure accumulator;
A third pneumatic ball valve for opening and closing a path through which the extinguishing agent having passed through the first pneumatic ball valve is moved to the secondary verifying valve;
A fourth pneumatic ball valve for opening and closing a path through which the extinguishing agent discharged from the primary pressure accumulator and the secondary pressure accumulator flows out;
A first double acting solenoid valve connected to control the operation of the primary differential pressure sensor;
A second double solenoid valve connected to control operation of the secondary diaphragm;
A third double solenoid valve connected to control opening and closing of the first pneumatic ball valve;
A fourth double acting solenoid valve connected to control opening and closing of the second pneumatic ball valve and the third pneumatic ball valve;
A fifth double acting solenoid valve connected to control opening and closing of the fourth pneumatic ball valve;
A check valve for preventing external air from flowing into the primary pressure accumulator or the secondary pressure accumulator in a reverse direction when the fourth pneumatic ball valve is opened;
An outlet for separating the gaseous halon material transferred through the fourth pneumatic ball valve and the extinguishing agent not containing the halon material and discharging the externally discharged gas into the storage container; And
Air is supplied to the first double acting solenoid valve, the second double acting solenoid valve, the third double acting solenoid valve, the fourth double acting solenoid valve, and the fifth double acting solenoid valve by removing impurities in the air and regulating the pressure to a predetermined pressure or less. And a filter regulator for regenerating the extinguishing agent.
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