Aerogel infused glass fiber insulation decorative panel assembly
By using aerogel-sprayed glass fiber insulation decorative panel components, the problems of weak insulation performance and complex construction in existing technologies have been solved, achieving efficient thermal insulation and stable structure, and improving construction efficiency and installation quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG ZHONGYI ENERGY CONSERVATION BUILDING MATERIALS
- Filing Date
- 2025-06-24
- Publication Date
- 2026-06-26
AI Technical Summary
Existing thermal insulation decorative panels have weak thermal insulation performance, complex construction process, and poor layout flexibility.
The aerogel-sprayed glass fiber insulation decorative panel assembly includes a sprayed insulation core layer, an inner support plate layer, an outer support plate layer, a protective decorative shell layer, and plug-in positioning ends. It is bonded together with an adhesive to form an integral structure, and uses the plug-in positioning ends to join with the wall to achieve precise positioning and splicing.
It improves the structural stability and construction efficiency of the thermal insulation decorative panel, provides high-efficiency thermal insulation performance, and enhances installation quality.
Smart Images

Figure CN224413008U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to building insulation materials, and more particularly to an aerogel-sprayed glass fiber insulation decorative panel assembly. Background Technology
[0002] Patent document CN119593555A discloses a thermal insulation decorative panel, which includes, from the inside out, an insulation board, an inorganic composite layer, and a decorative surface layer. The inorganic composite layer is composed of a polymer mortar layer and a wire mesh. Multiple rows of built-in anchor rods are provided inside the insulation board. The two ends of the built-in anchor rods are respectively provided with an inner threaded hole and an outer threaded hole. Multiple anchor plates located in the inorganic composite layer or the decorative surface layer are provided on the outside of the insulation board. The anchor plates are provided with multiple fixing holes corresponding to the positions of the outer threaded holes of the built-in anchor rods and multiple inclined first protrusions. The outer ends of the built-in anchor rods are fixedly connected to the anchor plates by first fixing screws, and the inner ends pass through the insulation board inward. This decorative panel uses an inorganic composite layer to connect the insulation board and the decorative surface layer. Multiple built-in anchors are installed in the middle area of the insulation board, and anchor plates, which are fixedly connected to these anchors, are placed within the inorganic composite layer or the decorative surface layer. This achieves inorganic bonding between the decorative surface layer and the insulation board, while placing the connection points of the anchored insulation boards on the inner side of the insulation board, thus achieving an anchored connection in the middle area of the insulation board and improving the safety performance of the insulated decorative panel. However, this type of insulated decorative panel has relatively weak insulation performance, and the fixed connection via built-in anchors and anchor plates makes the construction process complex and lacks layout flexibility. Therefore, it is necessary to optimize its structure to overcome these shortcomings. Utility Model Content
[0003] The purpose of this invention is to provide an aerogel-sprayed glass fiber insulation decorative panel assembly to improve its structural stability.
[0004] The technical solution adopted by this utility model to solve its technical problem is:
[0005] An aerogel-sprayed glass fiber insulation decorative panel assembly includes:
[0006] The spray-impregnated insulation core layer is formed by spraying aerogel into a glass fiber felt body.
[0007] An inner support plate layer is bonded to the inner surface of the sprayed insulation core layer with an adhesive, thereby supporting and reinforcing the inner surface of the sprayed insulation core layer.
[0008] An outer support plate layer is bonded to the outer side of the sprayed insulation core layer with an adhesive, thereby supporting and reinforcing the outer side of the sprayed insulation core layer.
[0009] The protective shell layer is bonded to the outer side of the outer support plate layer by an adhesive, and its edge is bent inward to form an edge protective side piece. The edge protective side piece covers the edge of the outer support plate layer and the sprayed insulation core layer, and the protective shell layer and the edge protective side piece provide shielding protection for the outer support plate layer and the sprayed insulation core layer.
[0010] The insertion positioning end has several parts, and each insertion positioning end is arranged along the edge of the sprayed insulation core layer, the inner support plate layer, the outer support plate layer and the edge cover side plate. It forms a matching insertion slot in the sprayed insulation core layer, the inner support plate layer, the outer support plate layer and the edge cover side plate. One end of the insertion positioning end is inserted into the insertion positioning end, and the other end is connected to the wall through a connector. The insertion positioning end positions the sprayed insulation core layer, the inner support plate layer, the outer support plate layer, the edge cover side plate and the cover decorative shell layer.
[0011] In one embodiment of this utility model, the inner support plate layer and the outer support plate layer are respectively made of architectural gypsum, and the thickness of the outer support plate layer is greater than the thickness of the inner support plate layer.
[0012] In one embodiment of this utility model, the insertion positioning end includes:
[0013] An outer end plate is arranged vertically and corresponds to the position of the edge cover side piece and the outer support plate layer. It can penetrate the edge cover side piece and extend into the outer support plate layer.
[0014] The inner end plate is arranged vertically, located inside the outer end plate, and corresponds to the position of the sprayed insulation core layer. It can extend into the interior of the sprayed insulation core layer.
[0015] The core plate is arranged laterally and is perpendicular to the outer end plate and the inner end plate. Its outer end is connected to the outer end plate, its middle part is connected to the inner end plate, and its inner end extends to the outside of the inner support plate layer.
[0016] In one embodiment of this utility model, the insertion slots in the spray-impregnated insulation core layer, inner support plate layer, outer support plate layer and edge cover side plate are adapted to the shape of the outer end plate, inner end plate and insertion core plate, and their width is smaller than the width of the outer end plate, inner end plate and insertion core plate, so that the two ends of the outer end plate, inner end plate and insertion core plate can be respectively inserted into the insertion slots of adjacent insulation decorative panel components, and adjacent insulation decorative panel components are spliced sequentially.
[0017] In one embodiment of this utility model, the insertion positioning end further includes:
[0018] The positioning carrier plate has one end overlapping with the inner end of the plug-in core plate and is connected to each other by a detachable connector. Its other end is bent upwards to form a positioning seat plate, which is fixed to the wall by a detachable connector.
[0019] In one embodiment of this utility model, the inner end of the plug-in core plate is provided with a transition port. There is a pair of transition ports, each of which is elongated and extends laterally and is parallel to each other. The inner end of the plug-in core plate and the positioning carrier plate can be connected to each other by a matching connecting bolt. The connection position can be adjusted along the transition port to adjust the distance between the thermal insulation decorative panel assembly and the wall.
[0020] In one embodiment of this utility model, a positioning port is provided in the positioning seat plate. The positioning port is elongated and extends vertically. The positioning seat plate can be fixed to the wall by a matching connecting bolt. The fixed position can be adjusted along the positioning port to finely adjust the height of the thermal insulation decorative panel assembly.
[0021] The advantages of this utility model are:
[0022] The spray-impregnated insulation core layer of this thermal insulation decorative panel assembly is formed by spraying aerogel into a glass fiber felt. Aerogel has an extremely low thermal conductivity and its microstructure consists of nanoscale pores, which can effectively prevent heat conduction and achieve good thermal insulation effect, providing high-efficiency thermal insulation performance for buildings. By setting inner and outer support plates, the inner and outer sides of the spray-impregnated insulation core layer are supported and reinforced respectively, enhancing the structural stability of the entire thermal insulation decorative panel assembly. The setting of the plug-in positioning end allows the thermal insulation decorative panel assembly to be accurately positioned and connected to the wall. Adjacent thermal insulation decorative panel assemblies can also be spliced sequentially, improving construction efficiency and installation quality. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the top structure of the aerogel-sprayed glass fiber insulation decorative panel assembly proposed in this utility model.
[0024] Figure 2 This is a schematic diagram of the bottom structure of the thermal insulation decorative panel assembly;
[0025] Figure 3 This is a cross-sectional structural diagram of the thermal insulation decorative panel assembly. Detailed Implementation
[0026] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations. Therefore, the following detailed description of the embodiments of this utility model provided in the accompanying drawings is not intended to limit the scope of the claimed utility model, but merely represents selected embodiments of the utility model. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without inventive effort are within the scope of protection of this utility model.
[0027] like Figures 1-3 As shown, the aerogel-sprayed glass fiber insulation decorative panel assembly proposed in this utility model includes a sprayed insulation core layer 100, an inner support plate layer 200, an outer support plate layer 300, a protective decorative shell layer 400, and an insertion positioning end 500. The sprayed insulation core layer is formed by spraying aerogel into a glass fiber felt. The inner support plate layer is bonded to the inner side of the sprayed insulation core layer with an adhesive, providing support and reinforcement to the inner side of the sprayed insulation core layer. The outer support plate layer is bonded to the outer side of the sprayed insulation core layer with an adhesive, providing support and reinforcement to the outer side of the sprayed insulation core layer. The protective decorative shell layer is bonded to the outer side of the outer support plate layer with an adhesive, and its edges are bent inward to form edge protective sides. The edge-covering side panel 410 covers the edge of the outer support plate layer and the sprayed insulation core layer. The outer support plate layer and the sprayed insulation core layer are covered and protected by the protective shell layer and the edge-covering side panel. Several plug-in positioning ends are provided. Each plug-in positioning end is arranged along the edge of the sprayed insulation core layer, the inner support plate layer, the outer support plate layer and the edge-covering side panel, and forms a matching plug-in slot 600 in the sprayed insulation core layer, the inner support plate layer, the outer support plate layer and the edge-covering side panel. One end of the plug-in positioning end is inserted into the plug-in positioning end, and the other end is connected to the wall through a connector. The plug-in positioning end positions the sprayed insulation core layer, the inner support plate layer, the outer support plate layer, the edge-covering side panel and the protective shell layer. Aerogel materials are non-toxic, odorless, and non-polluting, harmless to humans and the environment, and offer excellent energy-saving effects and anti-aging properties. Their thermal insulation performance does not significantly decrease over long-term use. The fiberglass mat is formed by stacking long and short fibers, while the aerogel is made of polyimide aerogel, which bonds tightly to the fiberglass mat, preventing it from easily detaching. It can be sprayed and cured in situ to form a porous thermal insulation layer.
[0028] In this embodiment, the inner support plate layer and the outer support plate layer are made of architectural gypsum, and the thickness of the outer support plate layer is greater than that of the inner support plate layer. Meanwhile, the protective shell layer is made of metal sheet.
[0029] In this embodiment, the plug-in positioning end includes an outer end plate 510, an inner end plate 520, and a plug-in core plate 530. The outer end plate is arranged vertically and corresponds to the position of the edge cover side piece and the outer support plate layer. It can penetrate the edge cover side piece and extend into the inner part of the outer support plate layer. The inner end plate is arranged vertically and is located inside the outer end plate. It corresponds to the position of the sprayed insulation core layer and can extend into the inner part of the sprayed insulation core layer. The plug-in core plate is arranged horizontally and is perpendicular to the outer end plate and the inner end plate. Its outer end is connected to the outer end plate, its middle part is connected to the inner end plate, and its inner end extends outward from the inner support plate layer.
[0030] In this embodiment, the insertion slots in the spray-impregnated insulation core layer, inner support plate layer, outer support plate layer, and edge cover side plate are adapted to the shape of the outer end plate, inner end plate, and insertion core plate. Their width is smaller than the width of the outer end plate, inner end plate, and insertion core plate, so that the two ends of the outer end plate, inner end plate, and insertion core plate can be inserted into the insertion slots of adjacent insulation decorative panel components, and adjacent insulation decorative panel components are spliced sequentially. After splicing, the insulation decorative panel components located at the edge need to be positioned using a positioning structure to prevent slippage.
[0031] In this embodiment, the plug-in positioning end also includes a positioning carrier plate 540. One end of the positioning carrier plate overlaps with the inner end of the plug-in core plate and is connected to each other by a detachable connector. The other end of the positioning carrier plate is bent upward to form a positioning seat plate 550. The positioning seat plate is fixed to the wall by a detachable connector.
[0032] In this embodiment, the inner end of the plug-in core board is provided with a transition port 531. There is a pair of transition ports, each of which is elongated and extends laterally and is parallel to each other. The inner end of the plug-in core board and the positioning carrier plate can be connected to each other by a matching connecting bolt. The connection position can be adjusted along the transition port to adjust the distance between the thermal insulation decorative panel assembly and the wall.
[0033] In this embodiment, a positioning port 551 is provided in the positioning base plate. The positioning port is elongated and extends vertically. The positioning base plate can be fixed to the wall by a matching connecting bolt. The fixed position can be adjusted along the positioning port to finely adjust the height of the thermal insulation decorative panel assembly.
[0034] In the description of this utility model, it should be noted that when terms such as "upper," "lower," "inner," "outer," "left," and "right" appear to indicate orientation or positional relationships, they should be understood as being based on the orientation or positional relationships shown in the accompanying drawings, or the orientation or positional relationships commonly used when the product of this utility model is in use, or the orientation or positional relationships commonly understood by those skilled in the art. These terms are used only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. Furthermore, when terms such as "first" and "second" appear, they are only used to distinguish descriptions and should not be construed as indicating or implying relative importance. In the description of this utility model, it should also be noted that unless otherwise explicitly specified and limited, terms such as "installation," "setting," and "connection" should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be a connection within two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
Claims
1. An aerogel infused glass fiber thermal insulation decorative panel assembly, characterized in that, include: The spray-impregnated insulation core layer is formed by spraying aerogel into a glass fiber felt body. An inner support plate layer is bonded to the inner surface of the sprayed insulation core layer by an adhesive. An outer support plate layer is bonded to the outer side of the sprayed insulation core layer by an adhesive. A protective decorative shell layer is bonded to the outer side of the outer support plate layer by an adhesive, and its edge is bent inward to form an edge protective side sheet, which covers the edge of the outer support plate layer and the sprayed insulation core layer. The insertion positioning end has several parts, and each insertion positioning end is arranged along the edge of the sprayed insulation core layer, the inner support plate layer, the outer support plate layer and the edge cover side plate, and forms a matching insertion slot in the sprayed insulation core layer, the inner support plate layer, the outer support plate layer and the edge cover side plate. One end of the insertion positioning end is inserted into the insertion positioning end, and the other end is connected to the wall through a connector.
2. The aerogel-sprayed glass fiber insulation decorative panel assembly according to claim 1, characterized in that: The inner and outer support layers are made of architectural gypsum, and the thickness of the outer support layer is greater than that of the inner support layer.
3. The aerogel-sprayed glass fiber insulation decorative panel assembly according to claim 1, characterized in that, The insertion positioning end includes: An outer end plate is arranged vertically and corresponds to the position of the edge cover side piece and the outer support plate layer. It can penetrate the edge cover side piece and extend into the outer support plate layer. The inner end plate is arranged vertically and is located inside the outer end plate, corresponding to the position of the sprayed insulation core layer, and can extend into the interior of the sprayed insulation core layer. The core plate is arranged laterally and is perpendicular to the outer end plate and the inner end plate. Its outer end is connected to the outer end plate, its middle part is connected to the inner end plate, and its inner end extends to the outside of the inner support plate layer.
4. The aerogel-sprayed glass fiber insulation decorative panel assembly according to claim 3, characterized in that: The insertion slots in the spray-impregnated insulation core layer, inner support plate layer, outer support plate layer, and edge cover side plate are adapted to the shape of the outer end plate, inner end plate, and insertion core plate, and their width is smaller than the width of the outer end plate, inner end plate, and insertion core plate.
5. The aerogel-sprayed glass fiber insulation decorative panel assembly according to claim 3, characterized in that, The plug-in positioning end also includes: The positioning carrier plate overlaps with the inner end of the plug-in core plate at one end and is connected to each other by a detachable connector. Its other end is bent upwards to form a positioning seat plate.
6. The aerogel-sprayed glass fiber insulation decorative panel assembly according to claim 5, characterized in that: The inner end of the plug core board is provided with an adapter port. There is a pair of adapter ports, each of which is long and parallel to each other. The inner end of the plug core board and the positioning carrier plate can be connected to each other by a matching connecting bolt.
7. The aerogel-sprayed glass fiber insulation decorative panel assembly according to claim 5, characterized in that: The positioning plate has a positioning opening, which is long and extends vertically. The positioning plate can be fixed to the wall by a matching connecting bolt.