Ice silk cool jacquard fabric

The three-dimensional structure of the ice silk cooling jacquard fabric, combined with the interweaving of weft-knitted breathable mesh and plain weave, solves the problems of breathability, moisture wicking and long-lasting cooling of traditional jacquard fabrics, and enhances the visual three-dimensionality and comfort, making it suitable for summer clothing and sportswear.

CN224362986UActive Publication Date: 2026-06-16FUJIAN TECHWORK TEXTILE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUJIAN TECHWORK TEXTILE CO LTD
Filing Date
2025-07-30
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

Traditional jacquard fabrics lack breathability and moisture wicking in high-temperature environments or sports scenarios, have weak visual three-dimensionality, and the cooling effect is not long-lasting.

Method used

The three-dimensional structure of the ice silk cooling jacquard fabric is achieved by interweaving a breathable mesh on the surface layer and a plain weave on the inner layer, combined with ice silk cooling fibers and moisture-wicking fibers to form a continuous moisture-wicking channel and a moisture-absorbing layer. Stable connections are made using joints to enhance the visual three-dimensionality and the durability of the cooling sensation.

🎯Benefits of technology

It achieves rapid moisture wicking and long-lasting coolness, enhances visual three-dimensionality, and balances lightness and durability, making it suitable for summer clothing and sportswear.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to textile technical field provides an ice silk cool jacquard fabric, solves the problem that traditional jacquard fabric exists visual stereoscopic feeling is not strong, the problem that the breathability and moisture permeability are insufficient and cool feeling effect is not lasting, including fabric body, the fabric body includes surface layer and lining, the surface layer and lining are formed three -dimensional structure through jacquard organization integral weaving, the three -dimensional structure includes the relief part and the concave part, the relief part is independently constituted by surface layer yarn, the concave part is constituted by surface layer yarn and lining yarn intertexture, and the relief height is 0.3 1.2mm, and the concave part forms continuous moisture channel.
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Description

Technical Field

[0001] This utility model relates to the field of textile technology, and in particular to an ice silk cool-feel jacquard fabric. Background Technology

[0002] Jacquard fabrics, as an important category in the textile industry, have gained widespread market recognition for their exquisite patterns and rich layers. However, traditional jacquard fabrics still have significant shortcomings in terms of functionality and comfort, especially in high-temperature environments or sports activities, where their application is severely limited. Specifically, existing technologies have the following deficiencies:

[0003] (1) Insufficient breathability and moisture wicking: Traditional jacquard fabrics mostly use a single-layer plain or twill weave, with a flat surface and tightly interwoven yarns, which obstructs air circulation. Sweat accumulates between the skin and the fabric and is difficult to diffuse to the fabric surface for evaporation, easily causing a stuffy and sticky feeling.

[0004] (2) Lack of visual three-dimensionality: Traditional jacquard fabrics are mainly two-dimensional planar structures with no differentiation between the outer and inner yarns, making it difficult to simultaneously meet the dual requirements of "cool touch" and "moisture absorption and quick drying".

[0005] (3) The cooling effect is short-lived and unsustainable: Most existing cooling fabrics add cooling agents (such as menthol, xylitol, etc.) through surface coating or finishing processes. However, these chemicals are easily washed off by washing or friction, causing the cooling effect to decrease significantly with the number of uses. At the same time, the coating may clog the fabric pores, further reducing breathability.

[0006] Chinese Patent Publication No. CN222961679U discloses a nylon elastic jacquard wrinkle-resistant fabric, comprising a plain weave outer fabric and a float-dot jacquard inner fabric. The float-dot jacquard repeat includes a single weft dot and a float. The float-dot jacquard repeat is continuously arranged in the weft direction of the outer fabric and alternately arranged in the warp direction. This nylon elastic jacquard wrinkle-resistant fabric exhibits good wrinkle resistance and high morphological stability. However, the fabric surface is smooth and the yarns are tightly interwoven, resulting in insufficient breathability and moisture wicking.

[0007] Chinese Patent Publication No. CN222846933U discloses a cool-feeling, breathable, and sun-protective clothing fabric with a twisted jacquard structure. The fabric body includes a fabric body comprising weft yarn one, weft yarn two, weft yarn three, and warp yarns. Weft yarn one, weft yarn two, and weft yarn three are all made of 20D / 7f nylon DTY UV-resistant yarn covering 20D spandex elastic fibers, and are woven using a water-jet loom. This fabric not only has good sun protection performance but also a cool and smooth feel, and the resulting garments are breathable and have excellent elasticity for greater comfort. However, this jacquard fabric lacks a strong visual three-dimensional effect. Utility Model Content

[0008] Therefore, in view of the above problems, this utility model provides an ice silk cooling jacquard fabric, which solves the problems of weak visual three-dimensionality, insufficient breathability and moisture wicking, and short-lasting cooling effect of traditional jacquard fabrics.

[0009] To achieve the above objectives, the present invention adopts the following technical solution:

[0010] A cooling jacquard fabric for ice silk includes a fabric body comprising an outer layer and an inner layer. The outer layer and the inner layer are integrally woven together by a jacquard weave to form a three-dimensional structure, which includes a raised texture portion and a recessed texture portion. The raised texture portion is independently composed of the outer layer yarns, and the recessed texture portion is interwoven with the outer layer yarns and the inner layer yarns. The height of the raised texture portion is 0.3-1.2mm, and the recessed texture portion forms a continuous moisture-wicking channel.

[0011] Furthermore: the jacquard weave is a double-layered bonded weave, with the outer and inner layers connected by bond points, and the bond point density is 80-200 per cm. 2 The joints are evenly distributed in the concave part.

[0012] Furthermore, the raised portion of the three-dimensional structure is distributed in a grid-like, wavy, or geometric pattern, while the concave portion forms a continuous moisture-guiding channel.

[0013] Furthermore: the knitting density of the jacquard structure is 15-40 stitches / cm. 2 The interlacing ratio of the outer layer yarn to the inner layer yarn is 1:1.

[0014] Furthermore, the surface yarn is woven using a weft knitting method to form a breathable mesh structure with a mesh diameter of 0.1-0.5mm.

[0015] The breathable mesh structure employs a (1-0 / 1-2 / / ) padding motion, wherein:

[0016] 1-0: The knitting needle rises and leaves the loop, and the yarn is inserted into the needle hook;

[0017] 1-2: The knitting needles descend to form loops, creating a mesh.

[0018] Furthermore, the inner layer yarn is woven with a plain weave to form a moisture-wicking and quick-drying layer, and it forms an interlaced structure with the outer layer yarn in the concave part.

[0019] The moisture-wicking and quick-drying layer uses a reverse symmetrical warp padding yarn movement (front comb GB1: 1-0 / 1-2 / / , back comb GB2: 1-2 / 1-0 / / ), with the two comb yarns interlacing to form a plain weave. The reverse side is covered by the long extension line of the front comb, which improves moisture absorption.

[0020] In the concave section, the outer and inner layers are interwoven in the following way: at the joint, the weft knitted yarn and the plain weave yarn are interlaced in 1-0 / 2-1 / / (weft knitting) and 1-2 / 0-1 / / (plain weave) to form a tight joint.

[0021] Furthermore: the weight of the fabric body is 100g / m². 2 -300g / m 2 .

[0022] Furthermore: the outer layer yarn is composed of a blended yarn of ice silk cooling fiber and moisture-wicking fiber, and the inner layer yarn is composed of a composite yarn of moisture-wicking and quick-drying polyester fiber and elastic fiber.

[0023] The cooling fiber is a modified cellulose fiber with a cross-shaped or Y-shaped cross section and a fineness of 0.8-1.5 denier; the moisture-wicking fiber is a polyester fiber with an irregular cross section; and the elastic fiber is spandex or PTT fiber.

[0024] By adopting the aforementioned technical solution, the beneficial effects of this utility model are as follows:

[0025] 1. The surface yarn is woven with a weft knitting method to create a breathable mesh. It is combined with a blend of ice silk cooling fibers and moisture-wicking fibers, which can achieve a cooling sensation upon contact and accelerate sweat evaporation through the moisture-wicking fibers.

[0026] 2. The inner plain weave structure forms a dense moisture-wicking layer through reverse symmetrical padding yarns. Combined with the irregular cross-sectional structure of the surface moisture-wicking fibers, it achieves a unidirectional moisture-wicking path of rapid sweat absorption → lateral diffusion → longitudinal evaporation. Furthermore, the cross-padded yarn structure at the joints forms a continuous moisture-wicking network, resulting in better moisture wicking performance; at the same time, elastic fibers ensure a comfortable fit against the skin.

[0027] 3. The composite structure of the plain weave inner layer and the weft-knitted outer layer reduces wrinkles, and only simple drying is needed after washing to restore its smoothness; the double-layer structure is stably connected through the joints of the jacquard weave, ensuring long-lasting function and washability; the fabric itself has a three-dimensional structure, enhancing the visual three-dimensional effect.

[0028] 4. The fabric weight balances lightness and durability, making it suitable for various occasions such as summer clothing and sportswear. Attached Figure Description

[0029] Fig. 1 This is a schematic diagram of the structure of the ice silk cooling jacquard fabric in the embodiments of this utility model;

[0030] Fig. 2 This is a motion diagram of the padding yarn in the breathable mesh structure of this utility model embodiment;

[0031] Fig. 3 This is a diagram showing the movement of the padding yarn in the front comb GB1 in this embodiment of the present invention;

[0032] Fig. 4 This is a diagram showing the movement of the padding yarn in the back comb GB2 in this embodiment of the present invention;

[0033] The labels in the diagram are as follows: 1-outer layer, 2-inner layer, 3-outer layer yarn, 4-inner layer yarn. Detailed Implementation

[0034] The embodiment of this utility model is as follows:

[0035] refer to Figs. 1 to 4 A cooling jacquard fabric, comprising a fabric body, the fabric body comprising an outer layer 1 and an inner layer 2, the outer layer 1 and the inner layer 2 being integrally woven together by a jacquard weave to form a three-dimensional structure, the three-dimensional structure comprising a raised texture portion and a recessed texture portion; the raised texture portion is independently composed of the outer layer yarns, the recessed texture portion is composed of the interlacing of the outer layer yarns and the inner layer yarns, the raised texture height is 1.2mm, and the recessed texture portion forms a continuous moisture-wicking channel.

[0036] The jacquard weave is a double-layered jointed weave, with the outer layer 1 and the inner layer 2 connected by joints, and the joint density is 200 per cm. 2 The joints are evenly distributed in the concave sections. The raised sections of the three-dimensional structure are mesh-like, while the concave sections form continuous moisture-wicking channels. The jacquard weave has a stitch density of 40 stitches / cm. 2 The interlacing ratio of the outer layer yarn 3 to the inner layer yarn 4 is 1:1.

[0037] The surface yarn 3 is woven using a weft knitting method to form a breathable mesh structure with a mesh aperture of 0.5mm.

[0038] The breathable mesh structure employs a (1-0 / 1-2 / / ) padding motion, wherein:

[0039] 1-0: The knitting needle rises and leaves the loop, and the yarn is inserted into the needle hook;

[0040] 1-2: The knitting needles descend to form loops, creating a mesh.

[0041] The inner layer yarn 4 is woven with a plain weave to form a moisture-wicking and quick-drying layer, and it forms an interlaced structure with the outer layer yarn 3 in the concave part.

[0042] The moisture-wicking and quick-drying layer uses a reverse symmetrical warp padding yarn movement (front comb GB1: 1-0 / 1-2 / / , back comb GB2: 1-2 / 1-0 / / ), with the two comb yarns interlacing to form a plain weave. The reverse side is covered by the long extension line of the front comb to improve moisture absorption. The front comb GB1 and the back comb GB2 are both threaded through the inner layer yarn 4.

[0043] In the concave section, the outer layer 1 and the inner layer 2 are interwoven in the following way: at the junction, the weft knitted yarn and the plain weave yarn are interlaced in 1-0 / 2-1 / / (weft knitted) and 1-2 / 0-1 / / (plain weave) to form a tight joint.

[0044] The fabric itself has a weight of 100g / m². 2 -300g / m 2 The outer layer yarn 3 is composed of a blended yarn of cooling ice silk fibers and moisture-wicking fibers, while the inner layer yarn 4 is composed of a composite yarn of moisture-wicking and quick-drying polyester fibers and elastic fibers. The cooling ice silk fibers are modified cellulose fibers with a cross-shaped cross-section and a fineness of 1.5 denier; the moisture-wicking fibers are irregularly shaped polyester fibers; the elastic fibers are spandex; and the content of elastic fibers in the inner layer yarn is 15%.

[0045] The ice silk cooling fiber contains nano-cooling powder, which releases a cooling sensation continuously through its irregular cross-sectional structure, maintaining the instant cooling effect even after multiple washes.

[0046] The finishing process for the aforementioned ice silk cool-feel jacquard fabric includes the following steps:

[0047] S1. Heat setting: Pre-setting temperature 185-190℃ (1 minute); Secondary setting at 130℃ to improve dimensional stability;

[0048] S2. Functional finishing: antibacterial and anti-mite treatment, liquid ammonia mercerizing to enhance luster and softness.

[0049] The aforementioned ice silk cool-feel jacquard fabric can be applied to the apparel or home textile industries. In the apparel industry, it can be used for men's jacquard knitwear in summer, and in the home textile industry, it can be used for jacquard ice silk mats.

[0050] 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. A cool-feel jacquard fabric, comprising a fabric body, characterized in that, The fabric body includes a surface layer and an inner layer, which are woven together in a jacquard weave to form a three-dimensional structure. The three-dimensional structure includes a raised texture and a recessed texture. The raised texture is independently formed by the surface yarns, and the recessed texture is formed by the interlacing of the surface yarns and the inner yarns. The height of the raised texture is 0.3-1.2mm, and the recessed texture forms a continuous moisture-wicking channel.

2. The ice silk cool-feel jacquard fabric according to claim 1, characterized in that: The jacquard weave is a double-layered bonded weave, with the outer and inner layers connected by bond points, and the bond point density is 80-200 per cm². 2 The joints are evenly distributed in the concave part.

3. The ice silk cool-feel jacquard fabric according to claim 1, characterized in that: The raised portion of the three-dimensional structure is distributed in a grid-like, wavy, or geometric pattern, while the concave portion forms a continuous moisture-conducting channel.

4. The ice silk cool-feel jacquard fabric according to claim 1, characterized in that: The jacquard weave has a knit density of 15-40 stitches / cm. 2 The interlacing ratio of the outer layer yarn to the inner layer yarn is 1:

1.

5. The ice silk cool-feel jacquard fabric according to claim 1, characterized in that: The surface yarn is woven using a weft knitting method to form a breathable mesh structure with a mesh diameter of 0.1-0.5mm.

6. The ice silk cool-feel jacquard fabric according to claim 1, characterized in that: The inner layer yarn is woven with a plain weave to form a moisture-wicking and quick-drying layer, and it forms an interlaced structure with the outer layer yarn in the concave part.

7. The ice silk cool-feel jacquard fabric according to claim 1, characterized in that: The fabric itself has a weight of 100g / m². 2 -300g / m 2 .

8. The ice silk cool-feel jacquard fabric according to claim 1, characterized in that: The outer layer yarn is composed of a blend of ice silk cooling fibers and moisture-wicking fibers, while the inner layer yarn is composed of a composite yarn of moisture-wicking and quick-drying polyester fibers and elastic fibers.