CN207711678U - A kind of far infrared heating tapestry - Google Patents

Abstract

The utility model discloses a kind of far infrared heating tapestries, including tapestry main body, and heating module is fixed at the back side of tapestry main body；Heating module includes graphene nano silver wire conductive electrothermal cloth; it is provided with electrode layer on graphene nano silver wire conductive electrothermal cloth; it is provided with insulative water-proof protective layer on electrode layer, far-infrared reflection layer is provided on one side what graphene nano silver wire conductive electrothermal cloth was not arranged electrode layer；It is provided with heat insulation layer outside far-infrared reflection layer；Insulative water-proof protective layer is fixed on the back side of tapestry main body.The far infrared heating tapestry of the utility model, by the setting of heating module, tapestry is decorative simultaneously meeting, and so that it is had both the function of far-infrared physiotherapy and fever heating, has further opened up its market.

Description

A kind of far infrared heating tapestry

Technical field

The utility model is related to a kind of far infrared heating tapestries, belong to tapestry technical field.

Background technology

Tapestry is also referred to as wall tapestry, is used as indoor wall decorative.China's tapestry is with a long history, according to archaeological work person to excavating Remains textual criticism in ancient tomb and castle, just has a making early in the Warring States Period Xinjiang, when the Tang Dynasty woven tapestry decorative pattern, pattern, It is very exquisite in terms of workmanship, arrive first, bright, clear, weaving process is just more ripe.

Tapestry not only has dicoration, also appreciating, and the characteristics of the times that it is reflected are again so that this art work tool There is certain reserve value.But present tapestry is intended only as a kind of upholstery substantially, has a single function.Because of the invention one The novel and multifunctional tapestry of kind will have good market prospects.

Infrared ray therapy (Infrared therapy) is the important breakthrough of global medicine pain management.Infrared ray can be with Therapentic part is acted on through clothes, may pass through skin directly makes muscle, subcutaneous tissue etc. generate fuel factor, accelerates blood material Cycle increases metabolism, reduces pain, increase is of flaccid muscles, generates massage effect etc..

Therefore, if can make tapestry on the basis of decoration functions, also have the effect of far infrared heating, will further open up Its market.

Utility model content

To avoid above-mentioned existing deficiencies in the technology, the utility model discloses a kind of far infrared heating extensions Blanket, it is intended to assign the function of tapestry far-infrared physiotherapy and fever.

The utility model is to realize goal of the invention, is adopted the following technical scheme that：

The far infrared heating tapestry of the utility model, including tapestry main body are provided with picture in the front of the tapestry main body Face layer, feature are：It is fixed with heating module at the back side of the tapestry main body；

The heating module includes graphene nano silver wire conductive electrothermal cloth, in the graphene nano silver wire conductive exothermal Electrode layer is provided on cloth, the electrode layer is electrically connected with the graphene nano silver wire conductive electrothermal cloth；In the electrode layer On be provided with insulative water-proof protective layer, in the graphene nano silver wire conductive electrothermal cloth, being provided on one side for electrode layer is not set Far-infrared reflection layer；It is provided with heat insulation layer outside the far-infrared reflection layer；The insulative water-proof protective layer is fixed on institute State the back side of tapestry main body.

The electrode layer is two band electrodes for being symmetrically disposed on the graphene nano silver wire conductive electrothermal cloth both ends；

Or：The electrode layer includes two affluxs for being symmetrically disposed on the graphene nano silver wire conductive electrothermal cloth both ends Item, two collector bars extend towards to form several interior electrodes arranged at equal intervals, constitute interdigitated electrode structure.The width of each interior electrode Degree, length are all identical, and the spacing of electrode is also identical in adjacent two, to ensure that fever is uniform.

Preferably, when the electrode layer is interdigitated electrode structure, on the graphene nano silver wire conductive electrothermal cloth, It is provided with through-hole between each interior electrode front end and another collector bar.Between the extension terminal and another collector bar of collector bar If spacing is too small to will produce hot localised points, spacing is excessive and region too much can be made not generate heat, to influence heating property, therefore Hollow-out part is set between the extension terminal and another collector bar of collector bar, can be avoided while reducing spacing as far as possible The generation of hot spot, to ensure the fever uniformity of heating film.

The material of the electrode layer is metal foil, conductive fabric, conductive tape, at least one of electrocondution slurry, including but It is not limited to the good material of these electric conductivities such as silver, copper, aluminium.

The electrode layer connects attaching plug, generates the graphene nano silver wire conductive electrothermal cloth under condition of power supply Far infrared is simultaneously generated heat.

Temperature detect switch (TDS), the temperature detect switch (TDS) and the electrode are additionally provided between the electrode layer and the attaching plug Layer and all connect by conductor wire between the attaching plug.Temperature detect switch (TDS) by adjusting to the supply voltage of heating module or Person realizes classification regulating and controlling temperature by adjusting input power duty ratio come the operating mode of regulation heating module.

Preferably, it is additionally provided on the heating module for monitoring the graphene nano silver wire conductive electrothermal cloth temperature The temperature sensor of degree；The temperature sensor is connect with the temperature detect switch (TDS).

The insulative water-proof protective layer is PVC film, PE films, PET film, PI films or PU films；The far-infrared reflection layer is plating Aluminium film；The heat insulation layer is Kapton, phenol formaldehyde foam, polyurethane heat insulation material or styrofoam mineral wool.

Graphene nano silver wire conductive electrothermal cloth used in the utility model can be from the limited public affairs of Hefei micro crystal material science and technology Department buys in market, is to be formed a film to be made by the tape casting by conductive exothermal slurry.Each raw material of the conductive exothermal slurry presses matter Amount part composition be：1~20 part of 1~10mg/mL nano silver wires dispersion liquid, 20~50 parts of graphene powder, 1~20 part of carbon black, Solid content 20~50 parts of the waterborne polyurethane resin of 30-55%, solid content 30-80% 1~50 part of aqueous epoxy resins, Water-based acrylic resin 1~20 part, water 1-30 part, dispersant 0.1~5 part, curing agent hexamethylene diamine of the solid content in 30-80% 0.1~2 part.

The beneficial effects of the utility model are embodied in：

1, the far infrared heating tapestry of the utility model, it is decorative same meeting tapestry by the setting of heating module When, so that it is had both the function of far-infrared physiotherapy and fever heating, further opens up its market.

2, the far infrared heating tapestry of the utility model also has the function of antibacterial bacteriostatic due to the addition of nano silver wire, It can effectively prevent the growth of bacterium in air；

3, temperature may be implemented at 40~100 DEG C by adjusting temperature detect switch (TDS) in the far infrared heating tapestry of the utility model Control in range, to meet different needs.

Description of the drawings

Fig. 1 is the overall structure diagram of the utility model far infrared heating tapestry；

Fig. 2 is the sectional schematic diagram of the utility model far infrared heating tapestry；

Fig. 3 is a kind of fractionation structural representation of the utility model far infrared heating tapestry；

Fig. 4 is another fractionation structural representation of the utility model far infrared heating tapestry；

Figure label：A is tapestry main body, and A1 is picture frame layer, and B is power outlet, and C is temperature detect switch (TDS), and D is temperature sensing Device, 1 is graphene nano silver wire conductive electrothermal cloth, and 2 be electrode layer, and 21 be band electrode, and 22 be collector bar, and 23 be interior electrode, 24 be through-hole, and 3 be insulative water-proof protective layer, and 4 be far-infrared reflection layer, and 5 be heat insulation layer, and 6 be conductor wire.

Specific implementation mode

Clearly elaboration explanation will be done to the technical solution of the utility model by embodiment and attached drawing below.

As depicted in figs. 1 and 2, the far infrared heating tapestry of the utility model, including tapestry main body A, in tapestry main body A Front is provided with picture frame layer A1, and heating module is fixed at the back side of tapestry main body A.

Heating module includes graphene nano silver wire conductive electrothermal cloth 1, is set on graphene nano silver wire conductive electrothermal cloth 1 It is equipped with electrode layer 2, electrode layer 2 is electrically connected with graphene nano silver wire conductive electrothermal cloth 1；It is anti-that insulation is provided on electrode layer 2 Water conservation layer 3 is provided with far-infrared reflection layer 4 on one side what graphene nano silver wire conductive electrothermal cloth 1 was not arranged electrode layer 2； Heat insulation layer 5 is provided with outside far-infrared reflection layer 4；Insulative water-proof protective layer 3 is fixed on the back side of tapestry main body A.

Specifically, the tapestry of the utility model can be the tapestry of any shape, material and structure currently on the market.Example Such as, it can be Rome rod-type tapestry (referenced patent CN 202200766U) or roller shutter type tapestry (referenced patent CN 204998237U), or it is simpler coupling type tapestry structure (referenced patent CN204952593U).Tapestry main body front is set The picture frame layer set is alternatively arbitrary required pattern, color etc..

As shown in figure 3, electrode layer 2 can be two bands for being symmetrically disposed on 1 both ends of graphene nano silver wire conductive electrothermal cloth Shape electrode 21.Alternatively, as shown in figure 4, electrode layer 2 can also be is symmetrically disposed on graphene nano silver wire conductive exothermal including two The collector bar 22 at 1 both ends of cloth, two collector bars 22 extend towards to form several interior electrodes 23 arranged at equal intervals, constitute interdigital electrode Structure.Specifically, the width of each interior electrode, length are all identical, the spacing of electrode is also identical in adjacent two, to ensure that fever is equal It is even.

When it is implemented, when electrode layer 2 is interdigitated electrode structure, on graphene nano silver wire conductive electrothermal cloth, position It is provided with through-hole 24 between each 23 front end of interior electrode and another collector bar 22.The extension terminal of collector bar and another collector bar If spacing is too small between will produce hot localised points, and spacing is excessive and region too much can be made not generate heat, to influence heating property, Therefore hollow-out part is set between the extension terminal and another collector bar of collector bar, it can be while reducing spacing as far as possible The generation for avoiding hot spot, to ensure the fever uniformity of heating film.

The structure of electrode layer is mainly selected according to the sheet resistance of graphene nano silver wire conductive electrothermal cloth used, is such as schemed The bipolar electrode structure of two band electrodes shown in 3 is primarily adapted for use in the electrothermal cloth (such as 20-10 Ω/mouth) of low square resistance, as shown in Figure 4 Interdigitated electrode structure be primarily adapted for use in the electrothermal cloth (such as 100-300 Ω/mouth) of high square resistance.

Specifically, the material of electrode layer can be at least one of metal foil, conductive fabric, conductive tape, electrocondution slurry.When When the material of electrode layer is metal foil, the fever of graphene nano silver wire composite and flexible is fixed on by way of with conductive glue On film；When the material of electrode layer is conductive fabric or conductive tape, the graphene silver is directly fixed on by way of stickup On nano wire composite and flexible heating film；When the material of electrode layer is electrocondution slurry, the stone is fixed on by way of printing On black alkene nano silver wire composite and flexible heating film.

Electrode layer 2 connects attaching plug B, and graphene nano silver wire conductive electrothermal cloth is made to generate far infrared under condition of power supply And it generates heat.Temperature detect switch (TDS) C is additionally provided between electrode layer 2 and attaching plug B, temperature detect switch (TDS) is with electrode layer (specifically, when being When bipolar electrode as shown in Figure 3, two band electrodes are connect with temperature detect switch (TDS), and in power supply, two polarity of electrode are opposite；When for such as scheme Shown in 4 when interdigital electrode, two collectors are connect with temperature detect switch (TDS), and in power supply, two collector polarity are opposite) and it is slotting with power supply It is all connected by conductor wire between head.Temperature detect switch (TDS) is by adjusting to the supply voltage of heating module or by adjusting input work Rate duty ratio carrys out the operating mode of regulation heating module, realizes classification regulating and controlling temperature.When it is implemented, multi gear is arranged in temperature detect switch (TDS) Heating, middle-grade heating, high-grade heating isotype are kept out in temperature adjustment and short circuit defencive function, regulation and control.

Specifically, being also provided on heating module for monitoring graphene nano silver wire conductive electrothermal cloth temperature (thermo-sensitive resistor such as can be used) in temperature sensor D；Temperature sensor D is connect by conductor wire with temperature detect switch (TDS) C.It is passed by temperature Sensor can more accurately temperature control, the temperature monitored when temperature sensor can also be set by conventional method higher than default When temperature, temperature detect switch (TDS) is automatically cut off, and plays the role of overheating protection.When it is implemented, as shown in Figure 3 and Figure 4, to avoid temperature Degree sensor causes the failures such as short circuit with the electrical contact of graphene nano silver wire conductive electrothermal cloth, can be fixed on temperature sensor D On insulative water-proof protective layer 3.

Specifically, conductor wire 6 can be flexible conductive wire conventional in the market, internal layer is linear material (such as metal of conduction Silk, enameled wire, carbon fiber etc.), outer layer is insulating materials flexible (such as insulation cloth, silica gel, TPFC, PUC, TPE, acrylic fibers Deng).

Specifically, after can temperature detect switch (TDS) having been connected attaching plug, attaching plug is directly inserted in commercial power socket and is supplied Electricity；Alternating current can also be adjusted to the low-voltage DC of 5~24V by reconnecting alternating current after transformer.

Specifically, the connection type between temperature detect switch (TDS), temperature sensor, electrode layer, transformer, attaching plug is all normal Rule mode, details are not described herein.

Specifically, PVC film, PE films, PET film, PI films or PU films can be used in insulative water-proof protective layer；Far-infrared reflection layer can Using aluminizer；Kapton, phenol formaldehyde foam, polyurethane heat insulation material or polyphenyl glass sheet can be used in heat insulation layer Cotton.

When it is implemented, the tapestry main body and heating module of the utility model can be used arbitrary conventional production method, two Person can be used arbitrary usual manner and is fixedly connected (as pasted).Here, the making of tapestry main body repeats no more, to heating module Making be exemplified below (when using conductive silver paste form interdigital electrode when)：

Electrode pattern is drawn by cad first, then makes screen printing plate, it would be desirable to the region hollow out of electrode is done, And carry out alignment mark；As needed, graphene nano silver wire conductive electrothermal cloth is cut into required size and shape；In stone By Screen-printed conductive silver paste on black alkene nano silver wire conductive electrothermal cloth, then cure 1 hour at 150 DEG C, forms electrode Layer；It is carried out on part graphene nano silver wire conductive electrothermal cloth 1 between each 23 front end of interior electrode and another collector bar 22 Hollow processing forms through-hole 24；Conductor wire is riveted on the electrode of graphene nano silver wire conductive electrothermal cloth by end-beating machine Or conductor wire is bonded on electrode with electrocondution slurry；PI films (or can be used as other films of insulative water-proof protective layer) are fitted in Electrode print face to protect circuit, prevent short circuit and electric leakage, and promotes the resistance to rubbing of heating film as insulative water-proof protective layer Property, it is reserved with the through-hole for making conductor wire draw on PI films or conductor wire can also connect directly from PI films with conductive electrothermal cloth It draws side.Far-infrared reflection layer and heat insulation layer are pasted and fixed on graphene nano silver wire conductive electrothermal cloth successively not set Set the one side of electrode layer.If there is temperature sensor, the upper surface of PI films are fixed in, are drawn by conductor wire, that is, completes fever The making of module.

Then the insulative water-proof protective layer of heating module is fixed on to the back side of tapestry.When it is implemented, heating module Area is less than tapestry, places it in the centre position at the tapestry back side, then temperature detect switch (TDS) is fixed on to the space bit at the tapestry back side It sets, the conductor wire drawn from the electrode layer of heating module and from temperature sensor is connected to temperature detect switch (TDS).Finally again by temperature control Switch connection attaching plug, that is, complete the making of far infrared heating tapestry.

Above-mentioned technique is equally applicable to make the bipolar electrode structure of two band electrodes or other electrode materials, it is only necessary to adjust The production method of electrode.When such as using copper foil electrode, following method can be used：It is coated with one layer of conducting resinl in copper foil surface, then One layer of release film protection of fitting；Electrode shape cutting die is made, above-mentioned copper foil is die cut out electrode shape；It as needed, will be conductive Electrothermal cloth is cut into required size and shape；The copper foil of electrode shape is pasted onto the fever of graphene nano silver wire composite and flexible On film, then cure 1 hour at 150 DEG C, forms electrode layer.

The graphene nano silver wire conductive electrothermal cloth sample presentation of the utility model to Guangdong Province microorganism detection center is carried out Detection, can reach 99.99% to the bacteriostasis rate of Escherichia coli.

By the continuous doubling of the heating module of the utility model 100 times, resistance does not change substantially, and passes through infrared imaging It observes its uniformity of generating heat and is equally also not affected by influence.

The heating module of the utility model is positioned in washing machine, hot water is taken to wash or be added the side of detergent washing Formula washes repeatedly 10 times, and resistance does not change substantially, and observes its uniformity of generating heat by infrared imaging and be equally also not affected by It influences.

Heating module progress bend resistance experiment using Flexing Apparatus WJJ-6C to the utility model, 90 ° of bending angle, It is 2000 times to bend number.The fever equilibrium temperature of sample and the heating-up time for rising to fever equilibrium temperature do not change substantially after bending Become, the heating of sample has good stability.And after bending, heating film block works in normal working conditions, its heating is made to reach steady After determining working condition, the temperature value of 7 temperature measuring points is measured and recorded with Radiation Temperature Measurement Instrument.Maximum value in 7 temperature values and most The difference of small value is less than 5 DEG C, it is seen that the temperature uniformity of sample is good.

The far infrared heating tapestry of the utility model, temperature can control within the scope of 40~100 DEG C, can meet difference Needs；And reaching the time used in fever equilibrium temperature all in 3~5s, heating rate is fast.

The far infrared heating tapestry of the utility model, also has effects that far-infrared physiotherapy, good for health.

Finally it should be noted that：Obviously, above-described embodiment is only intended to clearly illustrate the utility model example, And it does not limit the embodiments.For those of ordinary skill in the art, may be used also on the basis of the above description To make other variations or changes in different ways.There is no necessity and possibility to exhaust all the enbodiments.And thus Among changes and variations that derived from are still in the scope of protection of the utility model.

Claims (7)

1. a kind of far infrared heating tapestry, including tapestry main body (A) are provided with picture frame layer in the front of the tapestry main body (A) (A1), it is characterised in that：It is fixed with heating module at the back side of the tapestry main body (A)；

The heating module includes graphene nano silver wire conductive electrothermal cloth (1), in the graphene nano silver wire conductive exothermal Electrode layer (2) is provided on cloth (1), the electrode layer (2) is electrically connected with the graphene nano silver wire conductive electrothermal cloth (1)； Insulative water-proof protective layer (3) is provided on the electrode layer (2), the graphene nano silver wire conductive electrothermal cloth (1) not Electrode layer (2) is arranged is provided with far-infrared reflection layer (4) on one side；It is provided with thermal insulation separation outside the far-infrared reflection layer (4) Thermosphere (5)；The insulative water-proof protective layer (3) is fixed on the back side of the tapestry main body (A).

2. far infrared heating tapestry according to claim 1, it is characterised in that：

The electrode layer (2) is two band electrodes for being symmetrically disposed on graphene nano silver wire conductive electrothermal cloth (1) both ends (21)；

Or：The electrode layer (2) includes two affluxs for being symmetrically disposed on graphene nano silver wire conductive electrothermal cloth (1) both ends Item (22), two collector bars (22) extend towards to form several interior electrodes (23) arranged at equal intervals, constitute interdigitated electrode structure.

3. far infrared heating tapestry according to claim 2, it is characterised in that：When the electrode layer (2) is interdigital electrode When structure, on the graphene nano silver wire conductive electrothermal cloth (1), it is located at each interior electrode (23) front end and another collector bar (22) through-hole (24) is provided between.

4. far infrared heating tapestry according to claim 1, it is characterised in that：The electrode layer (2) connects attaching plug (B), so that the graphene nano silver wire conductive electrothermal cloth is generated far infrared under condition of power supply and generate heat.

5. far infrared heating tapestry according to claim 4, it is characterised in that：In the electrode layer (2) and the power supply Temperature detect switch (TDS) (C) is additionally provided between plug (B).

6. far infrared heating tapestry according to claim 5, it is characterised in that：It is additionally provided with use on the heating module In the temperature sensor (D) for monitoring the graphene nano silver wire conductive electrothermal cloth temperature；The temperature sensor (D) with it is described Temperature detect switch (TDS) (C) connects.

7. far infrared heating tapestry according to claim 1, it is characterised in that：The insulative water-proof protective layer (3) is PVC Film, PE films, PET film, PI films or PU films；The far-infrared reflection layer (4) is aluminizer；The heat insulation layer (5) is polyamides Imines film, phenol formaldehyde foam, polyurethane heat insulation material or styrofoam mineral wool.