An environmentally friendly GRC panel fixing structure

By setting up a cross-interlocking hanging structure and adjustment components between the environmentally friendly GRC panel and the fixed frame, the problem of high installation difficulty of the environmentally friendly GRC panel is solved, realizing simple installation and minor adjustments, improving installation efficiency, and facilitating the maintenance of building facades.

CN224431892UActive Publication Date: 2026-06-30WUXI HENGSHANG DECORATION ENG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUXI HENGSHANG DECORATION ENG CO LTD
Filing Date
2025-05-20
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The installation of existing environmentally friendly GRC panels is difficult and inefficient, especially when the function needs to be adjusted, which increases the installation difficulty and makes it inconvenient for the maintenance of the building facade.

Method used

The environmentally friendly GRC panel is fixed to the fixed frame using a hanging structure. By interlocking the first and second hanging parts and setting adjustment components in between, minor adjustments can be made, simplifying the installation process.

Benefits of technology

It reduces the difficulty of installing environmentally friendly GRC panels, improves installation efficiency, and has a micro-adjustment function, making it convenient for the maintenance of building facades.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention proposes an environmentally friendly GRC panel fixing structure, including a fixed frame and a woven panel. The woven panel is mounted on the fixed frame using a hanging structure. The hanging structure includes a first hanging member and a second hanging member. One end of the first hanging member is fixed to the fixed frame, and one end of the second hanging member is fixed to the woven panel. The other ends of the first and second hanging members interlock. An adjustment component is provided between the first and second hanging members. This invention uses a hanging structure consisting of the first and second hanging members, positioned between the fixed frame and the woven panel, to mount the woven panel onto the fixed frame. The first and second hanging members interlock, and the adjustment component between them allows for slight adjustment of the vertical spacing between the first and second hanging members, satisfying the need for easy installation of the woven panel on the fixed frame and thus achieving a facade combination effect of multiple woven panels.
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Description

Technical Field

[0001] This utility model relates to the field of building construction technology, and in particular to an environmentally friendly GRC panel fixing structure. Background Technology

[0002] Environmentally friendly GRC (Glass Fiber Reinforced Concrete) panels are a new type of building material that combines traditional GRC (Glass Fiber Reinforced Concrete) technology with environmental protection concepts. They can be used for exterior wall decoration or to complete architectural artistic shapes, forming a structure similar to a building curtain wall by being fixed to the exterior of the building. However, in current technology, most of the external structures are installed on the building's outer frame using screws and clamps to achieve the facade effect, which is difficult and inefficient. If additional adjustment functions are required, an adjustment frame must be added to the original fixed structure, further increasing the installation difficulty and also making it inconvenient for the maintenance of the building's exterior facade. Utility Model Content

[0003] The technical problem to be solved by this utility model is to overcome the defects of the existing technology. This utility model proposes an environmentally friendly GRC panel fixing structure, which can easily fix the environmentally friendly GRC panel to the external frame of the building and has the function of micro-adjustment, reducing the installation difficulty and improving the installation efficiency.

[0004] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: an environmentally friendly GRC panel fixing structure, including a fixing frame and a woven panel, wherein the woven panel is set on the fixing frame by a hanging structure; the hanging structure includes a first hanging member and a second hanging member, one end of the first hanging member is fixed to the fixing frame, one end of the second hanging member is fixed to the woven panel, the other ends of the first hanging member and the other ends of the second hanging member are cross-fitted, and an adjustment component is provided between the first hanging member and the second hanging member.

[0005] Furthermore, the first pendant includes a first fixing section and a first claw section and a first step section disposed at both ends of the first fixing section; the second pendant includes a second fixing section and a second claw section and a second step section disposed at both ends of the second fixing section, wherein the first step section is embedded inside the second claw section and the second step section is embedded inside the first claw section.

[0006] Furthermore, a first protrusion is provided at the end of the first claw segment facing the side of the second step segment, and the first protrusion abuts against the outer side of the second step segment; a second protrusion is provided at the end of the second claw segment facing the side of the first step segment, and the second protrusion abuts against the outer side of the first step segment.

[0007] Furthermore, the adjustment component is disposed on at least one of the first claw segment or the second claw segment, and the end of the adjustment component abuts against the outside of the second step segment and / or the first step segment.

[0008] Furthermore, a connecting section is provided on the first fixed section facing the fixed frame. The connecting section is perpendicular to the first fixed section and is fixedly connected to the angle steel located on the fixed frame.

[0009] Furthermore, it also includes a pad, which is disposed on the connecting section, and serrations are provided on both the pad and the connecting section on opposite sides.

[0010] Furthermore, the fixing frame includes a vertical frame and a horizontal frame, and the angle steel is fixedly installed on the side of the horizontal frame facing the woven panel.

[0011] Furthermore, a plurality of woven panels are provided along the height direction of the fixed frame, and adjacent woven panels are staggered.

[0012] Compared with the prior art, the beneficial effects of this utility model include: the woven panel is set on the fixed frame by a hanging structure consisting of a first hanging member and a second hanging member, which is set between the fixed frame and the woven panel; wherein the first hanging member and the second hanging member are interlocked, and an adjustment component is provided between the first hanging member and the second hanging member for fine adjustment of the vertical spacing between the first hanging member and the second hanging member, so as to meet the simple installation requirements of the woven panel on the fixed frame, thereby realizing the facade combination effect of multiple woven panels. Attached Figure Description

[0013] The disclosure of this utility model is illustrated with reference to the accompanying drawings. It should be understood that the drawings are for illustrative purposes only and are not intended to limit the scope of protection of this utility model. In the drawings, the same reference numerals are used to refer to the same parts. Wherein:

[0014] Figure 1 The schematic diagram shows the vertical section of the environmentally friendly GRC panel fixing structure;

[0015] Figure 2 The schematic diagram shows a plan view of the fixing structure for the environmentally friendly GRC panel;

[0016] Figure 3 The schematic diagram shows the separation structure of the first and second hangers.

[0017] Numbering in the diagram: 1-Fixed frame, 11-Vertical frame, 12-Horizontal frame, 2-Woven panel, 3-First hanger, 31-First fixed section, 32-First claw section, 33-First step section, 34-First protrusion, 35-Connecting section, 4-Second hanger, 41-Second fixed section, 42-Second claw section, 43-Second step section, 44-Second protrusion, 5-Adjusting component, 6-Angle steel, 7-Padded block. Detailed Implementation

[0018] It is readily understood that, based on the technical solution of this utility model, those skilled in the art can propose various interchangeable structural methods and implementations without altering the essential spirit of this utility model. Therefore, the following detailed embodiments and accompanying drawings are merely illustrative descriptions of the technical solution of this utility model and should not be considered as the entirety of this utility model or as limitations or restrictions on the technical solution of this utility model.

[0019] An environmentally friendly GRC panel fixing structure, such as Figure 1 and Figure 2 As shown, the device includes a fixed frame 1 and a woven panel 2, wherein the woven panel 2 is mounted on the fixed frame 1 in a hanging structure. It should be understood that in this utility model, the cross-section of the woven panel 2 is an isosceles triangle structure, which is only for the purpose of clearly describing the implementation of this utility model and is not a limitation on the shape of the woven panel 2. In specific implementations, users can also set the woven panel 2 to a semi-circular, semi-elliptical or any other structure, and the combination and arrangement should be based on the facade effect of the woven panel 2.

[0020] like Figure 1 and Figure 3 As shown, the hanging structure includes a first hanging member 3 and a second hanging member 4. One end of the first hanging member 3 is fixed to the fixed frame 1, and one end of the second hanging member 4 is fixed to the woven panel 2. The other ends of the first hanging member 3 and the second hanging member 4 are cross-fitted together to lock the first hanging member 3 and the second hanging member 4 together. An adjustment component 5 is provided between the first hanging member 3 and the second hanging member 4 to adjust the distance between the first hanging member 3 and the second hanging member 4, thereby slightly adjusting the vertical distance of the woven panel 2 relative to the fixed frame 1.

[0021] The following combination Figure 1 as well as Figure 3The specific method of cross-fitting of the first pendant 3 and the second pendant 4 is described. The first pendant 3 includes a first fixing section 31 and a first claw section 32 and a first step section 33 disposed at both ends of the first fixing section 31. The second pendant 4 includes a second fixing section 41 and a second claw section 42 and a second step section 43 disposed at both ends of the second fixing section 41, wherein the first step section 33 is embedded inside the second claw section 42, and the second step section 43 is embedded inside the first claw section 32. By setting the first pendant 3 and the second pendant 4 to a cross-fitting manner, the second step 43 is embedded in the first claw segment 32. The first claw segment 32 can provide support for the second step 43 and embed the first step 33 in the second claw segment 42. The second claw segment 42 restricts the position of the first step 33, thereby achieving mutual locking between the first pendant 3 and the second pendant 4. This allows the woven panel 2 to be placed on the fixed frame 1. In this process, apart from fixing the first pendant 3 and the second pendant 4 to the fixed frame 1 and the woven panel 2 respectively, there is no need to use additional structures such as bolts to lock the two together.

[0022] like Figure 3 As shown, to ensure the stability of the aforementioned cross-fitting, a first protrusion 34 is provided at the end of the first claw segment 32 facing the second step segment 43, and the first protrusion 34 abuts against the outer side of the second step segment 43; and a second protrusion 44 is provided at the end of the second claw segment 42 facing the first step segment 33, and the second protrusion 44 abuts against the outer side of the first step segment 33. This ensures the stability of the engagement between the first hanging member 3 and the second hanging member 4 to a certain extent, and can maintain the setting angle of the woven panel 2 on the fixed frame 1 even when the two undergo relative vertical displacement, thus preventing the woven panel 2 from falling off the fixed frame 1.

[0023] The adjusting component 5 is described in detail below. The adjusting component 5 is disposed on at least one of the first claw segment 32 or the second claw segment 42, and the end of the adjusting component 5 abuts against the outer side of the second stepped segment 43 and / or the first stepped segment 33. Figure 1 For example, the adjusting component 5 is disposed on the second claw segment 42, and its lower end abuts against the outer side of the first stepped segment 33. Specifically, the adjusting component 5 is a bolt, which is disposed on the second claw segment 42 by threaded engagement with it. Figure 1At the position shown, the lower end face of the bolt is flush with the inner side of the second claw segment 42, meaning the inner side of the second claw segment 42 is in close contact with the outer side of the first stepped segment 33. When the bolt is further screwed into the second claw segment 42, the lower end of the bolt pushes the first stepped segment 33 vertically downwards. This means the first hanging member 3 is fixed relative to the fixed frame 1, while the second hanging member 4 moves a certain distance vertically upwards relative to the first hanging member 3. This movement distance is the same as the length of the bolt between the second claw segment 42 and the first stepped segment 33. An adjustment component 5 is provided on the first claw segment 32 to adjust the distance between the inner side of the first claw segment 32 and the outer side of the second stepped segment 43, as described in the aforementioned embodiment. The aforementioned adjustment component 5 can be provided on both the first claw segment 32 and the second claw segment 42.

[0024] It should be noted that the adjusting component 5 used in this utility model is a bolt, which is only for the purpose of clearly describing the implementation of this utility model and is not a limitation on the adjusting component 5. In specific implementations, the user can set the adjusting component 5 as a component with a certain length that can penetrate the first claw segment 32 or the second claw segment 42, and have the function of temporary suspension support. The length of the adjusting component 5 is not greater than the maximum height of the stepped segment, so as to prevent the adjusting component 5 from pushing the stepped segment out of the claw segment after reaching the limit position, thereby causing the locking method of the cross-fitting between the first hanging member 3 and the second hanging member 4 to fail.

[0025] like Figure 1 and Figure 2 As shown, a connecting section 35 is also provided on the first fixed section 31 facing the fixed frame 1. The connecting section 35 is perpendicular to the first fixed section 31 and is fixedly connected to the angle steel 6 located on the fixed frame 1. Regarding the connection method between the connecting section 35 and the angle steel 6, a pad 7 is also provided. The pad 7 is configured to cooperate with the connecting section 35. Serrations are provided on opposite sides of both the pad 7 and the connecting section 35. After the connecting section 35 and the pad 7 are pressed onto the angle steel 6 in sequence, the first hanger 3 is fixed onto the angle steel 6 by bolts passing through the pad 7, the connecting section 35, and the angle steel 6 from top to bottom. The meshing cooperation between the pad 7 and the connecting section 35 effectively prevents the lateral displacement of the first hanger 3. Figure 1 As shown, the vertical holes along the length of the pad 7 allow for slight adjustments to the lateral position of the woven panel 2 relative to the fixed frame 1.

[0026] The aforementioned fixed frame 1 includes a vertical frame 11 and a horizontal frame 12, with angle steel 6 fixedly installed on the side of the horizontal frame 12 facing the woven panel 2. Multiple woven panels 2 can be fixed together using multiple fixing structures vertically arranged along the fixed frame 1, thus achieving a specific facade effect. Figure 2 For example, the woven panels 2 all adopt a triangular structure. By staggering the upper and lower adjacent woven panels 2, the highest point of the upper woven panel 2 and the lowest point of the lower woven panel 2 are located in the same vertical position. Multiple woven panels 2 can be set in the same row of the fixed frame 1. A partition is set between adjacent woven panels 2. The length of the partition is less than the distance from the lowest point of the outer side of the woven panel 2 to the top of the fixed frame 1.

[0027] During installation, after assembling the fixed frame 1, multiple angle steels 6 are evenly spaced on the horizontal frame 12 that makes up the fixed frame 1. Then, the first hanger 3 is assembled and fixed on the aforementioned angle steels 6 with the pad 7, and the second hanger 4 is fixed on the back of the woven panel 2. After locking and fixing the aforementioned second hanger 4 with the first hanger 3 by cross-fitting, the adjustment component 5 is installed on the aforementioned first hanger 3 and / or second hanger 4. After installing multiple woven panels 2, the position of the woven panel 2 is slightly adjusted by adjusting the component 5 and the cooperation between the first hanger 3 and the pad 7 to achieve the effect of the building facade.

[0028] The technical scope of this utility model is not limited to the content described above. Those skilled in the art can make various modifications and variations to the above embodiments without departing from the technical concept of this utility model, and all such modifications and variations should fall within the protection scope of this utility model.

Claims

1. An environmentally friendly GRC panel fixing structure, characterized in that, It includes a fixed frame (1) and a woven panel (2), the woven panel (2) being mounted on the fixed frame (1) in a hanging structure; the hanging structure includes a first hanging member (3) and a second hanging member (4), one end of the first hanging member (3) being fixed on the fixed frame (1), one end of the second hanging member (4) being fixed on the woven panel (2), the other end of the first hanging member (3) and the other end of the second hanging member (4) being interlocked, and an adjustment component (5) being provided between the first hanging member (3) and the second hanging member (4).

2. The eco-friendly GRC panel fixing structure according to claim 1, wherein The first pendant (3) includes a first fixed section (31) and a first claw section (32) and a first step section (33) disposed at both ends of the first fixed section (31); the second pendant (4) includes a second fixed section (41) and a second claw section (42) and a second step section (43) disposed at both ends of the second fixed section (41), wherein the first step section (33) is embedded inside the second claw section (42) and the second step section (43) is embedded inside the first claw section (32).

3. The environmentally friendly GRC panel fixing structure according to claim 2, characterized in that, A first protrusion (34) is provided at the end of the first claw segment (32) facing the second step segment (43), and the first protrusion (34) abuts against the outer side of the second step segment (43); a second protrusion (44) is provided at the end of the second claw segment (42) facing the first step segment (33), and the second protrusion (44) abuts against the outer side of the first step segment (33).

4. The environmentally friendly GRC panel fixing structure according to claim 2, characterized in that, The adjustment component (5) is disposed on at least one of the first claw segment (32) or the second claw segment (42), and the end of the adjustment component (5) abuts against the outside of the second step segment (43) and / or the first step segment (33).

5. The environmentally friendly GRC panel fixing structure according to claim 2, wherein, A connecting section (35) is also provided on the first fixed section (31) facing the fixed frame (1). The connecting section (35) is perpendicular to the first fixed section (31) and is fixedly connected to the angle steel (6) located on the fixed frame (1).

6. The environmentally friendly GRC panel fixing structure according to claim 5, characterized in that, It also includes a pad (7), which is disposed on the connecting section (35), and teeth are provided on the opposite side of the pad (7) and the connecting section (35).

7. The environmentally friendly GRC panel fixing structure according to claim 6, characterized in that, The fixed frame (1) includes a vertical frame (11) and a horizontal frame (12), and the angle steel (6) is fixedly installed on the side of the horizontal frame (12) facing the woven panel (2).

8. The eco-friendly GRC panel fixing structure according to claim 1, wherein A plurality of woven panels (2) are provided along the height direction of the fixed frame (1), and adjacent woven panels (2) are staggered.