An aluminum can vertical transport packaging
By using a vertical aluminum shell transport packaging structure, the problems of low space utilization and easy damage when the aluminum shell is placed horizontally in the existing technology are solved, achieving efficient capacity increase and convenient operation of the robotic arm.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANYING GREEN ENERGY (SHANGHAI) SUPPLY CHAIN MANAGEMENT CO LTD
- Filing Date
- 2025-07-24
- Publication Date
- 2026-07-14
AI Technical Summary
In the existing technology, aluminum-cased battery cells have low space utilization when transported horizontally, small single-box capacity, and are prone to collision and friction damage.
The packaging adopts an aluminum shell vertical transport structure, including a base frame and an aluminum shell vertical frame extending upwards from the bottom, with support columns and reinforcing ribs. The aluminum shell is placed vertically on the vertical frame, and the top has a safety space to prevent bottom contact. The turnover box is equipped with vents to ensure ventilation and fixation.
It increases the capacity of a single box, reduces friction and collisions during transportation, ensures that the aluminum shell is not easily damaged, and makes robotic arm operation more convenient.
Smart Images

Figure CN224491999U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to an aluminum shell vertical transport packaging. Background Technology
[0002] In existing technologies, the horizontal placement method is generally used for the turnover and transportation of aluminum battery cell shells during the production and processing process. For example, a universal reusable packaging disclosed in patent application number 202420222963.5 is provided, which has a support plate with insertion holes inside the turnover box, and the spacing of the horizontally placed isolation bars can be adjusted to accommodate different aluminum shell sizes. However, this solution still has the following problems: 1. When the aluminum shells are placed horizontally, the vertical space utilization rate of the turnover box is low, and the capacity of a single box is small; 2. When the aluminum shells are placed horizontally, collisions or friction are prone to occur when the robotic arm picks up and puts them in the horizontal position, resulting in damage to the aluminum shells.
[0003] Therefore, there is a market demand for a transport packaging structure that supports vertical placement of aluminum shells, increases storage capacity, and facilitates robotic arm operation. Utility Model Content
[0004] The technical problem to be solved by this utility model is to provide an aluminum shell vertical transport packaging.
[0005] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: an aluminum shell vertical transport packaging, including an aluminum shell storage unit, wherein the aluminum shell storage unit includes a bottom support frame located at the bottom and a plurality of aluminum shell vertical racks extending upward from the bottom support frame for placing aluminum shells.
[0006] In some embodiments, each of the aluminum shell vertical racks includes at least one support column.
[0007] In some embodiments, each of the aluminum shell vertical racks includes two support columns and a reinforcing rib plate connected between the lower parts of the two support columns.
[0008] In some embodiments, the top of the aluminum shell vertical support has a support plane for supporting the bottom of the aluminum shell cavity, and the height dimension of the aluminum shell vertical support is greater than the height dimension of the aluminum shell, so that when the aluminum shell is fitted on the aluminum shell vertical support, an anti-bottom-touching safety space is formed between the opening of the aluminum shell and the bottom bracket.
[0009] In some embodiments, a plurality of the aluminum shell vertical racks are arranged in a rectangular array at intervals on the base bracket.
[0010] In some embodiments, the bottoms of the plurality of aluminum shell vertical racks are fixed to the base bracket.
[0011] In some embodiments, the aluminum housing storage unit is made of plastic.
[0012] In some embodiments, the vertical transport packaging of the aluminum shell further includes a turnover box, and the aluminum shell storage unit is placed inside the turnover box.
[0013] In some embodiments, the bottom side wall of the turnover box is provided with a plurality of vent holes at intervals. When the aluminum shell storage unit is placed inside the turnover box, the height of the vent holes is higher than that of the bottom bracket and is connected to the inner cavity of the turnover box.
[0014] In some embodiments, the bottom periphery of the turnover box has an inner slot on at least two opposite sides, and the bottom bracket has a locking edge that can engage with the inner slot. Through the elastic deformation of the locking edge, the aluminum shell storage unit is placed into the bottom of the turnover box, and the locking edge is engaged in the inner slot.
[0015] The scope of this utility model is not limited to technical solutions formed by specific combinations of the above-mentioned technical features, but should also cover other technical solutions formed by arbitrary combinations of the above-mentioned technical features or their equivalent features. For example, technical solutions formed by substituting the above-mentioned features with (but not limited to) technical features with similar functions disclosed in this application.
[0016] Due to the application of the above technical solution, this utility model has the following advantages compared with the prior art: This utility model provides a vertical aluminum shell transport packaging. By extending upward from the bottom bracket and setting multiple vertical aluminum shell racks for placing aluminum shells, the aluminum shells can be vertically placed on each aluminum shell rack. Vertical placement of the aluminum shells can increase the capacity of a single box and significantly improve the transport efficiency. Moreover, vertical placement makes it more convenient for robotic arms to pick up and place aluminum shells. During transportation, friction and collision are less likely to cause deformation of the aluminum shells or scratches on the surface of the aluminum shells. Attached Figure Description
[0017] Figure 1 A schematic diagram of the three-dimensional structure of a vertically placed aluminum shell transport packaging;
[0018] Figure 2 This is a front view of an aluminum-shell vertically placed transport package.
[0019] Figure 3 This is a schematic diagram of the three-dimensional structure of the aluminum shell storage unit;
[0020] Figure 4 This is a side view of the aluminum-cased storage unit;
[0021] Figure 5 A schematic diagram showing the usage state of the aluminum storage unit after the aluminum casing has been placed inside;
[0022] Figure 6 A side cross-sectional view of the aluminum-cased storage unit placed inside the turnover box;
[0023] The components include: 1. Aluminum shell storage unit; 11. Base bracket; 12. Aluminum shell vertical rack; 121. Support column; 122. Reinforcing rib plate; 2. Turnover box; 21. Vent hole. Detailed Implementation
[0024] To further illustrate the technical means and effects adopted by this utility model in order to achieve the intended utility model purpose, the following detailed description of the specific implementation methods, structure, features and effects of this utility model is provided in conjunction with the accompanying drawings and preferred embodiments.
[0025] like Figure 1-5 The above describes a vertical aluminum shell transport package, which includes a turnover box 2 and an aluminum shell storage unit 1 disposed in the turnover box 2.
[0026] like Figure 3 As shown, the aluminum shell storage unit 1 includes a bottom bracket 11 located at the bottom and multiple aluminum shell vertical racks 12 extending upward from the bottom bracket 11 for placing aluminum shells. The bottom of the multiple aluminum shell vertical racks 12 is integrally formed on the bottom bracket 11, or can be fixed to the bottom bracket 11 by buckles. The multiple aluminum shell vertical racks 12 are arranged in a matrix at intervals on the bottom bracket 11.
[0027] like Figure 3 As shown, in this embodiment, there are 20 aluminum shell vertical racks 12, which are arranged in a 10×2 rectangular array on the base bracket 11. This greatly increases the number of aluminum shells that can be stored in the turnover box, improves space utilization, and enhances handling efficiency.
[0028] like Figure 4 As shown, each aluminum shell vertical rack 12 includes two support columns 121 and a reinforcing rib plate 122 connected between the lower parts of the two support columns 121 to resist the lateral pressure generated by the weight of the aluminum shell during transportation. There is no reinforcing rib plate between the tops of the two support columns 121, so that the interior of the aluminum shell can circulate with the air after the aluminum shell is fitted onto the aluminum shell vertical rack 12.
[0029] The top of the aluminum shell vertical support 12 has a supporting plane for supporting the bottom of the aluminum shell cavity. The height of the aluminum shell vertical support 12 is greater than the height of the aluminum shell, so that when the aluminum shell is fitted onto the aluminum shell vertical support 12, a bottom-touching safety space is formed between the opening of the aluminum shell and the bottom bracket 11. In this embodiment, the height of the bottom-touching safety space is 3-5mm. In use, when the aluminum shell is fitted onto the aluminum shell vertical support 12, it can be ensured that the bottom of the aluminum shell is suspended. Since the height of the aluminum shell vertical support 12 is greater than the height of the aluminum shell, the bottom of the aluminum shell will not touch the bottom. The base bracket 11 prevents friction at the opening of the aluminum shell. When the robot places the aluminum shell, it only needs to gently place the aluminum shell onto the aluminum shell vertical support 12. The support plane inside the aluminum shell vertical support 12 contacts the inner top surface of the aluminum shell to achieve placement and positioning. During transportation, it will not tip over or shift. The bottom of the aluminum shell is not easy to rub or wear against the base bracket 11. When the robot picks up the aluminum shell, it only needs to gently suck up the top of the aluminum shell like a mechanical suction cup to lift it, so that the aluminum shell can be separated from the aluminum shell vertical support 12. The aluminum shell is not easy to rub or deform.
[0030] Each aluminum shell vertical rack 12 is independently mounted on the base bracket 11, so that no collision or friction will occur between two adjacent aluminum shells during transportation, and no additional isolation device is needed between the two aluminum shells.
[0031] like Figure 2 As shown, the bottom of the side wall of the turnover box 2 is provided with multiple air vents 21 at intervals. When the aluminum shell storage unit 1 is placed in the turnover box 2, the height of the air vents 21 is higher than that of the bottom bracket 11 and is connected to the inner cavity of the turnover box 2. This ensures that after the aluminum shell is placed on the aluminum shell vertical rack 12, the inside and outside of the aluminum shell are connected and there will be no negative pressure inside. This reduces the resistance caused by negative pressure during separation and makes it easier for the robot to separate the aluminum shell from the aluminum shell vertical rack 12. In addition, if water accumulates inside the turnover box 2, it can also flow out from the air vents 21 to ensure that the inside of the turnover box 2 is dry. This also solves the problems of negative pressure adsorption and drainage.
[0032] like Figure 6 As shown, the inner cavity bottom periphery of the turnover box 2 is provided with inner slots on both sides, and the bottom bracket 11 has a locking edge that can engage with the inner slot. Through the elastic deformation of the locking edge, the aluminum shell storage unit 1 is placed into the turnover box 2. When the bottom bracket 11 moves downward to the bottom of the turnover box 2, the locking edge of the bottom bracket 11 on both sides pops out and is locked into the inner slot.
[0033] The above embodiments are only for illustrating the technical concept and features of this utility model, and are intended to enable those skilled in the art to understand the content of this utility model and implement it accordingly. They should not be construed as limiting the scope of protection of this utility model. All equivalent changes or modifications made in accordance with the spirit and essence of this utility model should be included within the scope of protection of this utility model.
Claims
1. A vertically stackable aluminum shell transport packaging, characterized in that: It includes an aluminum shell storage unit (1), which includes a bottom bracket (11) at the bottom and a plurality of aluminum shell vertical racks (12) extending upward from the bottom bracket (11) for storing aluminum shells.
2. The aluminum shell vertical transport packaging according to claim 1, characterized in that: Each of the aluminum shell vertical racks (12) includes at least one support column (121).
3. The aluminum shell vertical transport packaging according to claim 2, characterized in that: Each of the aluminum shell vertical racks (12) includes two support columns (121) and a reinforcing rib plate (122) connected between the lower parts of the two support columns (121).
4. The aluminum shell vertical transport packaging according to claim 1, characterized in that: The top of the aluminum shell vertical rack (12) has a support plane for supporting the bottom of the aluminum shell cavity. The height of the aluminum shell vertical rack (12) is greater than the height of the aluminum shell, so that when the aluminum shell is fitted on the aluminum shell vertical rack (12), an anti-bottom-touching safety space is formed between the opening of the aluminum shell and the bottom bracket (11).
5. The aluminum shell vertical transport packaging according to claim 1, characterized in that: Multiple aluminum shell vertical racks (12) are arranged in a rectangular array on the base bracket (11) at intervals.
6. The aluminum shell vertical transport packaging according to claim 1, characterized in that: The bottom of the multiple aluminum shell vertical racks (12) is fixed on the base bracket (11).
7. The aluminum shell vertical transport packaging according to claim 1, characterized in that: The aluminum-cased storage unit (1) is made of plastic.
8. The aluminum shell vertical transport packaging according to claim 1, characterized in that: The vertical transport packaging of the aluminum shell also includes a turnover box (2), and the aluminum shell storage unit (1) is placed in the turnover box (2).
9. The aluminum shell vertical transport packaging according to claim 8, characterized in that: The bottom of the side wall of the turnover box (2) is provided with a plurality of air vents (21) at intervals. When the aluminum shell storage unit (1) is placed in the turnover box (2), the height of the air vents (21) is higher than that of the bottom bracket (11) and is connected to the inner cavity of the turnover box (2).
10. The aluminum shell vertical transport packaging according to claim 8, characterized in that: The turnover box (2) has an inner slot at least on both sides of the bottom periphery of the inner cavity. The bottom bracket (11) has a locking edge that can engage with the inner slot. The aluminum shell storage unit (1) is placed into the bottom of the turnover box (2) by the elastic deformation of the locking edge, and the locking edge is inserted into the inner slot.