CN220710510U - Energy storage battery cabinet - Google Patents

Abstract

The utility model discloses an energy storage battery cabinet, comprising: a battery cabinet; the storage rack is arranged on the inner side of the battery cabinet and is positioned at the top end of the transmission box, the storage rack is in sliding connection with the battery cabinet and the transmission box, and the bottom end of the storage rack is provided with a moving-out assembly; and a transmission assembly disposed at a position inside the transmission case. According to the energy storage battery cabinet provided by the utility model, the storage rack capable of being moved out of the battery cabinet and the transmission assembly and the moving-out assembly for driving the storage rack to be moved out of the battery cabinet are arranged on the battery cabinet, the motor in the transmission assembly is started, the moving screw in the transmission assembly is driven to move out of the battery cabinet through the fixing seat under the cooperation of the moving-out assembly, so that the storage rack is convenient to place a battery pack with a larger volume and a heavier weight on the storage rack, the tedious operation of staff is reduced, the efficiency of installing the battery pack is further improved, the installation and adjustment of the battery pack are facilitated, and the applicability of the device is further improved.

Description

Energy storage battery cabinet

Technical Field

The utility model relates to the technical field of energy storage equipment, in particular to an energy storage battery cabinet.

Background

The energy storage battery cabinet is taken as an important component in a battery energy storage system and has been widely applied to the fields of new energy, smart power grids, energy saving technology and the like. The energy storage battery cabinet has the functions of peak clipping and valley filling, improving the electric energy quality, acting as a standby power supply, adjusting the frequency, participating in the construction of the intelligent power grid and the like through the battery charging and discharging operation. The batteries in the energy storage battery cabinet need to work at a proper temperature, otherwise, the service life of the batteries is affected.

As disclosed in chinese patent (CN 211455772U), the battery energy storage cabinet comprises a cabinet body and an air duct for guiding cold air, the battery energy storage cabinet comprises a cabinet body and a first air duct, a plurality of placing cavities for placing batteries are formed in the cabinet body, the first air duct is provided with a cold air inlet and a cold air outlet, the cold air outlet faces the placing cavities and is used for radiating the batteries in the placing cavities, the first air duct at least comprises a sub air duct arranged along a vertical direction, the cold air outlet is arranged on the sub air duct, the cross section area of the sub air duct is reduced from top to bottom along the vertical direction, one end of the placing cavities, deviating from the cold air outlet, is a hot air outlet end after heat exchange of the batteries, and the hot air outlet end is communicated with the outside of the cabinet body. The battery energy storage cabinet of the device has the effects of uniform heat dissipation, high cold air utilization rate and high safety

In summary, the following technical problems exist in the prior art: the existing battery cabinet is usually fixed with a rack for internally placing the battery module, the existing battery module is large in size and heavy in weight, the operation is difficult when a worker places the battery module into the battery cabinet, and the placed battery module is inconvenient when the position and the angle are not adjusted, so that the energy storage battery cabinet is provided for solving the technical problem in the patent.

Disclosure of Invention

Based on this, it is necessary to provide an energy storage battery cabinet to above-mentioned technical problem, through set up the rack that can follow the battery cabinet and drive the rack follow the transmission subassembly and the subassembly that shifts out of shifting out in the battery cabinet on the battery cabinet, when using the device, start the motor in the transmission subassembly, the removal screw rod in the drive transmission subassembly drives the rack and removes from the battery cabinet through the fixing base under the cooperation of shifting out the subassembly, the convenience is placed the heavier group battery of volume on the rack, reduce the loaded down with trivial details operation of staff, further improve the efficiency of installation group battery, the convenience is installed and is adjusted the group battery, further improve the suitability of device.

In order to solve the technical problems, the utility model adopts the following technical scheme:

an energy storage battery cabinet is applied to energy storage equipment.

The energy storage battery cabinet specifically includes:

the battery cabinet is characterized in that a cabinet door is arranged on one side of one end of the battery cabinet, and a transmission box is fixedly connected to the bottom end of the inner side of the battery cabinet and one end, close to the cabinet door, of the battery cabinet;

the storage rack is arranged at the inner side of the battery cabinet and is positioned at the top end of the transmission box, the storage rack is in sliding connection with the battery cabinet and the transmission box, and a moving-out assembly is arranged at the bottom end of the storage rack;

the transmission assembly is arranged at the position inside the transmission box, and the transmission assembly and the moving-out assembly are both used for being matched with the placing frame for use.

As a preferred implementation mode of the energy storage battery cabinet provided by the utility model, the transmission assembly comprises a movable screw, a connecting column, a threaded sleeve and a fixed seat, wherein the movable screw is arranged at the center position of the inner side of the battery cabinet, the connecting column is fixedly connected with one end of the movable screw, which is close to the transmission box, the connecting column is rotationally connected with the transmission box, one end of the movable screw, which is far away from the transmission box, is rotationally connected with the battery cabinet, the threaded sleeve is connected with the outer side of the movable screw, which is far away from one end of the transmission box, the fixed seat is rotationally connected with the outer side of the threaded sleeve, and the top end of the fixed seat is fixedly connected with the placement frame.

As a preferred implementation mode of the energy storage battery cabinet provided by the utility model, the transmission assembly further comprises a large bevel gear, a fixed box, a motor and a small bevel gear seat, wherein the large bevel gear is fixedly connected to the outer side of one end of the connecting column far away from the threaded sleeve, the fixed box is fixedly connected to one side of the inner side of the transmission box, the motor is arranged on the inner side of the fixed box, the small bevel gear seat is rotatably connected to one side of the fixed box close to the movable screw, one side of the small bevel gear seat close to the connecting column is in meshed connection with the large bevel gear seat, and the output end of the motor penetrates through the fixed box and is fixedly connected with the small bevel gear seat.

As a preferred implementation mode of the energy storage battery cabinet provided by the utility model, the shifting-out assembly comprises a fixed disc, a shifting-out seat, fixed columns and shifting-out columns, wherein the bottom ends of the two sides of the rack, which are close to one end of the transmission box, are respectively and rotatably connected with the fixed disc, the bottom ends of the fixed discs are respectively and fixedly connected with the shifting-out seat, the top ends of the inner sides of the shifting-out seats are respectively and fixedly connected with the fixed columns, and the outer sides of the fixed columns are respectively and rotatably connected with the shifting-out columns.

As a preferred implementation mode of the energy storage battery cabinet provided by the utility model, the moving-out assembly further comprises a rotating seat, moving wheels, a fixed block and a limiting strip, wherein the bottom ends of the moving-out columns are respectively and rotatably connected with the rotating seat, the inner sides of the bottom ends of the rotating seats are respectively and rotatably connected with the moving wheels through rotating shafts, the bottom ends of the moving-out seats, which are far away from both sides of one end of each fixed column, are respectively and fixedly connected with the fixed block, the bottom ends of the inner sides of the moving-out seats are respectively and fixedly connected with the limiting strip, and one ends of the limiting strips, which are close to the moving-out columns, are respectively attached to the moving-out columns.

As a preferred implementation mode of the energy storage battery cabinet provided by the utility model, the moving-out assembly further comprises connecting strips, rebound blocks and contraction springs, wherein the connecting strips are fixedly connected between the corresponding fixing blocks, the rebound blocks are fixedly connected to the positions, which correspond to the connecting strips, of the moving-out column, the positions, which are close to one ends of the connecting strips, of the moving-out column are respectively fixedly connected with the rebound blocks, the contraction springs are respectively arranged between the corresponding connecting strips and the rebound blocks, one ends of the contraction springs are respectively fixedly connected with the corresponding connecting strips, and the other ends of the contraction springs are respectively fixedly connected with the corresponding rebound blocks.

As a preferred implementation mode of the energy storage battery cabinet provided by the utility model, a plurality of air outlet grooves are formed in two sides of the battery cabinet, circulating fans are arranged on two sides of the top end of the inner side of the battery cabinet, and dust screens are fixedly connected to the top end of the battery cabinet and the positions corresponding to the circulating fans.

Compared with the prior art, the utility model has the following beneficial effects:

according to the energy storage battery cabinet provided by the utility model, the storage rack which can be moved out of the battery cabinet and the transmission assembly and the moving-out assembly which drive the storage rack to move out of the battery cabinet are arranged on the battery cabinet, when the device is used, the motor in the transmission assembly is started, the moving screw in the transmission assembly is driven to drive the storage rack to move out of the battery cabinet through the cooperation of the moving-out assembly, so that the battery pack with larger volume and heavier weight is conveniently placed on the storage rack, the tedious operation of staff is reduced, the efficiency of installing the battery pack is further improved, the installation and adjustment of the battery pack are facilitated, and the applicability of the device is further improved.

Drawings

In order to more clearly illustrate the solution of the present utility model, a brief description will be given below of the drawings required for the description of the embodiments, it being obvious that the drawings in the following description are some embodiments of the present utility model, and that other drawings may be obtained from these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of an energy storage battery cabinet provided by the utility model;

fig. 2 is a schematic structural diagram of a cross section of an energy storage battery cabinet provided by the utility model;

fig. 3 is a schematic structural diagram of a transmission assembly of an energy storage battery cabinet provided by the utility model;

fig. 4 is a schematic structural diagram of an energy storage battery cabinet removal assembly provided by the utility model;

fig. 5 is a schematic structural view of a circulating fan and a dust screen of the energy storage battery cabinet provided by the utility model.

The labels in the figures are illustrated below:

1. a battery cabinet; 2. a cabinet door; 3. a transmission box; 4. a placing rack; 5. moving the screw; 6. a connecting column; 7. a threaded sleeve; 8. a fixing seat; 9. a large bevel gear; 10. a fixed box; 11. a motor; 12. a bevel pinion gear seat; 13. a fixed disc; 14. removing the seat; 15. fixing the column; 16. removing the column; 17. a rotating seat; 18. a moving wheel; 19. a fixed block; 20. a connecting strip; 21. a rebound block; 22. a retraction spring; 23. a limit bar; 24. an air outlet groove; 25. a circulation fan; 26. a dust-proof net.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

As described in the background art, the existing battery cabinet is usually fixed to the rack in which the battery module is placed, the existing battery module is large in size and heavy in weight, and when the battery module is placed into the battery cabinet, the operation of the worker is difficult, and if the position and the angle of the placed battery module are not right, the placed battery module is inconvenient to adjust.

In order to solve the technical problem, the utility model provides an energy storage battery cabinet which is applied to energy storage equipment.

Specifically, referring to fig. 1 to 3, the energy storage battery cabinet specifically includes:

the battery cabinet 1, one side of one end of the battery cabinet 1 is provided with a cabinet door 2, and the bottom of the inner side of the battery cabinet 1 and one end close to the cabinet door 2 are fixedly connected with a transmission box 3;

the placing frame 4 is arranged on the inner side of the battery cabinet 1 and is positioned at the top end of the transmission box 3, the placing frame 4 is in sliding connection with the battery cabinet 1 and the transmission box 3, and a moving-out assembly is arranged at the bottom end of the placing frame 4;

the transmission assembly is arranged at the position inside the transmission box 3, and the transmission assembly and the moving-out assembly are both used for being matched with the placing frame 4.

According to the energy storage battery cabinet provided by the utility model, the storage rack 4 capable of being moved out of the battery cabinet 1 and the transmission component and the moving-out component for driving the storage rack 4 to be moved out of the battery cabinet 1 are arranged on the battery cabinet 1, when the device is used, the motor 11 in the transmission component is started, the moving screw 5 in the transmission component is driven to drive the storage rack 4 to be moved out of the battery cabinet 1 through the fixing seat 8 under the cooperation of the moving-out component, so that a battery pack with a large volume and a heavy weight is conveniently placed on the storage rack 4, the complicated operation of a worker is reduced, the efficiency of installing the battery pack is further improved, the installation and adjustment of the battery pack are facilitated, and the applicability of the device is further improved.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Example 1:

referring to fig. 1-3, an energy storage battery cabinet includes: the battery cabinet 1, one side of one end of the battery cabinet 1 is provided with a cabinet door 2, and the bottom of the inner side of the battery cabinet 1 and one end close to the cabinet door 2 are fixedly connected with a transmission box 3; the placing frame 4 is arranged on the inner side of the battery cabinet 1 and is positioned at the top end of the transmission box 3, the placing frame 4 is in sliding connection with the battery cabinet 1 and the transmission box 3, and a moving-out assembly is arranged at the bottom end of the placing frame 4; the transmission assembly is arranged at the position inside the transmission box 3, and the transmission assembly and the moving-out assembly are both used for being matched with the placing frame 4.

Referring to fig. 2 and 3, the transmission assembly comprises a moving screw 5, a connecting column 6, a threaded sleeve 7 and a fixing seat 8, the moving screw 5 is arranged at the center of the inner side of the battery cabinet 1 for conveniently driving the placing frame 4 to move, one end, close to the transmission box 3, of the moving screw 5 is fixedly connected with the connecting column 6, one end, far away from the moving screw 5, of the connecting column 6 is rotationally connected with the transmission box 3, one end, far away from the transmission box 3, of the moving screw 5 is rotationally connected with the battery cabinet 1, the outer side, far away from the transmission box 3, of the moving screw 5 is in threaded connection with the threaded sleeve 7, the outer side of the threaded sleeve 7 is rotationally connected with the fixing seat 8, and the top end of the fixing seat 8 is fixedly connected with the placing frame 4. For conveniently driving the movable screw 5 to rotate, the transmission assembly further comprises a large bevel gear 9, a fixed box 10, a motor 11 and a small bevel gear seat 12, the large bevel gear 9 is fixedly connected to the outer side of one end, far away from the threaded sleeve 7, of the connecting column 6, the fixed box 10 is fixedly connected to one side of the inner side of the transmission box 3, the motor 11 is arranged on the inner side of the fixed box 10, the small bevel gear seat 12 is rotatably connected to one side, close to the movable screw 5, of the fixed box 10, for conveniently driving the large bevel gear 9 to rotate, the small bevel gear seat 12 is in meshed connection with the large bevel gear 9, for conveniently driving the small bevel gear seat 12 to rotate, and the output end of the motor 11 penetrates through the fixed box 10 and is fixedly connected with the small bevel gear seat 12.

The energy storage battery cabinet that this embodiment provided has realized installing the semi-automatization process in battery cabinet 1 with the battery through simple screw drive and linear motion, has further reduced the loaded down with trivial details operation of staff's installation group battery, has improved work efficiency, and makes things convenient for the installation and the regulation of group battery through the structural design of rack 4, has further improved the result of use of device.

Example 2:

to the further optimization of the energy storage battery cabinet that embodiment 1 provided, specifically, as shown in fig. 2, 4, for conveniently drive rack 4 remove and support rack 4, shift out the subassembly and include fixed disc 13, shift out seat 14, fixed column 15 and shift out column 16, shift out column 16 and rotate seat 17 and ground and keep moving perpendicularly for rack 4 when removing, the bottom that rack 4 is close to transmission box 3 one end both sides all rotates and is connected with fixed disc 13, the bottom of fixed disc 13 all fixedly connected with shifts out seat 14, shift out the top of the inboard of seat 14 all fixedly connected with fixed column 15, the outside of fixed column 15 all rotates and is connected with and shifts out column 16. The subassembly that shifts out still includes rotating seat 17, remove round 18, fixed block 19 and spacing 23, the bottom that shifts out post 16 all rotates and is connected with rotating seat 17, the inboard that rotates the bottom of seat 17 all rotates through the pivot and is connected with and remove round 18, the bottom that shifts out the fixed column 15 one end both sides of seat 14 is all fixedly connected with fixed block 19, after shifting out subassembly roll-off battery cabinet 1, in order to conveniently shift out post 16 and remove round 18 and keep perpendicular with ground, the bottom that shifts out the inboard of seat 14 is all fixedly connected with spacing 23, the one end that spacing 23 is close to shifting out post 16 all laminates mutually with shifting out post 16. The moving-out assembly further comprises a connecting bar 20, rebound blocks 21 and shrinkage springs 22, wherein the connecting bar 20 is fixedly connected between the corresponding fixing blocks 19, the rebound blocks 21 are fixedly connected to the positions, close to one end of the connecting bar 20, of the moving-out column 16 corresponding to the connecting bar 20, shrinkage springs 22 are arranged between the corresponding connecting bar 20 and the rebound blocks 21, one ends of the shrinkage springs 22 are fixedly connected with the corresponding connecting bars 20, and the other ends of the shrinkage springs 22 are fixedly connected with the corresponding rebound blocks 21.

Through above-mentioned structural design, convenient rack 4 is more convenient and fast when shifting out battery cabinet 1, is convenient for support and stabilize it behind placing the battery of heavy weight on rack 4, further improves the result of use of device.

Example 3:

the energy storage battery cabinet provided in embodiment 1 is further optimized, specifically, as shown in fig. 1 and 5, a plurality of air outlet grooves 24 are formed in two sides of the battery cabinet 1, circulating fans 25 are arranged in two sides of the top end of the inner side of the battery cabinet 1, and dust-proof nets 26 are fixedly connected to positions, corresponding to the circulating fans 25, of the top end of the battery cabinet 1.

Through above-mentioned structural design, be convenient for adjust the air flow and the difference in temperature problem in the battery cabinet 1, conveniently blow out battery cabinet 1 with the heat that the battery produced, keep the constancy of temperature in the battery cabinet 1, increase the life of battery in the device.

The use process of the energy storage battery cabinet provided by the utility model is as follows: the device is connected with an external power supply, the motor 11 is started, the output end of the motor 11 drives the bevel pinion seat 12 to rotate, then the bevel pinion seat 12 drives the bevel gear 9 and the connecting column 6 to rotate, the connecting column 6 drives the moving screw 5 to rotate, and then the threaded sleeve 7 is driven to move on the moving screw 5 towards the direction of the transmission box 3, the fixing seat 8 drives the placement frame 4 to move out of the battery cabinet 1, after the placement frame 4 moves to a certain distance towards the direction of the transmission box 3, the moving wheel 18 is not in contact with the battery cabinet 1, and then the moving wheel 18 is pulled towards the direction of the fixing block 19 through the elastic force characteristic of the contraction spring 22, so that the moving wheel 18 is attached to the limiting strip 23 through the fixing column 15, further the moving column 16 and the rotating seat 17 are kept perpendicular to the ground, and then the fixing disc 13 is sequentially rotated, so that the moving force of the placement frame 4 and the contraction force of the contraction spring 22 are not in one direction, and then the moving wheel 18 can not drive the moving column 16 to rotate through the fixing column 15 when moving, and then the placement frame 4 is moved out of the battery cabinet 4, and after the placement frame 4 is completely moved from the battery cabinet 1, the placement frame 4 is installed.

Claims (7)

1. An energy storage battery cabinet, characterized in that it comprises:

the battery cabinet (1), one side of one end of the battery cabinet (1) is provided with a cabinet door (2), and one end, close to the cabinet door (2), of the bottom of the inner side of the battery cabinet (1) is fixedly connected with a transmission box (3);

the storage rack (4) is arranged on the inner side of the battery cabinet (1) and is positioned at the top end of the transmission box (3), the storage rack (4) is in sliding connection with the battery cabinet (1) and the transmission box (3), and a moving-out assembly is arranged at the bottom end of the storage rack (4);

the transmission assembly is arranged at the position inside the transmission box (3), and the transmission assembly and the moving-out assembly are both used for being matched with the placing frame (4).

2. The energy storage battery cabinet according to claim 1, wherein the transmission assembly comprises a movable screw (5), a connecting column (6), a threaded sleeve (7) and a fixed seat (8), the movable screw (5) is arranged at the center position of the inner side of the battery cabinet (1), one end, close to the transmission box (3), of the movable screw (5) is fixedly connected with the connecting column (6), one end, far away from the movable screw (5), of the connecting column (6) is rotationally connected with the transmission box (3), one end, far away from the transmission box (3), of the movable screw (5) is rotationally connected with the battery cabinet (1), the outer side, far away from one end of the transmission box (3), of the movable screw (5) is rotationally connected with the threaded sleeve (7), the outer side of the threaded sleeve (7) is rotationally connected with the fixed seat (8), and the top end of the fixed seat (8) is fixedly connected with the rack (4).

3. The energy storage battery cabinet according to claim 2, wherein the transmission assembly further comprises a large bevel gear (9), a fixed box (10), a motor (11) and a small bevel gear seat (12), the large bevel gear (9) is fixedly connected to the outer side of one end of the connecting column (6) away from the threaded sleeve (7), the fixed box (10) is fixedly connected to one side of the inner side of the transmission box (3), the motor (11) is arranged on the inner side of the fixed box (10), the small bevel gear seat (12) is rotatably connected to one side of the fixed box (10) close to the movable screw (5), one side of the small bevel gear seat (12) close to the connecting column (6) is connected with the large bevel gear seat (9) in a meshed mode, and the output end of the motor (11) penetrates through the fixed box (10) and is fixedly connected with the small bevel gear seat (12).

4. The energy storage battery cabinet according to claim 1, wherein the moving-out assembly comprises a fixed disc (13), a moving-out seat (14), fixed columns (15) and moving-out columns (16), the bottom ends of the two sides of one end of the rack (4) close to the transmission box (3) are rotationally connected with the fixed disc (13), the bottom ends of the fixed disc (13) are fixedly connected with the moving-out seat (14), the top ends of the inner sides of the moving-out seat (14) are fixedly connected with the fixed columns (15), and the outer sides of the fixed columns (15) are rotationally connected with the moving-out columns (16).

5. The energy storage battery cabinet according to claim 4, wherein the moving-out assembly further comprises a rotating seat (17), a moving wheel (18), a fixed block (19) and a limiting strip (23), the bottom ends of the moving-out columns (16) are all rotationally connected with the rotating seat (17), the inner sides of the bottom ends of the rotating seat (17) are all rotationally connected with the moving wheel (18) through a rotating shaft, the bottom ends of the moving-out seats (14) far away from one end two sides of the fixed column (15) are all fixedly connected with the fixed block (19), the bottom ends of the inner sides of the moving-out seats (14) are all fixedly connected with the limiting strip (23), and one ends of the limiting strip (23) close to the moving-out columns (16) are all attached to the moving-out columns (16).

6. The energy storage battery cabinet according to claim 5, wherein the moving-out assembly further comprises a connecting bar (20), rebound blocks (21) and a contraction spring (22), the connecting bars (20) are fixedly connected between the corresponding fixing blocks (19), the rebound blocks (21) are fixedly connected between positions, which are close to one ends of the connecting bars (20) and correspond to the connecting bars (20), of the moving-out column (16), the contraction spring (22) is arranged between the corresponding connecting bars (20) and the rebound blocks (21), one ends of the contraction spring (22) are fixedly connected with the corresponding connecting bars (20), and the other ends of the contraction spring (22) are fixedly connected with the corresponding rebound blocks (21).

7. The energy storage battery cabinet according to claim 1, wherein a plurality of air outlet grooves (24) are formed in two sides of the battery cabinet (1), circulating fans (25) are arranged in two sides of the top end of the inner side of the battery cabinet (1), and dust screens (26) are fixedly connected to positions, corresponding to the circulating fans (25), of the top end of the battery cabinet (1).