A building construction connection device

By designing a building structure connection device consisting of an outer connecting plate, an inner connecting plate, a hinge assembly, and a connection fixing assembly, the problem that existing devices cannot adapt to different wall thicknesses and corner connections is solved, enabling flexible adjustment and rapid installation, and improving construction efficiency and structural stability.

CN224326065UActive Publication Date: 2026-06-05NANCHANG LUYUAN WATER SUPPLY & DRAINAGE ENGINEERING DESIGN CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANCHANG LUYUAN WATER SUPPLY & DRAINAGE ENGINEERING DESIGN CO LTD
Filing Date
2025-07-17
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing building structure connection devices cannot flexibly adjust their size to adapt to different wall thicknesses, making it difficult to effectively connect and reinforce corner parts. Moreover, the installation process is cumbersome, affecting construction efficiency and cost.

Method used

A building structure connection device is designed, comprising an outer connecting plate, an inner connecting plate, a hinge assembly, and a connection fixing assembly. The hinge assembly enables corner connections, the connection fixing assembly allows for adjustment of the distance between the plates, and the components are connected by plug-in fitting and threaded connections, facilitating rapid installation.

Benefits of technology

It enables flexible and adaptable reinforcement of walls of different thicknesses, enhances the structural stability at corners, simplifies the installation process, improves construction efficiency, and reduces costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of building structure connecting devices, its structure includes outer connecting plate and inner connecting plate, the outer connecting plate and inner connecting plate are parallelly arranged, further include hinged subassembly and connecting fixed subassembly: adjacent the outer connecting plate is vertically arranged, the hinged subassembly is located at adjacent outer connecting plate connecting place;The relative position between the outer connecting plate and inner connecting plate is movably arranged, several groups of connecting fixed subassembly are equipped between the outer connecting plate and inner connecting plate, adjacent the connecting fixed subassembly is parallelly arranged, the hinged subassembly includes lower connecting bolt hole, upper connecting bolt hole and plug bolt, a group of outer connecting plate side edge lower part between adjacent the outer connecting plate and lower connecting bolt hole fixedly connected, another group of outer connecting plate side edge upper part and upper connecting bolt hole fixedly connected, the lower connecting bolt hole and upper connecting bolt hole axis are same, and movably connected. The utility model belongs to the field of building equipment, specifically refers to a kind of building structure connecting device.
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Description

Technical Field

[0001] This utility model belongs to the field of building equipment, specifically referring to a building structure connection device. Background Technology

[0002] In the current construction field, wall construction methods typically differ between interior and exterior walls: exterior walls are mostly constructed using concrete pouring, leveraging the high strength of concrete to provide stable structural support for the building as a whole; while interior walls, used for spatial partitioning, are mostly constructed using brickwork. However, compared to concrete walls, brick walls have significant strength deficiencies.

[0003] To compensate for the insufficient strength of brick walls, existing technologies typically employ structural connection devices for reinforcement. However, current reinforcement devices on the market have several limitations: Firstly, traditional reinforcement devices are mostly fixed in size, unable to be flexibly adjusted according to the varying wall thicknesses required during construction. When wall thickness changes, different specifications of devices need to be replaced, increasing construction costs and reducing efficiency. Secondly, for corners in buildings, where adjacent walls are perpendicular, existing reinforcement devices struggle to effectively connect and reinforce corners, making these areas weak points in the wall structure and prone to instability. Furthermore, the installation process for some reinforcement devices is cumbersome, requiring specialized tools and complex procedures, hindering quick installation by construction workers and impacting the overall construction progress. Utility Model Content

[0004] The present invention mainly addresses the aforementioned technical problems.

[0005] To solve the above problems, the technical solution adopted by this utility model is as follows: The building structure connection device proposed by this utility model includes an outer connecting plate and an inner connecting plate, which are arranged in parallel, and also includes a hinge assembly and a connection fixing assembly.

[0006] The adjacent outer connecting plates are arranged vertically, and the hinge assembly is located at the connection point of the adjacent outer connecting plates;

[0007] The relative positions of the outer connecting plate and the inner connecting plate are movable, and a number of sets of connecting and fixing components are provided between the outer connecting plate and the inner connecting plate, with adjacent connecting and fixing components arranged in parallel.

[0008] Furthermore, the hinge assembly includes a lower connecting bolt hole, an upper connecting bolt hole, and a plug. The lower part of one set of outer connecting plates is fixedly connected to the lower connecting bolt hole, and the upper part of the other set of outer connecting plates is fixedly connected to the upper connecting bolt hole. The lower connecting bolt hole and the upper connecting bolt hole have the same axis and are movably connected.

[0009] Furthermore, the upper and lower ends of the plug are respectively connected to the lower connecting bolt hole and the upper connecting bolt hole in a plug-in engagement.

[0010] Furthermore, the connecting and fixing assembly includes a lower connecting strip and an upper connecting strip. The lower connecting strip is fixed to the bottom of the outer connecting plate near the inner connecting plate, and the upper connecting strip is fixed to the bottom of the inner connecting plate near the outer connecting plate. A slot is provided on the inner side of the lower connecting strip, and the upper connecting strip and the slot are connected in a plug-in engagement.

[0011] Furthermore, the connecting and fixing assembly also includes fixing screws, and the slot is provided with a plurality of screw holes evenly distributed therein, the screw holes penetrating the bottom of the lower connecting strip.

[0012] Furthermore, a connecting groove is provided through the upper connecting strip, and the axes of the connecting groove and several screw holes are arranged parallel to each other. The fixing screw passes through the connecting groove and the screw holes in sequence and is threadedly connected to the screw holes.

[0013] Furthermore, the cross-section of the connecting groove is designed as a T-shaped structure, with the upper width being greater than the upper width of the fixing screw and the lower width being equal to the lower narrow width of the fixing screw.

[0014] The beneficial effects of this utility model by adopting the above structure are as follows:

[0015] 1. The building structure connection device proposed in this solution, by setting up connection and fixing components, utilizes the slot on the lower connecting strip and the insertion and extraction of the upper connecting strip to achieve flexible adjustment of the distance between the outer connecting plate and the inner connecting plate. It can adapt to the reinforcement needs of walls of different thicknesses, without the need to replace the device with different specifications, thus reducing construction costs and improving construction efficiency.

[0016] 2. The building structure connection device proposed in this solution, with the help of the hinge components, can achieve vertical connection of adjacent outer connection plates at the corner through the cooperation of the lower connection bolt hole, the upper connection bolt hole and the plug. Moreover, the tilt angle between adjacent outer connection plates can be rotated according to the bending angle of the wall corner to ensure effective reinforcement of the corner and enhance the structural stability of the wall corner.

[0017] 3. The building structure connection device proposed in this solution has a simple overall structure. The components are installed and fixed by plugging and threading. It is easy to operate and allows construction personnel to complete the installation work quickly, which helps to speed up the construction progress. Attached Figure Description

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

[0019] Figure 2 This is an enlarged schematic diagram of the first partial structure of this utility model;

[0020] Figure 3 This is an enlarged schematic diagram of the second partial structure of this utility model;

[0021] Figure 4 This is a partial cross-sectional schematic diagram of the present invention.

[0022] Among them, 1. outer connecting plate, 2. inner connecting plate, 3. hinge assembly, 301. lower connecting bolt hole, 302. upper connecting bolt hole, 303. plug, 4. connecting and fixing assembly, 401. lower connecting strip, 402. upper connecting strip, 403. slot, 404. fixing screw, 405. screw hole, 406. connecting groove.

[0023] The accompanying drawings are provided to further understand the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention and do not constitute a limitation thereof. Detailed Implementation

[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.

[0025] like Figure 1-4 As shown, the present invention proposes a building structure connection device, including an outer connecting plate 1 and an inner connecting plate 2, which are arranged in parallel. It also includes a hinge assembly 3 and a connection fixing assembly 4: adjacent outer connecting plates 1 are arranged vertically, and the hinge assembly 3 is located at the connection between adjacent outer connecting plates 1; the relative position between the outer connecting plate 1 and the inner connecting plate 2 is movable, and a plurality of sets of connection fixing assemblies 4 are provided between the outer connecting plate 1 and the inner connecting plate 2, with adjacent connection fixing assemblies 4 arranged in parallel.

[0026] like Figure 1-4As shown, the hinge assembly 3 includes a lower connecting bolt hole 301, an upper connecting bolt hole 302, and a plug 303. The lower part of the side of one set of outer connecting plates 1 is fixed to the lower connecting bolt hole 301, and the upper part of the side of another set of outer connecting plates 1 is fixed to the upper connecting bolt hole 302. The lower connecting bolt hole 301 and the upper connecting bolt hole 302 have the same axis and are movably connected. The upper and lower ends of the plug 303 are respectively connected to the lower connecting bolt hole 301 and the upper connecting bolt hole 302 in a plugging and pulling engagement connection, which is used to quickly splice and fix adjacent outer connecting plates 1.

[0027] like Figure 1-3 As shown, the connecting and fixing assembly 4 includes a lower connecting strip 401 and an upper connecting strip 402. The lower connecting strip 401 is fixed to the bottom of the outer connecting plate 1 near the inner connecting plate 2, and the upper connecting strip 402 is fixed to the bottom of the inner connecting plate 2 near the outer connecting plate 1. A slot 403 is provided on the inner side of the lower connecting strip 401. The upper connecting strip 402 and the slot 403 are connected by a plug-in engagement. The connecting and fixing assembly 4 also includes a fixing screw 404. A plurality of screw holes 405 are evenly provided in the slot 403. The screw holes 405 penetrate the bottom of the lower connecting strip 401. A connecting groove 406 is provided in the upper connecting strip 402. The axes of the connecting groove 406 and the plurality of screw holes 405 are arranged parallel to each other. The fixing screw 404 passes through the connecting groove 406 and the screw holes 405 in sequence and is threadedly connected to the screw holes 405. The cross-section of the connecting groove 406 is designed as a T-shaped structure, and the width of the upper end is greater than the width of the upper wide part of the fixing screw 404, and the width of the lower end is equal to the width of the narrow part of the lower end of the fixing screw 404.

[0028] In practical use, place the outer connecting plate 1 and the inner connecting plate 2 at the surface of the wall to be built indoors. Pull the inner connecting plate 2 according to the wall thickness. At this time, the upper connecting strip 402 slides along the slot 403 until the distance between the outer connecting plate 1 and the inner connecting plate 2 reaches the required distance. Use the fixing screw 404 to pass through the connecting groove 406 and the screw hole 405 in sequence to complete the connection between the upper connecting strip 402 and the lower connecting strip 401, and fix the outer connecting plate 1 on the ground. Then, spread mud and sand between the outer connecting plate 1 and the inner connecting plate 2, and lay the bricks to be built between the outer connecting plate 1 and the inner connecting plate 2 in sequence. The strength of the constructed wall can be increased through a simple mechanism, and it can be quickly adjusted according to different wall thicknesses.

[0029] At the corner of the wall, first insert the plug 303 into the lower connecting plug hole 301, align the lower connecting plug hole 301 and the upper connecting plug hole 302 of the adjacent outer connecting plate 1, and plug and unplug the upper connecting plug hole 302 and the plug 303. Rotate the tilt angle between the adjacent outer connecting plates 1 according to the bending angle of the wall corner, and repeat the above adjustment steps of the outer connecting plate 1 and the inner connecting plate 2 to facilitate the reinforcement of the wall at different angles.

[0030] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the inventive spirit of the present invention, such designs should fall within the protection scope of the present invention.

Claims

1. A building structure connection device, comprising an outer connecting plate (1) and an inner connecting plate (2), wherein the outer connecting plate (1) and the inner connecting plate (2) are arranged in parallel, characterized in that, It also includes a hinge assembly (3) and a connection and fixing assembly (4): The adjacent outer connecting plates (1) are arranged vertically, and the hinge assembly (3) is located at the connection between the adjacent outer connecting plates (1); The relative positions of the outer connecting plate (1) and the inner connecting plate (2) are movable, and a number of connecting and fixing components (4) are provided between the outer connecting plate (1) and the inner connecting plate (2), and adjacent connecting and fixing components (4) are arranged in parallel.

2. The building structure connection device according to claim 1, characterized in that: The hinge assembly (3) includes a lower connecting bolt hole (301), an upper connecting bolt hole (302), and a plug (303). The lower side of one set of outer connecting plates (1) adjacent to the outer connecting plates (1) is fixedly connected to the lower connecting bolt hole (301), and the upper side of another set of outer connecting plates (1) is fixedly connected to the upper connecting bolt hole (302). The lower connecting bolt hole (301) and the upper connecting bolt hole (302) have the same axis and are movably connected.

3. A building structure connection device according to claim 2, characterized in that: The upper and lower ends of the plug (303) are respectively connected to the lower connecting bolt hole (301) and the upper connecting bolt hole (302) in a plug-in and pull-out engagement.

4. A building structure connection device according to claim 1, characterized in that: The connecting and fixing assembly (4) includes a lower connecting strip (401) and an upper connecting strip (402). The lower connecting strip (401) is fixed to the bottom of the outer connecting plate (1) near the inner connecting plate (2). The upper connecting strip (402) is fixed to the bottom of the inner connecting plate (2) near the outer connecting plate (1). A slot (403) is provided on the inner side of the lower connecting strip (401). The upper connecting strip (402) and the slot (403) are connected by a plug-in engagement.

5. A building structure connection device according to claim 4, characterized in that: The connecting and fixing assembly (4) also includes fixing screws (404), and a plurality of screw holes (405) are evenly provided in the slot (403), and the screw holes (405) penetrate through the bottom of the lower connecting strip (401).

6. A building structure connection device according to claim 5, characterized in that: The upper connecting strip (402) is provided with a connecting groove (406) that runs through it. The axes of the connecting groove (406) and a plurality of screw holes (405) are arranged in parallel. The fixing screw (404) runs through the connecting groove (406) and the screw holes (405) in sequence and is threadedly connected to the screw holes (405).

7. A building structure connection device according to claim 6, characterized in that: The cross-section of the connecting groove (406) is designed as a T-shaped structure, and the upper width is greater than the upper width of the fixing screw (404), and the lower width is equal to the lower narrow width of the fixing screw (404).