Soil and water conservation revetment reinforcing structure

Through innovative design of the frame and connection structure, the problem of overall adjustment during the maintenance of protective panels in existing soil and water conservation bank reinforcement structures has been solved, and the stability of individual disassembly and replacement of protective panels has been achieved, thus improving maintenance efficiency.

CN224451518UActive Publication Date: 2026-07-03HEILONGJIANG MAOTENG ENGINEERING MANAGEMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HEILONGJIANG MAOTENG ENGINEERING MANAGEMENT CO LTD
Filing Date
2025-08-04
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

The existing soil and water conservation bank reinforcement structure requires overall adjustment of the pole positions during maintenance, which reduces the stability of adjacent protective panels and makes it impossible to replace damaged protective panels individually.

Method used

The system employs a frame and connection structure, utilizing a combination of clips, elastic rubber pads, and tapered grooves. The protective plate is secured with bolts, and rubber plugs are used to prevent rainwater erosion, allowing for individual disassembly and replacement of the protective plate.

Benefits of technology

This allows for the maintenance or replacement of a single protective panel without affecting the stability of other protective panels, thus improving the flexibility and efficiency of maintenance.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224451518U_ABST
    Figure CN224451518U_ABST
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Abstract

The utility model relates to water and soil protection technical field especially a water and soil conservation revetment reinforcing structure, a plurality of elastic rubber pad outer walls all are fixedly connected with the fender, the elastic rubber pad below all are in close contact with the clamping block, a plurality of conical grooves all are processed in fender inner wall outside. This water and soil conservation revetment reinforcing structure, inserts multiple fender to the inside of clamping block, then passes through conical groove in proper order with multiple bolts, screws into fender and clamping block, thereby fender is fixed on clamping block, at this moment, the elastic rubber pad below is in close contact with the clamping block, can increase the friction between fender and clamping block, then inserts multiple rubber plug into conical groove, can prevent rain and bolt contact through rubber plug, to a certain extent, can reduce the rusted condition of bolt, to realize when a fender needs to maintain, can carry out single dismounting, and will not affect the stability of other fender.
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Description

Technical Field

[0001] This utility model relates to the field of soil and water conservation technology, specifically a soil and water conservation bank reinforcement structure. Background Technology

[0002] Revetments are engineering measures that artificially reinforce existing coastal slopes to defend against wave and current erosion, as well as groundwater action, and to maintain shoreline stability. Revetment construction is similar to seawalls, and can be classified according to their outer slope shape into sloping revetments, steep wall revetments (including vertical revetments), and revetments that combine both.

[0003] For example, a soil and water conservation bank reinforcement structure with announcement number "CN222948920U" uses horizontal and vertical inserts to connect a horizontal or vertical row of protective plates. The first and second inserts, positioned within the intervals between two sets of protective plates, are inserted through movable notches in the horizontal and side plates. The ends of the horizontal and vertical inserts are then inserted into sliders and installed in the movable slots of the horizontal and side plates, respectively. After determining the positions of the horizontal and vertical inserts, the positions are fixed using locking bolts on the outer plate, forming a connecting frame that maintains the stability and protective strength of the installed protective plates. This method is more convenient and faster than conventional bolt fixing. However, when a protective plate needs maintenance, the inserts must be pulled out, which can easily cause the positions of other inserts on the same insert to shift, reducing the stability of adjacent protective plates. This forces a complete adjustment of the insert positions during maintenance, making it impossible to replace the protective plate requiring maintenance individually. Utility Model Content

[0004] The purpose of this utility model is to solve the problem that when a protective plate needs maintenance, the insertion rod needs to be pulled out, which can easily cause the position of other insertion cylinders on the same insertion rod to shift, reducing the stability of adjacent protective plates. This forces the entire insertion rod to be adjusted during maintenance, making it impossible to replace the protective plate that needs maintenance individually. Therefore, this utility model proposes a soil and water conservation bank reinforcement structure.

[0005] To achieve the above objectives, this utility model provides the following technical solution:

[0006] Design a soil and water conservation bank protection reinforcement structure, including a frame and ground anchors. Ground anchors are installed at all four corners of the frame. The frame has a connecting structure inside, which includes locking blocks, elastic rubber pads and conical grooves. The inner sides of multiple locking blocks are inserted into the protective plate, and the outer walls of multiple elastic rubber pads are fixedly connected to the protective plate. The lower sides of the elastic rubber pads are pressed against the locking blocks, and the multiple conical grooves are machined on the outer side of the inner wall of the protective plate.

[0007] Preferably, the inner wall of each conical groove is fitted with a rubber plug.

[0008] Preferably, the outer walls of the card blocks are all fixedly connected to the frame.

[0009] Preferably, the protective plate and the inner wall of the card block are connected by bolts.

[0010] Preferably, the inner wall of the protective plate is machined with multiple through holes.

[0011] The beneficial effects of the soil and water conservation bank reinforcement structure proposed in this utility model are as follows: Through the cooperation of the frame and the connecting structure, multiple protective plates are inserted into the inner side of the clamping block, and then multiple bolts are passed through the conical groove in sequence and screwed into the protective plate and the clamping block, thereby fixing the protective plate to the clamping block. At this time, the elastic rubber pad is pressed against the clamping block below, which can increase the friction between the protective plate and the clamping block. Then, multiple rubber plugs are inserted into the conical groove. The rubber plugs can prevent rainwater from contacting the bolts, which can reduce the occurrence of bolt seizure to a certain extent. This allows a single protective plate to be disassembled when maintenance is required without affecting the stability of other protective plates. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of this utility model;

[0013] Figure 2 for Figure 1 A partial front sectional view;

[0014] Figure 3 for Figure 1 A partial right-side sectional view;

[0015] Figure 4 This is a three-dimensional schematic diagram of the protective plate;

[0016] Figure 5 This is a three-dimensional schematic diagram of an elastic rubber pad.

[0017] In the diagram: 1. Frame, 2. Ground anchor, 3. Connecting structure, 301. Locking block, 302. Elastic rubber pad, 303. Rubber plug, 304. Conical groove, 4. Protective plate, 5. Through hole. Detailed Implementation

[0018] The present invention will be further described below with reference to the accompanying drawings:

[0019] See attached document Figure 1-5In this embodiment, a soil and water conservation bank protection reinforcement structure includes a frame 1 and ground anchors 2. Ground anchors 2 are installed at all four corners of the frame 1. A connecting structure 3 is provided inside the frame 1. The connecting structure 3 includes a locking block 301, an elastic rubber pad 302, and a conical groove 304. The inner sides of multiple locking blocks 301 are inserted into a protective plate 4. The outer walls of multiple elastic rubber pads 302 are fixedly connected to the protective plate 4. The lower part of the elastic rubber pads 302 is pressed against the locking block 301. Multiple conical grooves 304 are processed on the outer side of the inner wall of the protective plate 4.

[0020] The inner wall of the conical groove 304 is fitted with rubber plugs 303. The rubber plugs 303 are made of silicone rubber and can be used for a long time in the temperature range of -60℃ to 200℃. They have strong resistance to ultraviolet rays, ozone and rainwater erosion and are not easy to age and crack due to outdoor temperature difference or sunlight. The rubber plugs 303 can play a protective role. The outer wall of the block 301 is fixedly connected to the frame 1. The protective plate 4 and the inner wall of the block 301 are connected by bolts. The inner wall of the protective plate 4 has multiple through holes 5.

[0021] Working principle:

[0022] When using soil and water conservation bank protection and reinforcement structures:

[0023] According to the slope length and maintenance area of ​​the revetment, the operator can splice a certain number of frames 1 together. The frames 1 can be fixed to the revetment by ground anchors 2. Then, multiple protective plates 4 are inserted into the inside of the clamping block 301. Then, multiple bolts are passed through the conical groove 304 in sequence and screwed into the protective plate 4 and the clamping block 301, thereby fixing the protective plate 4 to the clamping block 301. At this time, the elastic rubber pad 302 is pressed against the clamping block 301, which can increase the friction between the protective plate 4 and the clamping block 301. Then, multiple rubber plugs 303 are inserted into the conical groove 304. The rubber plugs 303 can prevent rainwater from contacting the bolts and can reduce the occurrence of bolt seizure to a certain extent. The pressure fluctuation of the anti-corrosion plate can be relieved through the through hole 5.

[0024] When one of the protective plates 4 is damaged and needs maintenance or replacement, the operator uses a screwdriver to remove the rubber plug 303 corresponding to the damaged protective plate 4, then unscrews the bolt, removes the protective plate 4, and replaces or maintains it. Finally, the maintained or new protective plate 4 is reinstalled, so that when a protective plate 4 needs maintenance, it can be disassembled individually without affecting the stability of other protective plates 4.

[0025] Although the present invention has been illustrated and described with reference to preferred embodiments, those skilled in the art should understand that various changes in form and detail are possible within the scope of the claims.

Claims

1. A water and soil conservation revetment reinforcing structure comprising a frame (1) and ground anchors (2), the frame (1) having a ground anchor (2) mounted at each corner, characterized in that: The frame (1) is provided with a connecting structure (3) inside. The connecting structure (3) includes a locking block (301), an elastic rubber pad (302), and a conical groove (304). The inner sides of the multiple locking blocks (301) are inserted into the protective plate (4). The outer walls of the multiple elastic rubber pads (302) are fixedly connected to the protective plate (4). The lower sides of the elastic rubber pads (302) are pressed against the locking blocks (301). The multiple conical grooves (304) are processed on the outer side of the inner wall of the protective plate (4).

2. The water and soil conservation revetment structure according to claim 1, characterized by: The inner wall of each conical groove (304) is fitted with a rubber plug (303).

3. The water and soil conservation revetment structure according to claim 1, characterized by: The outer walls of the card blocks (301) are all fixedly connected to the frame (1).

4. The water and soil conservation revetment structure according to claim 1, characterized by: The inner walls of the protective plate (4) and the clamp (301) are connected by bolts.

5. The soil and water conservation bank protection reinforcement structure according to claim 1, characterized in that: The inner wall of the protective plate (4) has multiple through holes (5).