Transparent adhesive composite wall shield

The transparent adhesive composite wall shield solves the problem of aging of exterior wall tile coatings through the design of the interface layer, heat insulation layer and topcoat layer, achieving good thermal insulation and aging resistance, and ensuring the stability and safety of the tiles.

CN224338446UActive Publication Date: 2026-06-09SHANGHAI TIANBU MATERIAL TECH CO LTD +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI TIANBU MATERIAL TECH CO LTD
Filing Date
2025-05-27
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing building exterior wall tile coatings are prone to aging after exposure to wind, sun, and humid heat cycles, losing their waterproof and heat insulation effects, leading to tile detachment and posing a safety hazard.

Method used

The wall shield uses a transparent adhesive composite layer, which includes an interface layer, a heat insulation layer, and a topcoat layer. The heat insulation layer consists of a heat insulation base layer and a reinforcement layer, and the topcoat layer is composed of a rare earth topcoat layer. The aging resistance is improved through the plasma resonance effect.

Benefits of technology

It improves the thermal insulation and aging resistance of exterior wall tiles, prevents them from falling off, and enhances the stability and safety of the composite layer.

✦ Generated by Eureka AI based on patent content.

Smart Images

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Patent Text Reader

Abstract

The application discloses a transparent glue composite layer wall body shield, which comprises an interface layer arranged on the outer surface of a base ceramic tile, a heat insulation layer arranged on the surface of the interface layer away from the base ceramic tile, and a cover layer arranged on the surface of the heat insulation layer away from the interface layer, the heat insulation layer comprises a heat insulation bottom layer arranged on the surface of the interface layer away from the base ceramic tile and a first heat insulation reinforcing layer arranged on the surface of the heat insulation bottom layer away from the interface layer, and the cover layer comprises a first rare earth cover layer arranged on the surface of the first heat insulation reinforcing layer away from the heat insulation bottom layer. The application effectively solves the problem that the traditional coating is prone to aging and loses the waterproof and heat insulation effects.
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Description

Technical Field

[0001] This utility model relates to the field of building walls, and in particular to a transparent adhesive composite layer wall shield. Background Technology

[0002] The surface of building exterior wall tiles is usually coated with a coating to provide waterproofing and heat insulation. However, the traditional coatings used on exterior wall tiles are very prone to aging after a period of exposure to wind, sun and humidity, and heat cycles, which can cause the tiles to fall off easily after long-term thermal expansion and contraction, posing a great safety hazard. Utility Model Content

[0003] The purpose of this application is to provide a transparent adhesive composite layer wall shield to solve the problems existing in the prior art.

[0004] To achieve the above objectives, the embodiments of this application adopt the following technical solutions:

[0005] This application embodiment discloses a transparent adhesive composite layer wall shield, including:

[0006] The interface layer is applied to the outer surface of the base tile.

[0007] A heat insulation layer is disposed on the surface of the interface layer opposite to the base ceramic tile;

[0008] A cover layer is disposed on the surface of the heat insulation layer opposite to the interface layer;

[0009] The heat insulation layer includes a heat insulation base layer and a first heat insulation reinforcement layer. The heat insulation base layer is disposed on the surface of the interface layer away from the base ceramic tile, and the thickness of the heat insulation base layer is 30-60μm. The first heat insulation reinforcement layer is disposed on the surface of the heat insulation base layer away from the interface layer, and the thickness of the first heat insulation reinforcement layer is 40-70μm.

[0010] The cover layer includes a first rare earth cover layer, which is disposed on the surface of the first heat insulation reinforcement layer away from the heat insulation bottom layer, and the thickness of the first rare earth cover layer is 30-60μm.

[0011] In some embodiments of this application, the heat insulation layer further includes a second heat insulation reinforcement layer, which is disposed on the surface of the first heat insulation reinforcement layer away from the heat insulation substrate.

[0012] In some embodiments of this application, the thickness of the insulating base layer is less than the thickness of the first insulating reinforcement layer.

[0013] In some embodiments of this application, the thickness of the second thermal insulation reinforcement layer is 40-70 μm.

[0014] In some embodiments of this application, the cover layer further includes a second rare earth cover layer, which is disposed on the surface of the first rare earth cover layer away from the first thermal insulation reinforcement layer.

[0015] In some embodiments of this application, the thickness of the second rare earth overlay is 30-60 μm, and the total thickness of the transparent adhesive composite layer wall shield is 200-300 μm.

[0016] In some embodiments of this application, the transparent adhesive composite wall shield includes an adhesive layer and an insulation layer. The adhesive layer is disposed between the base ceramic tile and the base wall, and the insulation layer is disposed between the adhesive layer and the base wall.

[0017] In some embodiments of this application, the transparent adhesive composite wall shield further includes a cement mortar leveling layer, which is disposed on the surface of the base wall and between the base wall and the insulation layer.

[0018] In some embodiments of this application, the transparent adhesive composite layer wall shield further includes a fixing pin, the first end of which penetrates the base tile, the adhesive layer, the insulation layer and the cement mortar leveling layer and extends into the interior of the base wall, and the extension depth of the first end into the interior of the base wall is not less than 25mm, and the outer end face of the second end of the fixing pin is lower than the outer surface of the base tile.

[0019] In some embodiments of this application, the transparent adhesive composite layer wall shield further includes a decorative component disposed at the junction of the outer end face of the second end and the outer surface of the base tile, and the decorative component is disposed on the outer end face of the second end.

[0020] This application has the following beneficial effects:

[0021] This application provides a transparent adhesive composite wall shield, the heat insulation layer including a heat insulation base layer and a first heat insulation reinforcement layer, which can improve the heat insulation effect of the exterior wall tiles; at the same time, a first rare earth cover layer is set on the surface of the first heat insulation reinforcement layer away from the heat insulation base layer, which improves the plasma resonance effect between solar radiation waves and the surface of the composite layer, that is, it can convert the solar radiation heat energy into the transition kinetic energy of the outer electron layer of rare earth elements on the surface of the composite layer. The heat resistance rate of the composite layer to infrared and ultraviolet rays can effectively improve the aging resistance of the composite layer and play a good protective role for the base tiles of the exterior wall. Attached Figure Description

[0022] Figure 1This is a structural schematic diagram of the transparent adhesive composite layer wall shield provided in the embodiments of this application;

[0023] Figure 2 A schematic diagram of the heat insulation layer structure in the transparent adhesive composite layer wall shield structure provided in the embodiments of this application;

[0024] Figure 3 This is a schematic diagram of the cover layer structure in the transparent adhesive composite layer wall shield structure provided in the embodiments of this application.

[0025] Figure label:

[0026] 10-Base wall;

[0027] 20- Cement mortar leveling layer;

[0028] 30 - Insulation layer;

[0029] 40 - Adhesive layer;

[0030] 50-Basic Tiles;

[0031] 60 - Interface layer;

[0032] 70 - Insulation layer;

[0033] 701 Insulated Base Layer;

[0034] 801 - First layer of thermal insulation reinforcement;

[0035] 802 - Second layer of thermal insulation reinforcement;

[0036] 90-Topcoat layer;

[0037] 901 - First Rare Earth Overlay;

[0038] 902 - Second rare earth overlay layer;

[0039] 101-Fixing pin. Detailed Implementation

[0040] The following specific embodiments illustrate the implementation of this application. Those skilled in the art can easily understand other advantages and effects of this application from the content disclosed in this specification.

[0041] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The present application will now be described in detail with reference to the accompanying drawings and embodiments. To enable those skilled in the art to better understand the solutions of this application, the technical solutions in the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of them. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort should fall within the scope of protection of this application.

[0042] It should be noted that the terms "first," "second," etc., in the specification, claims, and accompanying drawings of this application are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. Furthermore, the terms "comprising" and "having," and any variations thereof, are intended to cover a non-exclusive inclusion; for example, a process, method, system, product, or device that includes a series of steps or units is not necessarily limited to those steps or units explicitly listed, but may include other steps or units not explicitly listed or inherent to these processes, methods, products, or devices.

[0043] It should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances.

[0044] This application provides a transparent adhesive composite layer wall shield. For example... Figure 1-3 As shown, in some embodiments, the transparent adhesive composite wall shield includes an interface layer 60, a heat insulation layer 70, and a cover layer 90. The interface layer 60 is disposed on the outer surface of the base ceramic tile 50, the heat insulation layer 70 is disposed on the surface of the interface layer 60 facing away from the base ceramic tile 50, and the cover layer 90 is disposed on the surface of the heat insulation layer facing away from the interface layer 60. Specifically, the heat insulation layer 70 includes a heat insulation base layer 701 and a first heat insulation reinforcement layer 801. The heat insulation base layer 701 is disposed on the surface of the interface layer facing away from the base ceramic tile 50, and the first heat insulation reinforcement layer 801 is disposed on the surface of the heat insulation base layer 701 facing away from the interface layer 60. The cover layer 90 includes a first rare earth cover layer 901, which is disposed on the surface of the first heat insulation reinforcement layer 801 facing away from the heat insulation base layer 701.

[0045] In this embodiment, the thickness of the heat insulation layer 701 is set between 30-60 μm. For example, the thickness of the heat insulation layer 701 can be 30 μm, 40 μm, 50 μm, or 60 μm. By designing a heat insulation layer 701 of appropriate thickness on the surface of the interface layer away from the base ceramic tile 50, the heat insulation layer 701 is ensured to have a good heat insulation effect while ensuring the safety and reliability of the heat insulation layer 701 in the overall structural layer.

[0046] The thickness of the first heat insulation reinforcement layer 801 is set between 40-70 μm. For example, the thickness of the first heat insulation reinforcement layer 801 can be 40 μm, 50 μm, 60 μm, or 70 μm, etc. Based on the overall performance of the transparent adhesive composite wall shield, the inventors of this application, by designing a first heat insulation reinforcement layer 801 of appropriate thickness on the surface of the heat insulation bottom layer 701 facing away from the interface layer 60, can further improve the overall heat insulation performance of the composite layer while reducing the investment cost of the first heat insulation reinforcement layer 801.

[0047] The thickness of the first rare earth overlay layer 901 is set between 30-60 μm. For example, the thickness of the first rare earth overlay layer 901 can be 30 μm, 40 μm, 50 μm, or 60 μm. Based on the overall structure and performance of the composite layer, the inventors of this application designed a first rare earth overlay layer 901 of appropriate thickness on the surface of the first heat-insulating reinforcement layer 801 facing away from the heat-insulating bottom layer 701. This allows the solar radiation waves to form a plasma resonance effect with the surface of the composite layer, enabling the surface of the composite layer to absorb the radiant heat energy of the sunlight and convert it into the transition kinetic energy of the outer electrons of rare earth elements. This improves the heat resistance rate of the composite layer surface to infrared and ultraviolet rays, reducing the damage of solar radiation to the composite layer. At the same time, designing a first rare earth overlay layer 901 of appropriate thickness can also reduce the use of rare earth materials and reduce the overall investment cost of the composite layer.

[0048] It should be noted that the transparent adhesive composite layer wall shield provided in this application embodiment is a protective structure set on the surface of the base tile 50 of the building wall, which can play a role in waterproofing and heat insulation of the base tile 50. The protective structure is a highly transparent composite layer structure.

[0049] Specifically, such as Figure 1As shown, an interface layer 60 is provided on the outer surface of the base tile 50. The interface layer 60 is disposed between the base tile 50 and the heat insulation substrate 701, which can improve the adhesion between the heat insulation substrate 701 and the base tile 50 and ensure the stability of the composite layer structure. In this embodiment, the interface layer 60 can be composed of a modified polymer interface agent coated on the outer surface of the base tile 50; for example, the interface layer 60 can be composed of modified silica resin, which can improve the adhesion between the heat insulation substrate 701 and the base tile 50. In addition, the interface bonding layer between the heat insulation substrate 701 and the base tile 50 is composed of modified silica resin with good toughness, which can improve the toughness of the composite layer structure under solar radiation and thermal expansion and contraction.

[0050] like Figure 1 and 2 As shown, a heat insulation layer 701 is provided on the surface of the interface layer 60 away from the base tile 50, which can improve the heat insulation effect of the base tile 50. At the same time, a first heat insulation reinforcement layer 801 is provided on the surface of the heat insulation layer 701 away from the interface layer 60, which can improve the stability of the heat insulation layer 70 structure and prevent the base tile 50 from cracking or even falling off due to severe thermal expansion and contraction caused by uneven internal and external temperatures.

[0051] In this embodiment, the heat-insulating base layer 701 and the first heat-insulating reinforcement layer 801 can be composed of highly transparent heat-insulating aerogel. By setting the heat-insulating base layer 701, the interfacial bonding between the heat-insulating base layer 701 and the interface layer 60 is made more compatible, ensuring the stability of the bonding structure between the heat-insulating base layer 701 and the interface layer 60. By setting the first heat-insulating reinforcement layer 801 on the surface of the heat-insulating base layer 701 facing away from the interface layer 60, a stable multi-layer heat-insulating structure is formed, further improving the heat insulation effect of the composite layer on the base ceramic tile 50; moreover, a cross-linked network structure can be formed between the interface of the heat-insulating base layer 701 and the first heat-insulating reinforcement layer 801, ensuring the overall structural stability of the heat-insulating layer 70.

[0052] like Figure 1 and 3 As shown, the cover layer 90 includes a first rare earth cover layer 901 disposed on the surface of the first heat insulation reinforcement layer 801 facing away from the heat insulation bottom layer 701. This first rare earth cover layer 901 contains rare earth elements. By setting the first rare earth cover layer 901, a plasma resonance effect can be formed between solar radiation waves and the surface of the composite layer. This allows the surface of the composite layer to absorb the radiant heat energy of sunlight and convert it into the transition kinetic energy of the outer electrons of rare earth elements, thereby improving the heat resistance of the composite layer surface to infrared and ultraviolet rays and reducing the damage of solar radiation to the composite layer.

[0053] The transparent adhesive composite wall shield provided in this embodiment can improve the thermal insulation effect of the exterior wall tiles by setting the heat insulation bottom layer 701 and the first heat insulation reinforcement layer 801. At the same time, the first rare earth cover layer 901 is set on the surface of the first heat insulation reinforcement layer 801 away from the heat insulation bottom layer 701, which can convert the radiant heat energy of sunlight into the transition kinetic energy of the outer electron layer of rare earth elements, thereby improving the heat resistance to infrared and ultraviolet rays. This can effectively improve the aging resistance of the composite layer and play a good protective role for the base tile 50.

[0054] Meanwhile, the transparent adhesive composite layer wall shield provided in this application embodiment can prevent hollow tiles from falling off, and the surface of the composite layer has good anti-fouling and self-cleaning properties. Furthermore, the composite layer structure improves the original bonding method into a dual reinforcement method of point and surface reinforcement, which can increase the safety and reliability of the wall.

[0055] like Figure 2 As shown, in some embodiments, the transparent adhesive composite layer wall shield further includes a second heat-insulating reinforcement layer 802, which is disposed on the surface of the first heat-insulating reinforcement layer 801 facing away from the heat-insulating base layer 701. In this embodiment, by disposing of the second heat-insulating reinforcement layer 802 on the surface of the first heat-insulating reinforcement layer 801 facing away from the heat-insulating base layer 701, the overall structural stability of the heat insulation layer 70 can be improved, ensuring that the heat insulation layer 70 has long-lasting heat insulation performance. Furthermore, the thickness of the heat-insulating base layer 701 is less than the thickness of the first heat-insulating reinforcement layer 801; even further, when the thickness of the heat-insulating base layer 701 is 1 / 3 of the thickness of the first heat-insulating reinforcement layer 801, the construction and material costs of the first heat-insulating reinforcement layer 801 can be saved while ensuring the overall structural stability of the heat insulation layer 70.

[0056] In some embodiments, the thickness of the second thermal insulation reinforcement layer 802 is set between 40-70 μm. For example, the thickness of the second thermal insulation reinforcement layer 802 can be 40 μm, 50 μm, 60 μm, or 70 μm, etc. By applying a suitable thickness of the second thermal insulation reinforcement layer 802 thinly to the surface of the first thermal insulation reinforcement layer 801 away from the thermal insulation substrate 701, the overall structural stability of the thermal insulation layer 70 can be ensured, while also saving on the construction and material costs of the second thermal insulation reinforcement layer 802.

[0057] like Figure 1 and 3As shown, in some embodiments, the cover layer 90 further includes a second rare earth cover layer 902, which is disposed on the surface of the first rare earth cover layer 901 facing away from the first thermal insulation reinforcement layer 801. In this embodiment, by disposing of the second rare earth cover layer 902 on the surface of the first rare earth cover layer 901 facing away from the first thermal insulation reinforcement layer 801, the overall structural stability of the cover layer 90 can be improved, and the aging resistance of the cover layer 90 can be further improved, ensuring the thermal insulation performance of the cover layer 90.

[0058] In some embodiments, the thickness of the second rare earth overlay layer 902 is set between 30-60 μm. For example, the thickness of the second rare earth overlay layer 902 can be 30 μm, 40 μm, 50 μm, or 60 μm. In this embodiment, while ensuring that the first rare earth overlay layer 901 and the second rare earth overlay layer 902 have good thermal insulation effects, designing the thickness of the second rare earth overlay layer 902 to a suitable thickness can save on the construction and material costs of the second rare earth overlay layer 902 and the overall overlay layer 90.

[0059] In this embodiment, based on the overall structure and performance of the composite layer, as well as the thicknesses of the heat-insulating bottom layer 701, the first heat-insulating reinforcement layer 801, the second heat-insulating reinforcement layer 802, the first rare earth overlay layer 901, and the second rare earth overlay layer 902, the inventors set the total thickness of the transparent adhesive composite layer wall shield between 200-300 μm. For example, the total thickness of the transparent adhesive composite layer wall shield can be 200 μm, 210 μm, 220 μm, 230 μm, 240 μm, 250 μm, 260 μm, 270 μm, 280 μm, 290 μm, or 300 μm, etc. By designing a transparent adhesive composite layer wall shield of suitable thickness, while ensuring that the transparent adhesive composite layer wall shield provides good protection for the wall, the overall construction cost of the transparent adhesive composite layer wall shield can be reduced.

[0060] In this embodiment of the application, the first rare earth cover layer 901 and the second rare earth cover layer 902 may be composed of lanthanide elements; for example, the first rare earth cover layer 901 and the second rare earth cover layer 902 may be composed of one or more of lanthanum (La), cerium (Ce), praseodymium (Pr) or neodymium (Nd).

[0061] like Figure 1 As shown, in some embodiments, the transparent adhesive composite wall shield further includes an adhesive layer 40, which is disposed between the base tile 50 and the base wall 10. The adhesive layer 40 improves the adhesion between the base tile 50 and the base wall 10, ensuring the stability of the overall structure.

[0062] like Figure 1As shown, in some other embodiments, the transparent adhesive composite wall shield also includes an insulation layer 30, which is disposed between the adhesive layer 40 and the base wall 10. By providing the insulation layer 30 on the surface of the base wall 10, the heat transfer from the interior of the base wall 10 to the exterior can be blocked, thereby improving the insulation effect of the base wall 10.

[0063] like Figure 1 As shown, in some embodiments, the transparent adhesive composite wall shield further includes a cement mortar leveling layer 20, which is disposed on the surface of the base wall 10 and between the base wall 10 and the insulation layer 30. In this embodiment, by providing a cement mortar leveling layer 20 between the base wall 10 and the insulation layer 30, the flatness of the surface of the base wall 10 can be improved, and the overall flatness and aesthetics of the insulation layer 30 can also be improved.

[0064] like Figure 1 As shown, in some embodiments, the transparent adhesive composite wall shield further includes a fixing pin 101. The first end of the fixing pin 101 penetrates the base tile 50, the adhesive layer 40, the insulation layer 30, and the cement mortar leveling layer 20, extending into the interior of the base wall 10. The extension depth of the first end of the fixing pin into the interior of the base wall is not less than 25mm. The outer end face of the second end of the fixing pin is lower than the outer surface of the base tile; for example, the outer end face of the second end of the fixing pin is 1-2mm lower than the outer surface of the base tile, ensuring an aesthetically pleasing connection between the outer end face of the second end of the fixing pin and the outer surface of the base tile.

[0065] In other embodiments, the transparent adhesive composite wall shield further includes a decorative component disposed at the junction of the second end outer face of the fixing pin and the outer surface of the base tile, and the decorative component is disposed on the second end outer face of the fixing pin. The decorative component may be composed of an aesthetic patch or decorative material with an beautifying effect, which can improve the aesthetics of the junction between the second end outer face of the fixing pin and the outer surface of the base tile.

[0066] The transparent adhesive composite wall shield provided in the foregoing embodiments of this application, with its heat insulation base layer 701 and first heat insulation reinforcement layer 801, can improve the heat insulation effect of the base ceramic tile 50. At the same time, the first rare earth overlay layer 901 and the second rare earth overlay layer 902 can improve the aging resistance of the composite layer structure and increase its lifespan. Moreover, the construction process of this composite layer structure is simple and low-cost, making it very suitable for the construction of protective structures on the outer surface of the base ceramic tile 50 of the wall.

[0067] The above description is merely a specific embodiment of this application, but the scope of protection of this application is not limited thereto. All embodiments obtained by any modifications, alterations or equivalent substitutions made by those skilled in the art without departing from the technical concept of this application shall fall within the scope of protection of the claims of this application.

Claims

1. A transparent adhesive composite layer wall shield, characterized in that, include: The interface layer is applied to the outer surface of the base tile. A heat insulation layer is disposed on the surface of the interface layer opposite to the base ceramic tile; A cover layer is disposed on the surface of the heat insulation layer opposite to the interface layer; The heat insulation layer includes a heat insulation base layer and a first heat insulation reinforcement layer. The heat insulation base layer is disposed on the surface of the interface layer away from the base ceramic tile, and the thickness of the heat insulation base layer is 30-60μm. The first heat insulation reinforcement layer is disposed on the surface of the heat insulation base layer away from the interface layer, and the thickness of the first heat insulation reinforcement layer is 40-70μm. The cover layer includes a first rare earth cover layer, which is disposed on the surface of the first heat insulation reinforcement layer away from the heat insulation bottom layer, and the thickness of the first rare earth cover layer is 30-60μm.

2. The transparent adhesive composite layer wall shield according to claim 1, characterized in that, It also includes a second heat insulation reinforcement layer, which is disposed on the surface of the first heat insulation reinforcement layer away from the heat insulation bottom layer.

3. The transparent adhesive composite layer wall shield according to claim 2, characterized in that, The thickness of the heat insulation base layer is less than the thickness of the first heat insulation reinforcement layer.

4. The transparent adhesive composite layer wall shield according to claim 3, characterized in that, The thickness of the second heat insulation reinforcement layer is 40-70μm.

5. The transparent adhesive composite layer wall shield according to claim 1, characterized in that, The cover layer further includes a second rare earth cover layer, which is disposed on the surface of the first rare earth cover layer away from the first heat insulation reinforcement layer.

6. The transparent adhesive composite layer wall shield according to claim 5, characterized in that, The thickness of the second rare earth overlay is 30-60 μm, and the total thickness of the transparent adhesive composite wall shield is 200-300 μm.

7. The transparent adhesive composite layer wall shield according to claim 1, characterized in that, It includes an adhesive layer and an insulation layer, wherein the adhesive layer is disposed between the base ceramic tile and the base wall, and the insulation layer is disposed between the adhesive layer and the base wall.

8. The transparent adhesive composite layer wall shield according to claim 7, characterized in that, It also includes a cement mortar leveling layer, which is disposed on the surface of the base wall and between the base wall and the insulation layer.

9. The transparent adhesive composite layer wall shield according to claim 8, characterized in that, It also includes a fixing pin, the first end of which penetrates the base tile, the adhesive layer, the insulation layer and the cement mortar leveling layer and extends into the interior of the base wall, and the extension depth of the first end into the interior of the base wall is not less than 25mm, and the outer end face of the second end of the fixing pin is lower than the outer surface of the base tile.

10. The transparent adhesive composite layer wall shield according to claim 9, characterized in that, It also includes a decorative component disposed at the junction of the outer end face of the second end and the outer surface of the base tile, and the decorative component is disposed on the outer end face of the second end.