CN107083833A - Graphene composite material far-infrared negative-ion warms up core electric heating floor and its manufacture craft - Google Patents

Abstract

The invention belongs to electrothemic floor field of heating, more particularly to a kind of graphene composite material far-infrared negative-ion warms up core electric heating floor and its manufacture craft.It is connected at the top of heat-insulation layer by glue-line with back side balance layer, it is connected at the top of the balance layer of the back side by glue-line with solid wood composite board or high-density plate, it is connected at the top of solid wood composite board or high-density plate by glue-line with graphene nano far-infrared negative-ion composite fibre conductive exothermal film, it is connected, is connected at the top of solid wood composite board or high-density plate by glue-line with decorative cover with solid wood composite board or high-density plate by glue-line at the top of graphene nano far-infrared negative-ion composite fibre conductive exothermal film.In order to preferably save and play the demand that electric heating floor wants expanded function, the present invention is using current advanced graphene raw material, as heater because grapheme material is the best material of generally acknowledged conductance, thermal conductivity, higher than thermo electric materials such as carbon fiber and CNTs, its electric conversion rate is higher, far infrared radiation is stronger.

Description

Graphene composite material far-infrared negative-ion warms up core electric heating floor and its manufacture craft

Technical field

The invention belongs to electrothemic floor field of heating, more particularly to a kind of graphene composite material far-infrared negative-ion warms up core Electric heating floor and its manufacture craft.

Background technology

Haze phenomenon causes the replacement of consumption of coal, will promote the development of clean energy resource heating system, wherein just including electricity Heating, is that electric heating industry creates wide development opportunity.The rise of electric heating, drives the zoarium on floor, a kind of new electrically heating Warm core floor is quietly risen, and the various three-in-one electric heating floors for integrating health care decoration and warming oneself occurs in the market. Though appearance is the same, function is simultaneously differed, and service life also all so it is different, be exactly because inner heat part not Together.

For the kind of existing market, heater has metal, carbon dust ink, organic resin chip, carbon fibre paper layer patch Pressure, it is good and bad different, such as：Metallic conductive inks, carbon dust electrically conductive ink have power attenuation after using a stage, while this Electrode used in a little heaters, typically all conductive silver paste printing or conductive gluing copper foil, do electric heating floor compound tense and glue Incessantly, so the time one long will arc of recess, it is important to which interior contact just has loosening, sparking power reduction floor is scrapped, and The weaker effect for not having health care at all of far-infrared radiation intensity of these ink, organic resin piece is just more bad to be compounded in one Rise because the requirement that organic material and wood materials are combined to glue is very high, once make moist i.e. with organic board arc of recess, make floor tight Deformation can not be used again, and consequence is very serious.

The content of the invention

Core electric heating floor and its system are warmed up it is an object of the invention to provide a kind of graphene composite material far-infrared negative-ion Make technique, solve present in prior art it is not durable in use enough, the problems such as healthcare function is poor.

The technical scheme is that：

A kind of graphene composite material far-infrared negative-ion warms up core electric heating floor, and the electric heating floor includes decorative cover, solid wood Composite plate or high-density plate, graphene nano far-infrared negative-ion composite fibre conductive exothermal film, back side balance layer, heat-insulation layer, Glue-line, concrete structure is as follows：

It is connected at the top of heat-insulation layer by glue-line with back side balance layer, glue-line and solid wood composite board is passed through at the top of the balance layer of the back side Or high-density plate connection, solid wood composite board or high-density plate top pass through glue-line and the compound fibre of graphene nano far-infrared negative-ion Tie up multiple by glue-line and solid wood at the top of the connection of conductive exothermal film, graphene nano far-infrared negative-ion composite fibre conductive exothermal film It is connected at the top of plywood or high-density plate connection, solid wood composite board or high-density plate by glue-line with decorative cover.

Described graphene composite material far-infrared negative-ion warms up core electric heating floor, and graphene nano far-infrared negative-ion is answered Condensating fiber conductive exothermal film includes：Plant fiber pulp, graphene powder glue, nanometer bamboo carbon fiber powder or nano-far-infrared bear from Sub- powder, fiber diffusant, in parts by weight, 50~80 parts of plant fiber pulp, 10~30 parts of graphene powder glue, nanometer 5~10 parts of bamboo-carbon fibre powder or nano-far-infrared negative ion powder, 2~5 parts of fiber diffusant.

Described graphene composite material far-infrared negative-ion warms up core electric heating floor, and the composition of plant fiber pulp is as follows, presses Parts by weight meter, 4~6 parts of sodium hydroxide, 55~65 parts of string, 30~50 parts of water；The composition of graphene powder glue is such as Under, count by weight, 30~40 parts of graphene powder, 50~60 parts of ethanol water, modified rosin rubber powder emulsion 10~20 Part；In graphene powder, the percentage by weight containing 5~10 layer graphene powders is 30%~50%；Ethanol water is The aqueous solution mixed by purity 80wt%~90wt% second alcohol and water by 10~20% percentage by weight；Modified rosin glue Powder emulsion is by modified rosin and ethanol by weight proportion 1：The emulsion that (5~15) are mixed, modified rosin is gum rosin, hydrogen Change rosin, disproportionated rosin or newtrex；A diameter of 10~100 microns of nanometer bamboo carbon fiber powder, 10~20 microns of length, transmitting Far infrared release anion number is more than 6500/cubic centimetre；Fiber diffusant uses sodium metnylene bis-naphthalene sulfonate.

Described graphene composite material far-infrared negative-ion warms up the manufacture craft of core electric heating floor, and graphene nano is far red The manufacturing process of outer anion composite fibre conductive exothermal film is as follows：

Passed through using plant fiber pulp, graphene powder glue, nanometer bamboo carbon fiber powder or nano-far-infrared negative ion powder Break-in, mix, stir, the system of copying, drying, volume process is made in compacting；In manufacturing process, by break-in, mixing, stir as follows Process, string is carried out after broom processing by disc mill, makes it easier to be combined with graphene powder glue, is added Graphene powder glue is mixed, stirred, add fiber diffusant and nanometer bamboo carbon fiber powder or nano-far-infrared bear from Sub- powder is stirred uniformly, regard graphene nano far-infrared negative-ion composite fibre conductive exothermal film as heat generating core main body.

Described graphene composite material far-infrared negative-ion warms up the manufacture craft of core electric heating floor, makes graphene nano Far-infrared negative-ion composite fibre conductive exothermal film is comprised the following steps that：

(1) graphene powder surface is made to obtain fully after ethanol water soaks 1~5 hour graphene powder Purification；

(2) after soak time is met, modified rosin rubber powder emulsion is added, graphene powder is sufficiently mixed, is sufficiently stirred for Graphene powder glue, stand for standby use are formed afterwards；

(3) string has been ground into broom shape with disc mill to occur, sodium hydroxide, string, water is mixed, are put into Stirring pool continues to stir, and forms plant fiber pulp；

(4) graphene powder glue is delivered into stirring pool, is mixed 1~5 hour with plant fiber pulp, make plant Fiber is fully combined to be combined and is integrally formed with graphene powder, string is obtained the abundant parcel of graphene powder；

(5) fiber diffusant and nanometer bamboo carbon fiber powder or nano-far-infrared negative ion powder are added, continues 1~5 hour extremely Stir, obtain the slurries for preparing graphene nano far-infrared negative-ion composite fibre conductive exothermal film；

(6) need to examine after the completion of mixing, stirring, after the assay was approved, through the system of copying, drying, compacting, form graphene nano Far-infrared negative-ion composite fibre conductive exothermal film.

Described graphene composite material far-infrared negative-ion warms up the manufacture craft of core electric heating floor, and graphene nano is far red The resistivity of outer anion composite fibre conductive exothermal film is 40 to 80 Ω cm.

Advantages of the present invention and beneficial effect are：

1st, in order to preferably save and play the demand that electric heating floor wants expanded function, the present invention is using current advanced stone Black alkene raw material, as heater because grapheme material is the best material of generally acknowledged conductance, thermal conductivity, higher than carbon fiber With the thermo electric material such as CNT, its electric conversion rate is higher, far infrared radiation is stronger.So, the present invention using graphene with Other materials is compound to be used as exothermic material.

2nd, graphene be now it has been recognized that conductance highest, heat conduction maximum intensity most fast new material, be far above Some new materials such as carbon fiber carbon nanotube.The present invention goes out graphite using graphene as heating material with string produced with combination Alkene nano-far-infrared anion composite fibre conductive heating layer, then by organic silica gel and non-woven fabrics cotton etc. it is compound be made it is various Shape, by the use of graphene electrically conducting transparent characteristic as electric heating film, with heating efficiency height, uniform distinguishing feature of generating heat.

3rd, the graphene nano far-infrared negative-ion composite fibre conductive heating layer that the present invention makes has surface resistivity Adjustable the characteristics of, available for antistatic circuit, effectively electric charge can be discharged, while having far infrared transmission and anion to release The function of putting, plays purifying sterilizing effect, plays a part of again to health.

4th, the present invention uses graphene nano far-infrared negative-ion composite fibre conductive heating layer, can improve electric conductivity, add Strong thermal conductivity, these indexs are significantly larger than electric conduction of carbon fiber heating property.

5th, graphene nano far-infrared negative-ion composite fibre conductive heating layer of the present invention, with string and Graphene powder Based on body, supplemented by nanometer bamboo carbon fiber and additive, by grinding, mixing, compound frying, drying compacting, it is compound after make Form.

6th, compared with existing technology, it is more preferable with string that the technology of the present invention process program employs graphene powder With reference to, it is combined the graphene nano far-infrared negative-ion composite fibre conductive heating layer electric current after being made and distributes more perfect, hair Heat is more uniform, and stability is more preferable.Simultaneously as adding nanometer bamboo carbon fiber has far infrared and the function of anion, more Plus it is environmentally friendly, more healthy.Moreover, bamboo-carbon fibre more has the title of dark fund, it is more perfect by rational technique in manufacturing process, Increase amount of radiation to improve, the finished product that radiation intensity words are made more has development than existing product.

Brief description of the drawings

Fig. 1 is that graphene composite material far-infrared negative-ion of the present invention warms up core electric heating floor board structure schematic diagram.In figure, 1 dress Facing；2 solid wood composite boards or high-density plate；3 graphene nano far-infrared negative-ion composite fibre conductive exothermal films；Put down at 4 back sides Weigh layer；5 heat-insulation layers；6 glue-lines.

Embodiment

As shown in figure 1, graphene composite material far-infrared negative-ion of the present invention warms up core electric heating floor, mainly include：Decoration Face 1, solid wood composite board or high-density plate 2, graphene nano far-infrared negative-ion composite fibre conductive exothermal film 3, back side balance Layer 4, heat-insulation layer 5, glue-line 6 etc., concrete structure is as follows：

The top of heat-insulation layer 5 is connected by glue-line 6 with back side balance layer 4, and the top of back side balance layer 4 passes through glue-line 6 and solid wood Composite plate or high-density plate 2 are connected, and solid wood composite board or the top of high-density plate 2 are born by glue-line 6 and graphene nano far infrared Ion composite fibre conductive exothermal film 3 is connected, and the top of graphene nano far-infrared negative-ion composite fibre conductive exothermal film 3 passes through Glue-line 6 is connected with solid wood composite board or high-density plate 2, and solid wood composite board or the top of high-density plate 2 pass through glue-line and decorative cover 1 Connection.

The present invention prepares graphene nano far infrared using Chinese invention patent application (application number 201710096589.3) Anion composite fibre conductive exothermal film, regard graphene nano far-infrared negative-ion composite fibre conductive exothermal film as heat generating core Main body, core electric heating floor is warmed up for graphene composite material far-infrared negative-ion.

The preparation method of the graphene nano far-infrared negative-ion composite fibre conductive exothermal film, using string Slurry, graphene powder glue, nanometer bamboo carbon fiber powder (or nano-far-infrared negative ion powder) etc. by break-in, mix, stir, copy System, drying, the process such as roll up in compacting and be made.In manufacturing process, by break-in, mix, following process stirred, by string Carried out by disc mill after broom processing, make it easier to be combined with graphene powder glue, add graphene powder glue Mixed, stirred, added fiber diffusant and nanometer bamboo carbon fiber powder (or nano-far-infrared negative ion powder) is stirred Uniformly.Its specific preparation process is as follows：

1st, by graphene powder after ethanol water soaks 1~5 hour, obtain graphene powder surface fully net Change；

2nd, after soak time is met, modified rosin rubber powder emulsion is added, is sufficiently mixed graphene powder, after being sufficiently stirred for Form graphene powder glue, stand for standby use；

3rd, string has been ground into broom shape with disc mill to occur, sodium hydroxide, string, water is mixed, are put into Stirring pool continues to stir, and forms plant fiber pulp；

4th, graphene powder glue is delivered into stirring pool, is mixed 1~5 hour with plant fiber pulp, make plant Fiber is fully combined to be combined and is integrally formed with graphene powder, string is obtained the abundant parcel of graphene powder；

5th, fiber diffusant and nanometer bamboo carbon fiber powder (or nano-far-infrared negative ion powder) are added, is continued 1~5 hour To stirring, the slurries for preparing graphene nano far-infrared negative-ion composite fibre conductive exothermal film are obtained；

6th, need to examine after the completion of mixing, stirring, after the assay was approved, through the system of copying, drying, compacting, form graphene nano Far-infrared negative-ion composite fibre conductive exothermal film.Using 200~300 eye mesh screens in gained slurries 10 centimetres of depth below, Whether sampling more than three times, press dry moisture, illumination and removes moisture removal, uniform by estimating.Then resistance measurement is carried out, it is desirable to three times Error is within the scope of 2~5% is interior between above resistance, and resistivity, can be as needed in the range of 2~2000 Ω cm It is adjusted.

Below, the present invention is further elaborated on by embodiment.

Embodiment 1

In the present embodiment, graphene composite material far-infrared negative-ion warms up the manufacture craft of core electric heating floor, referring to China Application for a patent for invention (publication number：CN103982937A), its difference is, the compound fibre of graphene nano far-infrared negative-ion The manufacturing process for tieing up conductive exothermal film is as follows：

Graphene nano far-infrared negative-ion is prepared using Chinese invention patent application (application number 201710096589.3) Composite fibre conductive exothermal film, regard graphene nano far-infrared negative-ion composite fibre conductive exothermal film as heat generating core main body.

Graphene nano far-infrared negative-ion composite fibre conductive exothermal film, including plant fiber pulp, graphene powder glue Liquid, nanometer bamboo carbon fiber powder (or nano-far-infrared negative ion powder) and fiber diffusant, in parts by weight, string (such as：Virgin fibers) 80 parts of slurry, 10 parts of graphene powder glue, nanometer bamboo carbon fiber powder (or nano-far-infrared negative ion powder) 7 Part, 3 parts of fiber diffusant.

The composition of plant fiber pulp is as follows, counts by weight, 5 parts of sodium hydroxide, 60 parts of string, 35 parts of water.Stone The composition of black alkene powder glue is as follows, counts by weight, 35 parts of graphene powder, 50 parts of ethanol water, modified rosin glue 15 parts of powder emulsion.In graphene powder, the percentage by weight containing 5~10 layer graphene powders is 40%.Ethanol water It is the aqueous solution with purity 85wt% percentage by weight of the second alcohol and water by 15%.Modified rosin rubber powder emulsion is by changing Property rosin and ethanol by weight proportion 1：15 emulsions mixed, modified rosin is disproportionated rosin.Nanometer bamboo carbon fiber powder is straight Footpath is 10~100 microns, 10~20 microns of length, and fiber diffusant uses sodium metnylene bis-naphthalene sulfonate.

In the present embodiment, the preparation process of graphene nano far-infrared negative-ion composite fibre conductive exothermal film is as follows：

(1), by graphene powder after ethanol water soaks 2 hours, obtain graphene powder surface fully net Change；

(2) after, soak time is met, modified rosin rubber powder emulsion is added, graphene powder is sufficiently mixed, is sufficiently stirred for Graphene powder glue, stand for standby use are formed afterwards；

(3) string, has been ground into broom shape with disc mill to occur, sodium hydroxide, string, water are mixed, put Continue to stir to stirring pool, form plant fiber pulp；

(4), graphene powder glue is delivered into stirring pool, mixed 3 hours with plant fiber pulp, makes plant fine Dimension is fully combined to be combined and is integrally formed with graphene powder, string is obtained the abundant parcel of graphene powder；

(5) fiber diffusant and nanometer bamboo carbon fiber powder (or nano-far-infrared negative ion powder), are added, continues 2 hours extremely Stir, obtain the slurries for preparing graphene nano far-infrared negative-ion composite fibre conductive exothermal film；

(6), need to examine after the completion of mixing, stirring, after the assay was approved, through the system of copying, drying, compacting, form graphene and receive Rice far-infrared negative-ion composite fibre conductive exothermal film.Using 300 eye mesh screens in gained slurries 10 centimetres of depth below, take Whether sample five times, press dry moisture, illumination and removes moisture removal, uniform by estimating.Then carry out resistance measurement, it is desirable to five resistances it Between error in 2~5% within the scope of.

The present embodiment graphene nano far-infrared negative-ion composite fibre conductive exothermal film, resistivity is 40 to 80 Ω Cm, can be used as electric heater for warming floor.Using above-mentioned graphene nano far-infrared negative-ion composite fibre conductive exothermal film, on demand Size is cut out, and electrode is riveted on both sides.Electrode selects the mm wide of copper strips 10~15, and thickness selects 0.05 millimeter, by electrode It is stand-by after riveting is on graphene nano far-infrared negative-ion composite fibre conductive exothermal film.

Claims (6)

1. a kind of graphene composite material far-infrared negative-ion warms up core electric heating floor, it is characterised in that the electric heating floor includes dress Facing, solid wood composite board or high-density plate, graphene nano far-infrared negative-ion composite fibre conductive exothermal film, back side balance Layer, heat-insulation layer, glue-line, concrete structure are as follows：

It is connected at the top of heat-insulation layer by glue-line with back side balance layer, glue-line and solid wood composite board or height is passed through at the top of the balance layer of the back side Density board is connected, and is led at the top of solid wood composite board or high-density plate by glue-line with graphene nano far-infrared negative-ion composite fibre Electric heating film is connected, and glue-line and solid wood composite board are passed through at the top of graphene nano far-infrared negative-ion composite fibre conductive exothermal film Or high-density plate connection, solid wood composite board or high-density plate top are connected by glue-line with decorative cover.

2. warm up core electric heating floor according to the graphene composite material far-infrared negative-ion described in claim 1, it is characterised in that stone Black alkene nano-far-infrared anion composite fibre conductive exothermal film includes：Plant fiber pulp, graphene powder glue, bamboo charcoal nano Fiber powder or nano-far-infrared negative ion powder, fiber diffusant, in parts by weight, 50~80 parts of plant fiber pulp, graphite 5~10 parts of 10~30 parts of alkene powder glue, nanometer bamboo carbon fiber powder or nano-far-infrared negative ion powder, fiber diffusant 2~5 Part.

3. warm up core electric heating floor according to the graphene composite material far-infrared negative-ion described in claim 2, it is characterised in that plant The composition of fibres slurry is as follows, counts by weight, 4~6 parts of sodium hydroxide, 55~65 parts of string, 30~50 parts of water；Stone The composition of black alkene powder glue is as follows, counts by weight, 30~40 parts of graphene powder, and 50~60 parts of ethanol water changes 10~20 parts of property rosin rubber powder emulsion；In graphene powder, the percentage by weight containing 5~10 layer graphene powders is 30% ~50%；Ethanol water is to be mixed by purity 80wt%~90wt% second alcohol and water by 10~20% percentage by weight The aqueous solution；Modified rosin rubber powder emulsion is by modified rosin and ethanol by weight proportion 1：The emulsion that (5~15) are mixed, changes Property rosin be gum rosin, hydrogenated rosin, disproportionated rosin or newtrex；A diameter of 10~100 microns of nanometer bamboo carbon fiber powder, length 10~20 microns of degree, transmitting far infrared release anion number is more than 6500/cubic centimetre；Fiber diffusant uses methylene two Sodium naphthalene sulfonate.

4. the graphene composite material far-infrared negative-ion described in a kind of one of claims 1 to 3 warms up the making of core electric heating floor Technique, it is characterised in that the manufacturing process of graphene nano far-infrared negative-ion composite fibre conductive exothermal film is as follows：

Using plant fiber pulp, graphene powder glue, nanometer bamboo carbon fiber powder or nano-far-infrared negative ion powder by break-in, Mix, stir, the system of copying, drying, volume process is made in compacting；In manufacturing process, by break-in, mix, stir following process, String is carried out after broom processing by disc mill, makes it easier to be combined with graphene powder glue, graphite is added Alkene powder glue is mixed, stirred, and adds fiber diffusant and nanometer bamboo carbon fiber powder or nano-far-infrared negative ion powder It is stirred uniformly, regard graphene nano far-infrared negative-ion composite fibre conductive exothermal film as heat generating core main body.

5. the manufacture craft of core electric heating floor is warmed up according to the graphene composite material far-infrared negative-ion described in claim 4, its It is characterised by, makes comprising the following steps that for graphene nano far-infrared negative-ion composite fibre conductive exothermal film：

(1) graphene powder surface is made to be fully purified after ethanol water soaks 1~5 hour graphene powder；

(2) after soak time is met, modified rosin rubber powder emulsion is added, graphene powder is sufficiently mixed, is sufficiently stirred for rear shape Into graphene powder glue, stand for standby use；

(3) string has been ground into broom shape with disc mill to occur, sodium hydroxide, string, water is mixed, stirring is put into Pond continues to stir, and forms plant fiber pulp；

(4) graphene powder glue is delivered into stirring pool, is mixed 1~5 hour with plant fiber pulp, make string Fully combined to be combined with graphene powder and be integrally formed, string is obtained the abundant parcel of graphene powder；

(5) fiber diffusant and nanometer bamboo carbon fiber powder or nano-far-infrared negative ion powder are added, continues 1~5 hour to stirring Uniformly, the slurries for preparing graphene nano far-infrared negative-ion composite fibre conductive exothermal film are obtained；

(6) need to examine after the completion of mixing, stirring, after the assay was approved, through the system of copying, drying, compacting, form graphene nano far red Outer anion composite fibre conductive exothermal film.

6. the manufacture craft of core electric heating floor is warmed up according to the graphene composite material far-infrared negative-ion described in claim 4 or 5, Characterized in that, the resistivity of graphene nano far-infrared negative-ion composite fibre conductive exothermal film is 40 to 80 Ω cm.