CN219970278U - External operation device for energy storage battery pack box - Google Patents

Abstract

The utility model discloses an external transfer device of an energy storage battery pack box, which comprises battery pack brackets, wherein an upper sliding sleeve and a lower sliding sleeve are respectively arranged at two ends of each battery pack bracket, an upper guide rod penetrates through the two upper sliding sleeves, a second bottom rod penetrates through the two lower sliding sleeves, and main upright rods are respectively arranged between the left end of the second bottom rod and the left end of the upper guide rod above and between the right end of the second bottom rod and the right end of the upper guide rod right above the second bottom rod. According to the utility model, aiming at the problem that the time and the labor are wasted when the battery pack is transported outside the energy storage box during the replacement of the battery pack of the energy storage box, the same structure as the battery pack support in the energy storage box is adopted as a bearing substrate of the battery pack, then the two battery pack supports are arranged on a three-dimensional frame one by one, when in use, the three-dimensional frame is attached to the front of a door of the energy storage box, the two battery pack supports are positioned at the left side and the right side of a door of the energy storage box, and after the battery pack is taken out, the battery pack support of the three-dimensional frame can be directly and laterally inserted, so that the transportation is convenient, time-saving and labor-saving.

Description

External operation device for energy storage battery pack box

Technical Field

The utility model relates to the technical field of energy storage equipment, in particular to an external transportation device for an energy storage battery pack.

Background

In recent years, with the development of new energy technology, an energy storage box battery pack is becoming an important energy storage mode. However, in the actual use process, when the battery pack in the energy storage box needs to be replaced, the battery pack often needs to be taken out of the energy storage box and transferred out of the energy storage box, and the process is time-consuming and labor-consuming. The traditional battery pack replacement mode mainly depends on a mode of lifting and connecting by a plurality of people to carry and transport, and has the problems of low operation efficiency, complex operation and the like, so that a battery pack box carrying and transporting structure capable of simplifying operation and improving efficiency is urgently needed.

Disclosure of Invention

The utility model provides an external transfer device for an energy storage battery pack box, which adopts the same structure as a battery pack bracket in the energy storage box as a bearing substrate of a battery pack, and then the two battery pack brackets are arranged on a three-dimensional frame one by one.

The technical scheme of the utility model is as follows:

the utility model provides an external transportation device of an energy storage battery pack box, which comprises battery pack brackets, wherein the two battery pack brackets are oppositely arranged left and right, an upper sliding sleeve and a lower sliding sleeve are respectively arranged at the upper end and the lower end of each battery pack bracket, an upper guide rod penetrates through the two upper sliding sleeves, a second bottom rod penetrates through the two lower sliding sleeves, and main vertical rods are respectively arranged between the left end of the second bottom rod and the left end of the upper guide rod right above the second bottom rod and between the right end of the second bottom rod and the right end of the upper guide rod right above the second bottom rod.

Further, a first bottom rod is arranged at the lower part between the left main vertical rods and the right main vertical rods, a vertical middle rod is arranged between the first bottom rod and the middle part of the second bottom rod right above the first bottom rod, and horizontal middle rods are respectively arranged between the two first bottom rods and between the two second bottom rods.

Further, the spacing between the opposite ends of the two lower sliding sleeves is greater than the spacing between the opposite ends of the two battery holders.

Further, side connecting rods are respectively arranged between the upper end and the lower end of the two front-back opposite main vertical rods, and the projections of the side connecting rods and the battery pack support on the left view are not overlapped.

Further, the lower end of the main vertical rod is provided with a universal wheel.

The utility model adopts the technology, so that compared with the prior art, the utility model has the following specific positive and beneficial effects:

1. according to the utility model, aiming at the problem that the time and the labor are wasted when the battery pack is transported outside the energy storage box during the replacement of the battery pack of the energy storage box, the same structure as the battery pack support in the energy storage box is adopted as a bearing substrate of the battery pack, then the two battery pack supports are arranged on a three-dimensional frame one by one, when in use, the three-dimensional frame is attached to the front of a door of the energy storage box, the two battery pack supports are positioned at the left side and the right side of a door of the energy storage box, and after the battery pack is taken out, the battery pack support of the three-dimensional frame can be directly and laterally inserted, so that the transportation is convenient, time-saving and labor-saving.

2. According to the utility model, the upper sliding sleeve and the lower sliding sleeve are arranged at the upper end and the lower end of the two battery pack brackets, so that the two battery pack brackets can relatively move in the three-dimensional frame, and the two battery pack brackets can adapt to energy storage box doors with different widths.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a front view of the present utility model;

fig. 3 is a left side view of the present utility model.

In the figure: 1-upper sliding sleeve, 2-sliding support, 3-main vertical rod, 4-joint seat, 5-universal wheel, 6-first bottom rod, 7-vertical middle rod, 8-second bottom rod, 9-horizontal middle rod, 10-lower sliding sleeve, 11-bearing angle plate, 12-side connecting rod, 13-upper guide rod and 14-handle.

Detailed Description

Embodiment one:

as shown in fig. 1-3, the utility model provides an external transportation device for an energy storage battery pack box, which comprises a battery pack support, wherein the battery pack support adopts the same structure as the battery pack support in the energy storage box and mainly comprises a sliding support 2 and a bearing angle plate 11, each two opposite bearing angle plates 11 are bearing units of the battery pack, the two battery pack supports are oppositely arranged on a three-dimensional frame left to right, the upper and lower ends of the battery pack support are respectively provided with an upper sliding sleeve 1 and a lower sliding sleeve 10, an upper guide rod 13 penetrates between the two upper sliding sleeves 1, a second bottom rod 8 penetrates between the two lower sliding sleeves 10, the left end of the upper guide rod 13 right above the second bottom rod 8 and the right end of the upper guide rod 13 right above the second bottom rod 8 are respectively provided with a main vertical rod 3, the lower ends of the main vertical rod 3 are provided with a joint seat 4, the joint seat 4 is provided with universal wheels 5 through bolting, thus the two horizontal upper vertical rods 13, the two second bottom rods 8 and four main rods 3 are respectively provided with universal wheels 5, and the two battery packs can be well locked and can be moved in front of the three-dimensional frame.

In order to improve the bearing strength of the stereoscopic frame, a first bottom rod 6 is arranged at the lower part between the left main upright rod 3 and the right main upright rod 3, a vertical middle rod 7 is arranged between the first bottom rod 6 and the middle part of a second bottom rod 8 right above the first bottom rod, and horizontal middle rods 9 are respectively arranged between the two first bottom rods 6 and between the two second bottom rods 8, so that the bearing strength of the bottom of the stereoscopic frame is enhanced.

Since the horizontal center rod 9 and the vertical center rod 7 are provided, it is necessary to provide opposite ends of the two lower sliding sleeves 10 to retract into the sliding brackets 2, and the horizontal center rod 9 and the vertical center rod 7 are prevented from obstructing the mutual approach of the two battery brackets, so that the interval between the opposite ends of the two lower sliding sleeves 10 is larger than the interval between the opposite ends of the two battery brackets.

In order to facilitate the removal of the battery from the opposite ends of the two battery holders, side links 12 for reinforcing the connection between the main uprights 3 are respectively provided between the upper and lower ends of the two front and rear opposite main uprights 3, but the projections of the side links 12 and the battery holders on the left view do not coincide.

Wherein, in order to facilitate the staff to pull the two battery supports, so that the relative movement is generated between the two battery supports, a handle 14 is arranged at the front side of the battery supports.

Claims (5)

1. The utility model provides an energy storage group battery case outer operation device, includes group battery support, its characterized in that: the battery pack support is arranged oppositely left and right in a total mode, an upper sliding sleeve (1) and a lower sliding sleeve (10) are respectively arranged at the upper end and the lower end of the battery pack support, an upper guide rod (13) penetrates through the upper sliding sleeve (1) and the lower sliding sleeve (10), a second bottom rod (8) penetrates through the lower sliding sleeve (10), and a main vertical rod (3) is respectively arranged between the left end of the second bottom rod (8) and the left end of the upper guide rod (13) right above the second bottom rod and between the right end of the second bottom rod (8) and the right end of the upper guide rod (13) right above the second bottom rod.

2. The energy storage battery pack out-of-box handling device of claim 1, wherein: the lower part between two main pole setting (3) that control is relative is equipped with first sill bar (6), be equipped with vertical king-rod (7) between the middle part of first sill bar (6) and second sill bar (8) directly over with it, two be equipped with horizontal king-rod (9) between first sill bar (6) and two second sill bar (8) respectively.

3. The energy storage battery pack out-of-box handling device of claim 2, wherein: the spacing between the opposite ends of the two lower sliding sleeves (10) is greater than the spacing between the opposite ends of the two battery holders.

4. An energy storage battery pack off-box handling device according to claim 3, wherein: side connecting rods (12) are respectively arranged between the upper end and the lower end of the two front-back opposite main vertical rods (3), and the projections of the side connecting rods (12) and the battery pack support on the left view are not overlapped.

5. The energy storage battery pack out-of-box handling device of claim 4, wherein: the lower end of the main vertical rod (3) is provided with a universal wheel (5).