CN209703176U - One kind can heat fabric and clothing - Google Patents

Abstract

This application involves one kind can heat fabric and clothing, belongs to functional fabric technical field.It includes tissue layer, conductive layer and insulating layer that fabric, which can be heated,.It is conductive layer on the surface of tissue layer, conductive layer can be used for conduction and heat tissue layer, and conductive layer is insulating layer on the surface of tissue layer.Compared to it is current heat fabric for, heat fabric and the clothing of the application separates conductive layer and insulating materials, and insulating materials is separately manufactured as insulating layer, influence of the insulating materials to the electric conductivity of conductive layer can be overcome to a certain extent, significantly improve the electric conductivity of conductive layer, also there is stronger water-fastness function simultaneously, preferable warming effect is still maintained after repeatedly washing.

Description

One kind can heat fabric and clothing

Technical field

This application involves functional fabric technical fields, can heat fabric and clothing in particular to one kind.

Background technique

In cold winter, warming fabric is the essential product in life, is had on the market at present by adding in fabric surface Enter conductive material and be powered, warming New type thermal woven is carried out in a manner of heating fabric.

But current New type thermal woven, since electric conductivity decline is excessive, causes to protect there is after long-time use The technical issues of warm decreased effectiveness.

Utility model content

The embodiment of the present application is designed to provide one kind and can heat fabric and clothing, efficiently solve fabric through it is too long when Between after use, electric conductivity declines excessive problem, extends the service life of fabric.

In a first aspect, the embodiment of the present application, which provides one kind, can heat fabric, the fabric that heats includes tissue layer, conduction Layer and insulating layer are the conductive layer on the surface of the tissue layer, and the conductive layer can be used for conduction and heat the fabric Layer, the conductive layer is the insulating layer on the surface of the tissue layer.

Insulating layer and conductive layer are formed separately independent double-layer structure, pitch dispersant etc., which is not present, in conductive layer influences The electric conductivity of the substance of electric conductivity, the electrically conductive particles in conductive layer is unaffected, after long-time use, according to On the one hand right electric conductivity with higher plays the work of insulation in addition, insulating layer can also protect conductive layer and tissue layer With on the one hand the wash durability of raising fabric, avoids the electrically conductive particles performance of conductive layer when washing from declining.

In some embodiments, the conductive layer and the tissue layer constitute heating layer, and the thickness of the heating layer exists Between 0.1mm to 0.4mm.

Conductive layer and tissue layer collectively form the heating layer that can heat fabric, and conductive layer is attached to the surface of tissue layer , and conductive layer will lead to the thickness of tissue layer if the thickness of heating layer is smaller for connecting heating tissue layer with external power supply Degree is very thin, and the final electric conductivity for influencing conductive layer, if the thickness of heating layer is larger, the thickness of tissue layer can be very thick, It equally will affect the electric conductivity of conductive layer.

In some embodiments, the conductive layer is graphene layer.

By using graphene as conductive material, since graphene-structured is highly stable, stable lattice structure makes Carbon atom has outstanding electric conductivity, can effectively improve the warming effect that can heat fabric.

In some embodiments, the graphene layer includes in single-layer graphene, bilayer graphene or multi-layer graphene It is at least one.

The electric conductivity of single-layer graphene is stronger, and multi-layer graphene has higher intensity, will be formed after the two combination Conductive layer, on the one hand there is excellent electric conductivity, on the other hand intensity with higher, extend the use that can heat fabric Service life.

In some embodiments, the conductive layer is uniformly wrapped on the surface of the tissue layer.

By the way that conductive layer to be coated uniformly on to the surface of tissue layer, make the electric conductivity of each part of fabric layer surface It is identical, thus when connecting external power supply conductive layer heating efficiency also more evenly so that tissue layer is heated more evenly, when use, is protected Warm effect is more preferable.

In some embodiments, the insulating layer is aqueous polyurethane layer.

By using aqueous polyurethane layer as insulating layer, flame-resistant insulation can be not only played, protects conductive layer and fabric The purpose of layer, can be in one tunic of the surface of conductive layer formation after aqueous polyurethane layer solidifies, and fabric is conductive when preventing from washing The decline of performance is too fast, extends the service life that can heat fabric.

Second aspect, the embodiment of the present application, which provides one kind, can heat fabric, and the fabric that heats includes tissue layer, conduction Layer, insulating layer and electrode, are the conductive layer on the surface of the tissue layer, the electrode be located at the surface of the conductive layer and It is electrically connected with the conductive layer, the electrode is for connecting external power supply, the surface away from the tissue layer of the conductive layer Upper is the insulating layer.

By the way that the electrode for connecting external power supply is arranged on the surface of conductive layer, allows to allow by external power supply and lead Electric layer forms electrical circuit to heat to tissue layer, and electrode volume is small, light-weight, and fabric entirety can be heated by reducing Weight improves the practicability that can heat fabric.

In some embodiments, the electrode is between the conductive layer and the insulating layer.

When electrode is between conductive layer and insulating layer, on the one hand simplify manufacturing process, one side electrode it is more convenient with External power supply connection, additionally it is possible to reduce the process loss of conductive layer, improves electric conductivity.

In some embodiments, the insulating layer sealing coats the conductive layer and the tissue layer, the insulating layer are set It is equipped with hole, the electrode passes through the hole for connecting external power supply.

Insulating layer is sealed and coated on the surface of conductive layer, is capable of forming a protective layer, and raising can heat the water-fast of fabric Performance is washed, prevents electric conductivity decline too fast, prolongs the service life.And it can according to need in the suitable position of insulating layer Hole is opened up, while facilitating electrode to connect external power supply, can be improved the aesthetics and practicability that can heat fabric.

The third aspect, this implementation provide one kind can heats laundry, it is described can heats laundry include above-mentioned heating fabric.

With the functional effect that can heat fabric, the electric conductivity of conductive layer can be significantly improved, while also being had relatively strong Water-fastness function, preferable warming effect is still maintained after repeatedly washing.

Detailed description of the invention

Technical solution in ord to more clearly illustrate embodiments of the present application, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only some embodiments of the application, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain the protection scope that other relevant attached drawings also belong to the application.

Fig. 1 is the first structure cross-sectional view provided in this embodiment for heating fabric；

Fig. 2 is the second structure sectional view provided in this embodiment for heating fabric；

Fig. 3 is the third structure sectional view provided in this embodiment for heating fabric；

Fig. 4 is the structural schematic diagram provided in this embodiment for heating fabric；

Fig. 5 is the production flow diagram provided in this embodiment for heating fabric.

Icon: 100- can heat fabric；10- tissue layer；30- conductive layer；40- heating layer；60- electrode；70- is exhausted Edge layer；80- hole.

Specific embodiment

To keep the purposes, technical schemes and advantages of the embodiment of the present application clearer, below in conjunction with the embodiment of the present application In attached drawing, technical solutions in the embodiments of the present application is described.

Fig. 1 is the first structure cross-sectional view provided in this embodiment for heating fabric, please continue to refer to Fig. 1.One kind can add Heating fabric 100, can heat fabric 100 includes: tissue layer 10, conductive layer 30 and insulating layer 70.It is to lead on the surface of tissue layer 10 Electric layer 30, conductive layer 30 can be used for conduction and heat tissue layer 10, and the surface away from tissue layer 10 of conductive layer 30 is insulating layer 70。

Insulating layer 70 and conductive layer 30 are separated and are respectively formed individual layer structure, not only maintains respective original property Energy feature, and there is no the substance that pitch dispersant etc. influences electric conductivity, the electric conductivities of conductive material in conductive layer 30 It can fully play, the warming effect for heating fabric 100 being fabricated is more preferable.

In the present embodiment, tissue layer 10 include protein fibre, cellulose fibre, staple fibre or chemical fibre in extremely Few one kind.

The fabric that different fibrous materials is made has made of the plant fibers such as different characteristics, such as cotton, fiber crops The features such as tissue layer 10 has hygroscopicity strong, resistance to bacterium, and the warming effect of tissue layer 10 made of the animal origins such as wool, rabbit hair More preferably, manufacturer, which can according to need, takes different materials or combines different materials.

Optionally, conductive layer 30 be include at least one of single-layer graphene, bilayer graphene or multi-layer graphene Graphene layer.

Graphene is a kind of nanometer two-dimensional material of hexagonal cell structure being made of carbon atom with sp2 hybridized orbit, Its special nanometer lattice structure imparts its excellent electric conductivity, using graphene as conductive material, can effectively mention Height can heat the warming effect of fabric 100.

Further, conductive layer 30 is uniformly wrapped on the surface of tissue layer 10.

By the way that conductive layer 30 to be evenly coated to the surface of tissue layer 10, make the conduction of each part on 10 surface of tissue layer The electric conductivity of layer 30 is all identical, when connecting external power supply, the heating efficiency of conductive layer 30 also more evenly, therefore tissue layer 10 It is heated more evenly, warming effect is more preferable when use.

Herein it should be noted that the surface that conductive layer 30 is evenly coated at tissue layer 10 refers to: conductive layer 30 can wrap It is overlying on a surface in two surfaces of tissue layer 10, another table that can also be coated in two surfaces of tissue layer 10 Face can also be coated on two surfaces of tissue layer 10 simultaneously.

In a kind of feasible embodiment, conductive layer 30 includes the first conductive layer and the second conductive layer, tissue layer 10 It is respectively the first conductive layer and the second conductive layer, the first conductive layer and the second conductive layer is used to and external power supply on two surfaces It connects and heats tissue layer 10.

By forming the first conductive layer and the second conductive layer on two surfaces of tissue layer 10, the two of tissue layer 10 can be allowed A surface thermally equivalent improves the warming effect that can heat fabric 100.

Fig. 2 is the second structure sectional view provided in this embodiment for heating fabric, please continue to refer to Fig. 2.In another kind In embodiment, conductive layer 30 can only include the first conductive layer, be the on a surface in two surfaces of tissue layer 10 One conductive layer, the upper insulating layer 70 in another surface of tissue layer 10, the first conductive layer connect heating fabric with external power supply Layer 10.

On the basis of aforementioned embodiments, insulating layer 70 is aqueous polyurethane layer.

Using aqueous polyurethane layer as insulating layer 70, the purpose of insulation can be not only played, and works as aqueous polyurethane Layer can form layer protecting film on the surface of conductive layer 30 after solidify, can be effectively prevented and wash to can heat fabric 100 Electric conductivity loss, the service life of fabric 100 can be heated by extending.

Fig. 3 is the third structure sectional view provided in this embodiment for heating fabric, please continue to refer to Fig. 3.One kind can add Heating fabric 100, can heat fabric 100 includes: tissue layer 10, conductive layer 30, insulating layer 70 and electrode 60, the surface of tissue layer 10 Upper is conductive layer 30, is provided with electrode 60 on the surface of conductive layer 30 and electrode 60 is electrically connected with conductive layer 30, electrode 60 is also used It is connect in external power supply, the surface away from tissue layer 10 of conductive layer 30 is insulating layer 70.

By the way that the electrode 60 for connecting external power supply is arranged on the surface of conductive layer 30, so that conductive layer 30 forms electricity and returns Tissue layer 10 is heated on road, and electrode 60 is small in size, light-weight.When needing to carry out heating operation, user can be with External electrode 60 will be exposed to and connect external power supply, when not needing heating, can seldom increased in order to hiding or folding and unfolding Add in the case where can heating the whole weight of fabric 100, has improved the practicability that can heat fabric 100.

In the present embodiment, electrode 60 is between conductive layer 30 and insulating layer 70.

On the one hand electrode 60 can simplify manufacturing process, one side electrode 60 between conductive layer 30 and insulating layer 70 It is more convenient to be connect with external power supply, additionally it is possible to reduce the process loss of processing conductive layer 30, improves electric conductivity.

Fig. 4 is the structural schematic diagram provided in this embodiment for heating fabric, please continue to refer to Fig. 4.Further, it insulate Layer 70 seals coated with conductive layer 30 and tissue layer 10, and insulating layer 70 is provided with hole 80, and electrode 60 passes through hole 80 for connecting External power supply.

Insulating layer 70 is coated on the surface of conductive layer 30 and tissue layer 10, is capable of forming a protective layer, and raising can heat The wash durability of fabric 100 prevents electric conductivity decline too fast, prolongs the service life.And it can according to need and insulating The suitable position of layer 70 opens up hole 80, and while facilitating electrode 60 to connect external power supply, can be improved can heat fabric 100 Aesthetics and practicability.

Can heat fabric 100 can be used to make can heats laundry, such as: down jackets or cold-proof underwear etc. are made to To can heats laundry equally there is the functional effect that can heat fabric 100, i.e., be used for by the setting on the surface of conductive layer 30 The electrode 60 of external power supply is connected, so that conductive layer 30 forms electrical circuit, to heat to tissue layer 10, and electrode 60 It is small in size, light-weight.When needing to carry out heating operation, user can will be exposed to external electrode 60 and connect external electrical Source, do not need heating when, electrode 60 can in order to hide or folding and unfolding, increase can heats laundry entirety few weight In the case where, improve can heats laundry practicability.

Fig. 5 is the production flow diagram provided in this embodiment for heating fabric, please refers to Fig. 5.One kind can heat fabric 100 Production method include the following steps:

(1) pre-treatment is carried out firstly the need of the fabric to production tissue layer 10.

Since the other kinds of slurry added can be added in spinning oil etc. and process in spinning in fabric.This Outside, also contain natural impurity on the material fiber of fabric, so needing to carry out pre-treatment to fabric, the matter of fabric is improved with this Amount, to improve the quality of tissue layer 10, pre-treatment influences the warming effect that can entirely heat fabric 100.

It should be noted that according to the difference of textile material, it is also different to the pre-treatment step of fabric taken, thus When reaching different performance and effect, such as carrying out pre-treatment to cotton fabric, step includes singing, desizing, kiering, bleaching, open Width, squezzing, drying and mercerising.In the present embodiment, the pre-treatment step taken includes deoiling to be modified with surface.

Detailed, the fabric for making tissue layer 10 includes by plant fiber, protein fibre, regenerated fiber bundle fiber Or at least one of chemical fibre material composition.

Further, in the present embodiment, fabric include cotton, fiber crops, hair, silk, tencel, Modal, viscose glue, terylene, acrylic fibers, One of spandex or polyamide fibre or more than one combination, 10 flexibility of tissue layer being made using material above-mentioned is good, So that can heat fabric 100 is able to carry out folding, comfort is strong after dress, and is conducive to the progress of subsequent step；

Further, the processing method of unlimited weaving nitride layer 10 herein, manufacturer, which can according to need, is made woven knit Object, knitted fabric or non-woven fabric.It, can be with when needing to be fabricated to sweater, defending clothing or cold-proof underwear in terms of practical application Knitted fabric is made；When needing to be fabricated to shirt, Western-style trousers or sheet, woven fabric can be made；When needs are fabricated to protection When clothes, operating coat or barrier gown, non-woven fabric can be made.

Detailed, the woven structure of manufacture includes plain weave, twill or satin weave；And the non-woven fabric networking manufactured Including using spun lacing, needle thorn and loop bonding method networking.

Finally, the fabric after pre-treatment will be in tissue layer as the tissue layer 10 that can heat fabric 100, subsequent step 10 surface carries out, and tissue layer 10 is as a part being heated when warming.

(2) conductive layer 30 is formed on the surface of tissue layer 10.

It is detailed, it is necessary first to conductive material to be fabricated to electrocondution slurry, the method taken can be ball milling etc., followed by Electrocondution slurry is attached to the surface of tissue layer 10, is finally the surface formation conductive layer that electrocondution slurry is coated on tissue layer 10 30。

Include spraying by the method that electrocondution slurry is attached to the surface of tissue layer 10, scratch or impregnate and form conductive layer 30, finally the tissue layer 10 for being coated with conductive layer 30 is solidified.

Electrocondution slurry is attached to the surface of tissue layer 10 using the method for spraying, blade coating or dipping, is on the one hand made Electrocondution slurry can equably be attached to the surface of tissue layer 10, so that the everywhere conductive layer 30 on the surface of tissue layer 10 is led Electrical property is identical, and after connecting external power supply, possessed heating effect is also identical, therefore reaches and uniformly add to tissue layer 10 Heat improves the purpose of warming effect.On the other hand, be able to solve be attached to 10 surface of tissue layer 30 thickness of conductive layer it is excessive The thickness of problem, guarantee conductive layer 30 and tissue layer 10 is conducive to improve electric conductivity, enhances warming effect in a certain range.

Further, conductive material can choose including electric conductivities such as graphene, graphite, fullerene or carbon nanotubes Preferable material.In the present embodiment, conductive material is graphene, and grapheme material is conductive can good, heat-conductive characteristic It is good, and the stronger feature of toughness, when by grapheme material application in the fabric, fabric dress can not only be made to get up more to paste Body is comfortable, and convenient for folding to fabric.

Optionally, grapheme material includes one or more groups in single-layer graphene, bilayer graphene or multi-layer graphene It closes.

The electric conductivity of single-layer graphene is stronger, and multi-layer graphene has higher intensity, shape after combining the two At conductive layer 30, on the one hand there is excellent electric conductivity, on the other hand intensity with higher, extension can heat fabric 100 service life.

Further, the method for curing conductive layer 30 includes that nature dries or baked and cured, is not influencing conductive layer 30 Electric conductivity under the premise of, conductive layer 30 can be made more closely to be attached to the surface of tissue layer 10, conductive layer 30 formation Enhance the heating effect to tissue layer 10 after electrical circuit, and then improves the warming effect that can heat fabric 100.

(3) electrode 60 is added on the surface of conductive layer 30 and electrode 60 is electrically connected with conductive layer 30.

Conductive layer 30 needs to be formed electrical circuit by external power supply, therefore electrode 60 is added on the surface of conductive layer 30 And external power supply is connected, so that conductive layer 30 is formed electrical circuit, to heat tissue layer 10.

Optionally, in order to keep the weight that can heat fabric 100 lighter, user's dress is got up more comfortably, therefore using double Face copper-foil conducting electricity adhesive tape is as electrode 60, and only 0.05mm-0.15mm, width 0.5cm-1cm were neither occupied the thickness of copper foil Big space, while when being exposed to outside, it will not be corroded easily, extend the service life that can heat fabric 100.

Further, conductive layer 30 can be made to form electrical circuit to add since electrode 60 needs to connect with external power supply Heating fabric layer 10, so electrode 60 should be between conductive layer 30 and insulating layer 70.

On the one hand, if electrode 60 is between conductive layer 30 and insulating layer 70, electrode is added after forming conductive layer 30 60, the more conducively connection of electrode 60 and external power supply, manufacturing process is easier.On the other hand, it will not be led to what is prepared Electric layer 30 causes process loss, does not influence the electric conductivity of conductive layer 30, guarantees the warming effect that can heat fabric 100.

(4) insulating layer 70 is formed on the surface away from tissue layer 10 of conductive layer 30.

First by the surface away from tissue layer 10 of insulating materials sealing coated with conductive layer 30, so that insulating materials is attached to Conductive layer 30 away from tissue layer 10 surface and form insulating layer 70, then to the insulation of coated with conductive layer 30 and tissue layer 10 Layer 70 is solidified, and insulating layer 70 is prevented to be detached from from the surface of conductive layer 30, improves insulation effect.

Insulating layer 70 can play the role of insulation protection: when heating fabric, since conductive layer 30 is powered and forms electricity Circuit could heat tissue layer 10, so needing to be added insulating layer 70 completely cuts off the interior or exterior space that can heat fabric 100, insulate simultaneously Layer 70 can prevent conductive layer 30 from causing electric conductivity that excessive influence thermal property is lost due to washing or rubbing in use, Extend the service life that can heat fabric 100.

Detailed, insulating materials generally selects fibre, plastics or rubber product, in the present embodiment, insulation material Material is aqueous polyurethane.

Aqueous polyurethane has the characteristics that safe and reliable, good mechanical performance, and the application personnel discovery uses aqueous poly- ammonia Ester is very suitable to apply on the fabric with human contact as the insulating layer 70 that insulating materials is fabricated, and can be improved can add The fastness of heating fabric 100, and the ability of the surface waterproofing of fabric 100, oil-stain-preventing can be heated, extension can heat fabric 100 Service life.

Further, aqueous polyurethane is attached to as insulating materials by the modes such as coating, pad or impregnate and is led The surface away from tissue layer 10 of electric layer 30 forms insulating layer 70.

The method for coating, padding or impregnating enables to aqueous polyurethane to be uniformly adhered to the surface of conductive layer 30 simultaneously Uniform insulating layer 70 is formed, guarantees the planarization and aesthetics that can heat the appearance of fabric 100, and fabric 100 can be heated Insulation performance, 70 thickness of insulating layer adjusted by materials concentration, scraper height or compregnate number, the thickness meeting of insulating layer 70 Influence can heat the wash durability of fabric 100.

Further, since the filming performance of aqueous polyurethane is preferable, it therefore, can be to insulating layer after forming insulating layer 70 70 are solidified, and strengthen performance, cured mode include nature dry, baked and cured etc..

Insulating layer 70 after film-forming not only has preferably insulated barriers effect, but also can be enhanced to heat and knit Surface wear-resistant, the wash durability of object 100 can heat fabric 100 after repeatedly washing, can still guarantee conductive layer 30 electric conductivity is in excellent state, has good warming effect, extends the service life that can heat fabric 100.

It should be noted that signified washing herein, refers to according to the washing in 7A mode of washing in GB/T8629-2001 Mode, under water-washing method above-mentioned, the fabric 100 that heats of the application has after repeatedly washing, and still maintains warming The characteristics of excellent effect.

In order to illustrate the electric conductivity provided by the present application for heating fabric 100 it is excellent and delay electric conductivity decline Effect is prominent, carries out to multiple electric conductivities (being indicated with resistance/Ω/) heated the progress of fabric 100 20 times after washing Detection, can heat the type such as table 1 of fabric 100:

Table 1: the type of fabric can be heated

Group	Heating layer thickness/mm	Conductive material	Thickness of insulating layer/mm
				Embodiment 1	0.2	Graphene	0.1
Embodiment 2	0.3	Graphene	0.1
				Embodiment 3	0.5	Graphene	0.1
Embodiment 4	0.3	Carbon nanotube	0.15
				Embodiment 5	0.3	Graphene	0.15

The electric conductivity for heating fabric that detection embodiment 1-6 is provided obtains table 2；

Table 2: the resistance after fabric can be heated after washing several times

Group	Resistance/Ω/
		Embodiment 1	80-100
Embodiment 2	36-65
		Embodiment 3	150-200
Embodiment 4	180-250
		Embodiment 5	40-70

It should be noted that data measured by table 2 refer to that embodiment 1-5's heats fabric 100 by 20 washings Resistance (Ω/) later, therefore the numerical value in table is smaller, and it is more preferable to represent electric conductivity.

According to list data, show that other conditions are constant, when the thickness of heating layer 40 by embodiment 1 and the comparison of embodiment 2 In 0.1mm-0.4mm, 40 thickness of heating layer is bigger, and electric conductivity is better, and warming effect is more preferable.

Show that other conditions are constant, when the thickness of heating layer 40 is more than 0.1mm- by embodiment 2 and the comparison of embodiment 3 When 0.4mm, 40 thickness of heating layer is bigger, and will affect can heat 100 electric conductivity of fabric instead, to influence warming effect.

It show that other conditions are constant by embodiment 2 and the comparison of embodiment 5, when 70 thickness of insulating layer increases, can heat and knit The electric conductivity variation of object 100 less, shows that the increase of 70 thickness of insulating layer does not significantly affect the conduction that can heat fabric 100 Performance, but 70 thickness of insulating layer increases so that the thickness of the layer protecting film of formation also increases simultaneously after solidify, to can heat The wash durability of fabric 100 has a distinct increment.

Show that other conditions are constant by embodiment 4 and the comparison of embodiment 5, when using grapheme material as conductive layer 30, Resistance value is smaller, this shows that overlap joint is good between 30 lamella of conductive layer using graphene production, compares with other materials, has more Add excellent electric conductivity.

In conclusion making conductive layer 30 using grapheme material, and when heating layer 40 is with a thickness of between 0.1-0.4mm Electric conductivity is the most excellent, and 70 thickness of insulating layer influences less electric conductivity, but 70 thickness of insulating layer increases so that solidification The thickness of the layer protecting film formed later also while increasing, and has a distinct increment to the wash durability that can heat fabric 100.

The foregoing is merely preferred embodiment of the present application, are not intended to limit this application, for the skill of this field For art personnel, various changes and changes are possible in this application.Within the spirit and principles of this application, made any to repair Change, equivalent replacement, improvement etc., should be included within the scope of protection of this application.

Claims (10)

1. one kind can heat fabric, which is characterized in that the fabric that heats includes:

Tissue layer；

Conductive layer is the conductive layer on the surface of the tissue layer, and the conductive layer can be used for conduction and heat the fabric Layer；

Insulating layer, the conductive layer is the insulating layer on the surface of the tissue layer.

2. according to claim 1 heat fabric, which is characterized in that the conductive layer and the tissue layer constitute fever Layer, the thickness of the heating layer is between 0.1mm to 0.4mm.

3. according to claim 1 heat fabric, which is characterized in that the conductive layer is graphene layer.

4. according to claim 3 heat fabric, which is characterized in that the graphene layer includes single-layer graphene, double Layer at least one of graphene or multi-layer graphene.

5. according to claim 3 heat fabric, which is characterized in that the conductive layer is uniformly wrapped on the tissue layer Surface.

6. according to claim 1-5 heat fabric, which is characterized in that the insulating layer is aqueous polyurethane Layer.

7. one kind can heat fabric, which is characterized in that the fabric that heats includes:

Tissue layer；

Conductive layer is the conductive layer on the surface of the tissue layer；

Electrode, the electrode are located at the surface of the conductive layer and are electrically connected with the conductive layer, and the electrode is outer for connecting Portion's power supply；

Insulating layer, the conductive layer is the insulating layer on the surface of the tissue layer.

8. according to claim 7 heat fabric, which is characterized in that the electrode be located at the conductive layer and it is described absolutely Between edge layer.

9. according to claim 8 heat fabric, which is characterized in that insulating layer sealing coat the conductive layer and The tissue layer, the insulating layer are provided with hole, and the electrode passes through the hole for connecting external power supply.

10. one kind can heats laundry, which is characterized in that it is described can heats laundry include one kind such as any one of claim 1-9 institute That states heats fabric.