A water conservancy flood prevention water retaining board support locking structure with foldable guide vanes

By using a hydraulic flood control barrier support and locking structure with foldable guide wings, the problems of support stability and inconvenient locking operation have been solved, achieving stable support and efficient locking of the barrier, thus improving flood control efficiency and safety.

CN122169463APending Publication Date: 2026-06-09盐城市盐都区防洪工程管理所(468253791)

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
盐城市盐都区防洪工程管理所(468253791)
Filing Date
2026-04-27
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing flood control barriers are inadequate in terms of support stability and locking operation, making it difficult to form a solid and reliable water barrier, affecting flood control efficiency and potentially causing seepage risks.

Method used

The hydraulic flood control barrier with foldable guide wings is supported and locked. It includes a triangular support frame, locking components, fixing components and guide components. The barrier is stably supported and locked by components such as slide rails, sliders, threaded sleeves and drive motors. The guide wings are used to divert and relieve pressure, and enhance the sealing performance.

Benefits of technology

It improves the support stability and locking convenience of the flood barrier, forms a solid waterproof barrier, reduces the risk of water seepage, and improves the efficiency and safety of flood control operations.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses a support and locking structure for a flood control barrier with foldable guide wings, belonging to the field of flood control technology. The invention includes: a triangular support frame; a locking assembly mounted on the side wall of the triangular support frame; a barrier body mounted on the locking assembly for locking and fixing the barrier body; a fixing assembly mounted on the triangular support frame for fixing the triangular support frame; and a guide assembly mounted on the barrier body. When using the barrier, the barrier body is mounted on the locking assembly and placed in a preset position. The locking assembly then locks and fixes the barrier body, simultaneously working with the triangular support frame to complete the support and locking operation. Workers move the barrier body to a designated installation area, driving the fixing assembly to move and gradually insert it into the soil.
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Description

Technical Field

[0001] This invention belongs to the field of water conservancy and flood control technology, and in particular relates to a water conservancy flood control barrier support and locking structure with foldable guide wings. Background Technology

[0002] In flood control and water conservancy work, flood barriers are indispensable emergency protection facilities. Their core function is to quickly build temporary flood barriers to resist sudden floods. When river levels rise sharply and the risk of urban flooding intensifies, traditional flood control projects may encounter dangers due to water levels exceeding design standards or local weak points. Flood barriers can be quickly erected at key locations such as embankment gaps, low-lying road sections, and underground space entrances to effectively block flood overflow and buy valuable time for personnel evacuation and material rescue.

[0003] Compared to traditional flood control materials such as sandbags, flood barriers have advantages such as convenient installation, reusability, and strong sealing. Taking urban underground parking garages as an example, flood barriers can be assembled in minutes to form a continuous waterproof wall, avoiding the time-consuming and labor-intensive problem of sandbag stacking and easy leakage, and greatly improving the efficiency of emergency response. In addition, flood barriers are mostly made of high-strength aluminum alloy or stainless steel, with excellent impact resistance and can maintain structural stability under high water pressure, providing reliable protection for the front line of flood control.

[0004] Existing flood control barriers still suffer from insufficient support stability and inconvenient locking operations in practical applications, making it difficult to form a solid and reliable water barrier. This not only reduces the efficiency of flood control operations but may also lead to water leakage due to poor sealing, which has a certain adverse impact on the overall flood control effect. Summary of the Invention

[0005] To solve the above-mentioned technical problems, the present invention provides: a hydraulic flood control barrier support and locking structure with foldable guide wings, comprising: Triangular support frame; A locking assembly is mounted on the side wall of the triangular support frame; A water baffle body is mounted on the locking assembly, which is used to lock and fix the water baffle body. A fixing component is mounted on the triangular support frame and is used to fix the triangular support frame. A flow guiding component, which is installed on the baffle plate body; The flow guiding component includes a plurality of first slides formed on the water baffle body, the first slides being arranged vertically and slidably connected to two symmetrically arranged first sliders.

[0006] As a preferred embodiment of the present invention, each of the first sliders is fixedly connected with a guide vane body; The two aligned airflow guide bodies are flexibly connected, and the two airflow guide bodies are symmetrically arranged to form a V-shaped structure.

[0007] As a preferred embodiment of the present invention, the locking assembly includes: A first fixing plate is fixedly connected to the side wall of the triangular support frame; The first fixing plate has a fixing groove, the back of the baffle plate body is inserted into the fixing groove, and the left and right side walls of the triangular support frame have two symmetrically arranged sliding grooves.

[0008] As a preferred embodiment of the present invention, a first fixing frame is slidably connected within the groove; A limiting rod is fixedly connected to one side of the first fixing frame, and one end of the limiting rod passes through the first fixing plate and extends into the body of the baffle plate.

[0009] As a preferred embodiment of the present invention, the side of the triangular support frame away from the first fixed plate is rotatably connected to two symmetrically arranged threaded sleeves; The threaded sleeve contains two symmetrically arranged threaded rods connected by threads, and one end of each threaded rod is fixedly connected to the first fixing frame.

[0010] As a preferred embodiment of the present invention, the fixing component includes: Two second fixing frames are fixedly connected to the triangular support frame; The second fixed frame has two symmetrically arranged slide rails fixedly connected to it, and a first bearing plate is slidably connected to the slide rails.

[0011] As a preferred embodiment of the present invention, a toothed plate is fixedly connected to the side wall of the first bearing plate; A drive motor is mounted on the second fixed frame, and a gear that meshes with the toothed plate is fixedly connected to the output end of the drive motor.

[0012] As a preferred embodiment of the present invention, a first support plate is fixedly connected to the bottom of the first bearing plate, and a plurality of evenly distributed ground-inserting rods are fixedly connected to the lower side of the first support plate. The triangular support frame is rotatably connected to two symmetrically arranged support wheels, and two symmetrically arranged locking ropes are inserted into the upper side of the first support plate; The other end of the locking rope passes through the first fixing plate and is connected to the water baffle body, and the locking rope is attached to the support wheel.

[0013] Compared with the prior art, the beneficial effects of the present invention are as follows: When using the water-blocking plate, install the water-blocking plate body onto the locking assembly. After placing it in the preset position, lock and fix the water-blocking plate body using the locking assembly. At the same time, cooperate with the triangular support frame to complete the support and locking operation. The worker moves the water-blocking plate body to the designated installation area, drives the fixing assembly to move, and gradually inserts it into the soil to fix the triangular support frame. When the water flow impacts the water-facing surface of the water-blocking plate body, the flow guiding assembly diverts the positive water flow to both sides to release pressure. Attached Figure Description

[0014] Figure 1 This is a first-view perspective three-dimensional structural diagram of the hydraulic flood control barrier support and locking structure with foldable guide wings provided in an embodiment of the present invention; Figure 2 This invention provides a hydraulic flood control barrier support and locking structure with foldable guide wings. Figure 1 A magnified three-dimensional structural diagram of part A in the middle section; Figure 3 This is a second-view three-dimensional structural diagram of the hydraulic flood control barrier support and locking structure with foldable guide wings provided in an embodiment of the present invention; Figure 4 This is a schematic diagram of a triangular support frame structure with a foldable guide wing for supporting and locking a hydraulic flood control barrier, provided in an embodiment of the present invention. Figure 5 This is a schematic diagram of the first fixing plate structure of the hydraulic flood control barrier with foldable guide wings provided in an embodiment of the present invention; Figure 6 This is a schematic diagram of the fixing component and locking component structure of the hydraulic flood control barrier with foldable guide wings provided in an embodiment of the present invention; Figure 7 This is a schematic diagram of the locking assembly structure of the hydraulic flood control barrier with foldable guide wings provided in an embodiment of the present invention; Figure 8 This is a schematic diagram of a partial fixing component structure of a hydraulic flood control barrier with foldable guide wings provided in an embodiment of the present invention.

[0015] In the diagram: 1. Triangular support frame; 2. Water baffle body; 3. First slide rail; 4. First slider; 5. Guide vane body; 6. First fixing plate; 7. Fixing groove; 8. Slide groove; 9. First fixing frame; 10. Limiting rod; 11. Threaded sleeve; 12. Threaded rod; 13. Second fixing frame; 14. Slide rail; 15. First bearing plate; 16. Toothed plate; 17. Drive motor; 18. Gear; 19. First support plate; 20. Grounding rod; 21. Support wheel; 22. Locking rope. Detailed Implementation

[0016] To further understand the invention's content, features, and effects, the following embodiments are provided, and detailed descriptions are given in conjunction with the accompanying drawings.

[0017] The structure of the present invention will now be described in detail with reference to the accompanying drawings.

[0018] Please see Figures 1 to 8 This invention provides a hydraulic flood control barrier support and locking structure with foldable guide wings, comprising: a triangular support frame 1; a locking assembly mounted on the side wall of the triangular support frame 1; a barrier body 2 mounted on the locking assembly, the locking assembly being used to lock and fix the barrier body 2; a fixing assembly mounted on the triangular support frame 1 for fixing the triangular support frame 1; and a guide assembly mounted on the barrier body 2. The guide assembly includes a plurality of first slide rails 3 formed on the barrier body 2, the first slide rails 3 being vertically arranged, and each first slide rail 3 being slidably connected to two symmetrically arranged first sliders 4.

[0019] Using the above scheme: When using the water baffle, the water baffle body 2 is installed on the locking assembly and placed in the preset position. The water baffle body 2 is then locked and fixed by the locking assembly. At the same time, it works with the triangular support frame 1 to complete the support and locking operation. The workers move the water baffle body 2 to the designated installation area and drive the fixing assembly to move so that it is gradually inserted into the soil to fix the triangular support frame 1. When the water flow impacts the water-facing surface of the water baffle body 2, the flow guiding assembly diverts the positive water flow to both sides to release pressure.

[0020] It should be noted that: a groove is provided on the left side wall of the water baffle body 2, and a tenon is fixedly provided on the right side wall of the water baffle body 2. The outline of the tenon matches the shape of the inner cavity of the groove. When two adjacent water baffle bodies 2 are spliced, the tenon of one side of the water baffle is inserted into the groove of the other side of the water baffle. Through the interlocking of the tenon and groove, multiple water baffle bodies 2 are connected end to end in sequence, and the splicing positioning and gap sealing are completed at the same time.

[0021] Furthermore, each of the first sliders 4 is fixedly connected with a guide vane body 5; the two aligned guide vane bodies 5 are flexibly connected, and the two guide vane bodies 5 form a symmetrical V-shaped structure.

[0022] Furthermore, the locking assembly includes: a first fixing plate 6 fixedly connected to the side wall of the triangular support frame 1; a fixing groove 7 is provided on the first fixing plate 6, the back of the baffle plate body 2 is inserted into the fixing groove 7, and two symmetrically arranged sliding grooves 8 are provided on the left and right side walls of the triangular support frame 1.

[0023] Furthermore, a first fixing frame 9 is slidably connected within the chute 8; a limiting rod 10 is fixedly connected to one side of the first fixing frame 9, and one end of the limiting rod 10 passes through the first fixing plate 6 and extends into the water baffle body 2.

[0024] Furthermore, the triangular support frame 1 is rotatably connected to two symmetrically arranged threaded sleeves 11 on the side away from the first fixed plate 6; the threaded sleeves 11 are connected to two symmetrically arranged threaded rods 12 by threads, and one end of each threaded rod 12 is fixedly connected to the first fixed frame 9.

[0025] Using the above scheme: In use, the operator aligns the back of the baffle plate body 2 with the fixing groove 7 of the first fixing plate 6 and inserts it. Then, the threaded sleeve 11 on the first fixing frame 9 is rotated. Since the threaded sleeve 11 is threadedly connected to the two threaded rods 12, when the threaded sleeve 11 rotates, it drives the first fixing frame 9 to move in the slide groove 8 through the threaded rods 12, thereby driving the limiting rod 10 to move to one side of the baffle plate body 2. After moving to the preset position, the limiting rod 10 is inserted into the baffle plate body 2 to complete the initial locking. Finally, the two first sliders 4 are pushed to move closer to each other in the first slide 3. Since the two guide vane bodies 5 are flexibly connected, after moving to the preset position, the guide vane bodies 5 form a V-shaped structure. When the water flow impacts the water-facing surface of the baffle plate body 2, the V-shaped guide vane bodies 5 divert the positive water flow to both sides to relieve pressure, reducing the horizontal thrust borne by the baffle plate body 2.

[0026] It should be noted that: First, after the first slider 4 moves to the preset position, it is connected to the baffle plate body 2 using bolts, thereby fixing the guide vane body 5. Second, if it is necessary to fold the guide vane body 5, the unfolding process of the guide vane body 5 described above can be reversed. Third, the flexible connection structure is as follows: the inner V-shaped cavities of the two wings are covered with a high-strength PVC waterproof Oxford cloth flexible connection layer; the upper and lower vertical lengths are fixed to the inner sides of the left and right wing plates, flexibly connecting the two wing plates into a whole.

[0027] Furthermore, the fixing component includes: two second fixing frames 13 fixedly connected to the triangular support frame 1; two symmetrically arranged slide rails 14 are fixedly connected to the second fixing frames 13, and a first bearing plate 15 is slidably connected to the slide rails 14.

[0028] Furthermore, a toothed plate 16 is fixedly connected to the side wall of the first bearing plate 15; a drive motor 17 is installed on the second fixing frame 13, and a gear 18 that meshes with the toothed plate 16 is fixedly connected to the output end of the drive motor 17.

[0029] Furthermore, a first support plate 19 is fixedly connected to the bottom of the first bearing plate 15, and a plurality of evenly distributed ground-inserting rods 20 are fixedly connected to the lower side of the first support plate 19; two symmetrically arranged support wheels 21 are rotatably connected to the triangular support frame 1, and two symmetrically arranged locking ropes 22 are inserted into the upper side of the first support plate 19; the other end of the locking rope 22 passes through the first fixed plate 6 and is connected to the water-blocking plate body 2, and the locking rope 22 is attached to the support wheel 21.

[0030] Using the above scheme: When installing the water-blocking plate body 2, first pass the locking rope 22 through the reserved hole of the first fixing plate 6 and connect it to the first support plate 19. After the water-blocking plate body 2 is installed, when it is necessary to fix the triangular support frame 1, the output ends of the two drive motors 17 are rotated, which in turn drives the gear 18 on it to rotate synchronously. Since the gear 18 and the toothed plate 16 mesh with each other, when the gear 18 rotates, it will push the toothed plate 16 to drive the first bearing plate 15 to move downward on the slide rail 14. When the first bearing plate 15 moves, it will drive the first support plate 19 on it to move downward synchronously. After the first support plate 19 moves to the preset position, the multiple ground-inserting rods 20 on it will be inserted into the soil, thereby fixing the triangular support frame 1 in the current position. During the movement of the first support plate 19, it will pull the locking rope 22, and with the assistance of the support wheel 21, the locking rope 22 will gradually tighten, and the water-blocking plate body 2 will be locked a second time.

[0031] It should be noted that after the triangular support frame 1 is fixed, in the subsequent use stage, the drive motor 17 and the gear 18 above it can be removed from the second fixed frame 13. When needed, they can be put back in.

[0032] Working principle of the invention: When using the baffle, first thread the locking rope 22 through the pre-drilled hole in the first fixed plate 6 and connect it to the first support plate 19. The operator aligns the back of the baffle body 2 with the fixing groove 7 of the first fixed plate 6 and inserts it. Then, rotate the threaded sleeve 11 on the first fixed bracket 9. Because the threaded sleeve 11 is threadedly connected to two threaded rods 12, when the threaded sleeve 11 rotates, it drives the first fixed bracket 9 to move within the slide groove 8 via the threaded rods 12, thereby driving the limiting rod 10 to move towards one side of the baffle body 2. After moving to the preset position, the limiting rod 10 inserts into the baffle body 2 to complete the initial locking. Finally, push the two first sliders 4 closer together within the first slide rail 3. Because the two guide vane bodies 5 are flexibly connected, after moving to the preset position, the guide vane bodies 5 form a V-shaped structure. After the baffle body 2 is installed, when it is necessary to fix the triangular support frame 1, it is done by... The output end of the drive motor 17 rotates, thereby driving the gear 18 on it to rotate synchronously. Since the gear 18 and the toothed plate 16 mesh with each other, when the gear 18 rotates, it will push the toothed plate 16 to drive the first bearing plate 15 to move downward on the slide rail 14. When the first bearing plate 15 moves, it will drive the first support plate 19 on it to move downward synchronously. After the first support plate 19 moves to the preset position, the multiple ground-inserting rods 20 on it will be inserted into the soil, thereby fixing the triangular support frame 1 in the current position. During the movement of the first support plate 19, it will pull the locking rope 22, and with the assistance of the support wheel 21, the locking rope 22 will gradually tighten, locking the water baffle body 2 a second time. When the water flow impacts the water-facing surface of the water baffle body 2, the V-shaped guide wing body 5 will divert the positive water flow to both sides to relieve pressure, reducing the horizontal thrust borne by the water baffle body 2.

[0033] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0034] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A hydraulic flood control and water-retaining plate support and locking structure with foldable guide wings, characterized in that, include: Triangular support frame (1); A locking assembly is mounted on the side wall of the triangular support frame (1); The water baffle body (2) is installed on the locking assembly, which is used to lock and fix the water baffle body (2). A fixing component is installed on the triangular support frame (1) for fixing the triangular support frame (1); A flow guiding component is installed on the baffle plate body (2); The flow guiding component includes a plurality of first slides (3) opened on the baffle plate body (2), the first slides (3) are arranged vertically, and the first slides (3) are slidably connected to two symmetrically arranged first sliders (4).

2. The hydraulic flood control and water-retaining plate support and locking structure with foldable guide wings as described in claim 1, characterized in that: Each of the first sliders (4) is fixedly connected to a guide vane body (5); The two aligned guide vane bodies (5) are flexibly connected, and the two guide vane bodies (5) are symmetrically formed into a V-shaped structure.

3. The hydraulic flood control and water-retaining plate support and locking structure with foldable guide wings as described in claim 1, characterized in that: The locking assembly includes: The first fixing plate (6) is fixedly connected to the side wall of the triangular support frame (1); The first fixing plate (6) has a fixing groove (7), the back of the baffle plate body (2) is inserted into the fixing groove (7), and the left and right side walls of the triangular support frame (1) have two symmetrically arranged sliding grooves (8).

4. The hydraulic flood control and water-retaining plate support and locking structure with foldable guide wings as described in claim 3, characterized in that: The first fixing frame (9) is slidably connected inside the slide groove (8); A limiting rod (10) is fixedly connected to one side of the first fixing frame (9), and one end of the limiting rod (10) passes through the first fixing plate (6) and extends into the water baffle body (2).

5. The hydraulic flood control and water-retaining plate support and locking structure with foldable guide wings as described in claim 4, characterized in that: The triangular support frame (1) is rotatably connected to two symmetrically arranged threaded sleeves (11) on the side away from the first fixed plate (6). The threaded sleeve (11) contains two symmetrically arranged threaded rods (12) connected by threads, and one end of each threaded rod (12) is fixedly connected to the first fixing frame (9).

6. The hydraulic flood control and water-retaining plate support and locking structure with foldable guide wings as described in claim 3, characterized in that: The fixing component includes: Two second fixing frames (13) are fixedly connected to the triangular support frame (1); The second fixed frame (13) is fixedly connected to two symmetrically arranged slide rails (14), and a first bearing plate (15) is slidably connected to the slide rails (14).

7. A hydraulic flood control and water-retaining plate support and locking structure with foldable guide wings as described in claim 6, characterized in that: A toothed plate (16) is fixedly connected to the side wall of the first bearing plate (15). A drive motor (17) is installed on the second fixed frame (13), and the output end of the drive motor (17) is fixedly connected to a gear (18) that meshes with the toothed plate (16).

8. The hydraulic flood control and water-retaining plate support and locking structure with foldable guide wings as described in claim 6, characterized in that: The bottom of the first bearing plate (15) is fixedly connected to a first support plate (19), and the lower side of the first support plate (19) is fixedly connected to a plurality of evenly distributed ground rods (20). The triangular support frame (1) is rotatably connected to two symmetrically arranged support wheels (21), and the first support plate (19) is inserted with two symmetrically arranged locking ropes (22). The other end of the locking rope (22) passes through the first fixing plate (6) and is connected to the water baffle body (2). The locking rope (22) is attached to the support wheel (21).