CN117377259B - Power grid electric power energy storage equipment cabin device - Google Patents

Abstract

The invention discloses a power grid power energy storage equipment cabin device, and relates to the technical field of power energy storage. Including the cabin body, the energy storage equipment is installed to the inside of the cabin body by the bottom, the hatch door is installed in the front portion rotation of the cabin body, the inside of the cabin body is provided with three fast-assembling structure, the fast-assembling structure includes mounting rail and a plurality of mounting panel, mounting rail fixed mounting is in the inner wall rear portion of the cabin body, a plurality of the mounting panel is installed in the front portion of mounting rail, the straight flute has been seted up to the inside of mounting rail, the internally mounted of mounting rail has the reinforcing plate, tooth piece is installed in the front portion of reinforcing plate, be connected with a plurality of spring one between the rear portion of reinforcing plate and the straight flute, spout one has been seted up in the front portion of mounting rail run through the straight flute, a plurality of the equal fixed mounting of spout one has the installation piece in the rear portion of mounting panel. Through the fast-assembling structure, can install relevant device on the mounting panel fast to install the mounting panel fast on the mounting rail.

Description

Power grid electric power energy storage equipment cabin device

Technical Field

The invention relates to the technical field of power energy storage, in particular to a power grid power energy storage equipment cabin device.

Background

The power grid power energy storage equipment cabin is a closed cabin body structure for installing and integrating power energy storage equipment, is commonly used for bearing, protecting and connecting various types of power energy storage equipment, such as a storage battery pack, a super capacitor, a hydrogen energy storage system and the like, and is often placed in an outdoor environment to maintain smooth operation of a power grid in a certain area.

Chinese patent publication No. CN116454767a discloses a grid power energy storage equipment compartment system. The power grid power energy storage equipment cabin system comprises an energy storage equipment cabin, a cooling cover, a cooling system, an air guide assembly, a first temperature control assembly and a second temperature control assembly. The problems of unbalanced wind speed, insufficient refrigerating effect and the like caused by pressure difference are avoided, but the internal devices are complex to assemble and disassemble and are unfavorable for the quick assembly and disassembly of the devices, so that the devices are further damaged due to untimely disassembly when the devices need to be maintained, and the internal space of the cabin is narrow, so that the internal operation is inconvenient during the installation and maintenance, and the installation and maintenance efficiency is reduced. Therefore, the invention provides a power grid power energy storage equipment cabin device.

Disclosure of Invention

The invention mainly aims to provide a power grid power energy storage equipment cabin device which can effectively solve the technical problems in the background technology.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a grid electric power energy storage equipment cabin device, includes the cabin body, the inside of cabin body is by the bottom installation energy storage equipment, the front portion of cabin body rotates installs the hatch door, the inside of cabin body is provided with three fast-assembling structures;

the fast-assembling structure includes mounting rail and a plurality of mounting panel, mounting rail fixed mounting is in the inner wall rear portion of the cabin body, and a plurality of the mounting panel is installed in the front portion of mounting rail, the straight flute has been seted up to the inside of mounting rail, the internally mounted of mounting rail has the gusset plate, the tooth piece is installed in the front portion of gusset plate, be connected with a plurality of spring one between the rear portion of gusset plate and the straight flute, spout one has been seted up in the front portion of mounting rail run through the straight flute, a plurality of the equal fixed mounting of spout one has the installation piece is run through to the rear portion of mounting panel, the movable slot has all been seted up in the top and the bottom of installation piece, two the movable block is all installed to the inside of movable slot, be connected with spring two between movable block and the movable slot, the tooth groove has been seted up at the rear portion of installation piece, tooth groove and tooth piece adaptability match.

As a further scheme of the invention, the mounting block and the mounting plate are provided with two through grooves I in a penetrating way, the front parts of the two movable blocks respectively penetrate through the two through grooves I, and the dismounting plate is L-shaped.

As a further scheme of the invention, the longitudinal length of the first sliding groove is smaller than that of the straight groove, the longitudinal length of the mounting block is consistent with that of the first sliding groove, and the integral longitudinal lengths of the mounting block and the two movable blocks are consistent with that of the straight groove.

As a further scheme of the invention, three advancing structures are symmetrically arranged on two sides of the cabin body, each advancing structure comprises two first chains and two second chain wheels, a limit groove is formed in one side of the cabin body, which is located on one side of the installation rail, two rotating shafts are rotatably arranged on two sides of the installation rail, two first chain wheels are rotatably arranged on one side of the cabin body, which is located on the top and the bottom of the limit groove, two first chain wheels are respectively sleeved between the four first chain wheels, the second chain wheels are located between the two first chain wheels, the second chain wheels are connected with the two first chain wheels in a meshed mode, one end, close to one side, of the rotating shaft penetrates through the limit groove, is connected with the side face of the second chain wheels, two fourth chain wheels are rotatably arranged between the two first chain wheels, the two fourth chain wheels are respectively connected with the two first chain wheels in a meshed mode, gears are fixedly arranged on one side of the two fourth chain wheels, and the two gears are meshed with each other.

As a further scheme of the invention, synchronous control structures are arranged near the front parts of two sides of the cabin body, each synchronous control structure comprises three chain wheels three and three rotating blocks, the three chain wheels three are fixedly arranged on one sides of three gears respectively, the three rotating blocks are rotatably arranged on one sides of the three chain wheels three respectively, a fixed pipe is arranged at the central position of one side of each rotating block, a rotating handle is fixedly arranged at the central position of one side of each chain wheel three in a penetrating way, a threaded groove is formed near one end of the outer surface of each rotating handle, the rotating handles are in threaded connection with the fixed pipe through the threaded groove, a plurality of sliding grooves II are formed in one side of each chain wheel three in a penetrating way, a plurality of guide blocks are arranged in the inner parts of the through grooves II and are communicated with the through grooves II, shafts are fixedly arranged on one sides of the guide blocks respectively penetrating through the arc grooves, one ends of the guide blocks respectively penetrate through the through grooves II and are connected with a shrink ring together, and the outer surfaces of the shrink rings are provided with the shrink rings together.

As a further scheme of the invention, the length of the thread groove is consistent with that of the arc groove, and the length of the second chute is consistent with that of the arc groove.

As a further scheme of the invention, three contraction rings are all in meshed connection with the second chain, and the thread direction of the thread groove is clockwise.

As a further scheme of the invention, the bottom heights of the mounting plates close to the bottom are higher than the top height of the energy storage device, and the two sides of the cabin body are provided with heat dissipation meshes.

As a further aspect of the invention, the diameter of the gears is larger than the diameter of the sprocket four, and the other side of the two gears is not in contact with one side of the two chains.

The beneficial effects of the invention are as follows:

through setting up fast-assembling structure, can install the mounting panel fast on the relevant device to install the mounting panel fast on the mounting rail, when needing maintenance or change certain device, also can dismantle rapidly, saved maintenance and change time, because fast-assembling structure allows the device of quick dismantlement trouble, maintenance personnel can repair and maintain the operation more rapidly, thereby reduced equipment downtime and production interruption, through fast-assembling structure's quick dismantlement, can in time maintain the trouble device, can avoid the condition that the trouble device leads to other devices to further damage, the security and the reliability of protection equipment.

The cabin body inner space is narrow and small, the personnel operation mounting plate can be limited, the mounting rail is driven to move to the position close to the front of the cabin body through the set forward moving structure, a more convenient working space is provided for the operation of the fast-assembling structure, personnel can operate in a wider area, and the convenience of installation is improved.

When all devices are assembled, the three quick-assembly structures are required to be moved to the inner front position, and if the three forward-movement structures are started one by one, the operation becomes complicated; through the synchronous control structure who sets up, operating personnel only need rotate one and rotate the handle, just can drive chain and shrink ring and rotate together, and then drive three forward structure synchronous movement, the operating procedure who starts forward structure one by one has been saved like this, make the operation of whole device more convenient and high-efficient, synchronous control structure's design makes the operation more high-efficient, and can drive three forward structure simultaneously, and then drive three fast-assembling structure and remove, thereby the time of installation has been reduced, through reducing operating procedure and realizing synchronous operation, the installation of device is more rapid, work efficiency has been improved, through synchronous control structure's design, can ensure that the action of three forward structure is synchronous completely, the error on the operation has been avoided, consequently, can ensure the accuracy and the stability of device installation.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a power grid power energy storage equipment compartment device according to the present invention;

FIG. 2 is a schematic diagram of a quick assembly structure of a power grid power energy storage equipment compartment device according to the present invention;

FIG. 3 is a drawing showing the analysis and disassembly of the mounting rail and the fixed plate structure of the power grid power energy storage equipment compartment device;

FIG. 4 is a diagram showing the analysis and disassembly of the structure of a mounting block of the power grid power energy storage equipment cabin device;

FIG. 5 is a schematic view of an advancing structure of a power grid power storage equipment compartment device according to the present invention;

FIG. 6 is an enlarged view of section A of FIG. 5 of a grid power energy storage equipment compartment apparatus of the present invention;

FIG. 7 is a schematic diagram of a synchronous control structure of a power grid power energy storage equipment compartment device according to the present invention;

FIG. 8 is a split view of a synchronous control structure of a power grid power storage equipment compartment device according to the present invention;

FIG. 9 is a schematic diagram of a rotating block structure of a cabin device of a power grid power storage device according to the present invention;

FIG. 10 is a schematic diagram of the structure of a sprocket three and a shrink ring of a power grid power storage equipment compartment device according to the present invention;

FIG. 11 is a schematic diagram of three chain wheels of a power grid power energy storage equipment compartment device;

fig. 12 is a schematic view of a shrink ring structure of a power grid power energy storage equipment compartment device according to the present invention.

In the figure: 1. a cabin body; 2. an energy storage device; 3. a cabin door; 4. a quick-mounting structure; 5. a forward moving structure; 6. a synchronous control structure; 7. a mounting rail; 8. a mounting plate; 9. a second chain; 10. a reinforcing plate; 11. a first chute; 12. a first spring; 13. tooth blocks; 14. a mounting block; 15. tooth slots; 16. a movable groove; 17. a movable block; 18. a second spring; 19. a first through groove; 20. disassembling the plate; 21. a limit groove; 22. a rotating shaft; 23. a sprocket I; 24. a first chain; 25. a second chain wheel; 26. a gear; 27. a sprocket III; 28. a rotating block; 29. a second chute; 30. a second through groove; 31. an arc-shaped groove; 32. a guide block; 33. a shrink ring; 34. a fixed tube; 35. rotating the handle; 36. a thread groove; 37. and a chain wheel IV.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1

As shown in fig. 1-12, the power grid electric power energy storage equipment cabin device comprises a cabin body 1, wherein energy storage equipment 2 is installed at the bottom of the cabin body 1, a cabin door 3 is rotatably installed at the front part of the cabin body 1, and three quick-mounting structures 4 are arranged in the cabin body 1;

the fast-assembling structure 4 includes mounting rail 7 and a plurality of mounting panel 8, mounting rail 7 fixed mounting is in the inner wall rear portion of the cabin body 1, a plurality of mounting panel 8 are installed in the front portion of mounting rail 7, the straight flute has been seted up to the inside of mounting rail 7, the internally mounted of mounting rail 7 has gusset plate 10, tooth piece 13 is installed in the front portion of gusset plate 10, be connected with a plurality of first spring 12 between the rear portion of gusset plate 10 and the straight flute, spout 11 has been seted up in the front portion of mounting rail 7, the equal fixed mounting of spout 11 has installation piece 14 in the rear portion of a plurality of mounting panel 8, movable slot 16 has all been seted up in the top and the bottom of installation piece 14, movable block 17 has all been installed to the inside of two movable slots 16, be connected with spring two 18 between movable block 17 and the movable slot 16, tooth groove 15 has been seted up at the rear portion of installation piece 14, tooth groove 15 and tooth piece 13 adaptability match.

In the embodiment, the mounting block 14 and the mounting plate 8 are provided with two through grooves 19 in a penetrating way, the front parts of the two movable blocks 17 respectively penetrate through the two through grooves 19 and are provided with a dismounting plate 20, and the dismounting plate 20 is L-shaped;

by moving the two dismounting plates 20 towards each other, the two movable blocks 17 can be driven to enter the two movable grooves 16 respectively, so that the two movable blocks 17 can not pass through the first slide groove 11 and the mounting rail 7 any more, and the mounting plate 8 can be pulled outwards at this time, so that the mounting plate 8 is dismounted.

In this embodiment, the longitudinal length of the first chute 11 is smaller than the longitudinal length of the straight chute, the longitudinal length of the mounting block 14 is identical to the longitudinal length of the first chute 11, and the overall longitudinal length of the mounting block 14 and the two movable blocks 17 is identical to the longitudinal length of the straight chute.

In this embodiment, three forward moving structures 5 are symmetrically arranged on two sides of the cabin body 1, each forward moving structure 5 comprises two first chains 24 and two second chain wheels 25, a limit groove 21 is formed in one side of the cabin body 1, which is located on one side of the installation rail 7, two rotating shafts 22 are rotatably arranged on two sides of the installation rail 7, two first chain wheels 23 are rotatably arranged on one side of the cabin body 1, which is located on the top and bottom of the limit groove 21, respectively, the two first chain wheels 24 are sleeved between the four first chain wheels 23, the two second chain wheels 25 are located between the two first chain wheels 24, the second chain wheels 25 are in meshed connection with the two first chain wheels 24, one end, which is close to one rotating shaft 22, penetrates through the limit groove 21, is connected with the side face of the second chain wheels 25, two fourth chain wheels 37 are rotatably arranged between the two first chain wheels 24, the two fourth chain wheels 37 are in meshed connection with the two first chain wheels 24, gears 26 are fixedly arranged on one sides of the two fourth chain wheels 37, and the two gears 26 are meshed with each other;

through rotating gear 26 for two gears 26 rotate together, and then drive two sprocket four 37 and rotate together, and two sprocket four 37 changes the opposite direction, and then drive two chain one 24 and rotate along the opposite direction each other, consequently, the rotation direction that makes the looks that is close to the part of two chain one 24 is unanimous, at this moment, the rotation of two chain one 24 can drive sprocket two 25 and remove together with pivot 22 and mounting rail, can make fast-assembling structure 4 by the removal, make fast-assembling structure 4 by the inside of removing to cabin 1 near the front portion, make fast-assembling structure 4's operating space grow, make personnel need not operate fast-assembling structure 4 in narrow cabin 1 inside, the installation convenience of device has been promoted.

In this embodiment, the synchronous control structure 6 is disposed near the front of two sides of the cabin 1, the synchronous control structure 6 includes three sprockets three 27 and three rotating blocks 28, the three sprockets three 27 are respectively and fixedly mounted on one side of the three gears 26, the three rotating blocks 28 are respectively and rotatably mounted on one side of the three sprockets three 27, a fixed tube 34 is mounted at a central position of one side of the rotating block 28, a rotating handle 35 is fixedly mounted through the rotating block 28 at a central position of one side of the sprocket three 27, a threaded groove 36 is formed near one end of the outer surface of the rotating handle 35, the rotating handle 35 is in threaded connection with the fixed tube 34 through the threaded groove 36, a plurality of sliding grooves two 29 are formed through one side of the sprocket three 27, a plurality of through grooves two 30 are formed through the inner surface of the sprocket three 27, guide blocks 32 are respectively mounted in the inner portions of the plurality of through grooves two 30, the sliding grooves two 29 are communicated with the through grooves two 30, a plurality of arc grooves 31 are respectively and fixedly mounted with shafts, one ends of the plurality of guide blocks 32 respectively penetrate through the plurality of through grooves two 30 to be commonly connected with a shrink ring 33, and the common outer surface of the shrink ring 33 is provided with a common chain 9;

the fixed pipe 34 is rotated clockwise to drive the rotating block 28 to rotate, the arc grooves 31 rotate to guide the guide shafts to move along the second sliding groove 29, and then the guide blocks 32 are driven to move along the second sliding groove 30, so that the contraction rings 33 of the guide blocks are expanded outwards, when the fixed pipe 34 is in complete threaded connection with the threaded grooves 36, the rotation angle of the fixed pipe 34 is fixed, the contraction rings 33 are in the maximum expansion state, the contraction rings 33 are meshed with the second chain 9, the other two fixed pipes 34 operate in the same step, at the moment, one rotating handle 35 is rotated, the second chain 9 can be driven to rotate, the three contraction rings 33 are driven to rotate together with the three chain wheels three 27 one by one, then the three gears 26 are driven to rotate together, and all gears 26 on the same side are driven to rotate together, so that the three forward moving structures 5 are synchronously operated, when relevant devices of a power grid power storage equipment cabin device are installed through the fast moving structures 4, the forward moving structures 5 are not required to be started, the operation of the device is convenient and efficient, and the installation duration of the device is shortened.

In this embodiment, the length of the thread groove 36 is consistent with the length of the arc groove 31, and the length of the second chute 29 is consistent with the length of the arc groove 31, so that the operation accuracy of the synchronous control structure 6 is ensured.

In this embodiment, the three shrink rings 33 are engaged with the second chain 9, and the thread direction of the thread groove 36 is clockwise.

In this embodiment, the bottom of the mounting plates 8 near the bottom is higher than the top of the energy storage device 2, and both sides of the cabin 1 are provided with heat dissipation meshes.

In this embodiment, the diameter of the gears 26 is larger than the diameter of the sprocket four 37, and the other side of the two gears 26 is not in contact with one side of the two chains one 24.

It should be noted that, the invention relates to a power grid power energy storage equipment cabin device, when in use, related devices of the power grid power energy storage equipment cabin device are respectively installed on a plurality of installation plates 8 through screw installation, wherein the related devices of the power grid power energy storage equipment cabin device comprise, but are not limited to, an inverter, a direct current-direct current converter and the like, then the installation plates 8 of the power grid power energy storage equipment cabin device are quickly installed on the installation rails 7 through a quick-mounting structure 4, when one device breaks down and needs to be maintained, the device can be quickly detached through the quick-mounting structure 4, so that the maintenance duration of the device is reduced, and the condition that the device is further damaged due to untimely maintenance is avoided.

The operation steps of the quick-assembly structure 4 are that the mounting block 14 is aligned to the first slide groove 11 and is inserted, as the rear part of the movable block 17 is an inclined plane, the mounting block 14 is extruded and respectively enters the inside of the two movable grooves 16 in the inserting process, at the moment, the two springs II 18 are compressed, when the two movable grooves 16 completely enter the inside of the straight groove, the two springs II 18 rebound to drive the two movable blocks 17 to move, so that the two movable blocks 17 are clamped with the mounting rail 7, the mounting plate 8 is fixedly completed, the reinforcing plate 10 is pushed to move while the mounting block 14 moves, the first springs 12 are compressed, after the mounting plate 8 is fixedly completed, the first springs 12 rebound, the tooth blocks 13 on the reinforcing plate 10 are mutually clamped with the tooth grooves 15 on the mounting block 14, the mounting block 14 is further fixedly bottomed, namely the mounting plate 8 is reinforced, when the mounting plate 8 is required to be dismounted, the two dismounting plates 20 are moved towards each other, the two movable blocks 17 are driven to respectively enter the inside of the two movable grooves 16, the first springs II 17 are not clamped with the first movable blocks 7, and the mounting plate 8 is not pulled to be clamped with the first slide groove 8, and the mounting plate 8 is dismounted.

Because the installation operation space inside the cabin body 1 is narrow, the rapid installation operation of the installation plate 8 is not facilitated, so that the forward moving structure 5 can be used, so that the installation rail 7 moves to a position near the front inside the cabin body 1, and the rapid installation structure 4 is convenient to operate at the moment.

The operation steps of the advancing structure 5 are that through rotating the gear 26, the two gears 26 rotate together, and then drive the two chain wheels four 37 to rotate together, and the rotation directions of the two chain wheels four 37 are opposite, and then drive the two chains one 24 to rotate along the opposite directions, so that the rotation directions of the approaching parts of the two chains one 24 are consistent, at the moment, the rotation of the two chains one 24 can drive the chain wheels two 25 to move together with the rotating shaft 22 and the mounting rail, so that the quick-mounting structure 4 can be moved, the quick-mounting structure 4 is moved to the inner front part of the cabin body 1, the operation space of the quick-mounting structure 4 is enlarged, and personnel do not need to operate the quick-mounting structure 4 in the narrow cabin body 1, so that the installation convenience of the device is improved.

Since the three quick-mounting structures 4 need to be moved to the inner front position when all devices are assembled, the three forward moving structures 5 need to be started, and if the three forward moving structures 5 are started one by one, the operation is complicated, so that the synchronous control structure 6 can be started, and the three forward moving structures 5 can operate simultaneously.

The synchronous control structure 6 has the operation steps that the fixed pipe 34 is rotated clockwise to drive the rotating block 28 to rotate, the arc grooves 31 rotate to guide the guide shafts to move along the second chute 29, the guide blocks 32 are driven to move through the second chute 30, the contraction rings 33 of the guide blocks are expanded outwards, when the fixed pipe 34 is in complete threaded connection with the threaded grooves 36, the rotation angle of the fixed pipe 34 is fixed, the contraction rings 33 are in the maximum expansion state, at the moment, the contraction rings 33 are meshed with the second chain 9, the other two fixed pipes 34 are operated in the same step, at the moment, one rotating handle 35 is rotated, the second chain 9 can be driven to rotate, the three contraction rings 33 are driven to rotate together with the three sprockets three 27, the gears 26 are driven to rotate together, and all the gears 26 on the same side are driven to rotate together, so that the three forward moving structures 5 are operated synchronously, when the electric power storage equipment cabin devices are installed through the fast-installing structures 4, the forward moving structures 5 are not required to be started one by one, therefore the operation of the power grid power storage equipment cabin device is enabled to be more efficient, and the installation duration of the power grid power storage equipment is reduced conveniently.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a electric wire netting electric power energy storage equipment cabin device, includes the cabin body (1), energy storage equipment (2) are installed to the inside of cabin body (1) by the bottom, hatch door (3), its characterized in that are installed in the front portion rotation of cabin body (1): three quick-mounting structures (4) are arranged in the cabin body (1);

the quick-mounting structure (4) comprises a mounting rail (7) and a plurality of mounting plates (8), wherein the mounting rail (7) is fixedly mounted at the rear part of the inner wall of the cabin body (1), the mounting plates (8) are mounted at the front part of the mounting rail (7), a straight groove is formed in the mounting rail (7), a reinforcing plate (10) is mounted in the mounting rail (7), a tooth block (13) is mounted at the front part of the reinforcing plate (10), a plurality of first springs (12) are connected between the rear part of the reinforcing plate (10) and the straight groove, a first sliding groove (11) is formed in the front part of the mounting rail (7) in a penetrating manner, a plurality of first mounting blocks (14) are fixedly mounted at the rear part of the mounting plate (8) in a penetrating manner, movable grooves (16) are formed in the top and the bottom of the mounting blocks (14), movable blocks (17) are mounted in the inner parts of the two movable grooves (16), a second spring block (18) is connected between the movable blocks (17) and the movable grooves (16), and the tooth blocks (15) are formed in a matching manner;

three forward moving structures (5) are symmetrically arranged on two sides of the cabin body (1), each forward moving structure (5) comprises two first chains (24) and two second chain wheels (25), a limit groove (21) is formed in one side of the cabin body (1) located on one side of the installation rail (7), rotating shafts (22) are rotatably arranged on two sides of the installation rail (7), two first chain wheels (23) are rotatably arranged on one side of the cabin body (1) located on the top and the bottom of the limit groove (21), two first chain wheels (24) are respectively sleeved between the four first chain wheels (23), the second chain wheels (25) are located between the two first chain wheels (24), the second chain wheels (25) are in meshed connection with the two first chain wheels (24), one end, close to one side, of the rotating shaft (22) penetrates through one side of the limit groove (21) and is connected with the side face of the second chain wheels (25), two fourth chain wheels (37) are rotatably arranged between the two first chain wheels (24), and two fourth chain wheels (37) are fixedly meshed with the two first chain wheels (26);

the utility model discloses a cabin body, which is characterized in that synchronous control structures (6) are arranged near the front parts of two sides of the cabin body (1), each synchronous control structure (6) comprises three chain wheels (27) and three rotating blocks (28), the three chain wheels (27) are respectively and fixedly arranged on one sides of three gears (26), the three rotating blocks (28) are respectively and rotatably arranged on one sides of the three chain wheels (27), a fixed pipe (34) is arranged at the center position of one side of each rotating block (28), a rotating handle (35) is fixedly arranged at the center position of one side of each chain wheel (27) in a penetrating way, a thread groove (36) is formed near one end of the outer surface of each rotating handle (35), each rotating handle (35) is in threaded connection with the corresponding fixed pipe (34) through the thread groove (36), a plurality of sliding grooves (29) are formed in a penetrating way on one side of each chain wheel (27), a plurality of through grooves (30) are formed in the inner penetrating way of the outer surface of each chain wheel (27), guide blocks (32) are respectively arranged in the inner parts of the through grooves (30), guide blocks (32) are respectively and are fixedly connected with one side of the guide blocks (32), one end of each guide block (32) penetrates through each through groove II (30) to be connected with a shrinkage ring (33) together, and the outer surfaces of the shrinkage rings (33) are sleeved with chains II (9) together.

2. A grid power energy storage equipment compartment apparatus as claimed in claim 1, wherein: the mounting block (14) and the mounting plate (8) are provided with two through grooves (19) in a penetrating mode, the front parts of the two movable blocks (17) respectively penetrate through the two through grooves (19) to be provided with a dismounting plate (20), and the dismounting plate (20) is L-shaped.

3. A grid power energy storage equipment compartment apparatus as claimed in claim 1, wherein: the longitudinal length of the first sliding groove (11) is smaller than that of the straight groove, the longitudinal length of the mounting block (14) is consistent with that of the first sliding groove (11), and the integral longitudinal lengths of the mounting block (14) and the two movable blocks (17) are consistent with that of the straight groove.

4. A grid power energy storage equipment compartment apparatus as claimed in claim 1, wherein: the length of the thread groove (36) is consistent with that of the arc groove (31), and the length of the second sliding groove (29) is consistent with that of the arc groove (31).

5. A grid power energy storage equipment compartment apparatus as claimed in claim 1, wherein: the three contraction rings (33) are all connected with the second chain (9) in a meshed mode, and the thread direction of the thread groove (36) is clockwise.

6. A grid power energy storage equipment compartment apparatus as claimed in claim 1, wherein: the bottom of a plurality of mounting plates (8) close to the bottom is higher than the top of the energy storage equipment (2), and radiating meshes are formed in two sides of the cabin body (1).

7. A grid power energy storage equipment compartment apparatus as claimed in claim 1, wherein: the diameter of the gears (26) is larger than that of the four chain wheels (37), and the other side of the two gears (26) is not contacted with one side of the two chains (24).