A thermal insulation and decorative integrated installation panel

By using aluminum alloy profiles and expansion nails for mechanical anchoring in the integrated insulation and decoration panel, combined with grouting adhesive and sealing tape, the problems of flatness, waterproofing and weight limitations in traditional construction are solved, achieving a safe, beautiful and convenient installation effect.

CN224478670UActive Publication Date: 2026-07-10DIARD ECO ENERGY SAVING TECH SHANGHAI

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DIARD ECO ENERGY SAVING TECH SHANGHAI
Filing Date
2025-07-29
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

The construction process of traditional integrated thermal insulation and decoration panels is complicated, requires high skill levels from workers, and is inadequate in terms of flatness, aesthetics of the joints, and waterproofing. In addition, the weight per unit area is limited, which hinders its development.

Method used

The aluminum alloy longitudinal king-shaped brackets and aluminum alloy transverse separators are installed on the base wall using stainless steel expansion nails. Combined with grouting adhesive and polyurethane pre-compression sealing strip, a mechanical anchoring-based installation method is used as the main method, supplemented by adhesive bonding. This solves the problems of waterproofing and aesthetics, and the panels are framed with profiles to reduce weight.

Benefits of technology

It achieves safe, beautiful and convenient installation of integrated thermal insulation and decoration panels, solves the problems of flatness and waterproofing, reduces the weight limit per unit area, and improves construction efficiency and aesthetics.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224478670U_ABST
Patent Text Reader

Abstract

This utility model belongs to the technical field of exterior wall insulation installation panels, specifically relating to an integrated insulation and decoration installation panel. It includes aluminum alloy longitudinal T-shaped brackets and aluminum alloy transverse partitions installed on the base wall. The longitudinal T-shaped brackets and transverse partitions are installed on the base wall using stainless steel expansion nails. An integrated insulation and decoration panel is fixed between the two longitudinal T-shaped brackets and the transverse partitions, and grouting adhesive is used to fill the gap between the integrated insulation and decoration panel and the base wall. This utility model truly achieves mechanical anchoring as the primary method, supplemented by adhesive bonding. It also provides waterproofing and aesthetically pleasing joint design through modular construction. By mechanically connecting the aluminum alloy components to the base wall using stainless steel expansion nails, the issues of waterproofing and aesthetics are solved, while the restriction that the integrated insulation and decoration panel should not exceed 20 kg per square meter is lifted, achieving safe, aesthetically pleasing, and convenient installation of the integrated insulation and decoration panel.
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Description

Technical Field

[0001] This utility model belongs to the technical field of external wall insulation installation panels, specifically relating to an integrated insulation and decoration installation panel. Background Technology

[0002] With the surge in demand for energy-efficient housing that is warm in winter and cool in summer, traditional thin-plaster exterior wall insulation systems are facing risks of large-scale cracking, water seepage, and even detachment. Coupled with the need to control real estate costs and increase construction labor costs, integrated insulation and decoration are increasingly being discussed. As a result, traditional thin-plaster systems are gradually being replaced by integrated insulation and decoration panels, driving the iterative upgrading of exterior wall insulation technology. However, like traditional thin-plaster systems, integrated insulation and decoration panels rely primarily on adhesive bonding with anchoring as a secondary method. Furthermore, since the surface finish of the integrated insulation and decoration panels is already completed, construction has become a bottleneck for their development. Existing integrated insulation and decoration panels are mostly fixed using adhesive bonding and fixed-point anchoring methods; the joints are filled with polyethylene foam rods and then sealed with sealant, a cumbersome process. Current procedures require a high level of worker skill. Issues such as flatness, the aesthetics of the sealant joints, waterproofing, and the weight per unit area of ​​the integrated insulation and decoration panel are significant factors restricting its development. Therefore, this utility model proposes an integrated insulation and decoration installation panel. Utility Model Content

[0003] The purpose of this utility model is to provide an integrated thermal insulation and decorative installation panel that truly achieves mechanical anchoring as the primary method and adhesive bonding as a secondary method. It also offers waterproofing and aesthetically pleasing panel joints through modular installation. By using stainless steel expansion nails to mechanically connect the aluminum alloy fittings to the base wall, the issues of waterproofing and aesthetics are resolved, while the restriction that the integrated thermal insulation and decorative panel should not exceed 20kg per square meter is lifted, achieving safe, aesthetically pleasing, and convenient installation.

[0004] The specific technical solution adopted by this utility model is as follows:

[0005] An integrated thermal insulation and decorative panel includes aluminum alloy longitudinal king-shaped members and aluminum alloy transverse partitions installed on a base wall. The aluminum alloy longitudinal king-shaped members and the aluminum alloy transverse partitions are installed on the base wall by stainless steel expansion nails. An integrated thermal insulation and decorative panel is fixed between two aluminum alloy longitudinal king-shaped members and aluminum alloy transverse partitions. Grouting adhesive is used to fill the space between the integrated thermal insulation and decorative panel and the base wall.

[0006] Preferably, the lower end of the integrated thermal insulation and decorative panel installed on the base wall is fitted with an aluminum alloy horizontal terminal bracket via stainless steel expansion nails.

[0007] Preferably, the aluminum alloy transverse separator, the integrated insulation and decoration panel, and the aluminum alloy longitudinal king-shaped component have a polyurethane pre-compression sealing strip at the contact surface to seal the connection.

[0008] Preferably, the aluminum alloy horizontal terminal support, the integrated insulation and decoration panel, and the aluminum alloy vertical king-shaped component have a polyurethane pre-compression sealing strip at the contact surface to seal the connection.

[0009] Preferably, the aluminum alloy longitudinal king-shaped component, the integrated insulation and decoration panel, other aluminum alloy longitudinal king-shaped components, and the contact surface of the connection position of the two aluminum alloy longitudinal king-shaped components are sealed with polyurethane pre-compression sealing strips.

[0010] Preferably, the protruding edge in the middle of the aluminum alloy longitudinal king-shaped component is located between the grouting adhesive and the contact surface of the integrated insulation and decoration panel, the bottom edge of the aluminum alloy longitudinal king-shaped component is located between the grouting adhesive and the contact surface of the base wall, and the outermost protruding edge of the aluminum alloy longitudinal king-shaped component is attached to the outer surface of the integrated insulation and decoration panel.

[0011] The technical effects achieved by this utility model are as follows:

[0012] This utility model truly achieves mechanical anchoring as the primary method, supplemented by adhesive bonding. It also offers waterproofing and aesthetically pleasing panel joints through modular construction. By using stainless steel expansion nails to mechanically connect the aluminum alloy fittings to the base wall, it solves the problems of waterproofing and aesthetics while removing the restriction that the integrated insulation and decorative panel should not exceed 20kg per square meter, thus achieving safe, beautiful, and convenient installation of the integrated insulation and decorative panel.

[0013] This invention, through the design and coordinated use of various profiles, improves upon traditional integrated insulation and decorative panels, overcoming issues such as high skill requirements for construction workers, flatness problems, aesthetic issues with adhesive joints, water resistance, and limitations on the unit area weight of the integrated insulation and decorative panels. The horizontal and vertical aluminum alloy profiles easily allow the integrated insulation and decorative panels to be installed on a single plane, achieving perfect flatness. Furthermore, the polyurethane pre-compression sealing strip solves the problem of water seepage between the profiles and the integrated insulation and decorative panels. Once the outer surface of the profiles is painted to the design color, no weather-resistant adhesive application is required later, reducing manual application and ensuring the aesthetics of the joints. The horizontal and vertical profiles simultaneously frame the integrated insulation and decorative panels, with backing grouting for reinforcement, significantly improving its safety. The framing of the integrated insulation and decorative panels by the horizontal and vertical profiles also eliminates weight restrictions. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the overall structure of an integrated thermal insulation and decorative installation panel installed on a base wall according to this utility model;

[0015] Figure 2This is a utility model Figure 1 Sectional view at point AA;

[0016] Figure 3 This is a utility model Figure 1 Sectional view at point BB;

[0017] Figure 4 This is a utility model Figure 1 Sectional view at CC;

[0018] Figure 5 This is a schematic diagram of the overall structure of the aluminum alloy transverse partition in this utility model;

[0019] Figure 6 This is a schematic diagram of the overall structure of the aluminum alloy transverse end support in this utility model;

[0020] Figure 7 This is a schematic diagram of the overall structure of the aluminum alloy longitudinal king-shaped component in this utility model;

[0021] Figure 8 This is a schematic diagram of the overall structure of the integrated thermal insulation and decorative panel of this utility model.

[0022] The attached diagram lists the components represented by each number as follows:

[0023] 1. Base wall; 2. Stainless steel expansion nails; 3. Aluminum alloy horizontal partitions; 4. Grouting adhesive; 5. Integrated insulation and decoration panel; 6. Aluminum alloy horizontal terminal brackets; 7. Aluminum alloy vertical king-shaped brackets. Detailed Implementation

[0024] To make the objectives and advantages of this utility model clearer, the following detailed description is provided in conjunction with embodiments. It should be understood that the following text is merely used to describe one or more specific embodiments of this utility model and does not strictly limit the scope of protection specifically claimed by this utility model.

[0025] like Figures 1-8 As shown, an integrated thermal insulation and decorative panel includes an aluminum alloy longitudinal king-shaped component 7 and an aluminum alloy transverse partition 3 installed on a base wall 1. The aluminum alloy longitudinal king-shaped component 7 and the aluminum alloy transverse partition 3 are installed on the base wall 1 by stainless steel expansion nails 2. An integrated thermal insulation and decorative panel 5 is fixed between the two aluminum alloy longitudinal king-shaped components 7 and the aluminum alloy transverse partition 3. The space between the integrated thermal insulation and decorative panel 5 and the base wall 1 is filled with grouting adhesive 4.

[0026] Preferably, the lower end of the integrated thermal insulation and decorative panel 5 installed on the base wall 1 is fitted with an aluminum alloy horizontal terminal bracket 6 via stainless steel expansion nails 2.

[0027] Preferably, at the contact surfaces of the aluminum alloy horizontal partition member 3 with the integrated thermal insulation and decoration panel 5 and the aluminum alloy vertical king-shaped member 7, there is a polyurethane pre-compressed sealing strip for sealing the connection.

[0028] In the present utility model, specifically, as Figure 5 shown, the aluminum alloy horizontal partition member 3; a special profile assembly for horizontal structural separation and functional integration in the external wall thermal insulation system, whose core function is to achieve load transfer and appearance grid control. At the contact surfaces of the profile with the integrated thermal insulation and decoration panel 5 and the aluminum alloy vertical king-shaped member 7, there is a polyurethane pre-compressed sealing strip for sealing the connection. The outer side surface of the profile is made according to the color of the designed separation joint to achieve the grid effect. The wall thickness is 2 mm.

[0029] Preferably, at the contact surfaces of the aluminum alloy horizontal terminal support member 6 with the integrated thermal insulation and decoration panel 5 and the aluminum alloy vertical king-shaped member 7, there is a polyurethane pre-compressed sealing strip for sealing the connection.

[0030] As Figure 6 shown, in the present utility model, the aluminum alloy horizontal terminal support member 6; a special profile assembly for terminal enclosure in the external wall thermal insulation system, whose core function is to achieve load transfer, terminal enclosure and appearance grid control according to the installation position. At the contact surfaces of the profile with the integrated thermal insulation and decoration panel 5 and the aluminum alloy vertical king-shaped member 7, there is a polyurethane pre-compressed sealing strip for sealing the connection. The outer side surface of the profile is made according to the color of the designed separation joint to achieve the grid effect. The wall thickness is 2 mm.

[0031] Preferably, at the contact surfaces of the aluminum alloy vertical king-shaped member 7 with the integrated thermal insulation and decoration panel 5, other aluminum alloy vertical king-shaped members 7, and the connection positions of the two aluminum alloy vertical king-shaped members 7, there is a polyurethane pre-compressed sealing strip for sealing the connection.

[0032] As Figure 7 shown, the aluminum alloy vertical king-shaped member 7; a special profile assembly for vertically fixing and stabilizing the structure in the external wall thermal insulation system, named as such because of its "king" shape. Its core function is to stabilize the left and right positioning of the integrated thermal insulation and decoration panel 5, stabilize the horizontal profiles and appearance grid control. At the contact surfaces of the profile with the integrated thermal insulation and decoration panel 5, the aluminum alloy vertical king-shaped member 7, and the connection positions of the two king-shaped members, there is a polyurethane pre-compressed sealing strip for sealing the connection. The outer side surface of the profile is made according to the color of the designed separation joint to achieve the grid effect. The wall thickness is 2 mm.

[0033] Preferably, the protruding edge in the middle of the aluminum alloy longitudinal king-shaped component 7 is located between the grouting adhesive 4 and the integrated insulation and decoration panel 5, the bottom edge of the aluminum alloy longitudinal king-shaped component 7 is located between the grouting adhesive 4 and the base wall 1, and the outermost protruding edge of the aluminum alloy longitudinal king-shaped component 7 is attached to the outer surface of the integrated insulation and decoration panel 5.

[0034] In this utility model, the integrated thermal insulation and decorative panel 5 is a composite material prefabricated in a factory, consisting of a panel with a decorative layer, an insulation board, or a backing material bonded together. The four sides of the panel are milled according to the width of the outer surface of the profile. For example... Figure 8 As shown,

[0035] In this utility model, the grouting adhesive 4 is as follows: Figure 8 As shown, grouting adhesive 4 is a highly fluid, non-shrink, and strong-adhesion composite bonding material specifically designed for filling, sealing, and reinforcing gaps in building components. It achieves dense filling through its self-flowing properties and forms a high-strength interface after hardening, providing both structural bonding and durable protection. The self-flowing grouting adhesive 4 ensures 100% bonding area.

[0036] like Figure 1-4 As shown, the installation process of this utility model is as follows: Drawings are refined, and an order for the integrated insulation and decoration panel 5 is placed according to the refined dimensions of the drawings. While producing the materials, the wall surface is marked with lines according to the drawings. The aluminum alloy longitudinal king-shaped bracket 7 and the aluminum alloy transverse terminal bracket 6 are installed using stainless steel expansion nails 2 according to the drawings, with the stainless steel expansion nails 2 driven into the wall to a depth of not less than 50mm.

[0037] The materials undergo composite processing and edge milling at the factory. After completion, they are packaged and transported to the site.

[0038] After the integrated insulation and decoration panel 5 arrives on site, construction is carried out. The integrated insulation and decoration panel 5 is inserted into the longitudinal king-shaped aluminum alloy member 7. The first integrated insulation and decoration panel 5 is inserted into the transverse terminal support member 6 of the aluminum alloy. The polyurethane pre-press sealing strip at the profile is torn open and the panel surface is compacted. After completion, grouting adhesive 4 is injected into the back of the integrated insulation and decoration panel 5.

[0039] After the grouting adhesive 4 is poured, install the aluminum alloy horizontal partition 3: remove the polyurethane pre-compression sealing strip on the aluminum alloy horizontal partition 3, press the integrated insulation and decoration panel 5 into the clips of the aluminum alloy horizontal partition 3, drill holes with an impact drill, and install the stainless steel expansion nails 2. Subsequent panel construction follows the same procedure.

[0040] The oblong holes on the profile are used to adjust the horizontality and verticality of the profile, while the round holes are used for positioning.

[0041] This invention, through the design and coordinated use of various profiles, improves upon traditional integrated insulation and decorative panels, addressing issues such as high skill requirements for construction workers, flatness problems, aesthetic issues with joint finishes, waterproofing limitations, and weight restrictions per unit area. The horizontal and vertical aluminum alloy profiles allow for easy installation of the integrated insulation and decorative panels on a single plane, achieving perfect flatness. Furthermore, the polyurethane pre-compression sealing strip solves the problem of water seepage between the profiles and the integrated insulation and decorative panels. Once the outer surface of the profiles is painted to the desired color, subsequent application of weather-resistant adhesive is unnecessary, reducing manual application and ensuring aesthetically pleasing joints. The horizontal and vertical profiles simultaneously frame the integrated insulation and decorative panels, with backing grouting for reinforcement, significantly enhancing safety. The framing of the integrated insulation and decorative panels by the horizontal and vertical profiles also eliminates weight restrictions.

[0042] The above description is merely a preferred embodiment of this utility model. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of this utility model, and these improvements and modifications should also be considered within the scope of protection of this utility model. Structures, devices, and operating methods not specifically described or explained in this utility model, unless otherwise specified or limited, shall be implemented using conventional methods in the field.

Claims

1. A thermal insulation and decorative integrated installation panel, characterized in that: It includes an aluminum alloy longitudinal king-shaped component (7) and an aluminum alloy transverse partition (3) installed on the base wall (1). The aluminum alloy longitudinal king-shaped component (7) and the aluminum alloy transverse partition (3) are installed on the base wall (1) by stainless steel expansion nails (2). A thermal insulation and decorative integrated panel (5) is fixed between the two aluminum alloy longitudinal king-shaped components (7) and the aluminum alloy transverse partition (3). Grouting adhesive (4) is filled between the thermal insulation and decorative integrated panel (5) and the base wall (1).

2. The integrated thermal insulation and decorative installation panel according to claim 1, characterized in that: The bottom end of the thermal insulation and decorative integrated panel (5) installed on the base wall (1) is fitted with an aluminum alloy horizontal terminal bracket (6) by stainless steel expansion nails (2).

3. The integrated thermal insulation and decorative installation panel according to claim 2, characterized in that: The aluminum alloy transverse separator (3) has a polyurethane pre-pressed sealing strip at the contact surface with the thermal insulation and decorative integrated panel (5) and the aluminum alloy longitudinal king-shaped component (7) to seal the connection.

4. The integrated thermal insulation and decorative installation panel according to claim 3, characterized in that: The aluminum alloy horizontal terminal support (6) has a polyurethane pre-pressed sealing strip at the contact surface with the thermal insulation and decoration integrated panel (5) and the aluminum alloy vertical king-shaped component (7) to seal the connection.

5. The integrated thermal insulation and decorative installation panel according to claim 4, characterized in that: The aluminum alloy longitudinal king-shaped component (7) and the integrated thermal insulation and decoration panel (5), other aluminum alloy longitudinal king-shaped components (7), and the contact surface of the two aluminum alloy longitudinal king-shaped components (7) are sealed with polyurethane pre-compression sealing strips.

6. The integrated thermal insulation and decorative installation panel according to claim 5, characterized in that: The protruding edge in the middle of the aluminum alloy longitudinal king-shaped component (7) is located between the grouting adhesive (4) and the thermal insulation and decorative integrated panel (5). The bottom edge of the aluminum alloy longitudinal king-shaped component (7) is located between the grouting adhesive (4) and the base wall (1). The outermost protruding edge of the aluminum alloy longitudinal king-shaped component (7) is attached to the outer surface of the thermal insulation and decorative integrated panel (5).