KR101403913B1 - Apparatus for performance test of extinguishment - Google Patents

Abstract

Disclosed is a fire extinguishing performance test apparatus for a deep-seated fire. According to the present invention, the fire extinguishing performance test apparatus for a deep-seated fire comprises: a holder into which combustibles are inserted; a pressure chamber supplying a fire extinguishing agent to the combustibles inside the holder; and a heating part formed at the bottom of the holder, and heating the lower sides of the combustibles to be ignited while oxygen is blocked. According to the present invention, the combustibles inserted into the holder of the fire extinguishing performance test apparatus for a deep-seated fire is continuously heated by heat transfer due to conduction, so that the temperature and the ignition of the combustibles can be performed like as an actual deep-seated fire, and, as a result, the reliability of derived data can be secured.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a fire extinguishing performance test apparatus for a deep fire,

FIELD OF THE INVENTION The present invention relates to a fire extinguishing performance testing apparatus, and more particularly, to a fire extinguishing system for heating a deep portion of a combustible material while oxygen is in contact with the fire extinguishing apparatus, To a fire extinguishing performance test device for deep fire.

Deep-fire is a type of fire that occurs in solid combustibles such as wood or fibers, and refers to a fire that burns inside the combustible. That is, the type of fire occurring in the combustible material is a type of fire in which the combustible material is burned from the outside of the combustible to the deep part of the combustible material, and the fire of the solid combustible material is mostly in the shape of the deep fire.

Deep fires are mixed with invasive fire extinguishing agent (invulnerable fire extinguishing agent) and water, which have enhanced permeability, at appropriate mixing ratios and fire them on the fire scene. Since the infiltrating fire extinguishing agent has an enhanced permeability, it is possible to extinguish the fire of the deep part even in the surface waterproofing. In this way, the infiltration and extinguishing agent is intended to intrinsically enhance penetration performance of the target substance.

However, the criterion for the performance of the infiltrating fire extinguishing agent proposed by the fire brigade proposal is only the acceptance criterion for the surface tension which is not clearly defined and the penetration performance of the target substance.

The present inventors have found that there is no definite provision for various parameters such as the heat resistance and the actual digestion ability of the infiltration fire extinguishing agent, It is not a standard. Therefore, it is necessary to evaluate the performance of invasive fire extinguishing agents for deep fire.

On the other hand, the certification standards and performance test methods for NFPA 18 (standard on wetting agents) infiltration fire extinguishing agents prescribed by the National Fire Protection Association (NFPA) are as follows.

Referring to Fig. 1, prepare a cylindrical iron holder 1 with a hole, and put 50 grams of cotton (2) under half of the holder. Then, the steel rod 3 is heated to 593 degrees Celsius to place the rod 3 on the cotton 2 in the cylindrical holder 1. Then, Immediately add 50 grams of cotton (2) to the top of the rod (3). Then, 250cc of water or the infiltrating agent solution (5) is sprayed on the cotton (2), and the solution discharged into the cup (4) at the bottom of the holder is stored. Measure the amount of discharged water or solution to complete the test.

However, the test method prescribed by NFPA 18 requires that the experimental procedure be carried out manually, such as heating of iron, ignition of wood (see NEPA 18), and introduction of fire water, The phenomenon of exceeding the allowable range of reliability has been often found.

As described above, in the NFPA 18 test method, the steel rod 3 is heated and then inserted in the middle of the cotton 2 to spray the solution 5 of water or the infiltrating agent. However, the temperature distribution and heating conditions of the rods (3) and the cotton (2) by such a test method were greatly different from those of the deep fire occurring in the cotton (2) in the actual fire scene.

However, in order to solve the problems described above, it is difficult to perform a performance test on the actual fire of the infiltrating fire extinguishing agent in terms of time and cost. Therefore, We need to proceed.

Also, since the deep fire is burned externally and the combustion progresses gradually toward the deep portion, there is a problem that a long test time is required to simulate a deep fire when reproduced by the same mechanism.

It is an object of the present invention to enable automatic fire extinguishing performance tests of invasive extinguishing agents to be carried out automatically so that the combustion states of actual deep fire can similarly be simulated and to provide various parameters such as heat resistance and actual fire extinguishing ability of the invasive fire extinguishing agent Which is capable of collecting and analyzing clear data on the fire extinguishing performance test device in real time.

According to the present invention, the above object can be accomplished by a refrigerator comprising: a holder into which a flammable substance is introduced; A pressure chamber for supplying a fire extinguishing agent to the combustible material inside the holder; And a heating unit formed at the lower end of the holder for heating the bottom of the combustible to ignite while oxygen is blocked.

The heating portion may heat the combustible so that the ignition of the combustible material is conducted by conduction.

The fire extinguishing performance testing apparatus of the present invention comprises a temperature sensor installed in the holder for measuring the temperature of the combustible material; And a controller for receiving temperature information from the temperature sensor and supplying the extinguishing agent from the pressure chamber when the temperature information is equal to or greater than a reference value.

The fire extinguishing performance testing apparatus of the present invention comprises: a first balance for measuring the weight of the pressure chamber; A second balance for measuring the weight of the holder; And a third balance for measuring the weight of the extinguishing medicament permeated and discharged through the combustible material.

The controller may collect data of the first balance, the second balance, the third balance, and the temperature sensor in real time.

According to the present invention, it is possible to realize the temperature and ignition state of the flammable material, which is very similar to the actual deep fire, by continuously heating the combustible introduced into the holder by heat transfer by conduction, It is possible to provide a fire extinguishing performance test apparatus for deep fire.

Further, as the temperature sensor and the control unit are installed, the testing process such as heating of the combustible material and injection of the extinguishing agent can be automatically performed, and data on the temperature of the combustible material, the input amount, the absorption amount, the permeation amount and the evaporation amount of the extinguishing agent By collecting and analyzing in real time, it is possible to perform a detailed analysis on the performance of the invasive agent.

1 is a view showing a conventional fire extinguishing performance test apparatus for a deep fire.
2 is a diagram showing the overall configuration of a fire extinguishing performance test apparatus for deep fire according to an embodiment of the present invention.
Fig. 3 is a view showing a part of the fire extinguishing performance test device for deep fire in Fig. 2;
Fig. 4 is a view showing the connection structure of the fire extinguishing performance test device for deep fire in Fig. 2;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

FIG. 2 is a view showing the overall configuration of a fire extinguishing performance test device for deep fire according to an embodiment of the present invention, FIG. 3 is a view showing a part of the fire extinguishing performance test device for deep fire in FIG. 2 is a view showing the connection structure of the fire extinguishing performance test device for deep fire in FIG.

The present invention can reduce the fire extinguishing performance of the deep fire by heating the deep portion of the combustible 110 in the state where the contact of oxygen is blocked and supplying the extinguishing agent 120 to the combustible material 110 (EN) A fire extinguishing performance test apparatus (100) for deep fire.

2 to 4, a fire extinguishing performance test apparatus 100 for deep fire according to an embodiment of the present invention includes a holder 10, a pressure chamber 20, a control unit 30, a first balance 40, a second balance 50, and a third balance 60.

The holder 10 is formed into a hollow cylindrical shape and is used as a test space for extinguishing performance in which the sample, that is, the combustible material 110 is filled in the inner space, and the combustible material 110 is burned and extinguished.

The fire extinguishing performance test apparatus 100 of the present invention heats the combustible material 110 so that the deep fire is simulated and the fire extinguishing water or fire extinguishing agent 120 (hereinafter referred to as "fire extinguishing agent") is injected into the ignited combustible material 110 To test the extinguishing performance of the extinguishing agent (120). Thus, combustible material 110 is limited to solid combustible material 110, such as wood or fibers, that creates deep fires. In one embodiment of the present invention, sawdust of wood is selected as an example of the combustible material 110.

A deep fire refers to a fire in which combustion occurs inside the combustible material 110. That is, the type of fire generated in the combustible material 110 is a type of fire in which the combustible material 110 is burnt from the outside to the deep portion of the combustible material 110. In order to reproduce such a deep fire, the fire extinguishing performance testing apparatus 100 according to the present invention has the heating section 12 formed at the lower end of the holder 10.

The heating part 12 is formed in the upper space of the partition wall 13 filled with the combustible material 110 such that the combustible material 110 charged into the holder 10 is heated and ignited in a state where oxygen is shut off as in actual deep- do. The holder 10 is divided into a combustion unit 11 as a space in which the combustible material 110 is combusted by the partition 13 and a heating unit 12 in which a heating source 14 for combusting the combustible material 110 is installed. That is, the combustion unit 11 is formed on the upper portion of the holder 10 with the partition 13 therebetween, and the heating unit 12 is formed on the lower portion of the holder 10.

Therefore, the combustible material 110, that is, the sawdust filled in the combustion section 11 is not directly heated by the flame of the heating source 14 provided in the heating section 12 but is ignited by the heat conducted through the partition wall 13 do. As the combustible material 110 is heated by conduction in the state where the oxygen is blocked and is ignited, the combustible material 110 is ignited by the ignition behavior similar to the actual deep fire (the combustion is progressed And the heat transmitted through the partition wall 13 quickly heats and combusts the combustible material 110, so that the deep fire can be reproduced within a short time. The not-shown symbol C indicates the deep portion of the combustible material 110 ignited by the heating source 14 without direct oxygen contact.

A discharge hole (16) through which the extinguishing agent (120) is discharged is formed in the lower end of the combustion part (11) along the circumferential direction of the outer wall. The discharge hole 16 is used to similarly reproduce the behavior of the extinguishing agent 120 injected into the combustible material 110 during the actual fire and is used to measure the amount of the extinguishing agent 120 discharged through the discharge hole 16 Information on the permeability of the extinguishing agent 120 and the actual extinguishing ability can be obtained.

The heating source 14 can select various types of fuel capable of supplying constant heat energy to the combustion unit 11 for a predetermined time regardless of the solid fuel or the liquid fuel. The blinking mode of the heating source 14 may be flickered independently or blinked under the control of the control unit 30 to be described later.

An air hole (17) is formed in the outer wall of the heating part (12) so that air necessary for combustion of the heating source (14) can be supplied.

A plurality of temperature sensors 15 are installed in the holder 10 in order to analyze information on the temperature change of the combustible material 110 such as the position where the combustible material 110 is ignited and the speed at which the ignition advances. The temperature sensor 15 is connected to the control unit 30 to transmit temperature data.

The holder 10 is formed with a plurality of mounting holes so that the temperature sensor 15 can be installed at various positions on the outer wall. The types of combustible materials 110 that can be input to the combustion unit 11 of the holder 10 vary and the volume of the combustible material 110 can also be selected flexibly according to the characteristics of the fire extinguishing performance test. Therefore, if the installation holes are formed in various positions in advance, the temperature sensor 15 can be adjusted in position and the desired temperature data can be secured even if the combustible material 110 has various kinds and volumes.

In addition, the holder 10 can be manufactured in various capacities so as to be selectively used according to the volume of the combustible material 110 used in the fire extinguishing performance test. That is, each of the large, medium, and small sized parts can be manufactured based on the internal capacity so as to be selectively used according to various volumes of the combustible material 110.

The pressure chamber 20 stores the extinguishing agent 120 used in the digestion performance test. The pressure chamber 20 is formed with a supply line through which water is supplied from a water tank or the like, and a drain line through which the extinguishing agent 120 is drained. The pressure chamber 20 is provided with a thermometer 22 and a pressure gauge 23 so that the temperature and pressure of the extinguishing agent 120 can be checked. A waterproof nozzle (21) for spraying the extinguishing agent (120) is provided at one side of the pressure chamber (20).

The waterproof nozzle 21 is provided on one side of the pressure chamber 20 so as to adjust the injection position so that the fire extinguishing agent 120 can be smoothly sprayed on the upper portion of the combustible material 110 even if the holder 10 is changed. Joints and hinges. The waterproof nozzle (21) operates according to the signal of the control unit (30).

Conventional fire extinguishing performance tests for deep fire (see NFPA 18) were made manually, so even if fire extinguishing performance tests were carried out under the same test conditions, there was no choice but to vary the test results according to the person performing the tests.

The fire extinguishing performance test apparatus 100 for deep fire according to the present invention is made so that the fire extinguishing performance test of the infiltrating fire extinguishing agent 120 can be performed automatically. That is, the controller 30 stores the temperature data of the combustible material 110 by the temperature sensor 15 in real time, and automatically opens the waterproof nozzle 21 when the temperature of the core portion of the combustible material 110 reaches the preset temperature The fire extinguishing agent 120 is sprayed. As described above, the fire extinguishing performance test is automatically performed under the control of the control unit 30, and the objectivity of the test and the reliability of the test data can be secured at the same time.

The fire extinguishing performance testing apparatus 100 includes a first balance 40 and a second balance 50. The first balance 40 and the second balance 50 are provided in the fire extinguishing performance testing apparatus 100 so as to accurately measure the amount of the extinguishing agent 120 that is supplied to the combustible material 110, And a third balance 60 are installed.

The first balance 40 measures the weight of the pressure chamber 20 and measures the variation of the weight 1 according to the weight of the pressure chamber 20 and the injection of the extinguishing agent 120 at the start of the test. The second balance 50 measures the weight of the holder 10 and measures the weight of the holder 10 including the combustible material 110 at the start of the test and the weight ② of the absorbed medicine injected into the combustible material 110 . The third balance 60 is installed under the holder 10 to measure the weight 3 of the extinguishing agent 120 that is discharged through the combustible material 110. A tray or the like is provided on the upper surface of the third balance 60 so that the extinguishing agent 120 discharged through the discharge hole 16 of the combustion unit 11 can be stored.

The variation of the weight due to the injection of the extinguishing agent 120 is the weight of the medicament injected and absorbed into the combustible material 110 and the weight of the extinguishing agent 120 which is discharged through the combustible material 110 ) And the weight of the evaporated drug ④. The weight ④ of the medicine sprayed on the combustible material 110 and evaporated is derived from the data of ① ~ ③.

The absorption amount (2) is obtained by measuring the difference between the measurement values at the beginning of the experiment and the end of the experiment with the second balance (50) for measuring the mass of the holder (10). The amount of absorption is likely to be directly used for digestion due to absorption by the sample.

The amount of permeation? Is measured by a third balance 60 which is located at the lower end of the holder 10 and measures the amount discharged. The amount of permeation can not be absorbed by the sample and is discharged to the lower end of the holder 10, which is less likely to be used for extinguishing.

The data of (1) to (4) as described above can be used as important data for measuring the digestion performance of the extinguishing agent (120). Particularly, the weight ④ of the medicine sprayed onto the combustible material 110 and evaporated is closely related to the extinguishing performance of the extinguishing agent 120. The weight ② of the medicine injected and absorbed by the combustible material 110 and the weight of the combustible material 110 The fire extinguishing performance of the extinguishing agent 120 can be judged by considering the weight ③ of the extinguishing agent 120 to be permeated and discharged.

The weight data measured by the first balance 40, the second balance 50 and the third balance 60 are stored in the control unit 30 in real time.

The fire extinguishing performance test apparatus 100 according to an embodiment of the present invention will be described as follows.

First, a combustible material 110 to be used as a sample is selected, and a holder 10 suitable for the type and volume of the combustible material 110 is selected. A plurality of temperature sensors 15 are installed at a position where the combustible 110 is put into the combustion unit 11 and the temperature of the core portion C of the combustible material 110 and the temperature of the combustible material 110 are measured. Then, the position of the waterproof nozzle 21 is adjusted to match the height of the holder 10. The control software of the control unit 30 is used to set the temperature of the temperature sensor 15 from which the extinguishing agent 120 is sprayed from the waterproof nozzle 21. [

The heating source 14 is turned on, and the combustible material 110 is heated. The fire extinguishing agent 120 is sprayed from the waterproof nozzle 21 under the control of the control unit 30 when the combustible material 110 is heated to a preset temperature in the control software (the temperature sensor 15 measures). The control unit 30 stores data of the first balance 40, the second balance 50 and the third balance 60 and the temperature sensor 15 according to the injection of the extinguishing agent 120. [ When the injection of the extinguishing agent 120 is completed by the predetermined amount, the control unit 30 transmits data of the first balance 40, the second balance 50 and the third balance 60 and the temperature sensor 15 Stored for a set time or temperature range, and the extinguishing performance test is ended.

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 embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

100: Fire-extinguishing performance test apparatus 110: Flammable
120: extinguishing agent 10: holder
20: pressure chamber 30:
40: 1st balance 50: 2nd balance
60: Third scale

Claims (5)

A holder into which a combustible is injected;
A pressure chamber for supplying a fire extinguishing agent to the combustible material inside the holder;
A heating unit formed at a lower end of the holder to heat the lower portion of the combustible to ignite while oxygen is shut off;
A temperature sensor installed in the holder for measuring the temperature of the combustible material;
A controller receiving temperature information from the temperature sensor and supplying the extinguishing agent from the pressure chamber when the temperature information is equal to or greater than a reference value;
A first balance for measuring the weight of the pressure chamber;
A second balance for measuring the weight of the holder; And
Further comprising a third balance for measuring the weight of the extinguishing medicament permeated through the combustible material,
Wherein the control unit collects data of the first balance, the second balance, the third balance, and the temperature sensor in real time. The method according to claim 1,
Wherein the heating unit heats the combustible material so that the ignition of the combustible material is conducted by conduction. delete delete delete

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