CN220420795U - Energy storage battery frame baffle - Google Patents

Abstract

The utility model provides an energy storage battery rack baffle plate, which is arranged on an energy storage battery rack to open or close the energy storage battery rack, and comprises the following components: the first side of the first baffle is rotationally connected with the energy storage battery rack; the first side of the second baffle is rotationally connected with the second side of the first baffle, the second side of the second baffle is connected with the energy storage battery frame in a mode that the second side of the second baffle can be close to or far away from the first side of the first baffle, and the first sides of the two baffles are opposite to the second side. The baffle plate is arranged into a folding structure, so that the aisle width occupied by the baffle plate is reduced, the opposite and adjacent battery clusters are ensured not to interfere with each other when the battery clusters are operated at the same time, and the efficiency in operation and maintenance is improved.

Description

Energy storage battery frame baffle

Technical Field

The utility model relates to the technical field of energy storage batteries, in particular to an energy storage battery frame baffle.

Background

The energy storage battery clusters are key components of the container energy storage battery system, and are generally installed on energy storage battery frames in the container, the energy storage battery frames are arranged in rows, and an aisle is formed between the two rows of energy storage battery frames. With the development of the energy storage system becoming mature, the convenience and safety of daily operation and maintenance of the energy storage battery cluster are required to be further improved. At present, the energy storage battery frame adopts the baffle to prevent that personnel from touching by mistake after entering the container in the daily operation and maintenance process, takes place danger. When the existing energy storage battery rack baffle is opened, excessive space occupied by the container aisle is blocked, so that not only is personnel inconvenient to get in and out, but also the operation of opposite battery clusters is affected. Meanwhile, in order to enable the carrying and replacement of the energy storage battery clusters to be more convenient, the energy storage battery frame baffle is also a key factor to consider.

Disclosure of Invention

The utility model aims to provide an energy storage battery rack baffle plate, which solves the problem that the existing energy storage battery rack baffle plate is inconvenient to operate and maintain due to the fact that the existing energy storage battery rack baffle plate occupies too much aisle width.

In order to achieve the above object, the present utility model provides an energy storage battery rack shutter provided on an energy storage battery rack to open or close the energy storage battery rack, comprising:

the first side of the first baffle is rotationally connected with the energy storage battery rack;

the first side of the second baffle is rotationally connected with the second side of the first baffle, the second side of the second baffle is connected with the energy storage battery frame in a mode that the second side of the second baffle can be close to or far away from the first side of the first baffle, and the first sides of the two baffles are opposite to the second side.

The energy storage battery rack baffle of this application sets up the baffle into folded structure according to the passageway width between the energy storage battery rack, can open the process and open when the action is accomplished at the baffle, occupy the space that is not more than half in energy storage battery rack passageway, can not influence each other when being the battery cluster operation of opposite each other like this, also can not make after opening in one side battery cluster baffle, cause passageway space to block up, personnel business turn over inconvenience.

Further, the energy storage battery frame baffles are arranged in two groups and are connected to the front surface of the energy storage battery frame in a symmetrical mode. The shutters can be opened or closed simultaneously from both directions to accommodate a wider width of the energy storage battery rack.

Further, the first baffle is rotatably connected with the energy storage battery frame through a plurality of first hinges which are arranged at intervals up and down. Adopt hinge connection, simple structure connects steadily.

Further, the first hinge is respectively connected to the front surface of the energy storage battery frame and the end surface of the first side of the first baffle. Thus, the baffles can only be opened by 90 degrees, so that adjacent energy storage battery rack baffles do not interfere with each other.

Further, the first baffle plate is rotatably connected with the second baffle plate through a plurality of second hinges which are arranged at intervals up and down. Adopt hinge connection, simple structure is convenient for adjust the angle of opening and shutting.

Further, the second hinge is connected to the back of the first baffle and the back of the second baffle respectively. The hinge is located the baffle back, can not bulge the baffle, and the baffle is closed the back, and the front is more level and smooth.

Further, the second hinge is a damping hinge. Adopt the damping hinge, increase the torsion of hinge in-process of opening and shutting, when opening the baffle, need exert certain power and just can stimulate the baffle, avoid the handling in-process, the baffle is opened easily because of vibrations, mistake touch external force such as, simultaneously, the damping hinge can stay in optional position at the in-process of opening and shutting, is fit for some situations that do not need to open the baffle completely and maintain.

Further, the energy storage battery rack baffle plate also comprises a magnetic attraction positioning structure, wherein the magnetic attraction positioning structure comprises a first magnetic piece and a second magnetic piece which are correspondingly arranged;

the first magnetic piece is arranged on the wall surface of the second side of the first baffle, and the second magnetic piece is arranged on the wall surface of the first side of the second baffle.

Like this, when the baffle was closed, first baffle can mutually attract with the second baffle, keeps the baffle to be in the stability of closed state, when opening the baffle, need exert certain power just can stimulate the baffle, prevents in the handling, and the baffle is opened easily because of external force such as vibrations, mistake bump.

Further, in order to facilitate opening and closing of the baffle plates, a handle is arranged on the second baffle plate.

Further, a door lock assembly is arranged on the second baffle plate. The baffle plates on two sides are favorable for being fixed, the baffle plates are prevented from being randomly opened, and the stability of the baffle plates is maintained when the battery cluster is in normal operation.

Further, the handle is an in-line handle, and the door lock assembly includes:

the handle is rotationally connected inside the embedded handle;

the bolt is arranged in the second baffle, one end of the bolt is hinged with the handle, and the other end of the bolt can extend or retract the end face of the second side of the second baffle under the rotation of the handle;

and the slot is arranged on the end face of the second side of the second baffle plate opposite to the slot, and the bolt can extend into the slot so as to lock the two second baffle plates opposite to each other.

The embedded handle is adopted, the handle cannot protrude out of the baffle, the front face of the baffle is smoother, meanwhile, the door lock assembly is embedded in the second baffle, and the front face of the baffle can be kept smooth while the locking function is achieved.

Further, sliding rails are respectively paved at the top and the bottom of the front surface of the energy storage battery frame;

the top surface and the bottom surface of the second side of second baffle rotate respectively and are connected with the pulley, the pulley is connected in the slide rail to can follow the length direction round trip displacement of slide rail.

Through the cooperation of pulley and slide rail, guarantee baffle switching motion's stationarity, prevent that vertical direction from rocking from appearing in the baffle switching process.

According to the technical scheme, the energy storage battery rack baffle is arranged to be of a folding structure, so that the baffle occupies a space which is not more than half of the space of an energy storage battery rack passageway after the opening process and the opening action are completed, the opposite battery clusters cannot be mutually influenced when in operation, the passageway space is blocked after one side of the battery cluster baffle is opened, and the problem that personnel are inconvenient to get in and out is solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model.

FIG. 1 is a top view of a single side open energy storage cell rack baffle of the present utility model;

FIG. 2 is a top view of a double-sided open energy storage cell rack baffle of the present utility model;

FIG. 3 is a front view of a double-sided open energy storage battery rack baffle of the present utility model;

FIG. 4 is a side view of a bi-directionally opened energy storage battery rack shutter of the present utility model;

fig. 5 is an enlarged view of a portion a in fig. 2;

fig. 6 is an enlarged view of a portion B in fig. 2;

fig. 7 is an enlarged view of a portion C in fig. 3;

FIG. 8 is a front view of two adjacent energy storage cell rack baffles in the same row of the present utility model;

FIG. 9 is a side view of a two-row energy storage battery rack of the present utility model with the baffles open;

wherein:

1-an energy storage battery rack; 2-a first baffle; 3-a second baffle; 4-a handle; 5-a first hinge; 6-a second hinge; 7-a magnetic positioning structure; an 8-door lock assembly; 9-sliding rails; 10-pulleys; 11-a buffer structure;

71-a first magnetic member; 72-a second magnetic member; 81-a handle; 82-a bolt; 83-slot.

Detailed Description

The present utility model will be described in detail below with reference to the drawings and in conjunction with the embodiments, and it should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that the following detailed description is illustrative and is intended to provide further explanation of the present application. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The utility model provides a novel energy storage battery rack baffle, which aims to solve the problem that the operation and maintenance are inconvenient due to the fact that the existing energy storage battery rack baffle occupies too much aisle width.

As shown in fig. 1, an energy storage battery rack baffle is disposed on an energy storage battery rack 1 to open or close the energy storage battery rack 1, and mainly includes a first baffle 2, a second baffle 3 and a handle 4, wherein a first side of the first baffle 2 is rotationally connected with the energy storage battery rack 1, a second side of the first baffle 2 is rotationally connected with a first side of the second baffle 3, a second side of the second baffle 3 is connected with the energy storage battery rack 1 in a manner capable of approaching to or separating from the first side of the first baffle 2, the first sides of the two baffles are disposed opposite to the second side, and the handle 4 is disposed on the second baffle 3 for opening or closing the baffles.

By means of the technical scheme, the handle 4 is pulled towards the direction of the first baffle 2, the first baffle 2 and the second baffle 3 simultaneously rotate outwards, the second baffle 3 is closed towards the first baffle 2 while rotating, finally the first baffle 3 is attached to the second baffle 3 and is perpendicular to the energy storage battery rack 1, opening of the baffles is achieved, the opening width of the baffles is reduced by half due to the fact that the first baffle 2 is attached to the second baffle 3, when the common baffles are opened, the passageway width is basically occupied for example, after the baffles are opened, only the space which does not exceed half of the passageway of the energy storage battery rack is occupied, as shown in fig. 9, the opposite battery clusters cannot be mutually influenced when the opposite battery clusters work, the problem that passageway space is blocked after one side of the battery clusters are opened is solved, and convenience is brought to people's operation and maintenance.

Therefore, the energy storage battery frame baffle plate is arranged into a folding structure, so that the aisle width occupied by the baffle plate is reduced, the opposite and adjacent battery clusters are guaranteed to work simultaneously without interference, the operation and the transportation of each battery cluster are not hindered, and the efficiency during operation and maintenance is improved.

As shown in fig. 2 to 4, when the energy storage battery rack 1 is opened and closed by adopting the double baffles, the energy storage battery rack baffles of the present application may be arranged in two groups and connected to the front surface of the energy storage battery rack 1 in a symmetrical manner, so that the baffles may be opened or closed simultaneously from two directions to adapt to the energy storage battery rack 1 with a wider width.

As shown in fig. 3 and 5, the first baffle 2 is rotatably connected with the energy storage battery frame 1 through a plurality of first hinges 5 which are arranged at intervals up and down, and the energy storage battery frame is connected by adopting hinges, so that the structure is simple and the connection is stable.

Optionally, the first hinge 5 is respectively connected to the front surface of the energy storage battery rack 1 and the end surface of the first side of the first baffle 2, so that the first baffle 2 can only be opened by 90 °, and adjacent energy storage battery rack baffles do not interfere with each other, as shown in fig. 8, so that adjacent battery clusters do not interfere with each other when operating simultaneously.

Of course, due to the movement pattern of the second barrier 3, the opening angle of the first barrier 2 cannot exceed 90 ° when the widths of the first barrier 2 and the second barrier 3 are the same. In addition, the first baffle 2 may also be rotatably connected with the energy storage battery frame 1 by adopting a rotating shaft, for example, the upper end surface and the lower end surface of the first side of the first baffle 2 extend out of a rotating shaft with a certain length, the energy storage battery frame 1 is provided with a shaft seat matched with the rotating shaft, and the rotation of the first baffle 2 is realized by the matching of the rotating shaft and the shaft seat.

As shown in fig. 4 and 6, the first baffle 2 and the second baffle 3 are rotatably connected through a plurality of second hinges 6 which are arranged at intervals from top to bottom, and are connected through hinges, so that the structure is simple, and the opening and closing angles are convenient to adjust.

Optionally, the second hinge 6 is connected respectively at the back of first baffle 2 and the back of second baffle 3, and second hinge 6 adopts the internal pushing type hinge, and like this, the hinge is whole to be located the baffle back, can not bulge the baffle, and the baffle is closed the back, and the front is more level and smooth, and is pleasing to the eye promptly, can not hinder the passageway space again.

As an alternative embodiment, the second hinge 6 employs a damped hinge. The damping hinge is adopted, the torsion in the hinge opening and closing process can be increased, when the baffle is opened, a certain force is required to be applied to pull the baffle, the baffle is prevented from being easily opened due to external force such as vibration and false touch in the carrying process, meanwhile, the damping hinge can stay at any position in the opening and closing process, and the damping hinge is also suitable for the situation that the baffle is not required to be completely opened for maintenance.

As another alternative embodiment, a magnetic attraction positioning structure 7 is disposed between the first baffle 2 and the second baffle 3, specifically, the magnetic attraction positioning structure 7 includes a first magnetic member 71 and a second magnetic member 72 that can be attracted to each other, where the first magnetic member 71 is disposed on a wall surface of the second side of the first baffle 2, and the second magnetic member 72 is disposed on a wall surface of the first side of the second baffle 3. Like this, after the baffle is closed, first baffle 2 and second baffle 3 can mutually attract, keep the baffle to be in the stability of closed state, when opening the baffle, need exert certain power and just can stimulate the baffle, prevent in the handling, the baffle is opened easily because of external force such as vibrations, mistake bump.

Of course, the magnetic positioning structure 7 may also be disposed between the baffle and the energy storage battery frame 1, and the specific position may be flexibly designed according to the structure of the energy storage battery frame 1, for example, the first magnetic member 71 is disposed on the back surface of the first baffle 2 and/or the second baffle 3, and the second magnetic member 72 is disposed on the front surface of the energy storage battery frame 1.

As shown in fig. 2 and 3, in order to realize that the second baffle 3 is drawn close to the first baffle 2 while rotating outwards, that is, the second side of the second baffle 3 is connected with the energy storage battery rack 1 to be close to or far away from the first side of the first baffle 2, sliding rails 9 can be respectively paved on the top and the bottom of the front surface of the energy storage battery rack 1, rotating shafts with certain lengths extend out of the top and the bottom of the second side of the second baffle 3 respectively, pulleys 10 are installed on the rotating shafts, and the pulleys 10 are installed in the sliding rails 9 and can reciprocate along the length direction of the sliding rails 9. Like this, second baffle 3 both can rotate around pulley 10 vertically, can follow pulley 10 along slide rail 9 horizontal slip again, through the roll cooperation of slide rail 9 and pulley 10, can guarantee the stationarity of baffle opening and shutting motion, prevents that the baffle from opening and shutting the in-process and appearing vertical direction's rocking.

Of course, the pulley sliding rail mode may be replaced by a sliding groove sliding block mode, so long as the second baffle 3 can be moved towards the first baffle 2 while rotating outwards, and the second baffle belongs to a conventional moving structure of the sliding folding door, and the embodiment is not limited in particular.

As shown in fig. 3, the handle 4 of the present application is an embedded handle, and is embedded in the front surface of the second baffle 3 near the second side. In this way, the handle 4 does not protrude beyond the baffle, so that the front of the baffle is smoother and does not interfere with the aisle space. It should be noted that the embedded handle may be an embedded handle for a common cabinet or wardrobe, and the specific structure is not described again.

In addition, in order to open the baffle more conveniently, a handle 4 can be additionally arranged on the front surface of the second baffle 3 close to the first side, and the handle 4 can be pulled outwards to drive the second baffle 3 to rotate outwards.

As shown in fig. 3 and 7, in order to prevent the baffle from being opened at will and maintain the stability of the baffle when the battery cluster is in normal operation, a door lock assembly 8 can be arranged on the second baffle 3, and the specific style of the door lock assembly 8 can be flexibly selected according to practical situations.

Optionally, in order to maintain the flatness of the front surface of the second baffle 3 and the handle 4, specifically, the door lock assembly 8 includes a handle 81, a latch 82 and a slot 83, where the middle part of the handle 81 is rotationally connected to the inside of the handle 4, the latch 82 is slidably disposed in the second baffle 3, one end is hinged to the end of the handle 81, the other end can extend or retract the end surface of the second side of the second baffle 3 under the rotation of the handle 81, the slot 83 is disposed on the end surface of the second side of the opposite second baffle 3 (when a single baffle is used, the end surface of the energy storage battery rack 1 is disposed), and the latch 82 can just extend into the slot 83 when extending out of the second baffle 3 to lock the two opposite second baffles 3.

It should be noted that, the door lock assembly 8 may be disposed on any one of the second baffles 3, and of course, the door locks may also be disposed on both of the second baffles 3, so that the pins 82 and the slots 83 need to be disposed at intervals up and down, as shown in fig. 7, when the handle 81 rotates leftwards at the same time, the pins 82 at both sides translate leftwards (rightwards) respectively and are inserted into the slots 83, thereby realizing double locking of the baffles.

As shown in fig. 7, the end surface of the second side of the second baffle 3 is provided with a buffer structure 11, which slows down the rigid collision with the energy storage battery frame 1 or the opposite second baffle 3 when the baffles are opened, and reduces vibration and noise.

When the utility model is specifically used, firstly, as shown in fig. 3, the first baffle plate 2 and the second baffle plate 3 are in a flat state, and the whole baffle plate is closed at the moment; when the baffle needs to be opened, the handle 81 is rotated rightward, the latch 82 is separated from the slot 83, the handle 4 is pulled leftwards by taking the left baffle as an example, and the second baffle 3 moves towards the first baffle 2, so that the first baffle 2 can rotate around the first hinge 5, meanwhile, the first baffle 2 drives the second baffle 3 to translate and rotate through the second hinge 6, and as the pulley 10 on the second baffle 3 is clamped in the sliding rails 9 at the upper end and the lower end of the energy storage battery frame 1, when the second baffle 3 is driven to rotate and translate by the second hinge 6, the pulley 10 moves leftwards along the sliding rails 9; finally, the first baffle plate 2 and the second baffle plate 3 are attached together and are vertical to the energy storage battery frame 1 at the same time and are positioned on one side of the first hinge 5; at this time, the baffle is opened, but only occupies a small space, and the inspection and maintenance of the battery cluster can be performed.

When the inspection or maintenance to the battery cluster is finished, the baffle needs to be closed, the handle 4 is pulled rightwards, the second baffle 3 translates rightwards while rotating around the pulley 10, the second hinge 6 drives the first baffle 2 to rotate around the first hinge 5, finally the first baffle 2 and the second baffle 3 are attached to the front surface of the energy storage battery frame 1, the handle 81 is rotated leftwards, the bolt 82 is inserted into the slot 83, closing and locking of the baffles are achieved, the magnetic attraction positioning structure 7 enables the first baffle 2 and the second baffle 3 to be attracted with each other, and stability of the baffles in a closed state is maintained.

In the description of the present utility model, it should be understood that the terms "center", "front, rear, upper, lower, left, right", "horizontal, vertical, horizontal", and "top, bottom", etc. generally refer to an orientation or a positional relationship based on that shown in the drawings, only for convenience of describing the present utility model and simplifying the description, and that these orientation words do not indicate or imply that the apparatus or elements referred to must have a specific orientation or be constructed and operated in a specific orientation, and thus should not be construed as limiting the scope of protection of the present utility model; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

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

In addition, the terms "first", "second", etc. are used to define the components, and are only for convenience of distinguishing the corresponding components, and the terms have no special meaning unless otherwise stated, and therefore should not be construed as limiting the scope of the present utility model.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (12)

1. An energy storage battery rack baffle plate is arranged on an energy storage battery rack (1) to open or close the energy storage battery rack (1), and is characterized by comprising:

the first side of the first baffle (2) is rotationally connected with the energy storage battery frame (1);

the first side of second baffle (3) with the second side of first baffle (2) rotates to be connected, the second side of second baffle (3) with can be close to or keep away from the mode of the first side of first baffle (2) with energy storage battery frame (1) is connected, two baffles the first side all with the second side sets up relatively.

2. The energy storage cell rack baffle according to claim 1, wherein: the energy storage battery rack baffles are arranged in two groups and are connected to the front face of the energy storage battery rack (1) in a symmetrical mode.

3. The energy storage cell rack baffle according to claim 1, wherein: the first baffle (2) is rotationally connected with the energy storage battery frame (1) through a plurality of first hinges (5) which are arranged at intervals up and down.

4. The energy storage cell rack baffle of claim 3 wherein: the first hinge (5) is respectively connected with the front face of the energy storage battery frame (1) and the end face of the first side of the first baffle plate (2).

5. The energy storage cell rack baffle according to claim 1, wherein: the first baffle (2) is rotationally connected with the second baffle (3) through a plurality of second hinges (6) which are arranged at intervals up and down.

6. The energy storage cell rack baffle of claim 5, wherein: the second hinge (6) is respectively connected with the back surface of the first baffle (2) and the back surface of the second baffle (3).

7. The energy storage cell rack baffle of claim 5, wherein: the second hinge (6) is a damping hinge.

8. The energy storage cell rack baffle according to claim 1, wherein: the magnetic attraction positioning structure (7) is further included, and the magnetic attraction positioning structure (7) comprises a first magnetic piece (71) and a second magnetic piece (72) which are correspondingly arranged;

the first magnetic member (71) is arranged on the wall surface of the second side of the first baffle plate (2), and the second magnetic member (72) is arranged on the wall surface of the first side of the second baffle plate (3).

9. The energy storage cell rack baffle according to claim 2, wherein: the second baffle (3) is provided with a handle (4).

10. The energy storage cell rack baffle of claim 9, wherein: and the second baffle plate (3) is also provided with a door lock assembly (8).

11. The energy storage cell rack baffle of claim 10, wherein: the handle (4) is an embedded handle, and the door lock assembly (8) comprises:

a handle (81) rotatably connected to the inside of the built-in handle;

the bolt (82) is arranged in the second baffle (3), one end of the bolt is hinged with the handle (81), and the other end of the bolt can extend or retract the end face of the second side of the second baffle (3) under the rotation of the handle (81);

and the slot (83) is arranged on the end face of the second side of the second opposite baffle plate (3), and the bolt (82) can extend into the slot (83) to lock the two second opposite baffle plates (3).

12. The energy storage battery rack baffle according to claim 1, characterized in that the top and the bottom of the front face of the energy storage battery rack (1) are respectively laid with sliding rails (9);

the top surface and the bottom surface of the second side of the second baffle plate (3) are respectively connected with a pulley (10) in a rotating mode, and the pulleys (10) are connected in the sliding rail (9) and can move back and forth along the length direction of the sliding rail (9).