CN206141023U - Compound super fine material of ventilative high performance that adjusts temperature - Google Patents
Compound super fine material of ventilative high performance that adjusts temperature Download PDFInfo
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- CN206141023U CN206141023U CN201621016786.7U CN201621016786U CN206141023U CN 206141023 U CN206141023 U CN 206141023U CN 201621016786 U CN201621016786 U CN 201621016786U CN 206141023 U CN206141023 U CN 206141023U
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- temperature
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Abstract
The utility model discloses a compound super fine material of ventilative high performance that adjusts temperature includes the outer and fibre nexine of fibre, still is equipped with the fibre intermediate layer between fibre skin and the fibre nexine, and between fibre intermediate layer and the fibre nexine, outside -in is equipped with ventilative layer and temperature -control coating in proper order, and the ventilative layer of biological fibrous layer for having nanometer micropore, and the temperature -control coating is for evenly laying the nanoparticle layer between ventilative layer and fibre nexine, and nanoparticle is the cavity particle. Adopt the utility model discloses, ambient temperature can conduct the heat through nano hollow microspheres, can release the heat again when descending to it is certain relatively stable to make the inside temperature of super fine material remain throughout. When outside temperature change, above -mentioned structure has high ventilative characteristic, the characteristic that adjusts the temperature certainly, can keep playing effect ventilative, automatic temperature adjustment a comfortable scope of relative equilibrium comfort level when guaranteeing as dresses such as leather shoes, playshoes, case and bag, use with the ambient humidity with continuouslying.
Description
Technical field
This utility model is related to a kind of woven fabric material, the compound woven fabric material of more particularly to a kind of high-performance of ventilative homoiothermic
Material.
Background technology
The continuous development of raising and woven fabric material now with environmental consciousness, everybody already, it is realized that equivalent environment,
Under the conditions of, woven fabric material already possesses the feature for surmounting corium.Just because of this, can just emerge in large numbers some functional woven fabric materials
Material.Although current woven fabric material has breakthrough in technique, the product of woven fabric material still lags behind technological development, city
On face it is many with it is common, conventional, even based on the woven fabric material of single performance, characteristic, this cannot meet increasingly individual at present
The market demand of property.
In particular with current big data, the arriving of information age, greatly to network, it is little to circle of friends, wechat this all
Interaction platform, display platform that existing continuous go from strength to strength are become, this also further creates people and constantly pursues high life
Level, more differentiation of high aesthetic level, personalized demand.Particularly, for leather shoes, this kind of material of playshoes, propose
Should breathe freely, and can homoiothermic requirements at the higher level.
Therefore, it is necessary to research and develop a kind of woven fabric material that can meet the demand, woven fabric product, to adapt to above-mentioned accordingly wear
Environment, use environment, use occasion, application target.
Utility model content
In view of this, the purpose of this utility model is to provide a kind of not only having breathed freely but also the high-performance of the ventilative homoiothermic of energy homoiothermic
Compound woven fabric material.
In order to reach above-mentioned purpose, solution of the present utility model is:
The compound woven fabric material of the high-performance of ventilative homoiothermic, including fibrous outer and fiber nexine, in fibrous outer and fiber
Layer between be additionally provided with fibrous interlayer, between the fibrous interlayer and the fiber nexine, ecto-entad be sequentially provided with air-permeable layer and
Temperature-control coating, and air-permeable layer is the biological fiber layer with nanometer micropore, temperature-control coating is uniformly to be laid in air-permeable layer and the fiber
Nano microsphere layer between nexine, Nano microsphere are hollow particle;Microvilluss, phase are formed with the top layer of the fibrous outer
The microvilluss of adjacent two fibers hair down direction each other.
The fibrous interlayer is the fibrous interlayer for supporting the fibrous outer and the fiber nexine.
After such scheme, this utility model has the advantages that:
First, temperature-control coating can conduct heat by hollow nano microsphere when ambient temperature is raised.When ambient temperature declines
When, heat can be discharged again, so that woven fabric material internal temperature remains certain relatively stable.Particularly fibrous outer
Microvilluss on top layer, may also function as the effect similar to fin, can further increase the heat conduction in temperature-control coating.
2nd, when ambient temperature changes, said structure has high ventilation feature, self-regulated temperature characteristics, can be with temperature around
Degree is continuously maintained in the comfortable scope of relative equilibrium, plays the effect of automatic temperature-control, it is ensured that as leather shoes, playshoes, case
The comfort level when dress such as bag, use.
Description of the drawings
Fig. 1 is structural representation of the present utility model.
In figure:
Fibrous outer 11, fibrous interlayer 12, air-permeable layer 13, temperature-control coating 14, fiber nexine 15.
Specific embodiment
In order to the technical solution of the utility model is explained further, this utility model is entered below by specific embodiment
Row is elaborated.
Embodiment one
As shown in figure 1, the compound woven fabric material abbreviation woven fabric material of the high-performance of ventilative homoiothermic of the present utility model, which is main
Including fibrous outer 11, fiber nexine 15, fibrous interlayer 12.Here each fibrous layer can be entered using existing woven fabric material technology
Prepared by row, will not be described here as prior art.
Fibrous outer 11 may be selected from the combination of one or more fiber composite in biological fiber and macromolecular fibre
Fibrous layer.
Fiber nexine 15 also selected from biological fiber and macromolecular fibre in one or more fiber composite group
Condensating fiber layer.
Fibrous interlayer 12 is located between fibrous outer 11 and fiber nexine 15.Fibrous interlayer 12 mainly plays support, glues
The effect of condensating fiber outer layer 11 and fiber nexine 15.
It is preferred that fibrous outer 11 and fiber nexine 15 are respectively in core-spun fiber, drafting fiber and winding fiber
One or more of conjugate fiber layer.Core-spun fiber referred to by interior core fibre is wrapped with surface fibre, can be combined several functions
Fiber.Drafting fiber is by two or more pieces fiber and sth. made by twisting is formed, and core-spun fiber and drafting fiber all have extremely strong intensity,
Made woven fabric material has wear-resisting superior function.Winding fiber is different from drafting fiber, mutually a plurality of fiber of winding
Loosely it is intertwined, made woven fabric material has the flexibility of pole handss, or even with super soft feel.Here simultaneously
Bar, winding process can adopt existing woven fabric technique, will not be described here.
It is preferred that being formed with microvilluss on the top layer of fibrous outer 11.In fibrous outer 11, micro- floss of adjacent two fibers
Hair hair down direction each other.
It is preferred that between fibrous interlayer 12 and fiber nexine 15, ecto-entad is sequentially provided with air-permeable layer 13 and temperature-control coating 14.
Air-permeable layer 13 is the biological fiber layer with nanometer micropore, temperature-control coating 14 for be uniformly laid in air-permeable layer 13 and fiber nexine 15 it
Between Nano microsphere layer, Nano microsphere is hollow particle.Air-permeable layer 13 and temperature-control coating 14 are set under fibrous interlayer 12, also
Air-permeable layer 13 and temperature-control coating 14 can effectively be protected.
Temperature-control coating 14 can conduct heat by hollow nano microsphere when ambient temperature is raised.When ambient temperature declines,
Heat can be discharged again, so that woven fabric material internal temperature remains certain relatively stable.Particularly fibrous outer 11
Microvilluss on top layer, may also function as the effect similar to fin, can further increase the heat conduction in temperature-control coating 14.
When ambient temperature changes, said structure has high ventilation feature, self-regulated temperature characteristics, can hold with environment temperature
It is continuous to be maintained at the comfortable scope of relative equilibrium, play the effect of automatic temperature-control, it is ensured that as leather shoes, playshoes, case and bag etc.
Comfort level when dress, use.
Above-described embodiment and accompanying drawing non-limiting product form of the present utility model and style, any art
Appropriate change or modification that those of ordinary skill is done to which, all should be regarded as without departing from patent category of the present utility model.
Claims (2)
1. the high-performance of ventilative homoiothermic is combined woven fabric material, including fibrous outer and fiber nexine, fibrous outer and fiber nexine
Between be additionally provided with fibrous interlayer, it is characterised in that:Between the fibrous interlayer and the fiber nexine, ecto-entad is sequentially provided with
Air-permeable layer and temperature-control coating, and air-permeable layer is the biological fiber layer with nanometer micropore, temperature-control coating for be uniformly laid in air-permeable layer and
Nano microsphere layer between the fiber nexine, Nano microsphere are hollow particle;It is formed with the top layer of the fibrous outer
Microvilluss, the microvilluss of adjacent two fibers hair down direction each other.
2. the high-performance of ventilative homoiothermic as claimed in claim 1 is combined woven fabric material, it is characterised in that:The fibrous interlayer is
Support the fibrous interlayer of the fibrous outer and the fiber nexine.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621016786.7U CN206141023U (en) | 2016-08-31 | 2016-08-31 | Compound super fine material of ventilative high performance that adjusts temperature |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621016786.7U CN206141023U (en) | 2016-08-31 | 2016-08-31 | Compound super fine material of ventilative high performance that adjusts temperature |
Publications (1)
Publication Number | Publication Date |
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CN206141023U true CN206141023U (en) | 2017-05-03 |
Family
ID=58618968
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621016786.7U Active CN206141023U (en) | 2016-08-31 | 2016-08-31 | Compound super fine material of ventilative high performance that adjusts temperature |
Country Status (1)
Country | Link |
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CN (1) | CN206141023U (en) |
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2016
- 2016-08-31 CN CN201621016786.7U patent/CN206141023U/en active Active
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