CN216804685U - Reverse moisture-conducting ice-comfortable dry-comfortable sports fabric - Google Patents
Reverse moisture-conducting ice-comfortable dry-comfortable sports fabric Download PDFInfo
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- CN216804685U CN216804685U CN202122476219.7U CN202122476219U CN216804685U CN 216804685 U CN216804685 U CN 216804685U CN 202122476219 U CN202122476219 U CN 202122476219U CN 216804685 U CN216804685 U CN 216804685U
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Abstract
The utility model discloses a reverse moisture-conducting ice-comfortable dry and comfortable sports fabric which comprises a sports fabric, a bacteriostatic fabric layer and a skin-touching sweat-absorbing layer, wherein the skin-touching sweat-absorbing layer is arranged on one side of the sports fabric, the bacteriostatic fabric layer is arranged between the skin-touching sweat-absorbing layer and the sports fabric, the skin-touching sweat-absorbing layer is compounded at the bacteriostatic fabric layer on one side of the sports fabric, the skin-touching sweat-absorbing layer formed by blending cotton fibers, silk fibers, viscose fibers, spandex fibers and antistatic fibers has good hygroscopicity and can absorb sweat at the skin of a human body, the blending of the spandex fibers enables the fabric to have certain elasticity, meanwhile, the friction static electricity generation condition of the skin-touching sweat-absorbing layer can be improved by the blending of the antistatic fibers, and the skin-touching sweat-absorbing layer can replace the sports fabric to better absorb the sweat at the skin of the human body and can keep the skin dry and comfortable to a certain degree.
Description
Technical Field
The utility model relates to the technical field of fabrics, in particular to a reverse moisture-conducting ice-comfortable dry-comfortable sports fabric.
Background
Fabric is the material used to make clothing. As one of the three elements of the clothes, the fabric can not only explain the style and the characteristics of the clothes, but also directly control the expression effect of the color and the shape of the clothes, some fabrics can be used for manufacturing sportswear, and the sportswear refers to the clothes specially used for sports competition. And broadly also garments worn while engaged in outdoor athletic activities. Sportswear is usually designed and manufactured according to the specific requirements of the sport.
Patent number CN202022512483.7 discloses a reverse moisture-guiding ice-comfortable dry and comfortable sports fabric, including inboard cloth, the inner wall both sides edge coating of inboard cloth has first glue layer, the common bonding of one side of inboard cloth is kept away from to first glue layer has the sponge layer that absorbs water, the bonding of lower surface both sides department of inboard cloth has the second glue layer, the bonding of one side that inboard cloth was kept away from to the second glue layer has the sweat-guiding layer, the coating of one side edge that inboard cloth was kept away from to the sweat-guiding layer has the third glue layer, the bonding of one side that sweat-guiding layer was kept away from to the third glue layer has the outside cloth. The utility model can effectively improve the wearing comfort of the sports fabric, improve the sweat discharging efficiency of the sports fabric, prevent sweat from being retained on the skin surface for a long time, prevent people from catching a cold due to rapid evaporation of the sweat on the skin surface, and ensure the body health of the people.
1. At present, the reverse moisture-conducting ice comfortable dry comfortable sports fabric is mostly woven by cotton fibers and used for weaving sports clothes, the position of the sports fabric lacks good antibacterial ability, the sports fabric mostly contacts more sweat when in use, and then the position of the sports fabric lacking the antibacterial ability is easy to breed bacteria.
2. At present, most of the reverse moisture-conducting ice comfortable dry comfortable sports fabrics are woven by cotton fibers and used for weaving sports clothes, the sports fabrics lack a better skin-touching sweat-absorbing layer, and further cannot absorb sweat at the skin of a human body when being worn, cannot keep the absorption of the sweat at the skin of the human body, and also cannot have a better touch feeling.
SUMMERY OF THE UTILITY MODEL
The utility model mainly aims to provide a reverse moisture-conducting ice-comfortable dry-comfortable sports fabric which can effectively solve the problems in the background technology.
In order to achieve the purpose, the utility model adopts the technical scheme that:
the utility model provides a reverse moisture conduction ice comfortable dry and comfortable sports surface fabric, includes the sports surface fabric, still includes the antibacterial precoat and touches skin sweat-absorbing layer, one side of sports surface fabric is provided with touches skin sweat-absorbing layer, and touches and be provided with the antibacterial precoat between skin sweat-absorbing layer and the sports surface fabric, be composite connection between the two-sided of antibacterial precoat and the touch skin sweat-absorbing layer and the sports surface fabric, and the thickness that the antibacterial precoat and touch skin sweat-absorbing layer is less than the thickness of sports surface fabric.
Further, the antibacterial fabric layer is formed by blending bamboo fiber, alginate fiber, polyester fiber and silver ion antibacterial fiber; the antibacterial fabric layer formed by blending the bamboo fiber, the alginate fiber, the polyester fiber and the silver ion antibacterial fiber has good antibacterial activity, so that a good antibacterial effect can be achieved at the sports fabric, and meanwhile, the polyester fiber is mixed in to enable the antibacterial fabric layer to keep certain elasticity.
Further, the skin-contacting sweat-absorbing layer is formed by blending cotton fibers, silk fibers, viscose fibers, spandex fibers and antistatic fibers; the skin-touch sweat-absorbing layer formed by blending the cotton fibers, the silk fibers, the viscose fibers, the spandex fibers and the antistatic fibers has good hygroscopicity and can adsorb sweat on the skin of a human body, the spandex fibers enable the fabric to have certain elasticity by blending, and meanwhile, the antistatic fibers are mixed to improve the friction static generation condition of the skin-touch sweat-absorbing layer.
Compared with the prior art, the utility model has the following beneficial effects:
1. according to the utility model, the antibacterial fabric layer is arranged at the position of the sports fabric, and the antibacterial fabric layer formed by blending the bamboo fiber, the alginate fiber, the polyester fiber and the silver ion antibacterial fiber has good antibacterial activity, so that the sports fabric has good antibacterial effect, and meanwhile, the antibacterial fabric layer keeps certain elasticity due to the mixing of the polyester fiber, so that the sports fabric has certain antibacterial ability.
2. According to the utility model, the skin-contacting sweat-absorbing layer is compounded at the antibacterial fabric layer on one side of the sports fabric, the skin-contacting sweat-absorbing layer formed by blending the cotton fibers, the silk fibers, the viscose fibers, the spandex fibers and the antistatic fibers has good hygroscopicity and can absorb sweat at the skin of a human body, the blended spandex fibers enable the fabric to have certain elasticity, meanwhile, the friction static generation condition of the skin-contacting sweat-absorbing layer can be improved by mixing the antistatic fibers, and the skin-contacting sweat-absorbing layer can replace the sports fabric to better absorb sweat at the skin of the human body and keep the skin dry and comfortable to a certain degree.
Drawings
Fig. 1 is a composite layer display diagram of a reverse moisture-conducting ice-comfortable dry-comfortable sports fabric of the utility model.
Fig. 2 is a display diagram of the blended fiber material of the skin-contacting sweat-absorbing layer of the reverse moisture-conducting ice-comfortable dry-comfortable sports fabric.
FIG. 3 is a display diagram of a bacteriostatic fabric layer blended fiber material of the reverse moisture-conducting ice-comfortable dry-comfortable sports fabric.
In the figure: 1. a sports fabric; 2. a bacteriostatic fabric layer; 201. bamboo fiber; 202. alginate fibers; 203. polyester fiber; 204. silver ion antibacterial fiber; 3. a skin-contacting sweat-absorbing layer; 301. cotton fibers; 302. silk fiber; 303. viscose fibers; 304. spandex fibers; 305. an antistatic fiber.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further explained by combining the specific embodiments.
As shown in fig. 1-3, a reverse moisture-conducting ice-comfortable dry-comfortable sports fabric comprises a sports fabric 1, and further comprises a bacteriostatic fabric layer 2 and a skin-contacting sweat-absorbing layer 3, wherein the skin-contacting sweat-absorbing layer 3 is arranged on one side of the sports fabric 1, the bacteriostatic fabric layer 2 is arranged between the skin-contacting sweat-absorbing layer 3 and the sports fabric 1, the two sides of the bacteriostatic fabric layer 2 are in composite connection with the skin-contacting sweat-absorbing layer 3 and the sports fabric 1, and the thickness of the bacteriostatic fabric layer 2 and the thickness of the skin-contacting sweat-absorbing layer 3 are smaller than that of the sports fabric 1.
The bacteriostatic fabric layer 2 is formed by blending bamboo fiber 201, alginate fiber 202, polyester fiber 203 and silver ion antibacterial fiber 204; the bacteriostatic fabric layer 2 formed by blending the bamboo fiber 201, the alginate fiber 202, the polyester fiber 203 and the silver ion antibacterial fiber 204 has good bacteriostatic activity, so that the sport fabric 1 can play a good bacteriostatic role, and meanwhile, the polyester fiber 203 is mixed in to ensure that the bacteriostatic fabric layer 2 keeps certain elasticity.
The skin-contacting sweat-absorbing layer 3 is formed by blending cotton fibers 301, silk fibers 302, viscose fibers 303, spandex fibers 304 and antistatic fibers 305; the skin-touching sweat-absorbing layer 3 formed by blending the cotton fibers 301, the silk fibers 302, the viscose fibers 303, the spandex fibers 304 and the antistatic fibers 305 has good hygroscopicity and can absorb sweat on the skin of a human body, the blended spinning of the spandex fibers 304 enables the fabric to have certain elasticity, and meanwhile, the friction static electricity generation condition of the skin-touching sweat-absorbing layer 3 can be improved due to the fact that the antistatic fibers 305 are mixed.
The utility model is a reverse moisture-conducting ice-comfortable dry-comfortable sports fabric, wherein a bacteriostatic fabric layer 2 is arranged at a position of a sports fabric 1, the bacteriostatic fabric layer 2 formed by blending bamboo fiber 201, alginate fiber 202, polyester fiber 203 and silver ion antibacterial fiber 204 has good bacteriostatic activity and can play a good bacteriostatic role at the position of the sports fabric 1, meanwhile, the bacteriostatic fabric layer 2 is kept with certain elasticity due to the blending of the polyester fiber 203, so that the sports fabric 1 has certain bacteriostatic ability, a skin-contacting sweat-absorbing layer 3 is compounded at the position of the bacteriostatic fabric layer 2 at one side of the sports fabric 1, the skin-contacting sweat-absorbing layer 3 formed by blending cotton fiber 301, silk fiber 302, viscose fiber 303, spandex fiber 304 and antistatic fiber 305 has good hygroscopicity and can absorb sweat at the position of human skin, and the blending of the spandex fiber 304 enables the fabric to have certain elasticity, meanwhile, the antistatic fiber 305 is mixed in the skin-contacting sweat-absorbing layer 3, so that the friction static electricity generation condition of the skin-contacting sweat-absorbing layer 3 can be improved, the skin-contacting sweat-absorbing layer 3 can replace the sports fabric 1 to better adsorb sweat on the skin of a human body, and the skin is kept dry and comfortable to a certain degree.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, and such changes and modifications are within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.
Claims (3)
1. The utility model provides a reverse wet-conducting ice comfortable and dry sports fabric, includes sports fabric (1), its characterized in that: still include antibacterial precoat (2) and touch skin sweat-absorbing layer (3), one side of sports surface fabric (1) is provided with touches skin sweat-absorbing layer (3), and touches and be provided with antibacterial precoat (2) between skin sweat-absorbing layer (3) and sports surface fabric (1), be composite connection between the two-sided of antibacterial precoat (2) and touch skin sweat-absorbing layer (3) and sports surface fabric (1), and the thickness that antibacterial precoat (2) and touch skin sweat-absorbing layer (3) is less than the thickness of sports surface fabric (1).
2. The reverse moisture-conducting ice-comfortable dry-comfortable sportswear fabric according to claim 1, which is characterized in that: the bacteriostatic fabric layer (2) is formed by blending bamboo fiber (201), alginate fiber (202), polyester fiber (203) and silver ion antibacterial fiber (204).
3. The reverse moisture-conducting ice-comfortable dry-comfortable sports fabric according to claim 1, characterized in that: the skin-contacting sweat-absorbing layer (3) is formed by blending cotton fibers (301), silk fibers (302), viscose fibers (303), spandex fibers (304) and antistatic fibers (305).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122476219.7U CN216804685U (en) | 2021-10-14 | 2021-10-14 | Reverse moisture-conducting ice-comfortable dry-comfortable sports fabric |
Applications Claiming Priority (1)
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CN202122476219.7U CN216804685U (en) | 2021-10-14 | 2021-10-14 | Reverse moisture-conducting ice-comfortable dry-comfortable sports fabric |
Publications (1)
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CN216804685U true CN216804685U (en) | 2022-06-24 |
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CN202122476219.7U Active CN216804685U (en) | 2021-10-14 | 2021-10-14 | Reverse moisture-conducting ice-comfortable dry-comfortable sports fabric |
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2021
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