A stable gabion net with built-in reinforcing ribs

The gabion mesh body, composed of U-shaped mesh, side mesh, and cover mesh, combined with stabilizing and connecting mechanisms, solves the problem of increased costs due to the built-in panels, achieving efficient and low-cost installation and dismantling of gabion mesh, making it suitable for cost-sensitive engineering projects.

CN224338172UActive Publication Date: 2026-06-09ANPING COUNTY QIRUI WIRE MESH PRODUCTS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANPING COUNTY QIRUI WIRE MESH PRODUCTS CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-09

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Abstract

The utility model discloses a kind of stable gabion net of built-in reinforcing rib, belong to gabion net technical field, this stable gabion net of built-in reinforcing rib, including gabion net body, the gabion net body includes U type net;The both sides of the U type net are fixedly connected with side edge net, and the one end of the U type net is rotatably connected with cover plate net;The inside of the gabion net body is provided with the firm mechanism for increasing the gabion net body, and the inside of the firm mechanism is provided with the connecting mechanism for preventing the firm mechanism from displacement or shaking in the gabion net body.The utility model is equipped with firm mechanism, and the strength of supporting rod piece is increased to the gabion net body, while ensuring to provide sufficient strength, the amount of material is reduced as far as possible, and it is convenient to quickly assemble and disassemble by the way of clamping, compared with the strength increase by board, reduce the material cost and processing cost of gabion net.
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Description

Technical Field

[0001] This utility model relates to the field of gabion mesh technology, and in particular to a stable gabion mesh with built-in reinforcing ribs. Background Technology

[0002] Gabion mesh is a mesh structure woven from metal wire. It is characterized by its strong impact and compressive strength, while allowing water and soil to pass through, which helps maintain soil stability. It can be used for slope protection, foundation pit support, rock face netting and shotcreting, slope vegetation, and railway and highway isolation fences. It can also be made into cages and mattresses for erosion protection of rivers, dikes and seawalls, and for diversion cages in reservoirs and rivers.

[0003] According to the proposed impact-resistant gabion mesh in announcement number CN117569262B, the fixing plate and the mesh frame are connected to the inside of the fixing frame through two sliding grooves on the surface of the fixing frame. At the same time, the reinforcing rib slides through the limiting groove on the surface of the fixing plate. Stones are placed inside the mesh frame and the fixing plate, and the sliding block is squeezed and limited by the action of the stones. Then, subsequent fixing plates and mesh frames are stacked in sequence to realize the installation of gabion mesh. The modular placement can effectively prevent the stones from excessively squeezing the mesh frame and causing deformation, thus improving the flood resistance effect. At the same time, when disassembly is required, the limiting block and the stop block are moved to release the limiting rod. Then, the limiting rod is moved to drive the sliding block to contact the limiting of the fixing plate, which facilitates the sequential removal of the fixing plate and the mesh frame. This makes disassembly and installation more convenient.

[0004] To enhance stability and strength, existing gabion meshes typically incorporate internal reinforcing ribs, such as built-in plates or rods. However, built-in plates increase the material and processing costs of gabion meshes compared to built-in rods, leading to higher product prices. This reduces their practicality and competitiveness in the market, limiting their application in cost-sensitive engineering projects.

[0005] Therefore, there is an urgent need to provide a stable gabion mesh with built-in reinforcing ribs to solve the above problems. Utility Model Content

[0006] The technical problem to be solved by this utility model is to overcome the shortcomings of the prior art and provide a stable gabion mesh with built-in reinforcing ribs.

[0007] To solve the above-mentioned technical problems, the present invention adopts a technical solution as follows: providing a stable gabion mesh with built-in reinforcing ribs, including a gabion mesh body, wherein the gabion mesh body includes a U-shaped mesh;

[0008] Both sides of the U-shaped mesh are fixedly connected to side meshes, and one end of the U-shaped mesh is rotatably connected to a cover mesh.

[0009] The gabion mesh body is provided with a stabilizing mechanism inside, which is provided with a connecting mechanism to prevent the stabilizing mechanism from shifting or shaking inside the gabion mesh body.

[0010] Through the above technical solution, the gabion mesh body is assembled from U-shaped mesh, side mesh and cover mesh. The gabion mesh body is used to fill materials such as stones, and the gabion mesh body cannot undergo too much deformation due to the filling of stone materials.

[0011] The present invention is further configured such that: the stabilizing mechanism includes four first docking frames attached to one side of the gabion body, and a first fixing square tube is welded and fixed between the four first docking frames.

[0012] The above technical solution increases the strength of one side of the gabion mesh body by using the first connecting frame and the first fixed square tube.

[0013] The present invention is further configured such that: four second docking frames are attached to one side of the gabion body, and a second fixed square tube is slidably fixed between the four second docking frames.

[0014] The above technical solution increases the strength of the other side of the gabion mesh body by using the second docking frame and the second fixed square tube.

[0015] The present invention is further configured such that: each of the four first docking frames and the second docking frames is internally fitted with a connecting rod; the two top connecting rods are internally fitted with a first insert plate; and the two bottom connecting rods are internally fitted with a second insert plate.

[0016] Through the above technical solution, the two connecting rods are connected relative to each other, pulling the first docking frame and the second docking frame together, and the first plug-in plate and the second plug-in plate limit the connection of the two connecting rods.

[0017] The present invention is further configured such that: the connecting mechanism includes a connecting shell disposed between the first plug plate and the second plug plate, a rotating disk rod is rotatably mounted on the inner wall of the connecting shell, and an installation gear is fixedly mounted on the outside of the rotating disk rod.

[0018] Using the above technical solution, the rotating disc rod is rotated by hand, causing the rotating disc rod to drive the mounting gear to rotate through the connecting shell.

[0019] The present invention is further configured such that: two plug-in sliders are slidably installed inside the connecting shell, and one end of each of the two plug-in sliders is fixedly installed with a plug-in rod that extends through and out of the connecting shell.

[0020] Through the above technical solution, the plug-in slider drives the plug-in rod to insert into the first plug-in plate and the second plug-in plate, thereby limiting and fixing the first plug-in plate and the second plug-in plate.

[0021] The present invention is further configured such that: the top of the other end of the two plug-in sliders is fixedly connected to the mounting block of the connecting shell, and the bottom of the other end of the two plug-in sliders is fixedly installed with mounting racks, and the mounting gears mesh with the two mounting racks.

[0022] The above technical solution involves a mounting gear driving two mounting racks to rotate, which in turn causes the mounting racks to drive the insertion slider to move, and a cylindrical spring drives the insertion slider to move towards the insertion rod.

[0023] The beneficial effects of this utility model are as follows:

[0024] 1. This utility model increases the strength of the gabion mesh body by providing a stabilizing mechanism and supporting rods. While ensuring sufficient strength, it minimizes the amount of material used. The snap-fit ​​method facilitates quick assembly and disassembly. Compared with increasing strength by using sheet metal, it reduces the material and processing costs of the gabion mesh.

[0025] 2. This utility model has a connecting mechanism to limit and fix the stabilizing mechanism, preventing the stabilizing mechanism from shifting or shaking inside the gabion mesh. It does not require professional personnel and equipment to operate, which facilitates on-site construction and improves construction efficiency. Attached Figure Description

[0026] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0027] Figure 2 This is a structural diagram of the gabion mesh body of this utility model.

[0028] Figure 3 This is a structural diagram of the stabilizing mechanism and the connecting mechanism of this utility model;

[0029] Figure 4 This is an exploded structural diagram of the stabilizing mechanism and the connecting mechanism of this utility model;

[0030] Figure 5 This is a structural diagram of the internal structure of the connecting shell of this utility model.

[0031] In the diagram: 1. Gabion mesh body; 2. U-shaped mesh; 3. Side mesh; 4. Cover mesh; 5. Stabilizing mechanism; 501. First docking frame; 502. First fixed square tube; 503. Second docking frame; 504. Second fixed square tube; 505. Connecting rod; 506. First insertion plate; 507. Second insertion plate; 6. Connecting mechanism; 601. Connecting shell; 602. Rotating disc rod; 603. Mounting gear; 604. Insertion slider; 605. Insertion rod; 606. Cylindrical spring; 607. Mounting rack. Detailed Implementation

[0032] The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making a clearer and more definite definition of the scope of protection of the present invention.

[0033] Please see Figures 1-5 A type of reinforced gabion mesh includes a gabion mesh body 1, which includes a U-shaped mesh 2. Side meshes 3 are fixedly connected to both sides of the U-shaped mesh 2. A cover mesh 4 is rotatably connected to one end of the U-shaped mesh 2. A stabilizing mechanism 5 is provided inside the gabion mesh body 1 to enhance its stability. The stabilizing mechanism 5 includes four first connecting frames 501 attached to one side of the gabion mesh body 1, with first fixing square tubes 502 welded and fixed between the four first connecting frames 501. Four second connecting frames 503 are attached to one side of the gabion mesh body 1, with second fixing square tubes 504 slidably fixed between the four second connecting frames 503. Connecting square rods 505 are inserted into the interior of each of the four first connecting frames 501 and second connecting frames 503, with first insertion plates 506 inserted into the interior of the top two connecting square rods 505. The bottom two connecting square rods 505 are also connected to the first insertion plates 506. The gabion mesh body 1 is assembled from a U-shaped mesh 2, a side mesh 3, and a cover mesh 4. Stones and other materials are filled into the gabion mesh body 1. The gabion mesh body 1 should not deform excessively due to the filling of stones and other materials. The strength of one side of the gabion mesh body 1 is increased by the cooperation of the first connecting frame 501 and the first fixed square tube 502. The strength of the other side of the gabion mesh body 1 is increased by the cooperation of the second connecting frame 503 and the second fixed square tube 504, preventing deformation under pressure. Two connecting rods 505 are connected relative to each other, pulling the first connecting frame 501 and the second connecting frame 503. The first plug-in plate 506 and the second plug-in plate 507 limit the connection of the two connecting rods 505, allowing the connecting rods 505 to work with the filled stones and other materials to increase the strength of the gabion mesh body 1.

[0034] like Figures 3-5As shown, the stabilizing mechanism 5 is internally equipped with a connecting mechanism 6 to prevent displacement or shaking within the gabion mesh body 1. The connecting mechanism 6 includes a connecting shell 601 located between the first insertion plate 506 and the second insertion plate 507. A rotating disk rod 602 is rotatably mounted on the inner wall of the connecting shell 601, and an mounting gear 603 is fixedly mounted on the outside of the rotating disk rod 602. Two insertion sliders 604 are slidably mounted inside the connecting shell 601. One end of each insertion slider 604 is fixedly mounted with an insertion rod 605 that extends through and out of the connecting shell 601. The top of the other end of each insertion slider 604 is fixedly connected to a cylindrical spring 606 between it and the mounting block of the connecting shell 601. An mounting rack 607 is fixedly mounted at the bottom of the other end of each insertion slider 604. Gear 603 meshes with two mounting racks 607. Rotating the rotating rod 602 by hand drives the mounting gear 603 to rotate through the connecting shell 601. The mounting gear 603 drives the two mounting racks 607 to rotate, which in turn drives the insertion slider 604 to move. This causes the insertion slider 604 to retract the insertion rod 605, placing the connecting shell 601 between the first insertion plate 506 and the second insertion plate 507. Then, the rotating rod 602 is released, and the cylindrical spring 606 drives the insertion slider 604 to move towards the insertion rod 605. The insertion slider 604 then drives the insertion rod 605 to insert into the first insertion plate 506 and the second insertion plate 507, thus limiting and fixing the first insertion plate 506 and the second insertion plate 507 through the insertion holes.

[0035] In use, this utility model increases the strength of one side of the gabion mesh body 1 through the cooperation of the first docking frame 501 and the first fixed square tube 502, and increases the strength of the other side of the gabion mesh body 1 through the cooperation of the second docking frame 503 and the second fixed square tube 504, preventing the gabion mesh body 1 from deforming under pressure. Two connecting square rods 505 are connected relative to each other, pulling the first docking frame 501 and the second docking frame 503 together. The first insertion plate 506 and the second insertion plate 507 limit the connection of the two connecting square rods 505. Rotating the rotating disc rod 602 by hand drives the mounting gear 603 to rotate through the connecting shell 601, and the mounting gear 603 drives the two mounting racks 607 to rotate, thus... The rack and pinion 607 drives the insertion slider 604 to move, causing the insertion slider 604 to drive the insertion rod 605 to retract, placing the connecting shell 601 between the first insertion plate 506 and the second insertion plate 507. Then, the rotating disc rod 602 is released, and the cylindrical spring 606 drives the insertion slider 604 to move towards the insertion rod 605. The insertion slider 604 drives the insertion rod 605 to insert into the first insertion plate 506 and the second insertion plate 507, limiting and fixing the first insertion plate 506 and the second insertion plate 507 through the insertion hole. The gabion mesh body 1 is filled with stones and other materials, so that the connecting square rod 505, together with the filled stones and other materials, increases the strength of the gabion mesh body 1, making the gabion mesh body 1 less prone to deformation.

[0036] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the description and drawings of this utility model, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.

Claims

1. A reinforced gabion net of the stable type, comprising a gabion net body (1), characterized in that: The gabion mesh body (1) includes a U-shaped mesh (2); Both sides of the U-shaped mesh (2) are fixedly connected with side mesh (3), and one end of the U-shaped mesh (2) is rotatably connected with cover mesh (4). The gabion mesh body (1) is provided with a stabilizing mechanism (5) to increase the gabion mesh body (1), and the stabilizing mechanism (5) is provided with a connecting mechanism (6) to prevent the stabilizing mechanism (5) from shifting or shaking inside the gabion mesh body (1).

2. A stabilized gabion net with built-in reinforcing bars as claimed in claim 1, characterized in that: The stabilizing mechanism (5) includes four first docking frames (501) attached to one side of the gabion body (1), and a first fixing square tube (502) is welded and fixed between the four first docking frames (501).

3. A secure gabion net with built-in reinforcing bars as claimed in claim 2, characterized in that: The gabion body (1) has four second docking frames (503) attached to one side, and a second fixed square tube (504) is slidably fixed between the four second docking frames (503).

4. A stable gabion mesh with built-in reinforcing ribs according to claim 3, characterized in that: Each of the four first docking frames (501) and the second docking frame (503) has a connecting rod (505) inserted into its interior. The two top connecting rods (505) have a first plug-in plate (506) inserted into their interiors, and the two bottom connecting rods (505) have a second plug-in plate (507) inserted into their interiors.

5. A stable gabion mesh with built-in reinforcing ribs according to claim 4, characterized in that: The connecting mechanism (6) includes a connecting shell (601) disposed between the first plug plate (506) and the second plug plate (507). A rotating disk rod (602) is rotatably mounted on the inner wall of the connecting shell (601), and an mounting gear (603) is fixedly mounted on the outside of the rotating disk rod (602).

6. A stable gabion mesh with built-in reinforcing ribs according to claim 5, characterized in that: Two plug-in sliders (604) are slidably installed inside the connecting shell (601), and one end of each of the two plug-in sliders (604) is fixedly installed with a plug-in rod (605) that extends through and out of the connecting shell (601).

7. A stable gabion mesh with built-in reinforcing ribs according to claim 6, characterized in that: The top of the other end of each of the two plug-in sliders (604) is fixedly connected to the mounting block of the connecting shell (601) with a column spring (606), and the bottom of the other end of each of the two plug-in sliders (604) is fixedly installed with a mounting rack (607), and the mounting gear (603) meshes with the two mounting racks (607).