A non-slip and shock-absorbing packaging bracket for floor slab transportation

By installing rubber anti-slip strips, dampers, and spring structures on the packaging trays, the problem of slippage and fall during floor slab transportation was solved, achieving anti-slip and shock absorption effects and improving the stability and convenience of transportation.

CN224448779UActive Publication Date: 2026-07-03YANCHENG ZHONGPAI CONSTRUCTION TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YANCHENG ZHONGPAI CONSTRUCTION TECHNOLOGY CO LTD
Filing Date
2025-07-25
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing packaging trays are difficult to effectively prevent sliding and slipping during floor transportation, and they cannot effectively absorb shocks, leading to damage to the floor.

Method used

A non-slip and shock-absorbing packaging tray was designed, which adopts a structure of rubber anti-slip strips, dampers and springs. Combined with a U-shaped frame, it is easy for forklift operation. The rubber anti-slip strips prevent slippage, and the dampers and springs reduce shock, thereby improving stability and convenience.

Benefits of technology

It effectively prevents floor slabs from sliding and slipping, reduces damage during transportation, and improves the stability and convenience of the transportation process.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses an anti-slip and shock-absorbing packaging bracket for floor slab transportation, including a frame plate. A first rectangular frame is fixedly installed at the top edge of the frame plate. A load-bearing plate is movably installed at the top of the inner part of the first rectangular frame, with the outer wall of the load-bearing plate contacting the inner wall of the first rectangular frame. A second rectangular frame is fixed at the top edge of the load-bearing plate. Equally spaced rubber anti-slip strips are installed on the top of the load-bearing plate inside the second rectangular frame. Dampers are installed at the corners of the bottom of the load-bearing plate, with the bottom ends of the dampers fixedly connected to the top of the frame plate. A strip frame is fixed to the surface of the frame plate, and U-shaped frames are fixedly installed on both sides of the bottom of the strip frame. This utility model not only reduces the phenomenon of floor slab sliding and falling during the use of the packaging bracket, but also reduces the damage caused by bumps during floor slab transportation, and improves the convenience of using the packaging bracket.
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Description

Technical Field

[0001] This utility model relates to the field of building component transportation and packaging technology, specifically an anti-slip and shock-absorbing packaging bracket for floor slab transportation. Background Technology

[0002] During the construction process, floor slabs, as important building components, need to be transported from the production site to the construction site. During transportation, floor slabs face many challenges, such as road bumps, sudden braking and turning of vehicles. These factors may cause floor slabs to slide, collide or even be damaged. Therefore, it is particularly important to develop an anti-slip and shock-absorbing packaging bracket for floor slab transportation.

[0003] A crankshaft packaging bracket, as described in CN216510054U, includes a base plate with multiple support plates fixedly connected to its mounting surface. Each support plate has an arc-shaped placement groove at its end away from the base plate. Strip plates are fixedly connected to the four corners of the mounting surface of the base plate. Four clamping plates are located above the base plate, and each strip plate is connected to a first adjustment mechanism and connected to the clamping plate on the same side through the first adjustment mechanism. Four support blocks are located above the base plate, and each clamping plate is connected to a second adjustment mechanism and connected to the support block on the same side through the second adjustment mechanism. Each support block is located on the clamping surface of the clamping plate on the same side. This application can minimize axial and radial movement of the crankshaft during transportation, greatly improving the stability of the crankshaft packaging and placement. It can also reduce the impact of vibration on the crankshaft during transportation. As can be seen from the above, although this packaging bracket can be well applied, it is usually not convenient to perform anti-slip treatment on the workpiece, making it easy for the workpiece to slide or even fall during transportation, which often troubles people. Utility Model Content

[0004] The purpose of this utility model is to provide an anti-slip and shock-absorbing packaging bracket for floor slab transportation, so as to solve the problem mentioned in the background art that although the packaging bracket can be used well, it is usually not convenient to perform anti-slip treatment on the workpiece, which makes the workpiece easy to slide or even fall during transportation.

[0005] To achieve the above objectives, this utility model provides the following technical solution: an anti-slip and shock-absorbing packaging bracket for floor slab transportation, comprising a frame plate, a first rectangular frame fixedly installed at the top edge of the frame plate, a load-bearing plate movably installed at the top inside the first rectangular frame, the outer wall of the load-bearing plate contacting the inner wall of the first rectangular frame, a second rectangular frame fixedly installed at the top edge of the load-bearing plate, rubber anti-slip strips with equal spacing installed at the top of the load-bearing plate inside the second rectangular frame, and dampers installed at the corners of the bottom of the load-bearing plate, the bottom ends of the dampers being fixedly connected to the top of the frame plate.

[0006] Preferably, a strip frame is fixed to the surface of the frame plate, and U-shaped frames are fixedly installed on both sides of the bottom end of the strip frame. The U-shaped frames are used to arrange the insertion holes.

[0007] Preferably, the inner side of the U-shaped frame is provided with insertion holes, and the two U-shaped frames are symmetrical about the center line of the strip frame. The insertion holes enable forklifts to pick up and move the packaging tray.

[0008] Preferably, the bottom end of the load-bearing plate is provided with several connecting frames, and the top of the frame plate below the connecting frames is provided with positioning cylinders. The positioning cylinders are provided to allow the movable rod to be moved and positioned.

[0009] Preferably, a movable rod is movably connected inside the positioning cylinder. The top end of the movable rod extends to the outside of the positioning cylinder and connects to the bottom end of the connecting frame. The movable rod is provided to accommodate the spring.

[0010] Preferably, the outer wall of the positioning cylinder is provided with external threads, and a nut disc is threadedly installed on the outer wall of the positioning cylinder at the position of the external threads. A spring is wound around the movable rod between the nut disc and the connecting frame and the outer wall of the positioning cylinder. The spring is provided to buffer and protect the floor slab placed on the top of the load-bearing plate.

[0011] Compared with the prior art, the beneficial effects of this utility model are: the anti-slip and shock-absorbing packaging bracket for floor transportation not only reduces the phenomenon of floor sliding and slipping when the packaging bracket is used, but also reduces the phenomenon of damage caused by bumps during floor transportation, and improves the convenience of using the packaging bracket.

[0012] (1) Several rubber anti-slip strips are installed at the top of the load-bearing plate. When the floor is placed on the top of the load-bearing plate, the bottom of the floor contacts the top of the rubber anti-slip strips to achieve the purpose of anti-slip of the floor. Because a second rectangular frame is installed at the edge of the top of the load-bearing plate, the second rectangular frame provides lateral protection for the floor, thereby reducing the phenomenon of the floor sliding and falling when the packaging bracket is used.

[0013] (2) The spring has good elasticity, so that it can work with the positioning cylinder and the movable rod to apply elastic pressure to the load-bearing plate. Due to the external thread, the rotatable nut plate can slide up and down on the outer wall of the positioning cylinder to adjust the elastic pressure applied by the spring to the load-bearing plate. In turn, it can work with the damper to buffer and reduce the vibration of the floor slab at the top of the load-bearing plate, thereby reducing the damage caused by bumps during the transportation of the floor slab.

[0014] (3) By symmetrically setting two U-shaped frames at the bottom of the strip frame, the inner side of the U-shaped frame is a socket, so that the forklift forks can be inserted into the socket, making it easier for the forklift to load and unload the packaging tray, thereby improving the convenience of using the packaging tray. Attached Figure Description

[0015] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0016] Figure 2 This is a frontal cross-sectional view of the present invention.

[0017] Figure 3 This utility model Figure 2 Enlarged structural diagram at point A in the middle;

[0018] Figure 4 This utility model Figure 2 Enlarged structural diagram at point B.

[0019] In the diagram: 1. Shelf plate; 2. Strip frame; 3. U-shaped frame; 4. Insertion hole; 5. Second rectangular frame; 6. First rectangular frame; 7. Load-bearing plate; 8. Rubber anti-slip strip; 9. Positioning cylinder; 10. External thread; 11. Nut disc; 12. Movable rod; 13. Connecting frame; 14. Spring; 15. Damper. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0021] Please see Figure 1-4 An embodiment of this utility model is provided: an anti-slip and shock-absorbing packaging bracket for floor slab transportation, including a frame plate 1, a strip frame 2 fixed on the surface of the frame plate 1, and a U-shaped frame 3 fixedly installed on both sides of the bottom end of the strip frame 2.

[0022] When in use, the U-shaped bracket 3 is used to accommodate the socket 4.

[0023] The inner side of the U-shaped frame 3 is provided with insertion holes 4, and the two U-shaped frames 3 are symmetrical about the center line of the strip frame 2;

[0024] When in use, the jack 4 allows for forklifts to pick up and move the packaging tray.

[0025] A first rectangular frame 6 is fixedly installed at the top edge of the frame 1. A load-bearing plate 7 is movably installed at the top inside the first rectangular frame 6. The outer wall of the load-bearing plate 7 touches the inner wall of the first rectangular frame 6. Several connecting frames 13 are provided at the bottom of the load-bearing plate 7. A positioning cylinder 9 is provided at the top of the frame 1 below the connecting frame 13.

[0026] In use, the positioning cylinder 9 is used to move and position the movable rod 12.

[0027] The positioning cylinder 9 is movably connected to a movable rod 12. The top end of the movable rod 12 extends to the outside of the positioning cylinder 9 and is connected to the bottom end of the connecting frame 13.

[0028] In use, the spring 14 is positioned by setting the movable rod 12;

[0029] The outer wall of the positioning cylinder 9 is provided with an external thread 10. A nut disc 11 is threadedly installed on the outer wall of the positioning cylinder 9 at the position of the external thread 10. A spring 14 is wound around the movable rod 12 between the nut disc 11 and the connecting frame 13 and the outer wall of the positioning cylinder 9.

[0030] In use, the spring 14 is designed to provide cushioning and protection for the floor slab placed at the top of the load-bearing plate 7.

[0031] A second rectangular frame 5 is fixed at the top edge of the load-bearing plate 7. Rubber anti-slip strips 8 with equal spacing are installed on the top of the load-bearing plate 7 inside the second rectangular frame 5. Dampers 15 are installed at the corners of the bottom of the load-bearing plate 7. The bottom of the damper 15 is fixedly connected to the top of the frame plate 1.

[0032] In this embodiment, two U-shaped frames 3 are symmetrically arranged at the bottom of the strip frame 2. The inner side of the U-shaped frame 3 has insertion holes 4 so that the forklift forks can be inserted into the insertion holes 4, which facilitates the loading and unloading of the packaging pallet by the forklift. Then, several rubber anti-slip strips 8 are installed at the top of the load-bearing plate 7. When the floor slab is placed on the top of the load-bearing plate 7, the bottom of the floor slab contacts the top of the rubber anti-slip strips 8 to achieve the purpose of anti-slip of the floor slab. Since a second rectangular frame 5 is installed at the edge of the top of the load-bearing plate 7, the second rectangular frame 5 supports the floor slab. Lateral blocking protection is provided to reduce the phenomenon of slippage and sliding during the transportation of floor slabs. Finally, the spring 14 has good elasticity, which, together with the positioning cylinder 9 and the movable rod 12, applies elastic pressure to the load-bearing plate 7. Due to the setting of the external thread 10, the rotatable nut plate 11 is located on the outer wall of the positioning cylinder 9 and slides up and down to adjust the elastic pressure applied by the spring 14 to the load-bearing plate 7. In turn, it can work with the damper 15 to buffer and reduce the floor slab at the top of the load-bearing plate 7, so as to reduce the damage caused by bumps during the transportation of floor slabs, thus completing the use of the packaging bracket.

[0033] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0034] Although the present invention has been described above with reference to embodiments, various modifications can be made and components can be replaced with equivalents without departing from the scope of the present invention. In particular, as long as there is no structural conflict, the features in the embodiments disclosed in this invention can be combined with each other in any way. The lack of an exhaustive description of these combinations in this specification is merely for the sake of brevity and resource conservation. Therefore, the present invention is not limited to the specific embodiments disclosed herein, but includes all technical solutions falling within the scope of the claims.

Claims

1. An anti-slip shock absorbing packaging cradle for floor transport, characterized by: The system includes a frame (1), a first rectangular frame (6) is fixedly installed at the top edge of the frame (1), a load-bearing plate (7) is movably installed at the top inside the first rectangular frame (6), the outer wall of the load-bearing plate (7) touches the inner wall of the first rectangular frame (6), a second rectangular frame (5) is fixed at the top edge of the load-bearing plate (7), rubber anti-slip strips (8) with equal spacing are installed at the top of the load-bearing plate (7) inside the second rectangular frame (5), and dampers (15) are installed at the corners at the bottom of the load-bearing plate (7), and the bottom of the dampers (15) is fixedly connected to the top of the frame (1).

2. A slip-resistant shock-absorbing packaging pallet for floor transport according to claim 1, characterized in that: A strip frame (2) is fixed to the surface of the frame plate (1), and U-shaped frames (3) are fixedly installed on both sides of the bottom end of the strip frame (2).

3. A slip-resistant shock-absorbing packaging pallet for floor transport according to claim 2, characterized in that: The U-shaped frame (3) has an insertion hole (4) on its inner side, and the two U-shaped frames (3) are symmetrical about the center line of the strip frame (2).

4. A slip-sheet packaging pallet for floor transport according to claim 1, characterized in that: The bottom end of the load-bearing plate (7) is provided with several connecting frames (13), and the top of the frame plate (1) below the connecting frame (13) is provided with a positioning cylinder (9).

5. A slip-resistant shock-absorbing packaging pallet for floor transport according to claim 4, characterized in that: The positioning cylinder (9) is movably connected to a movable rod (12), the top end of which extends to the outside of the positioning cylinder (9) and is connected to the bottom end of the connecting frame (13).

6. An anti-slip shock absorbing packaging cradle for floor transport according to claim 5, characterized in that: The outer wall of the positioning cylinder (9) is provided with an external thread (10), and a nut disc (11) is threadedly installed on the outer wall of the positioning cylinder (9) at the position of the external thread (10). The movable rod (12) between the nut disc (11) and the connecting frame (13) is wound with a spring (14) on the outer wall of the positioning cylinder (9).