A supporting assembly for mounting of a corner of an insulation board

By combining reinforcing plates and clamping components, and utilizing the cooperation of curved copper rods and springs, the problem of easy loosening of the external corners of the insulation board is solved, achieving a stable connection and precise control of clamping force, adapting to the installation of insulation boards of different thicknesses and angles.

CN224478749UActive Publication Date: 2026-07-10SINTSZYAN TRANSPORTEJSHN KONSTRAKSHN GRUP KO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SINTSZYAN TRANSPORTEJSHN KONSTRAKSHN GRUP KO LTD
Filing Date
2025-08-19
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

The installation of existing insulation boards at external corners is prone to uneven force, resulting in weak reinforcement. After long-term use, they are prone to loosening, and the clamping force cannot be adjusted according to actual needs, affecting the insulation effect and structural stability.

Method used

The system employs a support assembly that includes a reinforcing plate, auxiliary components, and a pressure-fixing component. The auxiliary components are initially fixed by an arc-shaped copper rod, while the pressure-fixing component achieves a tight fit through the cooperation of an arc-shaped spring and a sliding rod. Combined with a pressure-adjusting component, the clamping force is precisely controlled to adapt to insulation boards of different thicknesses and angles.

Benefits of technology

It achieves a stable connection at the external corner of the insulation board, preventing loosening, adapting to most building external corner scenarios, and can precisely adjust the clamping force, improving the insulation effect and structural stability.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224478749U_ABST
    Figure CN224478749U_ABST
Patent Text Reader

Abstract

This utility model relates to the field of corner reinforcement technology, and more particularly to a support assembly for installing external corners of insulation boards. The support assembly includes two reinforcement plates connected by a rotating shaft; a clamping component is installed between the two reinforcement plates. The support assembly provides dual fixation through an auxiliary component and a clamping component: the arc-shaped copper rod of the auxiliary component uses its own tension to initially adhere the two reinforcement plates to the insulation board, completing the pre-positioning; the arc-shaped spring of the clamping component further compresses the plate with its elastic force, and, in conjunction with the sliding cooperation of the arc-shaped sliding rod and the arc-shaped sliding cavity, ensures a tight fit between the reinforcement plate and the insulation board, preventing loosening. Furthermore, by rotating the rotating disk, the sliding plate is compressed or stretched by the arc-shaped spring, achieving precise control of the clamping force, which can adapt to the reinforcement needs of insulation boards of different thicknesses.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of corner reinforcement technology, and in particular to a support component for installing external corners of insulation boards. Background Technology

[0002] In building construction, the external corner of an insulation board (i.e., the outer corner formed by the perpendicular intersection of two insulation boards) is a critical part of structural stability and insulation performance. Its installation quality directly affects the overall insulation effect and resistance to external impacts of the building. Currently, most existing insulation board external corners rely on single clips or bolts for tightening, which can easily lead to uneven force and weak reinforcement. After long-term use, they are prone to loosening and warping, affecting the integrity of the insulation board. At the same time, the tightening force cannot be adjusted according to actual needs, making it difficult to adjust. If it is too loose, it will easily loosen; if it is too tight, it may squeeze the insulation board and cause deformation.

[0003] Therefore, it is necessary to provide a new support component for installing insulation boards at external corners to solve the above-mentioned technical problems. Utility Model Content

[0004] To solve the above-mentioned technical problems, this utility model provides a support component for installing insulation board at the external corner.

[0005] The insulation board external corner installation support assembly provided by this utility model includes a reinforcing plate, wherein two reinforcing plates are provided and the two reinforcing plates are rotatably connected by a rotating shaft;

[0006] A clamping component is installed between the two reinforcing plates, and the clamping component includes two T-shaped inserts. The two T-shaped inserts are respectively inserted into the T-shaped grooves opened in the two reinforcing plates and are slidably connected to the T-shaped grooves. Two vertically distributed arc-shaped steel rods are installed between the two T-shaped inserts, and arc-shaped sliding cavities are opened at both ends of the arc-shaped steel rods and are coaxially arranged with the arc-shaped steel rods. An arc-shaped sliding rod is inserted into each arc-shaped sliding cavity and is slidably connected. One end of the arc-shaped sliding rod extends out of the arc-shaped sliding cavity and is fixedly connected to the T-shaped insert. Two symmetrically distributed and slidably connected sliding plates are mounted on the two arc-shaped steel rods. Two symmetrically distributed arc-shaped springs are sleeved on each arc-shaped steel rod, and a pressure adjusting component for adjusting the elasticity of the arc-shaped springs is mounted on the two arc-shaped steel rods.

[0007] Preferably, the pressure regulating component includes a mounting bracket, which is fixedly installed in the middle of two arc-shaped steel rods. A rotatably connected threaded rod is installed on the mounting bracket, and a threaded seat with a threaded connection is sleeved on the threaded rod. Rotatably connected outer support plates are installed on both sides of the threaded seat, and the other end of the outer support plate is rotatably connected to the outer wall of the corresponding sliding plate.

[0008] Preferably, a limiting rod is fixedly installed on the mounting bracket, and the limiting rod passes through a through hole in the threaded seat and is slidably connected to the through hole. A rotating disk is fixedly installed on the head of the threaded rod.

[0009] Preferably, one end of the arc-shaped spring is fixedly connected to the outer wall of the T-shaped insert plate, and the other end of the arc-shaped spring is fixedly connected to the inner wall of the corresponding sliding plate.

[0010] Preferably, the two reinforcing plates are also equipped with auxiliary components, and the auxiliary components include insertion rods. Two insertion rods are provided, and multiple arc-shaped copper rods distributed vertically and horizontally are fixedly installed between the two insertion rods.

[0011] Preferably, both reinforcing plates are provided with insertion slots that match the arc-shaped copper rod.

[0012] Preferably, both the arc-shaped steel rod and the arc-shaped copper rod have annular opening structures with an opening angle of 80-90°, and the inner diameter of the arc-shaped steel rod is larger than the inner diameter of the arc-shaped copper rod.

[0013] Compared with related technologies, the support assembly for installing insulation board at the external corner provided by this utility model has the following advantages:

[0014] This invention achieves dual fixation through auxiliary components and pressure-fixing components: the arc-shaped copper rod of the auxiliary component uses its own tension to drive the two reinforcing plates to initially adhere to the insulation board, completing the pre-positioning; the arc-shaped spring of the pressure-fixing component further compresses through elasticity, and in conjunction with the sliding cooperation of the arc-shaped sliding rod and the arc-shaped sliding cavity, ensures that the reinforcing plate and the insulation board are tightly fitted and prevents loosening. By rotating the rotating disk, the sliding plate is driven to compress or stretch the arc-shaped spring, achieving precise control of the clamping force, which can adapt to the reinforcement needs of insulation boards of different thicknesses. Since both the arc-shaped steel rod and the arc-shaped copper rod are open ring structures, in conjunction with the sliding of the arc-shaped sliding rod in the arc-shaped sliding cavity, they can be flexibly adjusted according to the slight differences in the external angle of the insulation board, and can be adapted to most building external corner scenarios without replacing components. Attached Figure Description

[0015] Figure 1 A schematic diagram of a preferred embodiment of the support assembly for installing the external corner of the insulation board provided by this utility model;

[0016] Figure 2 for Figure 1 The diagram shows a top view of the structure.

[0017] Figure 3 for Figure 1 The diagram shows the structure of the reinforcing plate.

[0018] Figure 4 for Figure 1 The diagram shows the structure of the auxiliary component.

[0019] Figure 5 for Figure 1 The diagram shows the structural schematic of the clamping component.

[0020] Figure 6 for Figure 2 The diagram shows the structure of the clamping component.

[0021] The following are the labeling elements in the diagram: 1. Reinforcing plate; 1a. Insertion slot; 1b. T-slot; 2. Auxiliary component; 21. Insertion rod; 22. Arc-shaped copper rod; 3. Pressure fixing component; 31. T-shaped insert plate; 32. Arc-shaped steel rod; 32a. Arc-shaped sliding cavity; 321. Arc-shaped sliding rod; 33. Sliding plate; 34. Arc-shaped spring; 35. Pressure adjusting component; 351. Mounting bracket; 352. Threaded rod; 353. Rotating disc; 354. Threaded seat; 355. Outer support plate; 356. Limiting rod. Detailed Implementation

[0022] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.

[0023] The specific implementation of this utility model will be described in detail below with reference to specific embodiments.

[0024] Please see Figures 1 to 6 This utility model provides a support assembly for installing the external corner of an insulation board, which includes a reinforcing plate 1, an auxiliary component 2, and a pressing component 3.

[0025] In the embodiments of this utility model, please refer to Figures 1 to 6 Two reinforcing plates 1 are provided, and the two reinforcing plates 1 are rotatably connected by a rotating shaft. An auxiliary component 2 is installed on the two reinforcing plates 1, and the auxiliary component 2 includes an insertion rod 21. Two insertion rods 21 are provided, and multiple arc-shaped copper rods 22 distributed vertically and vertically are fixedly installed between the two insertion rods 21. Insertion slots 1a that match the arc-shaped copper rods 22 are opened on both reinforcing plates 1.

[0026] It is worth noting that in this application, both the arc-shaped steel rod 32 and the arc-shaped copper rod 22 are annular opening structures with an opening angle of 80-90°. Specifically, when the external angle of the insulation board is 90° (with an error of ±3°), the opening angle of the arc-shaped copper rod 22 is preferably 80°, while the opening angle of the arc-shaped steel rod 32 is preferably 85°.

[0027] In addition, if the external angle of the insulation board is greater than or less than 90° (with an error of ±3°), the opening angle of the arc-shaped steel rod 32 and the arc-shaped copper rod 22 shall be designed by the technicians according to the actual situation. This application will not elaborate on this situation.

[0028] It should be noted that before reinforcing the external corner of the insulation board, two insertion rods 21 are inserted into the two insertion slots 1a respectively, so that under the action of the arc-shaped copper rod 22, the two reinforcing plates 1 are driven to form an L-shaped structure with an included angle of less than 90°. Then, the two reinforcing plates 1 are opened so that the opening angle is greater than 90°, and the two reinforcing plates 1 are attached to the outer wall of the two insulation boards. Since the opening angle of the arc-shaped copper rod 22 is preferably 80°, under the action of the tension of the arc-shaped copper rod 22, the two reinforcing plates 1 can be initially and stably attached to the insulation board.

[0029] In the embodiments of this utility model, please refer to Figures 1 to 6 A clamping component 3 is installed between the two reinforcing plates 1, and the clamping component 3 includes a T-shaped insert plate 31. Two T-shaped insert plates 31 are provided, and the two T-shaped insert plates 31 are respectively inserted into the T-shaped grooves 1b opened in the two reinforcing plates 1 and slidably connected to the T-shaped grooves 1b. Two vertically distributed arc-shaped steel rods 32 are installed between the two T-shaped insert plates 31, and each end of the arc-shaped steel rod 32 is provided with an arc-shaped sliding cavity 32a coaxially arranged with the arc-shaped steel rod 32. Each arc-shaped sliding cavity 32a is fitted with an arc-shaped sliding rod 321 that is slidably connected. One end of the arc-shaped sliding rod 321 extends out of the arc-shaped sliding cavity 32a and is fixedly connected to the T-shaped insert plate 31. Two symmetrically distributed and slidably connected sliding plates 33 are mounted on the two arc-shaped steel rods 32. Two symmetrically distributed arc-shaped springs 34 are fitted on each arc-shaped steel rod 32. A pressure adjusting component 35 for adjusting the elastic force of the arc-shaped springs 34 is mounted on the two arc-shaped steel rods 32.

[0030] The pressure regulating component 35 includes a mounting bracket 351, which is fixedly installed in the middle of two arc-shaped steel rods 32. A rotatably connected threaded rod 352 is mounted on the mounting bracket 351. A threaded seat 354 is fitted on the threaded rod 352, and rotatably connected outer support plates 355 are installed on both sides of the threaded seat 354. The other end of the outer support plate 355 is rotatably connected to the outer wall of the corresponding sliding plate 33. A limit rod 356 is fixedly installed on the mounting bracket 351, and the limit rod 356 passes through the through hole opened in the threaded seat 354 and is slidably connected to the through hole. A rotating disk 353 is fixedly installed on the head of the threaded rod 352.

[0031] It should be noted that: before installing the clamping component 3, rotating the rotating disk 353 drives the threaded seat 354 to slide outward along the threaded rod 352, so that the threaded seat 354 slides outward along the threaded rod 352. Therefore, the outer support plate 355 pulls the sliding plates 33 on both sides to slide towards each other along the arc-shaped steel rod 32 until the two T-shaped inserts 31 connected by the arc-shaped slide rod 321 can be inserted into the T-shaped groove 1b. Then, the two T-shaped inserts 31 are inserted into the T-shaped groove 1b opened by the two reinforcing plates 1.

[0032] After the installation of the clamping component 3 is completed, the counter-rotating disc 353 drives the threaded seat 354 to slide inward along the threaded rod 352. As a result, the outer support plate 355 pushes the sliding plates 33 on both sides to slide in opposite directions along the arc-shaped steel rod 32. As the outer support plate 355 continues to slide outward, the elastic compression force of the arc-shaped spring 34 gradually increases. Therefore, the arc-shaped sliding rod 321 can slide outward along the arc-shaped sliding cavity 32a and firmly abut against the reinforcing plate 1 through the T-shaped insert plate 31, driving the reinforcing plate 1 to be firmly pressed against the outer wall of the external corner of the insulation board.

[0033] In this application, dual fixing is achieved through auxiliary component 2 and pressing component 3: the arc-shaped copper rod 22 of auxiliary component 2 uses its own tension to drive the two reinforcing plates 1 to initially adhere to the insulation board, completing the pre-positioning; the arc-shaped spring 34 of pressing component 3 further presses with elastic force, and with the sliding cooperation of arc-shaped sliding rod 321 and arc-shaped sliding cavity 32a, it ensures that the reinforcing plate 1 and the insulation board are tightly attached and avoids loosening. By rotating the rotating disk 353, the sliding plate 33 is driven to compress or stretch the arc-shaped spring 34, so as to achieve precise control of the pressing force, which can adapt to the reinforcement needs of insulation boards of different thicknesses. Since both the arc-shaped steel rod 32 and the arc-shaped copper rod 22 are open ring structures, with the sliding of the arc-shaped sliding rod 321 in the arc-shaped sliding cavity 32a, it can be flexibly adjusted according to the slight difference in the angle of the external corner of the insulation board, and can be adapted to most building external corner scenarios without replacing components.

[0034] The surface of the arc-shaped slide bar 321 and / or the inner wall of the arc-shaped slide cavity 32a are coated with a low-friction coefficient material (such as Teflon coating) or a self-lubricating bushing is embedded, thereby significantly reducing sliding friction, ensuring smooth adjustment, improving response speed, reducing wear, and extending service life.

[0035] Furthermore, the inner diameter of the arc-shaped steel rod 32 is larger than the inner diameter of the arc-shaped copper rod 22, so that the clamping component 3 is located outside the auxiliary component 2.

[0036] The working principle of the insulation board corner mounting support assembly provided by this utility model is as follows:

[0037] Before reinforcing the external corner of the insulation board, two insertion rods 21 are pre-inserted into the two insertion slots 1a, respectively. Under the action of the arc-shaped copper rod 22, the two reinforcing plates 1 are driven to form an L-shaped structure with an included angle of less than 90°. Then, the two reinforcing plates 1 are opened to an opening angle of more than 90° and then attached to the outer wall of the two insulation boards. Since the opening angle of the arc-shaped copper rod 22 is preferably 80°, under the tension of the arc-shaped copper rod 22, the two reinforcing plates 1 are initially and stably attached to the insulation board. Then, the rotating disk 353 drives the threaded seat 354 to slide outward along the threaded rod 352. Therefore, the outer support plate 355 pulls the sliding plates on both sides. 33 slides along the arc-shaped steel rod 32 towards each other until the two T-shaped inserts 31 connected by the arc-shaped slide rod 321 can be inserted into the T-shaped groove 1b. Then, the two T-shaped inserts 31 are inserted into the T-shaped groove 1b opened by the two reinforcing plates 1. After the installation of the clamping component 3 is completed, the counter-rotating disc 353 drives the threaded seat 354 to slide inward along the threaded rod 352. Therefore, the outer support plate 355 pushes the sliding plates 33 on both sides outward to slide in opposite directions along the arc-shaped steel rod 32. As the outer support plate 355 continues to slide outward, the elastic compression force of the arc-shaped spring 34 gradually increases. Therefore, the arc-shaped slide rod 321 can slide outward along the arc-shaped sliding cavity 32a and firmly abut against the reinforcing plate 1 through the T-shaped inserts 31, driving the reinforcing plate 1 to be firmly pressed against the outer wall of the external corner of the insulation board.

[0038] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the content of this utility model specification and drawings, 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 support assembly for installing a heat insulation board at a positive corner, comprising a reinforcing plate (1), wherein two reinforcing plates (1) are provided, and the two reinforcing plates (1) are rotatably connected by a rotating shaft, characterized in that: A clamping component (3) is installed between the two reinforcing plates (1), and the clamping component (3) includes a T-shaped insert plate (31). Two T-shaped insert plates (31) are provided, and the two T-shaped insert plates (31) are respectively inserted into the T-shaped grooves (1b) opened on the two reinforcing plates (1) and slidably connected to the T-shaped grooves (1b). Two arc-shaped steel rods (32) distributed vertically are installed between the two T-shaped insert plates (31), and arc-shaped sliding cavities (32a) are opened at both ends of the arc-shaped steel rods (32) and are coaxially arranged with the arc-shaped steel rods (32). Each of the arc-shaped sliding cavities (32a) is fitted with an arc-shaped sliding rod (321) that is slidably connected. One end of the arc-shaped sliding rod (321) extends out of the arc-shaped sliding cavity (32a) and is fixedly connected to the T-shaped insert plate (31). Two symmetrically distributed and slidably connected sliding plates (33) are mounted on the two arc-shaped steel rods (32). Two symmetrically distributed arc-shaped springs (34) are fitted on each of the arc-shaped steel rods (32). A pressure adjusting component (35) for adjusting the elastic force of the arc-shaped springs (34) is mounted on the two arc-shaped steel rods (32).

2. The support assembly for installing the external corner of the insulation board according to claim 1, characterized in that, The pressure regulating component (35) includes a mounting bracket (351), which is fixedly installed in the middle of two arc-shaped steel rods (32). A rotatably connected threaded rod (352) is installed on the mounting bracket (351). A threaded seat (354) is sleeved on the threaded rod (352). Rotatably connected outer support plates (355) are installed on both sides of the threaded seat (354). The other end of the outer support plate (355) is rotatably connected to the outer wall of the corresponding sliding plate (33).

3. The support assembly for installing the external corner of the insulation board according to claim 2, characterized in that, A limiting rod (356) is fixedly installed on the mounting bracket (351), and the limiting rod (356) passes through the through hole opened in the threaded seat (354) and is slidably connected to the through hole. A rotating disk (353) is fixedly installed on the head of the threaded rod (352).

4. The support assembly for installing the external corner of the insulation board according to claim 1, characterized in that, One end of the arc spring (34) is fixedly connected to the outer wall of the T-shaped insert plate (31), and the other end of the arc spring (34) is fixedly connected to the inner wall of the corresponding sliding plate (33).

5. The support assembly for installing the external corner of the insulation board according to claim 1, characterized in that, Auxiliary components (2) are also installed on the two reinforcing plates (1), and the auxiliary components (2) include insertion rods (21). Two insertion rods (21) are provided, and multiple arc-shaped copper rods (22) distributed vertically and horizontally are fixedly installed between the two insertion rods (21).

6. The support assembly for installing the external corner of the insulation board according to claim 5, characterized in that, Both of the reinforcing plates (1) are provided with insertion slots (1a) that match the arc-shaped copper rod (22).

7. The support assembly for installing the external corner of the insulation board according to claim 5, characterized in that, Both the arc-shaped steel rod (32) and the arc-shaped copper rod (22) are ring-shaped open structures with an opening angle of 80-90°. The inner diameter of the arc-shaped steel rod (32) is larger than the inner diameter of the arc-shaped copper rod (22).