CN205086421U - Temperature control system based on graphite alkene heat conduction membrane material - Google Patents
Temperature control system based on graphite alkene heat conduction membrane material Download PDFInfo
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- CN205086421U CN205086421U CN201520818877.1U CN201520818877U CN205086421U CN 205086421 U CN205086421 U CN 205086421U CN 201520818877 U CN201520818877 U CN 201520818877U CN 205086421 U CN205086421 U CN 205086421U
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- heat conducting
- conducting film
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Abstract
The utility model discloses a temperature control system based on graphite alkene heat conduction membrane material, it includes graphite alkene heat conduction membrane material, indoor radiator, outdoor radiator and regulating switch, graphite alkene heat conduction membrane material on attached to the substrate, indoor radiator and outdoor radiator install on the supporter and by regulating switch control, indoor radiator and outdoor radiator are connected with the substrate through graphite alkene wire. The utility model discloses a graphite alkene heat conduction membrane material can not produce the metallic shield effect influences electromagnetic wave signals such as cell -phone, and received signal is good, the utility model discloses an absorb solar energy mid ir light is whole based on the system of graphite alkene heat conduction membrane material, can part or whole absorption and turn into heat energy the visible light, the utility model discloses carry out absorption, transmission and the radiating comprehensive utilization of the infrared of solar energy and visible light heat energy. Graphite alkene heat conduction membrane based on the glass substrate is very faint to the influence of visible light.
Description
Technical field
The utility model relates to a kind of humidity control system based on Graphene heat conducting film material.
Background technology
The development of thermal isolation film or sunscreen film have passed through for four generations, as: dyeing film is first generation product, is commonly called as " tea paper ", and its light-proofness is strong, installs simple, but this film is not heat insulation, fugitive color, easily come unstuck; Reflective metal film belongs to second generation product, it utilizes Novel viscose and thicker rete to improve explosion-proof effect, there is certain heat insulation, sun-proof performance, heat insulation rate is 20% ~ 60%, 80% is reached every ultraviolet rate, but reflective metal film can affect the signal of antenna for mobile phone, and solar energy is emitted in air, cause the huge waste of solar energy; Absorption film belongs to third generation product, relative to first two film, its ultraviolet isolating rate reaches 90% ~ 100%, infrared ray rejection rate brings up to 30% ~ 95%, the stickiness of glue is stronger, thus reach the effect that the thickness both reducing film has been improved the explosion-proof performance of film, heat absorbent is added heat insulation by heat absorption principle in film, no longer absorb heat after the caloric receptivity of heat absorbent reaches capacity, performance goes down in time, and chemical substance in glue is slowly dispersed into indoor with the heating of film, has certain harm to health; Intelligence optical electivity film belongs to forth generation product, multiple noble metal is evenly distributed in PET base material by magnetron sputtering technique, selectively filters into visible ray, intercept infrared ray and ultraviolet, high heat insulation, high printing opacity, high sun-proof, low reflective, high tenacity, be attached on glass and can increase the explosion-proof coefficient of glass, during as automobile film, drive safer, but metal can affect the signal of antenna for mobile phone, affect indoor speech quality, and solar energy is all by radiation meeting air, causes the huge waste of solar energy.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, utilizes existing Graphene heat conducting film material, provides a kind of humidity control system based on Graphene heat conducting film material.
The purpose of this utility model is achieved through the following technical solutions: a kind of humidity control system based on Graphene heat conducting film material, it comprises Graphene heat conducting film material, interior radiator, outdoor radiator and by-pass cock, described Graphene heat conducting film material is attached on base material, described interior radiator and outdoor radiator to be arranged on supporter and to be controlled by by-pass cock, and interior radiator is connected with base material by graphene wire with outdoor radiator.
Further, described base material is glass baseplate or non-glass substrate.
Further, when described base material is non-glass substrate, the thickness of Graphene heat conducting film material is 10 ~ 300 μm.
Further, when described base material is non-glass substrate, Graphene heat conducting film material is connected by binding agent with non-glass substrate, and the thickness of binding agent is 10 ~ 300 μm.
Further, described non-glass substrate is stainless steel substrate.
Further, when described base material is glass baseplate, the thickness of Graphene heat conducting film material is 0.12 ~ 0.16nm.
Further, described supporter is body of wall or vehicle body.
Further, described graphene wire is connected as a single entity with Graphene heat conducting film material by being attached in flexible instlated tubular.
Further, described outdoor radiator is arranged on the outside of supporter, and interior radiator is arranged on the inner side of supporter.
Further, described by-pass cock can be provided with multiple gear.
The utility model has following beneficial effect: Graphene heat conducting film material of the present utility model can not produce the electromagnetic wave signals such as metallic shield influential effect mobile phone, and Received signal strength is excellent; Solar energy mid-infrared light all absorbs by the system based on Graphene heat conducting film material of the present utility model, is partly or entirely absorbed by visible luminous energy and is converted into heat energy; The utility model carries out the comprehensive utilization of the absorption of the infrared of solar energy and visible ray heat energy, transmission and heat radiation.
Accompanying drawing explanation
Fig. 1 is the operating diagram of a kind of humidity control system A based on Graphene heat conducting film material in the utility model;
Fig. 2 is the operating diagram of a kind of humidity control system B based on Graphene heat conducting film material in the utility model;
In figure, 1-Graphene heat conducting film material, 2-base material, 3-supporter, 4-interior radiator, the outdoor radiator of 5-, 6-graphene wire, 7-sunshine, 8-by-pass cock, 9-base material, 10-binding agent.
Detailed description of the invention
Be described in further detail the utility model below in conjunction with the drawings and specific embodiments, protection domain of the present utility model is not limited to the following stated.
As shown in Figure 1, a kind of humidity control system based on Graphene heat conducting film material, it comprises Graphene heat conducting film material 1, interior radiator 4, outdoor radiator 5 and by-pass cock 8, described Graphene heat conducting film material 1 is attached on base material by binding agent 10, described interior radiator 4 and outdoor radiator 5 to be arranged on supporter and to be controlled by by-pass cock 8, by-pass cock 8 can be provided with multiple gear, control to flow into indoor heat, interior radiator 4 is connected with base material by graphene wire 6 with outdoor radiator 5.Graphene wire 6 is connected as a single entity with Graphene heat conducting film material 1 by being attached in flexible instlated tubular.Outdoor radiator 5 is arranged on the outside of supporter, interior radiator 4 is arranged on the inner side of supporter, described base material is non-glass substrate 2, it is stainless steel in figure, and stainless thickness is 1 ~ 3mm, stainless steel first cleans before use, drying, is attached on non-glass substrate 2 by Graphene heat conducting film material 1 by binding agent 10; In figure, supporter is body of wall 3, and stainless steel is fixed on body of wall 3 by screw hole.Its operation principle is as follows, and when the indoor intensification of needs, Graphene heat conducting film material 1 makes graphene wire 6 be connected with interior radiator 4 by by-pass cock 8, the connection of radiator 5 and Graphene heat conducting film material 1 outside disconnection chamber; When indoor need cooling, graphene wire 6 is connected with outdoor radiator 5 by by-pass cock 8 by Graphene heat conducting film material 1, the connection of disconnection chamber's inner radiator 4 and Graphene heat conducting film material 1.Sunshine 7 is by carrying out the solar energy of 90% ~ 92% utilization that absorbs, transmits and dispel the heat based on the system of Graphene heat conducting film material, visible-light absorptivity is high, can be used on the exterior wall of non-glass, large area heat absorption can be carried out, and heat is imported to indoor, indoor temperature is raised, applies to building non-glass metope in a large number.
As shown in Figure 2, a kind of humidity control system based on Graphene heat conducting film material, it comprises Graphene heat conducting film material 1, interior radiator 4, outdoor radiator 5 and by-pass cock 8, described Graphene heat conducting film material 1 is attached on base material, described interior radiator 4 and outdoor radiator 5 to be arranged on supporter and to be controlled by by-pass cock 8, by-pass cock 8 can be provided with multiple gear, controls to flow into indoor heat.Interior radiator 4 is connected with base material by graphene wire 6 with outdoor radiator 5.Graphene wire 6 is connected as a single entity with Graphene heat conducting film material 1 by being attached in flexible instlated tubular.Outdoor radiator 5 is arranged on the outside of supporter, interior radiator 4 is arranged on the inner side of supporter, and described base material 9 is glass baseplate, is attached on glass baseplate 9 by Graphene heat conducting film material 1, the thickness of Graphene heat conducting film material 1 is that in 0.12 ~ 0.16nm, figure, supporter is body of wall.Its operation principle is as follows, and when the indoor intensification of needs, graphene wire 6 is connected with interior radiator 4 by by-pass cock 8 by Graphene heat conducting film material 1, the connection of radiator 5 and Graphene heat conducting film material 1 outside disconnection chamber; When indoor need cooling, Graphene heat conducting film material 1 makes graphene wire 6 be connected with outdoor radiator 5 by by-pass cock 8, the connection of disconnection chamber's inner radiator 4 and Graphene heat conducting film material 1.The solar energy of 57% ~ 70% is undertaken absorbing, transmitting and lead into indoor or outdoors, heat radiation utilization by the system based on Graphene heat conducting film material by sunshine 7, be mainly used on the exterior wall (car) of glass, can by heat absorption, import to side, heat radiation, be unlikely to make heat delivery in room (car), thus reduce room (car) temperature, heating on building glass or vehicle glass can be widely used in and printing opacity.
Claims (10)
1. the humidity control system based on Graphene heat conducting film material, it is characterized in that, it comprises Graphene heat conducting film material, interior radiator, outdoor radiator and by-pass cock, described Graphene heat conducting film material is attached on base material, described interior radiator and outdoor radiator to be arranged on supporter and to be controlled by by-pass cock, and interior radiator is connected with base material by graphene wire with outdoor radiator.
2. a kind of humidity control system based on Graphene heat conducting film material according to claim 1, is characterized in that, described base material is glass baseplate or non-glass substrate.
3. a kind of humidity control system based on Graphene heat conducting film material according to claim 2, is characterized in that, when described base material is non-glass substrate, the thickness of Graphene heat conducting film material is 10 ~ 300 μm.
4. a kind of humidity control system based on Graphene heat conducting film material according to claim 2, is characterized in that, when described base material is non-glass substrate, Graphene heat conducting film material is connected by binding agent with non-glass substrate, and the thickness of binding agent is 10 ~ 300 μm.
5. a kind of humidity control system based on Graphene heat conducting film material according to claim 2 or 4, is characterized in that, described non-glass substrate is stainless steel substrate.
6. a kind of humidity control system based on Graphene heat conducting film material according to claim 2, is characterized in that, when described base material is glass baseplate, the thickness of Graphene heat conducting film material is 0.12 ~ 0.16nm.
7. a kind of humidity control system based on Graphene heat conducting film material according to claim 1, is characterized in that, described supporter is body of wall.
8. a kind of humidity control system based on Graphene heat conducting film material according to claim 1, is characterized in that, described graphene wire is connected as a single entity with Graphene heat conducting film material by being attached in flexible instlated tubular.
9. a kind of humidity control system based on Graphene heat conducting film material according to claim 1, is characterized in that, described outdoor radiator is arranged on the outside of supporter, and interior radiator is arranged on the inner side of supporter.
10. a kind of humidity control system based on Graphene heat conducting film material according to claim 1, it is characterized in that, described by-pass cock can be provided with multiple gear.
Priority Applications (1)
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CN201520818877.1U CN205086421U (en) | 2015-10-22 | 2015-10-22 | Temperature control system based on graphite alkene heat conduction membrane material |
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CN201520818877.1U CN205086421U (en) | 2015-10-22 | 2015-10-22 | Temperature control system based on graphite alkene heat conduction membrane material |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105865044A (en) * | 2016-05-23 | 2016-08-17 | 李洪伟 | Solar graphene 3D heat collection and power generation integrated module |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105865044A (en) * | 2016-05-23 | 2016-08-17 | 李洪伟 | Solar graphene 3D heat collection and power generation integrated module |
CN105865044B (en) * | 2016-05-23 | 2023-09-08 | 李洪伟 | Solar graphene 3D heat collection and power generation integrated module |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160316 Termination date: 20181022 |