CN223757556U - A small mobile energy storage cabinet - Google Patents

Abstract

The utility model relates to the technical field of energy storage cabinets, in particular to a small movable energy storage cabinet which comprises a cabinet body, wherein the front end of the cabinet body is rotationally connected with two cabinet doors, a plurality of battery modules are installed in the cabinet body, the middle part of the inner wall of the cabinet body is fixedly connected with a partition plate, the side wall of the partition plate is provided with a plurality of metal heat conducting blocks, the outer walls of the two ends of the battery modules are respectively abutted to the outer walls of the metal heat conducting blocks, the inner parts of the metal heat conducting blocks are provided with liquid cooling grooves, the inner parts of the liquid cooling grooves are fixedly connected with a plurality of flow guiding blocks, the inner parts of the liquid cooling grooves are fixedly connected with backflow blocks, one ends of the backflow blocks are fixedly connected with partition plates, and the metal heat conducting blocks are respectively communicated with a distribution pipe and a backflow pipe. The flow path of the cooling liquid is optimized through the flow guide block, the cooling liquid is ensured to fully contact the inner wall of the metal heat conduction block, the heat exchange efficiency is improved, the working temperature of the battery module is reduced, the service life of the battery module is prolonged, the safety of the battery module is improved, and the long-term use of the cabinet body is facilitated.

Description

Small-size portable energy storage cabinet

Technical Field

The utility model relates to the technical field of energy storage cabinets, in particular to a small movable energy storage cabinet.

Background

An energy storage cabinet is a device specifically designed to store electrical energy, the primary function of which is to store electrical energy when the power supply is sufficient and then release that energy when the power demand is high or insufficient.

The small distributed energy storage power cabinet in the prior art pays attention to improvement of space utilization rate and adjustment efficiency of the energy storage power cabinet on the structural design of the power cabinet, so that the structural design of the energy storage power cabinet can be compact. But because in the use, the battery module of power cabinet can produce heat at the charge-discharge in-process, and too compact structural design makes the radiating effect of power cabinet not good enough, and calorific capacity is difficult to dispel rapidly, uses in high temperature environment for a long time, easily leads to battery module high temperature, and then influences battery performance and security, is unfavorable for the long-term use of energy storage cabinet.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides the small-sized mobile energy storage cabinet, the flow path of cooling liquid is optimized through the flow guide block, the cooling liquid is ensured to fully contact the inner wall of the metal heat conduction block, the heat exchange efficiency is improved, the working temperature of the battery module is reduced, the service life of the battery module is prolonged, the safety of the battery module is improved, and the cabinet body is convenient for long-term use.

In order to solve the technical problems, the small-sized mobile energy storage cabinet comprises a cabinet body, wherein the front end of the cabinet body is rotationally connected with two cabinet doors, a plurality of battery modules are installed in the cabinet body, a partition plate is fixedly connected to the middle of the inner wall of the cabinet body, a plurality of metal heat conducting blocks are installed on the side wall of the partition plate, the outer walls of the two ends of the battery modules are respectively abutted to the outer walls of the metal heat conducting blocks, a liquid cooling groove is formed in the metal heat conducting blocks, a plurality of flow guiding blocks are fixedly connected in the liquid cooling groove, a backflow block is fixedly connected in the liquid cooling groove, a partition plate is fixedly connected with one end of the backflow block, a distribution pipe and a backflow pipe are respectively communicated with the metal heat conducting blocks, a plurality of distribution pipes are respectively communicated with the conveying pipes, a plurality of backflow pipes are respectively communicated with the backflow pipes, a heat radiating assembly is installed on the rear wall of the cabinet body, and a water tank is arranged on the heat radiating assembly.

Preferably, two adjacent diversion blocks are distributed in a staggered manner, the other end of the separation sheet is fixedly connected with the wall of the liquid cooling tank, and two ends of the distribution pipe and the return pipe are respectively communicated with the metal heat conduction blocks at two sides of the separation plate.

Through the technical scheme, the cooled liquid is received from the water tank through the distribution pipe and is distributed into the liquid cooling tanks of the metal heat conduction blocks through the conveying pipe, after heat exchange is completed in the liquid cooling tanks, the warmed cooling liquid flows into the recovery pipe through the return pipe and finally returns to the water tank.

Preferably, two electric drive wheels are arranged on one side of the bottom surface of the cabinet body in a symmetrical structure, two brake wheels are arranged on the other side of the bottom surface of the cabinet body in a symmetrical structure, hanging lugs are respectively arranged at four corners of the top surface of the cabinet body, and the cabinet body is an energy storage cabinet.

Through above-mentioned technical scheme, the electric wheel that drives makes the cabinet possess the function of removal and fixed with the wheel that stops.

Preferably, the water pump is installed through the mount pad to the water tank top surface, the water inlet end of water pump is linked together with the inside upper end of water tank, the play water end of water pump is linked together with the conveyer pipe, the recovery pipe is linked together with the water tank lower extreme, the water pipe that has electrified valve is linked together to the water tank bottom surface.

Through above-mentioned technical scheme, conveniently with outside coolant liquid filling to the water tank inside, when opening electric valve, conveniently with the inside coolant liquid discharge outside of water tank, made things convenient for the clearance and the maintenance of water tank.

Preferably, the heat dissipation assembly comprises a heat insulation block, the heat insulation block is installed in the middle of the inner wall of the water tank, a plurality of metal cooling fins are inserted into the water tank, and the joint of the metal cooling fins and the water tank is sealed through a sealing ring.

Through the technical scheme, the metal radiating fin is convenient to radiate cooling liquid in the water tank.

Preferably, the metal radiating fins are provided with flow holes, adjacent flow holes are distributed in a staggered mode, one end of each metal radiating fin is located inside the water tank, the other end of each metal radiating fin is located outside the water tank, and the outer wall of the water tank is fixedly connected with a frame.

Preferably, a plurality of mounting frames are mounted on the frame, a fixing block is fixedly connected to the middle of each mounting frame, and fan blades are rotatably connected to the middle of each fixing block.

Through above-mentioned technical scheme, first band pulley and traction sheave synchronous rotation drive flabellum rotation, and the rotation of flabellum pumps the air between water tank and the frame.

Preferably, the traction wheel is sleeved on the central shaft of the fan blade at the middle part, the first belt wheels are sleeved on the central shafts of the fan blades at the two ends respectively, the output shaft of the water pump is coaxially connected with the rotating shaft, the rotating shaft is rotatably connected with the support, and the support is fixedly connected to the top surface of the frame.

Through the technical scheme, the rotating shaft rotates along the support.

Preferably, the rotating shaft is sleeved with a second belt wheel, and the first belt wheel and the second belt wheel are respectively driven by a belt and a wheel groove of the traction wheel.

Through the technical scheme, the traction wheel is transmitted to the first belt wheel to rotate through belt friction, so that the first belt wheel and the traction wheel synchronously rotate to drive the fan blades to rotate.

The utility model has the beneficial effects that:

1. Through the metal heat conduction block that sets up in the cabinet body closely supports with the both ends outer wall of battery module, the heat that has realized battery module at the during operation produces is to the effective transmission of metal heat conduction block, the liquid cooling inslot of metal heat conduction block inside seting up is filled with cooling liquid, cooling liquid circulates through the guide of water conservancy diversion piece in the liquid cooling inslot, the flow path of cooling liquid has been optimized in the design of water conservancy diversion piece, ensure the inner wall of cooling liquid fully contact metal heat conduction block, thereby improve heat exchange efficiency, cooling liquid is when the liquid cooling inslot circulates, receive the liquid after the cooling from the water tank through the distributor, and distribute to the liquid cooling groove of each metal heat conduction block through the conveyer pipe, after accomplishing the heat exchange in the liquid cooling inslot, the cooling liquid of intensification flows into the recovery tube through the back, and finally get back in the water tank, the water tank is as cooling module's part, the warm liquid of responsible for cooling backward flow, make it become cooling liquid for circulation again, battery module's operating temperature has been reduced, battery module's life and its security has been improved, the long-term use of the cabinet body has been convenient.

2. The cooling liquid in the water tank enters the liquid cooling grooves of the metal heat conducting blocks through the conveying pipes under the driving of the water pump, the contact area and time between the cooling liquid and the inner wall of the metal heat conducting blocks are increased under the guidance of the adjacent guide blocks which are distributed in a staggered mode, so that the heat exchange efficiency is improved, the temperature of the cooling liquid rises after the cooling liquid absorbs the heat transferred by the metal heat conducting blocks in the liquid cooling grooves, the cooling liquid flows into the recovery pipe through the return pipe, finally returns to the water tank, and the warmed liquid returned to the water tank is cooled through the heat dissipation assembly, so that the cooling liquid is provided for the next circulation.

3. The electric drive wheel and the brake wheel make the cabinet body possess the function of removing and fixing, and the electric drive wheel provides power, and the removal of the cabinet body of being convenient for, the brake wheel then is fixed the position of the cabinet body when needs, ensures its stability, and the hangers of cabinet body top surface is convenient for use hoisting tool carries out the hoist and mount and the transportation of energy storage cabinet.

4. Get back to the warm liquid of water tank and dispel the heat through the metal fin, the circulation hole of seting up on the metal fin allows cooling liquid to flow in inside, adjacent circulation hole is crisscross distribution, area of contact and time of cooling liquid and metal fin inner wall have been increased, radiating efficiency has been improved, the one end of metal fin is located inside the water tank, with cooling liquid direct contact, the other end of metal fin then is located outside the water tank, be convenient for distribute the heat in the air, the quick heat dissipation to cooling liquid has been realized, radiating efficiency has been improved, the steady operation of the internal battery module of cabinet has been ensured.

5. The output shaft of the water pump drives the second belt pulley to rotate through the rotating shaft while driving the cooling liquid to circulate, the traction wheel rotates synchronously through the belt friction transmission to the traction wheel, the traction wheel rotates through the belt friction transmission to the first belt pulley, the first belt pulley and the traction wheel synchronously rotate to drive the fan blades to rotate, the fan blades rotate to suck air between the water tank and the frame, the air around the metal cooling fins flows, the flowing air takes away the heat of the metal cooling fins, the metal cooling fins cool down and further cool down the cooling liquid inside the water tank, the heat dissipation efficiency of the metal cooling fins is improved, and the cooling of the cooling liquid inside the water tank is further promoted.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a rear perspective view of the overall structure of the present utility model;

FIG. 3 is a schematic view of the inside of the cabinet structure of the present utility model;

FIG. 4 is a schematic view of the inside of a metal heat conducting block structure according to the present utility model;

FIG. 5 is a schematic view of the recovery tube structure of the present utility model;

FIG. 6 is a bottom perspective view of the water tank structure of the present utility model;

FIG. 7 is a schematic view of the inside of the water tank structure of the present utility model;

FIG. 8 is a schematic view of a heat insulating block according to the present utility model;

fig. 9 is a schematic view of a fan blade according to the present utility model.

In the figure, 1, a cabinet body, 2, a cabinet door, 3, a battery module, 4, a separation plate, 5, a metal heat conduction block, 6, a liquid cooling tank, 7, a guide block, 8, a backflow block, 9, a partition plate, 10, a distribution pipe, 11, a backflow pipe, 12, a conveying pipe, 13, a recovery pipe, 14, a heat dissipation component, 1401, a water tank, 1402, a water pump, 1403, a heat insulation block, 1404, a metal heat dissipation plate, 1405, a circulation hole, 1406, a frame, 1407, a mounting frame, 1408, fan blades, 1409, a traction wheel, 1410, a first belt wheel, 1411, a rotating shaft, 1412, a support, 1413, a second belt wheel, 1414, a belt, 1415, a fixed block, 1416, a water pipe, 15, an electric driving wheel, 16, a brake wheel, 17 and a hanging lug.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Example 1

As shown in fig. 1-5, this embodiment provides a small-size portable energy storage cabinet, including cabinet body 1, cabinet body 1 front end rotates and is connected with two cabinet doors 2, cabinet body 1 internally mounted has a plurality of battery module 3, cabinet body 1 inner wall middle part fixedly connected with division board 4, a plurality of metal heat conduction pieces 5 are installed to division board 4 lateral wall, the both ends outer wall of battery module 3 respectively with metal heat conduction piece 5 outer wall butt, liquid cooling groove 6 has been seted up to metal heat conduction piece 5 inside, liquid cooling groove 6 inside fixedly connected with a plurality of water conservancy diversion pieces 7, liquid cooling groove 6 inside fixedly connected with backward flow piece 8, the one end fixedly connected with separation piece 9 of backward flow piece 8, the last distribution pipe 10 and the backward flow 11 of communicating respectively of metal heat conduction piece 5, fixedly connected with conveyer pipe 12 and recovery pipe 13 on the division board 4 respectively, a plurality of distribution pipes 10 are linked together with conveyer pipe 12 respectively, a plurality of backward flow 11 are linked together with recovery pipe 13 respectively, heat dissipation assembly 14 is installed to cabinet body 1 back wall, be equipped with water tank 1401 on the heat dissipation assembly 14, conveyer pipe 12 and recovery pipe 13 are linked together with water tank 1401 respectively.

The two adjacent diversion blocks 7 are distributed in a staggered way, the other ends of the partition sheets 9 are fixedly connected with the groove walls of the liquid cooling grooves 6, two ends of the distribution pipe 10 and the return pipe 11 are respectively communicated with the metal heat conduction blocks 5 at two sides of the partition plate 4, cooled liquid is received from the water tank 1401 through the distribution pipe 10 and distributed into the liquid cooling grooves 6 of the metal heat conduction blocks 5 through the conveying pipes 12, after heat exchange is completed in the liquid cooling grooves 6, the heated cooling liquid flows into the recovery pipes 13 through the return pipe 11, and finally returns to the water tank 1401.

Two electric driving wheels 15 are arranged on one side of the bottom surface of the cabinet body 1 in a symmetrical structure, two braking wheels 16 are arranged on the other side of the bottom surface of the cabinet body 1 in a symmetrical structure, hanging lugs 17 are respectively arranged at four corners of the top surface of the cabinet body 1, the cabinet body 1 is an energy storage cabinet, and the electric driving wheels 15 and the braking wheels 16 enable the cabinet body 1 to have moving and fixing functions.

The top surface of the water tank 1401 is provided with the water pump 1402 through the mounting seat, the water inlet end of the water pump 1402 is communicated with the upper end inside the water tank 1401, the water outlet end of the water pump 1402 is communicated with the conveying pipe 12, the recovery pipe 13 is communicated with the lower end of the water tank 1401, the bottom surface of the water tank 1401 is communicated with the water pipe 1416 with the electric valve, external cooling liquid is conveniently filled into the water tank 1401, and when the electric valve is opened, the cooling liquid inside the water tank 1401 is conveniently discharged out, so that the water tank 1401 is convenient to clean and maintain.

The working principle is that the metal heat conducting block 5 arranged in the cabinet body 1 is tightly abutted against the outer walls of the two ends of the battery module 3, so that the effective transfer of heat generated by the battery module 3 during working to the metal heat conducting block 5 is realized, the liquid cooling groove 6 formed in the metal heat conducting block 5 is filled with cooling liquid, the cooling liquid circularly flows in the liquid cooling groove 6 through the guide of the guide block 7, the flow path of the cooling liquid is optimized through the design of the guide block 7, and the cooling liquid is ensured to fully contact the inner wall of the metal heat conducting block 5, so that the heat exchange efficiency is improved.

When the cooling liquid circulates in the liquid cooling tank 6, the cooled liquid is received from the water tank 1401 through the distribution pipe 10 and is distributed into the liquid cooling tank 6 of each metal heat conduction block 5 through the conveying pipe 12, after the heat exchange in the liquid cooling tank 6 is completed, the warmed cooling liquid flows into the recovery pipe 13 through the return pipe 11 and finally returns to the water tank 1401, the water tank 1401 is used as a part of the heat dissipation assembly 14 and is responsible for cooling the returned warm liquid, so that the warm liquid is changed into the cooling liquid again for recycling, the working temperature of the battery module 3 is reduced, the service life of the battery module 3 is prolonged, the safety of the battery module is improved, and the long-term use of the cabinet body 1 is facilitated;

The cooling liquid in the water tank 1401 enters the liquid cooling grooves 6 of the metal heat conducting blocks 5 through the conveying pipes 12 under the driving of the water pump 1402, the contact area and time between the cooling liquid and the inner wall of the metal heat conducting blocks 5 are increased under the guidance of the adjacent guide blocks 7 which are distributed in a staggered way, so that the heat exchange efficiency is improved, the temperature of the cooling liquid rises after the cooling liquid absorbs the heat transferred by the metal heat conducting blocks 5 in the liquid cooling grooves 6, the cooling liquid flows into the recovery pipe 13 through the return pipe 11 and finally returns to the water tank 1401, the temperature of the warm liquid returned to the water tank 1401 is reduced through the heat dissipation component 14, and the cooling liquid is provided for the next circulation;

The electric drive wheel 15 and the brake wheel 16 enable the cabinet body 1 to have the functions of moving and fixing, the electric drive wheel 15 provides power, the movement of the cabinet body 1 is facilitated, the brake wheel 16 fixes the position of the cabinet body 1 when needed, the stability of the cabinet body is ensured, and the hanging lugs 17 on the top surface of the cabinet body 1 are convenient for hanging and transporting the energy storage cabinet by using a hanging tool;

The water pipe 1416 that water tank 1401 bottom surface communicates passes through electric valve, conveniently fills outside coolant liquid to water tank 1401 inside, when opening electric valve, conveniently discharges outside with the inside coolant liquid of water tank 1401, has made things convenient for the clearance and the maintenance of water tank 1401.

Example two

As shown in fig. 1-3 and fig. 5-9, on the basis of the first embodiment, the heat dissipation assembly 14 comprises a heat insulation block 1403, the heat insulation block 1403 is installed in the middle of the inner wall of the water tank 1401, a plurality of metal cooling fins 1404 are inserted into the water tank 1401, the connection between the metal cooling fins 1404 and the water tank 1401 is sealed through a sealing ring, and the metal cooling fins 1404 facilitate heat dissipation of cooling liquid in the water tank 1401.

The metal radiating fins 1404 are provided with flow holes 1405, adjacent flow holes 1405 are distributed in a staggered mode, one end of each metal radiating fin 1404 is located inside the water tank 1401, the other end of each metal radiating fin 1404 is located outside the water tank 1401, a frame 1406 is fixedly connected to the outer wall of the water tank 1401, a plurality of mounting frames 1407 are mounted on the frame 1406, a fixed block 1415 is fixedly connected to the middle of each mounting frame 1407, fan blades 1408 are rotatably connected to the middle of each fixed block 1415, the first belt pulley 1410 and the traction wheel 1409 synchronously rotate to drive the fan blades 1408 to rotate, and air between the water tank 1401 and the frame 1406 is sucked through rotation of the fan blades 1408.

Traction wheels 1409 are sleeved on the central shafts of the fan blades 1408 at the middle, first belt wheels 1410 are sleeved on the central shafts of the fan blades 1408 at the two ends respectively, a rotating shaft 1411 is coaxially connected to the output shaft of the water pump 1402, a support 1412 is rotatably connected to the rotating shaft 1411, the support 1412 is fixedly connected to the top surface of the frame 1406, and the rotating shaft 1411 rotates along the support 1412.

The rotating shaft 1411 is sleeved with a second belt pulley 1413, the first belt pulley 1410 and the second belt pulley 1413 are respectively driven by a belt 1414 and a pulley groove of the traction wheel 1409, and the traction wheel 1409 is driven to rotate by friction of the belt 1414 to the first belt pulley 1410, so that the first belt pulley 1410 and the traction wheel 1409 synchronously rotate to drive the fan blade 1408 to rotate.

When the cooling device is used, warm liquid returned to the water tank 1401 dissipates heat through the metal cooling fins 1404, the circulation holes 1405 formed in the metal cooling fins 1404 allow cooling liquid to flow inside, and adjacent circulation holes 1405 are distributed in a staggered manner, so that the contact area and time between the cooling liquid and the inner wall of the metal cooling fins 1404 are increased, the heat dissipation efficiency is improved, one end of the metal cooling fins 1404 is positioned inside the water tank 1401 and is in direct contact with the cooling liquid, the other end of the metal cooling fins 1404 is positioned outside the water tank 1401, heat is conveniently dissipated into the air, rapid heat dissipation of the cooling liquid is realized, the heat dissipation efficiency is improved, and stable operation of the battery module 3 in the cabinet body 1 is ensured;

The output shaft of the water pump 1402 drives the cooling liquid to circulate, and simultaneously drives the second belt pulley 1413 to rotate through the rotating shaft 1411, and the second belt pulley 1413 is in friction transmission to the traction wheel 1409 to rotate synchronously through the belt 1414, the traction wheel 1409 is in friction transmission to the first belt pulley 1410 to rotate through the belt 1414, so that the first belt pulley 1410 and the traction wheel 1409 rotate synchronously to drive the fan blades 1408 to rotate, the air between the water tank 1401 and the frame 1406 is pumped through the rotation of the fan blades 1408, the air around the metal cooling fins 1404 flows, the flowing air takes away the heat of the metal cooling fins 1404, the metal cooling fins 1404 cool down and further cool down the cooling liquid inside the water tank 1401, the heat dissipation efficiency of the metal cooling fins 1404 is improved, and the cooling of the cooling liquid inside the water tank 1401 is further promoted.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (10)

1. The small movable energy storage cabinet comprises a cabinet body (1), two cabinet doors (2) are rotatably connected to the front end of the cabinet body (1), a plurality of battery modules (3) are mounted in the cabinet body (1), a partition plate (4) is fixedly connected to the middle of the inner wall of the cabinet body (1), a plurality of metal heat conduction blocks (5) are mounted on the side wall of the partition plate (4), liquid cooling grooves (6) are formed in the outer walls of the two ends of the battery modules (3) respectively and are abutted to the outer walls of the metal heat conduction blocks (5), a plurality of guide blocks (7) are fixedly connected to the inner portions of the liquid cooling grooves (6), backflow blocks (8) are fixedly connected to the inner portions of the liquid cooling grooves (6), partition plates (9) are fixedly connected to one ends of the backflow blocks (8), distribution pipes (10) and backflow pipes (11) are respectively communicated with the metal heat conduction blocks (5), a conveying pipe (12) and a recovery pipe (13) are respectively fixedly connected to the partition plate (4), a plurality of distribution pipes (10) are respectively connected with the conveying pipes (11), a plurality of backflow pipes (14) are respectively communicated with the heat dissipation components (14) and are respectively arranged on the backflow pipes (1), the conveying pipe (12) and the recovery pipe (13) are respectively communicated with the water tank (1401).

2. The small movable energy storage cabinet according to claim 1, wherein two adjacent diversion blocks (7) are distributed in a staggered mode, the other end of each partition sheet (9) is fixedly connected with the wall of the liquid cooling tank (6), and two ends of each distribution pipe (10) and each return pipe (11) are respectively communicated with metal heat conducting blocks (5) on two sides of the partition plate (4).

3. The small movable energy storage cabinet according to claim 1, wherein two electric driving wheels (15) are symmetrically arranged on one side of the bottom surface of the cabinet body (1), two braking wheels (16) are symmetrically arranged on the other side of the bottom surface of the cabinet body (1), and hanging lugs (17) are respectively arranged at four corners of the top surface of the cabinet body (1).

4. The small mobile energy storage cabinet according to claim 1, wherein a water pump (1402) is installed on the top surface of the water tank (1401) through an installation seat, the water inlet end of the water pump (1402) is communicated with the upper end inside the water tank (1401), the water outlet end of the water pump (1402) is communicated with a conveying pipe (12), the recovery pipe (13) is communicated with the lower end of the water tank (1401), and a water pipe (1416) with a power valve is communicated with the bottom surface of the water tank (1401).

5. The small mobile energy storage cabinet according to claim 4, wherein the heat dissipation assembly (14) comprises a heat insulation block (1403), the heat insulation block (1403) is installed in the middle of the inner wall of the water tank (1401), and a plurality of metal heat dissipation fins (1404) are inserted into the water tank (1401).

6. The portable energy storage cabinet of claim 5 wherein the connection between the metal fin (1404) and the tank (1401) is sealed by a gasket.

7. The small mobile energy storage cabinet of claim 6, wherein the metal radiating fins (1404) are provided with flow holes (1405), adjacent flow holes (1405) are distributed in a staggered mode, one end of each metal radiating fin (1404) is located inside the water tank (1401), the other end of each metal radiating fin (1404) is located outside the water tank (1401), and a frame (1406) is fixedly connected to the outer wall of the water tank (1401).

8. A small mobile energy storage cabinet according to claim 7, wherein a plurality of mounting frames (1407) are mounted on the frame (1406), a fixed block (1415) is fixedly connected to the middle of each mounting frame (1407), and fan blades (1408) are rotatably connected to the middle of each fixed block (1415).

9. The small mobile energy storage cabinet according to claim 8, wherein a traction wheel (1409) is sleeved on a central shaft of the fan blade (1408) positioned in the middle, first belt wheels (1410) are sleeved on central shafts of the fan blades (1408) positioned at two ends respectively, a rotating shaft (1411) is coaxially connected to an output shaft of the water pump (1402), a support (1412) is rotatably connected to the rotating shaft (1411), and the support (1412) is fixedly connected to the top surface of the frame (1406).

10. The small mobile energy storage cabinet of claim 9, wherein the rotating shaft (1411) is sleeved with a second belt wheel (1413), and the first belt wheel (1410) and the second belt wheel (1413) are respectively driven with a wheel groove of the traction wheel (1409) through a belt (1414).