CN116101612B

CN116101612B - Sodium ion battery storage device

Info

Publication number: CN116101612B
Application number: CN202310093596.3A
Authority: CN
Inventors: 梁风; 向孙祖; 张涛; 沈可
Original assignee: Jiangsu Fengchi Carbon Based New Materials Research Institute Co ltd
Current assignee: Jiangsu Zhiruida Power Technology Co ltd
Priority date: 2023-02-09
Filing date: 2023-02-09
Publication date: 2023-12-22
Anticipated expiration: 2043-02-09
Also published as: CN116101612A

Abstract

The invention discloses a sodium ion battery storage device, which relates to the technical field of battery storage, and discloses a storage box, wherein a switching rod is rotatably installed in the storage box, a plurality of connecting rods are fixedly installed on the switching rod, one ends of the connecting rods, which are far away from the switching rod, are fixedly provided with storage mechanisms, a plurality of rotatable storage mechanisms are arranged in the storage box, each storage mechanism can meet the fixation of sodium ion batteries with different sizes, the corresponding storage mechanism is switched to the lower part of an access opening according to the storage requirement, the different storage requirements can be met, the storage and the taking out of a belt can be completed through a storage belt, the whole storage process is more automatic, ventilation holes are arranged, the ventilation of the whole storage device is ensured, a spiral winding pipe and a corresponding structure are arranged, and the humidity around the storage device can be absorbed.

Description

Sodium ion battery storage device

Technical Field

The invention relates to the technical field of battery storage, in particular to a sodium ion battery storage device.

Background

Sodium ion batteries are secondary batteries (rechargeable batteries) which mainly rely on sodium ions to move between a positive electrode and a negative electrode to work, and are similar to the working principle of lithium ion batteries.

After production, the sodium ion battery needs to be placed in a storage device for storage. However, the conventional storage device requires manual fixing of the sodium ion battery at a designated storage position when the sodium ion battery is stored, and automatic storage and removal cannot be completed. In addition, the current storage device needs to consider the temperature and humidity of the storage space, and when the temperature or humidity of the storage space is high, the storage device cannot store the sodium ion battery.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a sodium ion battery storage device.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the sodium ion battery storage device comprises a storage box, wherein a switching rod is rotatably installed in the storage box, a plurality of connecting rods are fixedly installed on the switching rod, and a storage mechanism is fixedly installed at one end, far away from the switching rod, of each connecting rod;

the storage mechanism comprises a storage frame, a plurality of ball screws are rotatably arranged in the storage frame, thread surfaces at two ends of the ball screws are symmetrically arranged along the middle part, two moving blocks are connected with each other through threads at two ends of the ball screws, shock absorption rods are rotatably arranged at two sides of each moving block, four shock absorption rods are rotatably connected with the moving frame, and a storage belt is rotatably arranged on each moving frame;

the storage rack is wound with a spiral winding pipe, one end of the spiral winding pipe is in an opening shape, the inner wall of the spiral winding pipe is provided with absorbent cotton, the other end of the spiral winding pipe is fixedly connected with a water storage box, the bottom of the storage rack is fixedly provided with a water suction pump, the water storage box is fixedly arranged at the bottom of the water suction pump, the water suction end of the water suction pump is fixedly connected with the water storage box, the water outlet end of the water suction pump is fixedly provided with a connecting pipe, a plurality of telescopic hoses are fixedly arranged on the connecting pipe, one end of each telescopic hose, far away from the connecting pipe, is fixedly connected with a cooling pipe, a plurality of side pushing assemblies are fixedly arranged on the storage rack, the side pushing assemblies are in one-to-one correspondence with the cooling pipes, and the side pushing assemblies are used for pushing the cooling pipe to move;

the storage box is characterized in that a protective shell is arranged outside the storage box, a plurality of protection mechanisms are fixedly arranged on the protective shell, each protection mechanism comprises two fixed pipes, a communicating pipe is fixedly arranged between the two fixed pipes, an extrusion piston is slidably arranged in the communicating pipe, a buffer spring is fixedly arranged on the extrusion piston, and a buffer strip is fixedly arranged at one end of the buffer spring away from the extrusion piston.

Further, a plurality of connecting rods and other radians are fixedly arranged on the switching rod, and a rotating handle is fixedly arranged at the top of the switching rod penetrating through the top wall of the storage box.

Further, a plurality of driving assemblies are fixedly installed in the storage frame, the driving assemblies are in one-to-one correspondence with a plurality of ball screws, the driving assemblies are used for driving the first gears to rotate, the ball screws are fixedly provided with second gears, and the first gears and the second gears are meshed with each other.

Further, a plurality of storage rollers are rotatably arranged on the movable frame, the storage rollers are connected through storage belts in a transmission mode, an access mechanism is fixedly arranged on the movable frame, and the access mechanism is used for driving the storage rollers to rotate.

Further, a plurality of flexible hoses are fixedly arranged on the connecting pipe in the same radian, and the flexible hoses are mutually communicated with the connecting pipe.

Further, a plurality of ventilation holes are formed in the top of the storage box.

Further, fixed pipe fixed mounting is in the protective housing, the buffering strip slides and runs through the protective housing outer wall.

Furthermore, an access port is formed in the top of the storage box.

Further, the working process of the storage device is as follows:

step one: when the sodium ion battery is required to be stored, the rotating handle is screwed, the rotating handle drives the switching rod to rotate, the switching rod drives the storage mechanism to move through the connecting rod, the storage mechanism is moved to the lower part of the access port, the sodium ion battery is placed into the storage rack through the access port, when the sodium ion battery enters the storage rack, the driving assembly drives the first gear to rotate, the first gear drives the second gear to rotate, the second gear drives the ball screw to rotate, the ball screw drives the two moving blocks to move in opposite directions, the moving blocks cooperate with the shock absorbing rod to drive the moving rack to move, further storage belts on the moving racks clamp the sodium ion battery, then the storage mechanism drives the storage roller to rotate, the storage roller drives the storage belts to rotate, the storage belts drive the sodium ion battery to descend, and then the steps can be repeated to place the sodium ion battery into the storage rack;

step two: in the storage process of the sodium ion battery, water around the storage device is absorbed by the absorbent cotton in the spiral winding pipe, the water absorbed by the absorbent cotton flows to the water storage box along the spiral winding pipe for storage, when the temperature around the storage device rises, the water in the water storage box is pumped by the water pump and is conveyed into the connecting pipe, the water in the connecting pipe enters the telescopic hose, the water in the telescopic hose enters the cooling pipe, the side pushing assembly drives the cooling pipe to move, and then the cooling pipe is pushed to be in contact with the surface of the sodium ion battery, and the cooling pipe carries out heat dissipation treatment on the sodium ion battery;

step three: when the side of the protective housing is impacted in the storage process of the sodium ion battery, the buffer bar impacted extrudes the buffer spring, the buffer spring drives the extrusion piston to move, the extrusion piston extrudes gas in the fixed tube into the communicating tube, the gas enters into the other fixed tube of the same protective mechanism through the communicating tube, the gas extrudes the extrusion piston on the other fixed tube, the extrusion piston moves along the fixed tube, the extrusion piston drives the buffer bar to move through the buffer spring, and the buffer bar moves outside the protective housing to protect the protective housing.

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

1. the storage box is internally provided with a plurality of rotatable storage mechanisms, each storage mechanism can meet the fixation of sodium ion batteries with different sizes, the corresponding storage mechanism is switched to the lower part of the access port according to the storage requirement, the different storage requirements can be met, the storage of the sodium ion batteries can be completed through the storage belt, the storage and the taking out of the belt can be completed, the sodium ion batteries are not required to be manually fixed at a designated position, the whole storage process is more automatic, ventilation of the whole storage device is ensured, a spiral winding pipe and a corresponding structure are arranged, moisture around the storage device can be absorbed, the environment of the sodium ion batteries in the storage process is ensured to be dry, the absorbed moisture can be stored at the same time, and when the surrounding temperature rises, the water is conveyed into the cooling pipe to carry out heat dissipation treatment on the sodium ion batteries, so that the situation that the sodium ion batteries explodes due to the overhigh surrounding temperature is avoided;

2. the protective shell is arranged, and the corresponding protection mechanism is arranged on the protective shell, so that the side face of the storage box can be effectively protected, the impact force of the storage device can be effectively buffered when the storage device is impacted, and when one buffer strip of the same protection mechanism is impacted, the other buffer strip can timely protrude to block the collision object, so that the storage device is protected.

Drawings

FIG. 1 is a schematic diagram of a sodium ion battery storage device;

FIG. 2 is an internal structural view of the storage box of the present invention;

FIG. 3 is a schematic diagram of a storage mechanism according to the present invention;

FIG. 4 is an internal structural view of the storage rack of the present invention;

FIG. 5 is an installation view of the mobile frame of the present invention;

FIG. 6 is an internal structural view of the mobile frame of the present invention;

FIG. 7 is an installation view of a cooling tube of the present invention;

FIG. 8 is an internal structural view of the protective case of the present invention;

fig. 9 is a schematic structural view of the protection mechanism of the present invention.

100. A storage tank; 101. an access port; 102. ventilation holes; 103. a switching lever; 104. a connecting rod; 105. a rotating handle; 200. a storage mechanism; 201. a storage rack; 202. a ball screw; 203. a moving block; 204. a shock-absorbing rod; 205. a moving rack; 206. a storage roller; 207. a storage belt; 208. an access mechanism; 209. a drive assembly; 210. a first gear; 211. a second gear; 212. a helically wound tube; 213. a water storage box; 214. a water pump; 215. a connecting pipe; 216. a flexible hose; 217. a cooling pipe; 218. a side pushing assembly; 300. a protective shell; 301. a protection mechanism; 302. a buffer strip; 303. a buffer spring; 304. extruding the piston; 305. a fixed tube; 306. and communicating pipe.

Detailed Description

Example 1

Referring to fig. 1 to 7, a sodium ion battery storage device includes a storage case 100, and a plurality of ventilation holes 102 are formed at the top of the storage case 100. An access port 101 is formed in the top of the storage box 100, a switching rod 103 is rotatably mounted in the storage box 100, a plurality of connecting rods 104 are fixedly mounted on the switching rod 103, a plurality of connecting rods 104 and the like are fixedly mounted on the switching rod 103 in radian, and a rotating handle 105 penetrates through the top wall of the storage box 100 at the top of the switching rod 103. The end of the connecting rod 104, which is far away from the switching rod 103, is fixedly provided with a storage mechanism 200. The storage mechanism 200 comprises a storage frame 201, a plurality of ball screws 202 are rotatably installed in the storage frame 201, thread surfaces at two ends of the ball screws 202 are symmetrically arranged along the middle part, two ends of the ball screws 202 are in threaded connection with two moving blocks 203, shock absorption rods 204 are rotatably installed at two sides of each moving block 203, four shock absorption rods 204 are rotatably connected with a moving frame 205, and a storage belt 207 is rotatably installed on each moving frame 205; the spiral winding pipe 212 is wound on the storage rack 201, one end of the spiral winding pipe 212 is in an opening shape, water absorbing cotton is arranged on the inner wall of the spiral winding pipe 212, the other end of the spiral winding pipe 212 is fixedly connected with the water storage box 213, the water suction pump 214 is fixedly installed at the bottom of the storage rack 201, the water storage box 213 is fixedly installed at the bottom of the water suction pump 214, the water suction pump 214 is fixedly connected with the water storage box 213, the water outlet end of the water suction pump 214 is fixedly connected with the connecting pipe 215, a plurality of flexible hoses 216 are fixedly installed on the connecting pipe 215, one end, far away from the connecting pipe 215, of the flexible hoses 216 is fixedly connected with the cooling pipe 217, a plurality of side pushing assemblies 218 are fixedly installed on the storage rack 201, the side pushing assemblies 218 can be cylinders and oil cylinders, the side pushing assemblies 218 are in one-to-one correspondence with the cooling pipes 217, and the side pushing assemblies 218 are used for pushing the cooling pipe 217 to move. A plurality of driving components 209 are fixedly installed in the storage rack 201, the driving components 209 can be motors and rotary cylinders, the driving components 209 are in one-to-one correspondence with the ball screws 202, the driving components 209 are used for driving the first gears 210 to rotate, the ball screws 202 are fixedly provided with second gears 211, and the first gears 210 are meshed with the second gears 211. A plurality of storage rollers 206 are rotatably mounted on the movable frame 205, the storage rollers 206 are in transmission connection through a storage belt 207, an access mechanism 208 is fixedly mounted on the movable frame 205, the access mechanism 208 can be a motor or a rotary cylinder, and the access mechanism 208 is used for driving the storage rollers 206 to rotate. A plurality of flexible hoses 216 are fixedly mounted on the connecting pipe 215 in an equal arc, and the flexible hoses 216 are communicated with the connecting pipe 215. The storage box 100 is internally provided with a plurality of rotatable storage mechanisms 200, each storage mechanism 200 can be used for fixing sodium ion batteries with different sizes, the corresponding storage mechanism 200 is switched to the lower part of the access port 101 according to storage requirements, the storage requirements on the sodium ion batteries can be met, the storage of the belt can be completed through the storage belt 207, the sodium ion batteries are not required to be manually fixed at a designated position, the whole storage process is more automatic, ventilation of the whole storage device is ensured, the spiral winding pipe 212 and the corresponding structure are arranged, moisture around the storage device can be absorbed, the environment of the sodium ion batteries in the storage process is ensured to be dry, the absorbed moisture can be stored simultaneously, and when the ambient temperature rises, the water is conveyed into the cooling pipe 217 to carry out heat dissipation treatment on the sodium ion batteries, so that the condition that the sodium ion batteries explode due to the overhigh ambient temperature is avoided.

The storage box 100 is provided with a protective housing 300 outside, and fixedly mounted on the protective housing 300 is a plurality of protection mechanisms 301, and protection mechanism 301 includes two fixed pipes 305, and fixed mounting has communicating pipe 306 between two fixed pipes 305, and slidable mounting has extrusion piston 304 in communicating pipe 306, and fixedly mounted has buffer spring 303 on the extrusion piston 304, and buffer spring 303 keeps away from extrusion piston 304 one end fixed mounting has buffer strip 302. The fixing tube 305 is fixedly installed in the protective housing 300, and the buffer strip 302 slides through the outer wall of the protective housing 300.

Example 2

Referring to fig. 8 to 9

Referring to fig. 1 to 7, a sodium ion battery storage device includes a storage case 100, and a plurality of ventilation holes 102 are formed at the top of the storage case 100. An access port 101 is formed in the top of the storage box 100, a switching rod 103 is rotatably mounted in the storage box 100, a plurality of connecting rods 104 are fixedly mounted on the switching rod 103, a plurality of connecting rods 104 and the like are fixedly mounted on the switching rod 103 in radian, and a rotating handle 105 penetrates through the top wall of the storage box 100 at the top of the switching rod 103. The end of the connecting rod 104, which is far away from the switching rod 103, is fixedly provided with a storage mechanism 200. The storage mechanism 200 comprises a storage frame 201, a plurality of ball screws 202 are rotatably installed in the storage frame 201, thread surfaces at two ends of the ball screws 202 are symmetrically arranged along the middle part, two ends of the ball screws 202 are in threaded connection with two moving blocks 203, shock absorption rods 204 are rotatably installed at two sides of each moving block 203, four shock absorption rods 204 are rotatably connected with a moving frame 205, and a storage belt 207 is rotatably installed on each moving frame 205; the spiral winding pipe 212 is wound on the storage rack 201, one end of the spiral winding pipe 212 is in an opening shape, water absorbing cotton is arranged on the inner wall of the spiral winding pipe 212, the other end of the spiral winding pipe 212 is fixedly connected with the water storage box 213, the water suction pump 214 is fixedly installed at the bottom of the storage rack 201, the water storage box 213 is fixedly installed at the bottom of the water suction pump 214, the water suction pump 214 is fixedly connected with the water storage box 213, the water outlet end of the water suction pump 214 is fixedly connected with the connecting pipe 215, a plurality of flexible hoses 216 are fixedly installed on the connecting pipe 215, one end, far away from the connecting pipe 215, of the flexible hoses 216 is fixedly connected with the cooling pipe 217, a plurality of side pushing assemblies 218 are fixedly installed on the storage rack 201, the side pushing assemblies 218 can be cylinders and oil cylinders, the side pushing assemblies 218 are in one-to-one correspondence with the cooling pipes 217, and the side pushing assemblies 218 are used for pushing the cooling pipe 217 to move. A plurality of driving components 209 are fixedly installed in the storage rack 201, the driving components 209 can be motors and rotary cylinders, the driving components 209 are in one-to-one correspondence with the ball screws 202, the driving components 209 are used for driving the first gears 210 to rotate, the ball screws 202 are fixedly provided with second gears 211, and the first gears 210 are meshed with the second gears 211. A plurality of storage rollers 206 are rotatably mounted on the movable frame 205, the storage rollers 206 are in transmission connection through a storage belt 207, an access mechanism 208 is fixedly mounted on the movable frame 205, the access mechanism 208 can be a motor or a rotary cylinder, and the access mechanism 208 is used for driving the storage rollers 206 to rotate. A plurality of flexible hoses 216 are fixedly mounted on the connecting pipe 215 in an equal arc, and the flexible hoses 216 are communicated with the connecting pipe 215.

The storage box 100 is provided with a protective housing 300 outside, and fixedly mounted on the protective housing 300 is a plurality of protection mechanisms 301, and protection mechanism 301 includes two fixed pipes 305, and fixed mounting has communicating pipe 306 between two fixed pipes 305, and slidable mounting has extrusion piston 304 in communicating pipe 306, and fixedly mounted has buffer spring 303 on the extrusion piston 304, and buffer spring 303 keeps away from extrusion piston 304 one end fixed mounting has buffer strip 302. The fixing tube 305 is fixedly installed in the protective housing 300, and the buffer strip 302 slides through the outer wall of the protective housing 300. The protective shell 300 is arranged, and the corresponding protection mechanism 301 is arranged on the protective shell 300, so that the side face of the storage box 100 can be effectively protected, the impact force of the storage device can be effectively buffered when the storage device is impacted, and when one buffer strip 302 of the same protection mechanism 301 is impacted, the other buffer strip 302 can timely protrude to block a collision object, so that the storage device is protected.

Working principle:

step one: when sodium ion batteries need to be stored, the rotating handle 105 is screwed, the rotating handle 105 drives the switching rod 103 to rotate, the switching rod 103 drives the storage mechanism 200 to move through the connecting rod 104, the storage mechanism 200 is moved to the lower part of the access port 101, the sodium ion batteries are placed into the storage rack 201 through the access port 101, when the sodium ion batteries enter the storage rack 201, the driving component 209 drives the first gear 210 to rotate, the first gear 210 drives the second gear 211 to rotate, the second gear 211 drives the ball screw 202 to rotate, the ball screw 202 drives the two moving blocks 203 to move in opposite directions, the moving blocks 203 cooperate with the shock absorbing rods 204 to drive the moving rack 205 to move, then the storage belt 207 on the plurality of moving racks 205 clamps the sodium ion batteries, the storage mechanism 208 drives the storage roller 206 to rotate, the storage belt 207 drives the sodium ion batteries to descend, and then the steps can be repeated to place the plurality of sodium ion batteries into the storage rack 201;

step two: in the storage process of the sodium ion battery, water around the storage device is absorbed by the absorbent cotton in the spiral winding pipe 212, the water absorbed by the absorbent cotton flows to the water storage box 213 along the spiral winding pipe 212 for storage, when the temperature around the storage device is increased, the water in the water storage box 213 is pumped by the water pump 214 and is conveyed into the connecting pipe 215, the water in the connecting pipe 215 enters the telescopic hose 216, the water in the telescopic hose 216 enters the cooling pipe 217, the side pushing component 218 drives the cooling pipe 217 to move, and then the cooling pipe 217 is pushed to be contacted with the surface of the sodium ion battery, and the cooling pipe 217 carries out heat dissipation treatment on the sodium ion battery;

step three: when the side of the protective housing 300 is impacted in the storage process of the sodium ion battery, the impact buffer bar 302 extrudes the buffer spring 303, the buffer spring 303 drives the extrusion piston 304 to move, the extrusion piston 304 extrudes gas in the fixed tube 305 into the communicating tube 306, the gas enters the other fixed tube 305 of the same protective mechanism 301 through the communicating tube 306, the gas extrudes the extrusion piston 304 on the other fixed tube 305, the extrusion piston 304 moves along the fixed tube 305, the extrusion piston 304 drives the buffer bar 302 to move through the buffer spring 303, and the buffer bar 302 moves to the outside of the protective housing 300, so that the protective housing 300 is protected.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that numerous modifications and adaptations will be apparent to those skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present template.

In the description of the present invention, it should be understood that the terms "upper," "lower," "left," "right," and the like indicate an orientation or a positional relationship based on that shown in the drawings, and are merely for convenience of description and for simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, as well as a specific orientation configuration and operation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims

1. The sodium ion battery storage device comprises a storage box (100), and is characterized in that a switching rod (103) is rotatably installed in the storage box (100), a plurality of connecting rods (104) are fixedly installed on the switching rod (103), and a storage mechanism (200) is fixedly installed at one end, far away from the switching rod (103), of the connecting rods (104);

the storage mechanism (200) comprises a storage frame (201), a plurality of ball screws (202) are rotatably arranged in the storage frame (201), thread surfaces at two ends of the ball screws (202) are symmetrically arranged along the middle part, two ends of the ball screws (202) are in threaded connection with two moving blocks (203), shock absorption rods (204) are rotatably arranged at two sides of each moving block (203), the four shock absorption rods (204) are rotatably connected with a moving frame (205), and a storage belt (207) is rotatably arranged on each moving frame (205);

the novel water storage device is characterized in that a spiral winding pipe (212) is wound on the storage rack (201), one end of the spiral winding pipe (212) is in an opening shape, water absorbing cotton is arranged on the inner wall of the spiral winding pipe (212), the other end of the spiral winding pipe (212) is fixedly connected with a water storage box (213), a water suction pump (214) is fixedly arranged at the bottom of the storage rack (201), the water storage box (213) is fixedly arranged at the bottom of the water suction pump (214), the water suction end of the water suction pump (214) is fixedly connected with the water storage box (213), a connecting pipe (215) is fixedly arranged at the water outlet end of the water suction pump (214), a plurality of telescopic hoses (216) are fixedly arranged on the connecting pipe (215), one end of each telescopic hose (216) away from the connecting pipe (215) is fixedly connected with a cooling pipe (217), a plurality of side pushing assemblies (218) are fixedly arranged on the storage rack (201), and the side pushing assemblies (218) are in one-to-one correspondence with the cooling pipes (217), and the side pushing assemblies (218) are used for pushing the cooling pipes (217) to move.

The storage box is characterized in that a protective shell (300) is arranged outside the storage box (100), a plurality of protection mechanisms (301) are fixedly arranged on the protective shell (300), each protection mechanism (301) comprises two fixed pipes (305), a communicating pipe (306) is fixedly arranged between the two fixed pipes (305), an extrusion piston (304) is slidably arranged in each communicating pipe (306), a buffer spring (303) is fixedly arranged on each extrusion piston (304), and a buffer strip (302) is fixedly arranged at one end, far away from each extrusion piston (304), of each buffer spring (303);

the radians of the connecting rods (104) and the like are fixedly arranged on the switching rod (103), and a rotating handle (105) is fixedly arranged at the top of the switching rod (103) penetrating through the top wall of the storage box (100);

a plurality of driving assemblies (209) are fixedly arranged in the storage rack (201), the driving assemblies (209) are in one-to-one correspondence with the ball screws (202), the driving assemblies (209) are used for driving the first gears (210) to rotate, the ball screws (202) are fixedly provided with second gears (211), and the first gears (210) are meshed with the second gears (211);

a plurality of storage rollers (206) are rotatably arranged on the movable frame (205), the storage rollers (206) are in transmission connection through a storage belt (207), an access mechanism (208) is fixedly arranged on the movable frame (205), and the access mechanism (208) is used for driving the storage rollers (206) to rotate;

the radian of the telescopic hoses (216) is fixedly arranged on the connecting pipe (215), and the telescopic hoses (216) are communicated with the connecting pipe (215);

a plurality of ventilation holes (102) are formed in the top of the storage box (100);

the fixing tube (305) is fixedly arranged in the protective shell (300), and the buffer strip (302) penetrates through the outer wall of the protective shell (300) in a sliding mode;

an access port (101) is formed in the top of the storage box (100);

the sodium ion battery storage device is obtained through the following steps:

step one: when sodium ion batteries are required to be stored, the rotating handle (105) is screwed, the rotating handle (105) drives the switching rod (103) to rotate, the switching rod (103) drives the storage mechanism (200) to move through the connecting rod (104), the storage mechanism (200) is moved to the position below the access port (101), the sodium ion batteries are placed into the storage rack (201) through the access port (101), when the sodium ion batteries enter the storage rack (201), the driving assembly (209) drives the first gear (210) to rotate, the first gear (210) drives the second gear (211) to rotate, the second gear (211) drives the ball screw (202) to rotate, the ball screw (202) drives the two moving blocks (203) to move in opposite directions, the moving blocks (203) are matched with the shock absorbing rod (204) to drive the moving rack (205) to move, then the storage belt (207) on the plurality of moving racks (205) clamps the sodium ion batteries, the storage roller (206) is driven by the access mechanism (208) to rotate, the storage belt (207) is driven by the storage belt (207) to descend, and then the sodium ion batteries can be stored in the storage rack (201) repeatedly;

step two: in the storage process of the sodium ion battery, water around the storage device is absorbed by water absorbing cotton in the spiral winding pipe (212), the water absorbed by the water absorbing cotton flows to the water storage box (213) along the spiral winding pipe (212) for storage, when the temperature around the storage device rises, the water in the water storage box (213) is pumped by the water pump (214) and is conveyed into the connecting pipe (215), the water in the connecting pipe (215) enters the telescopic hose (216), the water in the telescopic hose (216) enters the cooling pipe (217), the side pushing component (218) drives the cooling pipe (217) to move, and then the cooling pipe (217) is pushed to be contacted with the surface of the sodium ion battery, and the cooling pipe (217) carries out heat dissipation treatment on the sodium ion battery;

step three: when the side of the protective housing (300) is impacted in the storage process of the sodium ion battery, the impact buffer bar (302) extrudes the buffer spring (303), the buffer spring (303) drives the extrusion piston (304) to move, the extrusion piston (304) extrudes gas in the fixed tube (305) into the communicating tube (306), the gas enters the other fixed tube (305) of the same protective mechanism (301) through the communicating tube (306), the gas extrudes the extrusion piston (304) on the other fixed tube (305), the extrusion piston (304) moves along the fixed tube (305), the extrusion piston (304) drives the buffer bar (302) to move through the buffer spring (303), and the buffer bar (302) moves outside the protective housing (300) to protect the protective housing (300).