Combined flood prevention plate for reservoir flood prevention engineering
By using a modular flood control panel design and a combination of locking bolts and pressure components, the problem of inconvenient transportation and installation of flood control panels for reservoirs has been solved, and the protection height can be flexibly adjusted and the stability enhanced.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Filing Date
- 2025-08-15
- Publication Date
- 2026-07-07
AI Technical Summary
The existing flood control panels for reservoirs are integral structures, which are inconvenient to transport and install, and it is difficult to flexibly adjust the protection height.
The system adopts a modular flood control panel design. Through the cooperation of locking bolts, connectors and pressure-pressurizing components, the embedded parts are firmly connected to the base, and the baffle is installed inside the column. The pressure of the pressure-pressurizing components is used to fix the baffle, so as to flexibly adjust the protection height.
It solves the problems of inconvenient transportation and installation, enables flexible adjustment of the protection height, and enhances the stability and adaptability of the flood control board.
Smart Images

Figure CN224468304U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of flood control board technology, and specifically discloses a combined flood control board for reservoir flood control projects. Background Technology
[0002] A reservoir is a water conservancy project that controls floods, stores water, and regulates water flow. It is created by building dams in valleys, river channels, or low-lying areas to form artificial water bodies. Its main uses include flood control, water storage for irrigation, water supply, power generation, and fish farming. Flood control panels are typically used in reservoirs to physically block floodwaters, reduce the pressure of rising water levels, and prevent floodwaters from flowing back into the reservoir. For example, during typhoons or heavy rains, they can be deployed on reservoir embankments or at entrances to form temporary protective barriers.
[0003] The existing flood control panels used in reservoir flood control are mostly integral structures, which have problems with transportation and installation. Furthermore, it is difficult to flexibly adjust the protection height when facing different water levels. Therefore, a modular flood control panel for reservoir flood control projects is needed to solve this problem. Utility Model Content
[0004] This utility model proposes a combined flood control plate for reservoir flood control projects. Through the cooperation of locking bolts, connectors and pressure components, the embedded parts can be firmly connected to the base, and the baffle can be stably installed in the column, which solves the problems of inconvenient transportation and installation and difficulty in flexibly adjusting the protection height.
[0005] This utility model is implemented as follows: a combined flood control panel for reservoir flood control projects includes two bases, three columns connected to the upper surfaces of the two bases, symmetrical baffles slidably connected inside the three columns, symmetrical connectors fixedly installed on the outer surfaces of the three columns, and pressure-pressing components threaded inside the three sets of connectors. The bottom ends of the three sets of pressure-pressing components are in contact with the upper surfaces of the baffles. Three embedded parts are provided on the bottom surfaces of the two bases, and symmetrical screw holes are opened on the upper surfaces of the three embedded parts and the upper surfaces of the two bases. Locking bolts are threaded inside the three sets of screw holes.
[0006] As a preferred embodiment of the combined flood control panel for reservoir flood control engineering of this utility model, both sets of the baffles have concealed handles on their outer surfaces.
[0007] As a preferred embodiment of the combined flood control board for reservoir flood control engineering of this utility model, the two bases are slidably connected on their adjacent sides with waterproof adhesive strips.
[0008] As a preferred embodiment of the combined flood control panel for reservoir flood control engineering of this utility model, the number of the two sets of baffles is five pieces each, and the two sets of baffles are interlocked with each other.
[0009] As a preferred embodiment of the combined flood control plate for reservoir flood control engineering of this utility model, three reinforcing ribs are fixedly connected to the upper surface of each of the two bases, and the side of each of the two sets of reinforcing ribs that is close to each other is connected to the outer surface of the column.
[0010] As a preferred embodiment of the combined flood control panel for reservoir flood control engineering of this utility model, handles are fixedly connected to the outer surfaces of the three columns.
[0011] The beneficial effects of this utility model are:
[0012] By setting locking bolts, the embedded parts can be firmly connected to the base, providing a solid foundation support for the entire flood control slab. By installing the baffle inside the column and rotating the pressure member inside the connector on the outer surface of the column to move it downward and make it close to the upper surface of the baffle, the baffle is firmly fixed by the pressure of the pressure member, which solves the problems of inconvenient transportation and installation and difficulty in flexibly adjusting the protection height. Attached Figure Description
[0013] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. In all the drawings, similar elements or parts are generally identified by similar reference numerals. In the drawings, the elements or parts are not necessarily drawn to scale.
[0014] Figure 1 This is a front view of a combined flood control panel for reservoir flood control engineering according to the present invention;
[0015] Figure 2 This is a side sectional view of a combined flood control panel for reservoir flood control engineering according to the present invention;
[0016] Figure 3 This is a front view of the baffle in a combined flood control panel for reservoir flood control engineering according to this utility model;
[0017] Figure 4 This is a top view of the embedded parts in a combined flood control slab used in a reservoir flood control project according to this utility model.
[0018] The markings in the diagram are: 1. Base; 2. Column; 3. Connector; 4. Baffle; 5. Embedded part; 6. Pressure component; 7. Handle; 8. Reinforcing rib; 9. Locking bolt; 10. Waterproof strip; 11. Concealed handle; 12. Screw hole. Detailed Implementation
[0019] The present invention will be further described below with reference to the accompanying drawings and specific embodiments to aid in understanding its content. Unless otherwise specified, the methods used in this invention are conventional methods; the raw materials and apparatus used, unless otherwise specified, are conventional commercially available products.
[0020] Please see Figure 1-4 A combined flood control panel for reservoir flood control engineering includes two bases 1. The upper surfaces of the two bases 1 are connected to three columns 2. The interiors of the three columns 2 are slidably connected to symmetrical baffles 4. The outer surfaces of the three columns 2 are all fixedly installed with symmetrical connectors 3. The interiors of the three sets of connectors 3 are all threadedly connected to pressure members 6. The bottom ends of the three sets of pressure members 6 are in contact with the upper surfaces of the baffles 4. The bottom surfaces of the two bases 1 are provided with three embedded parts 5. The upper surfaces of the three embedded parts 5 and the upper surfaces of the two bases 1 are all provided with symmetrical screw holes 12. The interiors of the three sets of screw holes 12 are all threadedly connected to locking bolts 9.
[0021] In this embodiment: the base 1 serves as the basic load-bearing component of the entire flood control board; the column 2 provides a track for the sliding of the baffle 4, allowing the baffle 4 to move up and down along the column 2 to adjust its height; the baffle 4 blocks floodwaters, preventing flooding or backflow; the connector 3 facilitates the installation of the pressure member 6 on the column 2; the pressure member 6, through internal thread rotation of the connector 3, can move downwards and contact the upper surface of the baffle 4, preventing the baffle 4 from shifting or shaking under flood impact, ensuring the protective stability of the baffle 4; the embedded part 5, in conjunction with the base 1, enhances the connection strength between the base 1 and the ground, providing a solid foundation anchor for the entire device; the screw hole 12, in conjunction with the locking bolt 9, facilitates the installation and disassembly of the base 1 and the embedded part 5.
[0022] As a technical optimization of this utility model, both sets of baffles 4 have concealed handles 11 on their outer surfaces, which can provide operators with convenient force application points. When installing the baffles 4, the baffles 4 can be easily slid into the column 2 through the handles.
[0023] As a technical optimization of this utility model, the two bases 1 are slidably connected to each other on their sides by a waterproof adhesive strip 10.
[0024] In this embodiment, by setting the waterproof strip 10, the sealing of the connection of the base 1 can be enhanced, and the overall waterproof effect can be improved.
[0025] As a technical optimization of this utility model, each set of baffles 4 consists of five pieces, and the two sets of baffles 4 are interlocked with each other.
[0026] In this embodiment, each set of baffles 4 is divided into five pieces, so that when adjusting the protection height, the number of baffles 4 can be flexibly increased or decreased according to actual needs, without the need to move or replace the entire set of baffles 4.
[0027] As a technical optimization of this utility model, three reinforcing ribs 8 are fixedly connected to the upper surface of both bases 1, and the side of the two sets of reinforcing ribs 8 that are close to each other is connected to the outer surface of the column 2.
[0028] In this embodiment, the reinforcing rib plate 8 is connected to the base 1 and the column 2 respectively to form a stable triangular support structure. This structure can effectively disperse the pressure from the flood impact on the column 2.
[0029] As a technical optimization of this utility model, handles 7 are fixedly connected to the outer surfaces of the three columns 2.
[0030] In this embodiment, the handle 7 provides a convenient gripping point for the operator. During the transportation of the flood control board, the column 2 and related components connected to it can be easily moved through the handle 7.
[0031] The working principle and usage process of this utility model are as follows: In use, firstly, two bases 1 are fixed in the designated position by the pre-embedded parts 5. The locking bolts 9 are passed through the screw holes 12 of the base 1 and the pre-embedded parts 5 to achieve a stable connection between the base 1 and the pre-embedded parts 5, providing a solid foundation support for the entire flood control board. Then, two sets of baffles 4 are slidably installed inside the three columns 2. By adjusting the position of the baffles 4 inside the columns 2, the height of the baffles 4 can be determined according to the actual flood control needs. Next, the pressure member 6 inside the connector 3 on the outer surface of the column 2 is rotated and moved downward to make close contact with the upper surface of the baffles 4. The pressure of the pressure member 6 is used to firmly fix the baffles 4 to prevent them from shifting under the impact of floods.
[0032] In the description of this utility model, it should be understood that the terms "left", "right", "up", "down", "top", "bottom", "front", "back", "inner", "outer", "back", "middle", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0033] However, the above description is only a specific embodiment of this utility model and should not be construed as limiting the scope of implementation of this utility model. Therefore, any substitution of equivalent components or equivalent changes and modifications made in accordance with the scope of protection of this utility model should still fall within the scope of the claims of this utility model.
Claims
1. A modular flood control panel for reservoir flood control projects, characterized in that: It includes two bases (1), and the upper surfaces of the two bases (1) are connected to three columns (2). The interiors of the three columns (2) are slidably connected to symmetrical baffles (4). The outer surfaces of the three columns (2) are fixedly installed with symmetrical connectors (3). The interiors of the three sets of connectors (3) are threaded with pressure components (6). The bottom ends of the three sets of pressure components (6) are in contact with the upper surface of the baffles (4). The bottom surfaces of the two bases (1) are provided with three embedded parts (5). The upper surfaces of the three embedded parts (5) and the upper surfaces of the two bases (1) are provided with symmetrical screw holes (12). The interiors of the three sets of screw holes (12) are threaded with locking bolts (9).
2. The combined flood control panel for reservoir flood control projects according to claim 1, characterized in that: Both sets of baffles (4) have concealed handles (11) on their outer surfaces.
3. The combined flood control panel for reservoir flood control projects according to claim 1, characterized in that: The two bases (1) are slidably connected together on their sides with waterproof adhesive strips (10).
4. A combined flood control panel for reservoir flood control projects according to claim 1, characterized in that: The number of baffles (4) in both groups is five pieces, and the baffles (4) in both groups are interlocked.
5. A combined flood control panel for reservoir flood control projects according to claim 1, characterized in that: Three reinforcing ribs (8) are fixedly connected to the upper surface of each of the two bases (1), and the side of each of the two sets of reinforcing ribs (8) that is close to each other is connected to the outer surface of the column (2).
6. A combined flood control panel for reservoir flood control projects according to claim 1, characterized in that: Handles (7) are fixedly connected to the outer surfaces of the three columns (2).