CN209825267U - Fabric with directional sweat guiding function and garment - Google Patents

Abstract

The utility model discloses a fabric and a garment with the function of guiding sweat directionally, wherein the fabric comprises a water repellent layer and a flow guiding layer, and the fabric is mutually woven to form a woven body which is connected with a super-absorbing layer; the water repellent layer is formed by interweaving water repellent fibers and is used for collecting sweat on the flow guide layer through the water repellent fibers; the flow guide layer is formed by interweaving water-absorbing fibers and is used for guiding sweat collected by the water-absorbing fibers to the super-absorbing layer; the super absorbent layer is used for absorbing sweat. Sweat in the human body in the above scheme is collected the fibre that absorbs water through water repellent fibre on, then with on the directional water conservancy diversion of sweat super strong sweat-absorbing water's super layer of absorbing sweat, through super layer absorption sweat, wring the surface fabric at last, the sweat of draining.

Description

Fabric with directional sweat guiding function and garment

Technical Field

The utility model relates to a dress designing technical field especially relates to a surface fabric and clothing with directional sweat guide function.

Background

Along with the increasing living standard and the increasing demand of people, the functional requirements of consumers on living goods are higher and higher.

The clothes play an indispensable role in our lives, and the demands on the comfort and the functionality of the clothes are higher and higher for our living quality.

The fabric in the prior art has the characteristics of moisture absorption, sweat releasing and quick drying, can quickly take sweat generated by skin away from a human body, and effectively reduces the overhigh body temperature of the human body, so that people can keep dry and comfortable during exercise. However, indoor events such as basketball, badminton, table tennis, volleyball have a lot of sweat during strong sports. Because indoor air convection is less sweat evaporation and can't reach perspire and evaporation balance limitedly, lead to the sportsman to wear the comfort poor, and when a large amount of sweat flowed to the stadium ground along sportswear, match trousers, the sportsman slipped easily when stepping on the sweat, caused the sports injury, hurt serious sportsman may influence its sports career even, is unfavorable for the cleanness on ground.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a surface fabric and clothing with directional sweat guide function to solve indoor air convection and can not reach the problem of perspire and evaporation balance than less sweat evaporation limited.

In order to solve the above problem, the utility model adopts the following technical scheme:

in a first aspect, the application provides a directional sweat-guiding functional fabric, which comprises a water repellent layer and a flow guiding layer, wherein the water repellent layer and the flow guiding layer are mutually woven to form a woven body, and the woven body is connected with a super-absorbent layer;

the water repellent layer is formed by interweaving water repellent fibers and is used for collecting sweat on the flow guide layer through the water repellent fibers;

the flow guide layer is formed by interweaving water-absorbing fibers and is used for guiding sweat collected by the water-absorbing fibers to the super-suction layer;

the super-absorption layer is used for absorbing sweat.

Optionally, in the oriented sweat guiding functional fabric, the super absorbent layer includes a high molecular water absorbent resin SAP.

Optionally, in the oriented sweat guiding functional fabric, the water repellent fibers are water repellent PP fibers.

Optionally, in the oriented sweat guiding functional fabric, the water absorbent fibers are hydrophilic PP fibers.

In a second aspect, the present application provides a garment with directional sweat guiding function, comprising: the garment body and the sweat absorption area which is arranged on the garment body and is made of the directional functional fabric.

Optionally, in the above-mentioned garment with directional sweat guiding function, the garment body includes an upper surface, a lower surface, a front surface, a back surface and two side surfaces, and the sweat absorbing region is disposed on the front surface or/and the back surface.

Optionally, in the garment with the directional sweat guiding function, the flow guiding layer includes a plurality of water absorbing strips and flow guiding strips, the water repellent layer includes a plurality of water repellent strips, the water absorbing strips and the water repellent strips are alternately arranged on the front surface or the rear surface, the super absorbent layer is circumferentially arranged on the lower half part of the front surface and connected with the water repellent layer, and the water absorbing strips are all connected to the super absorbent layer through at least one flow guiding strip;

the water absorption strip is an inclined water absorption strip along the direction of the upper surface to the super-absorption layer.

Optionally, in the garment with the directional sweat guiding function, the width of the water absorbing strip is 1-5cm, and the width of the water repellent strip is 3-15 cm.

Optionally, in the garment with the sweat guiding function, 2 flow guide strips are arranged along the direction from the upper surface to the super absorbent layer, and are respectively arranged at the axisymmetric center line positions of the front surface and the rear surface, so that a plurality of water absorbing strips and a plurality of water repellent strips are symmetrically arranged on both sides of each flow guide strip; the water absorbing strips are downward inclined water absorbing strips along the side surfaces towards the direction of the flow guide strips, one end of each water absorbing strip is connected with the flow guide strip, the other end of each water absorbing strip is arranged on the garment body, and the water repellent strips are arranged among the water absorbing strips, the flow guide strips and the super-absorbent layer.

Optionally, in the garment with the sweat guiding function, along the direction from the upper surface to the super absorbent layer, the number of the flow guide strips is 4, two flow guide strips are arranged on the front surface, two flow guide strips are arranged on the rear surface, two flow guide strips on each side are symmetrically arranged on two sides of an axisymmetric center line of the front surface or the rear surface, and a plurality of the water absorbing strips and a plurality of the water repellent strips are symmetrically arranged on two sides of each axisymmetric center line; the water absorbing strips are downward inclined water absorbing strips along the direction of the side surface of the diversion strip, one end of each water absorbing strip is connected with the diversion strip, the other end of each water absorbing strip is connected with the other water absorbing strip which is symmetrically arranged, and the water absorbing strips, the diversion strips and the super-absorbing layer are provided with the water repelling strips.

Optionally, in the garment with the function of directional sweat guiding, the flow guiding layer comprises a water absorbing unit and a flow guiding strip, the water absorbing unit is arranged at the back position of the chest part or/and the back surface of the front surface, the flow guiding strip is arranged at the position of an axisymmetric center line of the front surface or/and the back surface along the direction from the upper surface to the super absorbent layer, two water repellent layers are symmetrically arranged at two sides of the axisymmetric center line, and the super absorbent layer is arranged at the bottom of the water repellent layer; one end of the diversion strip is connected with the water absorption unit, the other end of the diversion strip is connected with the super-absorption layer, and the water absorption unit is connected with the water repellent layer along the upper surface in the direction of the super-absorption layer and along the inclined line of the side surface in the downward inclination direction of the diversion strip.

Optionally, in the garment with the function of guiding sweat directionally, the flow guide layer includes water absorbing units and flow guide strips, the water absorbing units are disposed on the chest part of the front surface or/and the back part of the back surface, the flow guide strips are 2 or 4 along the direction from the upper surface to the super absorbent layer, two flow guide strips are disposed on the front surface, or/and two flow guide strips are disposed on the back surface, two flow guide strips on each side are symmetrically disposed on two sides of an axisymmetric center line of the front surface or the back surface, and the water repellent layer is disposed between the water absorbing units and the super absorbent layer; the connection line of the water absorption unit and the water repellent layer is an oblique line which is inclined downwards along the direction of the upper surface to the super-absorption layer and along the direction of the side surface of the diversion strip.

Optionally, in the garment with the function of guiding sweat, the garment body is a coat or trousers.

The utility model discloses a technical scheme can reach following beneficial effect:

the utility model discloses an among the surface fabric with directional sweat guide function, constitute by water repellent layer, diversion layer and super absorption layer, sweat in the human body is through on water repellent fiber collects the absorbent fibre, then with the directional water conservancy diversion of sweat to super absorbent sweat's super absorption layer on, absorb sweat through super absorption layer, wring the surface fabric at last, the sweat of draining.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

FIG. 1 is a schematic structural diagram of a fabric with directional sweat guiding function;

FIG. 2 is a flow chart of a method for preparing a fabric with a directional flow guiding function;

FIG. 3 is a front view of a top with directional sweat guiding capability to guide sweat towards the center;

FIG. 4 is a rear view of a center-oriented sweat flow directing upper garment;

FIG. 5 is a front view of a pair of pants with directional sweat guiding function to guide sweat to the center;

FIG. 6 is a rear view of a pair of pants with directional sweat directing function to direct sweat toward the center;

FIG. 7 is a front view of the top with directional sweat guiding function to guide sweat to two sides;

FIG. 8 is a rear view of a top with directional sweat guiding capability to direct sweat to both sides;

FIG. 9 is a front view of pants with directional sweat guiding function to guide sweat to two sides;

FIG. 10 is a rear view of pants with directional sweat directing function to direct sweat to both sides;

FIG. 11 is a front view of a front chest and back portion of a coat with directional sweat guiding function to guide sweat toward the center;

FIG. 12 is a rear view of the front and back portions of the coat with directional sweat directing function to direct sweat toward the center;

FIG. 13 is a rear view of the front chest and back of the jacket with directional sweat guiding function to guide sweat to both sides;

FIG. 14 is a front view of a front chest and back portion of a coat with directional sweat guiding function for guiding sweat to both sides;

description of reference numerals:

the garment comprises a fabric 100, a water repellent layer 110, water repellent strips 111, a flow guide layer 120, water absorbing strips 121, flow guide strips 122, water absorbing units 123, a super absorbent layer 130, a garment body 200, an upper surface 210, a lower surface 220, a front surface 230, a rear surface 240, side surfaces 250 and 260, a sweat absorbing area 300, an axisymmetric center line A and a connecting line B.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

As shown in fig. 1, the present application provides a fabric 100 with directional sweat guiding function, which comprises a water repellent layer 110 and a flow guiding layer 120, wherein the water repellent layer and the flow guiding layer are mutually woven to form a woven body, and the woven body is connected with a super absorbent layer 130; the water repellent layer 110 is formed by interweaving water repellent fibers and is used for collecting sweat on the flow guide layer 120 through the water repellent fibers; the flow guide layer 120 is formed by interweaving water-absorbing fibers and is used for guiding sweat collected by the water-absorbing fibers to the super-absorbent layer 130; a super absorbent layer 130 for absorbing sweat. The utility model discloses an among the surface fabric 100 with directional sweat guide function, sweat in the human body is through on the fibre of refusing water collects the fibre that absorbs water, then with the directional water conservancy diversion of sweat to super strong sweat-absorbing's super layer 130 of inhaling of sweat on, absorb sweat through super layer 130 of inhaling, wring the surface fabric at last, the sweat of draining.

In one embodiment of the present application, the superabsorbent layer 130 comprises a polymeric water-absorbent resin SAP. The high molecular water-absorbent resin SAP can absorb hundreds of times, even thousands of times of water of the weight of the SAP, has strong water retention capacity, and meets the requirements of water absorption and water retention of fabrics. When the super absorbent layer 130 is manufactured, the high molecular water absorbent resin SAP can be pressed between two fabrics and then connected to the woven body; furthermore, floating point-shaped protrusion structures can be arranged on the inner surface of the cloth, and rapid sweat absorption is facilitated on the inner surface.

In one embodiment of the present application, the water repellent fibers are water repellent PP fibers. The water repellent PP fiber is obtained by treating PP fiber with chemical water repellent agent to reduce surface tension of PP fiber, so that water drops can not wet PP surface.

In one embodiment of the present application, the water-absorbing fibers are hydrophilic PP fibers. The hydrophilic PP fiber is prepared by blending and granulating a hydrophilic auxiliary agent and PP.

As shown in fig. 2, the application provides a method for preparing a fabric with a directional flow guide function, which comprises the following steps:

s01, mutually weaving the water repellent layer 110 and the diversion layer 120 to form a woven body;

and S02, pressing the woven body and the super absorbent layer 130 to obtain the fabric 100 with the oriented flow guide function.

As shown in fig. 3, the present application provides a garment with directional sweat guiding function, comprising: the garment body 200 and the sweat absorption area 300 which is arranged on the garment body 200 and is made of the directional functional fabric 100. Fig. 3 shows an example in which the garment body 200 is a jacket. On being applied to clothing body 200 through the surface fabric 100 that will have the sweat function of oriented guide, discharge human sweat effectively, promote the clothing comfort to and when solving a large amount of sweat and flowing to the stadium ground along match clothes, match trousers, the sportsman slides easily when stepping on sweat, causes the problem of motion injury, does benefit to ground cleanness.

In one embodiment of the present application, as shown in fig. 3, the garment body 200 includes an upper surface 210, a lower surface 220, a front surface 230, a rear surface 240, and two side surfaces 250, 260, and the sweat absorbing region 300 is disposed on the front surface 230 or/and the rear surface 240. This application combines human sweat position, sets up surface fabric 100 on sweat-absorbing district 300, carries out water conservancy diversion, absorption, saving with a large amount of sweat that produces in the motion process, discharges the sweat when perhaps clothing body 200 takes off when having a rest in the middle of the sports, and the setting in sweat-absorbing district 300 is more scientific, more is favorable to the water conservancy diversion and the absorption of sweat.

If the garment body 200 is a jacket, the garment is arranged according to the figures 3, 4, 7, 8, 11 to 14, and the whole circle of the super-absorbent layer 130 is attached to the lower hem of the jacket, so that sweat is collected until the sweat is discharged when the wearer takes a rest in the sports field. The coat can be long-sleeved, short-sleeved or sleeveless, and can also be provided with a collar, a hat or the like.

If the garment body 200 is a pair of trousers, the trousers are arranged according to the figures 5, 6, 9 and 10, and each trouser leg is arranged by adopting the structure, and the full circle of the super-absorbent layer 130 is stuck at the foot opening of each trouser leg, so that sweat is collected until the sweat is discharged when a user takes a rest in a sports stadium. The trousers can be trousers or shorts.

The clothing body 200 may be a coverall, a skirt, or a one-piece dress, which are separately provided by combining the upper garment and the trousers, as will be understood by those skilled in the art.

In an embodiment of the present application, the diversion layer 120 and the water-repellent layer 110 are specifically disposed in the following ways:

the first mode is as follows: as shown in fig. 3, 4, 7 and 8, the flow guiding layer 120 includes a plurality of water absorbing strips 121 and flow guiding strips 122, the water repellent layer 110 includes a plurality of water repellent strips 111, the water absorbing strips 121 and the water repellent strips 111 are alternately disposed on the front surface 230 or the rear surface 240, the super-absorbent layer 130 is circumferentially disposed on the lower half portion of the front surface 230 and connected to the water repellent layer 110, and the water absorbing strips 121 are all connected to the super-absorbent layer 130 through at least one flow guiding strip 122; the absorbent strips 121 are slanted absorbent strips along the upper surface 210 in the direction of the superabsorbent layer 130. The width of the water absorbing strip 121 is usually set to be 1-5cm, and the width of the water repellent strip 111 is set to be 3-15 cm. In the aspect of saving materials, the included angle between the flow guide strip 122 and the axial symmetry center line A is 15-60 degrees.

Specifically, (1) as shown in fig. 3 and 4, when the garment body 1 is a coat, along the direction from the upper surface 210 to the super absorbent layer 130, the number of the flow guide strips 122 is 2, and the flow guide strips are respectively arranged at the positions of the axisymmetric center lines a of the front surface 230 and the rear surface 240, so that a plurality of water absorbing strips 121 and a plurality of water repellent strips 111 are symmetrically arranged on both sides of each flow guide strip 122; the water absorbing strips 121 are downward inclined water absorbing strips along the direction from the side surface 250 or 260 to the flow guide strips 122, one end of each water absorbing strip 121 is connected with the flow guide strip 122, the other end of each water absorbing strip 121 is arranged on the garment body 200, and the water repellent strips 111 are arranged among the water absorbing strips 121, the flow guide strips 122 and the super absorbent layer 130. In the aspect of saving materials, the included angle between the flow guide strip 122 and the axial symmetry center line A is 15-60 degrees.

As shown in fig. 5 and 6, when the garment body 1 is a pair of trousers, the trousers are respectively arranged on the two legs in the above manner.

Specifically, (2) as shown in fig. 7 and 8, along the direction from the upper surface 210 to the super absorbent layer 130, 4 flow guide strips 122 are provided, two flow guide strips 122 are disposed on the front surface 230, two flow guide strips 122 are disposed on the rear surface 240, two flow guide strips 122 on each side are symmetrically disposed on two sides of an axisymmetric center line a of the front surface 230 or the rear surface 240, and a plurality of water absorbing strips 121 and a plurality of water repellent strips 111 are symmetrically disposed on two sides of each axisymmetric center line a; the water absorbing strips 121 are downward inclined water absorbing strips along the direction from the diversion strips 122 to the side surface 250 or 260, one end of each water absorbing strip 121 is connected with the diversion strip 122, the other end of each water absorbing strip 121 is connected with the other water absorbing strip 121 which is symmetrically arranged, and the water repelling strips 122 are arranged among the water absorbing strips 121, the diversion strips 122 and the super-absorbent layer 130. In the aspect of saving materials, the included angle between the flow guide strip 122 and the axial symmetry center line A is 15-60 degrees.

As shown in fig. 9 and 10, when the garment body 1 is a pair of trousers, the trousers are respectively arranged on the two legs in the above manner.

The second way is: (1) as shown in fig. 11 and 12, the flow guiding layer 120 includes water absorbing units 123 and flow guiding strips 122, the water absorbing units 123 are disposed on the chest portion of the front surface 230 or/and the back portion of the back surface 240, the flow guiding strips 122 are disposed on the axisymmetric center line a of the front surface 230 or/and the back surface 240 along the direction from the upper surface 210 to the super-absorbent layer 130, two water repellent layers 110 are symmetrically disposed on both sides of the axisymmetric center line a, and the super-absorbent layer 130 is disposed at the bottom of the water repellent layers 110; one end of the diversion strip 122 is connected with the water absorption unit 123, the other end of the diversion strip 122 is connected with the super-absorbent layer 130, and a connection line B between the water absorption unit 123 and the water repellent layer 110 is an oblique line which inclines downwards along the direction from the upper surface 210 to the super-absorbent layer 130 and along the direction from the side surface 250 or 260 to the diversion strip 122. In the aspect of saving materials, the included angle between the oblique line and the axisymmetric center line A is 15-60 degrees.

(2) As shown in fig. 13 and 14, the flow guiding layer 120 includes water absorbing units 123 and flow guiding strips 122, the water absorbing units 123 are disposed on the chest of the front surface 230 or/and the back of the back surface 240, along the direction from the upper surface 210 to the super-absorbent layer 130, the flow guiding strips 122 are 2 or 4, two flow guiding strips 122 are disposed on the front surface 230 or/and two flow guiding strips 122 are disposed on the back surface 240, the two flow guiding strips 122 on each side are symmetrically disposed on both sides of the axisymmetric center line a of the front surface 230 or the back surface 240, and the water repellent layer 110 is disposed between the water absorbing units 123, the flow guiding strips 122 and the super-absorbent layer 130; the connection line B between the water absorbing unit 123 and the water repellent layer 110 is a slant line inclined downward along the direction from the upper surface 210 to the super absorbent layer 130 and along the direction from the flow guide strip 122 to the side surface 250 or 260. In the aspect of saving materials, the included angle between the oblique line and the axisymmetric center line A is 15-60 degrees.

The utility model discloses what the key description in the above embodiment is different between each embodiment, and different optimization characteristics are as long as not contradictory between each embodiment, all can make up and form more preferred embodiment, consider that the literary composition is succinct, then no longer describe here.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (13)

1. The fabric with the directional sweat guiding function is characterized by comprising a water repellent layer and a flow guiding layer, wherein the water repellent layer and the flow guiding layer are mutually woven to form a woven body, and the woven body is connected with a super absorbent layer;

the water repellent layer is formed by interweaving water repellent fibers and is used for collecting sweat on the flow guide layer through the water repellent fibers;

the flow guide layer is formed by interweaving water-absorbing fibers and is used for guiding sweat collected by the water-absorbing fibers to the super-suction layer;

the super-absorption layer is used for absorbing sweat.

2. The fabric with the directional sweat guiding function according to claim 1, wherein the super absorbent layer comprises a high molecular water absorbent resin (SAP).

3. The fabric with the directional sweat guiding function according to claim 1, wherein the water-repellent fibers are water-repellent PP fibers.

4. The fabric with the directional sweat guiding function according to claim 1, wherein the water absorbing fibers are hydrophilic PP fibers.

5. A garment with a sweat guiding function is characterized by comprising: the garment comprises a garment body and a sweat absorption area which is arranged on the garment body and is made of the fabric with the directional sweat guiding function according to any one of claims 1 to 4.

6. The garment with the directional sweat guiding function according to claim 5, wherein the garment body comprises an upper surface, a lower surface, a front surface, a rear surface and two side surfaces, and the sweat absorbing region is arranged on the front surface or/and the rear surface.

7. The garment with the directional sweat guiding function according to claim 6, wherein the flow guiding layer comprises a plurality of water absorbing strips and flow guiding strips, the water repellent layer comprises a plurality of water repellent strips, the water absorbing strips and the water repellent strips are alternately arranged on the front surface or the rear surface, the super absorbent layer is circumferentially arranged on the lower half part of the front surface and connected with the water repellent layer, and the water absorbing strips are connected to the super absorbent layer through at least one flow guiding strip;

the water absorption strip is an inclined water absorption strip along the direction of the upper surface to the super-absorption layer.

8. The garment with the directional sweat guiding function according to claim 7, wherein the width of the water absorbing strips is 1-5cm, and the width of the water repellent strips is 3-15 cm.

9. The garment with the function of guiding sweat directionally according to claim 7, wherein the number of the flow guide strips is 2 along the direction from the upper surface to the super absorbent layer, and the flow guide strips are respectively arranged at the positions of axisymmetric center lines of the front surface and the rear surface, so that a plurality of the water absorbing strips and a plurality of the water repellent strips are symmetrically arranged on two sides of each flow guide strip; the water absorbing strips are downward inclined water absorbing strips along the side surfaces towards the direction of the flow guide strips, one end of each water absorbing strip is connected with the flow guide strip, the other end of each water absorbing strip is arranged on the garment body, and the water repellent strips are arranged among the water absorbing strips, the flow guide strips and the super-absorbent layer.

10. The garment with the directional sweat guiding function according to claim 7, wherein the number of the flow guide strips is 4 along the direction from the upper surface to the super absorbent layer, two flow guide strips are arranged on the front surface, two flow guide strips are arranged on the rear surface, two flow guide strips on each side are symmetrically arranged on two sides of an axisymmetric center line of the front surface or the rear surface, and a plurality of the water absorbing strips and a plurality of the water repellent strips are symmetrically arranged on two sides of each axisymmetric center line; the water absorbing strips are downward inclined water absorbing strips along the direction of the side surface of the diversion strip, one end of each water absorbing strip is connected with the diversion strip, the other end of each water absorbing strip is connected with the other water absorbing strip which is symmetrically arranged, and the water absorbing strips, the diversion strips and the super-absorbing layer are provided with the water repelling strips.

11. The garment with the directional sweat guiding function according to claim 6, wherein the flow guiding layer comprises a water absorbing unit and a flow guiding strip, the water absorbing unit is arranged at the back position of the chest part or/and the back surface of the front surface, the flow guiding strip is arranged at the position of an axisymmetric center line of the front surface or/and the back surface along the direction from the upper surface to the super absorbent layer, two water repellent layers are symmetrically arranged at two sides of the axisymmetric center line, and the super absorbent layer is arranged at the bottom of the water repellent layers; one end of the diversion strip is connected with the water absorption unit, the other end of the diversion strip is connected with the super-absorption layer, and the water absorption unit is connected with the water repellent layer along the upper surface in the direction of the super-absorption layer and along the inclined line of the side surface in the downward inclination direction of the diversion strip.

12. The garment with the function of guiding sweat directionally according to claim 6, wherein the flow guide layer comprises a water absorption unit and flow guide strips, the water absorption unit is arranged on the chest part of the front surface or/and the back part of the back surface, the flow guide strips are 2 or 4 along the direction from the upper surface to the super absorbent layer, two flow guide strips are arranged on the front surface, or/and two flow guide strips are arranged on the back surface, the two flow guide strips on each side are symmetrically arranged on two sides of the axial symmetry center line of the front surface or the back surface, and the water repellent layer is arranged between the water absorption unit and the super absorbent layer of the flow guide strips; the connection line of the water absorption unit and the water repellent layer is an oblique line which is inclined downwards along the direction of the upper surface to the super-absorption layer and along the direction of the side surface of the diversion strip.

13. The garment with the directional sweat guiding function as claimed in claim 5, wherein the garment body is a jacket or trousers.