CN205364699U - High strength self -heating heat preservation surface fabric of breathing freely - Google Patents

Abstract

The utility model discloses a high strength self -heating heat preservation surface fabric of breathing freely, including connecting gradually surface course, intermediate level, bottom, heat preservation and heat -sink shell, the warp of surface course is formed by aramid fiber and the twisting of soybean fibre, and the weft of surface course is the halabe fibre, the intermediate level is made into by the chitin fibre, the bottom is made into by the cotton fiber dimension, the heat -sink shell is formed by at least two -layer PE polymer ventilated membrane thermal bonding, it has the zirconium carbide granule to fill between the PE polymer ventilated membrane, the heat preservation is formed by at least two -layer PTFE membrane thermal bonding, it has ceramic particles to fill between the PTFE membrane, and cold -proof effect is better.

Description

A kind of High-strength air-permeable self-heating heat-preservation clothing material

Technical field

This utility model relates to a kind of High-strength air-permeable self-heating heat-preservation clothing material.

Background technology

The raising of careless people's living standard, the demand with dress is also more and more higher.It is warming to carry out that existing fabric is generally simple cotton or polyester fiber, twists sometimes for some spandexs etc. that also can adulterate, but is mainly all dependent on the thermal property of material itself.

Utility model content

For the deficiency that prior art exists, the purpose of this utility model is in that to provide a kind of High-strength air-permeable self-heating heat-preservation clothing material, and warming effect is more preferably.

For achieving the above object, this utility model provides following technical scheme: a kind of High-strength air-permeable self-heating heat-preservation clothing material, including the surface layer being sequentially connected with, intermediate layer, bottom, heat-insulation layer and heat-sink shell, the warp of described surface layer is twisted by aramid fiber and soybean fiber and is formed, the parallel of surface layer is spider silk fiber, described intermediate layer is made into by chitin fiber, and described bottom is made into by cotton fiber

Described heat-sink shell is formed by least two-layer PE gas permeable polymer film heat bonding, it is filled with zirconium carbide particle between described PE gas permeable polymer film, described heat-insulation layer is formed by least two-layer poly tetrafluoroethylene heat bonding, is filled with ceramic particle between described poly tetrafluoroethylene.

Preferably, the thickness of described surface layer, intermediate layer, bottom, heat-insulation layer and heat-sink shell is than for 5:4:2:1:1.

Preferably, the diameter of described aramid fiber is 1 μm, and the diameter of soybean fiber is 2 μm, and the diameter of spider silk fiber is 0.5 μm.

Preferably, the diameter of described chitin fiber is 1 μm, and the diameter of described cotton fiber is 1.5 μm.

Preferably, the diameter of described zirconium carbide particle is 100nm, and the diameter of ceramic particle is 150nm.

Advantage of the present utility model is: 1. zirconium carbide particle can absorb visible ray and ultraviolet is transformed into infrared alignment human body radiation, reach the purpose of self heat absorption, and the ultraviolet injury to human body can be reduced, the infrared ray of human-body emitting can be reflected by ceramic particle, reach to preserve the purpose of heat, synergy by heat-sink shell and heat-insulation layer, it is possible to well play thermal effect, soybean fiber and cotton fiber and can play the effect of auxiliary warming；2. additionally, due to chitin fiber, PE gas permeable polymer film, poly tetrafluoroethylene etc., all there is good breathability so that fabric is not only warming but also ventilative；3. spider silk fiber has high intensity, the intensity making whole surface layer is higher, thus promoting the intensity of whole fabric, but owing to the yield of spider silk is little, obtain mainly through knotting, therefore consumption is made by what add that the mode of aramid fiber and soybean fiber reduces spider silk, and aramid fiber and soybean fiber intensity higher, although it is slightly worse with spider silk fiber ratio, the structural strength of surface layer there is certain impact, but aramid fiber and soybean fiber raw material are easy to get so that surface layer still has higher intensity；4. have employed the animal and plant fibers such as soybean fiber, spider silk, chitin, this fibrid is renewable, environment-friendly degradable, is conducive to link resource and environmental problem simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment.

Accompanying drawing labelling: 1, surface layer；2, intermediate layer；3, bottom；4, heat-insulation layer；5, heat-sink shell.

Detailed description of the invention

With reference to Fig. 1, the present embodiment is illustrated.

A kind of High-strength air-permeable self-heating heat-preservation clothing material, including the surface layer 1 being sequentially connected with, intermediate layer 2, bottom 3, heat-insulation layer 4 and heat-sink shell 5, the warp of surface layer 1 is formed by aramid fiber and soybean fiber, parallel is spider silk fiber, intermediate layer 2 is made into by chitin fiber, bottom 3 is made into by cotton fiber, wherein the diameter of aramid fiber is 1 μm, the diameter of soybean fiber is 2 μm, the diameter of spider silk fiber is 0.5 μm, the diameter of chitin fiber is 1 μm, the diameter of cotton fiber is 1.5 μm, surface layer 1, by tinsel (copper wire or filamentary silver etc.) or yarn stitched connection between intermediate layer 2 and bottom 3, heat-insulation layer 4 and bottom 3 are bonding, heat-insulation layer 4 and heat-sink shell 5 are bonding, surface layer 1, intermediate layer 2, bottom 3, the thickness of heat-insulation layer 4 and heat-sink shell 5 is than for 5:4:2:1:1.

Heat-sink shell 5 is formed by two-layer PE gas permeable polymer film heat bonding, it is filled with zirconium carbide particle between PE gas permeable polymer film, heat-insulation layer 4 is formed by two-layer poly tetrafluoroethylene heat bonding, ceramic particle it is filled with between poly tetrafluoroethylene, the poly tetrafluoroethylene of heat-insulation layer 4 and the PE gas permeable polymer film bonding of heat-sink shell, wherein the diameter of zirconium carbide particle is 100nm, and the diameter of ceramic particle is 150nm.

Advantage of the present utility model is: zirconium carbide particle can absorb visible ray and ultraviolet is transformed into infrared alignment human body radiation, reach the purpose of self heat absorption, and the ultraviolet injury to human body can be reduced, the infrared ray of human-body emitting can be reflected by ceramic particle, reach to preserve the purpose of heat, synergy by heat-sink shell 5 and heat-insulation layer 4, it is possible to well play thermal effect, additionally soybean fiber and cotton fiber can play the effect of auxiliary warming；Additionally, due to chitin fiber, PE gas permeable polymer film, poly tetrafluoroethylene etc., all there is good breathability so that fabric is not only warming but also ventilative；Have employed the animal and plant fibers such as soybean fiber, spider silk, chitin, this fibrid is renewable, environment-friendly degradable, is conducive to link resource and environmental problem simultaneously.

The above is only preferred implementation of the present utility model, and protection domain of the present utility model is not limited merely to above-described embodiment, and all technical schemes belonged under this utility model thinking belong to protection domain of the present utility model.It should be pointed out that, for those skilled in the art, without departing from the some improvements and modifications under this utility model principle premise, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (5)

1. a High-strength air-permeable self-heating heat-preservation clothing material, including the surface layer being sequentially connected with, intermediate layer, bottom, heat-insulation layer and heat-sink shell, the warp of described surface layer is twisted by aramid fiber and soybean fiber and is formed, the parallel of surface layer is spider silk fiber, described intermediate layer is made into by chitin fiber, described bottom is made into by cotton fiber

Described heat-sink shell is formed by least two-layer PE gas permeable polymer film heat bonding, it is filled with zirconium carbide particle between described PE gas permeable polymer film, described heat-insulation layer is formed by least two-layer poly tetrafluoroethylene heat bonding, is filled with ceramic particle between described poly tetrafluoroethylene.

2. a kind of High-strength air-permeable self-heating heat-preservation clothing material according to claim 1, is characterized in that: the thickness of described surface layer, intermediate layer, bottom, heat-insulation layer and heat-sink shell ratio is for 5:4:2:1:1.

3. a kind of High-strength air-permeable self-heating heat-preservation clothing material according to claim 1, is characterized in that: the diameter of described aramid fiber is 1 μm, and the diameter of soybean fiber is 2 μm, and the diameter of spider silk fiber is 0.5 μm.

4. a kind of High-strength air-permeable self-heating heat-preservation clothing material according to claim 1, is characterized in that: the diameter of described chitin fiber is 1 μm, and the diameter of described cotton fiber is 1.5 μm.

5. a kind of High-strength air-permeable self-heating heat-preservation clothing material according to claim 1, is characterized in that: the diameter of described zirconium carbide particle is 100nm, and the diameter of ceramic particle is 150nm.