CN204742734U

CN204742734U - Lead wet heat dissipation profile material

Info

Publication number: CN204742734U
Application number: CN201520506751.0U
Authority: CN
Inventors: 陈鸿翔
Original assignee: GUANHONG CO Ltd
Current assignee: GUANHONG CO Ltd
Priority date: 2015-07-14
Filing date: 2015-07-14
Publication date: 2015-11-11
Anticipated expiration: 2025-07-14

Abstract

The utility model provides a lead wet heat dissipation profile material, include upper non -woven fabrics and the lower layer non woven fabric who is located upper non -woven fabrics below, the equipartition has the bleeder vent on the non -woven fabrics of upper strata, lower layer non woven fabric corresponds each bleeder vent position of upper strata non -woven fabrics is provided with a linear incision respectively, be provided with a dehydrating gel granule respectively in each linear incision, just lower layer non woven fabric's lower surface still is provided with a hydrophobic double -phase ventilative layer that absorbs water. The utility model discloses a surface fabric is provided with the hydrophobic silk that absorbs water, when the human body is sweat because of weather is hot, because hydrophobic material's effect, the sweat can not gather on the skin surface, all shift to the lower layer non woven fabric on through water -absorbing material portion, thereby play the good wet effect of leading, shift sweat to the lower layer non woven fabric on then can be absorbed by the dehydrating gel granule, volume expansion after the dehydrating gel granule absorbs water, and then closed linear incision struts as the thermovent use originally, further strengthen the heat dissipation ventilation effect of surface fabric.

Description

One leads wet heat radiating type fabric

Technical field

The utility model relates to fabric technical field, particularly relates to one and leads wet heat radiating type fabric.

Background technology

Along with the continuous upgrading of manufacturing technology, new functional fiber cloth meets the growing demand of people gradually, instead of natural fiber gradually, chemical fibre is endowed more function through modified, thus for textile industry new product development and cater to consumer demand and provide sound assurance.In summer, because human body self can produce certain heat, and these heats all can not distribute by existing fabric effectively, therefore develop a kind ofly not only to have allowed people comfortable and easy to wear but also can reach the fabric of leading wet thermolysis and just become a kind of market demand.

Utility model content

Therefore, in order to solve prior art Problems existing, the utility model provides one to lead wet heat radiating type fabric.

For solving this technical problem, the utility model takes following scheme: one leads wet heat radiating type fabric, comprise upper strata non-woven fabrics and be positioned at the lower nonwoven cloth below the non-woven fabrics of upper strata, described upper strata non-woven fabrics is evenly equipped with air-vent, each air-vent position of described lower nonwoven cloth corresponding described upper strata non-woven fabrics is respectively arranged with a linear cut, be respectively arranged with a dehydrating gel particle in described each linear cut, and the lower surface of described lower nonwoven cloth is also provided with a hydrophobic water suction two-phase air-permeable layer.

Further improvement: described hydrophobic water suction two-phase air-permeable layer comprises hydrophobic water suction silk, and described hydrophobic water suction silk is absorbent material near the side of lower nonwoven cloth, and the side away from lower nonwoven cloth is hydrophobic material.

Further improvement: the diameter of described dehydrating gel particle is 0.3-0.5mm.

By adopting preceding solution, the beneficial effects of the utility model are: fabric of the present utility model is provided with hydrophobic water suction silk, when human body is sweat because of heat, due to the effect of hydrophobic material, sweat can not gather at skin surface, all be transferred on lower nonwoven cloth by absorbent material portion, thus play and good lead wet effect, the sweat be transferred on lower nonwoven cloth then can absorb by dehydrated gel particle, volumetric expansion after dehydrating gel particulate water absorbent, and then originally closed linear cut strutted use as thermovent, the radiate heat and ventilate effect of further reinforcement fabric, the particular design of each level order of the utility model is through repetition test and draws, it not simple superposition, its special structural design makes this fabric possess active heat removal function, reach effect cool in summer and warm in winter, the scope of application is wider, more there is the market competitiveness.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

The structural representation of the hydrophobic water suction silk of Fig. 2.

Detailed description of the invention

Now with specific embodiment, the utility model is further illustrated by reference to the accompanying drawings.

With reference to figure 1 and Fig. 2, the open one of the utility model embodiment leads wet heat radiating type fabric, the lower nonwoven cloth 2 comprising upper strata non-woven fabrics 1 and be positioned at below upper strata non-woven fabrics 1, described upper strata non-woven fabrics 1 is evenly equipped with air-vent 11, air-vent 11 position of described lower nonwoven cloth 2 corresponding described upper strata non-woven fabrics 1 is provided with a linear cut 21, linear cut 21 is in closure state, a dehydrating gel particle 22 is provided with in described linear cut 21, the diameter of described dehydrating gel particle 22 is 0.4mm in the present embodiment, and the lower surface of described lower nonwoven cloth 2 is also provided with a hydrophobic water suction two-phase air-permeable layer 3, described hydrophobic water suction two-phase air-permeable layer 3 comprises hydrophobic water suction silk 4, described hydrophobic water suction silk 4 is absorbent material 41 near the side of lower nonwoven cloth 2, side away from lower nonwoven cloth 2 is hydrophobic material 42.

Although specifically show in conjunction with preferred embodiment and describe the utility model; this technical scheme method and access of specific implementation is a lot; the above is only preferred embodiment of the present utility model; but those skilled in the art should be understood that; not departing from the spirit and scope of the present utility model that appended claims limits; can make a variety of changes the utility model in the form and details, be protection domain of the present utility model.

Claims

1. lead wet heat radiating type fabric for one kind, comprise upper strata non-woven fabrics and be positioned at the lower nonwoven cloth below the non-woven fabrics of upper strata, described upper strata non-woven fabrics is evenly equipped with air-vent, it is characterized in that: each air-vent position of described lower nonwoven cloth corresponding described upper strata non-woven fabrics is respectively arranged with a linear cut, be respectively arranged with a dehydrating gel particle in described each linear cut, and the lower surface of described lower nonwoven cloth is also provided with a hydrophobic water suction two-phase air-permeable layer.

2. one according to claim 1 leads wet heat radiating type fabric, it is characterized in that: described hydrophobic water suction two-phase air-permeable layer comprises hydrophobic water suction silk, described hydrophobic water suction silk is absorbent material near the side of lower nonwoven cloth, and the side away from lower nonwoven cloth is hydrophobic material.

3. one according to claim 1 and 2 leads wet heat radiating type fabric, it is characterized in that: the diameter of described dehydrating gel particle is 0.3-0.5mm.