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CN-224210728-U - Wet knitted fabric looses

CN224210728UCN 224210728 UCN224210728 UCN 224210728UCN-224210728-U

Abstract

The utility model discloses a moisture-dissipating knitted fabric, which belongs to the technical field of knitted fabrics and comprises a fabric body, wherein the fabric body comprises a breathable layer and a moisture-dissipating layer, a plurality of ventilation holes are uniformly distributed on the breathable layer, the breathable layer consists of a plurality of moisture-dissipating strips, the moisture-dissipating strips are distributed between two adjacent ventilation holes, a plurality of moisture-dissipating floating threads are arranged on one side, away from the breathable layer, of the moisture-dissipating layer, and are intersected to form a sweat-guiding network, and sweat-guiding knots are formed at the ventilation holes in an interweaving mode. According to the moisture-dissipation knitted fabric, the double-layer structure design enables the fabric to be mutually cooperated in moisture dissipation and ventilation, the ventilation layer is responsible for ventilation, and the moisture dissipation layer is matched with the moisture dissipation floating line, so that sweat can be more rapidly emitted, the wearing comfort is improved, and excessive sweat accumulated by a human body is avoided.

Inventors

  • WU RONGZHEN
  • Fu Minqian
  • Chen Bixi

Assignees

  • 泉州集盛织造有限公司

Dates

Publication Date
20260508
Application Date
20250517

Claims (6)

  1. 1. The scattered wet knitted fabric comprises a fabric body, wherein the fabric body comprises a breathable layer (1) and a scattered wet layer, and is characterized in that a plurality of ventilation holes (3) are uniformly distributed in the breathable layer (1), the scattered wet layer is formed by a plurality of scattered wet strips (2), the scattered wet strips (2) are distributed between two adjacent ventilation holes (3), a plurality of scattered wet floating lines (4) are arranged on one side, away from the breathable layer (1), of the scattered wet layer, and the scattered wet floating lines (4) are intersected to form a sweat guiding network, and are interwoven at the ventilation holes (3) to form sweat guiding knots (5).
  2. 2. A loose wet knitted fabric according to claim 1, wherein the ventilation layer (1) is formed by warp knitting two guide bars of a guide bar GB1 and a guide bar GB2, the loose wet strip (2) is formed by warp knitting two guide bars of a guide bar GB3 and a guide bar GB4, and the loose wet float (4) is formed by warp knitting four guide bars of a guide bar GB5, a guide bar GB6, a guide bar GB7 and a guide bar GB 8.
  3. 3. The scattered wet knitted fabric according to claim 2, wherein the guide bar GB1 is knitted to form an opening change tissue, the threading mode of the guide bar GB1 is that of the guide bar/1-0/1-2//, the guide bar GB2 is warp knitted to form the opening change tissue, and the threading mode of the guide bar GB2 is that of the guide bar/2-3/3-1/1-2//, the guide bar GB1 is threaded to the guide bar.
  4. 4. The loose wet knitted fabric according to claim 2, wherein the guide bar GB3 is knitted to form an open cut pad tissue, the threading mode of the guide bar GB3 is/4-2/2-4//, the guide bar GB4 is warp knitted to form the open cut pad tissue, and the threading mode of the guide bar GB4 is/2-4/4-2//, the guide bar GB3 is threaded to the first hollow.
  5. 5. A moisture-dissipating knitted fabric according to claim 2, characterized in that: the guide bar GB5 is knitted to form a variable structure, and the threading mode of the guide bar GB5 is as follows: 2-0/0-3/-/3-0/1-2/2-1//, through a space two; the guide bar GB6 is warp-knitted to form a closed knitting chain structure, the threading mode of the guide bar GB6 is that the guide bar is/2-1//, a first space is penetrated by two, the guide bar GB7 is knitted to form a change structure, the threading mode of the guide bar GB7 is that the guide bar is/0-2/1-2/2-0/0-2/1-2/2-0//, a first space is penetrated by two, the guide bar GB8 is warp-knitted to form a change structure, and the threading mode of the guide bar GB8 is that the guide bar is/2-3/2-1/1-3/3-1/2-3/2-1/1-1//, a first space is penetrated by two.
  6. 6. The wet-dispelling knitted fabric according to claim 1, wherein the wet-dispelling floating thread (4) is knitted by using Modal fiber threads.

Description

Wet knitted fabric looses Technical Field The utility model relates to the technical field of knitted fabrics, in particular to a moisture-dissipating knitted fabric. Background The knitted fabric is a fabric formed by bending yarns into loops by using knitting needles and mutually stringing the loops, and is divided into warp knitted fabric and weft knitted fabric. The sweat that current knitted cloth that is used for making dress can absorb the person's of dress body surface in the use, along with the continuous production of sweat, the hole on knitted cloth surface can be plugged to influence the circulation of air, make sweat more difficult by volatilizing, lead to knitted cloth to be in the humid state for a long time, influence the wearing experience of person. According to the above problems, a technical scheme of the moisture-dissipating knitted fabric is provided. Disclosure of utility model The utility model aims to solve the problems in the prior art and provides a moisture-dissipating knitted fabric. In order to achieve the purpose, the wet-dispersing knitted fabric comprises a fabric body, wherein the fabric body comprises an air permeable layer and a wet-dispersing layer, a plurality of air holes are uniformly distributed on the air permeable layer, the wet-dispersing layer is composed of a plurality of wet-dispersing strips, the wet-dispersing strips are distributed between two adjacent air holes, a plurality of wet-dispersing floating threads are arranged on one side, away from the air permeable layer, of the wet-dispersing layer, the wet-dispersing floating threads are intersected to form a sweat guiding network, and sweat guiding knots are formed at the air holes in an interweaving mode. The utility model is further characterized in that the breathable layer is formed by warp knitting two guide bars of the guide bar GB1 and the guide bar GB2, the scattered wet strip is formed by warp knitting two guide bars of the guide bar GB3 and the guide bar GB4, and the scattered wet floating line is formed by warp knitting four guide bars of the guide bar GB5, the guide bar GB6, the guide bar GB7 and the guide bar GB 8. The method is further characterized in that the guide bar GB1 is knitted to form an opening change structure, the threading mode of the guide bar GB1 is that the guide bar is/1-0/0-2/1-2//, the guide bar GB2 is warp-knitted to form the opening change structure, and the threading mode of the guide bar GB2 is that the guide bar is/2-3/3-1/1-2//, and the guide bar GB1 is threaded in the first hollow. The utility model further provides that the guide bar GB3 is knitted to form an open-end pad structure, the threading mode of the guide bar GB3 is/4-2/2-4//, the first blank is penetrated, the guide bar GB4 is warp-knitted to form the open-end pad structure, and the threading mode of the guide bar GB4 is/2-4/4-2//, the first blank is penetrated. The utility model is further provided with: the guide bar GB5 is knitted to form a variable structure, and the threading mode of the guide bar GB5 is as follows: 2-0/0-3/-/3-0/1-2/2-1//, through a space two; the guide bar GB6 is warp-knitted to form a closed knitting chain structure, the threading mode of the guide bar GB6 is that the guide bar is/2-1//, a first space is penetrated by two, the guide bar GB7 is knitted to form a change structure, the threading mode of the guide bar GB7 is that the guide bar is/0-2/1-2/2-0/0-2/1-2/2-0//, a first space is penetrated by two, the guide bar GB8 is warp-knitted to form a change structure, and the threading mode of the guide bar GB8 is that the guide bar is/2-3/2-1/1-3/3-1/2-3/2-1/1-1//, a first space is penetrated by two. The utility model further provides that the breathable layer is formed by blending nylon fibers and spandex fibers, and the ratio of the nylon fibers to the spandex fibers is 1:1. The utility model further provides that the moisture-dissipating strip is formed by blending bamboo fibers and viscose fibers, and the ratio of the bamboo fibers to the viscose fibers is 4:6. The utility model further provides that the scattered wet floating thread is formed by knitting Modal fiber threads. In summary, the double-layer structure design enables the cloth to cooperate with each other in moisture dissipation and ventilation, the ventilation layer is responsible for ventilation, the moisture dissipation layer is matched with the moisture dissipation floating line, sweat can be more rapidly emitted, wearing comfort is improved, and excessive sweat accumulated by a human body is avoided. Drawings FIG. 1 is a schematic diagram of the structure of the present utility model; FIG. 2 is a partial cutaway view of the present utility model; FIG. 3 is a yarn-laying movement diagram of the bars GB1, GB2 of the present utility model; FIG. 4 is a diagram of the yarn-laying movement of the bars GB3, GB4 of the present utility model; FIG. 5 is a yarn-laying movement diagram of the guide bars GB5, GB6 of the utility