One-way moisture-conducting and quick-drying knitted fabric and preparation method thereof

By using specific organizational structures and finishing processes, knitted fabrics have solved the problems of poor breathability and monotonous patterns in pure synthetic fiber fabrics, producing soft, quick-absorbing, and uniquely patterned knitted fabrics that enhance consumers' comfort and sense of style.

CN117587567BActive Publication Date: 2026-07-14NINGBO DAQIAN TEXTILE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
NINGBO DAQIAN TEXTILE
Filing Date
2023-12-18
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing pure synthetic fiber fabrics have a smooth, non-breathable surface and poor moisture absorption, leading to dry skin and allergies. Their limited pattern designs also make it difficult to meet consumers' demands for comfort and personalization.

Method used

A knitted fabric with a specific structure is made using cotton yarn and waterproof, oil-proof, and stain-resistant nylon modified with high-energy nuclear physics technology. It is knitted on a double-sided high-gauge weft knitting circular knitting machine and then subjected to softening, moisture-wicking and quick-drying finishing and high-temperature setting treatment to produce a knitted fabric with a soft touch and water-absorbing and quick-drying properties.

Benefits of technology

The resulting knitted fabrics have a soft and cool touch, excellent water absorption and quick-drying properties, and unique patterns, meeting consumers' needs for comfort and fashion.

✦ Generated by Eureka AI based on patent content.

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Abstract

The present application relates to a one-way moisture-conducting and quick-drying knitted fabric, the pattern of the knitted fabric is taken as a cycle of twelve routes, the organization structure of the first route, the second route, the fifth route, the sixth route, the ninth route and the tenth route of the front surface is in turn float and loop; the organization structure of the third route, the fourth route, the seventh route, the eighth route, the eleventh route and the twelfth route of the front surface is in turn loop and float; the organization structure of the first route, the second route, the seventh route and the eighth route of the back surface is in turn loop and loop; the organization structure of the third route, the fourth route, the fifth route, the sixth route, the ninth route, the tenth route, the eleventh route and the twelfth route of the back surface is in turn float and float. The knitted fabric of the present application adopts cotton yarn on the front surface and presents delicate check pattern on the back surface; adopts waterproof, oil-proof and dirt-proof nylon and passes through specific soft finishing agent and specific amount of water-absorbing and quick-drying auxiliary agent, so that the knitted fabric has soft and cool touch and water-absorbing and quick-drying characteristics.
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Description

Technical Field

[0001] This invention relates to the field of knitted fabric technology, and in particular to a unidirectional moisture-wicking and quick-drying knitted fabric and its preparation method. Background Technology

[0002] Existing pure synthetic fiber fabrics have problems such as smooth surface, poor breathability, and poor moisture absorption, which can easily lead to dry and uncomfortable skin, and even cause allergic reactions, often failing to meet consumers' needs for comfort. At the same time, in terms of pattern design, existing pure synthetic fiber fabrics are usually relatively simple and highly homogenized, making it difficult to meet consumers' needs for fashion and personalization.

[0003] Therefore, there is an urgent need for a unidirectional moisture-wicking and quick-drying knitted fabric and its preparation method. Summary of the Invention

[0004] The purpose of this invention is to address the shortcomings of existing technologies by providing a unidirectional moisture-wicking and quick-drying knitted fabric and its preparation method.

[0005] To achieve the above objectives, the technical solution adopted by the present invention is as follows:

[0006] The first aspect of the present invention is to provide a unidirectional moisture-wicking and quick-drying knitted fabric, wherein the pattern of the knitted fabric is a twelve-row repeat in a top-to-bottom order.

[0007] The first row of the knitted fabric has the following structure in sequence: a floating stitch, a loop stitch, a loop stitch, and a loop stitch.

[0008] The second row of the knitted fabric has the following structure in sequence: knitted float fabric, knitted loop fabric, knitted loop fabric, and knitted loop fabric.

[0009] The third row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted float structure, and knitted float structure.

[0010] The fourth row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted float structure, and knitted float structure.

[0011] The fifth row of the knitted fabric has the following structure in sequence: purl float fabric, purl loop fabric, purl float fabric, and purl float fabric.

[0012] The sixth row of the knitted fabric has the following structure in sequence: upper needle floating yarn structure, upper needle loop structure, lower needle floating yarn structure, and lower needle floating yarn structure.

[0013] The seventh row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted loop structure, and knitted loop structure.

[0014] The eighth row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted loop structure, and knitted loop structure.

[0015] The ninth row of the knitted fabric has the following structure in sequence: knitted float fabric, knitted loop fabric, knitted float fabric, and knitted float fabric.

[0016] The tenth row of the knitted fabric has the following structure in sequence: upper needle floating yarn structure, upper needle loop structure, lower needle floating yarn structure, and lower needle floating yarn structure.

[0017] The eleventh row of the knitted fabric has the following structure in sequence: loop stitch, float stitch, float stitch, and float stitch.

[0018] The twelfth row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted float structure, and knitted float structure.

[0019] Preferably, the first row, the second row, the seventh row, and the eighth row of the knitted fabric are made of cotton yarn.

[0020] Preferably, the fineness of the cotton yarn is less than 1 tex.

[0021] Preferably, the third, fourth, fifth, sixth, ninth, tenth, eleventh, and twelfth rows of the knitted fabric are made of nylon.

[0022] Preferably, the nylon is a waterproof, oil-resistant, and stain-resistant nylon modified using high-energy nuclear physics technology.

[0023] A second aspect of the present invention is to provide a method for preparing a knitted fabric as described above, comprising the steps of:

[0024] S1. Provide cotton yarn with a fineness of less than 1 tex;

[0025] S2, providing waterproof, oil-proof, and stain-resistant nylon modified with high-energy nuclear physics technology;

[0026] S3. The cotton yarn is woven with a nylon body having a waterproof, oil-proof and stain-resistant coating on its surface to obtain a grey fabric.

[0027] S4. The greige fabric is shaped and finished to obtain the knitted fabric.

[0028] Preferably, S3 includes:

[0029] The cotton yarn and the waterproof, oil-proof and stain-resistant nylon are woven together using a double-sided high-gauge weft knitting circular knitting machine to obtain a grey fabric.

[0030] Preferably, the finishing and shaping includes:

[0031] The process involves sequential softening, moisture-wicking and quick-drying finishing, and high-temperature setting.

[0032] Preferably, in the softening process,

[0033] The softening agents used include: octamethylcyclotetrasiloxane, diethylene glycol monobutyl ether, cyclohexyl secondary amino polysiloxane, and diheptyl phthalate.

[0034] Preferably, in the moisture-wicking and quick-drying finishing process,

[0035] The water-absorbing and quick-drying agent used is OH-600, and the amount of OH-600 added is 1.5%-2.5%.

[0036] The present invention adopts the above technical solution and has the following technical effects compared with the prior art:

[0037] The knitted fabric of this invention uses cotton yarn on the front and a delicate checkered pattern on the back; it is made of waterproof, oil-proof and stain-resistant nylon, and the knitted fabric has a soft and cool touch, as well as water-absorbing and quick-drying properties; through specific softening agents and specific amounts of water-absorbing and quick-drying auxiliaries, the soft touch and water-absorbing and quick-drying performance of the knitted fabric are further enhanced. Attached Figure Description

[0038] Figure 1 This is a schematic diagram of the triangular arrangement of the knitted fabric in this invention;

[0039] Figure 2 This is a schematic diagram of the needle arrangement in the knitted fabric of the present invention. Detailed Implementation

[0040] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0041] It should be noted that, unless otherwise specified, the embodiments and features described in the present invention can be combined with each other.

[0042] The present invention will be further described below with reference to the accompanying drawings and specific embodiments, but this is not intended to limit the scope of the invention.

[0043] Example 1

[0044] like Figure 1-2 As shown, this embodiment provides a one-way moisture-wicking and quick-drying knitted fabric. The pattern of the knitted fabric is a twelve-row cycle, arranged in a top-to-bottom order.

[0045] The first row of the knitted fabric has the following structure in sequence: a floating stitch, a loop stitch, a loop stitch, and a loop stitch.

[0046] The second row of the knitted fabric has the following structure in sequence: knitted float fabric, knitted loop fabric, knitted loop fabric, and knitted loop fabric.

[0047] The third row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted float structure, and knitted float structure.

[0048] The fourth row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted float structure, and knitted float structure.

[0049] The fifth row of the knitted fabric has the following structure in sequence: purl float fabric, purl loop fabric, purl float fabric, and purl float fabric.

[0050] The sixth row of the knitted fabric has the following structure in sequence: upper needle floating yarn structure, upper needle loop structure, lower needle floating yarn structure, and lower needle floating yarn structure.

[0051] The seventh row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted loop structure, and knitted loop structure.

[0052] The eighth row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted loop structure, and knitted loop structure.

[0053] The ninth row of the knitted fabric has the following structure in sequence: knitted float fabric, knitted loop fabric, knitted float fabric, and knitted float fabric.

[0054] The tenth row of the knitted fabric has the following structure in sequence: upper needle floating yarn structure, upper needle loop structure, lower needle floating yarn structure, and lower needle floating yarn structure.

[0055] The eleventh row of the knitted fabric has the following structure in sequence: loop stitch, float stitch, float stitch, and float stitch.

[0056] The twelfth row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted float structure, and knitted float structure.

[0057] In some preferred embodiments, the first, second, seventh, and eighth rows of the knitted fabric are made of cotton yarn; the third, fourth, fifth, sixth, ninth, tenth, eleventh, and twelfth rows of the knitted fabric are made of nylon.

[0058] In some further preferred embodiments, the fineness of the cotton yarn is less than 1 tex.

[0059] In some further preferred embodiments, the nylon is a waterproof, oil-resistant, and stain-resistant nylon modified using high-energy nuclear physics technology.

[0060] Example 2

[0061] This embodiment provides a method for preparing knitted fabric as described in Embodiment 1, the steps of which include:

[0062] S1. Provide cotton yarn with a fineness of less than 1 tex;

[0063] S2, providing waterproof, oil-proof, and stain-resistant nylon modified with high-energy nuclear physics technology;

[0064] S3. The cotton yarn and the waterproof, oil-proof and stain-resistant nylon are woven together using a double-sided high-gauge weft knitting circular knitting machine to obtain a grey fabric;

[0065] S4. The greige fabric is sequentially subjected to softening treatment, moisture-wicking and quick-drying treatment, and high-temperature setting treatment to obtain the knitted fabric; wherein,

[0066] The softening agents used in the softening process include: octamethylcyclotetrasiloxane, diethylene glycol monobutyl ether, cyclohexyl secondary amino polysiloxane, and diheptyl phthalate.

[0067] In the moisture-wicking and quick-drying finishing process, the water-absorbing and quick-drying agent used is OH-600, and the amount of OH-600 added is 2%.

[0068] In summary, the knitted fabric of the present invention uses cotton yarn on the front and a delicate checkered pattern on the reverse side; it uses waterproof, oil-proof and stain-resistant nylon, and the knitted fabric has a soft and cool touch, as well as water-absorbing and quick-drying properties; through specific softening agents and specific amounts of water-absorbing and quick-drying auxiliaries, the soft touch and water-absorbing and quick-drying performance of the knitted fabric are further enhanced.

[0069] The above description is merely a preferred embodiment of the present invention and does not limit the implementation and protection scope of the present invention. Those skilled in the art should realize that any equivalent substitutions and obvious changes made based on the description and illustrations of the present invention should be included within the protection scope of the present invention.

Claims

1. A unidirectional moisture-wicking and quick-drying knitted fabric, characterized in that, The pattern of the knitted fabric is a twelve-line repeat, in a top-to-bottom order. The first row of the knitted fabric has the following structure in sequence: a floating stitch, a loop stitch, a loop stitch, and a loop stitch. The second row of the knitted fabric has the following structure in sequence: knitted float fabric, knitted loop fabric, knitted loop fabric, and knitted loop fabric. The third row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted float structure, and knitted float structure. The fourth row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted float structure, and knitted float structure. The fifth row of the knitted fabric has the following structure in sequence: purl float fabric, purl loop fabric, purl float fabric, and purl float fabric. The sixth row of the knitted fabric has the following structure in sequence: upper needle floating yarn structure, upper needle loop structure, lower needle floating yarn structure, and lower needle floating yarn structure. The seventh row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted loop structure, and knitted loop structure. The eighth row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted loop structure, and knitted loop structure. The ninth row of the knitted fabric has the following structure in sequence: knitted float fabric, knitted loop fabric, knitted float fabric, and knitted float fabric. The tenth row of the knitted fabric has the following structure in sequence: upper needle floating yarn structure, upper needle loop structure, lower needle floating yarn structure, and lower needle floating yarn structure. The eleventh row of the knitted fabric has the following structure in sequence: loop stitch, float stitch, float stitch, and float stitch. The twelfth row of the knitted fabric has the following structure in sequence: knitted loop structure, knitted float structure, knitted float structure, and knitted float structure. The first, second, seventh, and eighth rows of the knitted fabric are made of cotton yarn. The third, fourth, fifth, sixth, ninth, tenth, eleventh, and twelfth rows of the knitted fabric are made of nylon. The nylon is a waterproof, oil-resistant, and stain-resistant nylon modified using high-energy nuclear physics technology.

2. The knitted fabric according to claim 1, characterized in that, The fineness of the cotton yarn is less than 1 tex.

3. A method for preparing a knitted fabric as described in any one of claims 1-2, characterized in that, step include: S1. Provide cotton yarn with a fineness of less than 1 tex; S2, providing waterproof, oil-proof, and stain-resistant nylon modified with high-energy nuclear physics technology; S3. The cotton yarn is woven with a nylon body having a waterproof, oil-proof and stain-resistant coating on its surface to obtain a grey fabric. S4. The greige fabric is shaped and finished to obtain the knitted fabric.

4. The preparation method according to claim 3, characterized in that, S3 includes: The cotton yarn and the waterproof, oil-proof and stain-resistant nylon are woven together using a double-sided high-gauge weft knitting circular knitting machine to obtain a grey fabric.

5. The preparation method according to claim 3, characterized in that, The finishing and shaping process includes: The process involves sequential softening, moisture-wicking and quick-drying finishing, and high-temperature setting.

6. The preparation method according to claim 5, characterized in that, In the softening process The softening agents used include: octamethylcyclotetrasiloxane, diethylene glycol monobutyl ether, cyclohexyl secondary amino polysiloxane, and diheptyl phthalate.

7. The preparation method according to claim 5, characterized in that, In the aforementioned moisture-wicking and quick-drying finishing process The water-absorbing and quick-drying additive used is OH-600, and the amount of OH-600 added is 1.5%-2.5%.