Conveniently transported iron stand for new energy battery
By introducing limiting components and central support components into the new energy battery frame, the tilting problem caused by the forklift forks inserting too deeply was solved, achieving stable transportation and safe support for the battery frame.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NANJING HAISHIDA PRECISION PACKING CO LTD
- Filing Date
- 2025-07-10
- Publication Date
- 2026-07-07
AI Technical Summary
Existing metal frames for new energy batteries are prone to tilting during transportation due to forklift forks inserting too deeply, posing a safety hazard and making it difficult to stably support the battery pack.
A new energy battery iron frame was designed, comprising an iron frame assembly, a limiting assembly, and a central support assembly. The limiting assembly limits the fork teeth through a limiting plate and a movable screw, while the central support assembly provides stable support through a detachably connected movable strut and a support rod.
This effectively prevents the fork teeth from inserting too deeply, ensuring the stability of the battery frame, improving transportation safety and efficiency, and meeting the stable support requirements of the battery pack.
Smart Images

Figure CN224466460U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of new energy battery transportation, specifically a metal frame for facilitating the transportation of new energy batteries. Background Technology
[0002] The iron frame used for new energy batteries is a metal structure support designed for new energy batteries (such as power batteries and energy storage batteries). It is mainly used for battery installation, fixing, support and heat dissipation, to ensure the stability, safety and efficiency of the battery during operation.
[0003] Aluminum alloy is commonly used for the steel frames of new energy batteries, which can balance the requirements of strength and lightweight. During the transportation of new energy battery steel frames, because the battery packs are installed on the steel frames, they are large and heavy, and manual handling is inefficient and poses safety hazards. Forklifts are generally used to quickly and safely load and unload the steel frames.
[0004] However, current new energy battery racks are often frame structures with only four bases at the bottom for stacking. When the forklift forks are inserted under the new energy battery rack, there is no limiting structure. If the forks are inserted too deeply, in narrow passages or stacking operations, the forklift may scrape the rack uprights when turning, causing the rack to tilt and some battery modules to fall off. Utility Model Content
[0005] The purpose of this utility model is to provide a convenient iron frame for transporting new energy batteries, so as to solve the problems mentioned in the background art and overcome its technical defects.
[0006] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: a metal frame for new energy batteries that is convenient to transport, including a metal frame assembly, a central support assembly that is detachably connected to the metal frame assembly, and a limiting assembly disposed at the bottom of the metal frame assembly;
[0007] The iron frame assembly includes: an iron frame body; and stacking bases fixed to the four bottom corners of the iron frame body;
[0008] The limiting component includes: a limiting frame welded to the middle of the bottom of the main body of the iron frame; a limiting groove opened inside the limiting frame; a limiting plate slidably installed inside the limiting groove; a movable screw welded to the left and right sides of the limiting plate; and an adjusting bolt threaded to the outside of the movable screw for locking the limiting plate.
[0009] As a further embodiment of this utility model, the limiting component further includes: a support spring fixed to the limiting plate near the inlet / outlet direction of the limiting groove; a damping rod passing through the inside of the support spring; and a rubber plate fixed to the front end of the damping rod.
[0010] As a further improvement of this utility model, the limiting component further includes: adjustment grooves formed on the left and right sides of the limiting frame.
[0011] As a further improvement of this utility model: the movable screw passes through the interior of the adjustment groove, and the adjustment groove and the limiting groove are interconnected.
[0012] As a further embodiment of this utility model, the iron frame assembly further includes: a sliding groove formed on the inner side of the iron frame body; a limiting hole formed on one side of the sliding groove; stacking columns welded to the four corners of the top of the iron frame body; and a battery pack limiting column located on the top of the iron frame body.
[0013] As a further embodiment of this utility model: the central support assembly includes: a central support rod slidably installed between the sliding grooves; sliding blocks fixed at both ends of the central support rod and slidably connected to the sliding grooves; a fixing bolt passing through the limiting hole; and a threaded hole opened on the end face of the sliding block.
[0014] As a further embodiment of this utility model, the iron frame assembly further includes: a second movable support rod detachably connected between the iron frame body and the central support rod; and a first movable support rod detachably connected between the two sets of the second movable support rods.
[0015] As a further improvement of this utility model: connecting grooves are provided on both the left and right sides of the central support rod, and the connecting grooves are slidably connected to the second movable support rod and the first movable support rod.
[0016] Compared with the prior art, the beneficial effects of this utility model include:
[0017] 1. This utility model provides a limiting component at the bottom of the iron frame body, allowing forklift forks to be inserted into the limiting frame. Under the action of the limiting plate, the fork forks can be limited to prevent them from being inserted too deeply. At the same time, the limiting plate can slide within the limiting frame and its position can be adjusted as needed.
[0018] 2. The main body of the iron frame of this utility model is detachably connected to the first movable support rod, the second movable support rod and the middle support rod. The new energy battery is placed in the space enclosed by the battery pack limiting column. The positions of the first movable support rod, the second movable support rod and the middle support rod can be adjusted as needed to provide stable support for the new energy battery. Attached Figure Description
[0019] The disclosure of this utility model is illustrated with reference to the accompanying drawings. It should be understood that the drawings are for illustrative purposes only and are not intended to limit the scope of protection of this utility model. In the drawings, the same reference numerals are used to refer to the same parts. Wherein:
[0020] Figure 1 The schematic diagram shows an overall structural schematic diagram according to one embodiment of the present invention;
[0021] Figure 2 The schematic diagram shows a bottom view of the transportation of a cylindrical new energy battery according to one embodiment of the present invention;
[0022] Figure 3 A schematic diagram of a central support rod according to one embodiment of the present invention is shown.
[0023] Figure 4 The diagram illustrates a limiting plate according to one embodiment of the present invention.
[0024] The diagram is labeled as follows: 1. Iron frame assembly; 101. Iron frame body; 102. Stacking base; 103. Stacking column; 104. Battery pack limiting column; 105. First movable support rod; 106. Second movable support rod; 107. Limiting hole; 108. Sliding groove; 2. Limiting assembly; 201. Limiting frame; 202. Limiting groove; 203. Adjusting bolt; 204. Adjusting groove; 205. Moving screw; 206. Limiting plate; 207. Rubber plate; 208. Damping rod; 209. Support spring; 3. Middle support assembly; 301. Middle support rod; 302. Connecting groove; 303. Sliding block; 304. Threaded hole; 305. Fixing bolt. Detailed Implementation
[0025] It is readily understood that, based on the technical solution of this utility model, those skilled in the art can propose various interchangeable structural methods and implementations without altering the essential spirit of this utility model. Therefore, the following detailed embodiments and accompanying drawings are merely illustrative descriptions of the technical solution of this utility model and should not be considered as the entirety of this utility model or as limitations or restrictions on the technical solution of this utility model.
[0026] An embodiment of the present invention is shown in conjunction with the accompanying drawings.
[0027] Example 1:
[0028] Please see Figures 1-4 This is the first embodiment of the present invention.
[0029] This embodiment provides a convenient iron frame for transporting new energy batteries, including an iron frame assembly 1, a central support assembly 3 detachably connected to the iron frame assembly 1, and a limiting assembly 2 disposed at the bottom of the iron frame assembly 1;
[0030] The iron frame assembly 1 includes: an iron frame body 101; and stacking bases 102 fixed to the four bottom corners of the iron frame body 101;
[0031] The limiting component 2 includes: a limiting frame 201 welded to the middle of the bottom of the iron frame body 101; a limiting groove 202 opened inside the limiting frame 201; a limiting plate 206 slidably installed inside the limiting groove 202; a movable screw 205 welded to the left and right sides of the limiting plate 206; and an adjusting bolt 203 threaded to the outside of the movable screw 205 for locking the limiting plate 206.
[0032] Specifically, the limiting component 2 also includes: a support spring 209 fixed to the limiting plate 206 near the limiting groove 202 in the in-and-out direction; a damping rod 208 passing through the inside of the support spring 209; and a rubber plate 207 fixed to the front end of the damping rod 208.
[0033] Furthermore, after the fork tooth is inserted into the limiting groove 202, it will first come into contact with the rubber plate 207 and push the rubber plate 207 to move closer to the limiting plate 206, pressing the support spring 209 and the damping rod 208. The damping rod 208 and the support spring 209 can play a certain buffering role, and under the action of the limiting plate 206, the fork tooth can be prevented from being inserted too deeply.
[0034] Specifically, the limiting component 2 also includes: adjustment slots 204 opened on the left and right sides of the limiting frame 201.
[0035] Furthermore, the adjusting groove 204 is used to guide the movement of the moving screw 205.
[0036] Specifically, the movable screw 205 passes through the interior of the adjusting groove 204, and the adjusting groove 204 is connected to the limiting groove 202.
[0037] Furthermore, the adjusting bolt 203 rotates outside the moving screw 205, gradually approaching the limiting frame 201. After being pressed against, it locks the limiting plate 206, and the moving screw 205 can drive the limiting plate 206 to move inside the limiting frame 201.
[0038] In this embodiment, by setting a limiting component 2 at the bottom of the iron frame body 101, the fork fork can be inserted into the limiting frame 201. Under the action of the limiting plate 206, the fork fork can be limited to avoid being inserted too deeply. At the same time, the limiting plate 206 can slide within the limiting frame 201 and its position can be adjusted as needed.
[0039] Example 2:
[0040] Please see Figures 1-3 This is the second embodiment of the present utility model.
[0041] Specifically, the iron frame assembly 1 also includes: a sliding groove 108 opened inside the iron frame body 101; a limiting hole 107 opened on one side of the sliding groove 108; stacking columns 103 welded to the four corners of the top of the iron frame body 101; and a battery pack limiting column 104 located at the top of the iron frame body 101.
[0042] Furthermore, a rubber base is provided on the top of the stacking column 103 to match the position of the stacking base 102. Multiple sets of iron frame bodies 101 can be stacked together by the stacking base 102 and the stacking column 103. The size of the stacking base 102 can be larger than that of the stacking column 103, which facilitates stacking.
[0043] Specifically, the central support assembly 3 includes: a central support rod 301 slidably installed between the sliding grooves 108; sliding blocks 303 fixed at both ends of the central support rod 301 and slidably connected to the sliding grooves 108; fixing bolts 305 passing through the limiting hole 107; and threaded holes 304 opened on the end face of the sliding block 303.
[0044] Furthermore, the fixing bolt 305 includes a screw and a bolt. The screw is threadedly connected to the threaded hole 304. The middle support rod 301 and the iron frame body 101 are locked by rotating the bolt. The distance between the middle support rods 301 can be adjusted as needed.
[0045] Specifically, the iron frame assembly 1 also includes: a second movable support rod 106 detachably connected between the iron frame body 101 and the central support rod 301; and a first movable support rod 105 detachably connected between the two sets of second movable support rods 106.
[0046] Furthermore, during installation, the second movable support rod 106 and the first movable support rod 105 are obliquely inserted between the iron frame body 101 and the middle support rod 301. The two ends are square protrusions that are adapted to the dimensions of the connecting groove 302 and the sliding groove 108, respectively, so as to facilitate the sliding of the second movable support rod 106 and the first movable support rod 105 between the iron frame body 101 and the middle support rod 301. According to the distance required between the iron frame body 101 and the middle support rod 301, the second movable support rod 106 and the first movable support rod 105 of different lengths can be selected.
[0047] Specifically, the middle support rod 301 has connecting grooves 302 on both the left and right sides, and the connecting grooves 302 are slidably connected to the second movable support rod 106 and the first movable support rod 105.
[0048] Furthermore, a limiting hole 107 is also provided on one side of the connecting groove 302 for fixing the second movable support rod 106 and the first movable support rod 105. The second movable support rod 106 and the first movable support rod 105 are also detachably connected to the iron frame body 101 and the middle support rod 301 by fixing bolts 305.
[0049] In this embodiment, the main body 101 of the iron frame is detachably connected to the first movable support rod 105, the second movable support rod 106 and the middle support rod 301. The new energy battery is placed in the space enclosed by the battery pack limiting column 104. The positions of the first movable support rod 105, the second movable support rod 106 and the middle support rod 301 can be adjusted as needed to provide stable support for the new energy battery.
[0050] Working principle: The distance between the middle support rods 301 can be adjusted as needed. Then, the bolts are rotated to lock the middle support rods 301 and the iron frame body 101. The second movable support rod 106 and the first movable support rod 105 obliquely enter between the iron frame body 101 and the middle support rod 301. Their ends are square protrusions that fit the dimensions of the connecting groove 302 and the sliding groove 108, respectively, facilitating the sliding of the second movable support rod 106 and the first movable support rod 105 between the iron frame body 101 and the middle support rod 301. Depending on the required distance between the iron frame body 101 and the middle support rod 301, different lengths of the second movable support rod 106 and the first movable support rod 105 can be selected. A movable support rod 105 is detachably connected to the iron frame body 101 and the middle support rod 301 by fixing bolts 305. The battery pack limiting column 104 is respectively set on the top of the second movable support rod 106 and the iron frame body 101. The new energy battery is placed in the space enclosed by the battery pack limiting column 104. When the iron frame body 101 needs to be moved, after the fork tooth is inserted into the limiting groove 202, it will first contact the rubber plate 207 and push the rubber plate 207 to move closer to the limiting plate 206, pressing the support spring 209 and the damping rod 208. The damping rod 208 and the support spring 209 can play a certain buffering effect. Under the action of the limiting plate 206, the fork tooth can be prevented from being inserted too deeply.
[0051] The technical scope of this utility model is not limited to the content described above. Those skilled in the art can make various modifications and variations to the above embodiments without departing from the technical concept of this utility model, and all such modifications and variations should fall within the protection scope of this utility model.
Claims
1. A metal frame for convenient transportation of new energy batteries, characterized in that, It includes a steel frame assembly (1), a central support assembly (3) detachably connected to the steel frame assembly (1); and a limiting assembly (2) disposed at the bottom of the steel frame assembly (1). The iron frame assembly (1) includes: an iron frame body (101); and stacking bases (102) fixed to the four corners of the bottom of the iron frame body (101). The limiting component (2) includes: a limiting frame (201) welded to the middle of the bottom of the iron frame body (101); a limiting groove (202) opened inside the limiting frame (201); a limiting plate (206) slidably installed inside the limiting groove (202); a movable screw (205) welded to the left and right sides of the limiting plate (206); and an adjusting bolt (203) threaded to the outside of the movable screw (205) for locking the limiting plate (206).
2. The iron frame for convenient transportation of new energy batteries according to claim 1, characterized in that, The limiting component (2) further includes: a support spring (209) fixed to the limiting plate (206) in the direction of entry and exit of the limiting groove (202); a damping rod (208) passing through the inside of the support spring (209); and a rubber plate (207) fixed to the front end of the damping rod (208).
3. The iron frame for convenient transportation of new energy batteries according to claim 2, characterized in that, The limiting component (2) further includes: adjustment slots (204) opened on the left and right sides of the limiting frame (201).
4. The iron frame for convenient transportation of new energy batteries according to claim 3, characterized in that, The movable screw (205) passes through the interior of the adjustment groove (204), and the adjustment groove (204) is connected to the limiting groove (202).
5. The iron frame for convenient transportation of new energy batteries according to claim 4, characterized in that, The iron frame assembly (1) further includes: a sliding groove (108) opened inside the iron frame body (101); a limiting hole (107) opened on one side of the sliding groove (108); stacking columns (103) welded to the four corners of the top of the iron frame body (101); and a battery pack limiting column (104) located at the top of the iron frame body (101).
6. The iron frame for convenient transportation of new energy batteries according to claim 5, characterized in that, The central support assembly (3) includes: a central support rod (301) slidably installed between the sliding grooves (108); sliding blocks (303) fixed at both ends of the central support rod (301) and slidably connected to the sliding grooves (108); fixing bolts (305) passing through the limiting hole (107); and threaded holes (304) opened on the end face of the sliding block (303).
7. The iron frame for convenient transportation of new energy batteries according to claim 6, characterized in that, The iron frame assembly (1) further includes: a second movable support rod (106) detachably connected between the iron frame body (101) and the central support rod (301); and a first movable support rod (105) detachably connected between the two sets of the second movable support rods (106).
8. The iron frame for convenient transportation of new energy batteries according to claim 7, characterized in that, The middle support rod (301) has connecting grooves (302) on both the left and right sides, and the connecting grooves (302) are slidably connected to the second movable support rod (106) and the first movable support rod (105).