CN102806725A - Body heat reflective sheet - Google Patents

Abstract

The invention discloses a body heat reflective sheet. The body heat reflective sheet includes one of a synthetic fiber, a generated fiber or a natural fiber, a sheet layer produced by a mixture of two or more of the fibers, an infrared acceleration layer arranged on one side of the sheet layer, and a body heat reflective layer. The body heat reflective layer is partially stacked on one side of the sheet layer.

Description

The body heat reflector plate

Technical field

The present invention relates to be used to utilize body heat to improve warming body heat sheet.More specifically, the present invention relates to a kind of body heat sheet that is suitable for use in outdoor and sportswear.

Background technology

Warming principle can be divided into and be used to prevent diffuse to outside enthusiasm principle and be used for supplying with from the outside passivity principle of heat from the heat that health produces.Before the kind method be insulate heat and warming body heat of air layer through fabric, be a kind of not with the multiple heat (duplication heat) of body heat diffuse to clothes the outside infrared reflection and be a kind of absorption of the emittance to body heat.Under latter event, several different methods has been proposed, for example the electrons heat material, store and heat insulating material formed through heat hot heat insulating material formed, through solar energy of chemical action.

But shortcoming is that owing to depend on the heat of insulation and warming mode, the thickness meeting thickening of fabric is so preceding kind method is not suitable in the application of common purpose.And under the situation of other method of use, the lauderability of fabric and durability reduce.

Simultaneously, thermal conductivity is defined as the intrinsic physical property of material, and it is the capacity of heat transmission of description as the result's of molecular motion material, and thermal conductivity is considered to the speed that type of thermal communication is crossed a certain zone of health or material.Simultaneously, thermal conductivity is meant for unit interval and thermograde by the gradient of certain some place of the vertical material that passes through through the heat of the isothermal area of unit are.That is to say that thermal conductivity depends on temperature and pressure.The thermal conductivity of isotropic material is scalar (scalar quantity), and the thermal conductivity of anisotropic material is tensor (tensor quantity).About thermal conductivity and electric conductivity, there is one Wiedemann-Forlan Zi Dinglv, that is to say this law regulation: the thermal conductivity of a metal and the ratio of electric conductivity equal absolute temperature and multiply by and the irrelevant constant of the type of metal.Thermal conductivity depends on density, specific heat and viscosity.For example, the flax fiber with high-termal conductivity is cool fiber, and the wood with low heat conductivity is warm fiber.

Publication number is that the PCT application of WO2002/34988 discloses a kind of hot textile; This hot textile comprises the heating yarn of at least one non-conducting yarn, at least one positive temperature coefficient (PTC), and this non-conducting yarn and said PTC heating yarn are combined into one and add heating fabric.But this invention has the problem of himself.One is to need extra power supply, and another is the grade of fit that has reduced dress material.

Simultaneously; Korean Utility Model No.2002-27811 discloses a kind of multifunctional fabric by warp that interweaves and parallel braiding; This warp and parallel are spun yarn or multifibres yarn, the yarn that wherein is coated with silver along warp direction or weft direction with certain separation on Fypro.The yarn that is coated with silver is arranged along warp and weft direction regularly, to have good antistatic behaviour, insulating properties and heat insulating ability.Owing to have numerous planes yarn of the matte of low heat conductivity is to be woven together with the yarn that is coated with silver, therefore difficult thermal insulation or the heat insulating ability of demonstrating.In addition, realize that through local thermal conductivity difference heat insulation is shady, because except the part that is furnished with the yarn that is coated with silver, major part is to be formed by the fabric with low heat conductivity in identical tissue layer.

Generally speaking, heat insulating ability only depends on the condition of fabric and clothes, but also there is a problem really in prior art, does not for example consider the metabolism and the mechanism of tissue.

Summary of the invention

Technical problem

The present invention is devoted to address the above problem, and one object of the present invention is to provide a kind of body heat reflector plate that can utilize body heat to improve insulation.

Another object of the present invention is to provide a kind of and is used to quicken and causes the infrared ray that is produced by health and keep body heat to improve the body heat sheet of insulation.

Technical scheme

Embodiment of the present invention provides one heat reflection sheet; This reflector plate comprises a lamella of being processed by the mixture of one of synthetic fibers, generation fiber or natural fiber or plural these fibers, and is positioned at an infrared ray acceleration layer and the one heat-reflecting layer on this lamella one side.When this situation, the body heat reflecting layer is only partly piled up in a side of lamella.

In some embodiments, infrared ray acceleration layer and body heat reflecting layer are sequentially piled up.

In some embodiments, the infrared ray acceleration layer is stacked on the side of whole or lamella partly, and the body heat layer is stacked the nearly 30%-99% of the gross area of infrared ray acceleration layer.

In some embodiments, infrared ray acceleration layer and body heat reflecting layer are stacked on the identical plane of a side of lamella.

In some embodiments, the summation of the area in infrared ray acceleration layer and body heat reflecting layer is stacked the nearly 30%-99% of the gross area of lamella one side.

In some embodiments, the area ratio in infrared ray acceleration layer and body heat reflecting layer is in 20: 80 to 80: 20 scope.

In some embodiments, the infrared ray acceleration layer is one to comprise the inorganic agent of zirconium.

In some embodiments, the body heat reflecting layer is one to comprise the resin of metallic film or metal material.

Beneficial effect

Body heat reflector plate according to the present invention comprises infrared ray acceleration layer and body heat reflecting layer, increases heat insulation effect to utilize body heat, and irrespectively keeps insulation constantly with environment change.

In addition, body heat reflector plate according to the present invention is suitable for use in outdoor clothes.

Description of drawings

Fig. 1 illustrates first embodiment according to body heat reflector plate of the present invention;

Fig. 2 illustrates another embodiment according to first embodiment of body heat reflector plate of the present invention;

Fig. 3 illustrates second embodiment according to body heat reflector plate of the present invention;

Fig. 4 illustrates another embodiment according to second embodiment of body heat reflector plate of the present invention;

Fig. 5 illustrates according to the infrared ray acceleration layer of first embodiment of the present invention or the various instances in body heat reflecting layer; With

Fig. 6 illustrates according to the infrared ray acceleration layer of second embodiment of the present invention or the various combinations in body heat reflecting layer;

Wherein, the brief explanation of the vitals of accompanying drawing:

100: lamella 200: infrared ray acceleration layer 300: the body heat reflecting layer.

The specific embodiment

Below with reference to accompanying drawings preferred implementation of the present invention is described in detail.Should be noted in the discussion above that as long as if possible, will accompanying drawing with describe in the identical Reference numeral of use to represent same or analogous parts.When description is of the present invention, with omitting the relevant known function or the detailed description of structure, so that avoid making that theme of the present invention is unclear.

The term " approximately " that uses in this article, " haply " etc. are to be intended to allow error on some mathematics precision with explanation acceptable allowable deviation in industry; And prevent that irresponsible violator from utilizing content of the present disclosure inadequately; In content of the present disclosure, provide accurately or absolute numerical value so that help to understand the present invention.

Fig. 1 illustrates first embodiment according to body heat reflector plate of the present invention.Fig. 2 illustrates another embodiment according to first embodiment of body heat reflector plate of the present invention.Fig. 3 illustrates second embodiment according to body heat reflector plate of the present invention.Fig. 4 illustrates another embodiment according to second embodiment of body heat reflector plate of the present invention.Fig. 5 illustrates according to the infrared ray acceleration layer of first embodiment of the present invention or the various instances in body heat reflecting layer.Fig. 6 illustrates according to the infrared ray acceleration layer of second embodiment example of the present invention or the various combinations in body heat reflecting layer.

Shown in Fig. 1-4, comprise lamella 100, infrared ray acceleration layer 200 and body heat reflecting layer 300 according to body heat reflector plate of the present invention.

Lamella 100 by synthetic fibers, generate one of fiber (generated fiber) or natural fiber or more than two the mixture of these fibers process.Simultaneously, lamella 100 is processed by the fabrics in general such as establishment fabric, serving textile, non-braided fabric or similar fabric.

According to the purposes of lamella 100, lamella 100 can use absorption and rapid-curing cutback or antibiotic functional fabric.

Infrared ray acceleration layer 200 absorbs and quickens and is incubated to improve by the infrared ray of health generation, and can be a kind of inorganic agent that comprises zirconium.

Zirconium has infrared ray good absorption function and good acceleration and heat accumulation function.Preferably, zirconium is a zirconium carbide.

Infrared ray acceleration layer 200 can be through printing, coating, lamination or is filled the inorganic agent that comprises zirconium and form in a side of said lamella.

Body heat reflecting layer 300 is carried out reflection and is sent health back to and improve warming function by the body heat of health generation and with it.Body heat reflecting layer 300 can be a kind of resin that comprises metallic film or metal material.

Body heat reflecting layer 300 can form through a side that will be bonded in said lamella 100 or said infrared ray acceleration layer 200 such as the metallic film goldleaf, silver foil or the aluminium film.

In addition, can be through such as printing, coating, lamination or the several different methods filling, will comprise that the resin-shaped of the metal material of gold, silver, aluminium etc. for example is formed in a side in said lamella 100 or body heat reflecting layer 200.

Depend on the stacked structure in infrared ray acceleration layer 200 and body heat reflecting layer 300, can come organizator heat reflection sheet by the whole bag of tricks.Shown in Fig. 1 and Fig. 3, said method is classified into first embodiment and second embodiment.In the first embodiment, infrared ray acceleration layer 200 and body heat layer 300 sequentially are stacked on a side of lamella 100.In second embodiment, infrared ray acceleration layer 200 is stacked on the identical plane of lamella 100 with body heat layer 300.

Though body heat sheet 300 of the present invention can form by the whole bag of tricks, should be understood that the present invention is not restricted to these embodiments, but will help to understand better the present invention.

First embodiment is that infrared ray acceleration layer 200 and body heat layer 300 sequentially are stacked on a side of lamella 100, shown in Fig. 1 and Fig. 2.

In Fig. 1, infrared ray acceleration layer 200 is stacked on the whole surface of lamella 100, and body heat reflecting layer 300 is stacked on the infrared ray acceleration layer 200.

The body heat layer 300 of Fig. 1 can be stacked on the infrared ray acceleration layer 200 by various patterns, and said various patterns for example are point & figure chart case, triangle pattern, square pattern or argyle design, shown in Fig. 5 (a).

As shown in Figure 2, in order to have a predetermined structure, the infrared ray acceleration layer with a predetermined structure forms in a side of lamella 100, and body heat reflecting layer 300 is stacked on this infrared ray acceleration layer.

Infrared ray acceleration layer 200 and the body heat layer 300 various patterns shown in can Fig. 5 (b) form, and perhaps they can form with different patterns respectively.

Likewise, the shape in infrared ray acceleration layer or body heat reflecting layer, or infrared ray acceleration layer or body heat reflecting layer can be the further features except the multiple pattern of Fig. 5.

In order successfully to carry out the function of body heat reflecting layer and infrared ray acceleration layer, the 20%-99% that the body heat layer is stacked the gross area that reaches the infrared ray acceleration layer is preferred.More preferably, the body heat layer is stacked the nearly 30%-99% of the gross area of infrared ray acceleration layer.

Second embodiment is that infrared ray acceleration layer 200 is stacked on the identical plane of lamella 100, shown in Fig. 3 and Fig. 4 with body heat layer 300.

In Fig. 3, infrared ray acceleration layer 200 is stacked on the identical plane of lamella 100 with predetermined pattern respectively with body heat reflecting layer 300.Infrared ray acceleration layer 200 and body heat reflecting layer 300 have the identical pattern with Fig. 5 (a), or the corresponding pattern with similar Fig. 6 is to provide visual effect.

In Fig. 4, infrared ray acceleration layer 200 and body heat reflecting layer 300 are stacked on the identical plane of lamella 100 of similar Fig. 3, but can band pattern form.

Preferably, repeatedly form banded infrared ray acceleration layer 200 and body heat reflecting layer 300.The width of their band pattern can recently be controlled according to the area in infrared ray acceleration layer 200 and body heat reflecting layer 300.

In addition, can in an individual heat reflection sheet, repeatedly form the pattern shown in Fig. 3 and Fig. 4.Shape can be the further feature except the pattern of Fig. 5 and Fig. 6.

When the infrared ray acceleration layer 200 of band shape is stacked on the identical plane of lamella 100 1 sides with body heat reflecting layer 300; Shown in Fig. 3 and Fig. 4; In order to demonstrate the function in infrared ray acceleration layer 200 and body heat reflecting layer 300 effectively; Preferably, the summation of the area in this infrared ray acceleration layer 200 and body heat reflecting layer 300 is stacked the nearly 20%-100% of the gross area of a side of lamella 100, more preferably is to be stacked the nearly 30%-99% of the gross area of a side of lamella 100.

In addition, preferred, the area ratio in infrared ray acceleration layer 200 and body heat reflecting layer 300 is in 20: 80 to 80: 20 scope.Be lower than at this area ratio under 20 the situation, the function that infrared ray acceleration layer 200 and body heat reflecting layer 300 might take place can not illustrate fully.

One transparency control resin is coated on the body heat reflector plate 300 extraly.The trap that depends on solar heat, this transparency control resin is carried out the function of automatically controlling definition.

Transparency control resin is polyvinyl resin and polyvinyl acetate are mixed and to get with predetermined ratio, with in a critical condition and according to the variation of low temperature and change significantly.

Transparency control resin can be painted on the whole surface of body heat reflector plate 300, only be on infrared ray acceleration layer 200 or the body heat reflecting layer 300 or on infrared ray acceleration layer 200 and body heat reflecting layer 300 inchoate those parts.

According to body heat reflector plate of the present invention, a side in infrared ray acceleration layer and body heat reflecting layer is to contact with skin, can make the outdoor clothes with good warmth retention property thus.

Though invention has been described with reference to the embodiment of front and accompanying drawing at this, scope of the present invention is limited the accompanying Claim book.Therefore, it will be apparent to one skilled in the art that under the situation that does not deviate from disclosed spirit of the present invention in appending claims, a plurality of replacements, modification and change are possible.Should be understood that such replacement, modification and change are within the scope of the invention.

Claims (8)

1. body heat reflector plate comprises:

One lamella is processed by the mixture of one of synthetic fibers, generation fiber or natural fiber or plural these fibers; With

In an infrared ray acceleration layer and the one heat-reflecting layer of said lamella one side,

Wherein, said body heat reflecting layer is only partly piled up in a side of said lamella.

2. body heat reflector plate as claimed in claim 1, wherein, said infrared ray acceleration layer and body heat reflecting layer are sequentially piled up.

3. body heat reflector plate as claimed in claim 2, wherein, said infrared ray acceleration layer is stacked on a side of whole said lamella or a side of the said lamella of part, and said body heat layer is stacked the nearly 30%-99% of the gross area of infrared ray acceleration layer.

4. body heat reflector plate as claimed in claim 1, wherein, said infrared ray acceleration layer and body heat reflecting layer are stacked on the identical plane of a side of said lamella.

5. body heat reflector plate as claimed in claim 4, wherein, the summation of the area in said infrared ray acceleration layer and body heat reflecting layer is stacked the 30%-99% of the gross area of a side that reaches said lamella.

6. body heat reflector plate as claimed in claim 4, wherein, the area ratio in said infrared ray acceleration layer and said body heat reflecting layer is in 20: 80 to 80: 20 scope.

7. body heat reflector plate as claimed in claim 1, wherein, said infrared ray acceleration layer is one to comprise the inorganic agent of zirconium.

8. body heat reflector plate as claimed in claim 1, wherein, said body heat reflecting layer is one to comprise the resin of metallic film or metal material.

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