CN-224227326-U - High-elastic antibacterial nylon yarn

CN224227326UCN 224227326 UCN224227326 UCN 224227326UCN-224227326-U

Abstract

The utility model discloses a high-elastic antibacterial nylon yarn, and relates to the technical field of yarns. The technical scheme is characterized by comprising a yarn core and a wet dispersing yarn which is abutted against the yarn core, wherein the wet dispersing yarn comprises contact parts and wet dispersing parts which are arranged in a staggered manner along the length direction of the yarn core, the length of the wet dispersing parts is larger than that of the contact parts, a wet dispersing space exists between the wet dispersing parts and the yarn core, the contact yarn is spirally wound on the peripheral wall of the yarn core and the peripheral wall of the wet dispersing yarn, and the twist of the contact yarn at the contact parts is larger than that of the contact yarn at the wet dispersing parts.

Inventors

SUN FANG
SUN XIANTENG
HuangFu Xiujun

Assignees

苏州纺松牵经有限公司

Dates

Publication Date: 20260512
Application Date: 20250410

Claims (6)

1. The high-elastic antibacterial nylon yarn is characterized by comprising a yarn core (1) and a moisture-dissipating yarn (2) which is abutted against the yarn core, wherein the moisture-dissipating yarn (2) comprises contact parts (3) and moisture-dissipating parts (4) which are arranged in a staggered manner along the length direction of the yarn core, the length of each moisture-dissipating part (4) is larger than that of each contact part (3), a moisture-dissipating space exists between each moisture-dissipating part (4) and the yarn core (1), contact yarns (5) are spirally wound on the peripheral walls of the yarn core (1) and the moisture-dissipating yarn (2), and the twist of each contact yarn (5) located in each contact part (3) is larger than that of each contact yarn (5) located in each moisture-dissipating part (4).
2. The high-elastic antibacterial nylon yarn according to claim 1, wherein a plurality of contact wool (6) are integrally formed on the peripheral wall of the yarn core (1), the yarn core (1) is arranged as a staple yarn, and the yarn core (1) is formed by twisting nylon fiber I and ramie fiber I.
3. The high-elastic antibacterial nylon yarn according to claim 1, wherein the diameter of the moisture-dissipating part (4) is smaller than that of the contact part (3), the moisture-dissipating yarn (2) is a bunchy yarn, the contact part (3) is a bamboo segment of the bunchy yarn, and the moisture-dissipating part (4) is a base yarn part of the bunchy yarn.
4. The high-elastic antibacterial nylon yarn according to claim 1, wherein the yarn core (1) has a twist greater than that of the moisture-dissipating yarn (2), and a ventilation space is formed between the contact yarn (5) and the moisture-dissipating portion (4).
5. The high-elastic antibacterial nylon yarn according to claim 1, wherein the moisture-dissipating yarn (2) is formed by twisting nylon special-shaped fibers with cross-section shapes.
6. The high-elastic antibacterial nylon yarn according to claim 1, wherein the contact yarn (5) is formed by twisting nylon special-shaped fiber II and ramie fiber II.

Description

High-elastic antibacterial nylon yarn Technical Field The utility model relates to the technical field of yarns, in particular to a high-elastic antibacterial nylon yarn. Background The yarn is a textile, is a product processed by various textile fibers into a certain fineness and is used for weaving, wire making and the like, and the nylon yarn is a yarn formed by taking nylon fibers as a main body and then mixing and processing the nylon fibers with other fibers. The nylon fiber has good structural strength and elasticity, but the moisture absorption and ventilation effects of the nylon fiber are poor, so that when the nylon fiber is used for manufacturing clothes, the nylon fiber cannot be timely emitted after sweat on the body surface is absorbed, the internal humidity of the fiber is increased, the comfort of the fabric during use is affected, and bacteria in the fiber are generated, and the problem of poor moisture dissipation effect of the structure is solved by the structure. Disclosure of utility model Aiming at the defects existing in the prior art, the utility model aims to provide the high-elasticity antibacterial nylon yarn, and the aim of improving the overall moisture-dispersing antibacterial performance of the yarn is fulfilled through the arrangement of the structure. The technical aim of the utility model is achieved by the following technical scheme that the high-elastic antibacterial nylon yarn comprises a yarn core and a moisture-dissipating yarn which is abutted against the yarn core, wherein the moisture-dissipating yarn comprises contact parts and moisture-dissipating parts which are arranged in a staggered manner along the length direction of the yarn core, the length of the moisture-dissipating parts is larger than that of the contact parts, a moisture-dissipating space is reserved between the moisture-dissipating parts and the yarn core, the contact yarn is spirally wound on the outer peripheral walls of the yarn core and the moisture-dissipating yarn, and the twist of the contact yarn positioned at the contact parts is larger than that of the contact yarn positioned at the moisture-dissipating parts. The utility model is further characterized in that a plurality of contact velvet are integrally formed on the peripheral wall of the yarn core, the yarn core is made of spun yarns, and the yarn core is formed by twisting nylon fibers and ramie fibers. The utility model is further arranged in such a way that the diameter of the moisture-dissipating part is smaller than the diameter of the contact part, the moisture-dissipating yarn is arranged as a bunchy yarn, the contact part is arranged as a bamboo segment of the bunchy yarn, and the moisture-dissipating part is arranged as a base yarn part of the bunchy yarn. The utility model is further arranged that the twist of the yarn core is larger than the twist of the scattered wet yarn, and a ventilation space is formed between the contact yarn and the scattered wet part. The utility model further provides that the moisture-dissipating yarn is formed by twisting nylon special-shaped fibers with cross sections. The utility model further provides that the contact yarn is formed by twisting nylon special-shaped fiber II and ramie fiber II. In summary, the utility model has the advantages that the contact area of the yarn core, the contact yarn and the body surface is increased due to the arrangement of the contact velvet, the moisture absorption and dissipation yarn of the whole yarn core is ensured by utilizing the characteristics of the first ramie fibers, the channel for the outside air to flow through in the yarn is increased by the arrangement of the dissipation space and the ventilation space, the channel for the outside air to flow through in the structure is ensured, the time of the yarn in a wet state is further shortened, and the antibacterial quick-drying performance of the whole structure is ensured. Drawings FIG. 1 is a schematic diagram of the structure of the present utility model; FIG. 2 is a cross-sectional view of the present utility model; FIG. 3 is a cross-sectional view of portion A of FIG. 2; Fig. 4 is a slice of the present utility model. In the figure, 1 yarn core, 2 moisture-dissipating yarns, 3 contact parts, 4 moisture-dissipating parts, 5 contact yarns and 6 contact velvet. Detailed Description The present utility model will be described in detail below with reference to the accompanying drawings and examples. The high-elastic antibacterial nylon yarn comprises a yarn core 1 and a wet-dispersing yarn 2 abutted against the yarn core 1, wherein the yarn core 1 and the wet-dispersing yarn 2 are twisted together through a twisting machine, the wet-dispersing yarn 2 comprises a contact part 3 and a wet-dispersing part 4 which are arranged in a staggered mode along the length direction of the yarn core, the length of the wet-dispersing part 4 is larger than that of the contact part 3, the diameter of the wet-dispersing