CN-224227354-U - Nylon copper ammonia mulberry silk CoolLife lycra cool-feeling moisture-conducting honeycomb fabric

Abstract

The utility model discloses a nylon copper ammonia mulberry silk CoolLife lycra cool moisture-conducting honeycomb fabric, which relates to the technical field of fabrics and comprises a fabric body, wherein the fabric body is woven by a 34 inch 32-needle weft knitting circular knitting machine by adopting a honeycomb structure design, a needle dial needle arrangement mode is ABAC, a yarn arrangement mode of the fabric is 16 paths of one cycle, an odd number path is CoolLife cool sense yarn, an even number path is copper ammonia fiber blended yarn and lycra spandex yarn, the copper ammonia fiber blended yarn is nylon fiber/copper ammonia fiber/mulberry silk fiber blended yarn, the fabric provided by the utility model adopts CoolLife cool sense yarn and copper ammonia fiber blended yarn, excellent cool feel and moisture conducting performance are provided for the fabric, the CoolLife cool sense yarn can quickly absorb body surface heat, and durable cool experience is brought, and moisture absorption and air permeability of the copper ammonia fiber blended yarn further keep skin dry and comfortable.

Inventors

• CAI JUNJIE
• Ou Haifang

Assignees

• 泉州联兴发针织织造有限公司
• 屹乐温控科技(常州)有限公司

Dates

Publication Date

20260512

Application Date

20250321

Claims (7)

1. 1. The nylon copper ammonia mulberry silk CoolLife lycra cool-feel wet-conducting honeycomb fabric comprises a fabric body, wherein the fabric body is formed by adopting a honeycomb structural design and knitting by a 34 inch 32-needle weft knitting circular knitting machine, and is characterized in that: The needle dial needle arrangement mode is ABAC, the yarn arrangement mode of the fabric is 16 paths of one cycle, wherein the odd paths are CoolLife cool sense yarns, the even paths are copper ammonia fiber blended yarns and lycra spandex yarns, and the copper ammonia fiber blended yarns are nylon fiber/copper ammonia fiber/mulberry silk fiber blended yarns.
2. 2. The nylon copper ammonia mulberry silk CoolLife lycra cool feeling moisture-conducting honeycomb fabric of claim 1, wherein the CoolLife cool feeling yarn is a 30D/24FCoolLife cool feeling yarn.
3. 3. The nylon copper ammonia mulberry silk CoolLife lycra cool feeling moisture-conducting honeycomb fabric according to claim 1, wherein the nylon fiber/copper ammonia fiber/mulberry silk fiber blended yarn has a count of 60S.
4. 4. The nylon copper mulberry silk CoolLife lycra cool moisture-conducting honeycomb fabric of claim 1, wherein the lycra spandex yarn is 20D lycra spandex.
5. 5. The nylon copper ammonia mulberry silk CoolLife lycra cool feeling moisture-conducting honeycomb fabric according to claim 2, wherein the 30D/24FCoolLife cool feeling yarn length is 10cm/100 needles.
6. 6. The nylon copper ammonia mulberry silk CoolLife lycra cool feeling moisture-conducting honeycomb fabric according to claim 3, wherein the nylon fiber/copper ammonia fiber/mulberry silk fiber blended yarn length is 24.5cm/100 needles.
7. 7. The nylon copper ammonia mulberry silk CoolLife lycra cool feeling moisture-conducting honeycomb fabric according to claim 4, wherein the 20D lycra spandex thread length is 7.5cm/100 needles.

Description

Nylon copper ammonia mulberry silk CoolLife lycra cool-feeling moisture-conducting honeycomb fabric Technical Field The utility model relates to the technical fabric field, in particular to a nylon copper ammonia mulberry silk CoolLife lycra cool-feeling moisture-conducting honeycomb fabric. Background In the modern textile industry, the requirements of consumers on the comfort and the functionality of clothing are increasingly increased, and particularly in hot environments, the cool feeling and the moisture permeability of the fabric become key requirements. Although the traditional fabric has a certain moisture absorption and sweat release function, the traditional fabric is insufficient in cool feeling experience and one-way moisture conduction performance, and the body surface temperature cannot be effectively regulated, so that a wearer still feels stuffy and uncomfortable under a high-temperature environment. Therefore, development of the fabric with both cooling and moisture conducting functions has important significance. Disclosure of utility model The utility model aims to solve the technical problems and provides a nylon copper ammonia mulberry silk CoolLife lycra cool-feel moisture-conducting honeycomb fabric. The utility model adopts the following technical scheme for realizing the purposes: a nylon copper ammonia mulberry silk CoolLife lycra cool-feel wet-guiding honeycomb fabric comprises a fabric body, wherein the fabric body adopts a honeycomb structural design and is woven by a 34 inch 32-needle weft knitting circular knitting machine; The needle dial needle arrangement mode is ABAC, the yarn arrangement mode of the fabric is 16 paths of one cycle, wherein the odd paths are CoolLife cool sense yarns, the even paths are copper ammonia fiber blended yarns and lycra spandex yarns, and the copper ammonia fiber blended yarns are nylon fiber/copper ammonia fiber/mulberry silk fiber blended yarns. The CoolLife cool feeling yarn is 30D/24FCoolLife cool feeling yarn. The count of the nylon fiber/cuprammonium fiber/mulberry silk fiber blended yarn is 60S. The lycra spandex yarn is 20D lycra spandex. The yarn length of the 30D/24FCoolLife cool feeling yarn is 10cm/100 needles. The length of the nylon fiber/copper ammonia fiber/mulberry silk fiber blended yarn is 24.5cm/100 needles. The length of the 20D lycra spandex thread is 7.5cm/100 needle. In the utility model, coolLife cool feeling yarn is the first infrared transparent fabric in the world, is researched and developed by AI-CLO company, reduces the body temperature by 3 degrees F compared with the similar fabric, and is an excellent cool feeling fabric. The copper ammonia fiber has good hygroscopicity and air permeability, can quickly absorb moisture in the air, can quickly volatilize the moisture into the air again, and does not generate a smoky feel. The nylon fiber/copper ammonia fiber/mulberry silk fiber blended yarn has soft hand feeling, and improves the experience of a user. According to the utility model, the honeycomb structure is designed to form the porous network on the skin-friendly surface of the fabric, so that more channels are created, the moisture permeability and elasticity of the fabric are improved, and the wearing comfort is improved. The beneficial effects of the utility model are as follows: The fabric provided by the utility model adopts CoolLife cool feeling yarn and copper ammonia fiber blended yarn, so that excellent cool feeling and moisture permeability are provided for the fabric, the CoolLife cool feeling yarn can rapidly absorb body surface heat to bring lasting cool experience, and the moisture absorption and air permeability of the copper ammonia fiber blended yarn further keep skin dry and comfortable. Drawings FIG. 1 is a triangular view of a weaving process of the present utility model; in FIG. 1,. Lambda.represents the knitting of the needles in the cylinder triangle into loops, and. U.represents the knitting of the needles in the cylinder triangle into tucks, and-represents the float. Detailed Description For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of sel