CN217062276U - Energy storage frame and energy storage container - Google Patents

Abstract

The utility model provides an energy storage frame and energy storage container, wherein, this energy storage frame includes: the rear side edge of the frame is connected with a heat dissipation frame along the circumferential direction, and the top surface of the heat dissipation frame is provided with an air inlet. The utility model discloses an edge along circumference at the rear side of frame connects heat dissipation frame to set up the air intake at the top surface of heat dissipation frame, make the inside wall of heat dissipation frame and the container that bears the energy storage frame meet and form ventilation duct, thereby improve heat dispersion, and then improve energy storage equipment's life.

Description

Energy storage frame and energy storage container

Technical Field

The utility model relates to a battery technology field, in particular to energy storage frame and energy storage container.

Background

Energy storage equipment generally includes the energy storage frame and places the battery subrack in the energy storage frame, because the battery subrack piles up in the energy storage frame, if the produced heat of battery work is not in time scattered, will influence whole energy storage equipment's work, and the thermal diffusivity of the energy storage frame among the prior art is not good, and then influences energy storage equipment's life.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy storage frame that thermal diffusivity is good.

In order to achieve the above object, the utility model provides an energy storage frame, it includes:

the frame, the rear side edge of frame has the heat dissipation frame along circumference connection, the air intake has been seted up to the top surface of heat dissipation frame.

Compared with the prior art, the technical scheme has the following advantages:

the heat dissipation frame is connected to the rear side edge of the frame along the circumferential direction, and the air inlet is formed in the top face of the heat dissipation frame, so that the heat dissipation frame is connected with the inner side wall of a container bearing the energy storage rack to form a heat dissipation and ventilation air duct, the heat dissipation performance is improved, and the service life of the energy storage equipment is prolonged.

Another object of the utility model is to provide a heat dissipation is good energy storage container.

In order to achieve the above object, the utility model provides an energy storage container, it includes:

the heat dissipation frame of the energy storage rack is abutted to the inner surface of the box body.

Through the box butt with heat dissipation frame and container for energy storage frame rear side forms the wind channel of confined heat dissipation ventilation, thereby ensures that the heat dissipation is good.

Drawings

The following drawings are only intended to illustrate and explain the present invention, and do not limit the scope of the present invention. Wherein:

fig. 1 is a schematic perspective view of an energy storage rack provided by the present invention;

fig. 2 is a schematic view of a heat dissipation frame according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of an energy storage rack according to an embodiment of the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 2;

fig. 5 is a schematic structural diagram of the energy storage container provided by the present invention.

The reference numbers illustrate:

101. a frame; 102. a heat dissipation frame; 103. an air inlet; 201. a base plate; 202. a side plate; 104. a seal member; 105. a sealing collar; 301. a partition plate; 401. a card slot; 501. an energy storage frame; 502. and (4) a box body.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings and examples. The features and advantages of the present application will become more apparent from the description.

The word "exemplary" is used exclusively herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments. While the various aspects of the embodiments are presented in drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

In addition, the technical features related to the different embodiments of the present application described below may be combined with each other as long as they do not conflict with each other.

Example one

As shown in fig. 1-4, the utility model provides an energy storage rack, include:

the frame 101, the rear side edge of the frame 101 is connected with a heat dissipation frame 102 along the circumference, and the top surface of the heat dissipation frame 102 is provided with an air inlet 103.

The energy storage rack, when installed, will be fixed in the energy storage container at a distance from the inner side wall, wherein the rear side of the frame 101 is the side facing the container. And the bottom plate of the frame 101 is the side placed on the container ground, the top plate of the frame 101 is arranged opposite to the bottom plate of the frame 101, and the left side and the right side are two side plates of the frame 101.

The heat dissipation frame 102 is connected to the rear side edge of the frame 101 along the circumferential direction, and the air inlet 103 is formed in the top surface of the heat dissipation frame 102, so that the heat dissipation frame 102 is connected with the inner side wall of a container bearing an energy storage rack to form a ventilation air duct, heat dissipation performance is improved, and the service life of energy storage equipment is prolonged.

In the specific embodiment, the space that the heat dissipation frame encloses forms heat dissipation channel, during specific application, a plurality of battery subracks have been placed in the energy storage frame, every battery subrack rear side all is connected with this heat dissipation channel, and install air conditioning system above the energy storage frame, air conditioning system's air outlet links to each other with the air intake 103 of heat dissipation frame, air conditioning system carries cold wind to the heat dissipation channel in, in the ventilation hole entering subrack that the battery subrack rear side was seted up respectively again, take away the heat that the battery during operation produced, and take out through the fan of installing on the battery subrack, thereby accomplish the heat dissipation.

In a specific embodiment, the heat dissipating frame 102 includes a bottom plate 201 and two side plates 202, the two side plates 202 are respectively connected to two ends of the bottom plate 201 and located at the same side of the bottom plate 201, the bottom plate 201 is connected to an edge of the bottom plate of the frame 101, and the two side plates 202 are respectively connected to edges of the two side plates of the frame 101, so that a large air inlet 103 is formed at a top thereof. The energy storage rack-mount has certain distance in the container to the inside wall with the container, and heat dissipation frame 102 one end is connected on the frame 101 of energy storage rack, and behind the inside wall butt of the other end and container, can make energy storage rack rear side form the heat dissipation passageway of a big U-shaped for the ventilation, thereby makes the heat that the battery subrack during operation that places in the energy storage rack produced in time spill.

In the embodiment, as shown in fig. 3, a partition 301 is disposed in the heat dissipating frame, a lower end of the partition 301 is connected to the bottom plate 201, an upper end of the partition 301 extends to the air inlet 103, the partition 301 divides an inner space of the heat dissipating frame 102 into a plurality of heat dissipating cavities, and each heat dissipating cavity is respectively communicated with the air inlet 103. The local heat dissipation of the energy storage rack is realized by controlling whether the air inlet conveys cold air to each heat dissipation cavity.

In specific implementation, the cross section of the bottom plate 201 and the cross section of the side plate 202 are both L-shaped, the bottom plate 201 and the side plate 202 are both connected with the frame 101 through connecting pieces, and the short side of the bottom plate 201 is attached to the rear side of the frame 101; the short sides of the side plates 202 are attached to the rear side of the frame 101. In a specific embodiment, the bottom plate 201 includes a long side and a short side, which are perpendicular to each other to form an L-shape; the side panel 202 includes a long side and a short side, which are perpendicular to each other to form an L-shape. The connecting members may be bolts, fixing pins, or rivets, holes are formed in the short sides of the L-shape of the bottom plate 201 and the side plate 202, holes are formed in corresponding positions on the rear side surface of the frame 101, and the bottom plate 201 and the side plate 202 are fixed to the frame 101 by inserting the connecting members such as bolts, fixing pins, or rivets through the holes. In the specific embodiment, the bottom plate 201 and the two side plates 202 are of an integrated structure, which not only can ensure sufficient mechanical strength, but also has simple processing technology and lower cost.

In order to further improve the heat dissipation performance and improve the heat dissipation effect, in a specific embodiment, a sealing element 104 is connected to an end of the heat dissipation frame 102 facing away from the frame 101, and in specific implementation, as shown in fig. 4, a sealing collar 105 is connected to an end of the heat dissipation frame 102 facing away from the frame 101 to increase the sealing performance of the formed ventilation air duct, so that a fan arranged on the battery subrack can better draw cold air in the air duct to pass through the battery subrack, thereby improving the heat dissipation performance.

In a specific embodiment, as shown in fig. 4, a clamping groove 401 for clamping the heat dissipation frame 102 is disposed on the sealing element 104, and an end of the heat dissipation frame 102 facing away from the frame 101 is inserted into the clamping groove 401. In another embodiment, the sealing member 104 is connected to the heat dissipating frame 102 by bonding.

Example two

The utility model also provides an energy storage container for realize good heat dissipation, as shown in fig. 5, include: the energy storage rack 501 and the box 502 are arranged, wherein the heat dissipation frame 102 of the energy storage rack 501 is abutted against the inner surface of the box 502. By abutting the heat dissipation frame 102 against the inner surface of the container body 502 of the container, a closed heat dissipation and ventilation air duct is formed on the rear side of the energy storage rack 501, thereby ensuring good heat dissipation.

Specifically, the sealing element 104 connected to the heat dissipation frame 102 abuts against the inner wall of the box body 502, so that a closed space is defined by the heat dissipation frame 102 and the box body 502 at the rear side of the energy storage rack 501, that is, a heat dissipation channel is formed. By forming a relatively sealed heat dissipation structure, heat dissipation performance is improved.

Compared with the prior art, the utility model has the advantages of it is following:

the rear side edge of the frame is circumferentially connected with the heat dissipation frame, the top surface of the heat dissipation frame is provided with the air inlet, the heat dissipation frame is connected with a container bearing the energy storage rack to form a ventilation air channel, and after cold air enters the air channel through the air inlet, the cold air enters the battery insertion box from the rear side of the battery insertion box and passes through the battery insertion box to take away heat generated by battery operation, so that the heat dissipation performance is improved, and the service life of energy storage equipment is prolonged. The sealing element is connected to the end, back to the frame, of the heat dissipation frame, so that the sealing performance of the ventilation air duct is improved, more cold air passes through the battery plug-in box when the fan works, and the heat dissipation performance is further improved.

In the description of the present application, it should be noted that the terms "upper", "left", "right", "rear", "inner", etc. indicate the orientation or positional relationship based on the operation state of the present application, and are only for convenience of description and simplification of the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present application.

In the description of the present application, it is to be noted that the terms "mounted," "connected," and "connected" are to be construed broadly unless otherwise explicitly stated or limited. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The present application has been described above with reference to preferred embodiments, but these embodiments are merely exemplary and merely illustrative. On the basis of the above, the present application can be subjected to various substitutions and improvements, and the substitutions and the improvements are all within the protection scope of the present application.

Claims (10)

1. The utility model provides an energy storage frame, its characterized in that, energy storage frame includes the frame, the trailing edge of frame has the heat dissipation frame along circumferential connection, the air intake has been seted up to the top surface of heat dissipation frame.

2. Energy storage rack according to claim 1,

the heat dissipation frame comprises a bottom plate and two side plates, the two side plates are respectively connected to two ends of the bottom plate and located on the same side of the bottom plate, the bottom plate is connected with the edge of the bottom plate of the frame, and the two side plates are respectively connected with the edges of the two side plates of the frame.

3. The energy storage frame as claimed in claim 2, wherein a partition is disposed in the heat dissipation frame, a lower end of the partition is connected to the bottom plate, an upper end of the partition extends to the air inlet, the partition divides an inner space of the heat dissipation frame into a plurality of heat dissipation chambers, and each heat dissipation chamber is respectively communicated with the air inlet.

4. Energy storage rack according to claim 2,

the cross section of the bottom plate and the cross section of the side plate are both L-shaped.

5. The energy storage rack according to claim 4, wherein the short side of the bottom plate is in fit connection with the rear side of the frame;

the short edges of the side plates are attached to the rear side face of the frame.

6. Energy storage rack according to claim 2,

the bottom plate and the side plates are connected with the frame through connecting pieces.

7. Energy storage rack according to claim 2,

the bottom plate and the two side plates are of an integrated structure.

8. Energy storage rack according to one of the claims 1 to 7,

one end of the heat dissipation frame, which is back to the frame, is connected with a sealing element.

9. Energy storage rack according to claim 8,

the sealing element is provided with a clamping groove for clamping the heat dissipation frame, and one end of the frame, which faces away from the heat dissipation frame, is inserted into the clamping groove.

10. An energy storage container, comprising: a tank and a stored energy rack as claimed in any one of claims 1 to 9, the heat sink of the rack abutting an inner surface of the tank.

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