TWM548179U - Composition structure of moisture-isolating and anti-sweat textile - Google Patents

Description

Wet wicking textile composition

The creation is a structure with a functional textile, in particular a textile structure that is moisture wicking.

At present, the moisture wicking knitted fabric on the market usually adopts the double-layer structure concept, and the two different water absorbing fibers are woven into a two-layer structure, and the water absorption is strong in the outer layer, and the inner layer has a lower moisture regain than the outer layer. The principle of weaving the fabric that is wet and wicked from the inside to the outside. For example, the inner layer is polypropylene fiber (PP) fiber with outer polyester fiber (PET), or inner polyester fiber with outer nylon fiber (Nylon), etc., but the two layers of the two layers are often designed in dyeing and finishing. Caused by many problems, such as polypropylene fiber can not be high-temperature shaping and dyeing, polyester fiber with outer nylon, its dyeing process is complex and easy to dye uneven, streaks, poor moisture and perspiration.

Generally, polyester fiber has low water content (water content of 0.4%) and poor hydrophilicity, resulting in poor moisture absorption of the fabric. Although it has good quick-drying property, it is easy to generate static electricity, because it is not easy to absorb sweat, and the human body is not comfortable to wear, so most people For the fabric woven from the polyester fiber, the chemical fiber feels too heavy and the touch is not good. Moreover, the traditional method of adding water-repellent agent is added at the rear end of the fiber process, and the water repellency and oil repellency are not durable.

The main purpose of this creation is to provide a textile composition for moisture wicking. The fabric can quickly guide moisture, diffuse and volatilize sweat, and perspiration does not rewet the moisture barrier effect, thereby maintaining the dryness of the human skin and improving the comfort of the fabric.

The secondary purpose of this creation is to provide a textile composition structure for moisture wicking, which has a simple dyeing process, can be shaped at a high temperature, and avoids problems such as uneven dyeing and streaking.

A further object of the present invention is to provide a textile composition structure for moisture wicking which avoids the addition of a moisture absorbent without polluting the environment and does not detract from the functionality of the product due to washing.

In order to achieve the foregoing objectives, the present invention provides a moisture wicking textile composition comprising at least one woven substrate which is interwoven with a plurality of fibers to form a textile having an appropriate area. The cloth comprises at least a hydrophobic layer and a hydrophilic layer, the hydrophobic layer being disposed on one side of the fabric substrate for corresponding to a human skin, the hydrophilic layer being disposed adjacent to the hydrophobic layer and disposed on the fabric substrate One side; wherein the hydrophobic layer comprises at least a plurality of hydrophobic fibers and hydrophilic fibers, the number of the hydrophobic fibers being greater than the number of the hydrophilic fibers, each of the hydrophilic fibers being a shaped fiber; the hydrophilic layer comprising at least a plurality of Each of the hydrophilic fibers is a shaped fiber.

In the following, some preferred embodiments of the present invention will be described in detail with reference to the following figures:

(12)‧‧‧Textile substrate

(10)‧‧‧ Human skin

(14) ‧‧‧hydrophobic layer

(16)‧‧‧Hydrophilic layer

(42) ‧‧‧hydrophobic fiber

(44)‧‧‧Hydrophilic fiber

(62)‧‧‧Hydrophilic fiber

(46) ‧‧‧ convex

The first figure is a schematic cross-sectional view of a preferred embodiment (1) corresponding to a human skin.

The second figure is a schematic cross-sectional view of a preferred embodiment (2) corresponding to a human skin.

The third figure is a schematic cross-sectional view of a preferred embodiment (3) corresponding to a human skin.

The fourth figure is a schematic cross-sectional view of a preferred embodiment (4) corresponding to a human skin.

Referring to the first figure and the second figure, the wet-wicking textile composition of the present invention comprises at least one fabric substrate (12) which is formed by interweaving a plurality of fibers. A textile fabric having a suitable area comprising at least one hydrophobic layer (14) and a hydrophilic layer (16).

The hydrophobic layer (14) is disposed on one side of the fabric substrate (12) for corresponding to a human skin (10). The hydrophobic layer (14) comprises at least a plurality of hydrophobic fibers (42) and hydrophilic fibers ( 44) formed by interweaving, the number of the hydrophobic fibers (42) being greater than the number of the hydrophilic fibers (44), and the preferred embodiment is 1:1, 2:1, 3:1 or 4:1 Wherein each of the hydrophobic fibers (42) can be set as a synthetic fiber such as polyester fiber, polypropylene fiber or nylon fiber, and the surface of the synthetic fiber is coated with fluorine to form durable water and refuse The oil layer reduces the affinity of the fiber surface for water and increases the water absorbing effect on the surface of the fiber; and each of the hydrophilic fibers (44) can be made into a shaped synthetic fiber, in other words, each of the hydrophilic fibers (44) can be set as a cross-section. Hexagons, others, can also be set to triangle, pentagon, Y-shaped, X-shaped or round hollow shape, the fiber shaped profile is to make the surface of the fiber to produce small ditches, and these small ditches will act like straws General capillary phenomenon, so that when the human skin (10) When sweat is discharged, it is quickly taken away by the "sipper" on the fiber.

By the hydrophobic fiber (42) of the hydrophobic layer (14) and the hydrophilic fiber (44), the hydrophobic fiber (42) pushes sweat to the hydrophilic fiber (44), the hydrophilic fiber ( 44) The "sipper" quickly removes the sweat, so the sweat does not remain on the human skin (10).

The hydrophilic layer (16) comprises at least a plurality of hydrophilic fibers (62), and each of the hydrophilic fibers (62) may have a hexagonal cross section, or may be triangular or pentagonal. The Y-shaped, X-shaped or round hollow shape, the hydrophilic layer (16) is used to carry away the sweat from the hydrophobic layer (14), and further discharge the sweat to the outer surface of the hydrophilic layer (16) more rapidly.

Referring to the third and fourth figures, the textile composition structure of the wet perspiration is disclosed in the present invention, and further, the hydrophobic layer (14) adopts a bump design on the outer surface corresponding to the human skin, that is, the fiber plane is interwoven. Forming the hydrophobic layer (14) further includes a plurality of spaced apart convex portions (46) on the outer surface corresponding to the human skin, so that the outer surface of the hydrophobic layer (14) forms a surface energy difference structure, and a directional water collecting effect is generated. That is, the sweat will move toward the middle portion of the convex portion (46), and the moisture permeation effect can be quickly increased without oozing back.

This work uses a hydrophilic profiled synthetic fiber modification technology to increase the moisture content of synthetic fibers by more than double (water content reaches 0.8% or more), and then use high-number air-combined ATY (air-processed wire) processing. The manufacturing technology enables the hydrophilic synthetic fiber to have a soft, fluffy, hydrophilic, and the like that resembles natural cotton. The capillary shaped cross-section fiber design enables the fabric to quickly wet, diffuse and volade the sweat, thereby maintaining the dryness of the human skin and improving the comfort of the fabric; the aforementioned ATY (air processing silk) processing and manufacturing technology, that is, each of the hydrophilic The fibrous fibers are wound into a coil shape and are inserted or fitted to each other to have a soft, fluffy, hydrophilic property such as natural cotton.

(12)‧‧‧Textile substrate

(10)‧‧‧ Human skin

(14) ‧‧‧hydrophobic layer

(16)‧‧‧Hydrophilic layer

(42) ‧‧‧hydrophobic fiber

(44)‧‧‧Hydrophilic fiber

(62)‧‧‧Hydrophilic fiber

Claims (13)

A moisture wicking textile composition comprising at least: a textile substrate interwoven with a plurality of fibers to form a textile fabric having an appropriate area, comprising at least a hydrophobic layer and a hydrophilic layer; The hydrophobic layer is disposed on one side of the fabric substrate to correspond to a human skin; the hydrophilic layer is disposed adjacent to the hydrophobic layer on the other side of the fabric substrate. The moisture wicking textile composition according to claim 1, wherein the hydrophobic layer comprises at least a plurality of hydrophobic fibers and hydrophilic fibers, and the number of the hydrophobic fibers is greater than or equal to the number of the hydrophilic fibers. The moisture wicking textile composition according to claim 1, wherein the hydrophilic layer comprises at least a plurality of hydrophilic fibers. The composition structure of the moisture wicking textile according to claim 2, wherein each of the hydrophobic fibers is a synthetic fiber, and the surface of the synthetic fiber is coated with a fluorine to form a durable water-repellent and oil-repellent layer. Reduce the affinity of the fiber surface for water and increase the water surface effect of the fiber surface. The textile composition structure according to claim 2, wherein each of the hydrophilic fibers is a shaped fiber. The textile composition structure for moisture wicking according to claim 3, wherein each of the hydrophilic fibers is a shaped fiber. The textile composition structure for moisture wicking according to claim 5, wherein each of the hydrophilic fibers is wound into a coil shape to be sheathed or fitted to each other. The textile composition structure according to claim 6, wherein each of the hydrophilic fibers is wound into a coil shape to be sheathed or fitted to each other. The moisture wicking textile composition according to claim 5, wherein each of the hydrophilic fiber cross-sections is selected from the group consisting of a triangle, a pentagon, a hexagon, a Y, an X, and a circular hollow. group. The textile composition for moisture wicking according to claim 6, wherein each of the hydrophilic fiber cross-sections is selected from the group consisting of a triangle, a pentagon, a hexagon, a Y, an X, and a circular hollow. The textile composition structure for moisture wicking according to claim 7, wherein each of the hydrophilic fiber cross-sections is selected from the group consisting of a triangle, a pentagon, a hexagon, a Y, an X, and a circular hollow. The textile composition for moisture wicking according to claim 8, wherein each of the hydrophilic fiber cross-sections is selected from the group consisting of a triangle, a pentagon, a hexagon, a Y, an X, and a circular hollow. The moisture wicking textile composition according to any one of claims 1 to 12, wherein the hydrophobic layer further comprises a plurality of spaced-apart protrusions on the outer surface corresponding to the human skin.