CN215731942U - Container type battery energy storage device - Google Patents

Abstract

The utility model provides a container type battery energy storage device, which comprises an installation structure; the bottom surface of the box body structure is a rectangular structure, the box body structure is fixedly clamped on the mounting structure, the outer wall of the box body structure is fixedly clamped with a climbing structure, and the tops of the left end and the right end of the box body structure are respectively provided with an auxiliary structure; the temperature control structures are arranged in two groups, each group of temperature control structure is arranged at the left end and the right end of the box body structure, and a vertical spacing structure is fixed in the box body structure; the detection structure is fixed inside the box body structure; the standardized size has been adopted to the box structure, allows ocean and highway transportation, can hoist and mount through overhead crane, and the mobility is strong, does not receive the region restriction, and container energy storage system can carry out batch production, directly assembles the debugging in the workshop, has practiced thrift the construction and the fortune dimension cost of engineering greatly to realize the accident and keep apart.

Description

Container type battery energy storage device

Technical Field

The utility model belongs to the technical field of power equipment, and particularly relates to a container type battery energy storage device.

Background

Along with the continuous popularization and application of electrochemical energy storage in power system, the application of container type energy storage system becomes more mature, and energy storage system can carry out the batch production, and more portable energy storage is transported to all parts of the world. The system is mainly characterized by centralized data management, centralized system control, centralized system output, high reliability, modular design and intelligent integrated container design. And the system has the advantages of strong practical experience support, perfect temperature control system, automatic fire extinguishing system, video monitoring system, escape door design, access control alarm system, compact structure, reasonable layout and the like. The method can be applied to peak clipping and valley filling, light/wind power fluctuation stabilization and the like.

Based on the aforesaid, equipment such as current energy storage device is mostly directly placed and installs in fixed factory building, and does not have comparatively good fire control and the device to the equipment cooling with general factory building workshop etc. and the energy storage device of installing in the factory building simultaneously has the region limitation, and can not remove.

Therefore, in view of the above, research and improvement are made on the existing structure and defects, and a container type battery energy storage device is provided to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a container type battery energy storage device, which is used for solving the problems that most of the existing energy storage devices and other equipment are directly placed and installed in a fixed factory building, and common factory building workshops and the like do not have good devices for fire fighting and equipment cooling, and meanwhile, the energy storage devices installed in the factory building have regional limitations and can not be moved.

The purpose and the effect of the container type battery energy storage device are achieved by the following specific technical means:

a container type battery energy storage device comprises a mounting structure;

the bottom surface of the box body structure is a rectangular structure, the box body structure is fixedly clamped on the mounting structure, the outer wall of the box body structure is fixedly clamped with a climbing structure, and the tops of the left end and the right end of the box body structure are respectively provided with an auxiliary structure;

the temperature control structures are arranged in two groups, each group of temperature control structure is arranged at the left end and the right end of the box body structure, and a vertical spacing structure is fixed in the box body structure;

the detection structure is fixed inside the box body structure, and a reinforcing structure is arranged in the box body structure in a sliding mode.

Further, the mounting structure further comprises:

the whole bearing plate is in a frame shape which is the same as the box body structure, and the top surface of the bearing plate is provided with a groove which is the same as the box body structure;

the locating plate, the locating plate is equipped with four groups, and every group locating plate all welds the position at the diagonal angle of four places of loading board, and has all seted up the mounting hole on every group locating plate.

Further, the box structure further comprises:

the main body of the main box body is of a rectangular box body structure, four groups of lifting rings are welded and fixed to the top of the main box body, and ground corners with protruding structures are additionally welded to the bottom of the main box body;

the opening, the opening is provided with three groups, and all articulates on every group opening and installs sealed lid, and the opening then directly communicates each other with the main tank body.

Further, the climbing structure still includes:

the climbing frame is set to be in the shape of an ordinary ladder, a hook is arranged at the top of the climbing frame, and a magnetic block is additionally arranged at the supporting position of the climbing frame.

Further, the auxiliary structure further comprises:

the auxiliary lamps are provided with four groups, and each group of auxiliary lamps consists of a searchlight at the bottom and a warning lamp at the top.

Further, the temperature control structure further comprises:

the door bodies are provided with two groups with the same structure on the left and the right, are made of the same material as the main box body and are provided with mounting openings;

the temperature control device is arranged to be of a symmetrical structure, the temperature control device is embedded and installed on two groups of installing openings of the door body, the top of the temperature control device is arranged to face the inner side, and the bottom of the temperature control device is arranged to face the outer end.

Further, the spacing structure further comprises:

the space bar, the plate body inside of space bar adds and is equipped with syllable-dividing flame retardant material, has seted up the window body simultaneously on the face of space bar, installs the fire-retardant glass of protection on the window body.

Further, the detection structure further comprises:

the module top frames are arranged in two rows which are symmetrical front and back, the module top frames are fixed at the top of the main box body, and the module top frames are provided with grid plates with louver structures;

the cross section of the auxiliary plate is arranged to be of an inverted trapezoidal structure, and the auxiliary plate is arranged in the middle of the module top frame which is symmetrical in the front and back direction;

interior window, interior window are provided with two sets of setings on the accessory plate, and interior window sets up the setting of intercommunication each other with the opening, and every internal window lower extreme position of group all articulates and installs the guard plate.

Further, the detection structure further comprises:

the inductor, the inductor are provided with eight groups, and the equal fixed mounting of every group inductor is in the outside along bottom of module roof-rack.

Further, the reinforcing structure further includes:

the two groups of slide rails are arranged on the bottom surface of the main box body and the outer wall of the module top frame respectively;

the sliding plates are provided with eight groups, and the upper and lower positions of each group of sliding plates are slidably mounted on the sliding rails.

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

in the mounting structure, if a container type box body is directly placed at a certain position, and an energy storage device is arranged in the box body structure, a lead is required to be externally connected to the box body, the box body structure is required to have certain stability, so that the bearing plate is well fixed corresponding to the shape of the box body structure before the box body structure is placed, the box body structure is directly placed on the bearing plate, and the bearing plate is provided with the slot which can be matched with the box body structure, so that the whole box body structure has corresponding stability, and the lifting movement of the box body structure is not influenced.

In the box body structure, the main box body is arranged into a rectangular box body, and the effects of lifting and moving of a container and the like can be achieved, so that the main box body is welded with four groups of hanging rings and ground corners respectively, the whole main box body has the effects of convenience in moving and the like.

In the temperature control structure of the utility model, temperature control devices are arranged on the left and right door bodies of the main box body, the temperature control devices on each door body are divided into an upper group and a lower group, so that the temperature control devices can effectively detect the temperature inside and outside the door body, good control effect on the temperature inside and outside the main box body is achieved, the module top frames arranged in the main box body are arranged in a symmetrical structure, each group of module top frames are provided with air exhaust or air conditioning devices, the grid plates arranged on the module top frames can achieve the effect of dispersing and guiding cold air, meanwhile, the trapezoidal auxiliary plates close to the grid plates can achieve the effect of guiding the cold air downwards, so that the air can better impact the battery pack arranged at the lower end, the auxiliary plates can preferentially contact with the cold air firstly, the sensing effect of the sensor is influenced, and the sensor is arranged at the bottom edge position of the module top frame, cold air can not directly blow to the position, and if open fire occurs, the cold air can be preferentially contacted with the sensor, so that the sensor is effectively triggered, and a stable triggering alarm effect is achieved.

In the reinforced structure, after the battery energy storage devices are placed, the battery energy storage devices are required to be fixed to a certain extent, so that the sliding plate is arranged in the main box body and can freely slide on the sliding rail, and the sliding plate can be directly adjusted after a certain group of battery energy storage devices are damaged, so that the battery energy storage devices can be assembled and disassembled.

In addition, the container energy storage system can be produced in a factory, and can be directly assembled and debugged in a workshop, so that the construction, operation and maintenance costs of the project are greatly saved, and the accident isolation is realized.

In addition, the advantages in the use scene are as follows: the electricity utilization curve of a user is adjusted through the charging and discharging process of the energy storage battery, and the electricity with low electricity price in the valley period is transferred to the electricity price in the peak period for use. From the perspective of user value, the method can realize arbitrage through peak-valley price difference and basic capacity fee reduction, and reduce the distribution transformation configuration capacity and load loss of users.

Under the influence of factors such as climatic conditions, geographic environments and the like, the output power of the optical storage power generation and the wind power generation has stronger fluctuation and intermittency, and the energy storage system can perform accurate and efficient power exchange with a wind power system in order to improve the controllability of wind power rate; meanwhile, the energy storage elements can stabilize different types of fluctuating power according to respective energy storage characteristics, and the stabilized wind power output power can meet the requirement of real-time scheduling of the power system.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the main case of the present invention.

FIG. 3 is a schematic structural diagram of the door and the main body of the present invention.

Fig. 4 is a schematic view of the internal structure of the main casing of the present invention.

FIG. 5 is a schematic view of a carrier plate structure according to the present invention.

Fig. 6 is a schematic view of the present invention at a part enlarged in fig. 3.

Fig. 7 is a schematic view of the present invention at a part B enlarged in fig. 3.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a mounting structure; 101. a carrier plate; 102. positioning a plate; 2. a box structure; 201. a main box body; 202. a port; 3. a climbing structure; 301. climbing a frame; 4. an auxiliary structure; 401. an auxiliary light; 5. a temperature control structure; 501. a door body; 502. a temperature control device; 6. a spacer structure; 601. a partition plate; 7. detecting the structure; 701. a module top frame; 702. an auxiliary plate; 703. an inner window; 704. an inductor; 8. reinforcing the structure; 801. a slide rail; 802. a sliding plate.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 7:

the utility model provides a container type battery energy storage device, which comprises a mounting structure 1;

the bottom surface of the box body structure 2 is a rectangular structure, the box body structure 2 is fixedly clamped on the mounting structure 1, the outer wall of the box body structure 2 is fixedly clamped with a climbing structure 3, and the tops of the left end and the right end of the box body structure 2 are respectively provided with an auxiliary structure 4;

two groups of temperature control structures 5 are arranged, each group of temperature control structures 5 are arranged at the left end and the right end of the box body structure 2, and a vertical spacing structure 6 is fixed in the box body structure 2;

detect structure 7, detect structure 7 and fix in the inside of box structure 2, and slidable mounting has reinforced structure 8 in the box structure 2 simultaneously.

Wherein, mounting structure 1 still includes:

the whole bearing plate 101 is in a frame shape same as that of the box body structure 2, and a groove same as that of the box body structure 2 is formed in the top surface of the bearing plate 101;

locating plate 102, locating plate 102 is equipped with four groups, and every group locating plate 102 all welds the position at the diagonal angle of the four places of loading board 101, and all seted up the mounting hole on every group locating plate 102, usually if directly place the box of container type in a certain place, because install energy memory in the box structure 2 again, thereby need be to external conductor on the box, need let box structure 2 have certain stability, thereby before placing box structure 2, the shape that corresponds box structure 2 is fixed good with loading board 101, directly placing box structure 2 on loading board 101, because the fluting has been seted up on loading board 101, the fluting can coincide with box structure 2, let box structure 2's whole have corresponding stability, thereby can not influence box structure 2's hoist and mount removal yet.

Wherein, box structure 2 still including:

the main body of the main box body 201 is a rectangular box body structure, four groups of lifting rings are welded and fixed on the top of the main box body 201, and meanwhile, ground corners with protruding structures are additionally welded on the bottom of the main box body 201;

opening 202, opening 202 is provided with three groups, and all articulate on every group opening 202 and install sealed lid, and opening 202 then directly communicates with main tank 201 each other, adopt the structure that sets up to the rectangle box with main tank 201, mainly for can reaching the efficiency such as the hoist and mount removal of container, thereby with main tank 201 four rings of group and canthus of welding respectively, make main tank 201's whole have efficiency such as convenient removal, because install multiunit battery energy memory in main tank 201 again, thereby can produce heat at the during operation, thereby set up three groups of openings 202 with main tank 201 top, opening 202 with sealed lid, can open and carry out certain heat dissipation to main tank 201's inside.

Wherein, climbing structure 3 is still including:

climbing frame 301, climbing frame 301 sets up to the shape of ordinary ladder, and climbing frame 301's top is provided with the couple, and it is equipped with the magnetic path to climb on frame 301's the supporting position additional, because the top of main tank 201 is provided with three group's openings 202, thereby under the condition of needs, the top that needs to climb main tank 201 is handled, thereby with main tank 201's outer wall mounting climbing frame 301, climbing frame 301 top is provided with the assurance that the couple can be good climbing frame 301 safety, and the magnetic path of installing additional on the position of the climbing frame 301 that supports, can play the effect of further increase climbing frame 301's security.

Wherein, auxiliary structure 4 still includes:

auxiliary lamp 401, auxiliary lamp 401 are provided with four groups, and every auxiliary lamp 401 of group comprises the searchlight of bottom and the warning light at top, and under the normal condition, the searchlight of auxiliary lamp 401 bottom can play the effect of carrying out the illumination to main tank 201 both ends, and the warning light at the top will light after the inside problem that takes place of main tank 201, plays the effect that corresponding warning was reminded in advance.

Wherein, control by temperature change structure 5 still includes:

two sets of door bodies 501 with the same structure are arranged on the left and right of the door body 501, the door bodies 501 are made of the same material as the main box body 201, and each set of door bodies 501 is provided with an installation opening;

temperature regulating device 502, temperature regulating device sets up to the structure of symmetry, and temperature regulating device inlays and installs on two sets of installing ports of a body 501, the temperature regulating device top sets up to the orientation inboard, and temperature regulating device's bottom then sets up to the setting of outside end, with main tank body 201 install temperature regulating device on two sets of bodies 501 of the left and right sides, temperature regulating device on every group body 501 then divide into about two sets of settings, make temperature regulating device can effectually detect the inside and outside temperature of a body 501, reach the good control effect inside and outside main tank body 201.

Wherein, interval structure 6 still includes:

space bar 601, the plate body inside of space bar 601 adds and is equipped with syllable-dividing flame retardant material, the window form has been seted up on space bar 601's face simultaneously, install the fire-retardant glass of protection on the window form, space bar 601 mainly plays and carries out spaced effect with the inside of main tank body 201, because be provided with the controlgear and the storage device of electric power in the main tank body 201 respectively, have and can not produce too high temperature at work with controlgear, thereby the space bar 601 of main tank body 201 can effectually be cut apart different equipment, reach the difference control purpose to different equipment.

Wherein, detection structure 7 still includes:

the module top frame 701 is arranged in two rows which are symmetrical front and back, the module top frame 701 is fixed at the top of the main box body 201, and the module top frame 701 is provided with a grid plate with a shutter structure;

the cross section of the auxiliary plate 702 is arranged to be an inverted trapezoidal structure, and the auxiliary plate 702 is arranged in the middle of the module top frame 701 which is symmetrical front and back;

interior window 703, interior window 703 is provided with two sets of setings on accessory plate 702, and interior window 703 sets up the setting of putting through each other with opening 202, and the equal articulated guard plate of installing in window 703 lower extreme position in every group, the module roof-rack 701 that sets up in the main tank body 201 sets up to the structure of symmetry, and all install on every module roof-rack 701 of group and air exhaust or air conditioning equipment, from the grid plate that sets up on module roof-rack 701, can play the effect of dispersing the direction to cold wind, the trapezoidal accessory plate 702 that is close to the grid plate simultaneously, can be the effect of downwardly directing with cold wind, make on the group battery that wind can be better blow the sound lower extreme and set up.

Wherein, detection structure 7 still includes:

inductor 704, inductor 704 is provided with eight groups, and the equal fixed mounting of every group inductor 704 is in the outside border bottom of module roof-rack 701, at first accessory plate 702 can be preferential and cold wind contact, thereby make the response effect of inductor 704 receive the influence, and install inductor 704 in the bottom border position of module roof-rack 701, cold wind can not directly blow to this position, and if take place the naked light, also can be preferential and inductor 704 contact, let inductor 704 obtain effectual triggering, reach stable triggering alarm effect.

Wherein, reinforced structure 8 still includes:

the two sets of slide rails 801 are arranged, and the slide rails 801 are respectively arranged on the bottom surface of the main box body 201 and the outer wall of the module top frame 701;

sliding plate 802, sliding plate 802 is provided with eight groups, and the equal slidable mounting in upper and lower position of every group sliding plate 802 is on slide rail 801, place the completion back with battery energy storage device, need battery energy storage device to do certain fixed to set up sliding plate 802 with the inside of main box 201, sliding plate 802 can be arbitrary slide on slide rail 801, if take place after a certain group of battery energy storage device damages, can directly adjust sliding plate 802, thereby realize the dismouting effect to battery energy storage device.

The specific use mode and function of the embodiment are as follows:

in the utility model, if a container type box body is directly placed at a certain position, and an energy storage device is arranged in the box body structure 2, a lead is required to be externally connected to the box body, the box body structure 2 is required to have certain stability, so that the bearing plate 101 is well fixed corresponding to the shape of the box body structure 2 before the box body structure 2 is placed, the box body structure 2 is directly placed on the bearing plate 101, because the bearing plate 101 is provided with a groove which can be matched with the box body structure 2, the whole box body structure 2 has corresponding stability, the lifting movement of the box body structure 2 is not influenced, the main box body 201 is of a rectangular box body structure, the effects of lifting movement and the like of a container can be achieved, the main box body 201 is respectively welded with four groups of lifting rings and ground corners, and the whole main box body 201 has the effects of convenient movement and the like, under a normal state, the searchlight at the bottom of the auxiliary lamp 401 can illuminate two ends of the main box 201, when a problem occurs in the main box 201, the warning lamp at the top can be turned on to achieve a corresponding warning pre-reminding effect, temperature control devices are arranged on the left and right door bodies 501 of the main box 201, the temperature control devices on each door body 501 are divided into an upper group and a lower group, so that the temperature control devices can effectively detect the temperature inside and outside the door bodies 501 to achieve a good control effect inside and outside the main box 201, the module top frames 701 arranged in the main box 201 are symmetrically structured, each module top frame 701 is provided with an exhaust or air conditioning device, the effect of dispersing and guiding cold air can be achieved by the grid plates arranged on the module top frames 701, and meanwhile, the trapezoidal auxiliary plate 702 close to the grid plates can guide cold air downwards, make on the group battery that the lower extreme set up is blown to wind can be better, at first accessory plate 702 can be preferred contact with cold wind, thereby make the response effect of inductor 704 receive the influence, and install inductor 704 at the bottom border position of module roof-rack 701, cold wind can not directly blow to here position, and if the naked light takes place, also can be preferred contact with inductor 704, let inductor 704 obtain effectual triggering, reach stable triggering alarm effect, place the completion back with battery energy memory, need battery energy memory to do certain fixed, thereby set up sliding plate 802 with the inside of main tank body 201, sliding plate 802 can be arbitrary slides on slide rail 801, if take place a certain group battery energy memory and damage the back, can directly adjust sliding plate 802, thereby realize the dismouting effect to battery energy memory.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides a container formula battery energy memory which characterized in that: comprising a mounting structure (1);

the bottom surface of the box body structure (2) is a rectangular structure, the box body structure (2) is clamped and fixed on the mounting structure (1), the outer wall of the box body structure (2) is clamped and fixed with a climbing structure (3), and the tops of the left end and the right end of the box body structure (2) are provided with auxiliary structures (4);

the temperature control structure (5) is provided with two groups, each group of temperature control structure (5) is arranged at the left end and the right end of the box body structure (2), and a vertical spacing structure (6) is fixed in the box body structure (2);

detect structure (7), detect structure (7) and fix in the inside of box structure (2), and in box structure (2) slidable mounting has reinforced structure (8) simultaneously.

2. The container-type battery energy storage device of claim 1, wherein: the mounting structure (1) further comprises:

the whole bearing plate (101) is arranged to be in a frame shape identical to that of the box body structure (2), and a groove identical to that of the box body structure (2) is formed in the top surface of the bearing plate (101);

the positioning plates (102) are provided with four groups, each group of positioning plates (102) are welded at the positions of the four opposite angles of the bearing plate (101), and each group of positioning plates (102) are provided with mounting holes.

3. The container-type battery energy storage device of claim 1, wherein: the box structure (2) further comprises:

the main body of the main box body (201) is of a rectangular box body structure, four groups of lifting rings are welded and fixed to the top of the main box body (201), and meanwhile, ground corners of a protruding structure are additionally welded to the bottom of the main box body (201);

the device comprises through openings (202), wherein three groups of through openings (202) are arranged, each group of through openings (202) is hinged with a sealing cover, and the through openings (202) are directly communicated with a main box body (201).

4. The container-type battery energy storage device of claim 1, wherein: the climbing structure (3) further comprises:

the climbing frame (301) is characterized in that the climbing frame (301) is in the shape of a common ladder, a hook is arranged at the top of the climbing frame (301), and a magnetic block is additionally arranged at the supporting position of the climbing frame (301).

5. The container-type battery energy storage device of claim 1, wherein: the auxiliary structure (4) further comprises:

the auxiliary lamps (401) are arranged in four groups, and each group of auxiliary lamps (401) consists of a searchlight at the bottom and a warning lamp at the top.

6. The container-type battery energy storage device of claim 1, wherein: the temperature control structure (5) further comprises:

the door body (501) is provided with two groups with the same left and right structures, the door body (501) is made of the same material as the main box body (201), and each group of door body (501) is provided with an installing opening;

temperature control device (502), temperature control device set up to symmetrical structure, and temperature control device inlays and installs on two sets of installing ports of a body (501), and the top of temperature control device sets up to the inboard, and temperature control device's bottom then sets up to the setting of outside end.

7. The container-type battery energy storage device of claim 1, wherein: the spacer structure (6) further comprises:

the partition plate comprises a partition plate (601), wherein a sound insulation flame retardant material is additionally arranged inside a plate body of the partition plate (601), a window body is arranged on the plate surface of the partition plate (601), and protective flame retardant glass is arranged on the window body.

8. The container-type battery energy storage device of claim 1, wherein: the detection structure (7) further comprises:

the module top frame (701), the module top frame (701) is arranged in two rows which are symmetrical front and back, the module top frame (701) is fixed at the top of the main box body (201), and the module top frame (701) is provided with a grid plate with a shutter structure;

the cross section of the auxiliary plate (702) is arranged to be of an inverted trapezoidal structure, and the auxiliary plate (702) is arranged at the middle position of the module top frame (701) which is symmetrical in the front and back;

the inner window (703), inner window (703) are provided with two sets and set up on accessory plate (702), and inner window (703) set up the setting of intercommunication each other with opening (202), and the equal articulated guard plate that installs in the lower extreme position of every group inner window (703).

9. The container-type battery energy storage device of claim 1, wherein: the detection structure (7) further comprises:

inductor (704), inductor (704) are provided with eight groups, and equal fixed mounting in the outer border bottom of module roof-rack (701) of every group inductor (704).

10. The container-type battery energy storage device of claim 1, wherein: the reinforcing structure (8) further comprises:

the two groups of sliding rails (801) are arranged, and the sliding rails (801) are respectively arranged on the bottom surface of the main box body (201) and the outer wall of the module top frame (701);

the sliding plates (802), the sliding plates (802) are provided with eight groups, and the upper and lower positions of each group of sliding plates (802) are all slidably mounted on the sliding rails (801).

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