Movable flood control emergency retaining wall
By connecting the diagonal bracing plates and water-retaining plates to the support frame and fixing them with limiting covers, the problem of long assembly time in existing technologies is solved, realizing a mobile flood control emergency water-retaining wall that can be installed quickly and improving emergency response efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HENAN ANHENG TECHNOLOGY IND CO LTD
- Filing Date
- 2025-08-22
- Publication Date
- 2026-07-14
AI Technical Summary
The existing mobile flood control emergency retaining wall requires multiple limiting operations during installation, resulting in a long assembly time and affecting emergency response efficiency.
The system uses a diagonal brace and a water baffle to connect to the support frame and is fixed by a limiting cover, simplifying the assembly process. It utilizes the sliding connection of T-slots and T-blocks, combined with the plug-in and limiting structure of the support mechanism, to achieve rapid fixation.
The assembly steps of the mobile flood barrier have been simplified, the assembly time has been reduced, making it more suitable for flood control and emergency use, and improving installation efficiency.
Smart Images

Figure CN224495019U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of flood control emergency water-retaining walls, specifically a movable flood control emergency water-retaining wall. Background Technology
[0002] Flood control emergency retaining walls are water-retaining structures used to defend against floods. They are typically constructed from materials such as concrete and steel plates, and are divided into two types: fixed and mobile. Mobile flood control emergency retaining walls are mostly used for temporary construction, such as emergency flood control walls for flood fighting and disaster relief. In the existing technology, the authorized publication number CN 214301535... U proposes a flood control emergency retaining wall, including columns and retaining plates. The columns are symmetrically distributed on both sides of the retaining plate and are fixedly connected to the retaining plate. A longitudinal support plate is welded to the front surface of the column, and a connecting plate is welded to one side of the support plate. A sleeve plate is fitted on the outer side wall of the connecting plate. A spring, under force and rebound, pushes a protrusion along the connecting plate until the protrusion moves out of the sleeve plate and inserts a waterproof plate between two adjacent columns, completing the splicing operation between the columns. Although this simplifies the installation process and facilitates emergency use, the installation process is time-consuming because the diagonal bracing components are telescopic and the connection between the diagonal bracing components and the support components is a sliding connection. The limiting of the diagonal bracing components requires many steps, resulting in a longer assembly time for the mobile retaining wall. Utility Model Content
[0003] The technical problem to be solved by this utility model is to overcome the existing defects and provide a movable flood control emergency water barrier. The inclined bracing plate and the water barrier are connected to the support frame by plugging. Only the limiting cover needs to be fixed on the upper end of the support frame to simultaneously limit and fix the inclined bracing plate and the water barrier. This simplifies the assembly steps of the movable water barrier and reduces the time required for assembly, which can effectively solve the problems in the background art.
[0004] To achieve the above objectives, this utility model provides the following technical solution: a movable flood control emergency water barrier wall, including a support plate and a water barrier plate. There are two support plates distributed on the left and right sides. T-shaped grooves are provided on the left and right sides of the support plates. T-shaped blocks are provided on the left and right sides of the water barrier plate. The T-shaped blocks are vertically slidably connected to the adjacent T-shaped grooves. The utility model also includes a support mechanism.
[0005] Support mechanism: It includes a convergence groove, a rotating plate, a diagonal brace, and a limiting cover. The convergence groove is respectively set on the front surface of the support plate. The lower end of the convergence groove is rotatably connected to the rotating plate through a rotating shaft. The front end of the rotating plate is inserted between the upper end of the support plate corresponding to the longitudinal position. The limiting cover is fixedly connected to the upper end of the support plate by bolts. The T-block and the diagonal brace are installed in conjunction with the limiting cover. The diagonal brace and the water-retaining plate are connected to the support frame by plugging. Only by fixing the limiting cover to the upper end of the support frame can the diagonal brace and the water-retaining plate be limited and fixed at the same time. This simplifies the assembly steps of the mobile water-retaining wall, reduces the time required for the assembly of the mobile water-retaining wall, and makes the mobile water-retaining wall more suitable for flood control emergency use.
[0006] Furthermore, the support mechanism also includes insertion holes, slots, and insert blocks. The insertion holes are respectively located at the front end of the rotating plate, and insert blocks are inserted into the interior of each insertion hole. The diagonal braces are respectively located at the upper end of the insert blocks, and the slots are respectively located at the upper end of the support plate. The upper end of the diagonal braces is respectively inserted into the adjacent slots to quickly connect the diagonal braces.
[0007] Furthermore, the support mechanism also includes inserts and limiting holes. The inserts are respectively disposed on the lower surface of the limiting cover, and the limiting holes are respectively disposed on the upper surface of the inclined brace and the upper surface of the T-block. The inserts are respectively inserted into the vertically adjacent limiting holes to limit the inclined brace and the T-block.
[0008] Furthermore, the upper and lower surfaces of the water baffle and the T-shaped block are provided with rubber pads to seal between the water baffles and improve the water-blocking effect of the water baffles.
[0009] Furthermore, the lower surface of the limiting cover is provided with a top pressure plate, which is installed in conjunction with the rubber pad to apply a downward force to the water baffle, making the rubber pads more tightly packed together.
[0010] Furthermore, each of the sockets has a rotating slot at its front end, and the plugs are all cylindrical plugs. The plugs and the rotating slots can rotate relative to each other, thus restricting the left and right positions of the plugs.
[0011] Furthermore, the front end of the rotating plate and the upper end of the support plate are both provided with retraction holes. The rotating plate and the support plate are connected in the retracted state by inserting a pin into the retraction holes.
[0012] Compared with the prior art, the beneficial effects of this utility model are as follows: This movable flood control emergency water barrier has the following advantages:
[0013] Both the diagonal bracing plate and the water-retaining plate are connected to the support frame by plugging. Simply fixing the limiting cover on the upper end of the support frame can simultaneously limit and fix the diagonal bracing plate and the water-retaining plate, simplifying the assembly steps of the mobile water-retaining wall, reducing the time required for assembly, and making the mobile water-retaining wall more suitable for flood control and emergency use. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the structure of this utility model;
[0015] Figure 2 This is a schematic diagram of the structure of the overall device of this utility model after a partial explosion.
[0016] Figure 3 This is an enlarged structural diagram of point A in this utility model;
[0017] Figure 4 This is an enlarged structural diagram of section B of the present invention.
[0018] In the diagram: 1. Support plate, 2. T-slot, 3. T-block, 4. Water baffle, 5. Support mechanism, 51. Closing groove, 52. Rotating plate, 53. Insertion hole, 54. Slot, 55. Diagonal brace, 56. Limiting cover, 57. Insertion block, 58. Insertion post, 59. Limiting insertion hole, 6. Top pressure plate, 7. Rubber pad, 8. Rotating slot, 9. Closing insertion hole, 10. Bolt. Detailed Implementation
[0019] 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.
[0020] Please see Figure 1-4 This embodiment provides a technical solution: a movable flood control emergency water barrier wall, including a support plate 1 and a water barrier 4. There are two support plates 1, which are distributed on the left and right sides. The left and right sides of the support plate 1 are provided with T-shaped grooves 2. The left and right sides of the water barrier 4 are provided with T-shaped blocks 3. The T-shaped blocks 3 are vertically slidably connected to the adjacent T-shaped grooves 2 respectively. The water barrier 4 is connected to the support plate 1 by inserting the T-shaped blocks 3 from top to bottom into the T-shaped grooves 2. Under the support of the support plate 1, the water barrier 4 can be assembled. The water barrier 4 is used to block the flow of floodwater. It also includes a support mechanism 5.
[0021] Support mechanism 5 includes a convergence groove 51, a rotating plate 52, a diagonal brace 55, and a limiting cover 56. The convergence groove 51 is respectively disposed on the front surface of the support plate 1. The lower end of the convergence groove 51 is rotatably connected to the rotating plate 52 via a rotating shaft. The front end of the rotating plate 52 is inserted between the upper end of the support plate 1 corresponding to the longitudinal position and the diagonal brace 55. The limiting cover 56 is fixedly connected to the upper end of the support plate 1 by bolts 10. The T-block 3 and the diagonal brace 55 are installed in conjunction with the limiting cover 56. Support mechanism 5 also includes a socket 53, a slot 54, and a plug 57. The socket 53 is respectively disposed on the front end of the rotating plate 52. The socket 53 is inserted into the interior of the socket 53. The diagonal brace 55 is disposed on the upper end of the plug 57. The slot 54 is... Each of the diagonal bracing plates 55 is positioned on the upper end of the support plate 1, and its upper end is inserted into the adjacent slot 54. Each insertion hole 53 has a rotating groove 8 at its front end. The insertion blocks 57 are cylindrical with an inverted T-shaped cross-section. After insertion, the vertical movement of the insertion block 57 is restricted, while the insertion block 57 and the rotating groove 8 can rotate relative to each other. During installation, the rotating plate 52 is perpendicular to the support plate 1. The insertion block 57 is inserted into the insertion hole 53 and moved forward, allowing it to enter the rotating groove 8. The rotating groove 8 prevents the insertion block 57 from moving left or right. By rotating within the rotating groove 8, the upper end of the diagonal bracing plate 55 is inserted into the slot 54, quickly achieving the insertion of the diagonal bracing plate 55. The connection and support mechanism 5 also includes insert posts 58 and limiting holes 59. The insert posts 58 are respectively set on the lower surface of the limiting cover 56, and the limiting holes 59 are respectively set on the upper surface of the inclined support plate 55 and the upper surface of the T-block 3. The insert posts 58 are respectively inserted into the vertically adjacent limiting holes 59. The limiting cover 56 is fixed to the upper surface of the support plate 1 by bolts 10, so that the insert posts 58 are inserted into the limiting holes 59, preventing the inclined support plate 55 from leaving the slot 54. At the same time, the upper end of the T-slot 2 is closed, preventing the T-block 3 from leaving the T-slot 2. The upper and lower surfaces of the water baffle plate 4 and the T-block 3 are provided with rubber pads 7. The deformation of the rubber pads 7 is used to prevent water from flowing between two vertically adjacent water baffle plates 4. The plate 4 is sealed to the ground. The lower surface of the limiting cover 56 is provided with a top pressure plate 6. The top pressure plate 6 is installed in conjunction with the rubber pad 7 to apply downward squeezing force to the water baffle 4 and the rubber pad 7, so that the rubber pad 7 and the water baffle 4 are in closer contact, and at the same time, the vertical displacement of the water baffle 4 is blocked. The front end of the rotating plate 52 and the upper end of the support plate 1 are provided with a retractable insertion hole 9. When not installed, the rotating plate 52 rotates into the retractable groove 51, and the retractable insertion hole 9 on the surface of the rotating plate 52 coincides with the retractable insertion hole 9 on the surface of the support plate 1. The position of the rotating plate 52 and the support plate 1 is restricted by inserting a pin into the two coincident retractable insertion holes 9. At this time, the overall device occupies little space, which makes it convenient to move the flood control emergency water baffle to the designated position.
[0022] The working principle of the movable flood control emergency water barrier provided by this utility model is as follows: Before the installation of the flood control emergency water barrier, the support plate 1, the water barrier plate 4, and the inclined support plate 55 are in a separated state. The rotating plate 52 rotates into the retractable groove 51, and the retractable insertion hole 9 on the surface of the rotating plate 52 coincides with the retractable insertion hole 9 on the surface of the support plate 1. The pin is inserted into the two coincident retractable insertion holes 9 to restrict the position of the rotating plate 52 and the support plate 1. At this time, the overall device occupies little space, making it convenient to move the flood control emergency water barrier to the designated position. During installation, the support plate 1 is placed vertically on the ground, the pin is pulled out, and the rotating plate 52 is rotated to a state of contact with the ground. Then, the insertion block 57 is inserted into the insertion hole 53 and moved forward so that the insertion block 57 enters the rotating slot 8. The rotating slot 8 is used to block the insertion. The left and right movement of block 57 causes the insert block 57 to rotate in the rotating slot 8, so that the upper end of the diagonal brace 55 is inserted into the slot 54. Then, T-shaped blocks 3 are inserted into the T-slot 2 from top to bottom to complete the connection between the water baffle 4 and the support plate 1. Finally, the limiting cover 56 is fixed on the upper surface of the support plate 1 by bolt 10, so that the insert post 58 is inserted into the limiting insertion hole 59 to prevent the diagonal brace 55 from leaving the slot 54. At the same time, the upper end of the T-slot 2 is sealed to prevent the T-shaped block 3 from leaving the T-slot 2. Under the pressure of the top pressure plate 6, the rubber pad 7 is deformed to seal the two vertically adjacent water baffles 4 and the water baffle 4 and the ground, thus completing the installation of the flood control emergency water retaining wall. Under the diagonal support of the diagonal brace 55, the water baffle 4 is used to block the flow of floodwater.
[0023] The above are merely embodiments of this utility model and do 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 movable flood control emergency retaining wall, comprising a support plate (1) and a retaining plate (4), wherein there are two support plates (1) distributed on the left and right, and T-slots (2) are provided on the left and right sides of the support plate (1), and T-blocks (3) are provided on the left and right sides of the retaining plate (4), wherein the T-blocks (3) are vertically slidably connected to the adjacent T-slots (2), characterized in that: It also includes support structures (5); Support mechanism (5): It includes a folding groove (51), a rotating plate (52), a diagonal brace (55) and a limiting cover (56). The folding groove (51) is respectively set on the front surface of the support plate (1). The lower end of the folding groove (51) is rotatably connected to the rotating plate (52) through a rotating shaft. The front end of the rotating plate (52) and the upper end of the support plate (1) corresponding to the longitudinal position are both inserted with diagonal braces (55). The limiting cover (56) is fixedly connected to the upper end of the support plate (1) by bolts (10). The T-block (3) and the diagonal brace (55) are installed in conjunction with the limiting cover (56).
2. The movable flood control emergency retaining wall according to claim 1, characterized in that: The support mechanism (5) further includes a socket (53), a slot (54) and a plug (57). The socket (53) is respectively located at the front end of the rotating plate (52). The plug (57) is inserted into the interior of each socket (53). The inclined support plate (55) is respectively located at the upper end of the plug (57). The slot (54) is respectively located at the upper end of the support plate (1). The upper end of the inclined support plate (55) is respectively inserted into the adjacent slot (54).
3. The movable flood control emergency retaining wall according to claim 1, characterized in that: The support mechanism (5) also includes a plug (58) and a limiting hole (59). The plug (58) is respectively disposed on the lower surface of the limiting cover (56), and the limiting hole (59) is respectively disposed on the upper surface of the inclined support plate (55) and the upper surface of the T-block (3). The plug (58) is respectively inserted into the vertically adjacent limiting hole (59).
4. The movable flood control emergency retaining wall according to claim 1, characterized in that: The upper and lower surfaces of the water baffle (4) and the T-block (3) are both provided with rubber pads (7).
5. The movable flood control emergency retaining wall according to claim 4, characterized in that: The lower surface of the limiting cover (56) is provided with a top pressure plate (6), and the top pressure plate (6) is installed in conjunction with the rubber pad (7).
6. The movable flood control emergency retaining wall according to claim 2, characterized in that: The front end of each of the sockets (53) is provided with a rotating slot (8), and the plugs (57) are all cylindrical plugs. The plugs (57) and the rotating slots (8) can rotate relative to each other.
7. The movable flood control emergency retaining wall according to claim 1, characterized in that: The front end of the rotating plate (52) and the upper end of the support plate (1) are both provided with a retraction insertion hole (9).