CN101634112A - Nano-meter far infrared cloth - Google Patents

Abstract

The invention relates to a nano-meter far infrared cloth, which is prepared by the following steps: firstly, preparing nano-meter far infrared polyurethane resin powder; and then, adopting a mode of liquefying the nano-meter far infrared polyurethane resin powder at high temperature, cladding on one surface of high-temperature resistant release paper and combining onto cloth through thermal transfer, or a mode of performing hot-pressing fusion on the nano-meter far infrared polyurethane resin powder and the cloth, to form the nano-meter far infrared cloth. The nano-meter far infrared cloth prepared by the steps can be applied to any cloth material to prepare various clothes and cloth products, which can release high-effect far infrared, has strong combination of the far infrared component and the cloth to enable the far infrared component not to fall off for long-term washing, are worn or used by users, and have health-care effect on human bodies.

Description

Nano-meter far infrared cloth

Technical field

The present invention relates to a kind of nano-meter far infrared cloth, especially refer to a kind of by nano grade far infrared polyurethane resin being incorporated into the Combination Design of various cloth, make to use and make the effect that various clothing or cloth products tool discharge high-effect far infrared, and far infrared composition and cloth associativity are strong, can not come off through long-term washing yet, and far infrared has the effect that radiation, penetrability and sympathetic response absorb, make wearer can reach the effect of health care of body, and be suitable for being applied in various clothes or similar cloth products structure.

Background technology

Recent study finds that wavelength is between the growth of the far infrared of 4 to 18 microns (μ m) and moving, plant and biology body and microbial body and healthyly have substantial connection to work as the external energy such as far infrared, when the interatomic motion frequency in the molecule of its frequency and cellularity is consistent, energy can be passive immediately, plant and biology body and microbial body cell absorb, cause sympathetic response, resonance, and increase intramolecular vibrations, in order to the activation histocyte, quicken the supply of ferment vigor and nutrient and enhance metabolism and health.

During far infrared infiltration human body, wherein the wavelength (8 to 12 microns (μ m)) that the far infrared that is discharged with the human nucleus is identical can be empathized, resonate with human body, make the hydrone in the human body produce the high-frequency vibrations, impel subcutaneous temperature to rise and produce thermogenetic effect, and then distend the blood vessels, the body nutrient absorption is made us in the accelerate blood circulation and metabolic physiological function is more active, with enhancing immunity, reach the effect of body-care.

Industry has been researched and developed successively the far infrared irradiation material has been sneaked in the fiber at present, to be applied to the example of bedding, western-style clothes and underclothes.General common meter far infrared cloth method for making is the far infrared powder is mixed formation far infrared glue with water-based glue after, in the beautiful resin of ripple (Polyester), be commonly called as fibrous raw material, in the process that high temperature reels off raw silk from cocoons, spray the cloth silk fiber with the far infrared glue with nozzle, make the silk fiber cooling, in process of expansion and contraction, make the far infrared powder stick together and (also claim implantation), again with this silk fiber, staple or a woollen various cloth of making tool far infrared composition that mix on the silk fiber surface.

Yet, aforesaid prior art method for making, see also Figure 11 and 12 for the far infrared fiber of existing structure in the forward and backward local enlarged diagram of washing, because the far infrared powder is to reach by glue to stick together on the fabric fibre surface, and the far infrared powder is different with the molecular structural formula of fabric fibre itself, can't compatible combination, so, through after the washing repeatedly, the disappearance of can dropping gradually of the lip-deep far infrared powder of this fabric fibre, this is the big defective of one.In addition, other has a kind of method for making for after the far infrared composition being sneaked in the beautiful resin of ripple (Polyester) in melting polymerization formation far infrared polyester grain, the processing procedure that reels off raw silk from cocoons, weaves cotton cloth etc. and obtain the cloth of tool far infrared composition.But, in order to make the beautiful resin of ripple (Polyester) grain in the process of the reeling off raw silk from cocoons fluffing of can not rupturing, the far infrared powder that attaches in the beautiful resin of this ripple (Polyester) can not surpass more than 3%, because of containing the composition of the far infrared of a large amount in the beautiful resin of this ripple (Polyester), so, the content of the contained far infrared composition of the cloth that makes of this kind method for making is on the low side as can be known, and the far infrared release rate of its manufactured goods is relatively also on the low side, is its defective.

Moreover the far infrared composition that general textile industry makes an addition on the cloth does not break away from these three kinds in germanium, bamboo carbon powder or tourmaline, though, the effect that bamboo carbon powder tool temperature storage is warming, the release rate of its far infrared is on the low side; Tourmaline then can cause the allergy of human body skin, and then can cause erythema; In addition, germanium is when single use, the release rate of its far infrared is not enough to reach the effect of promoting health, so far infrared release rate deficiency and effect that present as can be known textile industry makes an addition to used far infrared composition in the cloth are also not satisfactory, is another defective of prior art.

Summary of the invention

Main purpose of the present invention is to overcome the deficiencies in the prior art and defective, proposes a kind of method for making of nano-meter far infrared cloth, by step 1, the nano grade far infrared polyurethane resin powder of making; Two, nano grade far infrared polyurethane resin powder is coated on the cloth; And three, with nano grade far infrared polyurethane resin powder and cloth with hot binding; Can form nano-meter far infrared cloth, can discharge high-effect far infrared, the average emissivity that obtains the far infrared of 2 to 22 μ m after tested can reach more than 90% and (see also annex one to three), and method for making of the present invention is simple, by hot binding (as: hot transfer printing or heat fused) can be that nano grade far infrared polyurethane resin powder is incorporated on all kinds of cloth (as: elastical cloth or nonelastic cloth) with releasing far infrared composition, can simplify the processing procedure of meter far infrared cloth, again, contain polyurethane resin according in the prepared nano grade far infrared polyurethane resin powder of method for making of the present invention, contained fiber in itself and the cloth (the beautiful resin of ripple (Polyester) reels off raw silk from cocoons and gets through high temperature) is all the crude oil refining and separates petroleum chemicals, both compatibility are high, can not produce the problem of interface, so make the associativity of nano grade far infrared polyurethane resin powder and cloth strong, can not come off through repeatedly washing yet, make the tool of the present invention can lastingly releasing far infrared effect, and then promote whole practicality and convenience.

Another object of the present invention is to, a kind of structure of nano-meter far infrared cloth is proposed, Combination Design by cloth and nano grade far infrared polyurethane resin powder, this nano grade far infrared polyurethane resin powder can hot binding be gone up or can be fused in the cloth by hot pressing in the wherein one side of cloth by hot transfer printing, and the nano-meter far infrared cloth of formation tool air impermeability or tool gas permeability, make clothes or the cloth based article that various tools discharge high-effect far infrared to adapt to different demands, wherein, the made clothes of the airproof nano-meter far infrared cloth of tool can effectively completely cut off cold air, and form addition with far infrared, reach and promote the human body perspire, and help loss of weight, it discharges sweat also can be by the dynamical far infrared bump that nano-meter far infrared cloth of the present invention discharged, decompose and the generation anion, make the effect of clothing tool deodorizing, in addition, application manufactured goods of the present invention possess the heat storing and heat preserving of far infrared, impel hypodermis blood vessel dilatation, accelerate blood circulation, enhance metabolism, cell tissue is viability and strengthen the health-care effects such as immunity of human body again, can promote the value of clothes or cloth products, to promote whole practicality and economic benefit.

For reaching above-mentioned purpose, the invention provides a kind of method for making of nano-meter far infrared cloth, comprise the following steps: at first to make nano grade far infrared polyurethane resin powder, can adopt then the high temperature resistant release liners of nano grade far infrared polyurethane resin powder high temperature liquefaction coating is incorporated into mode on the cloth with hot transfer printing after wherein one side goes up again, maybe can adopt nano grade far infrared polyurethane resin powder and cloth mode, promptly form a nano-meter far infrared cloth with the hot pressing fusion; The nano-meter far infrared cloth of making according to above-mentioned steps can be applicable on any cloth, to discharge high-effect far infrared and far infrared composition and cloth associativity strong and through clothing and cloth products that long-term washing also can not come off to make various tools, allows the user when dressing or use and can have an effect of health care of body.

Other characteristics of the present invention and specific embodiment can further be understood in the detailed description of following conjunction with figs..

Description of drawings

Fig. 1 is the flow chart of steps of method for making of the present invention;

Fig. 2 is the three-dimensional appearance enlarged diagram of single made nano grade far infrared polyurethane resin of method for making of the present invention;

Fig. 2 a is the cut-away enlarged view of Fig. 2;

Fig. 3 is the making schematic flow sheet of first embodiment of method for making of the present invention with hot transfer printing combination;

Fig. 4 is the local enlarged diagram of the three-dimensional appearance of structure of the present invention;

Fig. 5 is for being the local cut-away enlarged view of first embodiment of structure of the present invention with hot transfer printing combination;

Fig. 6 is the local cut-away enlarged view that second embodiment of structure of the present invention merges with hot pressing;

Fig. 7 is applied to the use schematic diagram of facial mask for the first embodiment of the present invention;

Fig. 8 is applied to the use schematic diagram of motion overcoat for the first embodiment of the present invention;

Fig. 9 is applied to the use schematic diagram of Western-style clothes liner for the first embodiment of the present invention;

Figure 10 is applied to the use schematic diagram of cap back boxing for the first embodiment of the present invention;

Figure 11 is the local enlarged diagram of far infrared fiber before washing of prior art structure;

Figure 12 is the local enlarged diagram of far infrared fiber after washing of prior art structure.

Symbol description among the figure

11 make nano grade far infrared polyurethane resin powder

12 are coated in nano grade far infrared polyurethane resin powder on the cloth

13 with nano grade far infrared polyurethane resin powder and cloth with hot binding

20 cloth

30 nano grade far infrared polyurethane resin powder

40 release liners

50 facial masks

60 clothes

70 caps

The specific embodiment

See also Fig. 1 to 3, the method for making of nano-meter far infrared cloth of the present invention comprises the following steps:

One, make nano grade far infrared polyurethane resin powder 11: this makes nano grade far infrared polyurethane resin powder 11 steps is with vanadium trioxide (V ₂O ₃), yittrium oxide (Y ₂O ₃), cuprous oxide (Cu ₂O), di-iron trioxide (Fe ₂O ₃), alundum (Al (Al ₂O ₃), nickel oxide (NiO), silica (SiO ₂), magnesia (MgO) and antimony oxide (Sb ₂O ₃) each composition of oxygenatedchemicals mix with 1 to 1 after, with mixed material at high-temperature gasification more than 1600 ℃, compile above-mentioned vapour to obtain particle diameter comprehensive ultramicro powder below 100nm (100 nanometers (nm) equal 0.1 micron (μ m)) with precipitron again, again with the particle size macromolecular polyurethane resin powder of 2000 orders (mesh) (the polyurethane resin powder of obtaining by the screen cloth of 2000 orders (mesh) at the most, and 2000 orders (mesh) are equal to 6.5 microns of particle diameters (μ m)) with after the mixing in 3: 7, be positioned in the high speed agitator that is provided with the Cryo Equipment below-10 ℃, with the high-speed stirred of 3000 to 4000 rev/mins of speed after about 30 minutes, rotate centrifugal force and the thermogenetic effect that is produced by high-speed stirred, allow macromolecular polyurethane resin powder as strong magnets, adsorb the comprehensive ultramicro powder of micromolecular nanoscale (as shown in Figure 2), can impel the comprehensive ultramicro powder of the micromolecular nanoscale of the complete polymerization of macromolecular polyurethane resin powder surface, it is last that the seamless surface unoccupied place that forms macromolecular polyurethane resin powder is covered with the comprehensive micropowders of the micromolecular nanoscale of polymerization fully, stop to stir, and then startup freezing equipment, allow temperature in the container reduce to-10 ℃ rapidly and reach freeze settled to get off, to increase the stability after comprehensive ultramicro powder and polyurethane resin powder mutually combine, and then make the comprehensive ultramicro powder of this nanoscale and polyurethane resin powder form strong bonded and can not come off (shown in Fig. 2 a, be covered with the generalized section that the comprehensive ultramicro powder of a plural number nanoscale is arranged for the surface attachment of macromolecular polyurethane resin powder), the firmness that mutually combines according to contained nanoscale polyurethane resin powder in the prepared nano grade far infrared polyurethane resin powder of method for making of the present invention and polyurethane resin powder, unless be subjected to gravity impact and produce the stability that centrifugal bump just can influence its combination once more, but, when gravity impact and centrifugal bump stop, ultramicro powder that this nanoscale is comprehensive and polyurethane resin powder still can return back to stable and strong bonded state originally; So, can obtain nano grade far infrared polyurethane resin powder of the present invention.

Two, nano grade far infrared polyurethane resin powder is coated on the cloth 12: this is coated in step 12 on the cloth with nano grade far infrared polyurethane resin powder and can includes one in regular turn and (the optimum temperature suggestion is 250 ℃) fusion under in 200 to 300 ℃ of high temperature of nano grade far infrared polyurethane resin powder is coated in resistant to elevated temperatures release liners that the step and of resistant to elevated temperatures release liners (resistant to elevated temperatures release liners is resistant to elevated temperatures PET film) is coated with nano grade far infrared polyurethane resin powder with fusion is located at step on the cloth, just will make resulting nano grade far infrared polyurethane resin powder 30 (seeing also Fig. 3) in 200 ℃ to 300 ℃ high temperature (optimum temperature is 250 ℃) fusion down by step 1, be combined on the resistant to elevated temperatures release liners 40 (being high temperature resistant PET film) with coating, afterwards, to be combined with the one side of nano grade far infrared polyurethane resin powder 30 and the one side applying of cloth 20 on this resistant to elevated temperatures release liners 40 again, and the one side of full this cloth 20 of lid; Wherein, this cloth 20 can adopt elastical cloth or nonelastic cloth (seeing also annex two and annex three).

Three, with nano grade far infrared polyurethane resin powder and cloth with hot binding 13: when finish nano grade far infrared polyurethane resin powder is coated on the cloth 12 step after, just be located at after the step on the cloth in this resistant to elevated temperatures release liners that fusion is coated with nano grade far infrared polyurethane resin powder, for carrying out this with nano grade far infrared polyurethane resin powder and cloth step with hot binding 13, this is located at the resistant to elevated temperatures release liners 40 (seeing also Fig. 3) on the cloth 20 and the mode of this hot binding can adopt with heat pressure roller (figure does not show) roll extrusion, nano grade far infrared polyurethane resin powder 30 heat on this resistant to elevated temperatures release liners 40 are needed on the cloth 20, and at this with nano grade far infrared polyurethane resin powder and cloth after the step with hot binding 13, further be provided with a step that removes resistant to elevated temperatures release liners, because, after the hot transfer printing of heat pressure roller, nano grade far infrared polyurethane resin powder 30 on this release liners 40 has been incorporated on the cloth 20, so release liners 40 can be removed, be combined with the structure (as shown in Figure 5) of nano grade far infrared polyurethane resin powder 30 for coating on this cloth 20 of formation.

Wherein, this cloth 20 can adopt elastical cloth (as: synthetic yarn) or nonelastic cloth (as: woolen cloth, cotton), and no matter be which kind of cloth, because all contain the beautiful fiber of ripple (the beautiful resin of ripple (Polyester) reels off raw silk from cocoons through high temperature and gets) in the cloth 20, contained polyurethane resin is all the crude oil refining and separates petroleum chemicals (separate obtain via the crude oil refining) in the beautiful resin of this ripple (Polyester) and the nano grade far infrared polyurethane resin powder 30, so, the beautiful resin of ripple (Polyester) is compatible splendid with polyurethane resin, after both mutually combine, can not produce interface (promptly can not form the phase veneer of combination but mutually merge), also can not come off; Thus, to discharge high-effect far infrared and far infrared composition (being nano grade far infrared polyurethane resin powder 30) strong and through also can the not come off nano-meter far infrared cloth of (seeing also annex one) of long-term washing with cloth 20 associativities to form a tool.

Though, in present embodiment, this step 2, with nano grade far infrared polyurethane resin powder be coated on the cloth 12 be embodied as include in regular turn one with nano grade far infrared polyurethane resin powder in 200 ℃ to 300 ℃ high temperature down fusion be coated in resistant to elevated temperatures release liners that the step and of resistant to elevated temperatures release liners is coated with nano grade far infrared polyurethane resin powder with fusion and be located at step on the cloth, and further be provided with a step that removes resistant to elevated temperatures release liners after with hot binding 13 in this step 3, with nano grade far infrared polyurethane resin powder and cloth; But, when reality is implemented, this step 2, nano grade far infrared polyurethane resin powder is coated on the cloth 12 step can changes employing in addition the mode that nano grade far infrared polyurethane resin powder is sprayed on the cloth is carried out; And after this is coated in nano grade far infrared polyurethane resin powder on the cloth 12 step for this with nano grade far infrared polyurethane resin powder and cloth step with hot binding 13, the mode of this hot binding can adopt with heat pressure roller (figure does not show) this sprinkling of roll extrusion and be covered with the cloth 20 that nano grade far infrared polyurethane resin powder 30 is arranged, and is blended in (as shown in Figure 6) in the cloth 20 for forming nano grade far infrared polyurethane resin powder 30 hot melts; So, in this step 3, nano grade far infrared polyurethane resin powder and cloth are not needed to have a step that removes resistant to elevated temperatures release liners after with hot binding 13 again; Thus, to form the good nano-meter far infrared cloth of a tool gas permeability; And, with aforesaid first kind step 2, that nano grade far infrared polyurethane resin powder is coated on the cloth 12 embodiment is the same, have to discharge high-effect far infrared tool and discharge the strong and effect that also can not come off through long-term washing of high-effect far infrared and far infrared composition and cloth associativity.

The nano-meter far infrared cloth of aforementioned two kinds of method for making gained is when making clothes, because the far infrared that it discharged can be empathized, resonate with human body, make the hydrone in the human body produce the high-frequency vibrations, impel subcutaneous temperature to rise and produce thermogenetic effect, and then distend the blood vessels, the body nutrient absorption is made us in the accelerate blood circulation and metabolic physiological function is more active, with enhancing immunity, reach the effect of body-care.In addition, aforementioned first kind need reach by release liners when step 2 and make nano grade far infrared polyurethane resin powder heat be needed on method for making on the cloth, its formed nano-meter far infrared cloth tool air impermeability, can effectively completely cut off cold air, to improve warming effect, if when making clothes and coming wear, can help fat-reducing by promoting the human body perspire, and can discharge dynamical far infrared bump, decompose hydrone in the sweat by nano-meter far infrared cloth of the present invention, make the hydrone reduction, produce anion, and then make the effect of clothes tool deodorization.

See also Fig. 4 to 6, structure of the present invention is made according to method for making of the present invention, and the structure of this nano-meter far infrared cloth comprises:

One cloth 20; This cloth 20 can adopt the wherein arbitrary of elastical cloth, nonelastic cloth.

Nano grade far infrared polyurethane resin powder 30, this nano grade far infrared polyurethane resin powder 30 can adopt the mode of hot binding to mutually combine with cloth 20; Thus, discharge the strong and nano-meter far infrared cloth that also can not come off through long-term washing of high-effect far infrared and far infrared composition associativity to form a tool.

Wherein, this nano grade far infrared polyurethane resin powder 30 is made up of comprehensive ultramicro powder and polyurethane resin powder that oxygenatedchemicals forms, and the comprehensive ultramicro powder that this oxygenatedchemicals forms accounts for 30%, and this polyurethane resin powder accounts for 70%; And this polyurethane resin powder is obtained the particle size polyurethane resin powder of 2000 orders (mesh) (2000 orders (mesh) are equal to 6.5 microns of particle diameters (μ m)) at the most by the screen cloth of 2000 orders (mesh); And the comprehensive ultramicro powder that this oxygenatedchemicals forms is the following nanoscale ultramicro powder of particle diameter 100nm (i.e. 0.1 μ m), and the oxygenatedchemicals that is comprised in the comprehensive ultramicro powder that this oxygenatedchemicals forms includes vanadium trioxide (V ₂O ₃), yittrium oxide (Y ₂O ₃), cuprous oxide (Cu ₂O), di-iron trioxide (Fe ₂O ₃), alundum (Al (Al ₂O ₃), nickel oxide (NiO), silica (SiO ₂), magnesia (MgO) and antimony oxide (Sb ₂O ₃), and each composition in this oxygenatedchemicals mixes with 1 to 1.When making nano grade far infrared polyurethane resin powder 30, the comprehensive ultramicro powder that this oxygenatedchemicals forms is with after the polyurethane resin powder mixes with 3 to 7, be positioned in the high speed agitator that is provided with the freezing equipment of low temperature below-10 ℃, high speed rotation with 3000 to 4000 rev/mins of speed is stirred, and by rotating centrifugal force and the thermogenetic effect that produces at a high speed, make macromolecular polyurethane resin powder surface generation magnetic and adsorb the formed comprehensive ultramicro powder of micromolecular oxygenatedchemicals, and make the seamless unoccupied place of micromolecular comprehensive ultramicro powder be covered with polymerization (as Fig. 2 and 2a) on macromolecular polyurethane resin powder surface, after rotating 30 clocks at a high speed, stop to stir, and then startup freezing equipment, allowing temperature in the container reduce to low temperature below-10 ℃ rapidly increases the stability that comprehensive ultramicro powder and polyurethane resin powder mutually combine, and then makes comprehensive ultramicro powder that this oxygenatedchemicals forms with polyurethane resin powder formation strong bonded and can not come off; So, can obtain nano grade far infrared polyurethane resin powder 30 of the present invention.

See also Fig. 5 and 6, the mode of this nano grade far infrared polyurethane resin powder 30 and cloth 20 hot bindings can be embodied as this nano grade far infrared polyurethane resin powder 30 and be needed on (as Fig. 3 and shown in Figure 5) on the cloth 20 with heat, just with nano grade far infrared polyurethane resin powder 30 after (optimum temperature suggestion be 250 ℃) fusion is coated in resistant to elevated temperatures release liners 40 (being high temperature resistant PET film) under 200 ℃ to the 300 ℃ high temperature, the resistant to elevated temperatures release liners 40 that again fusion is coated with nano grade far infrared polyurethane resin powder 30 is located at cloth 20 (being about to be combined with on this resistant to elevated temperatures release liners 40 one side of nano grade far infrared polyurethane resin powder 30 and one side applying and full this face of lid of cloth 20), afterwards, this is located at the resistant to elevated temperatures release liners 40 on the cloth 20 with heat pressure roller (figure does not show) roll extrusion again, after making nano grade far infrared polyurethane resin powder 30 heat on this resistant to elevated temperatures release liners 40 be needed on the cloth 20, remove this resistant to elevated temperatures release liners 40.In addition, the mode of this nano grade far infrared polyurethane resin powder 30 and cloth 20 hot bindings can be embodied as this nano grade far infrared polyurethane resin powder 30 in addition and be fused in the cloth 20 (as shown in Figure 6) with hot pressing, be about to nano grade far infrared polyurethane resin powder 30 and be sprayed on back on the cloth 20 (figure does not show), again by heat pressure roller (figure does not show) roll extrusion cloth cover, nano grade far infrared polyurethane resin powder 30 hot meltings are gone in the cloth 20, and the highly compatible by the beautiful fiber of ripple contained in polyurethane resin powder in the nano grade far infrared polyurethane resin powder 30 and the cloth 20 (the beautiful resin of ripple (Polyester) reels off raw silk from cocoons through high temperature and gets) reaches the purpose that far infrared composition (being nano grade far infrared polyurethane resin powder 30) can not be come off with cloth 20 strong bonded.

Please consult Fig. 1 to 6 again, characteristics of the present invention are that its step includes one, makes nano grade far infrared polyurethane resin powder 11 by a kind of method for making of nano-meter far infrared cloth is provided; Two, nano grade far infrared polyurethane resin powder is coated on the cloth 12; And three, with nano grade far infrared polyurethane resin powder and cloth step with hot binding 13, promptly can be made into the nano-meter far infrared cloth of structure of the present invention, can form nano-meter far infrared cloth, make tool discharge the effect of high-effect far infrared, and method for making of the present invention is simple, by hot binding (as: hot transfer printing or heat fused) can be that nano grade far infrared polyurethane resin powder 30 is incorporated on the cloth 20 with releasing far infrared composition, applicable to all kinds of clothes (as: elastical cloth or nonelastic cloth) processing, tool reduces the effect of cost of manufacture; Other is by the nano-meter far infrared cloth of the structure of the present invention that Combination Design forms of cloth 20 and nano grade far infrared polyurethane resin powder 30, wherein, this nano grade far infrared polyurethane resin powder 30 can hot binding upward form the airproof cloth structure of tool in the wherein one side of cloth 20 by hot transfer printing, or can hot pressing be fused in the cloth 20 and form the cloth structure of tool gas permeability, make clothes or the cloth based article that various tools discharge high-effect far infrared to adapt to different demands, and the made clothing of the airproof nano-meter far infrared cloth of this tool can effectively completely cut off cold air, and form addition with far infrared, reach promotion human body perspire and help loss of weight, its sweat of discharging can be by the nano-meter far infrared high-effect far infrared bump that discharges of the present invention, decompose, produce anion, make the effect of clothing tool deodorizing, in addition, use the heat storing and heat preserving of the equal tool far infrared of goods of the present invention, impel hypodermis blood vessel dilatation, accelerate blood circulation, enhance metabolism and cell tissue viability and strengthen the health-care effects such as immunity of human body again, can promote the value of clothes or cloth products; The nano grade far infrared polyurethane resin powder of producing by method for making of the present invention 30 is except discharging the effect of dynamical far infrared again, the average emissivity that records the far infrared of 2 to 22 μ m after tested can reach more than 90% and (see also annex one to three), far infrared composition of the present invention (being nano grade far infrared polyurethane resin powder 30) is through after repeatedly washing is tested, (test washing 730 times can not come off yet, see also annex one), the lasting releasing far infrared effect of tool, because containing the beautiful fiber of ripple contained in polyurethane resin powder and the cloth 20 (the beautiful resin of ripple (Polyester) reels off raw silk from cocoons and gets through high temperature) in the nano grade far infrared polyurethane resin powder 30 is all the crude oil refining and separates petroleum chemicals, both compatibility are high, and can not produce interface after mutually combining (promptly can not form the phase veneer of combination but mutually merge); And by radiation, penetrability and the sympathetic response of far infrared, the effect of absorption, make the present invention be applied to be incubated, prevent on the cold clothes, needn't need in the middle of the top layer of dress material and nexine, put into the thick web air that pyroconductivity is low as the thick and heavy wadded jacket known in the past, snow clothing or feather clothing etc. and be kept at clothes inside, and can be made into both light and thin, but have a cold-proof dress material of heat storing and heat preserving, in order to wear in being engaged in outdoor activities; In addition, the high-effect far infrared that nano-meter far infrared cloth utilization of the present invention itself is discharged, and with the human body absorption of empathizing, impel hypodermis blood vessel dilatation, accelerate blood circulation, enhance metabolism, born of the same parents' regeneration vigor and strengthen the health-care effects such as immunity of human body; As from the foregoing, the method for making of nano-meter far infrared cloth of the present invention is simple, be processed to form nano-meter far infrared cloth of the present invention applicable to all kinds of clothes (as: elastical cloth or nonelastic cloth), make tool can discharge high-effect far infrared and can simplify the effect of the processing procedure of meter far infrared cloth, by the superiority of far infrared for body-care, so that use made clothes of nano-meter far infrared cloth of the present invention and all kinds of cloth products tool high additive value, and then promote whole practicality and economic benefit.

Please join Fig. 8 to 10, nano-meter far infrared cloth of the present invention is applied to the decoration on facial mask, clothes liner (as: motion overcoat internal layer or Western-style clothes liner), whole clothes (as: whole Western-style clothes, overcoat or trousers), the clothes, the use schematic diagram of cap.According to method for making of the present invention can with nano grade far infrared resin powder 30 with hot binding (as: hot transfer printing or hot pressing fusion) strong bonded in various cloth 20 (as: elastical cloth or nonelastic cloth), to form the structure of nano-meter far infrared cloth of the present invention, following examples are the example explanation with the formed nano-meter far infrared cloth of hot transfer printing, but, when reality is implemented, also can adopt hot pressing to fuse formed nano-meter far infrared cloth.Structure tool one cloth 20 of nano-meter far infrared cloth of the present invention and the Combination Design of nano grade far infrared resin powder 30, can use and be made into facial mask 50 (as shown in Figure 7), clothes 60 internal layers are (as the motion overcoat of Fig. 8, or as the Western-style clothes liner of Fig. 9), make whole clothes (figure does not show), Art Design on the clothes (figure does not show), the back boxing of cap 70 (as shown in figure 10), mattress, chair cushion, various cloth cover ... Deng the cloth based article, when using or being worn on the human body, this facial mask 50, this face that is coated with nano grade far infrared resin powder 30 in clothes 60 and the cap 70 is pressed close to human body, its dynamical far infrared that discharges is acted on the human body, for example: when the present invention is applied on the facial mask 50, wavelength by the far infrared on the facial mask 50 gos deep into the skin dermal tissue, while is expanded pore because of the far infrared prodigiosin and stimulates circulation, and can help to drain dirt in the sebaceous glands, new fresh oxygen of skin and nutrient are provided, and then make the cell activation hyperplasia, can improve metabolism, make skin shine new life.Another example, when being applied to cap 70 with the present invention, because of cap 70 internal layer back boxings nano grade far infrared resin powder 30 near the hair and the scalp of wearer, its dynamical far infrared that discharges can promote hair follicle cell activation hyperplasia, can prevent hair loss and promote color development health, can make all blood vessel dilatations of brain in addition, stimulate circulation, so, can have an effect of prevention of stroke.And when the present invention is applied to make clothes 60, be through on the human body, except not needing the cotton interlayer in thick and heavy shop just can reach the warming effect, and tool can stimulate circulation, Polygonum Multiflorum Thunb Extract tissue, raising immunocompetence, activating human body hydrone, mitigation alleviate pain, the nervous nervous system of releiving, enhance metabolism, promote the effect of body-care of the eliminating etc. of perspire and subcutaneous fat.The present invention can form the nano-meter far infrared cloth of tool air impermeability and tool gas permeability by the method for making of two kinds of hot bindings, make clothes or the cloth based article that various tools discharge high-effect far infrared to adapt to different demands, as: hot binding goes up the formation airproof nano-meter far infrared cloth of tool (as shown in Figure 5) in the wherein one side of cloth 20 by hot transfer printing by nano grade far infrared polyurethane resin powder 30, when clothes is made in application, can effectively completely cut off cold air, and form addition with far infrared, as shown in Figure 8, be applied to the motion overcoat, and be provided with a ventilative absorbing sweat screen cloth on its internal layer in addition, allow user's wear when motion, can reach promotion human body perspire and help loss of weight, the sweat of its discharge also can be by the high-effect far infrared bump that nano-meter far infrared cloth of the present invention discharged, decompose, produce anion, make the effect of clothing tool deodorizing.In addition be fused to the nano-meter far infrared cloth of (as shown in Figure 6) tool gas permeabilities that form in the cloth 20 by hot pressing, can be made into summer clothes (scheming not show) by nano grade far infrared polyurethane resin powder 30.Again, nano-meter far infrared cloth of the present invention is except the liner (shown in Fig. 8 and 9) that can be used as clothes, also can be used for whole clothes making (figure do not show) or with clothes on Art Design (figure does not show), and, the formed airproof nano-meter far infrared cloth of the present invention, the woven design on the one side of the nano grade far infrared polyurethane resin powder 30 of its tool also can be provided with cloudy surface or bright 's processing; In summary, the present invention is processed to form nano-meter far infrared cloth of the present invention applicable to all kinds of clothes (as: elastical cloth or nonelastic cloth) and also can come off (seeing also annex one) via long-term washing, makes tool can discharge high-effect far infrared, reduces cost of manufacture and can lastingly releasing far infrared effect.

Moreover, formula rate by nano grade far infrared polyurethane resin powder of the present invention is identical, add all different clothes become the emissivity of the far infrared that branch discharges neither with, heat insulation effect is better, because of the thermogenetic effect reflection, impel the far infrared irradiation rate higher.For example: nano grade far infrared polyurethane resin powder of the present invention and woollen combining, have splendid heat insulation effect, and its thermogenetic effect impels the far infrared release rate up to 96% (seeing also annex two).

See also annex one, the inventor entrusts juridical person's industrial science foundation of improving oneself to make the far infrared release rate survey report of far infrared facial mask at nano-meter far infrared cloth of the present invention, with Japanese JSC-3 method of testing, test event is the far infrared release rate of wavelength 2 to 22 μ m, when 25 ℃ of measuring temperatures, through reusing 3 years after (washing 730 times), testing result shows that the average emissivity of far infrared can reach 93%.

Please read ginseng annex two again, the inventor entrusts the juridical person to improve oneself, and to use the bamboo charcoal woolen cloth at method for making of the present invention (be nonelastic cloth in the industrial science foundation, contain woolen cloth (W) 70%, poly fiber (P) 20%, carbon (C) 10%) make nano-meter far infrared cloth, with Japanese JSC-3 method of testing, its measuring temperature is in the time of 25 ℃ as can be known, can reach 96% to the average emissivity of the far infrared of 2 to 22 μ m.

Other sees also annex three, the inventor entrusts the juridical person to improve oneself, and to use three-in-one yarn at method for making of the present invention (be elastical cloth in the industrial science foundation, contain Lycra elastic cotton (N) 90%, poly fiber (P) 5%, carbon (C) 5%) make nano-meter far infrared cloth, with Japanese JSC-3 method of testing, its measuring temperature is in the time of 25 ℃ as can be known, can reach 92% to the average emissivity of the far infrared of 2 to 22 μ m.

Above-described specific embodiment, only release characteristics of the present invention and effect in order to example, but not in order to limit the category of implementing of the present invention, therefore do not breaking away under above-mentioned spirit of the present invention and the technology category, the disclosed content of any utilization and the equivalence finished changes and modify, the scope that all still should be claims contains.

Claims (10)

1. the method for making of a nano-meter far infrared cloth is characterized in that, comprises the following steps:

One, makes nano grade far infrared polyurethane resin powder;

Two, nano grade far infrared polyurethane resin powder is coated on the cloth; And

Three, with nano grade far infrared polyurethane resin powder and cloth with hot binding;

Thus, discharge the strong and nano-meter far infrared cloth that also can not come off through long-term washing of high-effect far infrared and far infrared composition and cloth associativity to form a tool.

2. the method for making of nano-meter far infrared cloth as claimed in claim 1, wherein, this makes nano grade far infrared polyurethane resin powder step is with vanadium trioxide, yittrium oxide, cuprous oxide, di-iron trioxide, alundum (Al, nickel oxide, silica, after each composition of the oxygenatedchemicals of magnesia and antimony oxide mixes with 1 to 1, with mixed material at high-temperature gasification more than 1600 ℃, compile above-mentioned vapour to obtain particle diameter with precipitron again at 100nm, the i.e. following comprehensive ultramicro powder of 0.1 μ m, and this comprehensive ultramicro powder mixes with 3: 7 with 2000 order polyurethane resin powder at the most again, be positioned in the high speed agitator that is provided with-10 ℃ of following Cryo Equipments, after the high-speed stirred with 3000 to 4000 rev/mins of speed, centrifugal force and thermogenetic effect by high-speed stirred rotation generation, make and adsorbing micromolecular comprehensive ultramicro powder as macromolecular polyurethane resin powder such as the strong magnets, and the seamless surface unoccupied place that forms macromolecular polyurethane resin powder is covered with the micromolecular comprehensive ultramicro powder of polymerization fully, come the IQF typing with the low temperature below-10 ℃ again, make comprehensive ultramicro powder and polyurethane resin powder form stable and strong bonded, promptly obtain nano grade far infrared polyurethane resin powder.

3. the method for making of nano-meter far infrared cloth as claimed in claim 1, wherein, this with nano grade far infrared polyurethane resin powder be coated in step on the cloth include in regular turn one with nano grade far infrared polyurethane resin powder in 200 ℃ to 300 ℃ high temperature down fusion be coated in resistant to elevated temperatures release liners that the step and of resistant to elevated temperatures release liners is coated with nano grade far infrared polyurethane resin powder with fusion and be located at step on the cloth, and this resistant to elevated temperatures release liners that fusion is coated with nano grade far infrared polyurethane resin powder be located at after the step on the cloth for this with nano grade far infrared polyurethane resin powder and cloth step with hot binding, the mode of this hot binding adopts that this is located at the resistant to elevated temperatures release liners on the cloth with the heat pressure roller roll extrusion, nano grade far infrared polyurethane resin powder heat on this resistant to elevated temperatures release liners is needed on the cloth, and at this with nano grade far infrared polyurethane resin powder and cloth after the step with hot binding, further be provided with a step that removes resistant to elevated temperatures release liners.

4. the method for making of nano-meter far infrared cloth as claimed in claim 1, wherein, this is coated in step on the cloth with nano grade far infrared polyurethane resin powder and adopts nano grade far infrared polyurethane resin powder is sprayed on mode on the cloth, and after this is coated in nano grade far infrared polyurethane resin powder step on the cloth for this with nano grade far infrared polyurethane resin powder and cloth step with hot binding, the mode of this hot binding adopts with this sprinkling of heat pressure roller roll extrusion and is covered with the cloth that nano grade far infrared polyurethane resin powder is arranged, and is fused in the cloth for nano grade far infrared polyurethane resin powder.

5. the method for making of nano-meter far infrared cloth as claimed in claim 1, wherein, this cloth adopts the wherein arbitrary of elastical cloth, nonelastic cloth.

6. the structure of a nano-meter far infrared cloth is characterized in that, the structure of this nano-meter far infrared cloth comprises:

One cloth; And

Nano grade far infrared polyurethane resin powder, this nano grade far infrared polyurethane resin powder and cloth mutually combine;

Thus, discharge the strong and nano-meter far infrared cloth that also can not come off through long-term washing of high-effect far infrared and far infrared composition associativity to form a tool.

7. the structure of nano-meter far infrared cloth as claimed in claim 6, wherein, this nano grade far infrared polyurethane resin powder is made up of comprehensive ultramicro powder and polyurethane resin powder that oxygenatedchemicals forms, and the comprehensive ultramicro powder that this oxygenatedchemicals forms accounts for 30%, and this polyurethane resin powder accounts for 70%; And the particle diameter of this polyurethane resin powder is 2000 orders at the most, the particle diameter of the comprehensive ultramicro powder that this oxygenatedchemicals forms is 100nm, promptly below the 0.1 μ m, the oxygenatedchemicals that is comprised in the comprehensive ultramicro powder that this oxygenatedchemicals forms includes vanadium trioxide, yittrium oxide, cuprous oxide, di-iron trioxide, alundum (Al, nickel oxide, silica, magnesia and antimony oxide, and each composition in this oxygenatedchemicals mixes with 1 to 1.

8. the structure of nano-meter far infrared cloth as claimed in claim 6, wherein, this nano grade far infrared polyurethane resin powder is needed on the cloth with heat.

9. the structure of nano-meter far infrared cloth as claimed in claim 6, wherein, this nano grade far infrared polyurethane resin powder is fused in the cloth with hot pressing.

10. the structure of nano-meter far infrared cloth as claimed in claim 6, wherein, this cloth adopts the wherein arbitrary of elastical cloth, nonelastic cloth.

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