A kind of parking apron quick-release pad with vortex separation structure

The quick-release pad design with vortex separation structure solves the problem of plastic flooring shifting and being blown away by airflow under long-term pressure, achieving improved strength and convenient installation and disassembly while maintaining the aesthetics of the floor.

CN224338043UActive Publication Date: 2026-06-09FOSHAN LINZHI POLYMER MATERIALS SCI & TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FOSHAN LINZHI POLYMER MATERIALS SCI & TECH CO LTD
Filing Date
2025-09-02
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing plastic flooring is prone to misalignment and loss of leveling effect under long-term pressure, and is easily blown away by airflow in the tarmac environment. In addition, the installation requires nails, which affects the appearance of the floor and is inconvenient to dismantle.

Method used

The quick-release pad design with vortex separation structure achieves rapid leveling and airflow guidance by inserting a filling block and connecting tube into the bottom of the floor body, combined with the slot and edge components, thus preventing floor misalignment and scraping.

Benefits of technology

It improves the floor's support strength, prevents the floor from being blown away by airflow, simplifies the installation and disassembly process, and keeps the floor looking clean.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224338043U_ABST
    Figure CN224338043U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of quick-release pad plate of parking apron with vortex separation structure, it is related to plastic floor technical field, including floor body, the floor body bottom is inserted into multiple filler block main body, multiple The top of filler block main body is fixedly installed with communicating pipe, the communicating pipe outer wall is equipped with multiple cushion block, multiple first clamping groove, multiple The first clamping groove is respectively set in the adjacent two sides of floor body, the other two sides of floor body are fixedly installed with first clamping block. The utility model, when uneven ground exists, can be according to the difference of ground and floor body bottom, then the number of cushion block is inserted on communicating pipe, then top plate is installed to cushion block, then plastic clamping block on top plate is connected with the grid of floor body bottom, top plate and the rib plate contact of floor body bottom, at this time, the support of floor body by top plate, cushion block and filler block main body, can improve support strength.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of plastic flooring technology, and in particular to a quick-release mat for a helipad with a vortex separation structure. Background Technology

[0002] Plastic flooring is a common floor covering material, mainly made of polyvinyl chloride (PVC) or other polymer materials. It is wear-resistant, waterproof, and easy to clean, and is widely used in homes, commercial and industrial spaces.

[0003] For example, Chinese patent CN219138246U3 discloses a lawn protection suspended load-bearing floor, including a floor body. Leveling holes are evenly distributed and penetrate the upper surface of the floor body. A leveling component is inserted into each leveling hole, and the leveling component includes a positioning tube with an adjusting column inserted inside. This application, through the cooperation between the positioning tube and the adjusting column, enables rapid leveling of the bottom of the floor body, allowing the floor body to be laid on uneven ground.

[0004] The aforementioned patent has the following problems:

[0005] This patented design has several drawbacks in practical use. Firstly, due to the long-term pressure on plastic flooring, the leveling and support achieved through the combination of positioning tubes and adjusting columns cannot reach the required strength. This can lead to misalignment of the positioning tubes and adjusting columns, resulting in a loss of leveling effectiveness. Secondly, when used in helipad environments, nails are typically used during installation to prevent the mat from being blown away by airflow, which affects the appearance of the floor and makes dismantling inconvenient. Therefore, we propose a quick-release helipad mat with an eddy current separation structure. Utility Model Content

[0006] To address the shortcomings of existing technologies, this utility model provides a quick-release apron mat with an eddy current separation structure. This solves the problem that in reality, plastic flooring is subjected to long-term pressure, and leveling and support through the cooperation of positioning tubes and adjusting columns cannot achieve the required strength. This can lead to misalignment of the positioning tubes and adjusting columns, thus losing the leveling effect. Furthermore, when this mat is used in a helipad environment, it is typically installed with nails to prevent it from being blown away by airflow, which affects the appearance of the ground and makes dismantling inconvenient.

[0007] To achieve the above objectives, this utility model provides the following technical solution:

[0008] A quick-release apron pad with an eddy current separation structure includes a floor body, a plurality of filling block bodies inserted into the bottom of the floor body, a plurality of connecting pipes fixedly installed on the top of the plurality of filling block bodies, a pad block provided on the top of the plurality of filling block bodies, a top plate provided on the top of the plurality of pad blocks, and the plurality of connecting pipes penetrating the pad block and the top plate;

[0009] Multiple first slots are respectively opened on one of the adjacent sides of the floor body, and first blocks are fixedly installed on the other two sides of the floor body.

[0010] A first edge assembly is installed on one side of the floor body and is used to enclose one side of the floor body.

[0011] The second edge assembly is installed on one side of the floor body and is used to enclose one side of the floor body.

[0012] Preferably, the first edge component includes:

[0013] The first edge is set on one side of the floor body. Two second blocks are fixedly installed on one side of the first edge. The two second blocks are engaged with two of the first slots. A second T-shaped block is fixedly installed at one end of the first edge.

[0014] Preferably, the second edge component includes:

[0015] The second edge is provided on one side of the floor body. Two second slots are provided on one side of the second edge, and two first blocks are respectively engaged with the two second slots. A first T-shaped block is fixedly installed at one end of the second edge.

[0016] Preferably, a corner stop is provided between one end of the first stop and the second stop, and the second locking block and the first T-shaped block are both inserted into the corner stop.

[0017] Preferably, the top of the floor body has multiple drainage holes.

[0018] Preferably, the bottom of the floor body has multiple filling grooves, and the multiple filling block bodies are respectively located in the multiple filling grooves.

[0019] Preferably, the multiple connecting pipes pass through multiple drainage holes, and the upper pad is in contact with the top inner wall of the floor body.

[0020] Preferably, multiple anti-slip blocks are fixedly installed on the top of the floor body, and the multiple anti-slip blocks are in the shape of an "8".

[0021] Compared with the prior art, the present invention has the following beneficial effects:

[0022] 1. When the ground is uneven, you can insert an appropriate number of shims into the connecting pipe according to the height difference between the ground and the bottom of the floor body. Then, install the top plate onto the shims, and then align the plastic clips on the top plate with the grid at the bottom of the floor body. The top plate will then contact the stiffening plate at the bottom of the floor body. At this point, the support strength of the floor body can be improved through the support of the top plate, shims, and filler blocks, which can prevent the leveling failure caused by long-term pressure.

[0023] Second, multiple figure-eight shaped anti-slip blocks are installed on the main floor structure. When the airflow from the helicopter blows onto the main floor structure, it will generate vortexes on the anti-slip blocks, changing the direction of the airflow and preventing the main floor structure from being blown away. This eliminates the need to use nails to fix the pads, making it easy to quickly install and remove the pads. Attached Figure Description

[0024] The above description is only an overview of the technical solution of this utility model. In order to better understand the technical means of this utility model and to implement it in accordance with the contents of the specification, the preferred embodiments of this utility model are described in detail below with reference to the accompanying drawings.

[0025] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0026] Figure 2 This is a bottom view of the overall structure of this utility model;

[0027] Figure 3 This is a schematic diagram of the regional structure of the main body of the floor in this utility model;

[0028] Figure 4 This is a schematic diagram of the regional structure of the second retaining edge in this utility model;

[0029] Figure 5 This is a schematic diagram of the regional structure of the first retaining edge in this utility model;

[0030] Figure 6 This is a schematic diagram of the corner retaining edge area structure in this utility model;

[0031] Figure 7 This is a schematic diagram of the regional structure of the filling block body in this utility model;

[0032] Figure 8 This is an anatomical diagram of the filling block body, pad, and top plate in this utility model.

[0033] Legend: 1. Floor body; 2. First locking block; 3. Anti-slip block; 4. Drainage hole; 5. First locking groove; 6. First retaining edge; 7. Corner retaining edge; 8. Second retaining edge; 9. Filling block body; 10. Filling groove; 11. Second locking groove; 12. First T-shaped block; 13. Second locking block; 14. Second T-shaped block; 15. Connecting pipe; 16. Pad block; 17. Top plate. Detailed Implementation

[0034] This application provides a quick-release apron pad with an eddy current separation structure, which effectively solves the problem that in reality, plastic flooring is under long-term pressure, and the leveling and support achieved by the cooperation of positioning tubes and adjusting columns cannot reach the required strength. This can lead to misalignment of the positioning tubes and adjusting columns, thus losing the leveling effect. Secondly, when the pad is used in the apron environment, in order to prevent the pad from being blown away by airflow, it is usually installed by nailing, which affects the appearance of the ground and makes dismantling inconvenient. Example

[0035] like Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 , Figure 7 and Figure 8 As shown, the technical solution in this application effectively solves the problem that, in reality, plastic flooring is subjected to long-term pressure, and leveling and support through the cooperation of positioning tubes and adjusting columns cannot achieve the required strength. This can lead to misalignment of the positioning tubes and adjusting columns, thus losing the leveling effect. Secondly, when the mat is used in a helipad environment, nails are generally used during installation to prevent the mat from being blown away by airflow, which affects the appearance of the ground and makes dismantling inconvenient. The overall approach is as follows: Example

[0036] To address the problems existing in the prior art, this utility model provides a quick-release apron pad with an eddy current separation structure, including a floor body 1, a plurality of filling block bodies 9 inserted into the bottom of the floor body 1, a plurality of connecting pipes 15 fixedly installed on the top of the plurality of filling block bodies 9, a pad 16 provided on the top of the plurality of filling block bodies 9, a top plate 17 provided on the top of the plurality of pads 16, and the plurality of connecting pipes 15 penetrating the pads 16 and the top plate 17;

[0037] There are four filler block bodies 9, which are installed in the four filler grooves 10 at the bottom of the floor body 1. The stiffening plates separating the four filler grooves 10 are thickened to improve strength. The depth of the stiffening plates inside the filler grooves 10 is reduced to facilitate the installation of the filler block bodies 9, pad blocks 16 and top plates 17. The number of grids at the bottom of the floor body 1 is not limited. If the number of grids at the bottom of the floor body 11 is 36 (4X9), then the number of support blocks at the bottom of the filler block bodies 9 is also 36, and the number of plastic clips at the top of the top plate 17 is 1.

[0038] Multiple first slots 5 are respectively opened on one of the adjacent sides of the floor body 1, and first blocks 2 are fixedly installed on the other two sides of the floor body 1.

[0039] The first edge assembly is installed on one side of the floor body 1 and is used to enclose one side of the floor body 1.

[0040] The second edge assembly is installed on one side of the floor body 1 and is used to enclose one side of the floor body 1.

[0041] Furthermore, the first edge component includes:

[0042] The first edge 6 is set on one side of the floor body 1. Two second blocks 13 are fixedly installed on one side of the first edge 6. The two second blocks 13 are engaged with two of the first slots 5. A second T-shaped block 14 is fixedly installed at one end of the first edge 6.

[0043] Furthermore, the second edge component includes:

[0044] The second edge 8 is located on one side of the floor body 1. Two second slots 11 are provided on one side of the second edge 8, and two first blocks 2 are respectively engaged with the two second slots 11. A first T-shaped block 12 is fixedly installed at one end of the second edge 8.

[0045] Furthermore, a corner stop 7 is provided between one end of the first stop 6 and the second stop 8, and the second locking block 13 and the first T-shaped block 12 are both inserted into the corner stop 7.

[0046] Furthermore, the top of the floor body 1 is provided with multiple drainage holes 4.

[0047] Furthermore, the bottom of the floor body 1 is provided with multiple filling grooves 10, and multiple filling block bodies 9 are respectively located in the multiple filling grooves 10.

[0048] Furthermore, multiple connecting pipes 15 pass through multiple drainage holes 4 respectively, and the upper pad 16 contacts the top inner wall of the floor body 1.

[0049] Furthermore, multiple anti-slip blocks 3 are fixedly installed on the top of the floor body 1, and the multiple anti-slip blocks 3 are in the shape of an "8". Example

[0050] To address the problems existing in the prior art, this utility model provides a quick-release apron pad with an eddy current separation structure, including a floor body 1, a plurality of filling block bodies 9 inserted into the bottom of the floor body 1, a plurality of connecting pipes 15 fixedly installed on the top of the plurality of filling block bodies 9, a pad 16 provided on the top of the plurality of filling block bodies 9, a top plate 17 provided on the top of the plurality of pads 16, and the plurality of connecting pipes 15 penetrating the pads 16 and the top plate 17;

[0051] There are four filler block bodies 9, which are installed in the four filler grooves 10 at the bottom of the floor body 1. The stiffening plates separating the four filler grooves 10 are thickened to improve strength. The depth of the stiffening plates inside the filler grooves 10 is reduced to facilitate the installation of the filler block bodies 9, pad blocks 16 and top plates 17. The number of grids at the bottom of the floor body 1 is unlimited. If the number of grids at the bottom of the floor body 11 is 100 (4X25), then the number of support blocks at the bottom of the filler block bodies 9 is also 100, and the number of plastic clips at the top of the top plate 17 is 9 (3X3).

[0052] Multiple first slots 5 are respectively opened on one of the adjacent sides of the floor body 1, and first blocks 2 are fixedly installed on the other two sides of the floor body 1.

[0053] The first edge assembly is installed on one side of the floor body 1 and is used to enclose one side of the floor body 1.

[0054] The second edge assembly is installed on one side of the floor body 1 and is used to enclose one side of the floor body 1.

[0055] Furthermore, the first edge component includes:

[0056] The first edge 6 is set on one side of the floor body 1. Two second blocks 13 are fixedly installed on one side of the first edge 6. The two second blocks 13 are engaged with two of the first slots 5. A second T-shaped block 14 is fixedly installed at one end of the first edge 6.

[0057] Furthermore, the second edge component includes:

[0058] The second edge 8 is located on one side of the floor body 1. Two second slots 11 are provided on one side of the second edge 8, and two first blocks 2 are respectively engaged with the two second slots 11. A first T-shaped block 12 is fixedly installed at one end of the second edge 8.

[0059] Furthermore, a corner stop 7 is provided between one end of the first stop 6 and the second stop 8, and the second locking block 13 and the first T-shaped block 12 are both inserted into the corner stop 7.

[0060] Furthermore, the top of the floor body 1 is provided with multiple drainage holes 4.

[0061] Furthermore, the bottom of the floor body 1 is provided with multiple filling grooves 10, and multiple filling block bodies 9 are respectively located in the multiple filling grooves 10.

[0062] Furthermore, multiple connecting pipes 15 pass through multiple drainage holes 4 respectively, and the upper pad 16 contacts the top inner wall of the floor body 1.

[0063] Furthermore, multiple anti-slip blocks 3 are fixedly installed on the top of the floor body 1, and the multiple anti-slip blocks 3 are in the shape of an "8".

[0064] in:

[0065] Floor body 1: It is a square plastic board with a grid-like bottom, which is divided by plastic reinforcing plates. A semi-circular groove is opened at the bottom of the grid for drainage.

[0066] First locking block 2: It is a plastic wedge-shaped block with cylindrical limiting posts on both sides, and its specifications are the same as those of the second locking block 13;

[0067] Anti-slip block 3: It is a figure-eight shaped block, made of the same material as the main floor 1 and integrated into it. It plays a role in preventing slipping. When the airflow of the helicopter blows onto the surface of the main floor 1, the anti-slip block 3 will change the direction of the airflow and generate vortex.

[0068] Drain hole 4: It is a cylindrical through hole with the same inner diameter as the outer diameter of the connecting pipe 15. It is used for drainage and installation of the connecting pipe 15.

[0069] First slot 5: It is opened at two adjacent edges of the main body of the floor, and its specifications are the same as those of the second slot 11;

[0070] First edge 6: It is a sloping plastic board with a grid bottom. A semi-circular groove is opened at the bottom of the grid for drainage. The height is the same as the height of the floor body 1.

[0071] Corner guard 7: It is a quarter-circular frustum shape, and its two sides are smoothly connected to the first guard 6 and the second guard 8. The bottom is grid-shaped, and a semi-circular groove is opened at the bottom of the grid for drainage. The height is the same as the height of the floor body 1. Strip grooves are opened on both sides of the bottom for connecting the second T-block 14 and the first T-block 12.

[0072] The second edge 8 is a sloping plastic board with a grid-like bottom. A semi-circular groove is provided at the bottom of the grid for drainage. Its height is the same as that of the main floor 1.

[0073] The main body of the filling block 9 consists of a square plastic board and multiple support blocks. The support blocks are arched, which saves material costs while ensuring support strength. They can also be used for drainage. The specifications and number of support blocks are the same as the specifications and number of grids at the bottom of the main body of the floor 1.

[0074] Filling groove 10: It is a square groove with a size larger than that of the filling block body 9 and the pad block 16, so as to facilitate the installation of the filling block body 9 and the pad block 16 into the filling groove 10;

[0075] Second card slot 11: The specifications are the same as those of the first card slot 5;

[0076] First T-block 12: The material is the same as the second edge 8, and it is integrated with the second edge 8. It is used to connect the corner edge 7 and the second edge 8.

[0077] Second clip 13: The specifications and materials are the same as those of the first clip 2, and it is used to connect the floor body 1 and the first edge block 6;

[0078] The second T-block 14: has the same specifications and material as the first T-block 12, and is used to connect the corner stop 7 and the first stop 6;

[0079] Connecting pipe 15: It is a plastic round pipe, which is integrated with the filling block body 9 and is made of the same material as the filling block body 9;

[0080] Pad 16: It is a square plastic pad with multiple round holes in the middle. It is fitted onto the connecting tube 15. Its length and width are the same as those of 9.

[0081] Top plate 17: It consists of a square plastic pad and multiple square plastic clips. Multiple round holes are opened on the top, which are respectively matched with multiple connecting pipes 15. The specifications of the square plastic clips are the same as the grid specifications at the bottom of the floor body 1.

[0082] Working principle:

[0083] The first step is to align the first locking block 2 and the first locking groove 5 on the two floor body 1s to splice them together. When splicing the floor body 1 to the outermost piece, the first edge guard 6 and the second edge guard 8 can be installed on the floor body 1 at the edge to make the edge of the floor body 1 smooth and prevent people from bumping into it and falling. The floor body 1 can be connected to the first edge guard 6 by connecting the second locking block 13 on the first edge guard 6 to the first locking groove 5. The second edge guard 8 can be connected to the floor body 1 by connecting the second locking groove 11 on the second edge guard 8 to the first locking block 2. At the corner, the corner edge guard 7 is connected by the first T-shaped block 12 and the second T-shaped block 14 to make the corner smooth as well.

[0084] The second step is to insert an appropriate number of pads 16 into the connecting pipe 15 according to the height difference between the ground and the bottom of the floor body 1, so that the distance between the filling block body 9 and the ground is changed. Then, press the top plate onto the pads 16 and insert it together with the connecting pipe 15. Next, insert the top plate 17 from the bottom of the filling groove 10 until the plastic clip on the top plate 17 aligns with the grid at the bottom of the floor body 1 and the top plate 17 contacts the rib plate at the bottom of the floor body 1. Then, insert the connecting pipe 15 into the drain hole 4. At this time, the support strength of the floor body 1 can be improved by the support of the top plate 17, pads 16 and filling block body 9.

[0085] Third, when it is necessary to remove the connecting pipe 15, pad 16, top plate 17 and filling block body 9 from the bottom of the filling groove 10, simply pinch the support block at the bottom of the filling block body 9 and pull it out.

[0086] Finally, it should be noted that the above embodiments are merely examples for clearly illustrating the present invention and are not intended to limit the implementation. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations. However, obvious variations or modifications derived therefrom are still within the protection scope of this invention.

Claims

1. A quick-release pad for a parking apron with an eddy current separation structure, characterized in that, include: Floor body (1), multiple filling block bodies (9) are inserted into the bottom of the floor body (1), multiple connecting pipes (15) are fixedly installed on the top of the multiple filling block bodies (9), pads (16) are provided on the top of the multiple filling block bodies (9), and top plates (17) are provided on the top of the multiple pads (16), and the multiple connecting pipes (15) penetrate the pads (16) and the top plates (17). Multiple first slots (5) are respectively opened on one of the adjacent sides of the floor body (1), and first blocks (2) are fixedly installed on the other two sides of the floor body (1). A first edge assembly is installed on one side of the floor body (1) and is used to enclose one side of the floor body (1); The second edge assembly is installed on one side of the floor body (1) and is used to enclose one side of the floor body (1).

2. The quick-release pad for a parking apron with an eddy current separation structure as described in claim 1, characterized in that, The first edge component includes: The first stop (6) is set on one side of the floor body (1). Two second blocks (13) are fixedly installed on one side of the first stop (6). The two second blocks (13) are engaged with two of the first slots (5). A second T-shaped block (14) is fixedly installed at one end of the first stop (6).

3. A quick-release pad for a parking apron with an eddy current separation structure as described in claim 1, characterized in that, The second edge component includes: The second stop (8) is set on one side of the floor body (1). Two second slots (11) are opened on one side of the second stop (8). Two first blocks (2) are respectively engaged with the two second slots (11). A first T-shaped block (12) is fixedly installed at one end of the second stop (8).

4. A quick-release pad for a parking apron with an eddy current separation structure as described in claim 2, characterized in that: A corner stop (7) is provided between one end of the first stop (6) and the second stop (8), and the second locking block (13) and the first T-shaped block (12) are both inserted into the corner stop (7).

5. A quick-release pad for a parking apron with an eddy current separation structure as described in claim 1, characterized in that: The floor body (1) has multiple drainage holes (4) on its top.

6. A quick-release pad for a parking apron with an eddy current separation structure as described in claim 1, characterized in that: The bottom of the floor body (1) has multiple filling grooves (10).

7. A quick-release pad for a parking apron with an eddy current separation structure as described in claim 1, characterized in that: The multiple connecting pipes (15) pass through the multiple drainage holes (4) respectively.

8. A quick-release pad for a parking apron with an eddy current separation structure as described in claim 1, characterized in that: The floor body (1) is fixedly installed with multiple anti-slip blocks (3) on the top, and the multiple anti-slip blocks (3) are in the shape of "8".