Loading platform stacking support with anti-toppling support structure

By setting up a triangular support structure and a spacing adjustment mechanism on the loading platform, the stability problem caused by the inability of the existing loading platform support to fit snugly with the cargo was solved, achieving stable support for cargo of different specifications and improving the overall stability and safety of the loading platform.

CN224336041UActive Publication Date: 2026-06-09RUGAO BAOXIANG FORKELEVATOR

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
RUGAO BAOXIANG FORKELEVATOR
Filing Date
2025-08-14
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

When the stacking supports of existing loading platforms cannot fit snugly against the baffles at the edges of the cargo, the cargo is prone to swaying and tipping over, reducing the stability of the loading platform.

Method used

A triangular support structure is formed by the main support frame and the diagonal support frame. The positions of the main support frame, the diagonal support frame and the auxiliary support frame can be flexibly adjusted through the longitudinal and lateral spacing adjustment mechanism, so that they fit closely with the goods and the mechanical stability advantage of the triangle is used to disperse the lateral force of the goods.

Benefits of technology

It significantly improves the anti-tipping ability and stability of the loading platform, adapts to the support requirements of goods of different specifications, and enhances the safety and stability of the stacking process.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224336041U_ABST
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Abstract

The utility model discloses a kind of loading platform stacking supports with anti-toppling support structure, it is related to loading platform technical field, including loading platform main body, the top surface of loading platform main body is fixedly installed with fixed base, the front and rear sides of fixed base are provided with main support frame, the outside of main support frame is fixedly installed with oblique support frame, longitudinal spacing adjusting mechanism is connected between main support frame and oblique support frame and fixed base, the left and right sides of fixed base are provided with auxiliary support frame, transverse spacing adjusting mechanism is connected between auxiliary support frame and fixed base, the design of longitudinal spacing adjusting mechanism and transverse spacing adjusting mechanism in this loading platform stacking supports with anti-toppling support structure, the flexible adjustment of main support frame, oblique support frame and auxiliary support frame position is realized, wherein longitudinal adjustment can adapt to the longitudinal width of goods, and transverse adjustment can meet the transverse dimension demand of goods.
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Description

Technical Field

[0001] This utility model relates to the field of loading platform technology, specifically to a loading platform stacking support with an anti-tipping support structure. Background Technology

[0002] A loading platform is a specialized facility used for loading, unloading, transferring, and temporarily storing goods. It is widely used in logistics parks, warehousing centers, freight stations, factory workshops, and other places. It is an important hub connecting different transportation vehicles and storage areas. When temporarily storing goods on a loading platform, stacking supports are needed to ensure the stability of the goods. However, existing loading platform stacking supports still have certain defects in use.

[0003] As proposed in application number CN202223205141.6, a lifting loading platform with a stabilizing mechanism includes a support frame, casters at the bottom of the support frame, a loading platform movably mounted in the support frame, and a lifting mechanism between the support frame and the loading platform. The lifting mechanism supports the loading platform and can adjust the height of the loading platform. A stabilizing mechanism is provided on the support frame to cooperate with the lifting mechanism and stabilize the support frame. As the lifting mechanism gradually raises the loading platform, the stabilizing mechanism gradually lowers to contact the ground with the cooperation of the lifting mechanism. In actual use, the loading platform limits the loading of goods by using baffles on both sides of the top. However, the distance between the baffles on both sides is not adjustable. Therefore, when the edge of the goods cannot fit against the baffle, the baffle cannot provide effective support, making the goods prone to shaking and tipping, thus reducing the stability of the loading platform.

[0004] Therefore, we propose a loading platform stacking support with an anti-tipping support structure to solve the problems mentioned above. Utility Model Content

[0005] The purpose of this utility model is to provide a loading platform stacking bracket with an anti-tipping support structure, so as to solve the problem mentioned in the background art that the fixed installation support structure cannot fit with the cargo, thus reducing stability.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a loading platform stacking bracket with an anti-tipping support structure, comprising a loading platform body, a fixed base fixedly installed on the top surface of the loading platform body, main support frames provided on the front and rear sides of the fixed base, and an inclined support frame fixedly installed on the outer side of the main support frame;

[0007] The main support frame and the inclined support frame are connected to the fixed base by a longitudinal spacing adjustment mechanism;

[0008] The fixed base is provided with auxiliary support frames on the left and right sides, and the auxiliary support frames are connected to the fixed base by a lateral spacing adjustment mechanism.

[0009] Preferably, the main support frame and the diagonal support frame form a triangular support structure.

[0010] By adopting the above-mentioned structural design, the mechanical stability advantage of triangles can be utilized to evenly distribute the lateral force generated by the cargo on the support frame to the main support frame and the inclined support frame, which greatly improves the overall anti-tipping ability of the support frame.

[0011] Preferably, the longitudinal spacing adjustment mechanism includes first sliding grooves equally spaced inside the front and rear sides of the fixed base. A slider is slidably installed inside the first sliding groove. The end of the slider near the main support frame is fixedly connected to the main support frame. A limiting groove is formed at the top of the first sliding groove. A limiting block is slidably installed inside the limiting groove. The bottom end of the limiting block is fixedly connected to the slider.

[0012] Preferably, the longitudinal spacing adjustment mechanism further includes an adjusting screw rotatably mounted in the middle of the fixed base. The two ends of the adjusting screw are threadedly connected to the main support frame and the inclined support frame. The threads at both ends of the adjusting screw are reversed. Rotating handles are fixedly mounted at both ends of the adjusting screw.

[0013] The above-described structure, through the sliding engagement of the first groove and the slider, provides stable guidance for the longitudinal movement of the main support frame and the inclined support frame, ensuring that they do not deviate during adjustment. Simultaneously, the engagement of the limiting groove and the limiting block restricts the sliding range of the slider, preventing it from detaching from the first groove.

[0014] The threads at both ends of the adjusting screw are reversed and threaded through the main support frame and the inclined support frame. Therefore, when the adjusting screw rotates, the main support frame and the inclined support frame can move inward or outward simultaneously, realizing rapid and synchronous adjustment of the longitudinal spacing. The position of the main support frame and the inclined support frame can be flexibly adjusted according to the longitudinal width of different goods, so that they fit closely with the goods, avoiding the problem of decreased stability caused by the fixed spacing not being able to adapt to the size of the goods.

[0015] Preferably, the lateral spacing adjustment mechanism includes a second slide groove formed inside the left and right ends of the fixed base, a slide block is slidably installed inside the second slide groove, the top of the slide block is fixedly connected to the auxiliary support frame, and the second slide groove and the slide block are arranged in a "T" shape.

[0016] Preferably, the lateral spacing adjustment mechanism further includes connecting blocks symmetrically installed on the outside of the auxiliary support frame. The internal threads of the connecting blocks are threaded through by positioning bolts. The fixed bases on both sides of the second slide groove are provided with positioning holes at equal intervals. The positioning holes are engaged with the positioning bolts.

[0017] The design of the above structure, with the "T"-shaped second slide groove cooperating with the slide block, not only provides a stable guide for the lateral movement of the auxiliary support frame, but also effectively prevents the slide block from falling out of the second slide groove, ensuring the safety and reliability of the lateral adjustment process;

[0018] Once the secondary support frame is adjusted to the appropriate position, the positioning bolts are passed through the connecting block and engaged with the corresponding positioning holes to quickly fix the secondary support frame and prevent it from shifting during the stacking of goods. The positioning holes are evenly spaced, allowing for multiple levels of adjustment of the lateral spacing of the secondary support frame to meet the support requirements of goods with different lateral dimensions, ensuring that the secondary support frame fits tightly with the goods and further improving the stability of the support.

[0019] Compared with the prior art, the beneficial effects of this utility model are: the loading platform stacking bracket with an anti-tipping support structure;

[0020] 1. The triangular support structure formed by the main support frame and the inclined support frame makes full use of the mechanical stability advantage of the triangle, which can effectively disperse the lateral force generated by the goods, significantly improve the overall anti-tipping ability of the support, provide a stable foundation support for the stacking of goods, and enhance the safety of the stacking process from a structural point of view.

[0021] 2. The design of the longitudinal and transverse spacing adjustment mechanisms enables flexible adjustment of the positions of the main support frame, the diagonal support frame, and the auxiliary support frame. The longitudinal adjustment can adapt to the longitudinal width of the goods, while the transverse adjustment can meet the transverse dimension requirements of the goods. This ensures that each support structure fits tightly with the goods, avoiding the problem of decreased stability caused by the fixed support structure being unable to adapt to the goods. This greatly improves the adaptability of the support frame to goods of different specifications and the stacking stability. Attached Figure Description

[0022] Figure 1 This is a side view of the appearance structure of this utility model;

[0023] Figure 2 This is a schematic diagram of the connection structure between the fixed base and the longitudinal spacing adjustment mechanism of this utility model;

[0024] Figure 3 This is a schematic diagram of the connection structure between the main support frame and the inclined support frame of this utility model;

[0025] Figure 4This is a schematic diagram of the connection structure between the fixed base and the longitudinal spacing adjustment mechanism of this utility model;

[0026] Figure 5 This is a schematic diagram of the connection structure between the fixed base, the secondary support frame, and the lateral spacing adjustment mechanism of this utility model;

[0027] Figure 6 This is an exploded view of the lateral spacing adjustment mechanism of this utility model.

[0028] In the diagram: 1. Loading platform body; 2. Fixed base; 3. Main support frame; 4. Inclined support frame; 5. First slide groove; 6. Slider; 7. Limiting groove; 8. Limiting block; 9. Adjusting screw; 10. Rotating handle; 11. Secondary support frame; 12. Second slide groove; 13. Slide seat; 14. Connecting block; 15. Positioning bolt; 16. Positioning hole. Detailed Implementation

[0029] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0030] Please see Figure 1-6 This utility model provides a technical solution: a loading platform stacking bracket with an anti-tipping support structure, including a loading platform body 1, a fixed base 2 fixedly installed on the top surface of the loading platform body 1, main support frames 3 arranged on the front and rear sides of the fixed base 2, and an inclined support frame 4 fixedly installed on the outer side of the main support frame 3, the main support frame 3 and the inclined support frame 4 forming a triangular support structure.

[0031] The above-described structure allows goods to be placed on the loading platform body 1 and stacked using the main support frame 3. The weight of the goods and any lateral forces they may experience are transmitted to the main support frame 3. Since the main support frame 3 and the inclined support frame 4 form a triangular support structure, the force borne by the main support frame 3 is effectively decomposed and transmitted to the inclined support frame 4 based on the mechanical property of triangle stability. The inclined support frame 4 is connected to the loading platform body 1, which further disperses the received force onto the loading platform body 1. This method of force transmission and dispersion avoids the concentration of force on a single support component, making the entire support structure more stable when bearing the weight of the goods and lateral forces. This effectively resists the tendency of the goods to tip over and ensures the stability and safety of the goods stacking process.

[0032] A longitudinal spacing adjustment mechanism is connected between the main support frame 3 and the inclined support frame 4 and the fixed base 2. The longitudinal spacing adjustment mechanism includes a first slide groove 5 that is equally spaced inside the front and rear sides of the fixed base 2. A slider 6 is slidably installed inside the first slide groove 5. The end of the slider 6 near the main support frame 3 is fixedly connected to the main support frame 3. A limit groove 7 is opened at the top of the first slide groove 5. A limit block 8 is slidably installed inside the limit groove 7. The bottom end of the limit block 8 is fixedly connected to the slider 6. The longitudinal spacing adjustment mechanism also includes an adjustment screw 9 that is rotatably installed in the middle of the fixed base 2. The two ends of the adjustment screw 9 are threadedly connected to the main support frame 3 and the inclined support frame 4. The threads at both ends of the adjustment screw 9 are reversed. A rotating handle 10 is fixedly installed at both ends of the adjustment screw 9.

[0033] In the above structure design, when it is necessary to adjust the distance between the main support frame 3 and the inclined support frame 4 according to the longitudinal dimension of the goods, the operator rotates the rotating handles 10 at both ends of the adjusting screw 9, causing the adjusting screw 9 to rotate in the middle of the fixed base 2. Since the threads at both ends of the adjusting screw 9 are reversed and are threadedly connected to the main support frame 3 and the inclined support frame 4, under the action of thread transmission, the main support frame 3 and the inclined support frame 4 will move inward or outward at the same time.

[0034] During this process, the main support frame 3 drives the slider 6, which is fixedly connected to it, to slide synchronously in the first slide groove 5. The limiting block 8 at the top of the slider 6 slides in the limiting groove 7. The first slide groove 5 provides guidance for the movement of the slider 6, ensuring that the main support frame 3 and the inclined support frame 4 move smoothly in the longitudinal direction and avoid deviation. The cooperation between the limiting block 8 and the limiting groove 7 limits the sliding range of the slider 6, preventing it from disengaging from the first slide groove 5 and ensuring the safety of the adjustment process. Through such linkage operation, the longitudinal distance between the main support frame 3 and the inclined support frame 4 is adjusted, so that it can fit closely with goods of different longitudinal dimensions and enhance the support stability.

[0035] A secondary support frame 11 is provided on the left and right sides of the fixed base 2. A lateral spacing adjustment mechanism is connected between the secondary support frame 11 and the fixed base 2. The lateral spacing adjustment mechanism includes a second slide groove 12 opened inside the left and right ends of the fixed base 2. A slide block 13 is slidably installed inside the second slide groove 12. The top of the slide block 13 is fixedly connected to the secondary support frame 11. The second slide groove 12 and the slide block 13 are arranged in a "T" shape. The lateral spacing adjustment mechanism also includes a connecting block 14 symmetrically installed on the outside of the secondary support frame 11. A positioning bolt 15 is threaded through the inside of the connecting block 14. Positioning holes 16 are opened at equal intervals inside the fixed base 2 on both sides of the second slide groove 12. The positioning holes 16 are engaged with the positioning bolts 15.

[0036] When the spacing of the auxiliary support frame 11 needs to be adjusted according to the lateral dimensions of the goods, the operator first loosens the positioning bolt 15 in the connecting block 14 to disengage it from the positioning hole 16, thereby releasing the fixation of the auxiliary support frame 11. Then, the auxiliary support frame 11 is pushed, and the slide block 13 fixedly connected to its bottom end slides in the second slide groove 12 at both ends of the fixed base 2. Since the second slide groove 12 and the slide block 13 are set in a "T" shape, it can provide stable guidance for the lateral movement of the slide block 13, ensuring that the auxiliary support frame 11 moves smoothly along a straight line, and also prevent the slide block 13 from falling out of the second slide groove 12, thus ensuring the safety of the adjustment process.

[0037] After the secondary support frame 11 is moved to a position that matches the lateral dimensions of the goods, the operator tightens the positioning bolt 15 so that it passes through the connecting block 14 and engages with the positioning hole 16 at the corresponding position, thereby firmly fixing the secondary support frame 11 in the current position. Through the positioning holes 16 that are opened at equal intervals, the lateral spacing of the secondary support frame 11 can be adjusted in multiple positions to ensure that it fits closely with the goods and improves the stability of the support.

[0038] This completes a series of tasks. The contents not described in detail in this specification are existing technologies known to those skilled in the art.

[0039] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A loading platform stacking support with an anti-tipping support structure, comprising a loading platform body (1), characterized in that: A fixed base (2) is fixedly installed on the top surface of the loading platform body (1). Main support frames (3) are provided on the front and rear sides of the fixed base (2). An oblique support frame (4) is fixedly installed on the outer side of the main support frame (3). The main support frame (3) and the inclined support frame (4) are connected to the fixed base (2) by a longitudinal spacing adjustment mechanism; The fixed base (2) is provided with auxiliary support frames (11) on the left and right sides, and the auxiliary support frames (11) are connected to the fixed base (2) by a lateral spacing adjustment mechanism.

2. A loading platform stacking support with an anti-tipping support structure according to claim 1, characterized in that: The main support frame (3) and the inclined support frame (4) form a triangular support structure.

3. A loading platform stacking support with an anti-tipping support structure according to claim 1, characterized in that: The longitudinal spacing adjustment mechanism includes a first slide groove (5) that is equally spaced inside the front and rear sides of the fixed base (2). A slider (6) is slidably installed inside the first slide groove (5). The end of the slider (6) near the main support frame (3) is fixedly connected to the main support frame (3). A limit groove (7) is opened at the top of the first slide groove (5). A limit block (8) is slidably installed inside the limit groove (7). The bottom end of the limit block (8) is fixedly connected to the slider (6).

4. A loading platform stacking support with an anti-tipping support structure according to claim 3, characterized in that: The longitudinal spacing adjustment mechanism also includes an adjustment screw (9) rotatably installed in the middle of the fixed base (2). The two ends of the adjustment screw (9) are threadedly connected to the main support frame (3) and the inclined support frame (4). The threads at both ends of the adjustment screw (9) are reversed. Rotary handles (10) are fixedly installed at both ends of the adjustment screw (9).

5. A loading platform stacking support with an anti-tipping support structure according to claim 1, characterized in that: The lateral spacing adjustment mechanism includes a second slide groove (12) opened inside the left and right ends of the fixed base (2). A slide block (13) is slidably installed inside the second slide groove (12). The top of the slide block (13) is fixedly connected to the auxiliary support frame (11). The second slide groove (12) and the slide block (13) are arranged in a "T" shape.

6. A loading platform stacking support with an anti-tipping support structure according to claim 5, characterized in that: The lateral spacing adjustment mechanism also includes a connecting block (14) symmetrically installed on the outside of the auxiliary support frame (11). The internal thread of the connecting block (14) is through a positioning bolt (15). The fixing base (2) on both sides of the second slide (12) is provided with positioning holes (16) at equal intervals. The positioning holes (16) are engaged with the positioning bolts (15).