Small fire extinguishers equipped with infiltration fire extin

02-12-2019 дата публикации
Номер:
KR0102046261B1
Автор: 장성철
Принадлежит: 주식회사 참솔테크
Контакты:
Номер заявки: 01-18-102020332
Дата заявки: 10-10-2018

[1]

The present invention relates to a small fire extinguisher including, a fire extinguishing agent and a tube, and more preferably, in the present invention, a fire, extinguishing agent may be injected into a laminated gap of the protective object in order to extinguish fire generated in a deep part of the laminated protective. object.

[2]

In addition, since a fire detection sensor is applied to detect a large amount of fire, the fire extinguishing agent is, not, initially sensed, and the fire extinguishing, agent is ejected when the fire is detected after the fire is spread to a certain degree, and thus it is difficult. to re-establish the fire extinguishing agent.

[3]

In order to overcome this disadvantage, a small fire extinguisher with tubes is, used to detect fire fires in small spaces. and to initially push down the fire fires in a small space.

[4]

However, there is an effort to apply a fire extinguishing gas. to a cable tray, but the fire extinguishing material generated at the inside of the laminated cable is not. extinguished with fire extinguishing gas.

[5]

Since the fire extinguishing gas is mostly (a large part, and) the fire extinguishing. gas is partially combined with the secondary fire extinguishing gas, the fire extinguishing gas is generated by the action of first bonding with the secondary fire extinguishing gas, and the inside of the laminated cable is not completely removed; thus, complete. fire suppression was impossible.

[6]

However, in order 10-1397922 to early extinguish fire occurring, in a place where space is wide, the valve device is operated by the pressure drop due to breakage of the fire detection tube, and the fire extinguishing. agent is ejected.

[7]

However, since the fire extinguishing agent is not charged into the gap of the protective, object, initial fire suppression. may occur.

[8]

대한민국 등록특허 제10-1397922호

[9]

An object of the present invention is to solve the above- mentioned problems of the conventional problems, and an object of the, present invention is to prevent fire from being spread in the interior of a. cable which is linearly laminated over a long distance such as an underground cavity, and initially completely extinguishes the fire from the inside of the laminated cable.

[10]

In addition, the, present invention aims to reduce the cost due, to the waste of the fire extinguishing agent. by solving the fire of fire with a small amount of fire extinguishing agent.

[11]

The present invention has been created to achieve the above object .

[12]

One embodiment of the present invention, will be described.

[13]

A small 1 fire extinguisher having a tube using a fire extinguishing gas, which is a disadvantage 2 of a small fire, extinguisher including a tube using a fire extinguishing gas as shown in the. figure, is manufactured by providing a small fire extinguisher with a fire extinguishing agent and a tube, which can penetrate into a fine space, as shown in FIG.

[14]

To the present invention, fire suppression can (be: initially) caused early by extinguishing fire, early to the stacked protection objects, for example, the protective objects . for example, the first and second sheathed objects of the protective object, for example, the Classbda, and completely extinguish the fire at the inside of the laminated protective object, as described above, in the first embodiment of the present invention.

[15]

In addition, since the fire may not be injected at the beginning of. the, fire, the fire may be sensed, at the beginning of the fire, and the fire may be launched at the beginning of the. fire, thereby enabling the recovery of the fire.

[16]

Turning now 1 on perspective 1a view showing a normal. fire extinguishing system; FIGS. A perspective 2 view showing an exemplary embodiment of a small fire extinguisher including a fire extinguishing gas and a tube is also. shown. The present invention is 3 directed to a small fire extinguisher including an infiltration agent and a tube according to an embodiment of the. present invention; FIGS. A perspective view of 4 a valve unit according to an embodiment of the present invention will be described. in detail. Is a 5 perspective view showing an exemplary embodiment of a valve unit and an auxiliary container according to an embodiment of. the present invention. The present 6 invention relates to a small fire extinguisher including an infiltration-extinguishing agent and a tube according to. an embodiment of the present invention; FIGS.

[17]

As those, skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit. or scope of the present invention.

[18]

[19]

The typical normal fire-1a 1 fighting equipment and the 2 small-sized fire- extinguishing system shown in FIGS.

[20]

In addition, since (10) fire detection is spread to a certain degree, the fire extinguishing fire extinguishing gas is discharged (to) a certain degree, and the fire extinguisher is discharged to a certain degree,and the fire extinguisher is extinguished by extinguishing fire.

[21]

In addition, since both fire extinguishing agents) which (are designed into a wide space are ejected, a lot. of costs are incurred.

[22]

However, fire spreading can be minimized at a low cost due to rapid fire detection and rapid fire extinguishing when fire is. extinguished by using a small fire extinguisher including a digester gas and a tube.

[23]

For this, reason, a small fire, extinguisher having a fire. extinguishing gas and a tube is used additionally in addition to the legal fire. extinguishing equipment.

[24]

A small fire extinguisher including a fire extinguishing gas and a tube has a structure in which a tube is arranged where a fire occurs, and a tube (is) placed where a fire occurs in the. fire extinguishing container.

[25]

The fire extinguishing gas is mainly extinguished by cooling and additionally reacts with oxygen to achieve digestion.

[26]

[27]

In addition 2, since it is suitable for a (10) sealed space such, as a switchgear cabinet, it is. suitable for surface cleaning of equipment that is not laminated, but it is. difficult to penetrate the fire extinguishing agent in. a laminated gap, for example.

[28]

[29]

The present invention relates to a small-3 sized fire extinguisher including an infiltration (132)-type (140) fire-(132) extinguishing agent of the present invention and a tube.shaped. tube, wherein the infiltration-extinguishing agent is characterized in that it penetrates into a fine space and is extinguished.

[30]

Until now, (132) tube-type small fire extinguishers using infiltration and fire-extinguishing agents are not being sold, which. are not being sold. It suffices if there is (140) an infiltrating (132) drug in the TuP.O.sub .sub H .sub .22 When O the fire occurs due to the infiltration of the infiltrated extinguishing (140) agent consisting of large (132) parts . the heat sensing function of the Tustoma in the case of a fire may be deteriorated.

[31]

However, in the present invention (140), it (132) is desired to (133) solve this problem by having a structure in which. a gas which is not the infiltrated drug but is filled in the tube at normal time in the present invention.

[32]

[33]

As described above, the structure in (110) the fire extinguisher (111) according to, the (110) present invention is equipped with, a siphon tube, which, is (140) filled with a gas (131) such as (130) nitrogen, and. a lower end thereof is filled with a gas such as nitrogen.

[34]

In addition, (110) when a (140) fire occurs in the inside. of the (120) fire-generating place (140), a (130) gas which passes, through the hole of the fire (140)-generating place, at (130) the time of generation of a fire may (132) be formed in the tube of the fire-generating place at the time of generation of the fire-extinguishing agent, and the, gas is injected through the aperture of. the tube-shaped tube-shaped portion of the tube-shaped portion.

[35]

[36]

In addition, there (140) are two (130) methods in which two methods are carried. out such (132) that the (140) gas is (130) filled in the, inside of the inside (160) of at (120) least one of (140) the first (130) tube and the second tube, and. the other one is connected to the valve unit of the second auxiliary gas container, and the other one is connected to the valve unit, so that the gas can be supplied to only the inner tube.

[37]

[38]

With respect to the above-4 described configuration, the (110) structure can be easily understood through (120) the configuration of a valve unit that. connects the (160) two fire-fighting container and the auxiliary-gas container, as shown in FIG. I, to the above-described configuration.

[39]

[40]

A method 4 is provided (120) in which a, valve (132) is disposed (120) at a (130) point of fire occurrence (120) at a lower end. of (120) the valve unit, and (120) a valve unit that (140) controls a flow in, a (140) short direction (120) is disposed in the (120) valve unit, (110) and the (130) valve unit (140) is connected to the valve. unit (120), so that (132) the gas (120) is supplied (130) to the inside. of the fire-extinguishing agent container (the valve unit, is connected to the valve unit, is connected to the valve unit, for example).

[41]

[42]

As 5 an example of the valve (120) unit described in the (160) present invention (120), the inlet (140) is filled (130) with a gas such (120) as a fire extinguishing. gas or a (110) nitrogen gas, (130) and (132) the auxiliary gas, can be (132) supplied to the (120) sub-(121) gas container, and the auxiliary, gas can be supplied to the sub-gas container from the main gas container, (160) and the gas is (130) supplied to the sub- gas (140) (140) container from the sub (120) (160)-gas container ((140) (130) see JP-A). sub.

[43]

On the other (120) hand, (121) when the pressure is lower than the flow (132) rate of the secondary gas, container (160), when the pressure is lower than, the flow rate (160) of the (130) first auxiliary gas container, (140) when the pressure inside (132) the secondary, gas (160) container is (121) equal to or, greater (120) than the reference value (132), the (140) pressure inside of. the first auxiliary gas container is opened, and the flow rate of the second auxiliary gas is increased.

[44]

[45]

The present 6 invention has an advantage in (132) that it (140) is possible to prevent the spreading of fire by initially launching. a fire extinguisher (151) including the infiltration-(152) extinguishing agent described in. connection with the present invention and a cable tray which, can generate a fire at a low. cost, and thus it is. possible to prevent the fire from being spread at a low cost.

[46]

Then, it is (140) possible to initially (150) extinguish the fire at (132) the infiltration of the infiltrating drug from the inside of the protective object to the inner side of the protection object by means of the above-mentioned. Tubular tube (A).

[47]

[48]

In addition, the fire extinguishing (110) apparatus having (120) a pressure switch (123) for providing an alarm, which is configured (121) to open and close a path change caused by pressure (123), is provided to. the valve (124) unit of. the fire extinguisher by pressure as well as pressure by pressure, and the number of the path change caused by the pressure is used as a support pressure gauge.

[49]

[50]

Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of. the, invention to those skilled. in the art.

[51]

Two-legged 10: fire-extinguishing equipment-one 20 :gas and the same A small fire extinguisher having 21: a 22: tube 23: 24: a (small)25: fire 100: extinguisher with a tube of 110: a 111: fire 120: extinguisher 121: and 122: a (small fire) 123: fighting 124: device equipped with 131: the 132: same 133: a fire extinguishing agent for a 151: fire fighting instrument 160: a single 130 :way control valve, a two-way control 140: valve, a single 150 :path control 152: valve, a single-path control valve, a single-path control valve two-way control valve two-way control valve



[52]

However, since the fire extinguishing gas, is used in many times, it is impossible to use a cable tray of a. cable tray in which the surface of. the fire extinguishing gas is not removed from the inside of the cable tray. The present invention has been made in an effort to provide a small fire extinguisher using an infiltration agent capable of being applied to a cable tray in which a cable is. laminated.



A fire (150) extinguisher with a fire extinguisher which can penetrate into (132) the micropores, of (110) the laminated (111) interstices of, the (110) protective object (24) is formed, therein (110), and (132) a siphon, tube is (110) formed in (140) the inside (120) of the digesting, container, and (132) the inside of the digester is filled (132) with nitrogen H gas, and (140) the inside of the digester is connected to the inside of the inside of the fire-extinguishing agent container.2 A O fire extinguisher including a (132) fire extinguishing agent and a tube is (140) provided to prevent a fire extinguishing agent (133) from being (131) injected into, the (140) inside of (132) the fire extinguishing agent by, the pressure of (140) the auxiliary (132) gas container by the pressure of the auxiliary (160) gas container (120), and, to prevent the infiltration (160) of the gas from the (140) inside of the inside of the (160) inside of the inside of, the fire extinguishing (110) agent by (120) the internal pressure (123) of the auxiliary gas container (121) (120) (160) (110) (132), (160) (130) (140) (132), (160) (121), (110) (132) (140).

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