CN206106533U - Prevent siphon and prevent compound super fine material of static high performance - Google Patents

Abstract

The utility model discloses a prevent siphon and prevent compound super fine material of static high performance, including the outer and fibre nexine of fibre, still be equipped with the fibre intermediate layer between fibre skin and the fibre nexine, the interbedded about two sides of fibre is equipped with hydrophobic fibrous layer respectively, just be equipped with a plurality of hydrophobic microcavitys between fibre intermediate layer and the hydrophobic fibrous layer, intercommunication between a plurality of hydrophobic microcavitys still is equipped with the lurex who prevents static and use in the super fine material. The utility model discloses a rerum natura of hydrophobic fibrous layer itself can play very good hydrophobic interaction, and utilizes the hydrophobic microcavity of a plurality of intercommunications, can play apparent lyophobic effect, prevent that the siphon effect is obvious. Lurex through preventing that static uses can prevent static effectively, specially adapted protection shoes, outdoor shoes, climbing boot.

Description

The compound woven fabric material of anti-siphon antistatic high-performance

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 anti-siphon antistatic high-performance 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, it is this kind of for protective footwear, outdoor shoe, climbing boot Material, it is proposed that should anti-siphon, the composite request of antistatic again.

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 anti-siphon but also the anti-siphon antistatic of antistatic is high The compound woven fabric material of performance.

In order to reach above-mentioned purpose, solution of the present utility model is：

The compound woven fabric material of anti-siphon antistatic high-performance, including fibrous outer and fiber nexine, fibrous outer and fiber Fibrous interlayer is additionally provided between nexine, the inside and outside two sides of the fibrous interlayer is respectively equipped with hydrophobic fiber layer, and the fiber clamp Multiple hydrophobic microcavitys are provided between layer and hydrophobic fiber layer, intercommunication between multiple hydrophobic microcavitys is additionally provided with woven fabric material anti-quiet The metallic fiber of electricity.

The one kind or many of the fibrous outer and the fiber nexine respectively in biological fiber and macromolecular fibre The conjugate fiber layer planted.

The fibrous interlayer is the fibrous interlayer for supporting the fibrous outer and the fiber nexine.

The fibrous outer and the fiber nexine respectively in core-spun fiber, drafting fiber and winding fiber one Plant or various conjugate fiber layers.

The hydrophobic fiber layer on the fibrous interlayer two sides is crisscross arranged.

The hydrophobic microcavity on the fibrous interlayer two sides is crisscross arranged.

The metallic fiber is woven into composition antistatic backing.

The antistatic backing is arranged on the outer surface of the fiber nexine.

The antistatic backing is arranged on the inner surface of the fiber nexine.

The antistatic backing is arranged on the surfaces externally and internally of the fiber nexine.

After such scheme, this utility model has the advantages that：Hydrophobic fiber layer itself can be played very Good hydrophobic interaction, and using the hydrophobic microcavity of multiple intercommunications, significant hydrophobic effect, anti-siphon effect can be played obvious. By the metallic fiber of antistatic, can effectively antistatic, be particularly well-suited to protective footwear, outdoor shoe, climbing boot.

Description of the drawings

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

In figure：

Fibrous outer 11, hydrophobic fiber layer 12, fibrous interlayer 13, hydrophobic fiber layer 14, fiber nexine 15, metallic fiber 16。

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 anti-siphon antistatic high-performance of the present utility model, its master Fibrous outer to be included 11, fiber nexine 15, fibrous interlayer 13.Here each fibrous layer can adopt existing woven fabric material technology It is prepared, will not be described here as prior art.

Fibrous interlayer 13 is located between fibrous outer and fiber nexine.Fibrous interlayer mainly plays support, binder fibre The effect of outer layer and fiber nexine.

It is preferred that fibrous outer and fiber nexine respectively in core-spun fiber, drafting fiber and winding fiber Plant or various conjugate fiber layers.Core-spun fiber referred to by interior core fibre is wrapped with surface fibre, can be combined the fibre of several functions Dimension.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 Into woven fabric material there is wear-resisting superior function.Winding fiber is different from drafting fiber, and a plurality of fiber of mutually winding is loose Be intertwined, made woven fabric material has the flexibility of pole handss, or even with super soft feel.Drafting here, Winding process can adopt existing woven fabric technique, will not be described here.

The inside and outside two sides of the fibrous interlayer is respectively equipped with hydrophobic fiber layer 12,14, and the fibrous interlayer and hydrophobic fibre Multiple hydrophobic microcavitys are provided between dimension layer, intercommunication between multiple hydrophobic microcavitys is additionally provided with the metal of antistatic in woven fabric material Fiber 16.The hydrophobic fiber layer on the fibrous interlayer two sides is crisscross arranged.The hydrophobic microcavity on the fibrous interlayer two sides staggeredly sets Put.

It is preferred that hydrophobic fiber layer can adopt hydrophobic fiber material to be on the market composited, or even core-spun fiber is made, The top layer of core-spun fiber is hydrophobic fiber material, and inner core is sponge, can so utilize the moisture absorption of Plant fiber to make With equivalent to capillarity, playing good hydrophobic effect.

The metallic fiber is woven into composition antistatic backing.The antistatic backing is arranged on the appearance of the fiber nexine Face.The antistatic backing is arranged on the inner surface of the fiber nexine.The antistatic backing is arranged on the interior of the fiber nexine Outer surface.

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 (10)

1. anti-siphon antistatic high-performance is combined woven fabric material, including fibrous outer and fiber nexine, in fibrous outer and fiber Fibrous interlayer is additionally provided between layer, it is characterised in that：The inside and outside two sides of the fibrous interlayer is respectively equipped with hydrophobic fiber layer, and institute State and between fibrous interlayer and hydrophobic fiber layer, be provided with multiple hydrophobic microcavitys, intercommunication between multiple hydrophobic microcavitys, in woven fabric material also It is provided with the metallic fiber of antistatic.

2. anti-siphon antistatic high-performance as claimed in claim 1 is combined woven fabric material, it is characterised in that：The fibrous outer With the one kind of the fiber nexine respectively in biological fiber and macromolecular fibre.

3. anti-siphon antistatic high-performance as claimed in claim 1 is combined woven fabric material, it is characterised in that：The fibrous interlayer To support the fibrous interlayer of the fibrous outer and the fiber nexine.

4. anti-siphon antistatic high-performance as claimed in claim 1 is combined woven fabric material, it is characterised in that：The fibrous outer With the one kind of the fiber nexine respectively in core-spun fiber, drafting fiber and winding fiber.

5. anti-siphon antistatic high-performance as claimed in claim 1 is combined woven fabric material, it is characterised in that：The fibrous interlayer The hydrophobic fiber layer on two sides is crisscross arranged.

6. anti-siphon antistatic high-performance as claimed in claim 1 is combined woven fabric material, it is characterised in that：The fibrous interlayer The hydrophobic microcavity on two sides is crisscross arranged.

7. anti-siphon antistatic high-performance as claimed in claim 1 is combined woven fabric material, it is characterised in that：The metallic fiber It is woven into antistatic backing.

8. anti-siphon antistatic high-performance as claimed in claim 7 is combined woven fabric material, it is characterised in that：The antistatic backing It is arranged on the outer surface of the fiber nexine.

9. anti-siphon antistatic high-performance as claimed in claim 7 is combined woven fabric material, it is characterised in that：The antistatic backing It is arranged on the inner surface of the fiber nexine.

10. anti-siphon antistatic high-performance as claimed in claim 7 is combined woven fabric material, it is characterised in that：The antistatic Layer is arranged on the surfaces externally and internally of the fiber nexine.