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CN-224213625-U - Combined transparent substrate with heat insulation layer and combined transparent substrate system

CN224213625UCN 224213625 UCN224213625 UCN 224213625UCN-224213625-U

Abstract

The utility model discloses a combined transparent substrate with a heat insulation layer and a combined transparent substrate system. The combined transparent substrate with the heat insulation layer comprises a first transparent substrate and a second transparent substrate which are stacked, wherein the first transparent substrate is provided with a first inner surface facing the second transparent substrate and a first outer surface facing away from the second transparent substrate, the second transparent substrate is provided with a second inner surface facing the first transparent substrate and a second outer surface facing away from the first transparent substrate, the heat insulation layer is further provided with a light blocking layer, a light adjusting layer and a heat blocking layer, one or more of the light blocking layer, the light adjusting layer and the heat blocking layer are arranged on one or more of the first inner surface, the first outer surface, the second inner surface and the second outer surface, and therefore heat insulation effect can be remarkably improved.

Inventors

  • ZHOU XIANGQIAN
  • HUANG YIZHI

Assignees

  • 百及纳米科技(上海)有限公司

Dates

Publication Date
20260508
Application Date
20241212

Claims (14)

  1. 1. The combined transparent substrate with the heat insulation layer is characterized by comprising a first transparent substrate and a second transparent substrate which are stacked, wherein the first transparent substrate is provided with a first inner surface facing the second transparent substrate and a first outer surface facing away from the second transparent substrate, and the second transparent substrate is provided with a second inner surface facing the first transparent substrate and a second outer surface facing away from the first transparent substrate; The combined transparent substrate of the heat insulation layer further comprises a light blocking layer, a light adjusting layer and a heat blocking layer, wherein one or more of the light blocking layer, the light adjusting layer and the heat blocking layer are arranged on one or more of the first inner surface, the first outer surface, the second inner surface and the second outer surface.
  2. 2. The transparent substrate with heat insulating layer according to claim 1, wherein the first inner surface is provided with a light blocking layer to form a first functional layer, and the second inner surface is provided with a heat blocking layer to form a second functional layer.
  3. 3. The combination transparent substrate with thermal barrier layer of claim 2, wherein a hollow cavity is provided between the first transparent substrate and the second transparent substrate.
  4. 4. A combined transparent substrate with a heat insulating layer according to claim 3, wherein at least one of the heat blocking layer and the light blocking layer is provided in the hollow cavity to form an intermediate functional layer, and hollow areas are formed between the intermediate functional layer and the first functional layer and the second functional layer, and the intermediate functional layer is used for heat insulation and/or light blocking.
  5. 5. The transparent substrate with thermal barrier layer according to claim 4, wherein the intermediate functional layer is an organic thin film.
  6. 6. The combination transparent substrate with thermal barrier of claim 3, further comprising a sealing rim connecting the outer edge of the first transparent substrate and the outer edge of the second transparent substrate, the sealing rim forming the hollow cavity around the first transparent substrate and the second transparent substrate.
  7. 7. The composite transparent substrate with a heat insulating layer according to claim 2, wherein the first functional layer and the second functional layer are laminated.
  8. 8. The combined transparent substrate with a heat insulating layer according to claim 2, wherein the first outer surface has the light adjusting layer to form a third functional layer.
  9. 9. The combined transparent substrate with a heat insulating layer according to claim 8, wherein a first protective layer is provided on a side of the third functional layer facing away from the first transparent substrate.
  10. 10. The combined transparent substrate with a heat insulating layer according to claim 2 or 8, wherein the second outer surface has the light adjusting layer to form a fourth functional layer.
  11. 11. The combined transparent substrate with thermal insulation layer according to claim 10, wherein a second protective layer is arranged on the side of the fourth functional layer facing away from the second transparent substrate.
  12. 12. The combined transparent substrate with the heat insulation layer according to claim 1, wherein the light blocking layer is a multi-layer coating layer for blocking infrared light, the dimming layer is a liquid crystal layer with an electrode, the heat blocking layer is a coating layer or a coating layer, and the heat blocking layer is provided with microcrystalline particles.
  13. 13. The combined transparent substrate with thermal barrier layer according to claim 1, wherein the first transparent substrate and the second transparent substrate are glass, plexiglass, PC or PI.
  14. 14. A combined transparent substrate system with a heat insulating layer is characterized by comprising a plurality of combined transparent substrates as claimed in any one of claims 1-13, and the combined transparent substrates are spliced and unfolded.

Description

Combined transparent substrate with heat insulation layer and combined transparent substrate system Technical Field The present utility model relates to a glass or other transparent substrate, and more particularly, to a combined transparent substrate with a heat insulating layer and a combined transparent substrate system. Background Sunlight is needed in a building room, and the outside temperature is isolated from the indoor temperature, so that an ideal environment suitable for people living indoors, namely, the outside is hot and the inside is warm, or the outside is cold and the inside is warm, is created. When the external sunlight is stronger than the intensity allowed by people, especially the temperature is far higher than the indoor temperature, the heat insulation effect of the existing building material glass is still not ideal. Disclosure of utility model The utility model aims to provide a combined transparent substrate with a heat insulation layer and a combined transparent substrate system, which remarkably increase the heat insulation effect and are also applicable to extreme cases of large-area transparent windows and transparent curtain walls. In order to solve the technical problems, the embodiment of the utility model provides a combined transparent substrate with a heat insulation layer, which comprises a first transparent substrate and a second transparent substrate which are stacked, wherein the first transparent substrate is provided with a first inner surface facing the second transparent substrate and a first outer surface facing away from the second transparent substrate, and the second transparent substrate is provided with a second inner surface facing the first transparent substrate and a second outer surface facing away from the first transparent substrate; The combined transparent substrate of the heat insulation layer further comprises a light blocking layer, a light adjusting layer and a heat blocking layer, wherein one or more of the light blocking layer, the light adjusting layer and the heat blocking layer are arranged on one or more of the first inner surface, the first outer surface, the second inner surface and the second outer surface. In one embodiment, the first inner surface is provided with a light blocking layer to form a first functional layer, and the second inner surface is provided with a heat blocking layer to form a second functional layer. In one embodiment, a hollow cavity is formed between the first transparent substrate and the second transparent substrate. In an embodiment, the hollow cavity is provided with at least one of the heat-blocking layer and the light-blocking layer to form an intermediate functional layer, and hollow areas are formed between the intermediate functional layer and the first functional layer and between the intermediate functional layer and the second functional layer, and the intermediate functional layer is used for heat insulation and/or light blocking. In one embodiment, the intermediate functional layer is an organic thin film. In an embodiment, the combined transparent substrate further includes a sealing frame connecting the outer edge of the first transparent substrate and the outer edge of the second transparent substrate, and the sealing frame surrounds the first transparent substrate and the second transparent substrate to form the hollow cavity. In an embodiment, the first functional layer and the second functional layer are disposed in a laminating manner. In an embodiment, the first outer surface has the dimming layer forming a third functional layer. In an embodiment, a first protection layer is disposed on a side of the third functional layer facing away from the first transparent substrate. In an embodiment, the second outer surface has the dimming layer forming a fourth functional layer. In an embodiment, a second protection layer is disposed on a side of the fourth functional layer facing away from the second transparent substrate. In an embodiment, the light blocking layer is a multi-layer coating layer for blocking infrared light, the dimming layer is a liquid crystal layer with an electrode, the heat blocking layer is a coating layer or a coating layer, and the heat blocking layer is provided with microcrystalline particles. In an embodiment, the first transparent substrate and the second transparent substrate are glass, plexiglas, PC or PI. The embodiment of the utility model also provides a combined transparent substrate system with a heat insulation layer, which comprises a plurality of combined transparent substrates, wherein any one of the combined transparent substrates is spliced and unfolded. The existing heat-insulating glass is generally used in small-sized places, and the heat quantity of the heat-insulating glass after external sunlight irradiates is limited in the places with small areas, so that the existing common heat-insulating glass with a heat-resisting layer can meet the requirements