Antibacterial and deodorant honeycomb sport quick-drying fabric

Abstract

The utility model relates to technical field of sportswear fabric, provide a antibacterial deodorization honeycomb sports quick -dry fabric, solve the problem that the moisture cannot be discharged when the existing fabric is close to skin due to design defect. The utility model discloses a fabric main part, the fabric main part is distributed with the projection unit and is enclosed by the recess that forms between adjacent projection units, the recess forms the continuous three -dimensional flow guide grid on the upper surface of fabric main part, to guide liquid along the path rapid diffusion and discharge, the top surface of projection unit is lower than the highest point of the upper surface of fabric main body, makes the recess form the open flow guide space higher than the top surface of projection unit under static, can contact skin under dynamic pressure and form local suction effect, form high -efficient liquid transmission path through three -dimensional flow guide grid, improve sweat diffusion rate.

Description

Technical Field

[0001] This utility model relates to the field of sports fabric technology, specifically to an antibacterial, odor-resistant honeycomb sports quick-drying fabric. Background Technology

[0002] With the improvement of living standards and the increasing emphasis on health, people pay special attention to the comfort and health of their underwear. In situations such as rainy weather when clothes are difficult to dry and breed bacteria, or when clothes cannot dry quickly after sweating, there is a need for a moisture-wicking and quick-drying fabric with plant antibacterial properties to bring consumers a more comfortable and healthy wearing experience.

[0003] Currently, most moisture-wicking, quick-drying, or antibacterial fabrics on the market are made by adding hydrophilic additives to polyester fabrics or using moisture-wicking fibers. These traditional fabrics lack a directional airflow structure, and sweat diffuses randomly through capillary action, resulting in limited evaporation efficiency. When the fabric is in close contact with the skin, moisture cannot escape, creating a "wet zone" that breeds bacteria and produces odors. Chinese Patent Publication No. CN214938101U discloses a motherwort fabric with moisture-wicking, quick-drying, and antibacterial functions, which is woven from two or more yarns to form a single-sided plain weave structure, including at least a motherwort blended yarn with moisture-wicking, quick-drying, and antibacterial functions and spandex. This utility model avoids bacterial growth by adding motherwort, but due to the lack of a directional airflow structure, moisture cannot escape when the fabric is in close contact with the skin. Summary of the Invention

[0004] Therefore, in order to address the above problems, this utility model provides an antibacterial and deodorizing honeycomb sports quick-drying fabric, which solves the problem that moisture cannot be expelled when the existing fabric is in close contact with the skin due to design defects.

[0005] To achieve the above objectives, this utility model is implemented through the following technical solution:

[0006] An antibacterial and deodorizing honeycomb sports quick-drying fabric includes a fabric body with raised units and grooves formed by adjacent raised units distributed on the fabric body. The grooves form a continuous three-dimensional flow-guiding grid on the upper surface of the fabric body to guide liquid to spread and drain rapidly along the path. The top surface of the raised units is lower than the highest point of the upper surface of the fabric body, so that the grooves form an open flow-guiding space above the top surface of the raised units under static conditions, and can contact the skin to form a local suction effect under dynamic pressure.

[0007] Furthermore, the surface of the protruding unit that contacts the skin is distributed with micro-protrusions, and the top of the micro-protrusions is dome-shaped or platform-shaped.

[0008] Furthermore, the actual contact area between the fabric body and the skin surface is 5%-30%.

[0009] Furthermore, the protruding unit has a hexagonal honeycomb structure.

[0010] Furthermore, the main body of the fabric includes a top layer and a bottom layer integrally woven together by connecting yarns. The bottom layer forms the protruding unit that protrudes downwards, the top layer is a mesh structure layer with a mesh, and the connecting yarns form a supporting hollow layer between the top layer and the bottom layer.

[0011] Furthermore, the mesh of the surface layer corresponds to and is sized to the projected shape of the protruding unit in the underlying layer.

[0012] Furthermore, the outer layer is made of nylon multifilament yarn.

[0013] Furthermore, the bottom layer is made of spandex-covered yarn.

[0014] Furthermore, the connecting yarn is made of polyester or nylon monofilament.

[0015] Compared with the prior art, the beneficial effects of this utility model are:

[0016] 1. This utility model forms an efficient liquid transmission path through a three-dimensional flow-guiding grid (adjacent protruding units enclosing the channel), combined with a static open flow-guiding space (the top surface of the protrusion is lower than the upper surface), which improves the sweat diffusion rate by more than 60% compared with traditional quick-drying fabrics, and shortens the evaporation time to 1 / 3 of that of ordinary fabrics.

[0017] 2. This utility model uses elastic fabric and protruding unit support to ensure that the retention rate of the three-dimensional flow-guiding mesh is >80% under 5-15kPa pressure (simulating the state of close contact during exercise). The open flow-guiding space greatly reduces sweat retention, making it impossible for the fabric surface to reach the humidity environment for bacterial growth, thus achieving antibacterial rate without the need for chemical coating.

[0018] 3. This utility model adopts the integrated weaving of protruding units and elastic body. After multiple washes, it can still maintain good breathability, good durability, and wear-resistant hollow surface layer and supporting hollow layer composed of monofilaments, which greatly reduces the fabric weight and achieves lightweighting. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the cross-sectional structure of the main body of the fabric in an embodiment of this utility model;

[0020] Figure 2 This is a schematic diagram of the distribution structure of the protruding units in an embodiment of the present invention.

[0021] Explanation of icon numbers:

[0022] Fabric body 1; top layer 11; bottom layer 12; supporting hollow layer 13;

[0023] Protrusion unit 2; Miniature boss 21;

[0024] Groove 3. Detailed Implementation

[0025] The following will describe the implementation of this utility model in detail with reference to specific embodiments, so that the process of how this utility model uses technical means to solve technical problems and achieve technical effects can be fully understood and implemented accordingly. Example

[0026] like Figures 1 to 2 As shown, an antibacterial and deodorizing honeycomb sports quick-drying fabric includes a fabric body 1. The fabric body 1 has raised units 2 and grooves 3 formed by adjacent raised units. The grooves 3 form a continuous three-dimensional flow-guiding grid on the upper surface of the fabric body 1 to guide liquid to spread and drain quickly along the path. The top surface of the raised unit 2 is lower than the highest point of the upper surface of the fabric body 1, so that the grooves 3 form an open flow-guiding space higher than the top surface of the raised unit 2 under static conditions, and can contact the skin to form a local suction effect under dynamic pressure.

[0027] The efficient liquid transport path is formed by a three-dimensional flow-guiding grid (adjacent protrusion units enclose the channel), combined with a static open flow-guiding space (the top surface of the protrusion is lower than the upper surface), which improves the sweat diffusion rate by more than 60% compared with traditional quick-drying fabrics, and shortens the evaporation time to 1 / 3 of that of ordinary fabrics.

[0028] The surface of the raised unit 2 that contacts the skin is distributed with micro protrusions 21, and the top of the micro protrusions 21 is dome-shaped; the actual contact area between the fabric body 1 and the skin surface is 5%-30%.

[0029] The use of elastic fabric and protruding unit 2 support ensures that the retention rate of the three-dimensional flow-guiding mesh is >80% under pressure of 5-15kPa (simulating the state of close contact during exercise). The open flow-guiding space greatly reduces sweat retention, making it impossible for the fabric surface to reach the humidity environment for bacterial growth, thus achieving antibacterial rate without the need for chemical coating.

[0030] The main body of the fabric 1 includes a top layer 11 and a bottom layer 12 integrally woven together by connecting yarns. The bottom layer 12 forms the downwardly protruding protruding unit 2. The top layer 11 is a mesh structure layer with a mesh structure. The connecting yarns form a supporting hollow layer 13 between the top layer 11 and the bottom layer 12. The top layer 11 is made of nylon multifilament yarn. The bottom layer 12 is made of spandex-covered yarn. The connecting yarns are made of polyester or nylon monofilament.

[0031] The raised unit 2 has a hexagonal honeycomb structure; the mesh of the surface layer 11 corresponds to the projection shape of the raised unit 2 on the bottom layer 12 and the size matches.

[0032] The raised unit 2 is woven in one piece with the elastic body, and it can still maintain good breathability after multiple washes. It is durable and wear-resistant. The hollow surface layer 11 and the supporting hollow layer 13 composed of monofilaments greatly reduce the fabric weight and achieve lightweighting.

[0033] Although the present invention has been specifically shown and described in conjunction with preferred embodiments, those skilled in the art should understand that various changes in form and detail may be made to the present invention without departing from the spirit and scope of the present invention as defined in the appended claims, and all such changes shall be within the scope of protection of the present invention.

Claims

1. An antibacterial, odor-resistant, honeycomb-patterned, quick-drying sports fabric, characterized in that: The device includes a fabric body with raised units and grooves formed by adjacent raised units. The grooves form a continuous three-dimensional flow-guiding grid on the upper surface of the fabric body to guide the liquid to spread and drain rapidly along the path. The top surface of the raised unit is lower than the highest point of the upper surface of the fabric body, so that the groove forms an open flow-guiding space above the top surface of the raised unit under static conditions, and can contact the skin to form a local suction effect under dynamic pressure.

2. The antibacterial and deodorizing honeycomb sports quick-drying fabric according to claim 1, characterized in that: The surface of the raised unit that contacts the skin is distributed with micro-protrusions, and the top of the micro-protrusions is dome-shaped or platform-shaped.

3. The antibacterial and deodorizing honeycomb sports quick-drying fabric according to claim 1, characterized in that: The actual contact area between the main body of the fabric and the skin surface is 5%-30%.

4. The antibacterial and deodorizing honeycomb sports quick-drying fabric according to claim 1, characterized in that: The raised unit has a hexagonal honeycomb structure.

5. The antibacterial and deodorizing honeycomb sports quick-drying fabric according to claim 4, characterized in that: The main body of the fabric includes an outer layer and an inner layer that are integrally woven together by connecting yarns. The inner layer forms a downwardly protruding protrusion unit, the outer layer is a mesh structure layer with a mesh, and the connecting yarns form a supporting hollow layer between the outer layer and the inner layer.

6. The antibacterial and deodorizing honeycomb sports quick-drying fabric according to claim 5, characterized in that: The mesh of the surface layer corresponds to and is sized to the projection shape of the raised unit on the bottom layer.

7. The antibacterial and deodorizing honeycomb sports quick-drying fabric according to claim 5, characterized in that: The outer layer is made of nylon multifilament yarn.

8. The antibacterial and deodorizing honeycomb sports quick-drying fabric according to claim 5, characterized in that: The bottom layer is made of spandex-covered yarn.

9. The antibacterial and deodorizing honeycomb sports quick-drying fabric according to claim 5, characterized in that: The connecting yarn is made of polyester or nylon monofilament.

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