CN205566677U - Brilliant aluminum alloy of graphite olefinic carbon far infrared module of generating heat - Google Patents

Abstract

The utility model discloses a brilliant aluminum alloy of graphite olefinic carbon far infrared module of generating heat belongs to heating ceramic tile technical field, it contains insulating layer, glass fiber board layer, graphite alkene layer, the brilliant sheet layer of carbon, the insulating layer closely set up the top on the glass fiber board layer, graphite alkene layer closely the laminating in the bottom on glass fiber board layer, the brilliant sheet layer of carbon is disposed under the graphite alkene layer, the centre on graphite alkene layer inlay and have several infrared heating chip, the brilliant sheet layer of carbon form by aluminium alloy layer, carbon crystallite heating layer, thermal insulating layer, aluminium foil layer, the aluminium alloy layer direct with the contact of graphite alkene layer, the below of aluminium alloy layer be equipped with carbon crystallite heating layer. Its structural design is reasonable, energy -conservation, environmental protection, safety, use comfort is high, the homogeneity of generating heat is good, the heat dissipation, thermal -insulated, keep warm effectually, and be favorable to the health, the facilitate promotion is used.

Description

A kind of graphene carbon grained aluminium alloy heating far infrared module

Technical field:

This utility model relates to ceramic tile technical field of generating heat, and is specifically related to a kind of graphene carbon crystalline substance aluminum and closes The heating far-infrared module of golden hair.

Background technology:

Heating ceramic tile is that traditional ceramic tile is by applying certain technology can oneself to give off heat, typically For floor heating.

At present, mostly the ceramic tile that generates heat on the market is by exothermal infrared, and a large amount of bottom ceramic tile Using exothermal infrared chip, cost is high, and the uniformity of heating is bad, ceramic tile heat insulation, anti- Tide effect is bad, causes service life short；In prior art, the thickness of heating ceramic tile is than general porcelain Brick wants thick a lot, when laying, can decrease the space of indoor on the whole, and Practical Performance is the best.

Utility model content:

For the problems referred to above, the technical problems to be solved in the utility model is to provide a kind of structure design Rationally, easy to use, generate heat, dispel the heat, good heat-insulation effect and relatively thin graphene carbon grained aluminium alloy Heating far infrared module.

A kind of graphene carbon grained aluminium alloy heating far infrared module of the present utility model, it comprises absolutely Edge layer, glass fiberboard, graphene layer, carbon crystalline substance flaggy；Described insulating barrier is tightly disposed in The top of glass fiberboard；Described graphene layer is fitted tightly over the bottom of glass fiberboard； Described carbon crystalline substance flaggy is arranged on the lower section of graphene layer；The centre of described graphene layer is inlaid with Several exothermal infrared chips；Described carbon crystalline substance flaggy is by aluminium alloy layer, carbon trichite thermosphere, insulation Thermal insulation layer, aluminium foil layer form；Described aluminium alloy layer directly contacts with graphene layer；Described aluminum The lower section of alloy-layer is provided with carbon trichite thermosphere；The bottom of described carbon trichite thermosphere is provided with insulation Layer；The bottom of described heat insulation layer is provided with aluminium foil layer.

As preferably, the two ends of described glass fiberboard are inlaid with copper bar, improve heat transfer, Radiating effect.

As preferably, described exothermal infrared chip replaces with exothermal infrared dose, so generates heat Uniformity good.

As preferably, described heat insulation layer is polyurethane, reaches food grade standard, non-volatile Property material, has been thermal insulation function.

Described aluminium foil layer plays the effect of reflecting far-infrared ray, it is also possible to heat insulation, moistureproof.

Described graphene layer is the thinnest, reduces the thickness of ceramic tile on the whole, graphene layer strong Degree height, heat conductivility is good, and evenness is good.

This utility model utilizes the thinness of Graphene to reduce the thickness of heating module on the whole, from And reduce the thickness of ceramic tile, it is to avoid problems of the prior art, and the heat conduction of Graphene Performance is fine, can improve the uniformity of heating, also utilizes aluminium alloy layer to increase the intensity of entirety, Improve the use quality of ceramic tile, it addition, use carbon crystal heat to combine with exothermal infrared, reach While heating effect, it is also possible to improve the microcirculation of human body, enhance metabolism, improve human body Immunity, is good for one's health.

When this utility model installs operation, the bottom of ceramic tile can be embedded in by modularity, install simple, Maintenance is convenient, changes also very convenient, which simplify the processing technique of heating ceramic tile, reduce and add Work cost, it is simple to marketing.

The beneficial effects of the utility model: its reasonable in design, energy-saving and environmental protection, safety, make High by comfort level, the uniformity of heating is good, heat radiation, heat insulation, high insulating effect, and beneficially people Body is healthy, it is simple to popularization and application.

Accompanying drawing illustrates:

For ease of explanation, this utility model is embodied as and accompanying drawing is described in detail by following.

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the schematic diagram of glass layer in this utility model；

Fig. 3 is the schematic diagram of graphene layer in this utility model；

Fig. 4 is the schematic diagram of carbon crystalline substance flaggy in this utility model；

In figure:

Insulating barrier 1, glass fiberboard 2, graphene layer 3, carbon crystalline substance flaggy 4, copper bar 21, red Outside line euthermic chip 31, aluminium alloy layer 41, carbon trichite thermosphere 42, heat insulation layer 43, aluminium foil Layer 44.

Detailed description of the invention:

As shown in Figures 1 to 4, this detailed description of the invention is by the following technical solutions: it comprises absolutely Edge layer 1, glass fiberboard 2, graphene layer 3, carbon crystalline substance flaggy 4；Described insulating barrier 1 is tight The close top being arranged on glass fiberboard 2；Described graphene layer 3 is fitted tightly over glass fibers The bottom of dimension flaggy 2；Described carbon crystalline substance flaggy 4 is arranged on the lower section of graphene layer 3；Described The centre of graphene layer 3 is inlaid with several exothermal infrared chip 31；Described carbon crystalline substance flaggy 4 by Aluminium alloy layer 41, carbon trichite thermosphere 42, heat insulation layer 43, aluminium foil layer 44 form；Described Aluminium alloy layer 41 directly contacts with graphene layer 3；The lower section of described aluminium alloy layer 41 is provided with carbon Trichite thermosphere 42；The bottom of described carbon trichite thermosphere 42 is provided with heat insulation layer 43；Described The bottom of heat insulation layer 43 is provided with aluminium foil layer 44.

Wherein, the two ends of described glass fiberboard 2 are inlaid with copper bar 21, improve heat transfer, Radiating effect；Described exothermal infrared chip 31 replaces with exothermal infrared dose, so generates heat Uniformity is good；Described heat insulation layer 43 is polyurethane, reaches food grade standard, non-volatility Material, has been thermal insulation function；Described aluminium foil layer 44 plays the effect of reflecting far-infrared ray, also Can be heat insulation, moistureproof；Described graphene layer 3 is the thinnest, reduces the thickness of ceramic tile on the whole, The intensity of graphene layer 3 is high, and heat conductivility is good, and evenness is good.

This detailed description of the invention utilizes the thinness of Graphene to reduce the thickness of heating module on the whole Degree, thus reduce the thickness of ceramic tile, it is to avoid problems of the prior art, and Graphene Heat conductivility fine, the uniformity of heating can be improved, also utilize aluminium alloy layer 41 whole to increase The intensity of body, improves the use quality of ceramic tile, it addition, use carbon crystal heat and exothermal infrared phase In conjunction with, while reaching heating effect, it is also possible to improve the microcirculation of human body, enhance metabolism, Improve body immunity, be good for one's health.

When this detailed description of the invention installs operation, the bottom of ceramic tile can be embedded in by modularity, install Simply, maintenance is convenient, changes also very convenient, which simplify the processing technique of heating ceramic tile, fall Low processing cost, it is simple to marketing；This detailed description of the invention reasonable in design, energy-conservation, Environmental protection, safety, comfort is high, and the uniformity of heating is good, heat radiation, heat insulation, heat insulation effect Good, and beneficially health, it is simple to popularization and application.

Of the present utility model ultimate principle and principal character are more than shown and described and this practicality is new The advantage of type.Skilled person will appreciate that of the industry, this utility model is not by above-described embodiment Limit, principle of the present utility model is simply described, not described in above-described embodiment and description On the premise of departing from this utility model spirit and scope, this utility model also has various change and changes Enter, in the range of these changes and improvements both fall within claimed this utility model.This utility model Claimed scope is defined by appending claims and equivalent thereof.

Claims (4)

1. a graphene carbon grained aluminium alloy heating far infrared module, it is characterised in that it comprises absolutely Edge layer, glass fiberboard, graphene layer, carbon crystalline substance flaggy；Described insulating barrier is tightly disposed in The top of glass fiberboard；Described graphene layer is fitted tightly over the bottom of glass fiberboard； Described carbon crystalline substance flaggy is arranged on the lower section of graphene layer；The centre of described graphene layer is inlaid with Several exothermal infrared chips；Described carbon crystalline substance flaggy is by aluminium alloy layer, carbon trichite thermosphere, insulation Thermal insulation layer, aluminium foil layer form；Described aluminium alloy layer directly contacts with graphene layer；Described aluminum The lower section of alloy-layer is provided with carbon trichite thermosphere；The bottom of described carbon trichite thermosphere is provided with insulation Layer；The bottom of described heat insulation layer is provided with aluminium foil layer.

A kind of graphene carbon grained aluminium alloy heating far infrared module the most according to claim 1, It is characterized in that the two ends of described glass fiberboard are inlaid with copper bar.

A kind of graphene carbon grained aluminium alloy heating far infrared module the most according to claim 1, It is characterized in that described exothermal infrared chip replaces with exothermal infrared dose.

A kind of graphene carbon grained aluminium alloy heating far infrared module the most according to claim 1, It is characterized in that described heat insulation layer is polyurethane.