CN212199104U - Anion film with heat insulation function - Google Patents
Anion film with heat insulation function Download PDFInfo
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- CN212199104U CN212199104U CN202020601800.XU CN202020601800U CN212199104U CN 212199104 U CN212199104 U CN 212199104U CN 202020601800 U CN202020601800 U CN 202020601800U CN 212199104 U CN212199104 U CN 212199104U
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Abstract
The utility model discloses an anion film with heat insulation function, which comprises a nanometer anion layer, a photocatalysis layer, a base layer, a nanometer ceramic thermal insulation layer, a thermal conductive adhesive layer and a release layer which are sequentially stacked, wherein the nanometer ceramic thermal insulation layer is arranged at one end of the base layer away from the photocatalysis layer, and the nanometer anion layer, the photocatalysis layer, the base layer and the nanometer ceramic thermal insulation layer are all provided with adhesive layers; the heat-conducting adhesive layer is arranged at one end of the nano ceramic heat-insulating layer, which is far away from the base layer; the release layer is arranged at one end, far away from the nano ceramic thermal insulation layer, of the heat conduction adhesive layer. The utility model provides an anion film with heat insulation function can effectively obstruct piercing through the nanometer ceramic insulating layer, recycles the heat-conducting glue's high temperature resistance, can guarantee under high temperature state, still efficient heat energy that blocks, and nanometer ceramic insulating layer belongs to non-metallic material simultaneously with this, does not possess the shielding nature to the signal, and consequently, the user can obtain the signal experience of high smoothness degree.
Description
Technical Field
The utility model relates to an anion film technical field especially relates to an anion film with heat-insulating function.
Background
The negative ions have a common consensus in the medical field on the physiological health care and the auxiliary medical treatment of human bodies. According to the determination of related departments, the negative ion concentration is reduced due to the unbalance of natural conditions, the population concentration and the indoor sealing, and the popularization of the air conditioner brings negative effects. The negative ions are only about 50/cm 3, which is uncomfortable and leads to unidentified symptoms. Although anion air conditioners and generators are on the market, the cost is high and the release power is low.
Therefore, many manufacturers have shifted their eyes to other indoor products, such as an anion formaldehyde-removing solar film provided in chinese patent CN201920332997.9, which includes a release layer, a first adhesive layer, a safety base layer, a second adhesive layer, a glass fiber layer, a photocatalytic layer, and a nano anion layer stacked in sequence, removing the release layer, attaching the first adhesive layer to glass, allowing sunlight incident through the glass to sequentially pass through the multilayer structure to the photocatalytic layer, and oxidizing the nano anion layer under the catalysis of light, so that more anions are released from the nano anion layer, and the anions absorb formaldehyde molecules in the air, thereby effectively improving the indoor environment, and having obvious effects, environmental protection, and no pollution. While integrating a thermally insulating metal layer to block thermal radiation.
However, the heat insulation metal layer in the above technical solution reflects away the heat radiation by utilizing reflection. With the improvement of the current heat insulation metal layer manufacturing process, the reflection efficiency is over fifty percent. Therefore, the highly transparent glue for bonding is secondarily heated by the reflected heat energy. When the outside is in a high-temperature state for a long time, the high-light-transmission colloid used for bonding is easy to be degummed. And the heat insulation metal layer has certain blocking effect on the propagation of signals, so that the user experience of the future 5G era is influenced to a certain extent.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an anion membrane with thermal-insulated function can guarantee under the high temperature state, still the efficient heat energy that blocks to can guarantee high-quality signal fluency.
The utility model discloses an anion membrane with heat insulation function adopts technical scheme is:
the anion film with the heat insulation function comprises a nanometer anion layer, a photocatalytic layer, a base layer, a nanometer ceramic heat insulation layer, a heat conduction adhesive layer and a release layer which are sequentially stacked, wherein the nanometer ceramic heat insulation layer is arranged at one end of the base layer, which is far away from the photocatalytic layer, and the adhesive layers are arranged among the nanometer anion layer, the photocatalytic layer, the base layer and the nanometer ceramic heat insulation layer; the heat-conducting adhesive layer is arranged at one end of the nano ceramic heat-insulating layer, which is far away from the base layer; the release layer is arranged at one end, far away from the nano ceramic thermal insulation layer, of the heat conduction adhesive layer.
Preferably, the photocatalytic layer is a titanium dioxide coating.
Preferably, both end surfaces of the base layer are formed in a concavo-convex shape.
Preferably, the concave-convex trend at the two ends of the base layer is staggered with each other.
Preferably, the adhesive layer is high-light-transmission silica gel glue.
The utility model discloses an anion membrane with heat-proof function's beneficial effect is: the nanometer ceramic thermal-protective coating is arranged at one end of the base layer far away from the photocatalysis layer, and glue layers are arranged among the nanometer anion layer, the photocatalysis layer and the base layer and among the nanometer ceramic thermal-protective coating. The heat-conducting adhesive layer is arranged at one end of the nano ceramic heat-insulating layer, which is far away from the base layer; the release layer is arranged at one end of the heat-conducting adhesive layer, which is far away from the nano ceramic heat-insulating layer. Can effectively obstruct penetrating of heat energy through the ceramic insulating layer of nanometer, recycle the resistant high temperature nature of heat-conducting glue, can guarantee under the high temperature state, still efficient heat energy that blocks, and the ceramic insulating layer of nanometer belongs to non-metallic material simultaneously, does not have the shielding nature to the signal, and consequently, the user can obtain the signal experience of high smoothness degree.
Drawings
Fig. 1 is a schematic structural diagram of the anion membrane with heat insulation function of the present invention.
Detailed Description
The invention will be further elucidated and described with reference to the following embodiments and drawings in which:
referring to fig. 1, an anion membrane with a heat insulation function includes a nano anion layer 10, a photocatalytic layer 20, a base layer 30, a nano ceramic thermal insulation layer 40, a thermal conductive adhesive layer 52, and a release layer 53, which are sequentially stacked.
The nano ceramic heat insulation layer 40 is arranged at one end of the base layer 30 far away from the photocatalytic layer 20, and glue layers 51 are respectively arranged among the nano anion layer 10, the photocatalytic layer 20, the base layer 30 and the nano ceramic heat insulation layer 40. The thermal conductive adhesive layer 5251 is disposed on one end of the nano-ceramic thermal insulation layer 40 away from the base layer 30. The release layer 53 is disposed on the end of the thermal conductive adhesive layer 5251 away from the nano-ceramic thermal insulation layer 40.
In use, the release layer 53 is removed and the thermal adhesive layer 5251 is adhered to the glass surface. When sunshine shines into, can effectively the impaling of separation heat energy through nanometer ceramic insulating layer 40, recycle the high temperature resistance of heat-conducting glue, can guarantee under the high temperature state, still efficient heat energy that blocks, and nanometer ceramic insulating layer 40 belongs to non-metallic material simultaneously, does not have the shielding nature to the signal, and consequently, the user can obtain the signal experience of high smoothness degree.
Preferably, photocatalytic layer 20 is a titanium dioxide coating. The nanometer anion layer 10 is nanometer dust, and is evenly sprayed on the photocatalyst layer to make full contact.
In this embodiment, both end surfaces of the base layer 30 are concave-convex to improve the adhesion of the adhesive layer 51. Meanwhile, the concave-convex trend at the two ends of the base layer 30 are staggered with each other, so as to improve the overall bending resistance of the base layer 30.
In this case, a coloring layer may be further disposed between the nano-ceramic thermal insulation layer 40 and the base layer 30 according to the requirement of the customer. The market demand has been adapted.
The glue layer 51 is highly transparent silica gel glue. The silica gel glue consists of liquid silica rubber KL-2610, platinum water PT-4000, tackifier KL-298 and KL-6601 high-viscosity organic silicon pressure-sensitive adhesive, and the light transmittance is more than 92%.
The utility model provides an anion film with heat insulation function, nanometer ceramic insulating layer locate basic unit and keep away from photocatalysis layer one end, between nanometer anion layer, photocatalysis layer, the basic unit and nanometer ceramic insulating layer all are equipped with the glue film. The heat-conducting adhesive layer is arranged at one end of the nano ceramic heat-insulating layer, which is far away from the base layer; the release layer is arranged at one end of the heat-conducting adhesive layer, which is far away from the nano ceramic heat-insulating layer. Can effectively obstruct penetrating of heat energy through the ceramic insulating layer of nanometer, recycle the resistant high temperature nature of heat-conducting glue, can guarantee under the high temperature state, still efficient heat energy that blocks, and the ceramic insulating layer of nanometer belongs to non-metallic material simultaneously, does not have the shielding nature to the signal, and consequently, the user can obtain the signal experience of high smoothness degree.
It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.
Claims (5)
1. The anion film with the heat insulation function comprises a nanometer anion layer, a photocatalytic layer and a base layer which are sequentially stacked, and is characterized by further comprising a nanometer ceramic heat insulation layer, wherein the nanometer ceramic heat insulation layer is arranged at one end, far away from the photocatalytic layer, of the base layer, and glue layers are arranged among the nanometer anion layer, the photocatalytic layer, the base layer and the nanometer ceramic heat insulation layer;
the heat-conducting adhesive layer is arranged at one end of the nano ceramic heat-insulating layer, which is far away from the base layer;
and the release layer is arranged at one end, away from the nano ceramic thermal insulation layer, of the heat-conducting adhesive layer.
2. The anion membrane with the heat insulation function as claimed in claim 1, wherein the photocatalytic layer is a titanium dioxide coating layer.
3. The anion membrane with heat insulation function as claimed in claim 1, wherein both end faces of the base layer are undulated.
4. The anion membrane with the heat insulation function as claimed in claim 3, wherein the concave and convex trend at the two ends of the base layer are staggered with each other.
5. The anion membrane with the heat insulation function as claimed in any of claims 1 to 4, wherein the adhesive layer is a highly transparent silica gel adhesive.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202020601800.XU CN212199104U (en) | 2020-04-21 | 2020-04-21 | Anion film with heat insulation function |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202020601800.XU CN212199104U (en) | 2020-04-21 | 2020-04-21 | Anion film with heat insulation function |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN212199104U true CN212199104U (en) | 2020-12-22 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202020601800.XU Active CN212199104U (en) | 2020-04-21 | 2020-04-21 | Anion film with heat insulation function |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN212199104U (en) |
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2020
- 2020-04-21 CN CN202020601800.XU patent/CN212199104U/en active Active
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