KR102579025B1 - Fire extinguishing apparatus for electronic equipment and battery - Google Patents

Abstract

The present invention is a fire extinguishing device for electronic devices and batteries that prevents the spread of fire and effectively extinguishes it at an early stage by causing the shrinkable tube to rupture due to the heat when heat or fire occurs in electronic devices and batteries, thereby spewing out fire extinguishing agent. It's about.
The present invention is formed along the width or length direction on the upper surface of a fire extinguishing object (10) including an electronic device or battery, and is spaced apart from each other at a set interval and installed to protrude at a certain length (20); A heat shrinkable tube that is supported on the support bar 20 and is spaced apart from the upper surface of the fire extinguishing object 10 by a certain distance and is coupled with a space formed therebetween, is contracted and deformed by heat, and has a receiving space 31 formed therein. (30); A rupture portion (40) formed on a selected portion of the surface of the heat shrinkable tube (30) with a thinner thickness than other portions and ruptured upon shrinkage and deformation by heat; An upper cover 50 fixed to the upper surface of the fire extinguishing object 10 while covering the outside of the heat shrinkable tube 30 so that the heat shrinkable tube is not exposed; A fire extinguishing agent (60) is filled in the internal accommodation space (31) of the heat shrinkable tube (30) and extinguishes the heat generating area while being ejected in the direction of the fire extinguishing object when the rupture part (40) is ruptured due to contraction by heat. ); and the rupture portion 40 includes a rupture guide groove 41 of a certain depth formed in a line at a selected portion of the lower surface of the heat shrinkable tube 30 and spaced apart from each other, and the rupture guide groove 41. It consists of a rupture surface (43) formed on the bottom surface of (41) to have a thinner thickness than other parts, and the receiving space (31) is partitioned by one or more partitions (33) inside the heat shrinkable tube (30). It is formed in plural pieces to be divided into each other, and each receiving space is filled with fire extinguishing agent 60. The rupture portion 40 is formed in each divided receiving space, and the support bar 20 is provided in each partition 33. It is installed at the same interval as the division interval of the receiving space 31 to support it.

Description

{Fire extinguishing apparatus for electronic equipment and battery}

The present invention relates to a fire extinguishing device for electronic devices and batteries in which, when heat or fire occurs in electronic devices and batteries, the shrinkable tube ruptures due to the heat and extinguishing agent is ejected.

In recent years, the demand for portable electronic products such as laptops, video cameras, and portable phones has rapidly increased, and as the development of energy storage batteries, robots, and satellites has begun in earnest, there has been a growing demand for high-performance secondary batteries capable of repeated charging and discharging. Research is actively underway.

Currently commercialized secondary batteries include nickel cadmium batteries, nickel hydrogen batteries, nickel zinc batteries, and lithium secondary batteries. Among these, lithium secondary batteries have little memory effect compared to nickel-based secondary batteries, so they can be freely charged and discharged. It is receiving attention for its extremely low self-discharge rate and high energy density.

Recently, as carbon energy is gradually depleted and interest in the environment is increasing, public attention is focused on hybrid and electric vehicles worldwide, including in the United States, Europe, Japan, and Korea. The most critical component in these hybrid or electric vehicles is the vehicle battery, which provides driving force to the vehicle motor. Hybrid cars and electric cars can obtain driving force through charging and discharging the battery, so the number of users is gradually increasing because they have superior fuel efficiency and do not emit or reduce pollutants compared to cars that use only engines. .

Meanwhile, one of the biggest social issues related to batteries is the safety issue of batteries. From small devices such as laptops and mobile phones to medium to large devices such as automobiles and power storage systems, the demand for and users of batteries is rapidly increasing, and battery explosion or fire not only causes damage to the devices they are installed in, but also causes additional damage. Ensuring the safety of batteries is recognized as an important issue as it can lead to fire.

In particular, medium- to large-sized batteries used in hybrid vehicles and electric vehicles require higher safety than small batteries used in general portable electronic products. Because these medium-to-large batteries generate high voltage, they can generate a lot of heat themselves. In addition, in the case of vehicle batteries, etc., if the battery pack operates excessively while exposed to high temperatures during the hot summer, or if a large shock is applied to the battery in an accident such as a vehicle collision, the protection function does not work properly or an internal short circuit occurs. A fire may occur in the vehicle battery.

In this way, if a fire occurs in a vehicle battery, it will not only result in damage to the vehicle battery itself, but may also spread to the vehicle, causing property damage and also pose a great risk to the safety of passengers in the vehicle. In addition, vehicle fires on the road can cause more serious damage because the fire can spread to other vehicles and cause traffic disruption.

Conventionally, as a technology for extinguishing fires as well as preventing their spread when such fires occur, Patent Publication No. 10-2013-0028023 (Battery pack fire suppression device) has been disclosed. This patent is a technology that equips a battery pack with a fire detection sensor and a separate fire extinguishing agent holding tank, so that when a fire occurs, an explosive is exploded and the extinguishing agent is ejected into the battery pack to extinguish the fire.

However, the above patent requires a fire detection sensor as well as a fire extinguishing agent holding tank and explosives, so the configuration becomes complicated and a considerable amount of space is required to install the parts, especially in the engine room of a car where space is limited. It is not easy to prepare.

Publication of Patent No. 10-2013-0028023 (2013.3.18, battery pack fire suppression device) Public Patent Publication No. 10-2012-0139970 (December 28, 2012, Battery with safety device)

The present invention was created to solve the above problems, and is provided with a shrinkable tube containing a fire extinguishing agent. When an electronic device or battery generates heat or a fire occurs, the shrinkable tube shrinks and ruptures due to the heat, and the fire extinguishing agent contained therein is spouted out. The aim is to provide fire extinguishing devices for electronic devices and batteries that prevent fires caused by heat generation as well as damage to surrounding electronic components.

The solution of the fire extinguishing device for electronic devices and batteries of the present invention for solving the above problems is formed along the width or longitudinal direction on the upper surface of the fire extinguishing object (10) including the electronic device or battery, and spaced apart from each other at set intervals. A plurality of support bars (20) installed to be spaced apart and protrude at a certain length; A heat shrinkable tube that is supported on the support bar 20 and is spaced apart from the upper surface of the fire extinguishing object 10 by a certain distance and is coupled with a space formed therebetween, is contracted and deformed by heat, and has a receiving space 31 formed therein. (30); A rupture portion (40) formed on a selected portion of the surface of the heat shrinkable tube (30) with a thinner thickness than other portions and ruptured upon shrinkage and deformation by heat; An upper cover 50 fixed to the upper surface of the fire extinguishing object 10 while covering the outside of the heat shrinkable tube 30 so that the heat shrinkable tube is not exposed; A fire extinguishing agent (60) is filled in the internal accommodation space (31) of the heat shrinkable tube (30) and extinguishes the heat generating area while being ejected in the direction of the fire extinguishing object when the rupture part (40) is ruptured due to contraction by heat. ); and the rupture portion 40 includes a rupture guide groove 41 of a certain depth formed in a line at a selected portion of the lower surface of the heat shrinkable tube 30 and spaced apart from each other, and the rupture guide groove 41. It consists of a rupture surface 43 formed on the bottom surface of (41) to have a thinner thickness than other parts, and the receiving space 31 is partitioned by one or more partitions 33 inside the heat shrinkable tube 30. It is formed in plural pieces to be divided into each other, and each receiving space is filled with fire extinguishing agent 60. The rupture portion 40 is formed in each divided receiving space, and the support bar 20 is provided in each partition 33. It is installed at the same interval as the division interval of the receiving space 31 to support it.

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According to the fire extinguishing device for electronic devices and batteries of the present invention consisting of the above configuration, the shrinkable tube ruptures due to heat and extinguishing agent is ejected, thereby preventing the spread of fire in the event of heat generation above the set temperature or fire occurrence as well as effectively extinguishing the fire at an early stage. There is an effect that makes it possible.

1 is a perspective view of a fire extinguishing device for electronic devices and batteries according to the present invention;
Figure 2 is an exploded perspective view of Figure 1;
Figure 3 is a cross-sectional view of a fire extinguishing device for electronic devices and batteries according to the present invention;
Figure 4 is a bottom perspective view of the shrinkable tube according to the present invention;
Figure 5 is a cross-sectional view of the shrink tube according to the present invention.

Hereinafter, a fire extinguishing device for electronic devices and batteries according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings.

As shown in the drawing, the fire extinguishing device for electronic devices and batteries according to the present invention includes a plurality of support bars 20 installed on the upper surface of the fire extinguishing object 10, and fire extinguishment in a state supported on the support bars 20. A heat shrink tube 30 coupled to the upper surface of the object 10, a rupture portion 40 formed in the heat shrink tube 30, and a fire extinguishing agent 60 filled in the internal accommodation space of the heat shrink tube 30, and a heat shrink tube 30. It consists of an upper cover (50) that covers the tube (30) and is fixed to the extinguishing object (10).

The extinguishing object 10 includes PCB boards as well as electronic devices and batteries, and any electronic device that generates heat will be applicable.

The support bar 20 is formed on the upper surface of the fire extinguishing object 10 in the width direction or is formed with a certain length and height so as to be provided along the longitudinal direction, and each support bar 20 is installed to be spaced apart from each other at a set interval. do.

This support bar 20 is provided so that the heat shrinkable tube 30 does not come into close contact with the surface of the extinguishing object 10 and is spaced apart at a certain height.

The heat shrinkable tube 30 is a tube made of a material that contracts and deforms due to heat. It is formed to have a certain area, and is deformed and contracted by the heat generated from the fire extinguishing object 10 or when a fire occurs.

The heat shrink tube 30 can be formed in a shape (square, circular, etc.) suitable for the shape of the fire extinguishing object, and a receiving space 31 is formed inside the heat shrink tube to fill the fire extinguishing agent 60. there is.

The receiving space 31 may be formed as a single empty space or may be formed as a plurality of spaces that are partitioned and divided from each other.

The upper surface of the heat shrinkable tube 30 is formed flat as the upper cover 50 is closely attached and fixed to the upper surface, and the lower surface is formed with a convex surface 32 so that the central portion is located closest to the fire extinguishing object.

At this time, the rupture portion 40 is formed in the central portion of the lower surface of the heat shrinkable tube 30, that is, in the central portion of the convex surface 32. Therefore, in the event of heat generation or fire, the heat is transferred to the ruptured part in the fastest time compared to other parts, and then the fire extinguishing agent contained within is released through the rupture to extinguish the fire.

Of course, if there are a plurality of accommodation spaces 31, a convex surface 32 is formed for each accommodation space, and a rupture portion 40 must be formed on each of the convex surfaces 32.

The rupture portion 40 is formed on a surface selection portion of the heat shrinkable tube 30, and is formed with a thinner thickness than other portions, and is a portion that ruptures when the heat shrinkable tube 30 is contracted and deformed by heat.

As the rupture portion 40 ruptures, the fire extinguishing agent filled inside the heat shrinkable tube 30 is ejected in the direction of the fire extinguishing object by the rupture pressure to extinguish the fire.

Therefore, in the case where there is a possibility of a fire occurring because the fire extinguishing object generates heat above the set temperature, or when a fire occurs due to causes such as heat generation, the ejected fire extinguishing agent not only prevents the spread of the fire but also extinguishes it effectively at an early stage.

When the number of receiving spaces 31 is plural, they are divided into one or more partitions 33 inside the heat shrinkable tube 30, and each space is filled with a fire extinguishing agent 60.

When there are multiple accommodating spaces, the support bars 20 may be installed at intervals equal to the division intervals of the accommodating spaces 31 to support the partition 33.

As an embodiment of the rupture portion 40 in the present invention, the rupture guide groove 41 of a certain depth is formed to be arranged in a line and spaced apart from each other on one or more surface selection portions of the upper and lower surfaces of the heat shrinkable tube 30. ) and a rupture surface 43 formed on the bottom of the rupture guide groove 41 to have a thinner thickness than other parts.

The rupture guide groove 41 is preferably formed as a rectangular groove, and the spacing between the rupture guide grooves is not too far apart. This means that when the heat shrink tube ruptures, more precisely, when the rupture surface 43 formed in each rupture guide groove ruptures, the portion between the rupture guide grooves also ruptures, and most of the fire extinguishing agent 60 contained therein is instantly and strongly absorbed. This is to ensure that it can be ejected under pressure.

The rupture guide grooves 41 formed in a line can be formed in a plurality of rows spaced apart from each other, and when the receiving space 31 is formed of a plurality of spaces instead of one, the lower center of each space It can be formed in .

The fire extinguishing agent 60 is filled in the internal receiving space 31 of the heat shrink tube 30, and is ejected in the direction of the fire extinguishing object when the rupture portion 40 is ruptured due to heat shrinkage.

These fire extinguishing agents can use various known fire extinguishing substances, and can also be used by mixing two or more substances. In this case, two or more substances may be substances that have digestibility when each exists, or they may be substances that have digestibility through mutual chemical reactions.

Since fire extinguishing agents are used in electronic devices or batteries, it is preferable that they are provided in powder form rather than liquid.

The upper cover 50 is provided to cover the heat shrinkable tube 30 to prevent it from being exposed to the outside, and is fixed to the fire extinguishing object 10 in a covered state by wrapping the heat shrinkable tube.

This upper cover 50 blocks the fire extinguishing agent from being sprayed outward when the heat shrink tube 30 is ruptured and the fire extinguishing agent charged inside is sprayed out so that it can only be sprayed in the direction where the fire extinguishing object is provided. will guide you.

As the upper cover 50 is provided, outward blowing is blocked, thereby reducing or preventing damage to or malfunction of other surrounding parts or devices caused by the fire extinguishing agent.

According to the present invention configured as described above, a fire extinguishing device is installed on the fire extinguishing object itself, so that when heat is generated above a certain temperature, the heat shrink tube shrinks and deforms, ruptures, and fire extinguishing agent is ejected to extinguish the fire.

The present invention is not a method of detecting temperature or checking whether a fire has occurred, but is a method of automatically rupturing and spewing out fire extinguishing agent when heat above a certain temperature is generated by providing a heat shrinkable tube that is contracted and deformed by heat, so the structure is structured. It is effective and can be implemented simply and at low cost.

10: Fire extinguishing object 20: Support bar
30: heat shrink tube 31: accommodation space
32: convex surface 33: partition
40: Rupture section 41: Rupture guide groove
43: Rupture surface 50: Upper cover
60: Fire extinguishing agent

Claims (4)

A plurality of support bars 20 are formed along the width or length direction on the upper surface of the fire extinguishing object 10, including electronic devices or batteries, and are installed to protrude at a certain length and are spaced apart from each other at set intervals;
A heat shrinkable tube that is supported on the support bar 20 and is spaced apart from the upper surface of the fire extinguishing object 10 by a certain distance and is coupled with a space formed therebetween, is contracted and deformed by heat, and has a receiving space 31 formed therein. (30);
A rupture portion (40) formed on a selected portion of the surface of the heat shrinkable tube (30) with a thinner thickness than other portions and ruptured upon shrinkage and deformation by heat;
An upper cover 50 fixed to the upper surface of the fire extinguishing object 10 while covering the outside of the heat shrinkable tube 30 so that the heat shrinkable tube is not exposed;
A fire extinguishing agent (60) is filled in the internal accommodation space (31) of the heat shrinkable tube (30) and extinguishes the heat generating area while being ejected in the direction of the fire extinguishing object when the rupture part (40) is ruptured due to contraction by heat. ); consists of,
The rupture portion 40 includes a rupture guide groove 41 of a certain depth formed in a line and spaced apart from each other on a lower surface selection portion of the heat shrinkable tube 30, and a bottom surface of the rupture guide groove 41. It consists of a rupture surface 43 formed to have a thinner thickness than other parts,
The receiving space 31 is formed into a plurality of partitions by one or more partitions 33 inside the heat shrinkable tube 30, and each receiving space is filled with a fire extinguishing agent 60, and each of the divided The rupture portion 40 is formed in each receiving space,
The support bar (20) is a fire extinguishing device for electronic devices and batteries, characterized in that the support bar (20) is installed at the same interval as the division interval of the accommodation space (31) to support each partition (33).
delete delete According to paragraph 1,
The rupture portion 40 is formed in the central portion of the lower surface of the heat shrinkable tube 30,
A fire extinguishing device for electronic devices and batteries, characterized in that the lower surface of the heat shrinkable tube (30) is formed with a convex surface (32) so that the portion where the ruptured portion (40) is formed is located closest to the fire extinguishing object.

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