Jacquard fabric with improved three-dimensional effect

By using a loose yarn structure in jacquard fabrics and combining water-soluble fibers and polyester fibers, the problem of insufficient three-dimensional effect in high-density weaving has been solved, achieving a significant three-dimensional effect and diverse effects in high-density jacquard fabrics.

CN224362966UActive Publication Date: 2026-06-16ANTA (CHINA) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANTA (CHINA) CO LTD
Filing Date
2025-05-22
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

In high-density weaving, the yarn tension of existing jacquard fabrics results in insufficient three-dimensional effect, making it difficult to fully express the original design intent. In particular, the free space between yarns is reduced under high weaving density, making it difficult for traditional weaving methods to create sufficient thickness difference and volume.

Method used

The yarn structure is made of a composite yarn using water-soluble fiber as the core yarn and polyester fiber as the cover yarn in the jacquard pattern area. The polyester fiber provides stability during weaving, and the water-soluble fiber is removed in the subsequent wet heat treatment, making the polyester fiber fluffy and forming a three-dimensional protrusion.

Benefits of technology

It creates a significant three-dimensional and tactile effect in high-density fabrics, and combines lustrous silk threads and functional yarns to enhance the visual three-dimensionality and diversity of the fabric, meeting the needs of modern consumers.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses jacquard grey cloth capable of improving the stereoscopic sense of fabric, which comprises a fabric body, the fabric body is formed by interlacing weaving of warp yarn and weft yarn through jacquard organization and has a preset jacquard pattern area, the fabric body adopts fluffy yarn in at least part of warp yarn and / or weft yarn corresponding to the preset jacquard pattern area, the fluffy yarn comprises water-soluble fiber as core yarn and polyester fiber as coating wire, and the polyester fiber is wound or coated on the outer periphery of the water-soluble fiber. The grey cloth provides a material basis for realizing high stereoscopic sense of high-density jacquard fabric.
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Description

Technical Field

[0001] This utility model relates to the field of liquid cooling technology, specifically to a jacquard fabric that can improve the three-dimensionality of the fabric. Background Technology

[0002] Jacquard fabric, as a unique form of textile art, is characterized by the precise interweaving of warp and weft yarns during the weaving process, directly creating three-dimensional patterns and textures on the fabric. Unlike printing or embroidery, these patterns are not applied to the fabric surface but are an integral part of the fabric structure itself. The orderly interweaving and variations in the weight of the warp and weft yarns give jacquard fabric a unique tactile feel and rich layers of light and shadow, making it highly popular with consumers and widely used in clothing, home textiles, and other fields. In current jacquard fabric production practices, designers strive to enhance the floating effect and three-dimensional layering of jacquard patterns through variations in the weave structure, aiming for better visual effects and tactile experience. However, in conventional jacquard weaving processes, to ensure smooth weaving and the basic flatness and dimensional stability of the fabric, both warp and weft yarns need to be interwoven under high tension. This prevalent weaving tension objectively limits the float and bulk of the yarns in the jacquard areas, resulting in a less prominent three-dimensional effect in the final jacquard pattern, making it difficult to fully express the design intent. This deficiency in three-dimensionality caused by weaving tension is particularly pronounced in jacquard fabrics with high warp and weft density. For example, when the fabric weave density reaches or exceeds 200T (threads / inch), the yarns are arranged more tightly, further reducing the free space between them. Under these conditions, traditional jacquard weaving methods struggle to achieve sufficient thickness difference and volume in the jacquard areas, resulting in a significant lack of three-dimensionality on the fabric surface. Utility Model Content

[0003] The purpose of this invention is to overcome the aforementioned defects or problems in the background art and to provide a jacquard fabric that can improve the three-dimensionality of the fabric. This fabric provides a material basis for achieving a high three-dimensionality of high-density jacquard fabric.

[0004] To achieve the above objectives, the present invention adopts the following technical solution:

[0005] Technical Solution 1: A jacquard fabric that can improve the three-dimensionality of the fabric, comprising a fabric body, wherein the fabric body is formed by interlacing warp and weft yarns through a jacquard structure and has a preset jacquard pattern area; the fabric body uses loose yarns in at least a portion of the warp and / or weft yarns corresponding to the preset jacquard pattern area; the loose yarns include water-soluble fibers as core yarns and polyester fibers as covering yarns, wherein the polyester fibers are wrapped or covered around the periphery of the water-soluble fibers.

[0006] Technical Solution 2 based on Technical Solution 1: The weaving density of the fabric body is not less than 200T.

[0007] Technical Solution 3, based on Technical Solution 2: The polyester fibers in the fluffy yarn are twisted.

[0008] Technical Solution 4 based on Technical Solution 3: The water-soluble fibers in the fluffy yarn are selected from one or more of the following groups: polyvinyl alcohol fibers, modified polyvinyl alcohol fibers, polyethylene glycol fibers, oxidized cellulose fibers, or alginate fibers.

[0009] Technical Solution 5 based on Technical Solution 4: The warp and / or weft yarns of the fabric body further include at least one lustrous yarn in the preset jacquard pattern area or non-jacquard pattern area.

[0010] Technical Solution Six based on Technical Solution Five: The luster thread is selected from one or more of the following groups: silk, metal thread, coated thread, Tencel fiber, and Modal fiber.

[0011] Technical solution seven based on technical solution six: the warp and / or weft yarns of the fabric body further include at least one additional functional yarn; the additional functional yarn is selected from one or more of the group consisting of antibacterial yarn, antistatic yarn, tension-resistant yarn, and abrasion-resistant yarn.

[0012] Technical solution eight based on technical solution seven: the antibacterial yarn is bamboo charcoal fiber yarn, the antistatic yarn is conductive fiber yarn, the tension-resistant yarn is nano carbon fiber yarn, and the wear-resistant yarn is polyurethane fiber yarn.

[0013] Technical solution nine based on technical solution eight: The preset jacquard pattern is formed on one or both sides of the fabric body.

[0014] As can be seen from the above description of this utility model, compared with the prior art, this utility model has the following beneficial effects:

[0015] Technical Solution 1 defines a jacquard greige fabric that provides the foundation for the subsequent formation of high-density jacquard fabrics with a significant three-dimensional effect. The fabric body forms pre-designed jacquard pattern areas through a jacquard weave, in which special bulky yarns are used in the warp or weft yarns. These bulky yarns consist of a water-soluble fiber as the core yarn and polyester fibers as the cover yarn, with the polyester fibers attached to the periphery of the water-soluble fibers in a winding or covering manner. During the weaving of the jacquard greige fabric and at this stage, the water-soluble core yarn plays a crucial temporary supporting role. It allows the polyester cover yarn to maintain a stable shape and necessary tension during weaving, ensuring that even if the polyester fibers themselves are relatively soft or fine, they can be smoothly and accurately woven into the fabric structure, thereby guaranteeing the clarity and accuracy of the pre-designed jacquard pattern. When this jacquard greige fabric enters subsequent wet-heat finishing processes, such as washing or dyeing, the water-soluble core yarn dissolves in water and is completely removed. With the disappearance of the core yarn, the space it previously occupied is released. In the greige stage, polyester covered yarns, supported by water-soluble core yarns and in a specific winding or covering state, lose their internal constraints. Due to their inherent elastic recovery characteristics and the stress that may accumulate during the composite process, polyester fibers undergo morphological reconstruction, naturally relaxing, bending, or expanding at the original core yarn position, thus forming a more voluminous and fluffy structure at the yarn level. Since these fluffy yarns are purposefully placed in the pre-set jacquard pattern areas of the fabric body, this fluffing of polyester fibers is correspondingly limited to these areas. At the macroscopic level, the yarns in these areas appear fuller due to increased volume, forming a physical height difference relative to the base of the fabric, thereby producing a clear and significant three-dimensional effect in the final fabric both visually and tactilely. Therefore, this technical solution, through the structural combination of water-soluble fibers and polyester fibers within the fluffy yarns, and the characteristic layout of these fluffy yarns in jacquard fabrics, provides a reliable structural premise and material basis for achieving enhanced three-dimensionality in the final fabric.

[0016] In technical solution two, the weaving density of the fabric body is further limited to no less than 200T. Generally, high weaving density means a tighter fabric structure and finer yarn arrangement. While this results in a delicate hand feel and good strength, it also makes creating a significant three-dimensional effect in such fabrics more challenging, as the reduced gaps between yarns limit the space for yarn deformation and displacement. However, by adopting the jacquard fabric structure defined in this technical solution, effective Z-direction protrusions can still be formed in the jacquard pattern area through the removal of water-soluble core yarns from the bulky yarns and the bulking of the polyester covering yarns. This allows the prepared jacquard fabric, after subsequent finishing, to possess both the delicate, smooth, and strong advantages unique to high-density fabrics, as well as the excellent three-dimensional effect obtained through this invention.

[0017] In Technical Solution 3, the polyester fibers in the bulky yarn are further specified to undergo a twisting treatment. Twisting the polyester fibers firstly improves their cohesion, reduces fuzz, and enhances their stability and abrasion resistance during the winding or wrapping of the water-soluble core yarn. It also improves the overall strength and spinnability of the bulky yarn during weaving. Furthermore, the twisting treatment imparts a certain degree of twist and potential torsional recovery to the polyester fibers. When the water-soluble core yarn is removed in subsequent processes, the original twist of these twisted polyester fibers, during the relaxation and fluffing process, causes them to form more regular, uniform, or specifically shaped curls, such as exhibiting a tiny spiral structure, rather than a simple, disordered, loose state. This morphological order makes the final three-dimensional effect more visually refined and stable, and the tactile feel may also become more unique.

[0018] Technical Solution Four further specifies the types of water-soluble fibers in the bulky yarn. These fibers can be reliably and completely dissolved and removed under specific, usually mild, conditions during subsequent wet heat treatment processes, thereby ensuring that the polyester covered yarn can successfully form the desired bulky structure. At the same time, the dissolution process of these water-soluble fibers has little impact on the properties of the polyester fibers and will not cause unnecessary damage.

[0019] In technical solution five, the focus is further on protecting the lustrous threads on the fabric itself. When lustrous threads coexist with a three-dimensional jacquard pattern formed by loose yarns, the lustrous threads, due to their smooth and flat surface, can effectively reflect external light, creating a more concentrated mirror reflection or mercerizing effect. In contrast, the three-dimensional area formed by the loose yarns, due to its loose structure and irregular surface, produces more diffuse reflection or creates variations in light and shadow. This contrast between the lustrous area and the textured area makes the outline of the jacquard pattern clearer and the three-dimensional layering more prominent.

[0020] In technical solution six, the specific types of lustrous yarns are further defined, ensuring that the fabric, while possessing excellent three-dimensionality, can also present the expected rich and diverse lustrous effects and high-quality feel.

[0021] In technical solution seven, the warp and / or weft yarns of the fabric body are further defined to include at least one additional functional yarn. By scientifically weaving these functional yarns into the fabric structure, the final fabric can better meet the needs of modern consumers for health, comfort, safety, durability and other performance aspects.

[0022] Technical solution eight further specifies the specific material composition of the additional functional yarn. By employing these specific functional fiber materials, the stable performance and lasting effectiveness of the additional functions can be ensured, giving the final fabric a solid material foundation and reliable performance guarantee for its functionality.

[0023] In technical solution nine, the pre-set jacquard pattern is further limited to being formed on one or both sides of the fabric body, which increases the design flexibility and application diversity of jacquard greige fabric and its final fabric. Attached Figure Description

[0024] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the following description of the embodiments will be briefly introduced. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0025] Figure 1 This is a schematic diagram of the structure of the jacquard fabric that can improve the three-dimensionality of the fabric according to an embodiment of the present utility model.

[0026] Figure 2 for Figure 1 A schematic diagram of the structure of medium-loose yarn.

[0027] Explanation of key figure labels:

[0028] Weft yarn 1; warp yarn 2; core yarn 3a; covering yarn 3b. Detailed Implementation

[0029] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are preferred embodiments of the present utility model and should not be considered as excluding other embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0030] Unless otherwise expressly defined, the use of terms such as "first," "second," or "third" in the claims, description, and drawings of this utility model is for distinguishing different objects and not for describing a specific order.

[0031] Unless otherwise expressly defined, in the claims, description, and accompanying drawings of this utility model, the use of directional terms such as "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," and "counterclockwise" to indicate orientation or positional relationships is based on the orientation and positional relationships shown in the accompanying drawings and is only for the convenience of describing this utility model and simplifying the description. It does not indicate or imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore should not be construed as limiting the specific protection scope of this utility model.

[0032] Unless otherwise expressly defined, the terms "fixed connection" or "fixed connection" used in the claims, description and drawings of this utility model shall be interpreted broadly to refer to any connection in which there is no displacement or relative rotation relationship between the two parties, including non-removable fixed connection, detachable fixed connection, integral connection and fixed connection through other devices or components.

[0033] In the claims, description and accompanying drawings of this utility model, the terms "comprising", "having", and variations thereof are used to mean "including but not limited to".

[0034] Terminology Definition

[0035] In the description of this utility model, unless otherwise expressly specified and limited, the following terms have the following meanings:

[0036] Jacquard greige fabric: As described in this utility model, it is a fabric containing specific bulky yarns formed by interlacing warp and weft yarns through a jacquard weave. Here, "greige fabric" specifically refers to the state of the fabric before undergoing a wet heat treatment process to remove water-soluble fibers from the bulky yarns; it is a semi-finished product or precursor fabric for manufacturing a fabric with a final three-dimensional feel.

[0037] Fabric body: refers to the main structural part that makes up the jacquard fabric, which is woven from warp and weft yarns according to a preset weave pattern and carries the jacquard pattern and various functional yarns.

[0038] Fluffy yarn: Refers to the special composite yarn used in this invention to create a three-dimensional effect on the final fabric. In its state as a component of jacquard fabric, this yarn consists of water-soluble fibers as the core yarn and polyester fibers as the covering yarn, wherein the polyester fibers are wrapped or wrapped around the periphery of the water-soluble fibers. This structural design allows the polyester covering yarn to form a fluffy, large-volume structure after the water-soluble core yarn is removed.

[0039] Water-soluble fiber: refers to fibrous materials that can dissolve in water and be removed from fabrics under specific temperature and / or chemical auxiliary conditions. In this invention, it serves as the core yarn of a bulky yarn, temporarily supporting the polyester covering yarn during the weaving process and the greige fabric stage, and is removed during subsequent wet heat treatment.

[0040] Polyester fiber: refers to synthetic fiber made primarily from polyethylene terephthalate or its copolymers. In this invention, it serves as the covering yarn for the bulky yarn, and is the main material that ultimately forms the bulky three-dimensional structure on the fabric.

[0041] Weave density: This refers to the number of warp or weft yarns per unit length of fabric, usually expressed in units such as "T" or "yarns / inch". It reflects the tightness of the fabric and the fineness of the yarn arrangement. For example, 200T usually means that the sum of the warp and weft yarns per square inch is 200, or specifically refers to the warp or weft density. In this specification, unless otherwise specified, it generally refers to the tightness of the fabric.

[0042] Three-dimensionality: refers to the visual and tactile characteristics of the final fabric, including its uneven texture, thickness, and layering. In this invention, it is mainly achieved through the Z-shaped raised structure formed by the loose yarn after the water-soluble core yarn is removed.

[0043] Moist heat treatment: refers to a treatment process applied to textiles under conditions containing moisture and at a certain temperature. In the context of this utility model, it specifically refers to a finishing process used to dissolve and remove water-soluble fiber core yarns from the loose yarns in jacquard fabrics, such as washing, dyeing, or specific water bath treatment processes.

[0044] Z-axis protrusion: refers to the physical bulge or height difference formed by fluffy yarns relative to the fabric base surface in the normal direction (i.e., the Z-axis direction) of the fabric plane (usually defined as the XY plane), and is the main structural feature that constitutes the three-dimensionality of the fabric.

[0045] Example

[0046] This utility model embodiment relates to a jacquard greige fabric that can improve the three-dimensionality of the fabric. This jacquard greige fabric is an intermediate product of jacquard fabric production, which can be processed through finishing processes to form the desired jacquard fabric. In this embodiment, the finishing process includes a wet heat treatment process, the purpose of which is to remove water-soluble fibers from the jacquard greige fabric.

[0047] Reference Figure 1This embodiment relates to a jacquard fabric that can improve the three-dimensionality of the fabric, which includes a fabric body. The fabric body is formed by interlacing warp yarns 2 and weft yarns 1 through a jacquard structure and has a preset jacquard pattern area. The fabric body uses loose yarns in at least a portion of the warp yarns 2 and / or weft yarns 1 corresponding to the preset jacquard pattern area. The loose yarns include water-soluble fibers as core yarns 3a and polyester fibers as covering yarns 3b. The polyester fibers are wrapped or covered around the periphery of the water-soluble fibers.

[0048] The jacquard fabric includes a fabric body, which is formed by conventional textile processes using warp yarns 2 and weft yarns 1 interlaced on a jacquard loom with a preset jacquard weave. The jacquard weave is chosen to form preset jacquard pattern areas on the fabric body, which are the key areas for subsequent three-dimensional effects. The conventional warp yarns 2 and weft yarns 1 constituting the fabric body can be selected according to the requirements of the final product. For example, polyester filament, cotton yarn, viscose fiber yarn, or their blended yarns of 50 to 150 denier can be used. Furthermore, in this fabric body, at least in at least a portion of the warp yarns 2 and / or weft yarns 1 corresponding to the preset jacquard pattern areas, special bulky yarns are used. This means that bulky yarns can be used only for the jacquard portion of the weft yarns 1, or only for the jacquard portion of the warp yarns 2, or both for the jacquard portion of the warp and weft yarns 1, to achieve different three-dimensional effects and designs. In addition, in this embodiment, the weave density of the fabric body is set to not less than 200T. For example, the warp yarn density 2 can be set to 110 threads / inch, the weft yarn density 1 to 100 threads / inch, and the total density to 210T. The purpose of this embodiment is to give the high-density jacquard fabric a better three-dimensional feel.

[0049] Reference Figure 2 This fluffy yarn is a composite yarn, specifically composed of a water-soluble fiber as the core yarn 3a and a polyester fiber as the cover yarn 3b. The polyester fiber is bonded to the periphery of the water-soluble fiber by tightly winding or uniformly covering it. This composite yarn can be prepared using conventional covering machines or doubling machines. For example, the water-soluble fiber is fed in as the core yarn, and the polyester fiber, as the cover yarn 3b, is wound around the surface of the core yarn at a certain tension and speed. During winding, care should be taken to maintain appropriate tightness and uniformity to ensure the supporting role of the water-soluble fiber during weaving and the subsequent uniform fluffiness of the polyester fiber.

[0050] As the water-soluble fiber of the core yarn 3a, its main function is to provide support during weaving and is removed in subsequent wet heat treatment. Therefore, its material selection needs to consider its water solubility and a certain mechanical strength. In this embodiment, the water-soluble fiber can be selected from one or more of the following groups: polyvinyl alcohol fiber, modified polyvinyl alcohol fiber, polyethylene glycol fiber, oxidized cellulose fiber, or alginate fiber. For example, polyvinyl alcohol fiber (PVA fiber) that can dissolve well in warm water at 60°C to 90°C can be selected, and its linear density can be 30 denier to 100 denier. Selecting PVA fibers with different dissolution temperatures can adapt to different finishing process requirements. As an alternative, if specific dissolution conditions are required, such as dissolution in an alkaline solution, alginate fiber can be considered.

[0051] The polyester fiber used as the covering yarn 3b in the fluffy yarn is the main material that ultimately forms the fluffy three-dimensional structure. Polyester fiber has good strength, abrasion resistance, and morphological stability. In this embodiment, polyester filaments with a linear density of 50 to 150 denier can be selected, preferably high-elastic polyester yarn (such as DTY yarn), because high-elastic yarn itself has a certain crimping and fluffing potential, and it is easier to form a full and fluffy effect after the water-soluble core yarn 3a is removed. In order to optimize the performance of polyester fiber in the fluffy yarn and its final fluffy morphology, in this embodiment, the polyester fiber is preferably subjected to twisting treatment. For example, 75 denier high-elastic polyester yarn can be treated with S-twist or Z-twist, and the twist is controlled at 300 to 600 twists / meter. Twisting treatment can improve the cohesion of polyester fiber, reduce hairiness, and enhance its strength and stability in the compounding and weaving process. Meanwhile, the torsional stress imparted by twisting helps the polyester fibers form a more uniform and elastic crimp after the removal of the water-soluble core yarn 3a, thus resulting in a better fluffy effect.

[0052] In this embodiment, at least one lustrous thread can be introduced into the weft yarns 1 of the fabric body, in a preset jacquard pattern area or a non-jacquard pattern area. For example, lustrous threads can be woven in alternately or mixed with loose yarns in the outline or background of the jacquard pattern. The lustrous thread can be selected from one or more of the following groups: silk, metallic thread, coated thread, Tencel fiber, and Modal fiber. For example, 50 denier bright trilobal polyester filament can be used as the lustrous thread, or 20 / 22 denier mulberry silk can be used to increase natural luster and soft hand feel. Metallic threads such as gold and silver threads (usually cut from a polyester film coated with aluminum) can also be used in small amounts to create a shimmering effect.

[0053] Furthermore, in this embodiment, at least one additional functional yarn can be included in the warp yarns 2 and / or weft yarns 1 of the fabric body. This additional functional yarn can be selected from one or more of the following groups: antibacterial yarn, antistatic yarn, tension-resistant yarn, and abrasion-resistant yarn. For example, abrasion-resistant yarn can be mixed into the conventional warp yarns 2 constituting the fabric body at a certain proportion (e.g., 10% to 30%) to improve the fabric's durability. Alternatively, antibacterial yarn can be woven into the weft yarns 1, particularly in non-jacquard areas. Specifically, the materials of the additional functional yarn in this embodiment can be selected as follows: the antibacterial yarn can be bamboo charcoal fiber yarn, such as 100 denier bamboo charcoal polyester yarn made by blending nano-sized bamboo charcoal powder with polyester chips. The antistatic yarn can be conductive fiber yarn, such as composite yarn made by mixing 1% to 3% stainless steel short fibers or carbon fibers into polyester or nylon. The tension-resistant yarn can be nano-carbon fiber yarn, for example, prepared by introducing carbon nanotubes into high-strength fibers through a specific process. Abrasion-resistant yarns can be made of polyurethane fibers, such as high-strength abrasion-resistant modified nylon fibers or specific types of coated spandex yarns.

[0054] In this embodiment, the preset jacquard pattern can be formed on one or both sides of the fabric through the program control of the jacquard loom. If it is single-sided jacquard, the bulky yarns mainly form floats and patterns on one side of the fabric, so that the three-dimensional effect is mainly reflected on the front side of the fabric. If it is double-sided jacquard, the bulky yarns participate in forming the pattern on both sides of the fabric, thus obtaining a fabric with a three-dimensional effect on both sides after subsequent processing.

[0055] Through the above structural design, this embodiment provides a special jacquard fabric. After subsequent wet heat treatment (e.g., washing in water at 60°C to 95°C, with the specific temperature and time determined based on the solubility characteristics of the selected water-soluble fibers), the water-soluble core yarn 3a in the bulky yarns will be completely dissolved and removed. The polyester covering yarn 3b, having lost the support of the core yarn 3a, will become sufficiently fluffy due to its own elasticity, twisting stress, and potential curl formed during lamination, extending within the space previously occupied by the water-soluble fibers to form a structure with a large volume and porosity. Because these fluffy yarns are precisely arranged in the jacquard pattern areas, these areas will form a distinct Z-shaped protrusion relative to the fabric substrate, thus giving the final fabric an excellent, pre-designed three-dimensional feel. By combining the use of lustrous yarns and functional yarns, high-quality jacquard fabrics that combine aesthetics, functionality, and a unique tactile feel can be produced.

[0056] The foregoing description of the specifications and embodiments is intended to explain the scope of protection of this utility model, but does not constitute a limitation on the scope of protection of this utility model. Modifications, equivalent substitutions, or other improvements to the embodiments of this utility model or a portion thereof that can be obtained by those skilled in the art through logical analysis, reasoning, or limited experimentation, based on the teachings of this utility model or the foregoing embodiments, should all be included within the scope of protection of this utility model.

Claims

1. A jacquard greige fabric that can enhance the three-dimensional effect of a fabric, characterized in that, The fabric body is formed by interlacing warp yarns (2) and weft yarns (1) through a jacquard weave and has a predetermined jacquard pattern area; the fabric body uses bulky yarns in at least a portion of the warp yarns (2) and / or weft yarns (1) corresponding to the predetermined jacquard pattern area; the bulky yarns include water-soluble fibers as core yarns (3a) and polyester fibers as covering yarns (3b), the polyester fibers being wrapped around or covering the periphery of the water-soluble fibers.

2. The jacquard greige fabric that can improve the three-dimensionality of the fabric as described in claim 1, characterized in that, The weaving density of the fabric body is not less than 200T.

3. The jacquard greige fabric that can improve the three-dimensionality of the fabric as described in claim 2, characterized in that, The polyester fibers in the fluffy yarn are twisted.

4. The jacquard greige fabric that can improve the three-dimensionality of the fabric as described in claim 3, characterized in that, The water-soluble fibers in the fluffy yarn are selected from one or more of the following groups: polyvinyl alcohol fibers, modified polyvinyl alcohol fibers, polyethylene glycol fibers, oxidized cellulose fibers, or alginate fibers.

5. The jacquard greige fabric as described in claim 4, characterized in that, In the warp yarns (2) and / or weft yarns (1) of the fabric body, at least one lustrous yarn is also included in the preset jacquard pattern area or non-jacquard pattern area.

6. The jacquard greige fabric as described in claim 5, characterized in that, The lustrous yarn is selected from one or more of the following groups: silk, metal wire, coated yarn, Tencel fiber, and Modal fiber.

7. The jacquard greige fabric that can improve the three-dimensionality of the fabric as described in claim 6, characterized in that, The warp yarns (2) and / or weft yarns (1) of the fabric body further include at least one additional functional yarn; the additional functional yarn is selected from one or more of the group consisting of antibacterial yarn, antistatic yarn, tension yarn, and abrasion-resistant yarn.

8. The jacquard fabric for improving the three-dimensionality of a fabric as described in claim 7, characterized in that, The antibacterial yarn is bamboo charcoal fiber yarn, the antistatic yarn is conductive fiber yarn, the tension-resistant yarn is nano-carbon fiber yarn, and the abrasion-resistant yarn is polyurethane fiber yarn.

9. The jacquard greige fabric as described in claim 1, characterized in that, The preset jacquard pattern is formed on one or both sides of the fabric body.