KR100655886B1 - Apparatus for Extinguishing Fire Automatically by using Infra Red Sensor and Method Thereof - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to an automatic fire extinguishing device using an infrared sensor and a method thereof.

2. The technical problem to be solved by the invention

The present invention detects the temperature increase process of the surface of the organic solvent of the cooling tank by using an infrared sensor, and monitors the amount of change in the rate of temperature increase generated at this time, thereby detecting an increase in temperature and generating an alarm and connecting to the CO ₂ storage unit. It is an object of the present invention to provide an automatic fire extinguishing device using an infrared sensor and a method thereof for operating a solenoid valve to extinguish a fire.

3. Summary of Solution to Invention

The present invention, connected via the CO ₂ storage unit, the CO ₂ storage unit and sent to store CO _2, For fires and comprising a CO ₂ input for releasing the CO ₂ in an organic solvent bath cooling An automatic fire extinguishing device using an infrared sensor for detecting and extinguishing a fire generated in an organic solvent, comprising: an infrared sensor unit for detecting a temperature (surface temperature) of radiation generated from a surface of an organic solvent; A control unit for receiving a surface temperature from the infrared sensor unit and sensing a temperature rising rate and a maximum temperature of the surface temperature of the organic solvent to determine a possibility of fire and whether there is a fire; An alarm unit for generating a fire alarm if the temperature increase rate exceeds an average value and for generating a fire alarm if the maximum temperature exceeds a set value under the control of the controller; Under the control of the controller, including a solenoid valve for the case in which the peak temperature is higher than the set value of the CO ₂ storage portion through the CO ₂ to release the CO ₂ is supplied.

4. Important uses of the invention

The present invention is used in organic cooling bath system and the like.

Organic solvent, cooling tank, surface temperature, infrared sensor, fire, alarm

Description

Apparatus for Extinguishing Fire Automatically by using Infra Red Sensor and Method Thereof}             

1 is an embodiment configuration of an automatic fire extinguishing device using an infrared sensor according to the present invention,

2 is a flowchart illustrating an automatic fire extinguishing method using an infrared sensor according to the present invention.

* Explanation of symbols for the main parts of the drawings

110: control unit 120: infrared sensor unit

130: CO ₂ storage unit 140: solenoid valve

150: CO ₂ input unit 160: alarm unit

170: history storage unit 180: CO ₂ transmission path

The present invention relates to an automatic fire extinguishing device using an infrared sensor and a method thereof. The present invention relates to a colorless, completely burned flame generated in the field of handling organic solvents, and to a fire that is detected late after being expanded to a secondary fire. The present invention relates to an automatic fire extinguishing device using an infrared sensor and a method for preventing damage in advance.

Generally, cooling baths dealing with organic solvents are used in various physical property testing fields. At this time, the organic solvent used is mainly used for the purpose of cooling, in the case of water is frozen below 0 ℃ it is impossible to further cooling.

On the other hand, organic solvents such as alcohol have a low freezing point, thereby cooling the test substance to a lower temperature. However, when a fire occurs in such a cooling tank, the progress of complete combustion is common, and in this case, the flame is not visible at all, so that the state of the fire cannot be confirmed with the naked eye. Therefore, since the worker and the manager does not recognize the fire at an early stage, there is a problem that the power generation to the secondary fire causes serious damage.

In order to detect the fire of such an organic cooling tank, a fire detection apparatus is generally used, and fire monitoring is performed by detecting the temperature rise and the generation of smoke in the detection space using the temperature sensing device and the smoke sensing device as main components.

However, in the conventional method as described above, when a fire occurs in a limited space such as an organic cooling tank, the temperature rise of the entire space is small, and since smoke and flame do not occur due to complete combustion, it is difficult to detect smoke, thereby effectively detecting fire. There is an impossible problem.

The present invention has been proposed to solve the problems described above, by detecting the temperature rise process of the surface of the organic solvent of the cooling tank using an infrared sensor, and by monitoring the amount of change in the rate of temperature increase generated at this time, to detect the rise in temperature It is an object of the present invention to provide an automatic fire extinguishing device using an infrared sensor and a method thereof for generating an alarm and operating a solenoid valve connected to a CO ₂ storage unit to extinguish a fire.

The present invention for achieving the abovementioned objects is also connected via a CO ₂ storage unit, the CO ₂ storage unit and sent to store CO _2, CO ₂ input for releasing the CO ₂ in an organic solvent For fires An automatic fire extinguishing device using an infrared sensor for detecting and extinguishing a fire occurring in an organic solvent contained in a cooling tank, comprising: an infrared ray for detecting a temperature (surface temperature) of radiation generated on the surface of the organic solvent. Sensor unit; A control unit for receiving a surface temperature from the infrared sensor unit and sensing a temperature rising rate and a maximum temperature of the surface temperature of the organic solvent to determine a possibility of fire and whether there is a fire;

An alarm unit for generating a fire alarm if the temperature increase rate exceeds an average value and for generating a fire alarm if the maximum temperature exceeds a set value under the control of the controller; Under the control of the controller, and provides an automatic fire-extinguishing systems using an infrared sensor including a solenoid valve for the case in which the peak temperature is higher than the set value of the CO ₂ storage portion through the CO ₂ to release the CO ₂ is supplied.

In addition, the present invention is provided with a CO ₂ storage unit and an infrared sensor unit, the internal temperature value, the normal temperature rise rate and the fire temperature is set in advance, to detect the fire generated in the organic solvent contained in the cooling tank to extinguish it In the automatic fire extinguishing method using an infrared sensor, the infrared sensor unit for measuring the surface temperature of the organic solvent; When the rate of increase of the measured surface temperature exceeds the set normal temperature rate of increase, performing a fire possibility alarm; Performing a fire alarm if the maximum temperature of the measured surface temperature exceeds a set fire temperature; The step of releasing CO ₂ in the CO ₂ stored in the storage unit in the organic solvent; And by measuring the surface temperature of the organic sensor, the infrared sensor unit provides an automatic fire extinguishing method comprising the step of stopping the emission of CO ₂ when the measured surface temperature falls.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same components as possible, even if displayed on the other drawings have the same number as possible. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an embodiment of an automatic fire extinguishing device using an infrared sensor according to the present invention.

As shown in the figure, the fire extinguishing device of the present invention, the control unit 110, infrared sensor unit 120, CO ₂ storage unit 130, solenoid valve 140, CO ₂ input unit 150, alarm unit ( 160), the history storage unit 170 and the CO ₂ transmission path 180 is configured, and the cooling bath contains an organic solvent such as alcohol.

In the automatic fire extinguishing device of the present invention, first, the infrared sensor unit 120 is used to detect a fire, and the infrared sensor unit 120 is responsible for detecting a temperature of radiation generated on the surface of the organic solvent. do.

The control unit 110 receives the surface temperature from the infrared sensor unit 120, and is responsible for monitoring the temperature increase of the surface temperature of the organic solvent, and the alarm unit 160 when the temperature increase rate is greater than the normal temperature increase rate. ) To alarm the possibility of a fire, and when the maximum temperature is higher than the set value is responsible for controlling the alarm unit 160 to alert that the fire. In addition, by causing the solenoid valve 140 is operated in case of fire so that the CO ₂ and CO ₂ in the storage unit 130 is stored can be discharged through the CO ₂ input section 150.

Accordingly, the alarm unit 160 is responsible for performing a fire possibility alarm and a fire alarm under the control of the controller 110. In this case, the alarm unit 160 may be distinguished by different alarm sounds.

According to the present invention, the control unit 110 is a case in which the test specimen is put into the organic solvent in the general working space, or the infrared generation point of the outside, that is, the reflection of the external sunlight or the human body of the operator to the infrared sensor unit 120 Even when an external disturbance occurs, such as screening, the fire is not recognized as a fire immediately and compared with the temperature raising and lowering process at the time of infrared detection. After confirmation, and after the secondary alarm (fire alarm) it can be made to operate the solenoid valve 140 of the CO ₂ storage unit 130.

In the fire suppression process, the infrared sensor unit 120 continuously detects the surface temperature of the organic solvent, and the control unit 110 causes the solenoid valve 140 to operate when the surface temperature decreases. ₂ input unit 150 to stop the CO ₂ discharge, to prevent unnecessary injection of CO ₂ to end the fire suppression process.

The history storage unit 170 is responsible for storing the generation time and the fire time of the fire under the control of the control unit 110, so that the occurrence of the fire can be confirmed later.

Hereinafter, the operation of the automatic fire extinguishing device using the infrared sensor of FIG. 1 will be described with reference to FIG. 2.

2 is a flowchart illustrating an automatic fire extinguishing method using an infrared sensor according to the present invention.

As shown in the figure, the fire extinguishing method of the present invention, first, the control unit 110 initializes the infrared sensor unit 120 (S201), and checks the output of the infrared sensor unit 120 (S203). ). That is, the room temperature value is set to a predetermined temperature (referred to as "A" for the purpose of the present invention). Further, the inclination of the output value of the infrared sensor unit 120 is set (that is, the normal temperature increase rate "B setting") (S205), and the fire state is set (that is, the setting temperature "C" at the time of fire is set) (S207). As such, the controller 110 may set an initial state of the infrared sensor unit 120. In the description of the present invention, for convenience of description, each setting value is illustrated as A, B, and C. Since it may be different according to the situation of a cooling tank, the description is abbreviate | omitted.

Thereafter, the infrared sensor unit 120 measures the surface temperature of the organic solvent (S209).

If the rate of increase of the surface temperature measured by the infrared sensor unit 120 exceeds B (S211), the controller 110 controls the alarm unit 160 to perform a fire possibility alarm. In operation S213, when the maximum temperature exceeds C (S215), the controller 110 controls the alarm unit 160 to perform a fire alarm (S217), and the solenoid valve 140. by controlling, the CO ₂ stored in the storage unit 130, the CO ₂ may be such that release of the organic solvent to pass through the CO ₂ via the CO ₂ transmission input unit (150) (S219).

On the other hand, when the surface temperature of the organic solvent is lower than the set room temperature A, the control unit 110 is determined to be the abnormality of the infrared sensor unit 120 to repeat the steps S201 to S207, that is, to set the initial state It may be (S223).

In the step S219, even when the CO ₂ input unit 150 emits CO ₂ to the organic solvent, the infrared sensor unit 120 measures the surface temperature of the organic solvent (S225), the surface temperature is lowered In this case (S227), the control unit 110 may control the solenoid valve 140 to allow the CO ₂ input unit 150 to stop the CO ₂ discharge (S229).

Finally, the history storage unit 170 may store a history such as fire occurrence time and extinguishing time (S231).

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

The present invention as described above, by arranging the infrared sensor, there is an effect that it is possible to respond early to the fire that occurs during the unattended / unattended test process using a low-temperature cooling tank using an organic solvent.

Therefore, the present invention is capable of automatically monitoring, extinguishing and post-processing fires, thereby ensuring a safe test process and preventing serious losses caused by secondary fires.

Claims (4)

CO ₂ storage unit for storing the CO ₂ , the CO ₂ storage unit and the connection via the transmission path, provided with a CO ₂ input unit for releasing CO ₂ to the organic solvent in the event of a fire, in the organic solvent contained in the cooling tank In the automatic fire extinguishing device using an infrared sensor for detecting fire and generating fire, An infrared sensor unit for detecting a temperature (surface temperature) of radiation generated on the surface of the organic solvent; A control unit for receiving a surface temperature from the infrared sensor unit and sensing a temperature rising rate and a maximum temperature of the surface temperature of the organic solvent to determine the possibility of fire and whether there is a fire; An alarm unit for generating a fire alarm if the temperature increase rate exceeds an average value and for generating a fire alarm if the maximum temperature exceeds a set value under the control of the controller; Under the control of the controller, the solenoid valve for the case in which the peak temperature is higher than the set value of the CO ₂ storage portion through the CO ₂ to release the CO ₂ In Automatic fire extinguishing device using an infrared sensor comprising a. The method of claim 1, History storage for storing the fire history-including the time of fire and extinguishing time Automatic fire extinguishing device using an infrared sensor further comprising. Infrared sensor having a CO ₂ storage unit and an infrared sensor unit, the internal temperature value, the normal temperature rise rate and the fire temperature of the infrared sensor unit is set in advance, to detect and extinguish the fire occurring in the organic solvent contained in the cooling tank. In the automatic fire extinguishing method used, Measuring the surface temperature of the organic solvent by the infrared sensor unit; Performing a fire possibility alarm when the rate of increase of the measured surface temperature exceeds a set normal temperature rate of increase; Performing a fire alarm when the maximum temperature of the measured surface temperature exceeds a set fire temperature; The step of releasing CO ₂ in the CO ₂ stored in the storage unit in the organic solvent; And The infrared sensor unit measures the surface temperature of the organic solvent, and when the measured surface temperature falls, stopping the release of CO ₂ Automatic fire extinguishing method using an infrared sensor comprising a. The method of claim 3, Storing the fire history, including time of fire and extinguishing time Automatic fire extinguishing method using an infrared sensor further comprising.

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