CN102371720A - Laminated structure cloth - Google Patents

Laminated structure cloth Download PDF

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Publication number
CN102371720A
CN102371720A CN2010102483624A CN201010248362A CN102371720A CN 102371720 A CN102371720 A CN 102371720A CN 2010102483624 A CN2010102483624 A CN 2010102483624A CN 201010248362 A CN201010248362 A CN 201010248362A CN 102371720 A CN102371720 A CN 102371720A
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China
Prior art keywords
cloth
film
layer
upper strata
intermediate layer
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Pending
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CN2010102483624A
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Chinese (zh)
Inventor
陈明泽
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Individual
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Individual
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Priority to CN2010102483624A priority Critical patent/CN102371720A/en
Publication of CN102371720A publication Critical patent/CN102371720A/en
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Abstract

The present invention relates to laminated structure cloth containing metal powder mixing glue, far-infrared ceramic powder mixing glue or metal fiber mixing glue. The preparation for the laminated structure cloth comprises that: metal powder or far-infrared ceramic powder, and hot melt adhesive particles are added to a material tube according to a certain ratio; when the first cloth layer passes through the material tube, the metal powder or the far-infrared ceramic powder, and the hot melt adhesive particles fall onto the surface of the first cloth layer, or polyvinyl chloride particles or polyethylene particles or nylon particles or polypropylene particles or polyester particles or other plastic particles fall onto the first cloth layer containing the metal fiber layer; then the heating treatment is performed by a heat pipe, such that the hot melt adhesive particles are hot molten, are combined with the metal powder or the far-infrared ceramic powder or the first cloth layer containing the metal fiber layer, and then are combined with the second cloth layer so as to form the cloth layer structure with different characteristics of the integration. The laminated structure cloth of the present invention has characteristics of anti-ultraviolet ray, anti-near infrared ray, anti-far infrared ray, heat storage, moisture resistance, anti-radiation energy generated to the human body and electromagnetic wave resistance.

Description

A kind of lamination structure cloth
Technical field
The present invention relates to a kind of lamination structure cloth that contains metal dust epoxy glue, far infrared ceramic powder end epoxy glue or metallic fiber epoxy glue, refer to utilize metal dust and thermosol or far infrared powder to combine the back to combine with thermosol especially with first layer of cloth; Perhaps the hot melt adhesive tablet of different qualities combines with metallic fiber (first layer of cloth); First layer of cloth and second layer of cloth mutually combine then, thereby form a kind of layer of cloth with different qualities.
Background technology
The lamination cloth that much forms for specific purposes is arranged in the market; No matter its practice is adsorptivity activated carbon or far infrared pottery magnetic powder; The general stirring back of mixing with reactive glue is being coated on the cloth cover with spraying method; Again with weave cotton cloth or the mutual pressurizing attaching of glued membrane, again through the oven dry go into lamination cloth, have the defective of cost raising, complex steps and poor effect with the prepared lamination cloth of this kind mode.
Summary of the invention
The object of the present invention is to provide a kind of lamination structure cloth, thereby solve defective of the prior art with metal dust epoxy glue, far infrared ceramic powder end epoxy glue or metallic fiber epoxy glue.
The present invention solves these defectives through following technical scheme:
A kind of lamination structure cloth with metal dust epoxy glue is characterized in that, comprises (1) upper strata, and said upper strata is cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film or PP film; (2) intermediate layer, said intermediate layer are the metal dust glue-line; (3) bottom, said bottom are cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film or PP film; Said intermediate layer combines with said bottom earlier, and then combines to form the long-pending layer of cloth of three-decker with said upper strata.
Wherein, metal dust can be aluminium powder, titanium valve, zinc powder or magnesium powder.
A kind of lamination structure cloth with far infrared ceramic powder end epoxy glue is characterized in that comprise (1) upper strata, said upper strata is cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film or PP film; (2) intermediate layer, said intermediate layer are far infrared ceramic powder end layer; (3) bottom, said bottom are cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film or PP film; Said intermediate layer combines with said bottom earlier, and then combines to form three-decker lamination cloth with said upper strata.
A kind of lamination structure cloth with metallic fiber epoxy glue is characterized in that, includes (1) upper strata, and said upper strata is cloth, adhesive-bonded fabric or stainless steel fibre layer; (2) intermediate layer, said intermediate layer are hot melt adhesive layer; (3) bottom, said bottom are cloth, adhesive-bonded fabric or stainless steel fibre layer; Said intermediate layer combines with said bottom earlier, and then combines to form three-decker lamination cloth with said upper strata.
Wherein, said hot melt adhesive layer is polyethylene, polyvinyl chloride, polypropylene, nylon or polyester.
The preparation method of lamination structure cloth of the present invention is: metal dust or ceramic powders and hot-melt adhesive granules are put into barrel by a certain percentage; When first layer of cloth passes through barrel; Metal dust or ceramic powders and hot-melt adhesive granules fall on the surface of first layer of cloth; Through the heat pipe heating, PUR and metal dust or ceramic powders are mutually combined, thereby first layer of cloth combine to form the lamination structure cloth with specific purposes again with second layer of cloth then; Perhaps; With the PUR granulosa of polyethylene, polyvinyl chloride, polypropylene, nylon and polyester and first layer of cloth with metallic fibrous layer in the hot melt combinations of states; Thereby and then combine with second layer of cloth to form lamination cloth, the lamination cloth of gained has anti-electromagnetic wave and anti electromagnetic wave hides worn-out effect.
Lamination structure cloth of the present invention has uvioresistant, anti-nearly far infrared, temperature storage and moisture-resistant, anti-radiation, the antimildew and antibacterial that human body is produced and helps the characteristic of blood circulation etc.; In addition, lamination structure cloth of the present invention also has the characteristic of anti-electromagnetic wave.
Description of drawings
Fig. 1 is the three-dimensional exploded view of metal dust epoxy glue of the present invention, far infrared ceramic powder end epoxy glue lamination structure cloth;
Fig. 2 is the profile of metal dust epoxy glue of the present invention, far infrared ceramic powder end epoxy glue lamination structure cloth;
Fig. 3 is the stereogram of metal dust epoxy glue of the present invention, far infrared ceramic powder end epoxy glue lamination structure cloth;
Fig. 4 is the three-dimensional exploded view of metallic fiber epoxy glue lamination structure cloth of the present invention;
Fig. 5 is the lamination structure cloth stereogram of metallic fiber epoxy glue of the present invention.
Description of reference numerals: 1,2-upper strata; 4,5-intermediate layer; 4-metal dust glue-line; 41-metal dust hot melt adhesive tablet; 41 '-metal dust micelle; 5-far-infrared ray ceramic glue-line; 51-far infrared ceramic powder end hot melt adhesive tablet; 51 '-far infrared ceramic powder end micelle; 7,8-bottom; A-metal dust (metal dusts such as aluminium powder, titanium valve, zinc powder and magnesium powder); B-far infrared ceramic powder end (zirconia, zinc oxide, medical stone); 1 '-metal dust epoxy glue lamination structure cloth; 2 '-far infrared ceramic powder end epoxy glue lamination structure cloth; 3 '-metallic fiber epoxy glue lamination structure cloth; 1,2,3-upper strata; 4,5,6-intermediate layer (4-metal dust glue-line, 5-far-infrared ray ceramic glue-line, 6-hot melt adhesive layer); The 61-hot melt adhesive tablet; 7,8,9-bottom.
The specific embodiment
Below in conjunction with accompanying drawing, do more detailed explanation with other technical characterictic and advantage to the present invention is above-mentioned.
The present invention relates to a kind of lamination structure cloth that contains metal dust epoxy glue, far infrared ceramic powder end epoxy glue or metallic fiber epoxy glue; As shown in Figure 3; This lamination structure cloth comprises (1) upper strata 1,2 or 3, and this upper strata is cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film, PP film or stainless steel fibre layer; (2) intermediate layer 4,5 or 6, and this intermediate layer is metal dust glue-line, far-infrared ray ceramic glue-line or glue-line.(3) bottom 7,8 or 9, and this bottom is cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film, PP film or stainless steel fibre layer.
Wherein, Metal dust in the metal dust epoxy glue lamination structure cloth 1 ' is meant metal dusts such as aluminium powder, titanium valve, zinc powder or magnesium powder; Be referred to as label " A ", as shown in Figure 1, metal dust through processed attached on the hot melt adhesive tablet 41 and form metal dust glue-line 4.Far infrared ceramic powder end in the far infrared ceramic powder end epoxy glue lamination structure cloth 2 ' is meant zirconia, zinc oxide or medical stone; Be referred to as label " B "; As shown in Figure 1, far infrared ceramic powder end through processed attached on the hot melt adhesive tablet 51 of far infrared ceramic powder end and form far-infrared ray ceramic glue-line 5.Glue-line mainly is meant polyethylene, polyvinyl chloride, polypropylene, nylon or polyester.As shown in Figure 1; The making of the lamination structure cloth 1 ' of metal dust epoxy glue is: get metal dust A and metal dust hot melt adhesive tablet 41 and drop in the barrel by a certain percentage and pouring formation metal dust micelles 41 ' behind bottom 7; Mutually combine with upper strata 1 again and form the lamination structure cloth of metal dust epoxy glue, like Fig. 2 and shown in Figure 3.The preparation of far infrared powder epoxy glue lamination structure cloth 2 ' as shown in Figure 1 is: get the last hot melt adhesive tablet 51 of far infrared ceramic powder end B and far infrared ceramic powder and drop into the interior also pouring of barrel by a certain percentage to the last micelle 51 ' of bottom 8 back formation far infrared ceramic powders; Mutually combine with upper strata 2 again and form far infrared powder epoxy glue lamination structure cloth, like Fig. 2 and shown in Figure 3.As shown in Figure 4; The preparation of the lamination structure cloth 2 ' of the last epoxy glue of far infrared ceramic powder is: get the last hot melt adhesive tablet 51 of far infrared ceramic powder end B and far infrared ceramic powder and drop into the interior also pouring of barrel by a certain percentage to the last micelle 51 ' of bottom 8 back formation far infrared ceramic powders; Mutually combine with upper strata 2 again and form far infrared powder epoxy glue lamination structure cloth, like Fig. 2 and shown in Figure 3.
Like Fig. 4 and shown in Figure 5; The preparation of the lamination structure cloth 3 ' of metallic fiber epoxy glue is hot melt adhesive tablet 61 to be drenched to bottom 9 backs form hot melt adhesive layer 6; Stainless steel fibre layer with upper strata 3 mutually combines again; It 3 can be cloth, adhesive-bonded fabric or stainless steel fibre layer at the middle and upper levels, and bottom can be cloth, adhesive-bonded fabric or stainless steel fibre layer.
Embodiment 1
Get magnesium powder particles 1.5m/m (25wt%) and nylon 6 (75wt%) drop into simultaneously barrel with the speed of 23yd/min through barrel with 18g/m 2Coating weight drench that (25D * 50D * 240T) forms hot melt adhesive layer (35D * 55D * 240T) to the bottom layer of polyester fiber; (35D * 55D * 240T) combines and forms the three-decker layer with the speed of 15yd/min and nylon fiber cloth in the upper part of hot melt adhesive layer; When this three-decker passes on the human body; Can make heat insulation effect improve 20%, and this three-decker have anti-to human body radiant energy that produces and the effect that stops far infrared to penetrate.
Embodiment 2
Get wavelength 4-18um zirconia far-infrared ray ceramic particle 2m/m (20wt%) and drop into the speed process barrel of barrel simultaneously with 20yd/min with nylon 66 (80wt%), and with 30g/m 2Coating weight drench to the bottom layer of polyester fiber and form hot melt adhesive layer, the hot melt adhesive layer upper part combines with nylon fiber cloth and forms the three-decker layer, this three-decker layer has the effect of heat storing and heat preserving, antimildew and antibacterial and anti-UV.
Embodiment 3
Cut-off directly is the stainless steel strip of 2 μ-30 μ; Diameter is the polyester fiber of 2 μ-30 μ, handles through (1) opener: open fine roller (splitting fiber roller) rotating speed (400-600rpm), (2) comb and parallel cotton fibers prior to spinning is handled: licker-in rotating speed (650-800rpm), cylinder rotating speed (300-500rpm), (3) tailor's cushion (rolling pin) are handled: (Groz-Backert Feltneedle 38; 40; No. 42) standard pin, the tailor's cushion degree of depth: 6-12mm, tailor's cushion density: 200-400 pin/cm 2, basic weight: 500 ± 10%g/m, thus the stainless steel fibre layer formed as bottom, with speed and the 30g/m of nylon hot-melt adhesive grain 0.5m/m with 25yd/min 2Coating weight drench to bottom stainless steel fibre layer through barrel; Mutually combine with the upper strata layer of polyester fiber again and obtain having the lamination structure cloth of stainless steel fibre epoxy glue, the screening rate (Sheltering Coefficient) of gained lamination structure cloth in frequency 500MHz-2GHz scope (dB) (referring to: Volume 32, Minghsin Journal; August 2006; Chinese is: bright new 32 phases of journal, pp.91-102) can reach 15dB-80dB, and have anti electromagnetic wave and hide worn-out effect.
The above is merely preferred embodiment of the present invention, only is illustrative for the purpose of the present invention, and nonrestrictive.Those skilled in the art is understood, and in spirit that claim of the present invention limited and scope, can carry out many changes to it, revise, in addition equivalent, but all will fall in protection scope of the present invention.

Claims (5)

1. the lamination structure cloth with metal dust epoxy glue is characterized in that, comprises (1) upper strata, and said upper strata is cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film or PP film; (2) intermediate layer, said intermediate layer are the metal dust glue-line; (3) bottom, said bottom are cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film or PP film; Said intermediate layer combines with said bottom earlier, and then combines to form the long-pending layer of cloth of three-decker with said upper strata.
2. the lamination structure cloth of metal dust epoxy glue as claimed in claim 1 is characterized in that, said metal dust can be aluminium powder, titanium valve, zinc powder or magnesium powder.
3. the lamination structure cloth with far infrared ceramic powder end epoxy glue is characterized in that comprise (1) upper strata, said upper strata is cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film or PP film; (2) intermediate layer, said intermediate layer are far infrared ceramic powder end layer; (3) bottom, said bottom are cloth, adhesive-bonded fabric, TPU film, ePTFE film, OPET film, TPE film, PU film or PP film; Said intermediate layer combines with said bottom earlier, and then combines to form three-decker lamination cloth with said upper strata.
4. the lamination structure cloth with metallic fiber epoxy glue is characterized in that, includes (1) upper strata, and said upper strata is cloth, adhesive-bonded fabric or stainless steel fibre layer; (2) intermediate layer, said intermediate layer are hot melt adhesive layer; (3) bottom, said bottom are cloth, adhesive-bonded fabric or stainless steel fibre layer; Said intermediate layer combines with said bottom earlier, and then combines to form three-decker lamination cloth with said upper strata.
5. the lamination structure cloth with metallic fiber as claimed in claim 4 is characterized in that said hot melt adhesive layer is polyethylene, polyvinyl chloride, polypropylene, nylon or polyester.
CN2010102483624A 2010-08-09 2010-08-09 Laminated structure cloth Pending CN102371720A (en)

Priority Applications (1)

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CN2010102483624A CN102371720A (en) 2010-08-09 2010-08-09 Laminated structure cloth

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Application Number Priority Date Filing Date Title
CN2010102483624A CN102371720A (en) 2010-08-09 2010-08-09 Laminated structure cloth

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CN102371720A true CN102371720A (en) 2012-03-14

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105534659A (en) * 2016-02-22 2016-05-04 浙江和也健康科技有限公司 Healthy bedding based on Internet of Things monitoring
CN112443709A (en) * 2020-12-07 2021-03-05 苏州市桔园管业有限公司 Multi-element composite pipeline

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105534659A (en) * 2016-02-22 2016-05-04 浙江和也健康科技有限公司 Healthy bedding based on Internet of Things monitoring
CN105534659B (en) * 2016-02-22 2019-03-08 浙江和也健康科技有限公司 A kind of healthy bedding based on Internet of Things monitoring
CN112443709A (en) * 2020-12-07 2021-03-05 苏州市桔园管业有限公司 Multi-element composite pipeline

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Application publication date: 20120314

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