A reinforced concrete beam pouring construction device

By combining the design of side plates, end plates, cross plates and locking components, along with the moving plate and clamping components, the problems of complex mold assembly, manual support and movement and layered casting are solved, and the mold can be easily disassembled and cast stably.

CN224468779UActive Publication Date: 2026-07-07HENAN HONGJIAN CONSTR DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HENAN HONGJIAN CONSTR DEV CO LTD
Filing Date
2025-08-08
Publication Date
2026-07-07

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Abstract

The utility model discloses a reinforced concrete beam pouring construction device relates to building construction technical field. The utility model discloses a pouring mould, moving plate, clamping component and locking assembly, and pouring mould top is provided with moving plate, and moving plate top is provided with clamping component, and pouring mould includes horizontal plate, curb plate and end plate, and pouring mould outside is provided with locking assembly, and the bottom four corner positions of moving plate are all rotatably connected with moving wheel, and moving plate top is provided with fixed block no.
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Description

Technical Field

[0001] This utility model belongs to the field of building construction technology, and in particular relates to a reinforced concrete beam pouring construction device. Background Technology

[0002] Beams are crucial structural components in buildings, primarily supporting vertical and self-loads while maintaining structural stability. Reinforced concrete beams leverage the high strength, durability, and low maintenance costs of reinforced concrete to ensure their proper function. The construction process typically involves first building a beam mold, then pouring concrete into it. However, currently available mainstream reinforced concrete beam casting equipment still faces the following problems during use:

[0003] Currently, traditional reinforced concrete beam casting molds generally use nails to assemble and fix the side plates, cross plates, and end plates. This fixing method itself is not strong, and it is not easy to remove the nails after use to achieve the purpose of disassembling and reusing the formwork.

[0004] 2. When pouring reinforced concrete beams, workers usually manually support, fix, and move the pouring pipe. Since concrete will continuously flow out of the pouring pipe during the pouring process, and the concrete itself is quite heavy, the work of supporting, fixing, and moving it is a heavy burden on the workers.

[0005] 3. Reinforced concrete beams are generally poured in layers, with the concrete poured in layers of a certain thickness. This ensures that each layer of concrete is covered by the newly poured concrete before it sets, thus guaranteeing the integrity and good performance of the concrete structure. However, the vertical movement of the pouring pipe is entirely done manually, and the layered pouring work places a heavy burden on the workers.

[0006] To address these issues, we provide a reinforced concrete beam casting construction device. Utility Model Content

[0007] The purpose of this utility model is to provide a reinforced concrete beam pouring construction device. By setting up a side plate, end plate, horizontal plate, locking component, moving plate, handle, moving wheel, clamping component, threaded rod, and fixing block, it solves the problems of complex assembly and disassembly of the pouring formwork, the need for manual support and movement of the pouring pipe, and the difficulty in controlling the height of the pouring pipe during layered pouring.

[0008] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:

[0009] This utility model is a reinforced concrete beam casting construction device, including a casting mold, a movable plate, a clamping assembly and a locking assembly; the top of the casting mold is provided with a movable plate, and the clamping assembly is provided above the movable plate;

[0010] When carrying out the construction of reinforced concrete beam pouring, first assemble the pouring mold and lock it with the locking component. Then place the moving plate on the pouring mold, use the clamping component to clamp the concrete pouring pipe, and move the moving plate to carry out the pouring of reinforced concrete beam.

[0011] The casting mold includes a horizontal plate, and side plates are inserted and fixed on both sides of the top of the horizontal plate. End plates are inserted and fixed on both ends of the side plates and the horizontal plate. A locking component is provided on the outside of the casting mold. The side plates are connected and fixed to the horizontal plate, the horizontal plate to the end plates, and the side plates to the end plates through the locking component.

[0012] When assembling the casting mold, insert the horizontal plate and side plate, the horizontal plate and end plate, and the side plate and end plate into each other, and then lock them with the locking components to complete the casting mold assembly. When disassembling the casting mold, first open all the locking components, and then separate the horizontal plate and side plate, the horizontal plate and end plate, and the side plate and end plate to complete the casting mold disassembly. The disassembled casting mold can be reused.

[0013] The bottom of the movable plate has wheel grooves at the four corners, and movable wheels are rotatably connected inside the wheel grooves. Each movable wheel includes an inner wheel and an outer wheel is fixedly connected to both ends of the inner wheel. The lower end of the inner wheel is attached to the top of the side plate, and the opposite surfaces of the two outer wheels are attached to the inner and outer walls of the side plate, respectively.

[0014] Rotating the moving wheels allows you to move the moving plate and clamping components, thus moving the pouring pipe. The outer wheels limit the movement path of the moving wheels, ensuring that they only move horizontally in a straight line along the side plate.

[0015] Furthermore, each end of the side plate has a groove 1 and a protrusion 1 fixedly connected to its bottom end; each side of the top of the horizontal plate has a groove 2 and each end has a groove 3; each side of the opposite face of the two end plates has a protrusion 2 fixedly connected to its sides and a protrusion 3 fixedly connected to its bottom; the side plate and the horizontal plate are fixedly connected by protrusion 1 and groove 2; the side plate and the end plate are fixedly connected by groove 1 and protrusion 2; the horizontal plate and the end plate are fixedly connected by groove 3 and protrusion 3.

[0016] When assembling the casting mold by inserting it in, insert the first protrusion into the second groove, insert the second protrusion into the first groove, and insert the third protrusion into the third groove to complete the insertion and fixing of the casting mold.

[0017] Furthermore, the locking assembly includes a latch and a locking plate. The two sides of the end plate and the two sides of the cross plate are fixedly connected to the end positions. The outer periphery of the side plate near the latch is fixedly connected to the locking plate. Two fixing blocks are symmetrically fixedly connected to the locking plate near the latch position on the side away from the side plate. A locking handle is rotatably connected between the two fixing blocks. U-shaped locking rings are rotatably connected to both sides of the locking handle away from the fixing blocks. The locking plate is fixed by the locking rings and the latch.

[0018] After the casting mold is inserted and fixed, first lift the locking handle upwards. Since the locking ring is rotatably connected to the locking handle, the locking ring moves toward the locking buckle. Rotate the locking ring to put it on the locking buckle. Then press the locking handle down to lock the locking ring and the locking buckle, thus completing the locking of the casting mold.

[0019] Furthermore, both sides of the movable plate are fixedly connected to U-shaped connectors near their ends, and the lower horizontal end of each connector is rotatably connected to a stabilizing wheel; the stabilizing wheel makes it less likely for the movable plate to tip over during concrete pouring.

[0020] Furthermore, a handle is rotatably connected to both sides of the movable plate near one of its ends; pulling the handle will cause the movable wheel to rotate, thereby moving the movable plate.

[0021] Furthermore, a pouring port is provided through the top of the movable plate near the handle. A fixed block and a threaded rod are symmetrically arranged on the top of the movable plate on the side away from the handle from the pouring port. The fixed block is fixedly connected to the movable block, and the threaded rod is rotatably connected to the movable block. A T-shaped limiting groove is provided inside the fixed block. The end of the limiting groove near the threaded rod passes through the fixed block. The clamping assembly includes a movable part and a T-shaped limiting block. The limiting block is slidably connected to the limiting groove. The threaded rod is threaded through the movable part. A handwheel is fixedly connected to the top of the threaded rod.

[0022] During the pouring process, the concrete flowing out of the pouring pipe enters the pouring mold through the pouring port to pour the reinforced concrete beam. Turning the handwheel causes the threaded rod to rotate, and under the action of the limiting groove and limiting block, the clamping assembly can move up and down to achieve layered pouring.

[0023] Furthermore, a moving block is fixedly connected to both the limiting block and the moving part. A threaded rod 2 is threaded through to the center of the moving block. A pull block is rotatably connected to the end of the threaded rod 2 near the pouring port. A pull rod is hinged to both ends of the pull block. A sliding part is fixedly connected to the end of the pull rod away from the pull block. A groove 4 is threaded through to both sides of the moving block near the end. A rotating part is hinged to the center of the groove 4. A side T-shaped groove 5 is formed in the middle of the rotating part. The sliding part is located in the head of the groove 5 and is slidably connected to the groove 5. The end of the pull rod near the sliding part is inserted into the tail of the groove 5 and is slidably connected to the groove 5. A groove 6 is threaded through to the side of the rotating part away from the moving block near the end. A hinge is hinged to the groove 6. The clamping assembly also includes a clamping plate. A groove 7 is threaded through to the middle of the clamping plate. The end of the hinge away from the groove 6 is inserted into the groove 7 and is hinged to the groove 7.

[0024] When clamping the pouring pipe, first move the pouring pipe between the two clamping plates. Then rotate the threaded rod two, which pulls the pull block. Since the pull block is hinged to the pull rod, and the pull rod is slidably connected to the rotating part through the sliding part and the groove five, the pull rod slides in the groove five, which can pull the rotating part to rotate inward and drive the hinge and clamping plate to move inward. Since the hinge is hinged to the clamping plate, the clamping plate will rotate to fit and clamp the pouring pipe, completing the clamping and fixing work of the pouring pipe. After the concrete pouring work is completed, rotate the threaded rod in the opposite direction, and the clamping plate will release the clamped pouring pipe.

[0025] Furthermore, a crank handle is fixedly connected to the end of the threaded rod two away from the pull block. Turning the crank handle will drive the threaded rod two to rotate, completing the clamping and fixing work of the casting pipe. After the casting work is completed, turning the crank handle in the opposite direction will drive the threaded rod two to rotate in the opposite direction, releasing the clamped and fixed casting pipe.

[0026] This utility model has the following beneficial effects:

[0027] This invention solves the problem of difficult assembly and disassembly of reinforced concrete beam casting molds by setting side plates, end plates, horizontal plates, and locking components. When assembling the casting mold, the side plates are inserted and fixed to the horizontal plates, the side plates are inserted and fixed to the end plates, and the horizontal plates are inserted and fixed to the end plates. Locking components are used to lock the side plates to the horizontal plates, the side plates to the end plates, and the horizontal plates to the end plates. When disassembling the mold, the locking components are opened to separate the side plates to the horizontal plates, the side plates to the end plates, and the horizontal plates to the end plates, thus completing the disassembly work. This assembly and disassembly method is simple to operate, and the disassembled side plates, horizontal plates, and end plates can be reused.

[0028] This invention solves the problem of needing manual support to move the casting pipe by setting up a movable plate, a handle, movable wheels, and a clamping assembly. The clamping assembly holds the casting pipe, and pulling the handle rotates the movable wheels, which moves the movable plate. This, in turn, moves the clamping assembly and the casting pipe held by the clamping assembly together, achieving the purpose of stable and convenient movement of the casting pipe to pour the entire inside of the mold.

[0029] This utility model solves the problem that it is difficult to manually change the height of the pouring pipe during layered pouring by setting up a threaded rod, a fixed block, a limiting groove, a limiting block, and a moving part; by rotating the threaded rod, under the limiting action of the limiting groove and the limiting block in the fixed block, the moving part can move up and down, driving the clamping assembly to move up and down, so as to conveniently complete the layered pouring.

[0030] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description

[0031] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0032] Figure 1 This is a structural schematic diagram of a reinforced concrete beam casting construction device.

[0033] Figure 2 This is a schematic diagram of the disassembled structure of the casting mold.

[0034] Figure 3 for Figure 2 Enlarged schematic diagram of the structure at point A in the middle.

[0035] Figure 4 for Figure 2 Enlarged schematic diagram of the structure at point B.

[0036] Figure 5 This is a structural diagram of the locking component.

[0037] Figure 6 This is a schematic diagram of the connection structure between the moving plate and the clamping assembly.

[0038] Figure 7 This is a cross-sectional view of the movable plate.

[0039] Figure 8 This is a schematic diagram of the moving wheel structure.

[0040] Figure 9This is a schematic diagram of the connection structure of the threaded rod, the fixing block, and the clamping assembly.

[0041] Figure 10 This is a schematic diagram of the clamping assembly.

[0042] Figure 11 This is a schematic diagram of the disassembled structure of the clamping component.

[0043] The attached diagram lists the components represented by each number as follows:

[0044] 1. Casting mold; 101. Side plate; 1011. Groove 1; 1012. Raised bar 1; 102. Horizontal plate; 1021. Groove 2; 1022. Groove 3; 103. End plate; 1031. Raised bar 2; 1032. Raised bar 3; 2. Moving plate; 201. Pull handle; 202. Casting port; 203. Connector; 204. Stabilizing wheel; 205. Wheel groove; 206. Moving wheel; 2061. Inner wheel; 2062. Outer wheel; 207. Threaded rod 1; 2071. Handwheel; 208. Fixing block 1; 208 1. Limiting groove; 3. Clamping assembly; 301. Moving block; 3011. Limiting block; 3012. Moving part; 302. Groove four; 303. Rotating part; 3031. Groove five; 3032. Groove six; 304. Pull rod; 3041. Sliding part; 305. Hinge part; 306. Clamping plate; 3061. Groove seven; 4. Locking assembly; 401. Lock; 402. Fixing block two; 403. Lock handle; 404. Locking ring; 405. Locking plate; 5. Threaded rod two; 501. Crank handle; 502. Pull block. Detailed Implementation

[0045] 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 skilled in the art without creative effort are within the protection scope of the present utility model. Specific Implementation

[0046] Please see Figure 1-4 This utility model is a reinforced concrete beam casting construction device, including a casting mold 1, a movable plate 2, a clamping component 3 and a locking component 4; the top of the casting mold 1 is provided with a movable plate 2, and the clamping component 3 is provided above the movable plate 2;

[0047] When carrying out the construction of reinforced concrete beam pouring, first assemble the pouring mold 1 and lock it with the locking component 4. Then place the moving plate 2 on the side plate 101 of the pouring mold 1 and use the clamping component 3 to clamp the discharge port of the concrete pouring pipe. The pouring of reinforced concrete beam can then be carried out. When pouring, moving the moving plate 2 can drive the clamping component 3 and the pouring pipe to move and pour concrete evenly into the pouring mold 1.

[0048] The casting mold 1 includes a horizontal plate 102. Side plates 101 are inserted and fixed on both sides of the top of the horizontal plate 102. End plates 103 are inserted and fixed on both ends of the side plates 101 and the horizontal plate 102. A locking component 4 is provided on the outside of the casting mold 1. The side plates 101 and the horizontal plate 102, the horizontal plate 102 and the end plates 103, and the side plates 101 and the end plates 103 are all connected and fixed by the locking component 4.

[0049] When assembling the casting mold 1, the horizontal plate 102 is inserted into the side plate 101, the horizontal plate 102 into the end plate 103, and the side plate 101 into the end plate 103 respectively. Then, the locking components 4 are used to lock them in place, thus completing the assembly and fixing of the casting mold 1. When disassembling the casting mold 1, all the locking components 4 are opened first, and then the horizontal plate 102 into the side plate 101, the horizontal plate 102 into the end plate 103, and the side plate 101 into the end plate 103 are separated respectively, thus completing the disassembly of the casting mold 1. The disassembled casting mold 1 can be reused.

[0050] Among them, such as Figure 2-4 As shown, both ends of the side plate 101 are provided with a first groove 1011 and the bottom end is fixedly connected with a first protrusion 1012. Both sides of the top of the horizontal plate 102 are provided with a second groove 1021 and both ends are provided with a third groove 1022. Both sides of the opposite surfaces of the two end plates 103 are fixedly connected with a second protrusion 1031 and the bottom of the opposite surfaces are fixedly connected with a third protrusion 1032. The side plate 101 and the horizontal plate 102 are fixedly connected by the first protrusion 1012 and the second groove 1021. The side plate 101 and the end plate 103 are fixedly connected by the first groove 1011 and the second protrusion 1031. The horizontal plate 102 and the end plate 103 are fixedly connected by the third groove 1022 and the third protrusion 1032.

[0051] Insert the first protrusion 1012 into the second groove 1021, the second protrusion 1031 into the first groove 1011, and the third protrusion 1032 into the third groove 1022 to complete the insertion and fixing of the casting mold 1.

[0052] Among them, such as Figure 2-5As shown, the locking assembly 4 includes a latch 401 and a locking plate 405. The latches 401 are fixedly connected to both sides of the end plate 103 and both sides of the horizontal plate 102 near the end positions. The locking plates 405 are fixedly connected to the outer periphery of the side plate 101 near the latches 401. Two fixing blocks 402 are symmetrically fixedly connected to the side of the locking plate 405 away from the side plate 101 near the latches 401. The two fixing blocks 402 are rotatably connected between their opposite faces. The two sides of the locking handle 403 are rotatably connected to U-shaped locking rings 404 away from the fixing blocks. The locking plate 405 is fixedly engaged with the latches 401 through the locking rings 404.

[0053] After the casting mold 1 is inserted and fixed, first lift the locking handle 403 upwards. Due to the rotational connection between the locking handle 403 and the fixing block 402, the tail end of the locking handle 403 will rotate towards the locking buckle 401. Due to the rotational connection between the locking ring 404 and the locking handle 403, the locking ring 404 will also move towards the locking buckle 401. When the locking ring 404 moves to the front of the locking buckle 401, rotate the locking ring 404 to put the locking ring 404 on the locking buckle 401. Then press down the locking handle 403, and the locking ring 404 will move to lock the locking ring 404 and the locking buckle 401, thus completing the locking work of the casting mold 1.

[0054] The working principle of this embodiment is as follows: Before the reinforced concrete beam pouring construction work, the pouring mold 1 is assembled first. The first protrusion 1012 is inserted into the second groove 1021, the second protrusion 1031 is inserted into the first groove 1011, and the third protrusion 1032 is inserted into the third groove 1022. The horizontal plate 102 and the side plate 101, the horizontal plate 102 and the end plate 103, and the side plate 101 and the end plate 103 can then be inserted and fixed. Then, the locking handle 403 is lifted upwards. Due to the rotational connection between the locking handle 403 and the second fixing block 402, the tail end of the locking handle 403 will rotate towards the locking buckle 401. Due to the rotational connection between the locking ring 404 and the locking handle 403, the locking ring 404 will move towards the locking buckle 401. When the locking ring 404 moves to the locking buckle 401... When the mold is in front, rotate the locking ring 404 to put the locking ring 404 on the buckle 401. Then press down the locking handle 403, and the locking ring 404 moves to lock the locking ring 404 and the buckle 401, completing the assembly and fixing of the casting mold 1. Then place the moving plate 2 on the side plate 101 of the casting mold 1, and use the clamping component 3 to clamp the discharge port of the concrete pouring pipe to carry out the pouring of the reinforced concrete beam. When pouring, move the moving plate 2 to drive the clamping component 3 and the pouring pipe to move and pour concrete evenly into the casting mold 1. After the concrete pouring is completed, open the locking component 4 to separate the horizontal plate 102, the side plate 101 and the end plate 103 to disassemble the casting mold 1. Specific Implementation

[0055] Please see Figure 1-8Based on the first specific embodiment, wheel grooves 205 are provided at the four corners of the bottom of the movable plate 2. Movable wheels 206 are rotatably connected inside the wheel grooves 205. The movable wheels 206 include inner wheels 2061. Both ends of the inner wheels 2061 are fixedly connected to outer wheels 2062. The lower end of the inner wheel 2061 is attached to the top of the side plate 101, and the opposite surfaces of the two outer wheels 2062 are attached to the inner wall and outer wall of the side plate 101, respectively.

[0056] Among them, such as Figure 7 As shown, U-shaped connectors 203 are fixedly connected to both sides of the movable plate 2 near the end positions, and a stabilizing wheel 204 is rotatably connected to the lower horizontal end of the connector 203.

[0057] Among them, such as Figure 7 As shown, a handle 201 is rotatably connected to both sides of the movable plate 2 near one of its ends.

[0058] The working principle of this embodiment is as follows: pulling the handle 201 causes the moving wheel 206 and the stabilizing wheel 204 to rotate, which in turn moves the moving plate 2, thereby causing the clamping assembly 3 and the pouring pipe to move together to pour concrete into the entire pouring mold 1. When it is necessary to move the moving plate 2 in the opposite direction, simply rotate the handle 201 to turn it around, pull the handle 201, and drive the moving wheel 206 and the stabilizing wheel 204 to rotate in the opposite direction, so that the moving plate 2 can move in the opposite direction. The outer wheel 2062 limits the movement path of the moving wheel 206, so that the moving wheel 206 will only move horizontally in a straight line along the side plate 101. The stabilizing wheel 204 makes it difficult for the moving plate 2 to tip over during concrete pouring. Specific Implementation

[0059] Please see Figure 6-9 Based on specific embodiments one and two, a pouring port 202 is provided through the top of the movable plate 2 near the handle 201. On the side of the movable plate 2 away from the handle 201, a fixed block 208 and a threaded rod 207 are symmetrically arranged at the top of the movable plate 2. The fixed block 208 is fixedly connected to the movable block 301, and the threaded rod 207 is rotatably connected to the movable block 301. A T-shaped limiting groove 2081 is provided inside the fixed block 208. The end of the limiting groove 2081 near the threaded rod 207 passes through the fixed block 208. The clamping assembly 3 includes a movable part 3012 and a T-shaped limiting block 3011. The limiting block 3011 is slidably connected to the limiting groove 2081. The threaded rod 207 is threaded through the movable part 3012. A handwheel 2071 is also fixedly connected to the top of the threaded rod 207.

[0060] During the pouring process, the concrete flowing out of the pouring pipe enters the pouring mold 1 through the pouring port 202 to carry out the concrete pouring work. When the handwheel 2071 is turned, the threaded rod 207 rotates. Under the action of the limiting groove 2081 and the limiting block 3011, the clamping component 3 can move up and down to achieve layered pouring.

[0061] Among them, such as Figure 10 , 11 As shown, a movable block 301 is fixedly connected to both the limiting block 3011 and the movable component 3012. A threaded rod 5 is threadedly connected to the center of the movable block 301. A pull block 502 is rotatably connected to one end of the threaded rod 5 near the pouring port 202. A pull rod 304 is hinged to both ends of the pull block 502. A sliding component 3041 is fixedly connected to the end of the pull rod 304 away from the pull block 502. A groove 302 is provided through the movable block 301 on both sides near the end. A rotating component 303 is hinged to the center of the groove 302. A side T-shaped groove 3031 is provided in the middle of the rotating component 303. The moving part 3041 is located inside the head of the groove 5 3031 and is slidably connected to the groove 5 3031. The end of the pull rod 304 near the sliding part 3041 is inserted into the tail of the groove 5 3031 and is slidably connected to the groove 5 3031. The rotating part 303 has a groove 6 3032 through it on the side away from the moving block 301 near the end position. A hinge 305 is hingedly connected in the groove 6 3032. The clamping assembly 3 also includes a clamping plate 306. A groove 7 3061 through it is opened in the middle of the clamping plate 306. The end of the hinge 305 away from the groove 6 3032 is inserted into the groove 7 3061 and is hingedly connected to the groove 7 3061.

[0062] When clamping the casting pipe, first move the outlet of the casting pipe between the two clamping plates 306. Then rotate the threaded rod 5. Since the threaded rod 5 is threadedly connected to the moving block 301, the threaded rod 5 will move away from the casting port 202. The threaded rod 5 pulls the pull block 502. Since the pull block 502 is hinged to the pull rod 304, and the pull rod 304 is slidably connected to the rotating part 303 through the sliding part 3041 and the groove 5 3031, the pull rod 304 slides in the groove 5 3031 of the rotating part 303. Since the length of the pull rod 304 remains unchanged, the pull rod 304 moves together with the threaded rod 5 and the pull block 502. This allows the rotating component 303 to rotate inward, causing the hinge component 305 and the clamping plate 306 to move inward. Since the hinge component 305 is hinged to the clamping plate 306, the clamping plate 306 will rotate to fit and clamp the pouring pipe, completing the clamping and fixing of the pouring pipe. After the concrete pouring is completed, the threaded rod 5 is rotated in the opposite direction, and the pull block 502 moves toward the pouring port 202. The pull rod 304 moves with the pull block 502. Since the pull rod 304 is slidably connected to the rotating component 303 and hinged to the pull block 502, the rotating component 303 will move outward, causing the clamping plate 306 to move outward and release the clamped pouring pipe.

[0063] Among them, such as Figure 10 , 11 As shown, a crank handle 501 is fixedly connected to the end of the threaded rod 5 away from the pull block 502; turning the crank handle 501 will drive the threaded rod 5 to rotate, completing the work of clamping and fixing the pouring pipe. After the pouring work is completed, turning the crank handle 501 in the opposite direction will drive the threaded rod 5 to rotate in the opposite direction, releasing the clamped and fixed pouring pipe.

[0064] The operation process of this embodiment is as follows: When performing the casting pipe clamping operation, first move the outlet of the casting pipe between the two clamping plates 306, then rotate the crank handle 501, and the threaded rod 5 rotates. Since the threaded rod 5 is threadedly connected to the moving block 301, the threaded rod 5 will move away from the casting port 202 and pull the pull block 502. Since the pull block 502 is hinged to the pull rod 304, and the pull rod 304 is connected to the sliding member 3041 and the groove 3031. The rotating component 303 is slidably connected, and the pull rod 304 slides within the groove 3031 of the rotating component 303. Since the length of the pull rod 304 remains constant, it moves together with the threaded rod 5 and the pull block 502, thus pulling the rotating component 303 inwards. This also causes the hinge 305 and the clamping plate 306 to move inwards. Because the hinge 305 is hinged to the clamping plate 306, the clamping plate 306 will rotate to fit against and clamp the casting pipe, completing the clamping and fixing process of the casting pipe. Following this, concrete pouring is carried out. During pouring, the concrete flowing from the pouring pipe enters the pouring mold 1 through the pouring port 202 to pour a single reinforced concrete beam. Turning the handwheel 2071 rotates the threaded rod 207, and under the action of the limiting groove 2081 and the limiting block 3011, the clamping assembly 3 can move up and down, causing the pouring pipe to move up and down, allowing for pouring at different heights inside the pouring mold 1, achieving layered pouring. After the operation is completed, turn the crank handle 501 in the opposite direction. The threaded rod 5 will rotate in the opposite direction and move towards the pouring port 202, pushing the pull block 502. The pull block 502 moves towards the pouring port 202, and the pull rod 304 moves with the pull block 502. Since the pull rod 304 is slidably connected to the rotating part 303 and hingedly connected to the pull block 502, the rotating part 303 will move outward, driving the clamping plate 306 to move outward and releasing the clamped pouring pipe.

[0065] The above are merely preferred embodiments of the present utility model and do not limit the present utility model. Any modifications, equivalent substitutions, or improvements made to the technical solutions described in the foregoing embodiments, or to some of the technical features, shall fall within the protection scope of the present utility model.

Claims

1. A reinforced concrete beam pouring construction device, comprising a pouring mold (1), a moving plate (2), a clamping assembly (3) and a locking assembly (4); characterized in that: The casting mold (1) is provided with a movable plate (2) at the top, and a clamping assembly (3) is provided above the movable plate (2). The casting mold (1) includes a horizontal plate (102), and side plates (101) are inserted and fixed on both sides of the top of the horizontal plate (102). End plates (103) are inserted and fixed on both ends of the side plates (101) and the horizontal plate (102). A locking component (4) is provided on the outside of the casting mold (1). The side plates (101) and the horizontal plate (102), the horizontal plate (102) and the end plates (103), and the side plates (101) and the end plates (103) are all connected and fixed by the locking component (4). The bottom of the movable plate (2) is provided with wheel grooves (205) at the four corners. The wheel grooves (205) are rotatably connected to the movable wheels (206). The movable wheels (206) include inner wheels (2061) and outer wheels (2062) are fixedly connected to both ends of the inner wheels (2061). The lower end of the inner wheel (2061) is attached to the top of the side plate (101), and the opposite surfaces of the two outer wheels (2062) are attached to the inner wall and outer wall of the side plate (101) respectively.

2. The reinforced concrete beam casting construction device according to claim 1, characterized in that: The side plate (101) has a groove 1 (1011) at both ends and a protrusion 1 (1012) fixedly connected to the bottom end. The top of the horizontal plate (102) has a groove 2 (1021) on both sides and a groove 3 (1022) at both ends. The two end plates (103) have protrusion 2 (1031) fixedly connected to both sides of their opposite surfaces and protrusion 3 (1032) fixedly connected to the bottom of their opposite surfaces. The side plate (101) and the horizontal plate (102) are fixedly connected by protrusion 1 (1012) and groove 2 (1021). The side plate (101) and the end plate (103) are fixedly connected by groove 1 (1011) and protrusion 2 (1031). The horizontal plate (102) and the end plate (103) are fixedly connected by groove 3 (1022) and protrusion 3 (1032).

3. The reinforced concrete beam casting construction device according to claim 1, characterized in that: The locking assembly (4) includes a latch (401) and a locking plate (405). The latches (401) are fixedly connected to both sides of the end plate (103) and both sides of the cross plate (102) near the end position. The locking plates (405) are fixedly connected to the outer periphery of the side plate (101) near the latches (401). Two fixing blocks (402) are symmetrically fixedly connected to the side of the locking plate (405) away from the side plate (101) near the latches (401). The locking handle (403) is rotatably connected between the opposite surfaces of the two fixing blocks (402). The U-shaped locking rings (404) are rotatably connected to both sides of the locking handle (403) away from the fixing blocks. The locking plate (405) is sleeved and fixed to the latches (401) through the locking rings (404).

4. The reinforced concrete beam casting construction device according to claim 1, characterized in that: Both sides of the movable plate (2) are fixedly connected to U-shaped connectors (203) near the end positions, and the lower horizontal end of the connectors (203) is rotatably connected to a stabilizing wheel (204).

5. The reinforced concrete beam casting construction device according to claim 4, characterized in that: The movable plate (2) has a handle (201) rotatably connected to both sides near one of its ends.

6. The reinforced concrete beam casting construction device according to claim 5, characterized in that: A pouring port (202) is provided at the top of the movable plate (2) near the handle (201). A fixing block (208) and a threaded rod (207) are symmetrically arranged at the top of the movable plate (2) on the side away from the handle (201) from the pouring port (202). The fixing block (208) is fixedly connected to the movable block (301), and the threaded rod (207) is rotatably connected to the movable block (301). The fixing block (208) has a [missing information - likely a design feature or design feature]. The T-shaped limiting groove (2081) passes through the fixing block (208) at one end of the threaded rod (207). The clamping assembly (3) includes a moving part (3012) and a T-shaped limiting block (3011). The limiting block (3011) is slidably connected to the limiting groove (2081). The threaded rod (207) passes through the moving part (3012). A handwheel (2071) is also fixedly connected to the top of the threaded rod (207).

7. The reinforced concrete beam casting construction device according to claim 6, characterized in that: The limiting block (3011) and the moving part (3012) are fixedly connected together by a moving block (301). A threaded rod (5) is threaded through at the center of the moving block (301). A pull block (502) is rotatably connected to the end of the threaded rod (5) near the pouring port (202). A pull rod (304) is hinged to both ends of the pull block (502). A sliding part (3041) is fixedly connected to the end of the pull rod (304) away from the pull block (502). A groove (302) is provided through on both sides of the moving block (301) near the end. A rotating part (303) is hinged to the center of the groove (302). A side T-shaped groove (3031) is provided in the middle of the rotating part (303). The sliding member (3041) is located inside the head of the groove five (3031) and is slidably connected to the groove five (3031). The end of the pull rod (304) near the sliding member (3041) is inserted into the tail of the groove five (3031) and is slidably connected to the groove five (3031). The rotating member (303) has a groove six (3032) through it near the end position on the side away from the moving block (301). A hinge member (305) is hingedly connected in the groove six (3032). The clamping assembly (3) also includes a clamping plate (306). A groove seven (3061) through it is opened in the middle of the clamping plate (306). The end of the hinge member (305) away from the groove six (3032) is inserted into the groove seven (3061) and is hingedly connected to the groove seven (3061).

8. The reinforced concrete beam casting construction device according to claim 7, characterized in that: A crank (501) is fixedly connected to the end of the threaded rod (5) away from the pull block (502).