CN216311986U - Battery box fast loading and unloading structure and electric cabinet - Google Patents

Abstract

The utility model discloses a quick assembling and disassembling structure of a battery box, which comprises the battery box and two electric cabinet supports; the electric cabinet bracket is of an L-shaped structure comprising a transverse part and a vertical part, the two electric cabinet brackets are respectively arranged on the left side and the right side of the electric cabinet, and the transverse parts are oppositely arranged; guide folding edges extending towards each other are respectively arranged above the vertical parts of the two electric cabinet supports; the thickness of the battery box is matched with the distance between the transverse part of the electric cabinet bracket and the guide folding edge so as to move between the transverse part of the two electric cabinet brackets and the guide folding edge in a drawing manner; the utility model also discloses an electric cabinet, which comprises an electric cabinet body and a plurality of layers of the battery box quick assembly and disassembly structures which are arranged in the electric cabinet body at intervals up and down. According to the utility model, the electric cabinet supports are oppositely arranged on the left and the right of the electric cabinet, and the guide folding edges are arranged, so that the battery box can be directly slid into and clamped between the transverse parts of the electric cabinet supports with the guide folding edges, and can be directly pulled out of the electric cabinet supports, and the quick assembly and disassembly of the battery box are realized.

Description

Battery box fast loading and unloading structure and electric cabinet

Technical Field

The utility model relates to the field of electric cabinets of energy storage systems, in particular to a quick assembling and disassembling structure of a battery box and an electric cabinet.

Background

The design of the current energy storage system electric cabinet increasingly emphasizes the design of quick assembly and disassembly of a battery box, space utilization rate and the like. In traditional design, the battery box rear end uses the bolt lock to pay on the electric cabinet support, nevertheless dismantles like this troublesome, can't satisfy fast loading and unloading's demand.

Along with the gradual improvement of quick loading and unloading and space utilization promotion requirement, the space is compacter and compacter between the battery box, leads to the battery box rear end can't pay with the bolt lock, and there is the safety risk in the battery box vibration process. For this reason, a structure that facilitates quick assembly and disassembly of the battery box and ensures the strength of the battery box is required in current electric cabinet designs.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the utility model provides a quick assembly disassembly structure of battery box and electricity cabinet, the quick assembly disassembly of the battery box of being convenient for.

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

a quick assembling and disassembling structure of a battery box comprises the battery box and two electric cabinet supports;

the electric cabinet support is of an L-shaped structure comprising a transverse part and a vertical part, the two electric cabinet supports are respectively arranged on the left side and the right side of the electric cabinet, and the transverse parts are oppositely arranged;

guide folding edges extending towards each other are respectively arranged above the vertical parts of the two electric cabinet supports;

the thickness of the battery box is matched with the distance between the transverse part of the electric cabinet bracket and the guide folding edge so as to move between the transverse part of the two electric cabinet brackets and the guide folding edge in a drawing mode.

Further, the battery box is of a box body structure with an upper opening.

Furthermore, one surface of the guide folding edge facing the transverse part is provided with a layer of EVA foam;

the thickness of the battery box is matched with the distance between the transverse part of the electric cabinet bracket and the EVA foam.

Furthermore, two guide folding edges are arranged on each electric cabinet bracket;

the height of the two guide folding edges from the transverse part is reduced along the insertion direction of the battery box and is respectively adapted to the height of the front part and the rear part of the side edge of the battery box.

Further, both ends of the guide flange in the drawing direction of the battery box are raised upward.

Furthermore, the two ends of the guide folding edge are lifted upwards by an angle of 40-50 degrees.

Furthermore, one end of the electric cabinet support, which is positioned at the tail end of the battery box in the insertion direction, is provided with a limiting folding edge for blocking the battery box.

In order to solve the technical problem, the utility model adopts another technical scheme as follows:

an electric cabinet comprises an electric cabinet body and a plurality of layers of battery boxes which are arranged in the electric cabinet body at intervals up and down.

The utility model has the beneficial effects that: the utility model provides a quick assembling and disassembling structure of a battery box and an electric cabinet, wherein L-shaped electric cabinet supports are oppositely arranged on the left side and the right side of the electric cabinet, and guide folding edges are arranged above the electric cabinet supports, so that the battery box can be directly slid into and clamped between the transverse parts of the guide folding edge electric cabinet supports, the quick assembling of the battery box is realized, the battery box is stably limited on the electric cabinet through the electric cabinet supports, and the quick disassembling of the battery box can be realized by directly pulling out a lower box body of the battery box from the electric cabinet supports, namely the quick assembling and disassembling of the battery box is integrally realized.

Drawings

FIG. 1 is a schematic structural view of a quick-assembly/disassembly structure of a battery box;

FIG. 2 is an assembly view of a quick-release structure for a battery box;

FIG. 3 is a side view of a quick-release structure for a battery box;

FIG. 4 is an enlarged schematic view of a portion A in a side view of a quick-attach/detach structure of a battery box;

FIG. 5 is a top view of a quick-release structure for a battery box;

fig. 6 is a schematic structural view of an electric cabinet equipped with a battery box quick-release structure.

Description of reference numerals:

1. an electric cabinet support; 11. guiding and folding; 12. soaking EVA cotton; 13. limiting and folding edges; 14. a vertical portion; 15. a transverse portion;

2. a battery box; 3. an electric cabinet body.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 5, a fast assembling and disassembling structure for a battery box includes a battery box and two electric cabinet supports;

the electric cabinet support is of an L-shaped structure comprising a transverse part and a vertical part, the two electric cabinet supports are respectively arranged on the left side and the right side of the electric cabinet, and the transverse parts are oppositely arranged;

guide folding edges extending towards each other are respectively arranged above the vertical parts of the two electric cabinet supports;

the thickness of the battery box is matched with the distance between the transverse part of the electric cabinet bracket and the guide folding edge so as to move between the transverse part of the two electric cabinet brackets and the guide folding edge in a drawing mode.

As can be seen from the above description, the beneficial effects of the present invention are: through the relative electric cabinet support that sets up the L type about electric cabinet, and set up the direction hem in the top of electric cabinet support, can directly slide the card into with the battery box and put between the horizontal portion of the electric cabinet support of direction hem, realize the quick packing into of battery box, stabilize spacing on electric cabinet with the battery box through electric cabinet support, and can directly pull out from electric cabinet support through the box under the battery box again during the dismantlement, realize taking out fast of battery box, whole fast loading and unloading of battery box has been realized promptly.

Further, the battery box is of a box body structure with an upper opening.

As can be seen from the above description, the battery box adopts a box body structure with an upper opening, so that the battery can be conveniently loaded in, and the quick loading and unloading of the battery can be further realized by matching with the quick loading and unloading of the battery box on the electric cabinet bracket.

Furthermore, one surface of the guide folding edge facing the transverse part is provided with a layer of EVA foam;

the thickness of the battery box is matched with the distance between the transverse part of the electric cabinet bracket and the EVA foam.

According to the above description, the one-layer EVA foam is arranged below the guide folding edge, so that paint falling and assembly difficulty caused by rigid collision of the battery box side edge and the guide folding edge can be prevented, the EVA foam and the battery box side edge can be tightly matched to enable the battery box to be assembled in place, and the battery box is prevented from shaking up and down in the vibration process.

Furthermore, two guide folding edges are arranged on each electric cabinet bracket;

the height of the two guide folding edges from the transverse part is reduced along the insertion direction of the battery box and is respectively adapted to the height of the front part and the rear part of the side edge of the battery box.

According to the description, the side edge of the battery box is designed into two steps with the height reduced along the inserting direction of the battery box, and the two guide folding edges which are matched with the two heights of the side edge of the battery box are arranged on the electric cabinet support in a matched mode, so that the low side edge of the battery box firstly enters the low guide folding edge and then enters the high guide folding edge from the high side edge, the error between the vertical distance between the guide folding edge and the transverse part of the electric cabinet support and the height of the side edge of the battery box is allowed to be large, the requirement on machining precision is lowered, and meanwhile, the battery box is further convenient to be installed into the electric cabinet support.

Further, both ends of the guide flange in the drawing direction of the battery box are raised upward.

Furthermore, the two ends of the guide folding edge are lifted upwards by an angle of 40-50 degrees.

According to the above description, the two ends of the guide folding edge are lifted upwards by a certain angle, so that the fault-tolerant range of the processing precision is further improved, and meanwhile, the guide folding edge can have a guide function, so that the side edges are stably loaded and pulled out through the lifted two ends when the battery box is loaded and taken out, and the loading and unloading efficiency of the battery box is further improved.

Furthermore, one end of the electric cabinet support, which is positioned at the tail end of the battery box in the insertion direction, is provided with a limiting folding edge for blocking the battery box.

As can be seen from the above description, the limiting folding edge can be used for limiting the battery box which is arranged in place, so that the situation that the length range of the electric cabinet support is drawn due to the fact that the battery box is excessively arranged is avoided.

Referring to fig. 6, an electrical cabinet includes an electrical cabinet body and a plurality of layers of the above-mentioned battery box fast-assembling and disassembling structure arranged in the electrical cabinet body at intervals up and down.

As can be seen from the above description, the beneficial effects of the present invention are: based on same technical concept, an electric cabinet is provided, the interval sets up the foretell battery box fast loading and unloading structure of multilayer about in electric cabinet, through the electric cabinet support of the relative L type that sets up about electric cabinet, and set up the direction hem in the top of electric cabinet support, can directly slide in the card with the battery box and put between the horizontal portion of the electric cabinet support of direction hem, realize the quick packing into of battery box, stabilize spacing on electric cabinet with the battery box through electric cabinet support, and can directly pull out from electric cabinet support through under the battery box again during the dismantlement, realize taking out fast of battery box, the fast loading and unloading of battery box has wholly been realized promptly.

Referring to fig. 1 and fig. 2, a first embodiment of the present invention is:

a quick assembly disassembly structure of battery box, includes battery box 2 and two electric cabinet supports 1.

Wherein, as shown in fig. 1, electric cabinet support 1 is the L type structure including horizontal portion 15 and vertical portion 14, two electric cabinet supports 1 are installed respectively in the left and right sides of electric cabinet and horizontal portion 15 sets up relatively, be provided with the direction hem 11 that extends towards the other side respectively above the vertical portion 14 of two electric cabinet supports 1, the thickness of battery box 2 and the distance between horizontal portion 15 and the direction hem 11 of electric cabinet support 1 are the looks adaptation, with the pull formula removal between horizontal portion 15 and the direction hem 11 of two electric cabinet supports 1, when battery box 2 assembles when in place between the horizontal portion 15 and the direction hem 11 of two electric cabinet supports 1, as shown in fig. 2 promptly.

That is, in this embodiment, through the relative electric cabinet support 1 that sets up the L type about electric cabinet, and set up guide hem 11 in the top of electric cabinet support 1, can directly slide into the card with battery box 2 and put between guide hem 11 and the horizontal portion 15 of electric cabinet support 1, realize the quick packing into of battery box 2, it is spacing on electric cabinet to stabilize battery box 2 through electric cabinet support 1, and can directly pull out from electric cabinet support 1 through the box under battery box 2 again during the dismantlement, realize taking out fast of battery box 2, the fast loading and unloading of battery box 2 has been realized promptly wholly.

In the embodiment, the battery box 2 is of an upper opening box structure, so that the battery can be conveniently loaded, and the battery box 2 can be quickly assembled and disassembled on the electric cabinet support 1, so that a worker can insert the battery box 2 into the electric cabinet support 1 after placing the battery in the battery box 2; when the battery box is taken out, the battery box 2 can be pulled out from the electric cabinet support 1, and then the battery is taken out from the battery box 2, so that the rapid assembly and disassembly of the battery are further realized.

Referring to fig. 1 to 4, the second embodiment of the present invention is:

on the basis of the first embodiment, in the present embodiment, as shown in fig. 1 or fig. 2, each electric cabinet support 1 is provided with two guide flanges 11.

As shown in fig. 3, the height of the two guide flaps 11 from the transverse portion 15 decreases in the insertion direction of the battery case 2 and is adapted to the height of the front and rear side portions of the battery case 2.

In this embodiment, the height of the guide flange 11 at the rear end of the electrical cabinet support 1 (i.e. the front end of the battery box 2 in the insertion direction) is 42.5mm, the height of the guide flange 11 at the front end of the electrical cabinet support 1 is 52mm, i.e. the height of the guide flange 11 at the front end of the electrical cabinet support 1 is higher than that of the guide flange 11 at the rear end, when the battery box 2 is inserted, the lower side of the battery box 2 first enters the lower guide flange 11, and the higher side of the battery box 2 then enters along the higher guide flange 11 during the gradual insertion process, so that the whole battery box 2 is assembled in place. Namely, the side of the battery box 2 is designed into two steps with the height reduced along the inserting direction of the battery box 2, and two guide folding edges 11 which are matched with the two heights of the side of the battery box 2 are arranged on the electric cabinet support 1 in a matching way, so that the lower side of the battery box 2 firstly enters the lower guide folding edge 11 and then enters the high guide folding edge 11 from the high side, the error between the vertical distance between the guide folding edge 11 and the transverse part 15 of the electric cabinet support 1 and the height of the side of the battery box 2 is allowed to be larger, the processing precision requirement is reduced, meanwhile, the battery box 2 is further convenient to be installed into the electric cabinet support 1, if the heights are consistent, the error between the height distance between the guide folding edge 11 and the transverse part 15 and the height of the side of the battery box 2 is required to be smaller, and the stable installation and pulling-out of the battery box 2 between the guide folding edge 11 and the transverse part 15 on the electric cabinet support 1 can be ensured.

As shown in fig. 4, both ends of the guide flange 11 in the drawing direction of the battery case 2 are raised upward, and the angle of the upward raising may be 45 °, for example.

That is, in the present embodiment, the both ends of the guide flange 11 are raised upward by a certain angle, so that the tolerance of the processing accuracy can be further improved, and the guide function can be provided, so that the side edges can be smoothly inserted into and pulled out through the raised both ends when the battery case 2 is inserted into and removed from the battery case, thereby further improving the efficiency of attaching and detaching the battery case 2. In other equivalent embodiments, the two ends of the guide folding edge 11 are raised upwards by 40-50 degrees.

Referring to fig. 3 and 4, a third embodiment of the present invention is:

on the basis of the first or second embodiment, in this embodiment, as shown in fig. 3 or 4, a layer of EVA foam 12 is disposed on one surface of the guide folding edge 11 facing the transverse portion 15, and the thickness of the battery box 2 is adapted to the distance between the transverse portion 15 of the electrical cabinet bracket 1 and the EVA foam 12.

That is in this embodiment, set up one deck EVA bubble cotton 12 in direction hem 11 below, can prevent that the 2 sides of battery box and 11 rigid collision of direction hem from leading to falling lacquer and assembly difficulty, and EVA bubble cotton 12 and the 2 sides of battery box accessible tight fit so that battery box 2 assembles in place, prevent that battery box 2 from rocking from top to bottom in the vibration process.

Referring to fig. 1, fig. 2 and fig. 5, a fourth embodiment of the present invention is:

on the basis of any one of the first to third embodiments, in this embodiment, a limiting flange 13 for blocking the battery box 2 is disposed at an end of the electric cabinet support 1 located at the end of the battery box 2 in the insertion direction, and can be used for limiting the battery box 2 in place, so as to avoid the battery box 2 from being excessively loaded and marking out the length range of the electric cabinet support 1.

Referring to fig. 6, a fifth embodiment of the present invention is:

the utility model provides an electric cabinet, includes electric cabinet body 3 and the multilayer that sets up at the upper and lower interval in electric cabinet body 3 as a battery box fast loading and unloading structure of any one of above-mentioned embodiment one to fourth, sets up multilayer battery box 2 fast loading and unloading structure promptly on electric cabinet, realizes the fast loading and unloading of a plurality of battery boxes 2 on the electric cabinet, improves the performance of electric cabinet.

In summary, according to the quick battery box assembling and disassembling structure and the electric cabinet provided by the utility model, the L-shaped electric cabinet supports are oppositely arranged on the left side and the right side of the electric cabinet, the guide folding edge is arranged above the electric cabinet supports, the battery box can be directly slid into the transverse part of the electric cabinet supports with the guide folding edge in a clamping manner, so that the quick battery box assembling is realized, the battery box is stably limited on the electric cabinet through the electric cabinet supports, and the quick battery box disassembling can be realized by directly pulling out the lower box body of the battery box from the electric cabinet supports, so that the quick battery box assembling and disassembling are integrally realized; the battery box adopts a box body structure with an upper opening, so that the battery can be conveniently loaded, and the battery can be further quickly loaded and unloaded by matching with the quick loading and unloading of the battery box on the electric cabinet bracket; a layer of EVA foam is arranged below the guide folding edge, so that paint falling and difficulty in assembly caused by rigid collision between the side edge of the battery box and the guide folding edge can be prevented, the EVA foam and the side edge of the battery box can be tightly matched to enable the battery box to be assembled in place, and the battery box is prevented from shaking up and down in the vibration process; meanwhile, the side edge of the battery box is designed into two steps with the height reduced along the inserting direction of the battery box, two guide folding edges with the height matched with the two height of the side edge of the battery box are arranged on the electric cabinet support in a matched mode, and the two ends of each guide folding edge are lifted upwards by a certain angle, so that the machining precision requirement is lowered, and the battery box is further conveniently installed into the electric cabinet support; in addition, a limiting folding edge is arranged at one end, positioned at the tail end of the battery box in the inserting direction, of the electric cabinet support and used for limiting the battery box which is arranged in place, so that the situation that the length range of the electric cabinet support is drawn due to the fact that the battery box is excessively arranged is avoided; set up multilayer battery box fast loading and unloading structure on electric cabinet at last, realize the fast loading and unloading of a plurality of battery boxes on the electric cabinet, improved the wholeness ability of electric cabinet.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (8)

1. A quick assembling and disassembling structure of a battery box is characterized by comprising the battery box and two electric cabinet supports;

the electric cabinet support is of an L-shaped structure comprising a transverse part and a vertical part, the two electric cabinet supports are respectively arranged on the left side and the right side of the electric cabinet, and the transverse parts are oppositely arranged;

guide folding edges extending towards each other are respectively arranged above the vertical parts of the two electric cabinet supports;

the thickness of the battery box is matched with the distance between the transverse part of the electric cabinet bracket and the guide folding edge so as to move between the transverse part of the two electric cabinet brackets and the guide folding edge in a drawing mode.

2. The quick-assembling/disassembling structure for battery box according to claim 1, wherein said battery box is an upper opening box structure.

3. The quick assembling and disassembling structure for the battery box according to claim 1, wherein one side of said guide folding edge facing said transverse portion is provided with a layer of EVA foam;

the thickness of the battery box is matched with the distance between the transverse part of the electric cabinet bracket and the EVA foam.

4. The quick assembling and disassembling structure for the battery box according to claim 1, wherein each of said electric cabinet supports is provided with two said guiding flanges;

the height of the two guide folding edges from the transverse part is reduced along the insertion direction of the battery box and is respectively adapted to the height of the front part and the rear part of the side edge of the battery box.

5. The quick assembling and disassembling structure for the battery box according to claim 1, wherein both ends of said guide flange in the drawing direction of said battery box are raised upward.

6. The quick assembling and disassembling structure for the battery box according to claim 5, wherein the angle of the upward lifting of both ends of the guide flange is 40 ° to 50 °.

7. The quick assembling and disassembling structure for the battery box according to claim 1, wherein a limit flange for blocking the battery box is provided at one end of the electric cabinet bracket located at the end of the battery box in the inserting direction.

8. An electric cabinet, characterized in that, comprises an electric cabinet body and a plurality of layers of the battery box fast loading and unloading structure as claimed in any one of claims 1 to 7 arranged in the electric cabinet body at intervals up and down.

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