CN114788938A

CN114788938A - Quick response type power battery fire extinguishing device

Info

Publication number: CN114788938A
Application number: CN202210332062.7A
Authority: CN
Inventors: 刘志刚; 潘忠尧; 母建平; 吴友宝; 孙亮
Original assignee: JIANGXI XINWEI POWER ENERGY TECHNOLOGY CO LTD
Current assignee: JIANGXI XINWEI POWER ENERGY TECHNOLOGY CO LTD
Priority date: 2022-03-31
Filing date: 2022-03-31
Publication date: 2022-07-26
Anticipated expiration: 2042-03-31
Also published as: CN114788938B

Abstract

The invention relates to a quick response type power battery fire extinguishing device, which comprises a protective cover; a sealing connection mechanism; keep apart a plurality of apothecas through a plurality of vertical baffles that distribute along left right direction in the protection casing, be equipped with in the apotheca along a plurality of conflagration suppression capsule subassemblies that the upper and lower direction distributes, the conflagration suppresses capsule subassembly is including deciding the extrusion strip, one row of conflagration suppression capsule row, drive sharp weapon when breaking the conflagration suppression capsule and the temperature rise and restrain the actuating mechanism that the capsule row removed towards the conflagration suppression capsule, decide to form between extrusion strip and the sharp weapon and only can store the forward and backward capsule storage channel that a row of conflagration suppression capsule was arranged in the capsule storage channel after the front and back, the conflagration suppression capsule is arranged in the capsule storage channel after the front and back direction. The invention provides a quick response type power battery fire extinguishing device which can respond in time and can be conveniently used for extinguishing the fire of the existing power battery, and the quick response type power battery fire extinguishing device is used for replacing the existing power battery self-extinguishing mode added with a fire retardant so as to improve the reliability of the power battery during self-extinguishing.

Description

Quick response type power battery fire extinguishing device

Technical Field

The invention relates to the field of power batteries, in particular to a quick response type power battery fire extinguishing device.

Background

With the wide application of storage batteries in the fields of electric bicycles, energy storage, electric automobiles and the like, related fire and explosion accidents frequently occur, so that the life safety and property safety of users are seriously threatened, and the batteries used on vehicles are called power batteries.

The existing measure for improving the safety of the power battery is to add a flame retardant into an electrolyte. However, the measure has more limitations, namely, in order to not affect the performance of the ion battery, too much flame retardant cannot be added, and the flame retardant effect is general; and secondly, the flame retardant can not inhibit the thermal runaway gas generation reaction. Therefore, the fire extinguishing device or the power battery capable of automatically extinguishing the fire of the power battery is urgently needed.

Disclosure of Invention

The invention provides a quick response type power battery fire extinguishing device which is timely in response and can be conveniently used for extinguishing fire of the existing power battery, and the quick response type power battery fire extinguishing device is used for replacing the existing power battery self-extinguishing mode added with a fire retardant so as to improve the reliability of the power battery during self-extinguishing.

The technical problem is solved by the following technical scheme: a quick response type fire extinguishing device for a power battery comprises a battery shell, a battery body positioned in the battery shell and two electrodes, one end of each electrode is positioned outside the electronic shell and electrically connected with the electronic body, and the quick response type fire extinguishing device is characterized by comprising a protective cover, a first electrode and a second electrode, wherein the protective cover is used for covering the battery shell and is provided with two electrode through holes for the two electrodes to pass through; the sealing connection mechanism is used for sealing and connecting the protective cover and the battery shell together when the fireproof cover is sleeved on the battery shell; the fire suppression capsule row is characterized in that a plurality of vertical partition plates distributed in the left-right direction are arranged in the protective cover, a plurality of storage chambers distributed in the left-right direction are isolated by the vertical partition plates in the protective cover, a plurality of fire suppression capsule assemblies distributed in the up-down direction are arranged in the storage chambers, each fire suppression capsule assembly comprises a fixed extrusion strip, a row of fire suppression capsule rows, an edge tool for breaking all fire suppression capsules in the fire suppression capsule rows and a driving mechanism for driving the edge tool to move towards the fire suppression capsule rows when the temperature is increased, the fixed extrusion strips and the edge tool are distributed on two sides of the fire suppression capsule rows, a forward and backward capsule storage channel capable of storing only one row of fire suppression capsule rows is formed between the fixed extrusion strips and the edge tool, and the fire suppression capsules in the fire suppression capsule rows are arranged in the forward and backward direction in the forward and backward capsule storage channel; a fire extinguishing agent outflow space is provided between the fire suppression capsule assembly and the side wall of the storage chamber. When the protective cover is used, the protective cover is sleeved on the battery shell, and the two electrodes pass through the electrode through holes to be exposed, so that wiring is facilitated. And then the sealing connecting mechanism protective cover and the battery shell are connected together in a sealing way through the sealing connecting mechanism to form a sealing cavity. When the temperature rises due to fire, the fire suppression capsule is heated and cracked, and the driving mechanism also drives the sharp tool to crack the fire suppression capsule, so that the reliability of the fire suppression capsule in cracking is improved.

Preferably, the sharps are knife strips with cutting edges facing fire suppression capsules in the fire suppression capsule rows.

Preferably, the fire suppression capsule is provided with a capsule part annular groove extending along the circumferential direction of the fire suppression capsule on the outer surface, and the cutting edge is aligned with the capsule part annular groove. The reliability of the capsule during fire suppression can be improved by lifting the cutter bar and cutting the slope.

Preferably, the thickness of the capsule portion annular groove is smaller than the thickness of the fire suppression capsule casing on both sides of the capsule portion annular groove. The reliability of the fire suppression capsule can be further improved when the fire suppression capsule is cut.

Preferably, the cutting edge is arranged in the annular groove of the capsule part in a penetrating manner, and the cutter strip is positioned below the fire suppression capsule group. The fire suppression capsule can be prevented from being displaced.

As another preference, the sharps are root needles aligned in one-to-one correspondence with fire suppression capsules in the fire suppression capsule bank. The force required to puncture the fire suppression capsule is small. The response sensitivity is improved.

Preferably, the fire suppression capsule assembly further comprises a support strip, the fixed extrusion strip is located above the fire suppression capsule group, fire suppression capsules in the fire suppression capsule row are tiled on the support strip, the needle point of the needle faces upwards, and the needle is wholly located below the upper surface of the support strip. It is possible to prevent the occurrence of malfunction. The fire suppression capsule is positioned above the needle of the sharp weapon, so that the fire suppression capsule can be prevented from being punctured by the needle by mistake when the driving mechanism loses the fixing effect on the needle.

Preferably, the needle comprises a cylindrical body, the needle tip is coaxially connected to the cylindrical body, the cylindrical body is slidably arranged in a sliding hole in the supporting strip in a penetrating mode, and the cylindrical body and the sliding hole abut together. When the diameter of the needle is small, the needle can be prevented from bending in the process of puncturing the fire suppression capsule, and the reliability of the fire suppression capsule during breakage is poor.

Preferably, the driving mechanism comprises a fixed connecting block provided with a sealed air cavity, the fixed connecting block is provided with a plurality of air holes for communicating the sealed air cavity with the outside of the fixed connecting block, a driving rod is connected in the air holes in a sliding and sealing manner, and the edge tool is connected with the driving rod. The volume of the sealed air cavity can be larger, and the sensitivity to temperature response is improved.

Preferably, the fixed connecting blocks of one fire suppression capsule assembly are connected with the fixed pressing strips of the other fire suppression capsule assembly. The number of fire suppression capsules that can be installed in the protective cover can be maximized. The fire extinguishing capability is improved.

Preferably, the fixed extrusion strips are located above the fire suppression capsule rows and are obliquely arranged along the front-back direction, a mirror layer is arranged on the lower surface of each fixed extrusion strip, the oblique directions of the fixed extrusion strips in the adjacent fire suppression capsule assemblies are opposite, only one end of each front-back capsule storage channel in each two adjacent fire suppression capsule assemblies is communicated through a vertical capsule channel, the adjacent vertical capsule channels are located at two ends of each front-back capsule storage channel, a capsule input hole is formed in the lower end of each front-back capsule storage channel in the lowest fire suppression capsule assembly, and the capsule input holes are detachably connected with plugs. During manufacturing, the opening end of the protective cover is kept upward, and then the fire suppression capsules are filled in through the capsule input holes, so that the fire suppression capsules can be conveniently filled in all the front and back capsule storage channels. The convenience in manufacturing is good. After fire occurs, the capsule input hole is opened to exhaust air, so that the capsule input hole can play a role in storing the capsule in a forward and backward direction, and the dual-purpose function of one object is achieved.

The invention has the following advantages: the fire extinguishing is carried out through the fire suppression capsule, so that the fire extinguishing reliability is good; the fire suppression capsule is not subjected to thermal explosion, so that the fire suppression capsule can be broken by a sharp tool when the temperature rises, the reliability of the fire suppression capsule during breakage is improved, and the problem that the capsule cannot be broken and respond in time due to the fact that the wall thickness of the capsule is ultrathin is solved; can be conveniently installed on the existing lithium ion battery to protect fire.

Drawings

FIG. 1 is a schematic longitudinal sectional view of a first embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a partially enlarged schematic view at B of fig. 2;

FIG. 4 is a cross-sectional view of a first embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of a second embodiment of the present invention;

fig. 6 is a partially enlarged schematic view at C of fig. 5.

In the figure: the fire-extinguishing capsule comprises a battery shell 1, a battery body 2, electrodes 3, a protective cover 4, electrode through holes 5, a sealing connection mechanism 6, a vertical partition plate 7, a fixed extrusion strip 8, a sharp tool 9, a driving mechanism 10, a front-back capsule storage channel 11, a fire-extinguishing capsule 12, a cutting edge 13, a capsule part annular groove 14, a sealing air cavity 15, a fixed connection block 16, a driving rod 17, a sliding block 18, a vertical capsule channel 19, a capsule input hole 20, a plug 21, a supporting strip 22, a needle point 23, a cylindrical body 24, a sliding hole 25, a fire-extinguishing capsule assembly 26, a connection strip 27 and a fire-extinguishing agent outflow space 33.

Detailed Description

The invention is further described with reference to the following figures and examples.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

First embodiment, referring to fig. 1 and 4, a quick response type fire extinguishing device for a power battery comprises a battery shell 1, a battery body 2 located in the battery shell, and two electrodes 3 with one ends located outside the electronic shell and electrically connected with the electronic body. The invention comprises a protective cover 4 which is used for covering a battery shell and is provided with two electrode through holes 5 for two electrodes to pass through; and the sealing connection mechanism 6 is used for connecting the protective cover and the battery shell together in a sealing way when the fireproof cover is sleeved on the battery shell, is connected with the inflatable sealing ring in a sealing way, and is naturally glued together by glue to form an adhesive tape to form the sealing connection mechanism for sealing. Be equipped with in the protection casing along a plurality of vertical baffles 7 that left right direction distributes, erect the baffle and keep apart out a plurality of apothecas that distribute along left right direction in the protection casing, be equipped with in the apotheca along a plurality of conflagration suppression capsule subassemblies 26 that upper and lower direction distributes, be equipped with fire extinguishing agent outflow space 33 between the lateral wall of conflagration suppression capsule subassembly and apotheca, be equipped with 4 conflagration suppression capsule subassemblies in the medical cabinet apotheca in this embodiment. The fire suppression capsule assembly comprises a fixed extrusion strip 8 (the fixed extrusion strip of the uppermost fire suppression capsule assembly is integrated with the top wall of the protective cover), a row of fire suppression capsule rows, sharp tools 9 for breaking all fire suppression capsules in the fire suppression capsule rows and a driving mechanism 10 for driving the sharp tools to move towards the fire suppression capsule rows when the temperature rises, the fixed extrusion strip and the sharp tools are distributed on two sides (specifically upper and lower sides, and the sharp tools are positioned below the fixed extrusion strip) of the fire suppression capsule rows, a front-back capsule storage channel 11 capable of storing only one row of fire suppression capsule rows is formed between the fixed extrusion strip and the sharp tools, and fire suppression capsules 12 in the fire suppression capsule rows are arranged in the front-back capsule storage channel in the front-back direction. The sharp edge is a knife strip with a cutting edge 13 facing the fire suppression capsules in the fire suppression capsule row. The outer surface of the fire suppression capsule is provided with a capsule part annular groove 14 extending along the circumferential direction of the fire suppression capsule, and the cutting edge is aligned with the capsule part annular groove. The cutting edge is arranged in the annular groove of the capsule part in a penetrating way, and the cutter strip is positioned below the fire suppression capsule group.

The driving mechanism comprises a stationary connecting block 16 provided with a sealed air chamber 15. The fixed connecting block is provided with a plurality of air holes for communicating the sealed air cavity with the outside of the fixed connecting block, and the air holes are internally and slidably connected with a driving rod 17 in a sealing manner, and particularly the driving rod is connected with the air holes in a sealing manner through a sliding block 18. The sharp tool is connected with the driving rod. And the fixed connecting blocks of one fire suppression capsule component are connected with the fixed extrusion strips of the other fire suppression capsule component. Decide the extrusion strip and be located the top that the capsule was arranged and set up along the fore-and-aft direction slope of conflagration suppression, be equipped with the mirror layer on deciding the lower surface of extrusion strip, the incline direction of deciding the extrusion strip in the adjacent capsule subassembly is suppressed in the conflagration is opposite, only one end is stored to the capsule and is passed through vertical capsule passageway 19 intercommunication around two adjacent conflagrations suppress in the capsule subassembly, adjacent vertical capsule passageway is located the both ends of storing the passageway to the capsule, the conflagration of below suppresses around in the capsule subassembly and is equipped with capsule input hole 20 to the low side that the passageway was stored to the capsule, the capsule input hole can be dismantled and be connected with end cap 21.

The second embodiment is different from the first embodiment in that:

referring to fig. 5 and 6, sharps are root needles aligned in one-to-one correspondence with fire suppression capsules in the fire suppression capsule bank. The fire suppression capsule assembly further comprises a support strip 22, fire suppression capsules in the fire suppression capsule row are tiled on the support strip, needle points 23 of the needles face upwards, and the needles are integrally located below the upper surface of the support strip. The needle comprises a cylindrical body 24, the needle tip of which is coaxially connected to the cylindrical body, the cylindrical body is slidably arranged in a sliding hole 25 on the supporting strip in a penetrating way, and the cylindrical body and the sliding hole are abutted together. All the cylindrical bodies are connected to the connecting bar 27 and all the driving rods are connected to the connecting bar.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A quick response type fire extinguishing device for a power battery comprises a battery shell, a battery body positioned in the battery shell and two electrodes, one end of each electrode is positioned outside the electronic shell and electrically connected with the electronic body, and the quick response type fire extinguishing device is characterized by comprising a protective cover, a first electrode and a second electrode, wherein the protective cover is used for covering the battery shell and is provided with two electrode through holes for the two electrodes to pass through; the sealing connection mechanism is used for sealing and connecting the protective cover and the battery shell together when the fireproof cover is sleeved on the battery shell; the fire suppression capsule row is characterized in that a plurality of vertical partition plates distributed in the left-right direction are arranged in the protective cover, a plurality of storage chambers distributed in the left-right direction are isolated by the vertical partition plates in the protective cover, a plurality of fire suppression capsule assemblies distributed in the up-down direction are arranged in the storage chambers, each fire suppression capsule assembly comprises a fixed extrusion strip, a row of fire suppression capsule rows, an edge tool for breaking all fire suppression capsules in the fire suppression capsule rows and a driving mechanism for driving the edge tool to move towards the fire suppression capsule rows when the temperature is increased, the fixed extrusion strips and the edge tool are distributed on two sides of the fire suppression capsule rows, a forward and backward capsule storage channel capable of storing only one row of fire suppression capsule rows is formed between the fixed extrusion strips and the edge tool, and the fire suppression capsules in the fire suppression capsule rows are arranged in the forward and backward direction in the forward and backward capsule storage channel; a fire extinguishing agent outflow space is provided between the fire suppression capsule assembly and the side wall of the storage chamber.

2. The quick response power battery fire suppression device of claim 1, wherein the sharps are knife strips with cutting edges facing fire suppression capsules in the fire suppression capsule bank.

3. The quick response type power battery fire extinguishing device according to claim 2, wherein the fire suppression capsule is provided with a capsule portion annular groove on an outer surface thereof, the capsule portion annular groove extending along a circumferential direction of the fire suppression capsule, and the cutting edge is aligned with the capsule portion annular groove.

4. The quick response type power battery fire extinguishing device according to claim 3, wherein the cutting edge penetrates through the annular groove of the capsule portion, and the knife strip is located below the fire suppression capsule group.

5. The rapid response power battery fire suppression apparatus of claim 1, wherein the sharps are root needles aligned in a one-to-one correspondence with fire suppression capsules in the fire suppression capsule bank.

6. The quick response type power battery fire extinguishing device according to claim 5, wherein the fire suppression capsule assembly further comprises a supporting strip, the fixed pressing strip is located above the fire suppression capsule group, the fire suppression capsules in the fire suppression capsule group are flatly laid on the supporting strip, the needle point of the needle faces upwards, and the whole needle is located below the upper surface of the supporting strip.

7. The quick response power battery fire suppression device of claim 6, wherein the needle comprises a cylindrical body, the needle tip is coaxially connected to the cylindrical body, the cylindrical body is slidably inserted into a slide hole on a support strip, and the cylindrical body and the slide hole abut together.

8. The quick response type power battery fire extinguishing device according to claim 1, 2, 3, 4, 5, 6 or 7, wherein the driving mechanism comprises a fixed connecting block provided with a sealed air cavity, the fixed connecting block is provided with a plurality of air holes for communicating the sealed air cavity with the outside of the fixed connecting block, a driving rod is connected in the air holes in a sliding and sealing manner, and the edge tool is connected with the driving rod.

9. The quick response power battery fire extinguishing apparatus according to claim 8, wherein adjacent fire suppression capsule assemblies, the fixed connecting block of one fire suppression capsule assembly is connected with the fixed pressing strip of the other fire suppression capsule assembly.

10. The quick response type power battery fire extinguishing device according to claim 1, 2, 3, 4, 5 or 6, wherein the fixed extrusion strips are located above the fire suppression capsule rows and are obliquely arranged along the front-back direction, the lower surfaces of the fixed extrusion strips are provided with mirror layers, the oblique directions of the fixed extrusion strips in the adjacent fire suppression capsule assemblies are opposite, only one ends of the front-back capsule storage channels in the two adjacent fire suppression capsule assemblies are communicated through the vertical capsule channels, the adjacent vertical capsule channels are located at two ends of the front-back capsule storage channels, and the lower ends of the front-back capsule storage channels in the lowest fire suppression capsule assembly are provided with capsule input holes which are detachably connected with plugs.