Water conservancy anti-flood directional drainage and discharge flood prevention wall

By combining L-shaped flood control wall panels with arc-shaped convex strips, anti-slip bottom strips, and electromagnetic inner bottom blocks, the flood control wall can be flexibly adjusted and precisely diverted, solving the problem of insufficient diversion and adjustment of existing flood control walls and improving the efficiency and safety of flood diversion.

CN224412429UActive Publication Date: 2026-06-26ZHEJIANG HONGZHUO ENVIRONMENTAL CONSTR CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG HONGZHUO ENVIRONMENTAL CONSTR CO LTD
Filing Date
2025-06-10
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The existing flood control wall lacks a flexible diversion and adjustment device, and cannot dynamically adjust the diversion direction and flow according to the actual flood situation, resulting in low flood diversion efficiency and difficulty in adapting to complex and ever-changing flood conditions.

Method used

The system uses L-shaped flood control wall panels with curved convex strips and anti-slip, stable bottom strips. Combined with electromagnetic inner bottom blocks, built-in metal plate sliders, and spring connectors, the system can achieve precise positioning and flexible adjustment of the auxiliary L-shaped flood control wall panel components through a control terminal, dynamically adjusting the direction and range of drainage.

Benefits of technology

It significantly improves diversion efficiency and guidance accuracy, reduces the risk of flood overflow, and reduces storage space occupation through automatic reset design, improving reusability and emergency response efficiency.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224412429U_ABST
    Figure CN224412429U_ABST
Patent Text Reader

Abstract

The utility model belongs to the technical field of flood prevention device, especially a water conservancy is prevented to drown directional drainage and is relieved flood prevention wall including flood prevention drainage subassembly, the outside of flood prevention drainage subassembly is provided with flexible positioner, is provided with auxiliary assembly in flood prevention drainage subassembly, solved the problem that the existing flood prevention wall lacks flexible drainage adjusting device, cannot according to actual flood situation dynamic adjustment drainage direction and flow, leads to flood drainage efficiency to be low, is difficult to adapt to the complex and changeable flood situation, through the L type flood prevention wallboard in flood prevention drainage subassembly collocation arc convex strip and antiskid stable bottom strip, can effectively disperse the water flow impact force, while the auxiliary L type flood prevention wallboard piece is through the sliding fit of built -in metal plate sliding block and strip shape recessed groove, the cooperation of spring connecting piece and electromagnetic inner bottom block is operated, can according to flood area water flow change, through control terminal remote control controller, realize the accurate positioning and flexible adjustment of auxiliary L type flood prevention wallboard piece.
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Description

Technical Field

[0001] This utility model belongs to the technical field of flood control devices, specifically relating to a directional diversion and discharge flood control wall for water conservancy and flood prevention. Background Technology

[0002] In the field of water conservancy engineering, flood control walls are important facilities for resisting floods and protecting people's lives and property. Their performance is directly related to the effectiveness of flood control and disaster reduction. With the frequent occurrence of extreme weather, the scale and complexity of flood disasters are constantly increasing, and the limitations of traditional flood control walls are becoming increasingly prominent.

[0003] Patent document CN211815993U discloses a flood control alarm-type water-stop plate, including a first water-stop plate, a rubber pad, and a second water-stop plate. The rubber pad is connected to the right side of the first water-stop plate, and the second water-stop plate is connected to the side of the rubber pad away from the first water-stop plate. A hollow plate is fixedly installed on the front of the first water-stop plate, and a filter screen is provided at the bottom of the hollow plate. A buoyancy ball is movably connected inside the hollow plate, and a flexible switch connector is provided at the top of the inner cavity of the hollow plate. A buzzer alarm is connected to the flexible switch connector via a contact wire. This flood control alarm-type water-stop plate, through the arrangement of the buoyancy ball, flexible switch connector, buzzer alarm, and contact wire, forms an alarm circuit, achieving a high level of early warning and alarm effectiveness.

[0004] The aforementioned device, through the arrangement of a buoyancy ball, a flexible switch connector, a buzzer alarm, and a contact wire, forms an alarm circuit, achieving a high level of early warning. However, when using this device, the existing flood control wall lacks a flexible diversion and adjustment mechanism, making it impossible to dynamically adjust the diversion direction and flow rate according to the actual flood situation. This results in low flood diversion efficiency and difficulty in adapting to complex and ever-changing flood conditions. Therefore, a new type of directional diversion and discharge flood control wall is needed to improve upon the aforementioned device. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides a directional diversion and discharge flood control wall for water conservancy and flood prevention. It features an L-shaped flood control wall panel in the flood control diversion component, combined with arc-shaped protrusions and a non-slip, stabilizing base strip. This effectively disperses the impact force of water flow and significantly improves diversion efficiency and guiding accuracy according to changes in flood flow in the flood area, effectively reducing the risk of flood overflow. This design solves the problem of existing flood control walls lacking flexible diversion adjustment devices, unable to dynamically adjust the diversion direction and flow rate according to actual flood conditions, resulting in low flood diversion efficiency and difficulty in adapting to complex and changing flood situations.

[0006] To achieve the above-mentioned goal of effectively dispersing the impact force of water flow by using L-shaped flood control wall panels in the flood control diversion component, combined with arc-shaped protrusions and anti-slip stabilizing bottom strips, while significantly improving diversion efficiency and guiding accuracy according to changes in water flow in the flood area, and effectively reducing the risk of flood overflow, this utility model provides the following technical solution: a water conservancy flood control directional diversion and discharge flood control wall, including a flood control diversion component, a flexible adjustment component set on the outside of the flood control diversion component, and an auxiliary component set in the flood control diversion component;

[0007] The flood control and diversion component includes an L-shaped flood control wall panel. The flexible adjustment component includes an auxiliary L-shaped flood control wall panel component set inside the L-shaped flood control wall panel. The auxiliary L-shaped flood control wall panel component is slidably connected to one side of the L-shaped flood control wall panel. A triangular protrusion is fixedly connected to the end of the auxiliary L-shaped flood control wall panel component away from the L-shaped flood control wall panel. A pair of symmetrical strip-shaped grooves are opened at the upper end of the horizontal surface of the L-shaped flood control wall panel. Multiple electromagnetic inner bottom blocks are fixedly connected to the lower inner wall of the strip-shaped grooves. A pair of built-in metal plate sliders are fixedly connected to the lower end of the auxiliary L-shaped flood control wall panel component. A spring connector is fixedly connected between the built-in metal plate sliders and the strip-shaped grooves.

[0008] Furthermore, multiple electromagnetic inner bottom blocks are horizontally equidistant, and arc-shaped protrusions are fixedly connected to both the vertical and horizontal surfaces of the L-shaped flood control wall panel.

[0009] Furthermore, the lower left and right sides of the L-shaped flood control wall panel are symmetrically fixed with anti-slip and stabilizing bottom strips, which are in contact with the road surface.

[0010] Furthermore, a controller is fixedly connected to the upper end of the L-shaped flood control wall panel, and two built-in metal plate sliders slide in the corresponding strip-shaped grooves.

[0011] Furthermore, the controller is externally connected to a control terminal, and the controller is electrically connected to multiple electromagnetic inner bottom blocks via wires.

[0012] Furthermore, the auxiliary component includes an anti-slip backing layer, which is fixedly connected to the side of the vertical surface of the L-shaped flood control wall panel away from the auxiliary L-shaped flood control wall panel component.

[0013] Furthermore, the L-shaped flood control wall panel and the auxiliary L-shaped flood control wall panel are internally fixed with multiple reinforcing ribs, which are evenly distributed among each other.

[0014] Compared with the prior art, the beneficial effects of this utility model are:

[0015] 1. In use, this utility model utilizes an L-shaped flood control wall panel in the flood control diversion component, combined with an arc-shaped protrusion and an anti-slip, stabilizing bottom strip, to effectively disperse the impact force of water flow. Simultaneously, the auxiliary L-shaped flood control wall panel, through the sliding cooperation of its built-in metal plate slider and strip-shaped groove, combined with the coordinated operation of the spring connector and electromagnetic inner bottom block, allows for precise positioning and flexible adjustment of the auxiliary L-shaped flood control wall panel according to changes in the flood flow. This design enables rapid response to different water flow conditions and dynamic adjustment of the diversion direction and range. Compared to traditional fixed-structure flood control walls, it significantly improves diversion efficiency and guiding accuracy, effectively reducing the risk of flood overflow.

[0016] 2. In use, after the auxiliary components have finished working, the L-shaped flood control wall panel is flipped over so that the anti-slip backing surface touches the ground. The spring connector is then energized via the control terminal, releasing the constraint on the built-in metal plate slider. The auxiliary L-shaped flood control wall panel then automatically resets into its original position under gravity, achieving compact storage of the flood control wall. This design significantly reduces storage space requirements, facilitates transportation and storage, and lowers the difficulty and time cost of manual storage. Furthermore, the anti-slip backing surface provides stable support during storage, ensuring safety and stability, and improving the reusability and emergency response efficiency of the flood control wall. Attached Figure Description

[0017] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:

[0018] Figure 1 This is a schematic diagram of the appearance and structure of the flood control and diversion component of this utility model;

[0019] Figure 2 This is a schematic diagram of the flood control and diversion component of this utility model in use.

[0020] Figure 3 This is a partially enlarged structural diagram of the L-shaped flood control wall panel of this utility model;

[0021] Figure 4 This is a schematic diagram of the L-shaped flood control wall panel of this utility model in its flip-up and storage state.

[0022] Figure 5 For the present utility model Figure 4 Enlarged schematic diagram of a partial section of the L-shaped flood control wall panel.

[0023] In the picture:

[0024] 1. Flood control and diversion components; 100. L-shaped flood control wall panel; 101. Arc-shaped convex strip; 102. Anti-slip and stabilizing bottom strip; 2. Flexible adjustment components; 200. Auxiliary L-shaped flood control wall panel components; 201. Triangular convex strip; 202. Strip-shaped groove; 203. Electromagnetic inner bottom block; 204. Built-in metal plate slider; 205. Spring connector; 206. Controller; 3. Auxiliary components; 300. Anti-slip back panel surface layer; 301. Reinforcing inner rib. Detailed Implementation

[0025] 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.

[0026] Please see Figures 1 to 5 This utility model provides a technical solution: a water conservancy flood control directional diversion and discharge flood control wall, including a flood control diversion component 1, characterized in that: a flexible adjustment component 2 is provided on the outside of the flood control diversion component 1, and an auxiliary component 3 is provided in the flood control diversion component 1;

[0027] The flood control and diversion component 1 includes an L-shaped flood control wall panel 100. The flexible adjustment component 2 includes an auxiliary L-shaped flood control wall panel 200 disposed within the L-shaped flood control wall panel 100. The auxiliary L-shaped flood control wall panel 200 is slidably connected to one side of the L-shaped flood control wall panel 100. A triangular protrusion 201 is fixedly connected to the end of the auxiliary L-shaped flood control wall panel 200 away from the L-shaped flood control wall panel 100. A pair of symmetrical strip-shaped grooves 202 are provided at the upper end of the horizontal surface of the L-shaped flood control wall panel 100. Multiple electromagnetic inner bottom blocks 203 are fixedly connected to the lower inner wall of the strip-shaped grooves 202. A pair of built-in metal plate sliders 204 are fixedly connected to the lower end of the auxiliary L-shaped flood control wall panel 200. A spring connector 205 is fixedly connected between the built-in metal plate sliders 204 and the strip-shaped grooves 202.

[0028] like Figures 2-3 As shown, multiple electromagnetic inner bottom blocks 203 are arranged horizontally at equal intervals. Arc-shaped protrusions 101 are fixedly connected to both the vertical and horizontal surfaces of the L-shaped flood control wall panel 100. Anti-slip and stabilizing bottom strips 102 are symmetrically fixedly connected to the left and right sides of the lower end of the L-shaped flood control wall panel 100. The anti-slip and stabilizing bottom strips 102 are in contact with the road surface. A controller 206 is fixedly connected to the upper end of the L-shaped flood control wall panel 100. Two built-in metal plate sliders 204 slide in the corresponding strip-shaped grooves 202. The controller 206 is externally connected to a control terminal. The controller 206 is electrically connected to the multiple electromagnetic inner bottom blocks 203 through wires.

[0029] It should be noted that the auxiliary L-shaped flood control wall panel 200, through the sliding cooperation between the built-in metal plate slider 204 and the strip groove 202, combined with the coordinated operation of the spring connector 205 and the electromagnetic inner bottom block 203, can achieve precise positioning and flexible adjustment of the auxiliary L-shaped flood control wall panel 200 according to the changes in the flood area water flow. This can be achieved by remotely controlling the controller 206 through the control terminal. This design can quickly respond to different water flow conditions and dynamically adjust the diversion direction and range.

[0030] like Figure 1 , Figure 4-5 As shown, the auxiliary component 3 includes an anti-slip backing surface layer 300, which is fixedly connected to the side of the vertical surface of the L-shaped flood control wall panel 100 away from the auxiliary L-shaped flood control wall panel 200. Multiple reinforcing ribs 301 are fixedly connected inside the L-shaped flood control wall panel 100 and the auxiliary L-shaped flood control wall panel 200, and the multiple reinforcing ribs 301 are evenly distributed among them.

[0031] It should be noted that after the work is completed, the L-shaped flood control wall panel 100 is flipped over so that the anti-slip backing plate 300 touches the ground. The spring connector 205 is then energized via the control terminal, releasing the constraint on the built-in metal plate slider 204. This allows the L-shaped flood control wall panel 200 to automatically reset into its original position under gravity, achieving compact storage of the flood control wall. This design significantly reduces storage space requirements, facilitates transportation and storage, and lowers the difficulty and time cost of manual storage. Furthermore, the anti-slip backing plate 300 provides stable support during storage, ensuring safety and stability, and improving the reusability and emergency response efficiency of the flood control wall.

[0032] The working principle of the above embodiment is as follows: This solution mainly consists of a flood control diversion component 1, a flexible adjustment component 2, and an auxiliary component 3. The L-shaped flood control wall panel 100 in the flood control diversion component 1 serves as the basic support structure. The arc-shaped protrusions 101 fixed on its vertical and horizontal surfaces increase the contact area with the water flow and change the impact angle of the water flow, thereby dispersing the impact force of the water flow on the wall and reducing the risk of wall displacement caused by direct impact of the water flow. The anti-slip and stabilizing bottom strip 102 at the lower end is in close contact with the road surface. By utilizing friction and its own weight, it further enhances the stability of the flood control wall on the ground and prevents the wall from sliding or overturning under the action of the water flow. The anti-slip back plate surface layer 300 in the auxiliary component 3 is fixed on the outer side of the vertical surface of the L-shaped flood control wall panel 100. When the flood control wall is flipped and stored, it can provide a stable support surface.The evenly distributed reinforcing ribs 301 within the L-shaped flood control wall panel 100 and the auxiliary L-shaped flood control wall panel 200 enhance the overall structural strength of the wall, enabling it to withstand greater water flow pressure and external forces. The core of the flexible adjustment component 2 lies in enabling the flexible movement and precise positioning of the auxiliary L-shaped flood control wall panel 200. The built-in metal plate slider 204 at the lower end of the auxiliary L-shaped flood control wall panel 200 forms a sliding connection structure with the strip-shaped groove 202 on the horizontal surface of the L-shaped flood control wall panel 100. The built-in metal plate slider 204 can slide freely within the strip-shaped groove 202, providing a sliding connection for the auxiliary L-shaped flood control wall panel. The movement of component 200 is guided and supported. Spring connector 205 connects the built-in metal plate slider 204 and the strip-shaped groove 202. In its natural state, spring connector 205 is in a stretched or compressed state, generating an outward thrust, causing the auxiliary L-shaped flood control wall component 200 to tend to move outward. Controller 206 is connected to an external control terminal and electrically connected to multiple electromagnetic inner bottom blocks 203 via wires, enabling control of the on / off state of the electromagnetic inner bottom blocks 203. When the flood flow guidance requires adjustment of the position of the auxiliary L-shaped flood control wall component 200, the control terminal sends a command to controller 206. According to a preset program or real-time requirements, the controller 206 energizes the electromagnetic inner bottom block 203 at the corresponding position. The energized electromagnetic inner bottom block 203 generates magnetism, attracting the built-in metal plate slider 204. This overcomes the thrust of the spring connector 205, pulling the auxiliary L-shaped flood control wall panel 200 to the designated position. When the auxiliary L-shaped flood control wall panel 200 reaches the target position, the electromagnetic inner bottom block 203 is de-energized, the magnetism disappears, and the thrust of the spring connector 205 stably limits the auxiliary L-shaped flood control wall panel 200 to that position. This allows for flexible adjustment of the diversion direction and range according to changes in water flow, improving the diversion efficiency. To ensure precision and efficiency, when the flood control work is completed and the flood control wall needs to be stored, the L-shaped flood control wall panel 100 is flipped over, so that the anti-slip backing layer 300 contacts the ground. At this time, a command is sent from the control terminal to the controller 206, energizing the innermost electromagnetic bottom block 203. This allows the auxiliary L-shaped flood control wall panel 200 to slide downwards along the strip groove 202 under its own weight. The built-in metal plate slider 204 then drives the auxiliary L-shaped flood control wall panel 200 to return to its original position within the L-shaped flood control wall panel 100, achieving compact storage of the flood control wall. This facilitates storage and transportation, and prepares it for future use.

[0033] Finally, it should be noted that the above are merely preferred embodiments of this utility model and are not intended to limit the utility model. Although the utility model 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 this utility model should be included within the protection scope of this utility model.

Claims

1. A water conservancy anti-flood directional drainage discharge flood prevention wall, comprising a flood prevention drainage assembly (1), characterized in that: A flexible adjustment component (2) is provided on the outside of the flood control diversion component (1), and an auxiliary component (3) is provided in the flood control diversion component (1); The flood control diversion component (1) includes an L-shaped flood control wall panel (100). The flexible adjustment component (2) includes an auxiliary L-shaped flood control wall panel component (200) disposed within the L-shaped flood control wall panel (100). The auxiliary L-shaped flood control wall panel component (200) is slidably connected to one side of the L-shaped flood control wall panel (100). A triangular protrusion (201) is fixedly connected to the end of the auxiliary L-shaped flood control wall panel component (200) away from the L-shaped flood control wall panel (100). The upper end of the horizontal surface of the flood control wall panel (100) is provided with a pair of symmetrical strip-shaped grooves (202). Multiple electromagnetic inner bottom blocks (203) are fixedly connected to the lower inner wall of the strip-shaped grooves (202). A pair of built-in metal plate sliders (204) are fixedly connected to the lower end of the auxiliary L-shaped flood control wall panel (200). A spring connector (205) is fixedly connected between the built-in metal plate sliders (204) and the strip-shaped grooves (202).

2. The water conservancy flood prevention directional drainage discharge flood prevention wall according to claim 1, characterized in that: The multiple electromagnetic inner bottom blocks (203) are arranged horizontally at equal intervals, and the vertical and horizontal surfaces of the L-shaped flood control wall panel (100) are fixedly connected with arc-shaped protrusions (101).

3. The water conservancy flood prevention and drainage directional drainage flood prevention wall according to claim 1, characterized in that: The lower left and right sides of the L-shaped flood control wall panel (100) are symmetrically fixed with anti-slip and stabilizing bottom strips (102), and the anti-slip and stabilizing bottom strips (102) are in contact with the road surface.

4. The water conservancy flood prevention and drainage directional drainage flood prevention wall according to claim 1, characterized in that: The upper end of the L-shaped flood control wall panel (100) is fixedly connected to a controller (206), and the two built-in metal plate sliders (204) slide in the corresponding strip-shaped grooves (202).

5. The water conservancy flood prevention and drainage directional drainage flood prevention wall according to claim 4, characterized in that: The controller (206) is externally connected to a control terminal, and the controller (206) is electrically connected to multiple electromagnetic inner bottom blocks (203) via wires.

6. A directional diversion and discharge flood control wall for flood prevention and drainage according to claim 1, characterized in that: The auxiliary component (3) includes an anti-slip back panel surface layer (300), which is fixedly connected to the side of the vertical surface of the L-shaped flood control wall panel (100) away from the auxiliary L-shaped flood control wall panel component (200).

7. The water conservancy flood prevention and control directional drainage discharge flood prevention wall according to claim 6, characterized in that: The L-shaped flood control wall panel (100) and the auxiliary L-shaped flood control wall panel (200) are internally fixedly connected with a plurality of reinforcing ribs (301), which are evenly distributed among the plurality of reinforcing ribs (301).