An adjustable divider for a cargo pallet

By introducing a locking component that is connected to the partition drive in the turnover box, the problem of inconvenient partition position adjustment is solved, and the partition can be conveniently adjusted and locked, improving the convenience and practicality of operation.

CN224336092UActive Publication Date: 2026-06-09SHANDONG PINSHENG INTELLIGENT STORAGE EQUIPMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG PINSHENG INTELLIGENT STORAGE EQUIPMENT CO LTD
Filing Date
2025-08-04
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing turnover box partitions are fixed with screws after the position is adjusted, which is inconvenient to operate and cannot be adjusted again.

Method used

A locking assembly connected to the partition drive is adopted, including a guide surface, a wedge and a friction plate. The partition can be easily adjusted and locked through the cooperation of the slider and the groove.

Benefits of technology

Adjusting the partition position is more convenient, and locking or unlocking is easier, improving the practicality of operation.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224336092U_ABST
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Abstract

This utility model relates to the technical field of cargo turnover cages, and in particular to a cargo turnover cage with adjustable partitions. It uses a locking component that is driven and connected to the partitions, making the adjustment of the partition position more convenient, and also making the locking or unlocking of the partitions easier, resulting in good practicality. It includes a base plate, two side plates (first and second), which together form a cage-like structure. It also includes two sliding grooves, two sliders, two slots, and a partition. The two sliding grooves are installed opposite each other in the middle of the two side plates (first), and are horizontally arranged. The two sliders are slidably installed in the two sliding grooves, and the two slots are installed on the inner ends of the two sliders, arranged opposite each other. The left and right edges of the partition are slidably inserted into the two slots. A locking component is installed on each slider, and the locking component is driven and connected to the partition. The locking component is used to lock the slider onto the sliding groove.
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Description

Technical Field

[0001] This utility model relates to the technical field of cargo turnover cages, and in particular to a cargo turnover cage with adjustable partitions. Background Technology

[0002] Goods require turnover cages or boxes during transit. Chinese utility model patent CN221679351U discloses an adjustable turnover box. This box includes a box body and an adjustable partition assembly inside. The adjustable partition assembly includes multiple aluminum profile guide rails and multiple partitions. The partitions are connected to the guide rails via sliders, which are locked with screws. This utility model, through its adjustable partition assembly, allows the internal partition positions to be adjusted to fit different product sizes. Combined with the box width design, it can effectively cover most product sizes, solving the problem of mismatch between packaging and transporting multiple products and the box body, demonstrating strong practicality.

[0003] However, the partitions of the aforementioned turnover box are fixed with screws after the position is adjusted, and the screw fixing process is relatively troublesome. Once the partitions are fixed, they cannot be adjusted again, resulting in poor operation convenience. Utility Model Content

[0004] To solve the above-mentioned technical problems, this utility model provides a locking component that is connected to the partition drive, making the position adjustment of the partition more convenient, and also making the locking or unlocking of the partition more convenient, resulting in a cargo turnover cage with adjustable partitions that has good practicality.

[0005] This utility model discloses an adjustable partitioned cargo turnover cage, comprising a base plate, two side plates (first and second), two side plates (second), two side plates (first) mounted opposite each other on the left and right sides of the base plate, and two side plates (second) mounted opposite each other on the front and rear sides of the base plate, forming a cage-like structure. It also includes two sliding grooves, two sliders, two locking slots, and a partition. The two sliding grooves are mounted opposite each other in the middle of the two side plates (first) and are horizontally arranged. The two sliders are slidably mounted in the two sliding grooves, and the two locking slots are mounted on the inner ends of the two sliders, arranged opposite each other. The left and right edges of the partition are slidably inserted into the two locking slots. Locking components are installed on both sliders, and these locking components are connected to the partition for driving transmission. The locking components are used to lock the sliders in the sliding grooves. The upper partition divides the space inside the bottom plate, two side plates one, and two side plates two into two chambers, which are used to load goods. When the volume of the two chambers needs to be adjusted, the two locking components are unlocked from the two slides through the partition. At this time, the partition is moved so that the partition drives the two sliders to move back and forth along the two slides through the two slots, thereby adjusting the volume of the two chambers on the front and back sides of the partition. After the adjustment is completed, the two locking components are locked to the two slides through the partition, thereby locking the position of the partition. The partition can be inserted and removed along the two slots to raise and lower, which is convenient for disassembling and assembling the partition. Compared with the existing technology, the use of locking components connected to the partition drive makes the position adjustment of the partition more convenient, and also makes the locking or unlocking of the partition more convenient, which is more practical.

[0006] Preferably, the locking assembly includes a guide surface, wedges, and friction plates. Guide surfaces are provided at the center of both the left and right edges of the partition, with the lower ends of the guide surfaces converging inwards. The wedges are slidably inserted into the sliders, with their inner ends slidingly contacting the guide surfaces. Friction plates are installed at the outer ends of the wedges, located outside the sliders and aligned with the inner walls of the grooves. When the partition is inserted downwards, its left and right edges descend along the two slots, causing the two guide surfaces to push the two wedges outwards. The two wedges push the two friction plates against the inner walls of the two grooves, thus locking the two sliders and the two grooves. When the position of the partition needs adjustment, it is pulled upwards, disengaging the two guide surfaces from the two wedges, freeing the two wedges and the two friction plates, and disengaging the two friction plates from the two grooves. This unlocks the two sliders from the two grooves, facilitating adjustment of the partition's position.

[0007] Preferably, it also includes multiple springs, the outer ends of which are respectively connected to two friction plates, and the inner ends of which are respectively connected to two slots. The elastic force of the multiple springs pulls the two friction plates inward. When the partition is pulled upward, the multiple springs contract and pull the two friction plates inward, so that the two friction plates automatically disengage from the slide, improving the ease of operation.

[0008] Preferably, the partition also includes two sub-partitions, a push plate, and two push rods. The two sub-partitions are horizontally slidably installed on the left and right sides of the partition, respectively. The outer edges of the two sub-partitions slide in contact with the inner walls of the two side plates. The push plate is slidably installed in the middle of the partition. The outer ends of the two push rods are rotatably connected to the two sub-partitions, and the inner ends of the two push rods are rotatably connected to the push plate. When the partition is pulled out upwards, the push plate is simultaneously lifted upwards, so that the push plate pulls the two sub-partitions into the partition through the two push rods, so that the two sub-partitions are housed in the partition and disengaged from the two side plates, facilitating the movement of the partition. When the partition is inserted downwards, the push plate is simultaneously pushed downwards, so that the push plate pushes the two sub-partitions to the outer left and right sides of the partition through the two push rods, so that the outer edges of the two sub-partitions contact the two side plates, thereby filling the gap between the partition and the two side plates and improving the separation effect.

[0009] Preferably, it also includes a second spring, the two ends of which are respectively connected to two secondary partitions; the elastic force of the second spring pushes the two secondary partitions outward, so that the two secondary partitions can automatically fill the gap between the partition and the two side plates.

[0010] Preferably, it also includes a rack and a spring plate. The rack is installed on the slide groove, and the spring plate is installed on the partition. The spring plate is in contact with and engaged with the rack. When the partition moves along the two slide grooves, the spring plate makes a clicking sound when it sweeps across the teeth of the rack, reminding the operator that the partition has become loose. After the partition is adjusted and inserted into place, the spring plate is engaged with the teeth of the rack, thereby providing auxiliary positioning for the partition and improving stability.

[0011] Preferably, it also includes a positioning groove. The bottom edge of the base plate is provided with a positioning groove, and the width of the positioning groove is the same as the thickness of the first side plate and the second side plate. By providing a positioning groove, when the turnover cage composed of the base plate, the two first side plates and the two second side plates is stacked, the base plate located on top is locked into the positioning groove, thereby improving the stability and accuracy when multiple turnover cages are stacked.

[0012] Preferably, it also includes multiple vertical sliding grooves, multiple corner plates, and multiple key bars. Vertical sliding grooves are provided at the four corners of the axial cage formed by the bottom plate, two side plates one, and two side plates two. Multiple corner plates slide up and down on multiple vertical sliding grooves respectively. Each of the multiple vertical sliding grooves is provided with a limiting groove. Key bars are installed on multiple corner plates. Multiple key bars are slidably installed on the limiting grooves of multiple vertical sliding grooves respectively. After multiple bearing cages are stacked, multiple corner plates on the upper turnover cage slide down along multiple vertical sliding grooves respectively, so that the lower part of multiple corner plates is inserted into multiple vertical sliding grooves of the lower turnover cage. When multiple corner plates are raised and lowered, multiple key bars limit the corner plates, thereby improving the stability of the stacked turnover cages.

[0013] Compared with the prior art, the advantages of this utility model are: the use of a locking component connected to the partition transmission makes the position adjustment of the partition more convenient, and also makes the locking or unlocking of the partition more convenient, which is practical. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of this utility model;

[0015] Figure 2 This is a front sectional view of the present invention;

[0016] Figure 3 It is a structural diagram of components such as slides, sliders, slots, partitions, and locking components;

[0017] Figure 4 It is a structural diagram showing the exploded state of components such as slides, sliders, slots, partitions, and locking components;

[0018] Figure 5 It is a structural diagram of the base plate, side plate one, side plate two, slide groove, vertical slide groove, corner plate and key strip, etc.

[0019] Figure 6 This is a schematic diagram of two stacked turnover cages.

[0020] The following are labels in the attached diagram: 1. Base plate; 2. Side plate one; 3. Side plate two; 4. Slide groove; 5. Slider; 6. Slot; 7. Partition plate; 8. Guide surface; 9. Wedge block; 10. Friction plate; 11. Spring one; 12. Secondary partition plate; 13. Push plate; 14. Push rod; 15. Spring two; 16. Rack; 17. Spring plate; 18. Positioning groove; 19. Vertical slide groove; 20. Angle plate; 21. Key bar. Detailed Implementation

[0021] To facilitate understanding of this utility model, a more complete description will be given below with reference to the accompanying drawings. This utility model can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to make the disclosure of this utility model more thorough and complete. Example 1

[0022] like Figures 1 to 4As shown, a cargo turnover cage with adjustable partitions includes a base plate 1, two side plates 1 2 and two side plates 2 3. The two side plates 1 2 are installed opposite each other on the left and right sides of the base plate 1, and the two side plates 2 3 are installed opposite each other on the front and rear sides of the base plate 1. The base plate 1, the two side plates 1 2 and the two side plates 2 3 form a cage-like structure. It also includes two sliding grooves 4, two sliders 5, two slots 6 and a partition 7. The two sliding grooves 4 are installed opposite each other in the middle of the two side plates 1 2 and are horizontally arranged. The two sliders 5 are slidably installed in the two sliding grooves 4 respectively. The two slots 6 are installed on the inner ends of the two sliders 5 respectively and are arranged opposite each other. The left and right edges of the partition 7 are slidably inserted into the two slots 6 respectively. Locking components are installed on both sliders 5, and the locking components are connected to the partition 7 for locking the sliders 5. On the slide groove 4, the locking assembly includes a guide surface 8, a wedge 9, and a friction plate 10. The guide surface 8 is provided in the middle of the left and right edges of the partition 7. The lower end of the guide surface 8 retracts into the partition 7. The wedge 9 is slidably inserted into the slider 5. The inner end of the wedge 9 slides in contact with the guide surface 8. The outer end of the wedge 9 is equipped with the friction plate 10. The friction plate 10 is located outside the slider 5 and is aligned with the inner wall of the slide groove 4. It also includes multiple springs 11. The outer ends of the multiple springs 11 are respectively connected to two friction plates 10. The inner ends of the two springs 11 are respectively connected to two slots 6. The elastic force of the multiple springs 11 pulls the two friction plates 10 inward. It also includes a rack 16 and a spring plate 17. The rack 16 is installed on the slide groove 4, and the spring plate 17 is installed on the partition 7. The spring plate 17 contacts and engages with the rack 16.

[0023] The partition 7 divides the space inside the base plate 1, two side plates 1 2, and two side plates 2 3 into two chambers for loading goods. When the volume of the two chambers needs to be adjusted, the partition 7 is pulled upwards, causing the two guide surfaces 8 to disengage from the two wedges 9, freeing the two wedges 9 and the two friction plates 10. Multiple springs 11 contract, pulling the two friction plates 10 inwards, causing them to automatically disengage from the slide grooves 4, thus releasing the two friction plates 10 from the two slide grooves 4 and unlocking the two sliders 5 from the two slide grooves 4. This allows for easy adjustment of the position of the partition 7. Moving the partition 7 then causes it to drive the two sliders 5 to move back and forth along the two slide grooves 4 via the two slots 6, thereby adjusting the volume of the two chambers on the front and back sides of the partition 7. When the partition 7 is inserted downwards, the left and right sides of the partition 7... The side edges descend along the two slots 6, causing the two guide surfaces 8 to push the two wedges 9 outward. The two wedges 9 push the two friction plates 10 against the inner walls of the two slide grooves 4, so that the two friction plates 10 are pressed against the inner walls of the two slide grooves 4, thereby locking the two sliders 5 with the two slide grooves 4. At the same time, the partition 7 drives the spring plate 17 to engage with the teeth of the rack 16, thereby providing auxiliary positioning for the partition 7. When the partition 7 moves accidentally along the two slide grooves 4, the spring plate 17 makes a clicking sound when it sweeps across the teeth of the rack 16, reminding the staff that the partition 7 has become loose. The partition 7 can be inserted and removed along the two slots 6 for easy disassembly and assembly. Compared with the existing technology, the use of a locking component that is connected to the partition 7 makes the position adjustment of the partition 7 more convenient, and also makes the locking or unlocking of the partition 7 more convenient, with good practicality. Example 2

[0024] like Figures 2 to 4 As shown, based on Embodiment 1, it also includes two sub-partitions 12, a push plate 13, and two push rods 14. The two sub-partitions 12 are horizontally slidably installed on the left and right sides of the partition 7, respectively. The outer edges of the two sub-partitions 12 are slidably in contact with the inner walls of the two side plates 1 2, respectively. The push plate 13 is slidably installed in the middle of the partition 7, and the outer ends of the two push rods 14 are rotatably connected to the two sub-partitions 12, respectively. The inner ends of the two push rods 14 are rotatably connected to the push plate 13, respectively. It also includes a second spring 15, and the two ends of the second spring 15 are respectively connected to the two sub-partitions 12.

[0025] When the partition 7 is pulled out upwards, the push plate 13 is simultaneously lifted upwards, causing the push plate 13 to pull the two sub-partitions 12 into the partition 7 through the two push rods 14, so that the two sub-partitions 12 are housed in the partition 7 and disengaged from the two side plates 1-2, facilitating the movement of the partition 7; when the partition 7 is inserted downwards, the push plate 13 is simultaneously pushed downwards, causing the push plate 13 to push the two sub-partitions 12 to the left and right sides of the partition 7 through the two push rods 14, while the elastic force of the spring 2 15 pushes the two sub-partitions 12 outwards, so that the two sub-partitions 12 automatically fill the gap between the partition 7 and the two side plates 1-2, improving the separation effect. Example 3

[0026] like Figure 1 , Figure 2 , Figure 5 and Figure 6 As shown, based on embodiment 1, it also includes a positioning groove 18. The bottom edge of the base plate 1 is provided with a positioning groove 18, and the width of the positioning groove 18 is the same as the thickness of the side plate 2 and the side plate 3. It also includes multiple vertical sliding grooves 19, multiple corner plates 20 and multiple key bars 21. Vertical sliding grooves 19 are provided at the four corners of the axial cage formed by the base plate 1, the two side plates 2 and the two side plates 3. Multiple corner plates 20 slide up and down on multiple vertical sliding grooves 19 respectively. Each of the multiple vertical sliding grooves 19 is provided with a limiting groove. Each of the multiple corner plates 20 is equipped with a key bar 21. The multiple key bars 21 are slidably installed on the limiting grooves of the multiple vertical sliding grooves 19 respectively.

[0027] By setting the positioning groove 18, when the turnover cage consisting of the bottom plate 1, two side plates 1 2 and two side plates 2 3 are stacked up and down, the bottom plate 1 located on the top is snapped into the positioning groove 18, which improves the stability and accuracy when multiple turnover cages are stacked. After multiple bearing cages are stacked up and down, multiple corner plates 20 on the upper turnover cage are slid down along multiple vertical sliding grooves 19, so that the lower part of multiple corner plates 20 is inserted into multiple vertical sliding grooves 19 of the lower turnover cage. When multiple corner plates 20 are raised and lowered, multiple key bars 21 limit the corner plates 20, which improves the stability of the stacked turnover cages.

[0028] like Figures 1 to 6As shown, this utility model discloses an adjustable partitioned cargo turnover cage. During operation, when adjusting the volume of the two chambers, the partition 7 is pulled upwards. Multiple springs 11 contract, pulling the two friction plates 10 inwards, causing them to automatically disengage from the sliding grooves 4. Simultaneously, the push plate 13 is lifted upwards, causing it to pull the two auxiliary partitions 12 inwards through two push rods 14, allowing them to be housed within the partition 7 and disengaged from the two side plates 2. Then, the partition 7 is moved, causing it to move two sliders 5 back and forth along the two sliding grooves 4 via two slots 6, thereby adjusting the volume of the two chambers on the front and rear sides of the partition 7. Finally, after adjustment, the partition 7 is inserted downwards. The left and right edges of the partition 7 descend along the two slots 6, causing the two guide surfaces 8 to push the two wedges 9 outward. The two wedges 9 push the two friction plates 10 against the inner walls of the two slide grooves 4, so that the two friction plates 10 are pressed against the inner walls of the two slide grooves 4, thereby locking the two sliders 5 with the two slide grooves 4. Finally, the push plate 13 is pushed downward, so that the push plate 13 pushes the two sub-partitions 12 to the left and right sides of the partition 7 through the two push rods 14, so that the outer edges of the two sub-partitions 12 contact the two side plates 12, so that the two sub-partitions 12 fill the gap between the partition 7 and the two side plates 12. After the partition 7 is adjusted and inserted into place, the spring plate 17 is engaged with the teeth of the rack 16, thereby providing auxiliary positioning for the partition 7.

[0029] The main functions achieved by this utility model are:

[0030] 1. The use of a locking component that is connected to the partition 7 in a transmission makes it easier to adjust the position of the partition 7, and also makes it easier to lock or unlock the partition 7, which is practical.

[0031] 2. The gap between the partition 7 and the two side plates 2 is filled by two secondary partitions 12 to improve the separation effect;

[0032] 3. The partition 7 is assisted in positioning by rack 16 and spring plate 17, and an early warning is given when the partition 7 slides, thereby improving the reliability of the partition 7.

[0033] The adjustable divider cargo turnover cage of this utility model has common mechanical installation, connection or setting methods, and can be implemented as long as it can achieve its beneficial effect. The bottom plate 1, side plate 1, side plate 2, side plate 3, slide groove 4, slider 5, slot 6, partition 7, friction plate 10, spring 11, rack 16, spring sheet 17 and corner plate 20 of the adjustable divider cargo turnover cage of this utility model are purchased from the market. Technical personnel in this industry only need to install and operate it according to the accompanying instruction manual, without requiring any creative work from technical personnel in this field.

[0034] All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.

[0035] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A cargo turnover cage with adjustable partitions, comprising a bottom plate (1), two side plates (2) and two side plates (3), wherein the two side plates (2) are installed opposite each other on the left and right sides of the bottom plate (1), and the two side plates (3) are installed opposite each other on the front and rear sides of the bottom plate (1), the bottom plate (1), the two side plates (2) and the two side plates (3) constitute a cage-type structure; characterized in that, It also includes two slides (4), two sliders (5), two slots (6) and a partition (7). The two slides (4) are installed opposite each other in the middle of the two side plates (2). The two slides (4) are set horizontally. The two sliders (5) are slidably installed in the two slides (4). The two slots (6) are installed on the inner ends of the two sliders (5) respectively. The two slots (6) are arranged opposite each other. The left and right edges of the partition (7) are slidably inserted into the two slots (6). Locking components are installed on both sliders (5). The locking components are connected to the partition (7) in a transmission manner. The locking components are used to lock the sliders (5) on the slides (4).

2. The cargo turnover cage with adjustable partitions as described in claim 1, characterized in that, The locking assembly includes a guide surface (8), a wedge (9), and a friction plate (10). The guide surface (8) is provided in the middle of the left and right edges of the partition (7). The lower end of the guide surface (8) shrinks into the interior of the partition (7). The wedge (9) is slidably inserted into the slider (5). The inner end of the wedge (9) slides in contact with the guide surface (8). The outer end of the wedge (9) is fitted with the friction plate (10). The friction plate (10) is located on the outside of the slider (5). The friction plate (10) is aligned with the inner wall of the groove (4).

3. A cargo turnover cage with adjustable partitions as described in claim 2, characterized in that, It also includes multiple springs (11), the outer ends of which are connected to two friction plates (10) respectively, and the inner ends of the two springs (11) are connected to two slots (6) respectively. The elastic force of the multiple springs (11) pulls the two friction plates (10) inward respectively.

4. A cargo turnover cage with adjustable partitions as described in claim 1, characterized in that, It also includes two sub-partitions (12), a push plate (13) and two push rods (14). The two sub-partitions (12) are horizontally slidably installed on the left and right sides of the partition (7). The outer edges of the two sub-partitions (12) are slidably in contact with the inner walls of the two side plates (2). The push plate (13) is slidably installed in the middle of the partition (7). The outer ends of the two push rods (14) are rotatably connected to the two sub-partitions (12) respectively, and the inner ends of the two push rods (14) are rotatably connected to the push plate (13).

5. A cargo turnover cage with adjustable partitions as described in claim 4, characterized in that, It also includes a second spring (15), the two ends of which are connected to two secondary partitions (12) respectively.

6. A cargo turnover cage with adjustable partitions as described in claim 1, characterized in that, It also includes a rack (16) and a spring plate (17). The rack (16) is mounted on the slide (4), and the spring plate (17) is mounted on the partition (7). The spring plate (17) contacts and engages with the rack (16).

7. A cargo turnover cage with adjustable partitions as described in claim 1, characterized in that, It also includes a positioning groove (18), and the bottom edge of the base plate (1) is provided with a positioning groove (18), the width of which is the same as the thickness of the side plate one (2) and the side plate two (3).

8. A cargo turnover cage with adjustable partitions as described in claim 7, characterized in that, It also includes multiple vertical sliding grooves (19), multiple corner plates (20) and multiple key bars (21). Vertical sliding grooves (19) are provided at the four corners of the axial cage formed by the bottom plate (1), two side plates (2) and two side plates (3). Multiple corner plates (20) slide up and down on multiple vertical sliding grooves (19) respectively. Limiting grooves are provided on multiple vertical sliding grooves (19). Key bars (21) are installed on multiple corner plates (20). Multiple key bars (21) are slidably installed on the limiting grooves of multiple vertical sliding grooves (19) respectively.