CN204578803U - Graphite flake electric heating components and parts - Google Patents

Abstract

A kind of graphite flake electric heating components and parts, adopt thickness be 0.01mm ~ 1mm ultrathin flexible graphite flake as electrical heating element, after insulating barrier encapsulation, object is heated.By adopting different insulating layer materials, this electric heating element goes for the application of the various field of electric heating such as low temperature, middle temperature, high temperature and superhigh temperature.Insulating layer material coated outside graphite flake can insulate to graphite flake, improves the intensity of graphite flake simultaneously.This technology has stablizes durable, the advantage such as applicability is wide, with low cost and manufacturing process is simple, has both been applicable to industrial production in enormous quantities, and has also been applicable to the designing and making of laboratory high energy heater; Both may be used for the electric heating equipment in daily life, also can be used for the high temperature in industrial production and superhigh temperature heating art.

Description

Graphite flake electric heating components and parts

Technical field

The utility model relates to a kind of technology of electric heating device field, specifically a kind of graphite flake electric heating components and parts.

Background technology

Warm oneself from daily life use electric heating blanket, geothermal film, electric cup, electrothermal furnace etc., to boiling crisis density of heat flow rate experiment in use heating wall, all be unable to do without electric heater.And the important indicator evaluating electric heater heating effect and security performance is exactly the uniformity coefficient that heating face temperature distributes.If the surface temperature distribution of electric heating blanket is uneven, not only affect Consumer's Experience, and easily cause local overheating, seriously may cause the generation of the accidents such as fire.In the experiment of boiling crisis density of heat flow rate, if the heater surface temperatures skewness of heating wall, the direction of density of heat flow rate can be affected, and then experimental result is affected.Although surface temperature distribution is an important indicator of heater result of use and security performance, still more or less there are some problems in current existing heater, haves much room for improvement in this respect.

The heating element of current existing heater mainly contains metal electric heated filament, carbon fibre electrothermal wire etc.The electric blanket used in such as daily life, some implants heating wire to be used for generating heat in inside, and some utilizes carbon fiber knit to reticulate structure to generate heat.No matter but which kind of mode, all cannot reach the homogeneous heating of whole.The heater that heating wire is made into is only in the heating of heating wire place, and cannot generate heat between heating wire, this just causes the state that the whole area of heating surface cannot reach homogeneous heating.Although there is the netted heating element of carbon fiber knit to reduce the degree of irregularity of the area of heating surface to a certain extent, fundamentally do not address this problem.In addition, often can there is the situations such as bending in electric blanket in daily use, and the very easy situations such as fracture that occur in the situations such as bending of electrical heating wire wherein cause inefficacy.Although carbon fiber mechanical strength is very high, the generation of situations such as rupturing, damaged effectively can be avoided in daily use, but its cost is very high comparatively speaking, and core technology rests in external fewer companies hand, is unfavorable for reducing costs and extensive popularization and application.The heater relatively commonly used in field, laboratory is electrically heated rod.But owing to heating uneven and more satisfactory insulation effect cannot be reached, in the experimental applications in thermal-hydraulic field, often can there is the situation that heating rod damages.In addition, high-power electrically heated rod cost is also comparatively high.Except above-mentioned heater, also has some heaters such as indium tin oxide films, the coat of metal etc.The problems such as it is high that but these heaters generally exist difficulty of processing, poor insulativity, and cost is higher.Further, as the Conventional heaters such as resistance wire, heating rod, cannot fit by heating surface preferably under many circumstances, cause certain thermal loss; Although carbon fiber, tin indium oxide and metal coating etc. can be fitted preferably by heating surface, there is insulation effect bad, the problems such as processing cost is high, can not comprehensively substitute traditional metal electric heating products.

Compared to above-mentioned heater, graphite flake is a kind of brand-new Heat Conduction Material.Because the special crystal structure of graphite, the conductive coefficient of graphite flake transverse direction, up to 1500W/ (mK), is very beneficial for flattening Temperature Distribution when surface temperature distribution occurs uneven.When anaerobic, graphite flake can withstand the high temperature of more than 3000 DEG C, can be made into the heater that heating temperature range is very large.In addition, graphite flake surface can with other Material claddings such as metal, plastic cement, adhesive stickers to meet more design function and needs; Particularly flexible graphite platelet, by Compound Machining, can greatly strengthen its mechanical strength, can stand the situations such as bending fold, not only widen the scope of application, and can reduce taking of space by folding when storing.In addition, compared to carbon fiber heating silk, various different size and highly purified graphite flake process technology very ripe and universal, processing process is also relatively simple, and finished product stability is high, with low cost.Possessed and substituted the condition of traditional electrothermal resistance silk as heater element comprehensively, and laid the foundation for the exploitation of environmental protection, electric heater that performance is higher, the complete upgrading being expected to complete in the near future electric heating components and parts is regenerated.

Through finding the retrieval of prior art; open (bulletin) the day 2000.06.28 of Chinese patent literature CN1258186; disclose a kind of manufacture method of heating element of flexible electrothermal membrane; its method is first at macromolecule flexible matrix material coated with metal electrode on the surface; again aquadag slurry is coated on substrate material surface and metal electrode and forms Electric radiant Heating Film, fix one deck insulating protective layer thereon more thereafter.On the flexible matrix material of the electrothermal film heater set made by this technology, bent, can elongate within the specific limits, electrode, wire firmly can be fixed with electric membranous layer, insulation safety is good.But the shortcomings such as this technology exists complex process, and product stability is poor, and manufacturing cost is high.The allotment of graphite slurry and the more difficult control of homogeneity of smearing, easily like this cause heating uneven; Bonding material in slurry is ageing failure in Long-Time Service process easily, makes the power degeneration of this product and reduces useful life; With elargol as electrode, make the finished product of product high, be unfavorable for large-scale popularization; And this technology is only applicable to the low-temperature heat product of less than 100 degree.

Utility model content

The utility model is for prior art above shortcomings, a kind of graphite flake electric heating components and parts are proposed, the graphite flake that the thickness adopting existing mature technology to produce is homogeneous, purity is high, through gluing and with insulating material compound, the electric heating components and parts produced can be widely used in low temperature, middle temperature, high temperature and superhigh temperature (more than 3000 degree) various field of electric heating.Manufacturing process of the present utility model is simple and reliable, and product stability is good, with low cost, long service life, is expected to realize regenerating to the complete upgrading of existing electric heating components and parts.

The utility model is achieved through the following technical solutions:

The utility model relates to a kind of graphite flake electric heating components and parts, comprising: insulating barrier, the electrode being arranged at flexible graphite platelet between insulating barrier and two ends thereof and the fluid sealant be arranged between flexible graphite platelet and described insulating barrier.

Described flexible graphite platelet as electrical heating elements, specifically between dielectric layers, and utilize thermostable heat-conductive glue be sealed in wherein with oxygen-barrier, utilize electric heating that graphite flake is generated heat, realize the heating to exterior object.

Described electrode can adopt metal (copper, aluminium, steel etc.), also can adopt non-metal electrode (as graphite, carbon fiber etc.), then be connected with power lead.

The thickness of described ultrathin flexible graphite flake is 0.01 ~ 1mm, has good lateral thermal conductivity energy 1500W/ (mK).

Described insulating barrier adopts polycarbonate film, polyimide film, mica paper or ceramic material etc., is specially:

1) when heating-up temperature is below 100 DEG C, be low-temperature heater, now insulating barrier adopts polycarbonate film, and fluid sealant adopts the thermal plastic insulation of heatproof about 150 DEG C;

2) when heating-up temperature is between 100 ~ 400 DEG C, be middle temperature heater, now insulating barrier adopts polyimide film, and fluid sealant adopts the thermal plastic insulation of heatproof about 450 DEG C;

3) when heating-up temperature is between 400 ~ 1000 DEG C, be high temperature heater (HTH), now insulating barrier adopts mica paper, and fluid sealant adopts the thermal plastic insulation of heatproof more than 1000 DEG C;

4) when heating-up temperature is between 1000 ~ 3000 DEG C, be superhigh temperature heater, now insulating barrier adopts ceramic material.

Technique effect

Compared with prior art, the utility model adopts ultrathin flexible graphite flake as electric heating components and parts, and its horizontal conductive coefficient is high, and the temperature homogeneity on heating tube surface is good, realizes higher fail safe.And graphite flake is high temperature resistant, in heating process, good stability can be kept.Additionally by replacing fluid sealant and insulating layer material, the application of wide temperature range can be realized.Structure is simple, easy to make, with low cost, and in daily life, the every field such as industrial production and laboratory applications, can play a part large very large.Being expected in the near future can full-scale development replace traditional electric heating exothermic material, realizes comprehensive industrial upgrading in electric heating field.Accompanying drawing explanation

Fig. 1 the utility model structural representation.

Embodiment

Below embodiment of the present utility model is elaborated; the present embodiment is implemented under premised on technical solutions of the utility model; give detailed execution mode and concrete operating process, but protection range of the present utility model is not limited to following embodiment.

Embodiment 1

As shown in Figure 1, the present embodiment comprises: insulating barrier 1, be arranged at flexible graphite platelet 3 between insulating barrier 1 and the red copper foil electrode 2 at two ends thereof and the fluid sealant 4 between graphite flake and insulating barrier.

Described insulating barrier 1, adopts different materials according to the difference of heating-up temperature, wherein:

1) when heating-up temperature is below 100 DEG C, be low-temperature heater.Now insulating barrier adopts polycarbonate film, and fluid sealant adopts the thermal plastic insulation of heatproof about 150 DEG C.Polycarbonate film can heatproof about 130 DEG C, and has good insulating properties and mechanical strength.While micanite ink sheet, strengthen the intensity of whole heater.

2) when heating-up temperature is between 100 ~ 400 DEG C, be middle temperature heater.Now insulating barrier adopts polyimide film, and fluid sealant adopts the thermal plastic insulation of heatproof about 450 DEG C.Polyimide film can heatproof about 500 DEG C, and has good insulating properties and mechanical strength.While micanite ink sheet, strengthen the intensity of whole heater.

3) when heating-up temperature is between 400 ~ 1000 DEG C, be high temperature heater (HTH).Now insulating barrier adopts mica paper, and fluid sealant adopts the thermal plastic insulation of heatproof more than 1000 DEG C.Mica paper heatproof more than 1000 DEG C, and has good insulating properties and mechanical strength.While micanite ink sheet, strengthen the intensity of whole heater.

4) when heating-up temperature is between 1000 ~ 3000 DEG C, be superhigh temperature heater.Now insulating barrier adopts ceramic material, realizes sealing by mechanical structure.

The heating element of described heater adopts graphite flake 3, and its conductive coefficient is high, and the temperature homogeneity of the area of heating surface is good, and graphite flake is high temperature resistant, can keep good integrality in heating process.And flexible graphite platelet is easy to cut out, can needs to produce difformity easily according to different and mate power supply, power and resistance; Simultaneously ultrathin flexible graphite flake has good flexility and is perfectly wound around or is fitted in heating object surface and have excellent lateral thermal conductivity energy conductive coefficient up to 1500W/ (mK), heat can be realized transmit efficiently, the heter temperature designed is distributed very evenly.

Described heater adopts red copper foil 2 as Electrode connection common power at ultrathin flexible graphite flake two ends, scribble high-temperature insulation conduction heat sealable glue 4, as Waterproof gum etc., carry out electric insulation and encapsulation process between graphite flake and insulating barrier.

The present embodiment relates to the preparation of above-mentioned graphite flake electric heating components and parts, according to the needs for heating-up temperature and heater size, carries out machine cuts or laser engraving to graphite flake, forms the resistance and density of heat flow rate that need.

When adopt overall graphite flake cannot reach when there being size restrictions heating-up temperature require time, by laser engraving, graphite flake is engraved as the shapes such as snakelike, spirality, increases resistance, its power is increased.

When carrying out laser engraving, the lasing beam diameter of employing is generally less than 1mm, and therefore the gap of carve is very little, and the homogeneity impact for face temperatures can be ignored.

In this embodiment, described insulating barrier 1 preferably adopts polyimide film adhesive tape, and graphite flake 3 thickness is 0.05mm, and length is 35mm, width is 15mm; Graphite flake 3 two ends are connected upper red copper foil electrode 2, then wraps up one deck high-temperature insulation heat-conducting glue 4 at graphite flake outer surface and be pasted onto between dielectric layers 1 fixing.

Compared with prior art, the utility model method makes simple, and cheap, heating effect is good, has good practical value.Carrying out after the method such as machine cuts or laser engraving Precision Machining changes its resistance to graphite flake, its density of heat flow rate can up to 200W/cm ², far above 0.1 ~ 1.5W/cm of prior art ².

Claims (6)

1. graphite flake electric heating components and parts, is characterized in that, comprising: insulating barrier, the electrode being arranged at flexible graphite platelet between insulating barrier and two ends thereof and the fluid sealant be arranged between flexible graphite platelet and described insulating barrier.

2. graphite flake electric heating components and parts according to claim 1, it is characterized in that, described flexible graphite platelet is as electrical heating elements, specifically between dielectric layers, and utilize thermostable heat-conductive glue be sealed in wherein with oxygen-barrier, utilize graphite flake to generate heat, and realize the heating to exterior object by insulating barrier.

3. graphite flake electric heating components and parts according to claim 1, it is characterized in that, described electrode is connected with power lead, and this electrode is metal or nonmetally makes.

4. the graphite flake electric heating components and parts according to claim 1 or 3, is characterized in that, described electrode is that copper, aluminium, steel, graphite or carbon fiber are made.

5. graphite flake electric heating components and parts according to claim 1, is characterized in that, the thickness of described ultrathin flexible graphite flake is , there is lateral thermal conductivity energy .

6. graphite flake electric heating components and parts according to claim 1, is characterized in that,

1) when heating-up temperature exists time following, be low-temperature heater, now insulating barrier adopts polycarbonate film, and fluid sealant adopts heatproof the thermal plastic insulation of left and right;

2) when heating-up temperature exists between time, be middle temperature heater, now insulating barrier adopt polyimide film, fluid sealant adopt heatproof the thermal plastic insulation of left and right;

3) when heating-up temperature exists between time, be high temperature heater (HTH), now insulating barrier adopt mica paper, fluid sealant adopt heatproof above thermal plastic insulation;

4) when heating-up temperature exists between time, be superhigh temperature heater, now insulating barrier adopt ceramic material.