CN215578794U - Energy storage equipment convenient to management battery package - Google Patents

Abstract

The utility model discloses an energy storage device convenient for managing a battery pack, which comprises: an outer frame body and a plurality of tray battery pack assemblies; a plurality of said tray battery pack assemblies stacked together from top to bottom and located inside said outer frame body; the vertical projections of a plurality of tray battery pack assemblies are overlapped; the tray battery pack assembly comprises a tray and a battery pack carried by the tray; the tray battery pack assembly is in sliding fit with the outer frame body through a sliding assembly. The utility model has the beneficial effects that: bear the weight of the battery through setting up the tray, carry a set battery package assembly through the sliding assembly with outer frame main part sliding fit, the process of taking is convenient.

Description

Energy storage equipment convenient to management battery package

Technical Field

The utility model relates to the field of energy storage, in particular to energy storage equipment convenient for managing a battery pack.

Background

When analyzing the energy storage process, the part of the object or the spatial extent drawn for determining the object under study is referred to as the energy storage system. It includes energy and matter input and output, energy conversion and storage devices. Energy storage systems often involve multiple energies, multiple devices, multiple substances, multiple processes, are time-varying complex energy systems that require multiple indices to describe their performance. The commonly used evaluation indexes include energy storage density, energy storage power, energy storage efficiency, energy storage price, influence on the environment and the like.

The energy storage equipment mainly comprises a battery pack, but the existing battery pack is inconvenient in taking process.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an energy storage device convenient for managing a battery pack, and the energy storage device is convenient to take.

In order to solve the above technical problem, the present invention provides an energy storage device convenient for managing a battery pack, comprising: an outer frame body and a plurality of tray battery pack assemblies; a plurality of said tray battery pack assemblies stacked together from top to bottom and located inside said outer frame body; the vertical projections of a plurality of tray battery pack assemblies are overlapped; the tray battery pack assembly comprises a tray and a battery pack carried by the tray; the tray battery pack assembly is in sliding fit with the outer frame body through a sliding assembly.

The utility model has the beneficial effects that:

bear the weight of the battery through setting up the tray, carry a set battery package assembly through the sliding assembly with outer frame main part sliding fit, the process of taking is convenient.

In one embodiment, the sliding assembly comprises a first guide rail, a second guide rail, a first slider and a second slider; the first guide rail is fixed on one side of the external frame body, the second guide rail is fixed on the other side of the external frame body, and the first guide rail and the second guide rail are parallel to each other; and a first sliding block is fixed at one end of the tray and is in rolling fit with the first guide rail, a second sliding block is fixed at the other end of the tray and is in rolling fit with the second guide rail.

In one embodiment, the outer frame body includes an upper frame, a lower frame, and upper and lower connection rods; the number of the upper connecting rods and the lower connecting rods is four, and two ends of the four upper connecting rods and two ends of the four lower connecting rods are respectively fixed between the upper frame and the lower frame; the area of the upper frame is the same as that of the lower frame, the vertical projection of the upper frame completely covers the lower frame, and the upper frame and the lower frame are parallel to each other.

In one embodiment, the area of the upper frame and the area of the lower frame are the same, the vertical projection of the upper frame completely covers the lower frame, and the upper frame and the lower frame are parallel to each other.

In one embodiment, the upper frame includes a first upper frame connecting rod, a second upper frame connecting rod, a third upper frame connecting rod, and a fourth upper frame connecting rod; the first upper frame connecting rod, the second upper frame connecting rod, the third upper frame connecting rod and the fourth upper frame connecting rod are fixedly connected end to end in sequence; the length of the first upper frame connecting rod is equal to that of the third upper frame connecting rod, and the first upper frame connecting rod and the third upper frame connecting rod are parallel to each other; the length of the second upper frame connecting rod is equal to that of the fourth upper frame connecting rod, and the second upper frame connecting rod is parallel to the fourth upper frame connecting rod.

In one embodiment, the lower frame includes a first lower frame connecting rod, a second lower frame connecting rod, a third lower frame connecting rod, and a fourth lower frame connecting rod; the first lower frame connecting rod, the second lower frame connecting rod, the third lower frame connecting rod and the fourth lower frame connecting rod are fixedly connected end to end in sequence; the length of the first lower frame connecting rod is equal to that of the third lower frame connecting rod, and the first lower frame connecting rod and the third lower frame connecting rod are parallel to each other; the length of the second lower frame connecting rod is equal to that of the fourth lower frame connecting rod, and the second lower frame connecting rod is parallel to the fourth lower frame connecting rod.

In one embodiment, the tray battery pack assembly slides from a first preset position to a second preset position, the first preset position is located inside the outer frame body, and the second preset position is located outside the outer frame body.

In one embodiment, the back of the outer frame main body is provided with a mounting back plate; the mounting back plate is fixed on the back of the outer frame main body; a female connector is arranged on one side, close to the battery pack, of the mounting back plate, and a male connector is arranged on one side, close to the mounting back plate, of the battery pack; the male connector is inserted into the female connector.

In one embodiment, the tray comprises a bearing tray body and a handle mechanism arranged on one side, far away from the outer frame body, of the bearing tray body, wherein the handle mechanism comprises a left handle and a right handle, the left handle and the right handle are symmetrically arranged relative to the bearing tray body, the left handle is fixedly connected with the bearing tray body, and the right handle is fixedly connected with the bearing tray body.

In one embodiment, the left handle and the right handle are identical in structure and comprise a first vertical part, a first transitional arc part, a horizontal part, a second transitional arc part and a second vertical part; one end of the horizontal part is fixed with the first vertical part through the first transition circular arc part, and the other end of the horizontal part is fixed with the second vertical part through the second transition circular arc part; the first vertical part, the first transition arc part, the horizontal part, the second transition arc part and the second vertical part are integrally formed.

Drawings

Fig. 1 is a schematic diagram of an energy storage device for facilitating management of a battery pack in accordance with the present invention.

Fig. 2 is a schematic structural diagram of a tray battery pack assembly in an energy storage device for facilitating management of battery packs according to the present invention.

Fig. 3 is a cross-sectional view of a boat battery pack assembly in an energy storage device that facilitates management of battery packs in accordance with the present invention.

Fig. 4 is a partially enlarged schematic view of fig. 3.

The reference numbers are as follows: 110. a first upper frame connecting rod; 120. a second upper frame connecting rod; 130. a third upper frame connecting rod; 140. a fourth upper frame connecting rod; 150. an upper connecting rod and a lower connecting rod; 160. a first lower frame connecting rod; 170. a second lower frame connecting rod; 310. a first vertical portion; 320. a first transition arc portion; 330. a horizontal portion; 340. a second transition arc portion; 350. a second vertical portion; 360. receiving the tray body; 370. a battery pack; 380. a first guide rail; 410. mounting a back plate; 420. a male connector; 430. a female connector; 440. positioning pins; 460. a bolt; 470. and (6) pressing and riveting the nut.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

Referring to fig. 1 through 4, an energy storage device for facilitating management of a battery pack, includes: an outer frame body and a plurality of tray battery pack assemblies; a plurality of said tray battery pack assemblies stacked together from top to bottom and located inside said outer frame body; the vertical projections of a plurality of tray battery pack assemblies are overlapped; the tray battery pack assembly comprises a tray and a battery pack 370 carried by the tray; the tray battery pack assembly is in sliding fit with the outer frame body through a sliding assembly.

Bear the weight of the battery through setting up the tray, carry a set battery package assembly through the sliding assembly with outer frame main part sliding fit, the process of taking is convenient. The tray battery pack assembly slides from a first preset position to a second preset position, the first preset position is located inside the outer frame body, and the second preset position is located outside the outer frame body.

Referring to fig. 2, in particular, the sliding assembly includes a first guide rail 380, a second guide rail, a first slider, and a second slider; the first guide rail 380 is fixed to one side of the outer frame body, the second guide rail is fixed to the other side of the outer frame body, and the first guide rail 380 and the second guide rail are parallel to each other; and a first sliding block is fixed at one end of the tray and is in rolling fit with the first guide rail 380, a second sliding block is fixed at the other end of the tray and is in rolling fit with the second guide rail. The matching of the guide rail and the sliding block is a common sliding component, and the specific structure is not described in detail.

The outer frame body includes an upper frame, a lower frame, and upper and lower connection rods 150; the number of the upper and lower connecting rods 150 is four, and both ends of the four upper and lower connecting rods 150 are respectively fixed between the upper frame and the lower frame; the area of the upper frame is the same as that of the lower frame, the vertical projection of the upper frame completely covers the lower frame, and the upper frame and the lower frame are parallel to each other.

More specifically, the upper frame includes a first upper frame connection rod 110, a second upper frame connection rod 120, a third upper frame connection rod 130, and a fourth upper frame connection rod 140; the first upper frame connecting rod 110, the second upper frame connecting rod 120, the third upper frame connecting rod 130 and the fourth upper frame connecting rod 140 are fixedly connected end to end in sequence; the length of the first upper frame connecting rod 110 is equal to the length of the third upper frame connecting rod 130, and the first upper frame connecting rod 110 and the third upper frame connecting rod 130 are parallel to each other; the length of the second upper frame connecting rod 120 is equal to the length of the fourth upper frame connecting rod 140, and the second upper frame connecting rod 120 and the fourth upper frame connecting rod 140 are parallel to each other.

The lower frame includes a first lower frame connecting rod 160, a second lower frame connecting rod 170, a third lower frame connecting rod, and a fourth lower frame connecting rod; the first lower frame connecting rod 160, the second lower frame connecting rod 170, the third lower frame connecting rod and the fourth lower frame connecting rod are fixedly connected end to end in sequence; the length of the first lower frame connecting rod 160 is equal to that of the third lower frame connecting rod, and the first lower frame connecting rod 160 and the third lower frame connecting rod are parallel to each other; the length of the second lower frame connecting rod 170 is equal to the length of the fourth lower frame connecting rod, and the second lower frame connecting rod 170 and the fourth lower frame connecting rod are parallel to each other.

In order to facilitate electrical connection between the battery pack 370 and the outer frame body, a mounting back plate 410 is provided at the back of the outer frame body; the mounting back plate 410 is fixed to the back of the outer frame body; a female connector 430 is arranged on one side of the mounting backboard 410 close to the battery pack 370, and a male connector 420 is arranged on one side of the battery pack 370 close to the mounting backboard 410; the male connector 420 is inserted into the female connector 430. The male connector 420 is inserted into the female connector 430, so that the connection is convenient and reliable.

For the convenience of moving the tray, the tray is in including accepting disk body 360 and setting accept disk body 360 and keep away from be equipped with handle mechanism on external frame main part one side, handle mechanism includes left handle and right handle, left side handle with right handle about accept disk body 360 symmetry setting, left side handle with accept disk body 360 fixed connection, right side handle with accept disk body 360 fixed connection. The tray is quickly and conveniently pulled by the handle mechanism.

Specifically, the left handle and the right handle have the same structure and each include a first vertical portion 310, a first transitional arc portion 320, a horizontal portion 330, a second transitional arc portion 340, and a second vertical portion 350; one end of the horizontal portion 330 is fixed to the first vertical portion 310 through the first transitional arc portion 320, and the other end of the horizontal portion 330 is fixed to the second vertical portion 350 through the second transitional arc portion 340; the first vertical portion 310, the first transitional arc portion 320, the horizontal portion 330, the second transitional arc portion 340, and the second vertical portion 350 are integrally formed.

The positioning pin 440 is riveted on the tray on which the battery pack 370 is placed, and a limiting hole matched with the positioning pin 440 is added at the bottom of the battery pack 370, so that accurate limiting on a horizontal plane can be ensured; the battery pack 370 and the bolt 460 are tightly connected by the fixing mode of the bolt 460 and the rivet pressing nut 470, and after the male connector 420 at the tail of the battery pack 370 is inserted into the female connector 430 on the outer frame body, the battery pack can be completely constrained in the vertical direction.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the utility model is all within the protection scope of the utility model. The protection scope of the utility model is subject to the claims.

Claims (10)

1. An energy storage device for facilitating management of a battery pack, comprising: an outer frame body and a plurality of tray battery pack assemblies; a plurality of said tray battery pack assemblies stacked together from top to bottom and located inside said outer frame body; the vertical projections of a plurality of tray battery pack assemblies are overlapped; the tray battery pack assembly comprises a tray and a battery pack carried by the tray; the tray battery pack assembly is in sliding fit with the outer frame body through a sliding assembly.

2. The energy storage device to facilitate management of a battery pack of claim 1, wherein the sliding assembly comprises a first rail, a second rail, a first slider, and a second slider; the first guide rail is fixed on one side of the external frame body, the second guide rail is fixed on the other side of the external frame body, and the first guide rail and the second guide rail are parallel to each other; and a first sliding block is fixed at one end of the tray and is in rolling fit with the first guide rail, a second sliding block is fixed at the other end of the tray and is in rolling fit with the second guide rail.

3. The energy storage device for facilitating management of a battery pack of claim 1, wherein the outer frame body comprises an upper frame, a lower frame, and upper and lower connection rods; the number of the upper connecting rods and the lower connecting rods is four, and two ends of the four upper connecting rods and two ends of the four lower connecting rods are respectively fixed between the upper frame and the lower frame.

4. The energy storage device for facilitating management of a battery pack as claimed in claim 3, wherein the area of the upper frame and the area of the lower frame are the same, a vertical projection of the upper frame completely covers the lower frame, and the upper frame and the lower frame are parallel to each other.

5. The energy storage device to facilitate management of a battery pack of claim 3, wherein the upper frame comprises a first upper frame connecting rod, a second upper frame connecting rod, a third upper frame connecting rod, and a fourth upper frame connecting rod; the first upper frame connecting rod, the second upper frame connecting rod, the third upper frame connecting rod and the fourth upper frame connecting rod are fixedly connected end to end in sequence; the length of the first upper frame connecting rod is equal to that of the third upper frame connecting rod, and the first upper frame connecting rod and the third upper frame connecting rod are parallel to each other; the length of the second upper frame connecting rod is equal to that of the fourth upper frame connecting rod, and the second upper frame connecting rod is parallel to the fourth upper frame connecting rod.

6. The energy storage device to facilitate management of a battery pack of claim 4, wherein the lower frame includes a first lower frame connecting rod, a second lower frame connecting rod, a third lower frame connecting rod, and a fourth lower frame connecting rod; the first lower frame connecting rod, the second lower frame connecting rod, the third lower frame connecting rod and the fourth lower frame connecting rod are fixedly connected end to end in sequence; the length of the first lower frame connecting rod is equal to that of the third lower frame connecting rod, and the first lower frame connecting rod and the third lower frame connecting rod are parallel to each other; the length of the second lower frame connecting rod is equal to that of the fourth lower frame connecting rod, and the second lower frame connecting rod is parallel to the fourth lower frame connecting rod.

7. The energy storage device for facilitating management of battery packs as claimed in claim 1, wherein the tray battery pack assembly slides from a first predetermined position to a second predetermined position, the first predetermined position being located inside the outer frame body and the second predetermined position being located outside the outer frame body.

8. The energy storage device to facilitate management of battery packs of claim 1, wherein a back portion of the outer frame body is provided with a mounting backplate; the mounting back plate is fixed on the back of the outer frame main body; a female connector is arranged on one side, close to the battery pack, of the mounting back plate, and a male connector is arranged on one side, close to the mounting back plate, of the battery pack; the male connector is inserted into the female connector.

9. The energy storage device facilitating management of battery packs of claim 8, wherein the tray comprises a receiving tray body and a handle mechanism disposed on a side of the receiving tray body remote from the outer frame body, the handle mechanism comprising a left handle and a right handle, the left handle and the right handle being symmetrically disposed about the receiving tray body, the left handle being fixedly connected to the receiving tray body, the right handle being fixedly connected to the receiving tray body.

10. The energy storage device for facilitating management of a battery pack of claim 9, wherein the left and right handles are identical in construction and each include a first vertical portion, a first transitional arc portion, a horizontal portion, a second transitional arc portion, and a second vertical portion; one end of the horizontal part is fixed with the first vertical part through the first transition circular arc part, and the other end of the horizontal part is fixed with the second vertical part through the second transition circular arc part; the first vertical part, the first transition arc part, the horizontal part, the second transition arc part and the second vertical part are integrally formed.

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