CN102794946B - Membrane capable of radiating far infrared - Google Patents

Abstract

The invention discloses a membrane capable of radiating far infrared. The membrane mainly comprises a surface layer and a carbon layer covering the surface layer, wherein the carbon layer comprises at least 60 wt percent of carbon components. Therefore, the membrane capable of radiating the far infrared can radiate the far infrared and has a function of resisting ultraviolet.

Description

Can membrane capable of radiating far infrared

Technical field

The present invention relates to a kind of diaphragm, more particularly to a kind of diaphragm that can radiate far infrared.

Background technology

In beauty, the program of maintenance, generally all can be by containing the work(for being soaked with the functions such as moisturizing, whitening, smoothing wrinkle, light speckle The thin film of energy liquid is pasted on skin, promotes the various effective ingredient in functional liquid to penetrate into Skin Cell, reaches skin protection, improves The purpose of skin, enables the skin to maintain good state.However, depend merely on making skin be contacted with full of the thin of functional liquid Film, the effective ingredient that skin can absorb is very limited, so that maintenance effect is not notable.

The content of the invention

In view of this, present invention is primarily targeted at provide one kind can membrane capable of radiating far infrared, it can be radiated Far infrared to lift human skin temperature, to strengthen absorbing power of the skin to functional component in diaphragm, and with uvioresistant Function.

Another object of the present invention is to provide it is a kind of with antibacterial functions can membrane capable of radiating far infrared.

To reach above-mentioned purpose, one kind provided by the present invention can membrane capable of radiating far infrared, include：

One top layer；And

One carbon layer, covers in the top layer, and the carbon layer includes at least carbon component of 60wt%.

It is above-mentioned can membrane capable of radiating far infrared, wherein, the carbon layer includes selected from bamboo carbon powder, carbon fiber, nanometer At least one material in the group that carbon pipe, activated carbon powder, active carbon particle and activated carbon fiber are constituted.

It is above-mentioned can membrane capable of radiating far infrared, wherein, the carbon layer be fabric, not fabric, the paper with air-vent or There is no the thin film of air-vent.

It is above-mentioned can membrane capable of radiating far infrared, wherein, the carbon layer also includes the at most staple fibre of 40wt%.

It is above-mentioned can membrane capable of radiating far infrared, wherein, the carbon layer also includes at most 2wt% in particle or film type The metal of state, at least one in the group that the metal is constituted selected from silver, gold, palladium, copper, zinc, aluminum and chromium.

It is above-mentioned can membrane capable of radiating far infrared, wherein, the carbon layer includes at least carbon component of 80wt%.

It is above-mentioned can membrane capable of radiating far infrared, wherein, the material on the top layer is natural fiber, staple fibre, macromolecule Material, natural leather, dermatine or combinations thereof.

It is above-mentioned can membrane capable of radiating far infrared, wherein, also include a bottom, cover in the carbon layer, the bottom Material is natural fiber, staple fibre, macromolecular material, natural leather, dermatine or combinations thereof.

It is above-mentioned can membrane capable of radiating far infrared, wherein, also include a pressure-sensitive adhesion layer, cover in the bottom, the sense Pressure adhesion layer is by made by silica gel, acrylic glue, polycarbonate-based glue or its mixture.

It is above-mentioned can membrane capable of radiating far infrared, wherein, also include a pressure-sensitive adhesion layer, cover in the carbon layer, should Pressure-sensitive adhesion layer is by made by silica gel, acrylic glue, polycarbonate-based glue or its mixture.

Due to the present invention can membrane capable of radiating far infrared be used in human body skin when, can improve skin temperature, promote Blood circulation, therefore the ability of effective ingredient in skin absorption diaphragm can be lifted, also, the diaphragm of the present invention also has uvioresistant The function of line, can avoid skin from being subject to uv damage.

Describe the present invention below in conjunction with the drawings and specific embodiments, but it is not as a limitation of the invention.

Description of the drawings

Fig. 1 is a schematic diagram, show according to carried out by first embodiment of the invention can membrane capable of radiating far infrared knot Structure；

Fig. 2 is a schematic diagram, show according to carried out by second embodiment of the invention can membrane capable of radiating far infrared knot Structure；

Fig. 3 is a schematic diagram, show according to carried out by third embodiment of the invention can membrane capable of radiating far infrared knot Structure；

Fig. 4 is a schematic diagram, show according to carried out by fourth embodiment of the invention can membrane capable of radiating far infrared knot Structure；

Fig. 5 is a temperature profile, shows that testee face sticks the Temperature Distribution before diaphragm；

Fig. 6 is a temperature profile, shows that testee face sticks the Temperature Distribution after the diaphragm of experimental example 1；And

Fig. 7 is a temperature profile, shows that testee face sticks the Temperature Distribution after the diaphragm of comparative example 1.

Wherein, reference

The top layer of 10 diaphragm 20

The bottom of 30 carbon layer 40

50 pressure-sensitive adhesion layers

Specific embodiment

The structural principle and operation principle of the present invention are described in detail below in conjunction with the accompanying drawings：

In the examples below, identical reference number, represents same or similar structure.

Refer to Fig. 1 first, first embodiment of the invention provided can membrane capable of radiating far infrared 10, include one The carbon layer 30 of top layer 20 and.

The material on the top layer 20 can for natural fiber, staple fibre, macromolecular material, natural leather, dermatine or its Compositionss.

The carbon layer 30 is covered in the bottom surface on the top layer 20, also, the carbon layer 30 include at least the carbon of 60wt% into Divide and the at most staple fibre of 40wt%, preferably preferably include the artificial fibre of at least carbon component of 80wt% and at most 20wt% Dimension.Aforementioned carbon component can for bamboo carbon powder, carbon fiber, CNT, activated carbon powder, active carbon particle, activated carbon fiber or Its mixture.Secondly, the carbon layer 30 can be fabric, not fabric, the paper with air-vent or the thin film with air-vent.

In addition, in the carbon layer 30 of the diaphragm 10 of the present embodiment, can also include the at most metal of 2wt%, can be Metallic or metallic film kenel, also, aforementioned metal can be at least one in silver, gold, palladium, copper, zinc, aluminum or chromium. Thereby, diaphragm 10 of the invention can also have the function of antibacterial.

During actual manufacture, the diaphragm 10 can also be added with various functions composition, such as hyaluronic acid, collagen protein, fruit acid, silver Fructus Pruni extract, aloe extraction liquid, Radix Glycyrrhizae extract liquid, Bursin, multi-vitamin, nature moisturizing factor, seaweed extract thing etc..Mat This, when the diaphragm 10 of the present embodiment is pasted on human body skin, the carbon component in carbon layer 30 can radiate far infrared, can carry High skin temperature, enhancement blood circulation, and then the ability of functional component in skin absorption diaphragm is lifted, also, in carbon layer 30 Carbon component also there is anti-ultraviolet function, human body skin can be prevented effectively from by uv damage.In addition, the diaphragm of the present invention 10 can also make such as facial film, volume film in response to being actually needed, eye mask, cervacoria, pleura, handss film, foot film, remove scar paster or wound Dressing etc., or, the diaphragm 10 of the present invention applies also for glove, socks, mask, wrister, elbow support or knee cap.

Referring again to Fig. 2 to Fig. 4, according to carried out by the second to fourth embodiment of the invention can membrane capable of radiating far infrared 10, also include one and cover bottom 40 (as shown in Figure 2) in the carbon layer 30；Or one cover in the sense of the carbon layer 30 Pressure adhesion layer 50 (as shown in Figure 3)；Or one cover bottom 40 in the carbon layer 30, and one covers in the bottom 40 Pressure-sensitive adhesion layer 50 (as shown in Figure 4).The material of the bottom 40 can be natural fiber；Staple fibre；Such as polyethylene (Polyethylene, PE), polrvinyl chloride (Polyvinyl Chloride, PVC), polypropylene (Polypropylene, PP), The high score of polyethylene terephthalate (Polyethylene terephthalate, PET) or Teflon (Teflon) etc. Sub- material；Natural leather；Dermatine or aforesaid compositionss.The pressure-sensitive adhesion layer 50 then can be by silica gel, acrylic glue, poly- carbon Made by esters of gallic acid glue or its mixture.

When using, if the structure shown in Fig. 2, then contact human body skin for the bottom 40；If shown in Fig. 3 or Fig. 4 Structure, then contact human body skin for the pressure-sensitive adhesion layer 50.

Hereby enumerate following experimental example to further elucidate and unrestricted the scope of the present invention, have in all arts logical Normal skill, the various change carried out by the case where spirit of the invention is not violated all is belonged to the scope of the present invention with modification.

[experimental example 1]

The top layer 20 adopts polyethylene terephthalate (PET) non-woven；The carbon layer 30 adopts activated carbon fiber Cloth, its composition is 100% activated carbon fiber, and specific surface area is 1100m2/g, and moisture content is 19%；The bottom 40 adopts porous Property polyethylene (PE) film.Each layer is binded using medical grade acrylic glue, and the diaphragm 10 of experimental example 1 is obtained.

[experimental example 2]

The top layer 20 adopts cotton flat fabric；The carbon layer 30 adopts 100% carbon fiber felt, and thickness is 0.2mm, and weight is 70g/m2, specific surface area is 86m2/g, and moisture content is 0.50%；The pressure-sensitive adhesion layer 50 is by the way that silanes plastics are directly applied It is distributed in the carbon layer 30 and is formed.Top layer 20 and carbon layer 30 are closed using medical grade acrylic gluing, the film of experimental example 2 is obtained Piece 10.

[experimental example 3]

The top layer 20 adopts cotton flat fabric；The carbon layer 30 adopts 100% carbon fiber flat fabric, and specific surface area is 75m2/g, thickness is 0.35mm, and weight is 85g/m2, also, the carbon layer 30 is contained within the Silver Nanoparticles of 0.2wt%. Each layer is binded using medical grade acrylic glue, and the diaphragm 10 of experimental example 3 is obtained.

[experimental example 4]

The top layer 20 adopts cotton non-woven；The carbon layer 30 is using activated carbon fiber and polyethylene terephthalate (PET) fiber mixes formed non-woven, and the wherein content of activated carbon fiber is 60wt%, and thickness is 0.25mm, and weight is 50g/m2, specific surface area is 250m2/g.Each layer is binded using medical grade acrylic glue, and the diaphragm 10 of experimental example 4 is obtained.

[experimental example 5]

The top layer 20 adopts cotton non-woven；The carbon layer 30 is using activated carbon fiber and polyethylene terephthalate (PET) fiber mixes formed non-woven, and the wherein content of activated carbon fiber is 80wt%, and thickness is 0.25mm, and weight is 50g/m2, specific surface area is 400m2/g.Each layer is binded using medical grade acrylic glue, and the diaphragm 10 of experimental example 5 is obtained.

[comparative example 1]

The top layer 20 adopts cotton non-woven；The carbon layer 30 is using activated carbon fiber and polyethylene terephthalate (PET) fiber mixes formed non-woven, and the wherein content of activated carbon fiber is 25wt%, and thickness is 0.05mm, and weight is 20g/m2, specific surface area is 100m2/g.Top layer 20 and carbon layer 30 are closed using medical grade acrylic gluing, comparative example 1 is obtained Diaphragm 10.

[comparative example 2]

The top layer 20 adopts cotton non-woven；The carbon layer 30 is using activated carbon fiber and polyethylene terephthalate (PET) fiber mixes formed non-woven, and the wherein content of activated carbon fiber is 50wt%, and thickness is 0.25mm, and weight is 50g/m2, specific surface area is 200m2/g.Top layer 20 and carbon layer 30 are closed using medical grade acrylic gluing, comparative example 2 is obtained Diaphragm 10.

[comparative example 3]

The top layer 20 adopts cotton non-woven；The carbon layer 30 is using activated carbon fiber and polyethylene terephthalate (PET) fiber mixes formed non-woven, and the wherein content of activated carbon fiber is 50wt%, and thickness is 0.25mm, and weight is 50g/m2, specific surface area is 200m2/g；The pressure-sensitive adhesion layer 50 is by the way that silanes plastics are directly coated at into the carbon layer 30 And formed.Top layer 20 and carbon layer 30 are closed using medical grade acrylic gluing, the diaphragm 10 of comparative example 3 is obtained.

Method of testing

[far infrared test]

First, using far infrared digital thermal image instrument (Thermal Infrared-Ray Digital Camera, type Number SAT-HY6800) test human face do not stick mean temperature T1 before diaphragm.Afterwards, by experimental example and the diaphragm of comparative example After 10 are pasted on human face 60 minutes, the mean temperature that aforementioned far infrared digital thermal image instrument tests human face is reused T2.The value added that T2 is subtracted the human face mean temperature obtained by T1 is shown in table 1 below.

[ultraviolet protective test]

Using AATCC183-2004 dry testings come test experience example and the ultraviolet penetrance of the diaphragm of comparative example (%), and by result table two is shown in, wherein aforementioned ultraviolet penetrance is detection UVA meansigma methodss, UVB meansigma methodss, Yi Jikang Ultraviolet index (UPF), wherein, the lower amount for representing that ultraviolet is penetrated of UVA and UVB meansigma methodss is fewer, and uvioresistant index It is higher, then it represents that anti-ultraviolet effect is better.

Table 1

Project	Face's mean temperature (DEG C)
		Experimental example 1	+1.04
Experimental example 2	+1.50
		Experimental example 3	+1.56
Experimental example 4	+0.47
		Experimental example 5	+0.80
Comparative example 1	+0.21
		Comparative example 2	+0.25
Comparative example 3	+0.26

Table 2

Should be clear from by the result of table 1, after testee sticks the diaphragm 60 minutes of experimental example 1 to 5, its face is average The all significant raising of temperature, and the diaphragm of comparative example 1 to 3 is sticked after 60 minutes, face's mean temperature does not then have significant change, therefore The diaphragm of the provable present invention can radiate far infrared really, the temperature for sticking position effectively be lifted, with blood circulation promoting. Illustrated with experimental example 1 and comparative example 1, before test, when testee face does not stick diaphragm, using far infrared digital thermal The temperature profile that image instrument is measured is as shown in figure 5, now the mean temperature of testee face is 32.07 DEG C.Wait to stick experiment After 60 minutes, the temperature profile for measuring sticks receiving for experimental example 1 to the diaphragm of example 1 and comparative example 1 as shown in Fig. 6 and Fig. 7 The forehead and snoot of survey person shows obvious redness, and now the mean temperature of testee face is 33.11 DEG C, is increased 1.04 DEG C, and the face of the testee of comparative example 1 is sticked then without significant change.Therefore, the diaphragm of experimental example 1 can actually be improved The mean temperature of testee face, and promote to stick the blood circulation at diaphragm position.

Additionally, as shown in Table 2, the diaphragm of comparative example 1 to 3, its ultraviolet penetrance is up to 40%~80%, and Uvioresistant index is only 2~8, and the diaphragm of experimental example 1 to 5, its ultraviolet penetrance is only about 0.4%~10%, and resists Ultraviolet index is up to 15~235, it is sufficient to prove that the ultraviolet screening effect of the diaphragm of the present invention is very excellent.

To sum up institute it is old, due to the present invention can membrane capable of radiating far infrared be used in human body skin when, skin can be improved Temperature, enhancement blood circulation, therefore the ability of functional component in skin absorption diaphragm can be lifted, additionally, the diaphragm of the present invention is also With anti-ultraviolet function, therefore skin can be avoided from being subject to uv damage.In addition, the diaphragm of the present invention can also add antibacterial Metal so as to the function with antibacterial.

Certainly, the present invention can also have other various embodiments, ripe in the case of without departing substantially from spirit of the invention and its essence Know those skilled in the art and work as and various corresponding changes and deformation, but these corresponding changes and change can be made according to the present invention Shape should all belong to the protection domain of appended claims of the invention.

Claims (5)

1. one kind can membrane capable of radiating far infrared, it is characterised in that the diaphragm is sticked together by a top layer, a carbon layer and a pressure-sensitive Layer is constituted；

The carbon layer is covered in the top layer, and the carbon layer includes at least carbon component of 80wt%, and the carbon layer is that activated carbon is fine Dimension, the carbon layer is fabric or not fabric, and the pressure-sensitive adhesion layer is covered in the carbon layer, and the pressure-sensitive adhesion layer is by silica gel, Ya Ke Made by power glue, polycarbonate-based glue or its mixture.

2. according to claim 1 can membrane capable of radiating far infrared, it is characterised in that the material on the top layer is natural fibre Dimension, staple fibre, macromolecular material, natural leather, dermatine or combinations thereof.

3. according to claim 1 can membrane capable of radiating far infrared, it is characterised in that the carbon layer includes 100wt% Carbon component.

4. according to claim 1 can membrane capable of radiating far infrared, it is characterised in that the carbon layer has at most 20wt% Staple fibre.

5. according to claim 1 can membrane capable of radiating far infrared, it is characterised in that the carbon layer has at most 2wt% Metal in particle or film shape, in the group that the metal is constituted selected from silver, gold, palladium, copper, zinc, aluminum and chromium at least It is a kind of.