CN112786995B - Supporting base for gas flow-based heat dissipation type fluorine ion battery - Google Patents

Abstract

The invention relates to the technical field of fluorine ion batteries, in particular to a support base for a gas flow-based heat dissipation type fluorine ion battery. The invention relates to a support base for a fluorine ion battery, which comprises a heat conduction structure, a heat dissipation structure arranged below the heat conduction structure and a support structure arranged below the heat dissipation structure, wherein the heat conduction structure comprises a heat conduction box, the heat conduction box is in a square box body shape with an upward opening, a plurality of heat conduction blocks are integrally formed below the heat conduction box, a heat dissipation groove is formed between the two heat conduction blocks, the heat conduction blocks are in a linear structure and are in a hollow structure, the interiors of the heat conduction blocks are communicated with the interiors of the heat conduction boxes, the heat dissipation blocks are arranged inside the heat dissipation grooves, each heat dissipation block comprises a plurality of radiating fins, the sizes of the radiating fins are matched with the sizes of the heat dissipation grooves, intervals are reserved between the radiating fins, side plates are arranged on two sides of each radiating fin, and the outer walls of the side plates are attached to the outer walls of the heat conduction blocks.

Description

Supporting base for gas flow-based heat dissipation type fluorine ion battery

Technical Field

The invention relates to the technical field of fluorine ion batteries, in particular to a support base for a gas flow-based heat dissipation type fluorine ion battery.

Background

The invention relates to a fluorine ion battery, which is similar to lithium ions, wherein the fluorine ion battery depends on fluorine ions to move back and forth between a positive electrode and a negative electrode and is correspondingly embedded in positive and negative electrode materials, and simultaneously generates current in an external circuit to achieve the purposes of charging and discharging.

Disclosure of Invention

The present invention is directed to a support base for a gas flow-based heat dissipation type fluorine ion battery, so as to solve the above problems.

In order to achieve the purpose, the support base for the heat dissipation type fluorine ion battery based on gas flow comprises a heat conduction structure, a heat dissipation structure arranged below the heat conduction structure and a support structure positioned below the heat dissipation structure, wherein the heat conduction structure comprises a heat conduction box, the heat conduction box is in a square box body shape with an upward opening, a plurality of heat conduction blocks are integrally formed below the heat conduction box, a heat dissipation groove is formed between the two heat conduction blocks, the heat conduction blocks are in a linear structure and are in a hollow structure, and the inner parts of the heat conduction blocks are communicated with the inner parts of the heat conduction box;

when the heat conduction structure is used, the inside of the first guide heat box is communicated with a reaction tank of the fluorine ion battery, the material of the heat conduction box is the same as the material of the battery reaction tank, the heat conduction box is preferably made of glass fiber reinforced plastic, heat resistance, acid resistance and heat conductivity are good, follow-up heat reduction is facilitated, then the electrolyte of the fluorine ion battery can be filled in the heat conduction box, particularly inside the heat conduction block, the contact area of liquid and the heat conduction box can be increased by the aid of the convex heat conduction block, and the heat dissipation effect is improved.

The heat dissipation structure at least includes:

the heat dissipation block is arranged inside the heat dissipation groove and comprises a plurality of heat dissipation fins, the sizes of the heat dissipation fins are matched with those of the heat dissipation groove, intervals are reserved among the heat dissipation fins, side plates are arranged on two sides of each heat dissipation fin, and the outer walls of the side plates are attached to the outer walls of the heat conduction blocks;

when the radiating block is used, the radiating fin is connected into a whole and is in direct contact with the outer wall of the heat conducting block through the side plate as a metal radiating fin, radiating silicone grease is required to be smeared on the contact surface of the side plate and the heat conducting block in order to increase the radiating effect, the radiating area is increased through metal heat conduction, and the radiating effect is improved.

The air blowing structure comprises an installation box, the opening direction of the installation box faces the heat dissipation groove, a plurality of fans are installed in the installation box, the back of the installation box is provided with an air inlet, and the air blowing structure is arranged at one end of the heat dissipation groove;

when the blowing structure is used, the fan installed in the installation box is powered on, wind generated by the fan can penetrate through the whole heat dissipation groove through one end of the heat dissipation groove, meanwhile, the heat dissipated by the fluoride ion battery electrolyte through contact is taken away through the heat dissipation block, and hot gas is discharged from the other end of the heat dissipation groove, so that the heat dissipation efficiency is further improved.

The supporting structure comprises a bottom plate, a lifting plate is arranged above the bottom plate, mounting tables are arranged at two ends of the bottom plate, the blowing structure is fixed above the mounting tables, a plurality of air outlets are formed in the bottom plate, a plurality of baffles are arranged above the air outlets, and supporting columns are arranged at the bottom of the bottom plate.

Supporting structure is when using, the lifting board cooperation mount table that sets up on the bottom plate can be unsettled with the radiating block, make fluorine ion battery electrolyte can arrange the cavity to the centre through the heat that the contact distributed out, increase the heat dissipation passageway, promote the radiating effect when blowing structure is out of work, then seted up the gas vent on the bottom plate, the support column has been seted up to the bottom plate bottom simultaneously, the hot-air in the cavity can be discharged the outside through the gas vent, increase the route of circulation of air, promote the radiating efficiency.

As the further improvement of this technical scheme, the radiating groove other end is equipped with dustproof construction, dustproof construction fixes the mount table top, dustproof construction includes the fixed plate of both sides, be equipped with a plurality of skeletons between the fixed plate, be equipped with the dust screen between the fixed plate, the dust screen cover is established outside the skeleton, the preferred stainless steel material that adopts of dust screen, single net twine form wavy shape through rolling, have promoted dustproof effect when being convenient for weave, and the dust screen cover is established outside the skeleton, because the dust screen adopts the stainless steel filament to weave and forms, so sink easily, provide the skeleton and can prevent that the dust screen from collapsing.

As the further improvement of this technical scheme, be equipped with the guide board in the mounting box, the guide board is located between the fan, the guide board with the laminating of heat conduction piece side mutually for separate the fan, prevent the air current mutual interference between the fan, promote the work efficiency of fan, the guide board is located between the fan, and the guide board laminates with heat conduction piece side mutually, and the guide board directly guides the wind that the fan produced and gets into the radiating groove, promotes wind-force radiating effect.

As a further improvement of the technical scheme, the side face of the baffle is provided with a plurality of supporting rods, the bottom ends of the supporting rods are connected to the bottom plate, the air outlet is provided with a waterproof breathable film, the size of the baffle is larger than that of the waterproof breathable film, water drops are easily accumulated at the bottom of the bottom plate in a cold and hot alternate environment, the water drops are changed into water vapor to be upwards diffused in a high-temperature environment, the water vapor can be separated through the waterproof breathable film, and the water vapor is prevented from entering the radiating block from the bottom to influence the radiating effect of the radiating block.

As a further improvement of the technical scheme, the radiating block is provided with a circulation groove, the circulation groove comprises a transverse groove and a vertical groove, the circulation groove is located in the radiating block, and through the circulation groove formed in the radiating fin, an air circulation path inside the radiating block is increased, so that the radiating efficiency is improved, meanwhile, hot air inside the radiating block can be dispersed through the bottom, and the radiating effect is further improved.

As a further improvement of the technical scheme, a plurality of transverse grooves are formed in the side wall of the side plate, vertical grooves are formed between the transverse grooves and are communicated with the two transverse grooves, the heat dissipation block needs to be coated with silicone grease on the side plate before installation, the amount of the coated silicone grease is increased through the transverse grooves and the vertical grooves, and the heat conduction efficiency of the silicone grease is improved.

As the further improvement of this technical scheme, the curb plate below is equipped with a plurality of blow vents, the degree of depth of blow vent with the degree of depth of cross slot is the same, the blow vent opening part is equipped with the baffle, the baffle slope sets up, the baffle with leave the opening between the curb plate lateral wall, the baffle size with the blow vent phase-match because silicone grease can partially melt under the high temperature environment, and the cross slot and the perpendicular groove cooperation blow vent through the intercommunication of seting up can be in time discharge the heat in silicone grease place space under the cooling state, preserve the work efficiency of silicone grease as far as possible, and vent department is provided with the baffle simultaneously, and the baffle of putting to one side can hold back the heat conduction silicone grease that partially melts, promotes the life of heat conduction silicone grease.

As a further improvement of the technical scheme, a supporting plate is arranged at the bottom of the supporting column, a sliding column is fixed above the supporting plate and is of a square columnar structure, the sliding column is connected below the supporting column in a sliding mode, a plurality of positioning holes are formed in the side face of the sliding column, a round hole is formed in the side face of the supporting column, a positioning pin is arranged in the round hole, the size of the positioning pin is matched with that of the positioning holes, the height can be adjusted, the reserved height below is higher, more gas can be exchanged, and the better the heat dissipation effect is.

As a further improvement of the technical scheme, the tail end of the positioning pin is provided with a hand screwing cap, the size of the hand screwing cap is larger than that of the round hole, the outer wall of the hand screwing cap is provided with anti-skidding lines, so that the hand screwing is facilitated, and the height of the positioning pin can be conveniently adjusted by operating personnel.

As a further improvement of the technical scheme, a connecting plate is connected between the supporting columns and is of an arc-shaped structure which is bent upwards, so that the overall stability is improved, and heat dissipation is not blocked.

Compared with the prior art, the invention has the beneficial effects that:

1. this based on gas flow heat dissipation formula fluorine ion battery is with supporting base, heat conduction block through the heat conduction case below that sets up, the area of contact of fluorine ion battery electrolyte and bottom surface has been increased, provide great heat radiating area when the heat dissipation, the heat dissipation block is the linear type structure simultaneously, leave the heat-conducting channel between, make things convenient for the circulation of air, especially the circulation of air that the fan produced, the heat dissipation block of installation simultaneously in the heat-conducting channel, the heat dissipation block begins to have the fin of circulation groove by the multi-disc to constitute, promote the heat conduction effect through the metal, promote the heat dissipation simultaneously.

2. In this heat dissipation formula fluoride ion battery is with supporting base based on gas flow, through the structure of blowing that increases, the wind-force guide that cooperates the guide board to produce the fan simultaneously passes through the radiating groove in, brings the heat that the radiating block distributed out simultaneously, greatly promotes the radiating effect after opening the fan.

3. In this based on gas flow heat dissipation formula fluorine ion battery is with supporting base, through the base cooperation lift plate that sets up, unsettled the radiating block, the heat conduction groove of seting up on the cooperation radiating fin can be discharged hot-air from unsettled below, increases the circulation of air passageway, promotes the radiating effect under the normality.

4. In this based on gas flow heat dissipation formula fluorine ion battery is with supporting base, through support column cooperation slip post and the locating pin that sets up, can carry out the regulation of certain degree to the height of bottom, the height that the below was reserved is higher, and the gas that can supply the exchange is just more, and the radiating effect is just better, and adjustable height is also more nimble when using.

Drawings

FIG. 1 is a schematic view of the entire structure of embodiment 1;

fig. 2 is an overall schematic view of the heat conductive structure of embodiment 1;

fig. 3 is a schematic view of a back surface structure of the heat conducting structure of embodiment 1;

FIG. 4 is a schematic view of a blowing structure of embodiment 1;

FIG. 5 is a schematic view of the structure of a heat slug according to embodiment 1;

FIG. 6 is a schematic view of a portion of the structure at A in FIG. 5;

FIG. 7 is a schematic view of a dustproof structure in embodiment 1;

FIG. 8 is a schematic view of the support structure of embodiment 1;

fig. 9 is a partially enlarged view of the structure at B in fig. 8;

FIG. 10 is a schematic view of the structure of the base plate according to embodiment 1;

fig. 11 is a schematic view of a support column structure in embodiment 1.

The various reference numbers in the figures mean:

100. a heat conducting structure;

110. a heat conducting box;

120. a heat conducting block; 121. a heat sink;

200. a heat dissipation structure;

210. a heat dissipating block;

211. a heat sink; 212. a side plate; 213. a circulation tank; 214. a transverse groove; 215. a vertical slot; 216. a vent; 217. a partition plate;

220. a blowing structure;

221. mounting a box; 222. a fan; 223. a guide plate;

230. a dust-proof structure;

231. a fixing plate; 232. a framework; 233. a dust screen;

300. a support structure;

310. a base plate; 311. lifting the plate; 312. an installation table; 313. an exhaust port;

320. a baffle plate; 321. a support bar; 322. a waterproof breathable film;

330. a support pillar; 331. a circular hole;

340. a support plate; 341. a sliding post; 342. positioning holes;

350. positioning pins; 351. the cap is screwed by hand.

Detailed Description

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Example 1

Referring to fig. 1-1, a support base for a gas flow-based heat dissipation type fluorine ion battery is provided, including a heat conduction structure 100, a heat dissipation structure 200 installed below the heat conduction structure 100, and a support structure 300 located below the heat dissipation structure 200, where the heat conduction structure 100 includes a heat conduction box 110, the heat conduction box 110 is in a square box shape with an upward opening, a plurality of heat conduction blocks 120 are integrally formed below the heat conduction box 110, a heat dissipation groove 121 is formed between two heat conduction blocks 120, the heat conduction blocks 120 are linear structures, the heat conduction blocks 120 are hollow structures, and the interiors of the heat conduction blocks 120 are communicated with the interiors of the heat conduction boxes 110;

when the heat conduction structure 100 of this embodiment is used, the inside of the first guide heat box 110 is communicated with the reaction tank of the fluorine ion battery, the material of the heat conduction box 110 is the same as the material of the battery reaction tank, preferably, the material is made of glass fiber reinforced plastic, heat resistance, acid resistance and good heat conductivity are favorable for subsequent heat reduction, then the electrolyte of the fluorine ion battery can be filled in the heat conduction box 110, especially inside the heat conduction block 120, the contact area of the liquid and the heat conduction box 110 can be increased by the raised heat conduction block 120, and the heat dissipation effect is increased.

The heat dissipation structure 200 at least includes:

the heat dissipation block 210 is arranged inside the heat dissipation groove 121, the heat dissipation block 210 comprises a plurality of heat dissipation fins 211, the size of each heat dissipation fin 211 is matched with that of the heat dissipation groove 121, a space is reserved between every two heat dissipation fins 211, side plates 212 are arranged on two sides of each heat dissipation fin 211, and the outer walls of the side plates 212 are attached to the outer walls of the heat conduction blocks 120;

when the heat dissipation block 210 of this embodiment is used, the heat dissipation fins 211 connect into a whole and with the outer wall direct contact of heat conduction block 120 through the side plate 212 as metal heat dissipation fins, in order to increase the heat dissipation effect, need coat the heat dissipation silicone grease on the contact surface of side plate 212 and heat conduction block 120, increase heat radiating area through metal heat conduction, promote the heat dissipation effect.

The blowing structure 220 comprises a mounting box 221, the opening direction of the mounting box 221 and the heat dissipation groove 121, a plurality of fans 222 are mounted in the mounting box 221, an air inlet is formed in the back of the mounting box 221, and the blowing structure 220 is arranged at one end of the heat dissipation groove 121;

when the blowing structure 220 of the embodiment is used, the fan 222 installed in the installation box 221 is powered on, wind generated by the fan 222 passes through the whole heat dissipation groove 121 through one end of the heat dissipation groove 121, passes through the heat dissipation block 210 to take away heat dissipated by the contact of the electrolyte of the fluorine ion battery, and discharges hot air from the other end of the heat dissipation groove 121, so that the heat dissipation efficiency is further improved.

The supporting structure 300 includes a bottom plate 310, a lifting plate 311 is disposed above the bottom plate 310, mounting platforms 312 are disposed at two ends of the bottom plate 310, the blowing structure 220 is fixed above the mounting platforms 312, a plurality of exhaust ports 313 are disposed on the bottom plate 310, a plurality of baffles 320 are disposed above the exhaust ports 313, and a supporting column 330 is disposed at the bottom of the bottom plate 310.

The supporting structure 300 of this embodiment is when using, the lifting plate 311 cooperation mount table 312 that sets up on the bottom plate 310 can be unsettled with radiating block 210, the heat that makes fluoride ion battery electrolyte distribute out through the contact can be arranged to middle cavity, increase the heat dissipation channel, promote the radiating effect when blowing structure 220 is out of work, then the gas vent 313 has been seted up on the bottom plate 310, support column 330 has been seted up to bottom plate 310 bottom simultaneously, the hot-air in the cavity can be discharged to the outside through gas vent 313, increase the route of circulation of air, promote the radiating efficiency.

In addition, the other end of heat dissipation groove 121 is equipped with dustproof construction 230, dustproof construction 230 is fixed in mount table 312 top, dustproof construction 230 includes the fixed plate 231 of both sides, be equipped with a plurality of skeletons 232 between the fixed plate 231, be equipped with dust screen 233 between the fixed plate 231, dust screen 233 preferably adopts stainless steel material, single net twine forms wavy shape through rolling, the dustproof effect has been promoted when being convenient for weave, dust screen 233 overlaps and establishes outside skeleton 232, because dust screen 233 adopts the stainless steel filament to weave and forms, so sink easily, it can prevent that dust screen 233 from collapsing to provide the skeleton.

Further, be equipped with guide plate 223 in the mounting box 221 for separate fan 222, prevent the air current mutual interference between fan 222, promote fan 222's work efficiency, guide plate 223 is located between fan 222, and guide plate 223 laminates with heat conduction piece 120 side mutually, and guide plate 223 directly guides the wind that fan 222 produced and gets into radiating groove 121 in, promotes wind-force radiating effect.

Still further, baffle 320 side is equipped with a plurality of bracing pieces 321, bracing piece 321 bottom is connected on the bottom plate, be equipped with waterproof ventilated membrane 322 on the gas vent 313, baffle 320 size is greater than waterproof ventilated membrane 322's size and can prevents that the dust fall from plugging up waterproof ventilated membrane 322, because the bottom plate 310 bottom accumulates the water droplet easily under cold and hot alternate environment, become vapor and upwards give off under high temperature environment, can separate this part steam through waterproof ventilated membrane 322, prevent that steam from getting into in the radiating block 210 from the bottom, influence radiating block 210 radiating effect.

Specifically, circulation groove 213 has been seted up on fin 211, and circulation groove 213 includes horizontal groove and perpendicular groove, and circulation groove 213 is located radiating block 210, through circulation groove 213 of seting up on the fin, has increased the inside circulation of air way of radiating block 210, has promoted the radiating efficiency, and the steam of radiating block 210 inside can further promote the radiating effect through the bottom is dispersed simultaneously.

In addition, a plurality of transverse grooves 214 are formed in the side wall of the side plate 212, a vertical groove 215 is formed between the transverse grooves 214, the vertical groove 215 is communicated with the two transverse grooves 214, the radiating block 210 needs to be coated with silicone grease on the side plate 212 before installation, the amount of the coated silicone grease is increased through the transverse grooves 214 and the vertical grooves 215, and the heat conduction efficiency of the silicone grease is improved.

Further, curb plate 212 below is equipped with a plurality of blow vents 216, the degree of depth of blow vent 216 is the same with the degree of depth of cross slot 214, blow vent 216 opening part is equipped with baffle 217, baffle 217 slope sets up, leave the opening between baffle 217 and the curb plate 212 lateral wall, baffle 217 size and blow vent 216 phase-match, because silicone grease can partially melt under the high temperature environment, cross slot 214 through the intercommunication of seting up and perpendicular groove 215 cooperation blow vent 216 can be in time discharge the heat in silicone grease place space under the cooling state, the work efficiency of silicone grease is preserved as far as possible, blow vent 216 department is provided with baffle 217 simultaneously, the baffle 217 of putting to one side can hold the heat conduction silicone grease that partially melts, promote the life of heat conduction silicone grease.

Still further, the bottom of the supporting column 330 is provided with a supporting plate 340, a sliding column 341 is fixed above the supporting plate 340, the sliding column 341 is of a square columnar structure, the sliding column 341 is slidably connected below the supporting column 330, a plurality of positioning holes 342 are formed in the side surface of the sliding column 341, a round hole 331 is formed in the side surface of the supporting column 330, a positioning pin 350 is arranged in the round hole 331, the size of the positioning pin 350 is matched with that of the positioning hole 342, the height can be adjusted, the reserved height below is higher, more gas can be exchanged, and the better the heat dissipation effect is.

In addition, the terminal hand of being equipped with of locating pin 350 is twisted cap 351, and the hand is twisted cap 351 size and is greater than round hole 331, and the hand is twisted cap 351 outer wall and is equipped with anti-skidding line, makes things convenient for the hand to twist, and the operating personnel of being convenient for operates height-adjusting.

In addition, be connected with the connecting plate between two support columns 330, the connecting plate is the arc structure of kickup, promotes overall stability and does not block the heat dissipation simultaneously.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. Based on gas flow heat dissipation formula fluorine ion battery is with supporting base, its characterized in that: the heat conduction structure comprises a heat conduction structure (100), a heat dissipation structure (200) arranged below the heat conduction structure (100) and a support structure (300) positioned below the heat dissipation structure (200), wherein the heat conduction structure (100) comprises a heat conduction box (110), the heat conduction box (110) is in a square box shape with an upward opening, a plurality of heat conduction blocks (120) are integrally formed below the heat conduction box (110), a heat dissipation groove (121) is formed between the two heat conduction blocks (120), the heat conduction blocks (120) are in a linear structure, the heat conduction blocks (120) are in a hollow structure, and the interiors of the heat conduction blocks (120) are communicated with the interiors of the heat conduction boxes (110);

the heat dissipation structure (200) comprises at least:

the heat dissipation block (210) is installed inside the heat dissipation groove (121), the heat dissipation block (210) comprises a plurality of heat dissipation fins (211), the size of each heat dissipation fin (211) is matched with that of the heat dissipation groove (121), a gap is reserved between every two heat dissipation fins (211), side plates (212) are arranged on two sides of each heat dissipation fin (211), and the outer walls of the side plates (212) are attached to the outer walls of the heat conduction blocks (120);

the air blowing structure (220) comprises an installation box (221), the opening direction of the installation box (221) faces the heat dissipation groove (121), a plurality of fans (222) are installed in the installation box (221), the back of the installation box (221) is provided with an air inlet, and the air blowing structure (220) is arranged at one end of the heat dissipation groove (121);

the supporting structure (300) comprises a bottom plate (310), a lifting plate (311) is arranged above the bottom plate (310), mounting tables (312) are arranged at two ends of the bottom plate (310), the blowing structure (220) is fixed above the mounting tables (312), a plurality of exhaust ports (313) are formed in the bottom plate (310), a plurality of baffles (320) are arranged above the exhaust ports (313), and supporting columns (330) are arranged at the bottom of the bottom plate (310).

2. The support base for a gas flow based heat dissipating fluoride ion battery of claim 1, wherein: the other end of the heat dissipation groove (121) is provided with a dustproof structure (230), the dustproof structure (230) is fixed above the mounting table (312), the dustproof structure (230) comprises fixing plates (231) on two sides, a plurality of frameworks (232) are arranged between the fixing plates (231), a dustproof net (233) is arranged between the fixing plates (231), and the dustproof net (233) is sleeved outside the frameworks (232).

3. The support base for a gas flow based heat dissipating fluoride ion battery of claim 1, wherein: be equipped with guide board (223) in mounting box (221), guide board (223) are located between fan (222), guide board (223) with heat conduction piece (120) side is laminated mutually.

4. The support base for a gas flow based heat dissipating fluoride ion battery of claim 1, wherein: baffle (320) side is equipped with a plurality of bracing pieces (321), bracing piece (321) bottom is connected on bottom plate (310), be equipped with waterproof ventilated membrane (322) on gas vent (313), baffle (320) size is greater than the size of waterproof ventilated membrane (322).

5. The support base for a gas flow based heat dissipating fluoride ion battery of claim 1, wherein: the radiating fin (211) is provided with a circulation groove (213), the circulation groove (213) comprises a transverse groove and a vertical groove, and the circulation groove (213) is positioned in the radiating fin (211).

6. The support base for a gas flow based heat dissipating fluoride ion battery of claim 1, wherein: a plurality of transverse grooves (214) are formed in the side wall of the side plate (212), vertical grooves (215) are formed between the transverse grooves (214), and the vertical grooves (215) are communicated with the two transverse grooves (214).

7. The support base for a gas flow based heat dissipating fluoride ion battery of claim 1, wherein: the bottom of the supporting column (330) is provided with a supporting plate (340), a sliding column (341) is fixed above the supporting plate (340), the sliding column (341) is of a square columnar structure, the sliding column (341) is connected below the supporting column (330) in a sliding mode, a plurality of positioning holes (342) are formed in the side face of the sliding column (341), a round hole (331) is formed in the side face of the supporting column (330), a positioning pin (350) is arranged in the round hole (331), and the size of the positioning pin (350) is matched with that of the positioning holes (342).

8. The support base for a gas-flow-based, heat-dissipating fluoride ion battery of claim 7, wherein: the terminal hand of locating pin (350) is equipped with twists cap (351), hand is twisted cap (351) size and is greater than round hole (331), the hand is twisted cap (351) outer wall and is equipped with anti-skidding line.

9. The support base for a gas flow based heat dissipating fluoride ion battery of claim 7, wherein: a connecting plate is connected between the two supporting columns (330), and the connecting plate is of an arc-shaped structure which is bent upwards.

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