CN210670598U - Safe graphite alkene electric heat membrane and use fitment structure of this electric heat membrane - Google Patents
Safe graphite alkene electric heat membrane and use fitment structure of this electric heat membrane Download PDFInfo
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- CN210670598U CN210670598U CN201921336709.3U CN201921336709U CN210670598U CN 210670598 U CN210670598 U CN 210670598U CN 201921336709 U CN201921336709 U CN 201921336709U CN 210670598 U CN210670598 U CN 210670598U
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Abstract
The utility model belongs to the electric heat membrane, concretely relates to safe graphite alkene electric heat membrane and with fitment structure of this electric heat membrane. The utility model provides a safe graphite alkene electric heat membrane, is the ground plane including setting up the waterproof layer at both ends, hugs closely waterproof layer, hugs closely the infrared enhancement layer that is of ground plane, is the layer that generates heat between the infrared enhancement layer. This neotype effect is: the electrothermal film has the advantages of large radiating area, quick thermal response, energy conservation, environmental protection, capability of being made into a complex structural configuration, long service life, good reliability and convenience in installation and maintenance.
Description
Technical Field
The utility model belongs to the electric heat membrane, concretely relates to safe graphite alkene electric heat membrane and with fitment structure of this electric heat membrane.
Background
The electrothermal film is a common industrial product and is commonly used in the field of civil heat preservation and heating. The traditional heat preservation heating mode has the problems of low heat conversion efficiency, large power consumption, large noise, instability, complex installation and the like.
SUMMERY OF THE UTILITY MODEL
The utility model discloses to prior art's defect, provide a safe graphite alkene electric heat membrane and with fitment structure of this electric heat membrane.
The utility model discloses a realize like this: the utility model provides a safe graphite alkene electric heat membrane, is the ground plane including setting up the waterproof layer at both ends, hugs closely waterproof layer, hugs closely the infrared enhancement layer that is of ground plane, is the layer that generates heat between the infrared enhancement layer.
A safe graphite alkene electric heat membrane as above, wherein, set up the encapsulation heatable brick bed on the electric heat membrane surface and go up the membrane, set up the fixed orifices on the encapsulation heatable brick bed membrane, the encapsulation heatable brick bed is gone up membrane top and quick connect cable junction, and quick connect cable passes through cable conductor and T type cable junction, sets up the closing cap at the tip of cable conductor, and the other end and the temperature controller electricity of cable conductor are connected.
The utility model provides an use fitment structure of electric heat membrane, wherein, includes the heat insulation layer of setting in structural floor top, sets up the electric heat rete on the heat insulation layer, sets up the inoxidizing coating on the electric heat rete, sets up the equipotential net on the inoxidizing coating, sets up waterproof isolation layer on the equipotential net, sets up the filling layer on waterproof isolation layer, sets up the architectural surface layer on the filling layer.
The decoration structure using the electrothermal film is characterized in that the electric heating film is arranged on the inner surface of the filling layer.
The decoration structure using the electrothermal film is characterized in that the protective layer is a PE film and has a thickness of 0.05 mm.
A finishing structure using an electrothermal film as described above, wherein the thickness of the thermal insulation layer is 30 mm.
A finishing structure using an electrothermal film as described above, wherein the structural floor has a thickness of 100 mm.
The decoration structure using the electrothermal film is characterized in that the filling layer is made of pea stone concrete and has a thickness of 30 mm.
This neotype effect is: a semi-transparent polyester film capable of heating after being electrified is prepared by processing conductive special printing ink (modified purified carbon particles are processed into microcrystal particles with different shapes through high-temperature, grinding and other processes, adding different amounts of far infrared heating materials and temperature limiting materials according to different wavelength requirements and preparing the microcrystal particles by a special process) through special equipment, and attaching metal current carrying strips (mainly made of silver paste, copper, tin and other noble metal materials, graphene and other materials) in an insulating polyester film. The conductive PET polyester film has the characteristics of good flexibility, water resistance, tensile strength, high thermal efficiency and the like, and is formed by hot-pressing conductive special carbon paste ink, dozens of rare metal element mixtures and metal carrier strips in two layers of insulating PET polyester films through various processes. The upper film of the electric heating kang is electrified to emit infrared light waves (the wavelength of the far infrared rays with the wavelength of 9.5 microns of the electric heating film is detected by a national professional detection mechanism, the electric heating film is usually used as life light by people, has the function of human health care, and is free of any damage), most of heat is sent into a room in a radiation mode, the electric heating film not only heats air, but also heats solid and dense objects such as walls, floors, furniture and the like in the room at first, then the objects emit radiation heat to naturally and uniformly raise the indoor temperature, and the heat conversion efficiency can reach more than 99%. And the electrothermal film heating system can be started or closed at will according to the needs of users, and the operation is very economical.
In addition, the novel electrothermal film has the advantages of large radiating area, quick thermal response, energy conservation, environmental protection, capability of being made into a complex structural configuration, long service life, good reliability and convenience in installation and maintenance.
The graphene is added into the heating slurry, so that the performance of the electrothermal film can be effectively improved, the electrothermal film has the advantages of quick thermal response, high power density, good heating stability, high heating efficiency, controllable far infrared wavelength of 4-12 mu m, longer service life and the like.
Drawings
Fig. 1 is a schematic structural diagram of the novel safe graphene electrothermal film;
fig. 2 is a schematic view of the installation structure when the novel decoration is used.
In the figure: 1. the temperature controller, 2, T-shaped cable, 3, cable, 4, end cap, 5, fixing hole, 6, packaging kang upper film, 7, quick connecting cable, 8, waterproof protective layer, 9, grounding layer, 10, infrared enhancement layer, 11, heating layer, 12, infrared enhancement layer, 13, grounding layer, 14, waterproof protective layer, 15, decorative surface layer, 16, filling layer, 17, waterproof isolation layer, 18, equipotential net, 19, protective layer, 20, electrothermal film layer, 21, heat insulation layer, 22, structural floor slab.
Detailed Description
As shown in the attached drawings, the safe graphene electrothermal film comprises waterproof protective layers arranged at two ends, a grounding layer clings to the waterproof protective layers, an infrared enhancement layer clings to the grounding layer, and a heating layer is arranged between the infrared enhancement layers.
Set up the membrane on the encapsulation heatable brick bed on the electric heat membrane surface, set up the fixed orifices on the membrane on the encapsulation heatable brick bed, membrane top and high-speed joint cable connection on the encapsulation heatable brick bed, high-speed joint cable passes through cable conductor and T type cable junction, sets up the closing cap at the tip of cable conductor, and the other end and the temperature controller electricity of cable conductor are connected.
The utility model provides an use fitment structure of electric heat membrane, wherein, includes the heat insulation layer of setting in structural floor top, sets up the electric heat rete on the heat insulation layer, sets up the inoxidizing coating on the electric heat rete, sets up the equipotential net on the inoxidizing coating, sets up waterproof isolation layer on the equipotential net, sets up the filling layer on waterproof isolation layer, sets up the architectural surface layer on the filling layer.
The equipotential net is hidden in the filling layer.
The protective layer is a PE film with the thickness of 0.05 mm.
The thickness of the heat insulation layer is 30 mm.
The thickness of the structural floor slab is 100 millimeters.
The filling layer is made of pea stone concrete and has the thickness of 30 millimeters.
Graphene (Graphene) is a polymer made of carbon atoms in sp2The two-dimensional carbon nanomaterial with hexagonal honeycomb lattices formed by the hybrid tracks is a general name of single-layer graphene, double-layer graphene and few-layer graphene, has the thickness of only 0.35 nanometer, is only twenty-ten-thousandth of hair, and is a basic unit for constructing carbon materials with other digits.
The graphene has excellent optical, electrical and mechanical properties, has important application prospects in the aspects of materials science, micro-nano processing, energy, biomedicine, drug delivery and the like, and is considered to be a revolutionary material in the future. Physicists andreli-gommand consanguin norworth schloff, manchester university, uk, successfully separated graphene from graphite, thus collectively awarding the 2010 nobel prize for physics.
Product introduction (24V safe graphene electrothermal film): the conductive semi-transparent polyester film is a safe electrothermal film used in a low-voltage state, can generate heat after being electrified, is prepared by attaching conductive special printing ink (modified purified carbon particles are processed into microcrystal particles with different shapes through processes such as high temperature and grinding, different amounts of far infrared heating materials and temperature limiting materials are added according to different wavelength requirements and are prepared by using a special process) into an insulating polyester film through special equipment, and is prepared by attaching metal current carrying strips (mainly prepared from silver paste, copper, tin and other noble metal materials, graphene and the like). The conductive PET polyester film has the characteristics of good flexibility, water resistance, tensile strength, high thermal efficiency and the like, and is formed by hot-pressing conductive special carbon paste ink, dozens of rare metal element mixtures and metal carrier strips in two layers of insulating PET polyester films through various processes. The upper film of the electric heating kang is electrified to emit infrared light waves (the wavelength of the far infrared rays with the wavelength of 9.5 microns of the electric heating film is detected by a national professional detection mechanism, the electric heating film is usually used as life light by people, has the function of human health care, and is free of any damage), most of heat is sent into a room in a radiation mode, the electric heating film not only heats air, but also heats solid and dense objects such as walls, floors, furniture and the like in the room at first, then the objects emit radiation heat to naturally and uniformly raise the indoor temperature, and the heat conversion efficiency can reach more than 99%.
The 24V safe graphene electrothermal film heating system can be started or closed at will according to the needs of users, and the operation is very economical. The electric heating film floor heating occupies the floor height, the temperature rise is fast, the electric heating film floor heating is the only floor heating without cement backfill under the composite wood floor, and the invisible electric heating film floor heating is the thinnest electric floor heating at present.
The heating principle is as follows: the heating principle of graphene electrothermal film floor heating is that under the action of an electric field, carbon molecular groups in a heating body generate Brownian motion, violent friction and impact occur among carbon molecules, the generated heat energy is transmitted outwards in the form of far infrared radiation and convection, and the conversion rate of electric energy and heat energy is up to more than 98%. The surface of the electrothermal film heating system is rapidly heated under the action of carbon molecules. When the far infrared heating system is installed on the ground, heat energy can be continuously and uniformly transferred to each corner of a room. The far infrared heating electric heating film can rapidly heat the space, and 100 percent of electric energy input is effectively converted into over 66 percent of far infrared radiation energy and 33 percent of convection heat energy.
Far infrared graphite alkene electric heat transfer mode: the heat conduction and the far infrared thermal radiation heat supply are carried out, the heat is started from the lower part of the foot, the cold is avoided from rising from the lower part of the foot, the human body health theory that the head is cool and the feet are hot is very conformed, the gradient temperature difference is formed from bottom to top, and the human body feels very comfortable; the heating is not carried out by heating air convection heating, but is carried out by low-temperature far infrared radiation heating, so that the indoor air is fresh, warm, clean and comfortable, and indoor dry heat, peculiar smell, skin dehydration, mouth dryness, tongue dryness, indoor dust, dirty air convection and the like can not be caused; the whole heating process is silent and pollution-free, and the comfort level is as warm as sunlight irradiation, just like the little sun at home in winter.
The graphene heating system is a heating system which is formed by connecting an intelligent temperature controller, a graphene heating chip, an extruded sheet, a reflecting film, a lead according to relevant standards, and the core of the graphene heating system is the graphene heating chip.
The graphene heating chip is made of a novel nano material which is the most subversive magical material in the 21 st century, namely graphene, has the largest surface area, the smallest resistivity, the highest electrothermal conversion rate and harder strength than diamond, is manufactured among insulating polyester films through hot pressing, and is electrified to send heat into a space in a far infrared mode so that a human body and objects are firstly warmed.
The electric heating film floor heating principle is that under the action of an electric field, carbon molecular groups in a heating body generate Brownian motion, violent friction and impact occur among carbon molecules, generated heat energy is transmitted outwards in the form of far infrared radiation and convection, and the conversion rate of electric energy and heat energy is up to more than 98%. The surface of the electrothermal film heating system is rapidly heated under the action of carbon molecules. The far infrared heating system is arranged on the ground, and the heat energy can be continuously and uniformly transferred
To each corner. The far infrared heating electric heating film can rapidly heat the space, and 100 percent of electric energy input is effectively converted into over 66 percent of far infrared radiation energy and 33 percent of convection heat energy. The electric heating film is a semitransparent polyester film which can generate heat after being electrified, and is formed by hot-pressing conductive special carbon paste ink, dozens of rare metal element mixtures and metal current carrying strips in two layers of insulating PET polyester films through various processes. The upper film of the electric heating kang emits infrared light waves after being electrified, the wavelength of the far infrared rays with the diameter of 9.5 microns is generally used as 'life light' by people, has the function of human body health care, and has no damage), most of heat is sent into a room in a radiation mode, the electric heating kang not only heats air, but also heats solid and dense objects such as indoor walls, floors, furniture and the like, and then radiates the radiation heat by the objects to naturally and uniformly raise the indoor temperature, and the heat conversion efficiency can reach more than 99%. The low-temperature radiation electric heating film heating system can be started or closed at will according to the needs of users, the operation is very economical, the temperature rise is fast, the electric heating film floor heating system is the only floor heating system without cement backfill below the compound wood floor, and the invisible electric heating film floor heating system is the thinnest electric floor heating system at present. The device does not occupy indoor space, is free from maintenance and repair; the low-temperature radiation electrothermal film heating system does not occupy indoor space because a radiator and a pipeline are omitted. The whole system has long service life, is free from maintenance and repair; the environment is protected, and the environment is not polluted; the low-temperature radiation electrothermal film heating system does not generate smoke dust and dust, does not generate noise and floating dust caused by indoor air convection, meets the urban planning requirement and is suitable for the green and environment-friendly requirement of the modern society; the low-temperature radiation electrothermal film heating system adopts a radiation mode for heating, and gives people the feeling of being warm and comfortable like the feeling of being in the open sun. There is no feeling of dryness and stuffiness as produced by conventional heating systems; when the system works, the surface of the electric heating film keeps low-temperature operation, the highest temperature does not exceed 60 ℃, accidents such as scalding, explosion, fire and the like cannot occur, the whole system is connected in a parallel connection mode, the operation temperature is high, and the feasibility is high; the system can measure according to the demands of users by household, unit or floor, and the users can freely control the electricity consumption. The flexibility and the stability of the graphene electrothermal film are excellent, the temperature surface is balanced and easy to control, the waterproof and anti-corrosion performance is strong, the pressure resistance and the weather resistance are good, and the graphene electrothermal film is safe, environment-friendly and non-flammable, and is a necessary way for future development of the electrothermal film industry.
The advantages of the graphene electrothermal film compared with other heating technologies are shown in the following table.
TABLE 1-1 comparison of heating technical analysis
Claims (8)
1. The safe graphene electrothermal film is characterized by comprising waterproof protective layers (8 and 14) arranged at two ends, grounding layers (9 and 13) clinging to the waterproof protective layers (8 and 14), infrared enhancement layers (10 and 12) clinging to the grounding layers (9 and 13), and a heating layer (11) between the infrared enhancement layers (10 and 12).
2. The safe graphene electrothermal film of claim 1, wherein: set up membrane (6) on the encapsulation heatable brick bed on the electric heat membrane surface, set up fixed orifices (5) on membrane (6) on the encapsulation heatable brick bed, membrane (6) top is connected with quick connect cable (7) on the encapsulation heatable brick bed, and quick connect cable (7) pass through cable conductor (3) and are connected with T type cable (2), set up closing cap (4) at the tip of cable conductor (3), and the other end and temperature controller (1) electricity of cable conductor (3) are connected.
3. The utility model provides an use fitment structure of electric heat membrane which characterized in that: the heat insulation layer (21) is arranged above a structural floor slab (22), an electric heating film layer (20) is arranged on the heat insulation layer (21), a protective layer (19) is arranged on the electric heating film layer (20), an equipotential net (18) is arranged on the protective layer (19), a waterproof isolation layer (17) is arranged on the equipotential net (18), a filling layer (16) is arranged on the waterproof isolation layer (17), and a decorative surface layer (15) is arranged on the filling layer (16).
4. A finishing structure using an electrothermal film as claimed in claim 3, wherein: the equipotential net (18) is hidden in the filling layer (16).
5. A finishing structure using an electrothermal film as claimed in claim 4, wherein: the protective layer (19) is a PE film with the thickness of 0.05 mm.
6. A finishing structure using an electrothermal film as claimed in claim 5, wherein: the thickness of the heat insulation layer (21) is 30 mm.
7. A finishing structure using an electrothermal film as claimed in claim 6, wherein: the thickness of the structural floor slab (22) is 100 mm.
8. A finishing structure using an electrothermal film as claimed in claim 7, wherein: the filling layer (16) is made of pea stone concrete and has the thickness of 30 mm.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112601299A (en) * | 2020-12-03 | 2021-04-02 | 元普(南京)能源环境科技有限公司 | Graphene heating structure with distributed soaking function |
CN114322052A (en) * | 2020-09-30 | 2022-04-12 | 庄继昌 | Nanometer ecological floor heating |
CN116528405A (en) * | 2023-07-04 | 2023-08-01 | 绵阳中物烯科技有限公司 | Combined type graphite alkene heating element and heating device |
-
2019
- 2019-08-16 CN CN201921336709.3U patent/CN210670598U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114322052A (en) * | 2020-09-30 | 2022-04-12 | 庄继昌 | Nanometer ecological floor heating |
CN112601299A (en) * | 2020-12-03 | 2021-04-02 | 元普(南京)能源环境科技有限公司 | Graphene heating structure with distributed soaking function |
CN116528405A (en) * | 2023-07-04 | 2023-08-01 | 绵阳中物烯科技有限公司 | Combined type graphite alkene heating element and heating device |
CN116528405B (en) * | 2023-07-04 | 2023-10-20 | 绵阳中物烯科技有限公司 | Combined type graphite alkene heating element and heating device |
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