A type of impermeable modular concrete pouring device

CN224431983UActive Publication Date: 2026-06-30福建星原建设工程发展有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
福建星原建设工程发展有限公司
Filing Date
2025-06-17
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing anti-seepage modular concrete pouring equipment is inefficient during concrete vibration and dismantling, resulting in insufficient pouring strength and reduced component quality, thus affecting its performance.

Method used

The system employs a scraper and an electric telescopic column assembly. The scraper, with its square and round openings, facilitates the vibration of concrete by a vibrator, while the electric telescopic column assists in the disassembly of the hammer blocks, thus improving both vibration and disassembly efficiency.

Benefits of technology

It improved the strength of concrete pouring, avoided honeycomb and pitted surface phenomena, enhanced the quality of components, and improved the disassembly efficiency and usability of modular devices.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of concrete pouring technology, and more particularly to a seepage-resistant modular concrete pouring device, comprising: a base, a pouring plate, a connecting component, and an adjusting component; the connecting component is connected above the seepage-resistant cavity; the connecting component includes a scraper with a square opening, inside which a mounting frame is connected, the mounting frame is connected to a sealing sleeve and has a circular opening, which is connected to an opening / closing plug; the adjusting component is connected to the outside of the pouring plate; the adjusting component includes an electric telescopic column, the drive end of which is connected to the mounting plate, the mounting plate is connected to a mounting block, the mounting block is connected to the scraper, and the scraper is connected to four hammer blocks. This utility model avoids honeycomb and pitting in the concrete within the seepage-resistant cavity, improves the concrete pouring strength, and avoids affecting the quality of the component; by using an electric telescopic column, it facilitates the disassembly efficiency of the seepage-resistant module, thus improving the functionality of the seepage-resistant modular concrete pouring device.
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Description

Technical Field

[0001] This utility model relates to the field of concrete pouring technology, and in particular to a seepage-resistant modular concrete pouring device. Background Technology

[0002] Concrete pouring refers to the process of pouring concrete into a formwork until it hardens. The formwork surface and supporting structure affect the strength and stiffness of the concrete structure, as well as the flatness of its appearance and the accuracy of its geometric dimensions, making them important components of the building's quality indicators.

[0003] Chinese Patent No. CN221399816U discloses a seepage-resistant modular concrete pouring device, including a hammer block. The device is fixed to a first protrusion on a pouring plate via a first fixing groove, while a second protrusion is fixed to a second fixing groove, thus securing the front and rear ends of the pouring plate to a fixed column. After all four pouring plates are connected to the fixed column, the user uses a hammer to strike the hammer block, causing the insertion rod to penetrate the ground and the bottom end of the hammer block to abut against the top of the fixed column. A sliding block is then inserted into the sliding groove to allow a scraper to remove excess cement and seal the top to prevent debris from falling in. When the size of the poured material needs to be changed, pouring plates can be added or removed. This concrete pouring device features a modular design, making installation convenient, durable, and reusable. Its tight installation prevents cement seepage, significantly reducing the workload for workers.

[0004] Existing anti-seepage modular concrete pouring equipment involves assembling modules, pouring concrete, and finally fixing the modules. However, when pouring concrete into the anti-seepage cavity of the module, it is not convenient to vibrate the concrete, resulting in honeycomb and pitted surfaces in the concrete poured into the anti-seepage cavity. This affects the concrete pouring strength and the quality of the component. Furthermore, the hammer blocks require hammering, which reduces the efficiency of disassembling the anti-seepage modules and diminishes the functionality of the anti-seepage modular concrete pouring equipment. Utility Model Content

[0005] To address the problems existing in the background technology, a seepage-resistant modular concrete pouring device is proposed.

[0006] This utility model proposes a seepage-resistant modular concrete pouring device, including: a base, a pouring slab, a connecting component, and an adjusting component;

[0007] The casting slabs are connected to the base and there are four of them. The four casting slabs are connected and assembled by four fixed columns to form an impermeable cavity for pouring concrete.

[0008] The connecting assembly is connected above the impermeable cavity; the connecting assembly includes a scraper, the scraper is provided with a square opening, the inside of the square opening is connected to an installation frame, the installation frame is connected to a sealing sleeve and is provided with a circular opening, the circular opening is connected to an opening and closing plug, the opening and closing plug is connected to an installation cover, the installation cover is connected to a handle and fixed plates are connected to both sides respectively.

[0009] The adjustment assembly is connected to the outside of the cast slab; the adjustment assembly includes an electric telescopic column, the drive end of the electric telescopic column is connected to a mounting plate, the mounting plate is connected to a mounting block, the mounting block is connected to a scraper, and the scraper is connected to four hammer blocks.

[0010] Preferably, one end of the fixing plate is movably connected to the mounting groove, which is set on the sealing sleeve to increase the stability of the opening and closing plug connection.

[0011] Preferably, the mounting block is provided with a reserved mounting hole, and the scraper is provided with a reserved connection hole. The reserved mounting hole and the reserved connection hole are opposite to each other and connected with screws, so that the mounting block and the scraper can be detachably connected.

[0012] Preferably, the four hammer blocks are connected to the insert rods respectively, the insert rods are connected in the slots, and the slots are set on the fixed posts.

[0013] Preferably, the adjustment assembly further includes a clamping rod, with grooves provided above both ends of the clamping rod and the two ends respectively connected to an insert plate and a connecting groove;

[0014] The groove connects to the rod body, the rod body connects to the connecting rod, the connecting rod connects to the outside of the cast slab, and the clamping rod connects to the base to support the electric telescopic column.

[0015] Preferably, the number of clamping rods is adjusted according to the number of casting slabs used, so that the insert plate is connected in the connecting groove for splicing multiple clamping rods.

[0016] Compared with the prior art, the present invention has the following beneficial technical effects:

[0017] This utility model features a square opening in the scraper, which connects to the mounting frame. The mounting frame has a circular opening connected to an opening / closing plug, which in turn connects to a mounting cover. The mounting cover is opened or closed via a handle. During concrete pouring inside the impermeable cavity, the circular opening is open, facilitating the use of a vibrator to penetrate the opening and connect with the concrete within the cavity. This vibration treatment prevents honeycomb and pitting issues in the concrete, improves concrete strength, and avoids affecting the quality of the component. An electric telescopic column is incorporated, connecting the telescopic rod to a cover plate. The cover plate is connected to a hammer block and an insert rod, which is positioned within a slot on a fixed rod. The fixed rod and the pouring plate together form the impermeable cavity. Disassembly of the hammer block is performed using the electric telescopic column, improving the efficiency of disassembling the impermeable module and enhancing the functionality of the impermeable modular concrete pouring device. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0019] Figure 2 This is a schematic diagram of the anti-permeability cavity structure in this utility model;

[0020] Figure 3 This is a schematic diagram of the connecting component structure in this utility model.

[0021] Reference numerals: 1. Base; 2. Cast-in-place plate; 201. Fixed column; 3. Connecting assembly; 301. Scraper; 302. Square opening; 303. Mounting frame; 304. Sealing sleeve; 305. Circular opening; 306. Opening / closing plug; 307. Mounting cover; 308. Handle; 309. Fixed plate; 310. Hammering block; 311. Insert rod; 4. Clamping rod; 401. Groove; 402. Insert plate; 403. Connecting rod; 404. Base; 405. Electric telescopic column; 406. Mounting plate; 407. Mounting block. Detailed Implementation

[0022] The specific embodiments of this disclosure will be described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for illustration and explanation only and are not intended to limit this disclosure.

[0023] Example 1

[0024] like Figure 1 - Figure 3As shown, this utility model proposes a seepage-resistant modular concrete pouring device, comprising: a base 1, pouring plates 2, connecting components 3, and adjusting components; four pouring plates 2 are connected to the base 1, and the four pouring plates 2 are connected and assembled through four fixed columns 201 to form a seepage-resistant cavity for pouring concrete; the connecting components 3 are connected above the seepage-resistant cavity; the connecting components 3 include a scraper 301, the scraper 301 is provided with a square opening 302, and the square opening 302 is connected to an installation frame 303, which is connected to... A sealing sleeve 304 is provided with a circular opening 305. The circular opening 305 is connected to an opening and closing plug 306, which is connected to an installation cover 307. The installation cover 307 is connected to a handle 308 and fixed plates 309 are connected to both sides. An adjustment assembly is connected to the outside of the pouring plate 2. The adjustment assembly includes an electric telescopic column 405. The drive end of the electric telescopic column 405 is connected to the installation plate 406. The installation plate 406 is connected to an installation block 407. The installation block 407 is connected to a scraper 301. The scraper 301 is connected to four hammer blocks 310. During the concrete pouring operation inside the anti-seepage cavity, the circular opening 305 is in the open state, which facilitates the use of a vibrator to pass through the circular opening 305 and connect with the concrete inside the anti-seepage cavity to achieve concrete vibration treatment, avoid honeycomb and pitting in the concrete inside the anti-seepage cavity, improve the concrete pouring strength, and avoid affecting the quality of the component. By using the electric telescopic column 405, the disassembly efficiency of the anti-seepage module is improved, and the functionality of the anti-seepage modular concrete pouring device is enhanced.

[0025] To further explain, one end of the fixing plate 309 is movably connected to the mounting groove, which is set on the sealing sleeve 304 to increase the stability of the opening and closing plug 306; the mounting block 407 is provided with a reserved mounting hole, and the scraper 301 is provided with a reserved connection hole, and the reserved mounting hole and the reserved connection hole are opposite to each other and connected with screws, so that the mounting block 407 and the scraper 301 are detachably connected; the four hammer blocks 310 are respectively connected to the insert rod 311, the insert rod 311 is connected in the slot, and the slot is set on the fixing post 201. The electric telescopic column 405 and the mounting plate 406 are detachably connected using flange bolts. They are connected in conjunction with the mounting block 407 and the scraper 301, facilitating the operation of the scraper 301 and the modular connection for anti-seepage. The operator supports the scraper 301 above the anti-seepage cavity, then connects the mounting block 407 to the scraper 301, and the mounting plate 406 to the electric telescopic column 405. This provides support for the scraper 301 and allows for adjustment of its applicable height. The operation is simple and facilitates improved efficiency and quality in concrete pouring.

[0026] Example 2

[0027] like Figure 1 and Figure 2As shown, the present invention proposes a seepage-resistant modular concrete pouring device. Based on the above embodiments, this embodiment also details the specific components of the adjustment assembly and their coordination method.

[0028] Further explanation: the adjustment assembly also includes a clamping rod 4. Each end of the clamping rod 4 has a groove 401 at its upper end, and both ends are connected to an insert plate 402 and a connecting groove, respectively. A rod body is connected to the groove 401, and a connecting rod 403 is connected to the rod body. The connecting rod 403 is connected to the outside of the casting slab 2. The clamping rod 4 is connected to a base 404 for supporting the connection of the electric telescopic column 405. Both ends of the connecting rod 403 are inserted into the groove 401, allowing the connecting rod 403 to securely clamp the casting slabs 2 on both sides, facilitating the use of the components of the impermeable modular concrete casting device.

[0029] To further explain, the number of clamping rods 4 is adjusted according to the number of casting slabs 2 used, so that the insert plate 402 is connected in the connecting groove for splicing multiple clamping rods 4. When it is necessary to change the size of the casting, casting slabs 2 can be added or removed, and the clamping rods 4 are set according to the casting slabs 2, which facilitates the connection of components such as the electric telescopic column 405 and the scraper 301, thereby increasing the stability of the casting slabs 2 assembly and strengthening the overall performance of the casting slabs 2.

[0030] The working principle of this utility model is as follows: When the anti-seepage modular concrete pouring device is in use, the pouring plate 2 is assembled and connected by the fixed column 201 to form an anti-seepage cavity, so that the concrete is poured into the anti-seepage cavity. During the concrete pouring process, the insert rod 311, hammer block 310 and scraper 301 are supported above the anti-seepage cavity by the electric telescopic column 405, so as not to affect the concrete being poured into the anti-seepage cavity from the side. The operating handle 308 causes the mounting cover 307 to drive the opening and closing plug 306 to open the circular opening 305. The vibrating end of the vibrator is inserted through the circular opening 305 into the concrete of the anti-seepage cavity to achieve the concrete vibration treatment. After concrete vibration treatment, concrete is poured again to completely fill the anti-seepage cavity. Finally, the vibrating end of the vibrator is removed, and the operating handle 308 connects the opening and closing plug 306 to the circular opening 305, closing the circular opening 305. The electric telescopic column 405 is started, causing the drive end to drive the mounting plate 406 downward. The mounting plate 406 drives the mounting block 407, which in turn drives the scraper 301. The scraper 301 drives the hammer block 310, which in turn drives the insertion rod 311. The insertion rod 311 is inserted into the slot, sealing the anti-seepage cavity and enabling the anti-seepage modular concrete pouring device to work.

[0031] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited thereto. Various changes can be made within the scope of knowledge possessed by those skilled in the art without departing from the spirit of the present invention.

Claims

1. A modular concrete pouring device with impermeability, characterized in that, include: Base (1); Four pouring slabs (2) are connected to the base (1). The four pouring slabs (2) are connected and assembled by four fixed columns (201) to form an anti-seepage cavity for pouring concrete. A connecting component (3) is connected above the anti-seepage cavity; the connecting component (3) includes a scraper (301), the scraper (301) is provided with a square opening (302), the square opening (302) is connected to an installation frame (303), the installation frame (303) is connected to a sealing sleeve (304) and is provided with a circular opening (305), the circular opening (305) is connected to an opening and closing plug (306), the opening and closing plug (306) is connected to an installation cover (307), the installation cover (307) is connected to a handle (308) and fixed plates (309) are connected to both sides respectively; And an adjustment assembly connected to the outside of the pouring slab (2); the adjustment assembly includes an electric telescopic column (405), the drive end of the electric telescopic column (405) is connected to the mounting plate (406), the mounting plate (406) is connected to the mounting block (407), the mounting block (407) is connected to the scraper (301), and the scraper (301) is connected to four hammer blocks (310).

2. The anti-seepage modular concrete pouring device according to claim 1, characterized in that, One end of the fixing plate (309) is movably connected to the mounting groove, which is set on the sealing sleeve (304) to increase the stability of the opening and closing plug (306).

3. The anti-seepage modular concrete pouring device according to claim 1, characterized in that, The mounting block (407) is provided with a reserved mounting hole, and the scraper (301) is provided with a reserved connection hole. The reserved mounting hole and the reserved connection hole are opposite to each other and connected with screws, so that the mounting block (407) and the scraper (301) can be detachably connected.

4. The anti-seepage modular concrete pouring device according to claim 1, characterized in that, Four hammer blocks (310) are connected to the insert rod (311) respectively. The insert rod (311) is connected to the slot, which is set on the fixed post (201).

5. The anti-seepage modular concrete pouring device according to claim 1, characterized in that, The adjustment assembly also includes a clamping rod (4), which has grooves (401) on the upper part of both ends and is connected to a plug plate (402) and a connecting groove, respectively. The groove (401) is connected to the rod body, the rod body is connected to the connecting rod (403), the connecting rod (403) is connected to the outside of the casting plate (2), and the clamping rod (4) is connected to the base (404) to support the connection of the electric telescopic column (405).

6. The anti-seepage modular concrete pouring device according to claim 5, characterized in that, The number of clamping rods (4) is adjusted according to the number of casting plates (2) used, so that the insert plate (402) is connected in the connecting groove for splicing multiple clamping rods (4).