CN214655527U - High-shrinkage ultra-three-dimensional wrinkled fabric - Google Patents

Abstract

The utility model discloses a high shrink super three-dimensional cockle fabric, including base cloth layer and fold solid layer, fold solid layer connection is in the upper surface on base cloth layer, fold solid layer includes first warp, second warp, first weft, second weft, first warp, second warp and first weft, second weft weave according to the longitude and latitude interval, high shrink polyester thread has been woven between first warp and the second warp, high shrink polyester thread has been woven between first weft and the second weft, first warp and first weft are the individual layer yarn, second warp and second weft are the double-deck yarn. The utility model discloses a first warp and first weft are the individual layer yarn, and second warp and second weft are double-deck yarn, and the interval is woven, has woven the high shrink polyester thread between and for the cloth surface produces the arch after the shrink of high shrink polyester thread, has the third dimension.

Description

High-shrinkage ultra-three-dimensional wrinkled fabric

Technical Field

The utility model relates to the technical field of cloth, concretely relates to super three-dimensional cockle cloth of high shrink.

Background

With the progress of society, the materials of the cloth are more and more widely available, such as: cotton, hemp, wool, silk and the like, and the processing technology is more and more along with the increase of the fabric. People have higher and higher requirements on the appearance of cloth, the pure cotton printed products generally mainly use pure cotton twill or plain weave fabrics, the manufacturing process is generally pigment printing, the hand feeling is poor, the grade and the grade are not high, and gradually people tend to wrinkle cloth with three-dimensional sense.

For example, patent publication No. CN202492659U discloses a yarn-dyed jacquard crepe cloth, which is formed by interweaving warp yarns and weft yarns, wherein the warp yarns are DTY plus stretch yarns, and the weft yarns are formed by twisting 2 bundles of polyester color yarns, 1 bundle of pure polyester and 1 bundle of bright DTY low stretch yarn.

To people's cockle cloth that tends to have the third dimension, the utility model provides a high shrink super three-dimensional cockle cloth.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high shrink is three-dimensional to be wrinkled cloth, the shrink of high shrink dacron line in the high temperature water bath for the cloth surface produces the arch, has the third dimension.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides a high shrink ultra-three-dimensional cockle fabric, includes base cloth layer and fold solid layer, fold solid layer connection is in the upper surface on base cloth layer, fold solid layer includes first warp, second warp, first weft, second weft, first warp, second warp and first weft, second weft weave according to the longitude and latitude interval, it has high shrink polyester thread to weave between first warp and the second warp, it has high shrink polyester thread to weave between first weft and the second weft, first warp and first weft are the individual layer yarn, second warp and second weft are double-deck yarn.

Furthermore, in the technical scheme disclosed in the utility model, a fibroin protective agent is consolidated on the surface of the folded three-dimensional layer. By adopting the technical scheme, the method has the advantages of preventing protein fibers such as real silk fibers from being damaged in the process of processing the wrinkled cloth and improving the integrity of raw material fibers.

Further, in the technical solution disclosed in the present invention, the shrinkage produced by the high shrinkage polyester yarn is irreversible heat shrinkage.

Furthermore, in the technical solution disclosed in the present invention, a high temperature resistant fiber layer is bonded between the base fabric layer and the folded three-dimensional layer. Through adopting above-mentioned technical scheme, play and prevent cloth fibre destroyed effect, prevent that base cloth layer fiber raw materials from taking place deformation because of the high temperature in the high temperature water bath.

Further, in the technical scheme disclosed in the utility model, high temperature resistant fibrous layer adopts one or more in inorganic silicate fiber, fire-retardant resin fiber, the aramid fiber. Through adopting above-mentioned technical scheme, inorganic silicate fiber, fire-retardant resin fiber and aramid fiber all have certain heat-proof quality, arbitrary one or more combine to weave together just can play the protection fibre between base cloth layer and fold stereoscopic layer, prevent that it from taking place the purpose of deformation in the high temperature water bath.

Further, in the technical scheme disclosed in the utility model, heat conduction carbon fiber has been woven to first warp and the inside of first weft. Through adopting above-mentioned technical scheme, heat energy in the high temperature water bath can be transmitted to the heat conduction carbon fiber to make high shrink polyester thread can take place the shrink in the short time, improve machining efficiency.

The utility model has the advantages that: the utility model discloses a first warp and first weft are the individual layer yarn, and second warp and second weft are double-deck yarn, and the interval is woven, has woven the high shrink polyester thread between and for the cloth surface produces the arch after the shrink of high shrink polyester thread, has the third dimension.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a three-dimensional layer weave diagram of the utility model with folds;

FIG. 3 is a connection diagram of first warp threads, second warp threads and high-shrinkage polyester threads;

FIG. 4 is a connection diagram of the first weft, the second weft and the high-shrinkage polyester yarn.

Wherein, 1 base cloth layer, 2 fold three-dimensional layers, 3 first warps, 4 second warps, 5 first wefts, 6 second wefts, 7 high-shrinkage polyester yarns and 8 high-temperature resistant fiber layers.

Detailed Description

The invention is further described with reference to the drawings and the specific embodiments. Those of ordinary skill in the art will be able to implement the invention based on these descriptions. Moreover, the embodiments of the invention described in the following description are generally only some embodiments, but not all embodiments, of the invention. Therefore, all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention shall fall within the protection scope of the present invention.

The utility model provides a high shrink ultra-three-dimensional cockle fabric, includes base cloth layer 1 and fold solid layer 2, fold solid layer 2 is connected in the upper surface of base cloth layer 1, fold solid layer 2 includes first warp 3, second warp 4, first weft 5, second weft 6, first warp 3, second warp 4 and first weft 5, second weft 6 weave according to the longitude and latitude interval, high shrink polyester yarn 7 has been woven between first warp 3 and the second warp 4, high shrink polyester yarn 7 has been woven between first weft 5 and the second weft 6, first warp 3 and first weft 5 are the individual layer yarn, second warp 4 and second weft 6 are double-deck yarn.

Further, in the technical solution disclosed in the present invention, a fibroin protective agent is bonded to the surface of the folded three-dimensional layer 2. By adopting the technical scheme, the method has the advantages of preventing protein fibers such as real silk fibers from being damaged in the process of processing the wrinkled cloth and improving the integrity of raw material fibers.

Further, in the technical solution disclosed in the present invention, the shrinkage generated by the high shrinkage polyester yarn 7 is irreversible heat shrinkage.

Further, in the technical solution disclosed in the present invention, a high temperature resistant fiber layer 8 is bonded between the base fabric layer 1 and the folded three-dimensional layer 2. Through adopting above-mentioned technical scheme, play and prevent cloth fibre destroyed effect, prevent that 1 fibre raw materials of base cloth layer from taking place deformation because of the high temperature in the high temperature water bath.

Further, in the technical scheme disclosed in the utility model, high temperature resistant fibrous layer 8 adopts one or more in inorganic silicate fiber, fire-retardant resin fiber, the aramid fiber. By adopting the technical scheme, the inorganic silicate fiber, the flame-retardant resin fiber and the aramid fiber have certain heat insulation property, and any one or more of the inorganic silicate fiber, the flame-retardant resin fiber and the aramid fiber are combined and woven between the base cloth layer and the folded three-dimensional layer 2 to protect the fibers and prevent the fibers from deforming in a high-temperature water bath.

Further, in the technical solution disclosed in the present invention, the first warp, 3 and the first weft 5 are woven with heat conductive carbon fibers. Through adopting above-mentioned technical scheme, heat energy in the high temperature water bath can be transmitted to the heat conduction carbon fiber to make high shrink polyester thread 7 can take place the shrink in the short time, improve machining efficiency.

In the embodiment, the shrinkage rate of the high-shrinkage polyester yarn 7 in boiling water is higher than 35% -45%, and under the high-temperature water bath environment, the high-shrinkage polyester yarn 7 shrinks, the surface of the cloth bulges, and stereoscopic impression is generated.

In the embodiment, the folded three-dimensional layer 2 is woven at intervals of warp and weft through the first warp 3, the first weft 5, the second warp 4 and the second weft 6, the high-shrinkage polyester yarn 7 is woven between the first warp 3 and the second warp 4, the high-shrinkage polyester yarn 7 is woven between the first weft 5 and the second weft 6, the first warp 3 and the first weft 5 are single-layer yarns, the second yarn 4 and the second weft 6 are double-layer yarns, the thicknesses of the double-layer yarns and the single-layer yarns are different, the high-shrinkage polyester yarn 7 shrinks under the high-temperature water bath environment, the heights of the double-layer yarns and the single-layer yarns are different after the high-shrinkage polyester yarn 7 shrinks, uniform protrusions are generated on the surface of the cloth, and the three-dimensional effect is achieved.

Claims (6)

1. A high-shrinkage ultra-three-dimensional crepe cloth comprises a base cloth layer (1) and a crepe three-dimensional layer (2), wherein the crepe three-dimensional layer (2) is connected with the upper surface of the base cloth layer (1), characterized in that the folded three-dimensional layer (2) comprises first warps (3), second warps (4), first wefts (5) and second wefts (6), the first warp (3), the second warp (4), the first weft (5) and the second weft (6) are woven at intervals of warp and weft, high-shrinkage polyester yarns (7) are woven between the first warps (3) and the second warps (4), a high-shrinkage polyester yarn (7) is woven between the first weft (5) and the second weft (6), the first warp (3) and the first weft (5) are single-layer yarns, and the second warp (4) and the second weft (6) are double-layer yarns.

2. The high-shrinkage ultra-three-dimensional crepe cloth as claimed in claim 1, wherein the surface of the crepe three-dimensional layer (2) is bonded with a fibroin protective agent.

3. The high-shrinkage ultra-three-dimensional crepe cloth according to claim 1, characterised in that the shrinkage produced by the high-shrinkage polyester threads (7) is irreversible heat shrinkage.

4. The high-shrinkage ultra-three-dimensional crepe cloth according to claim 1, characterised in that a high temperature resistant fibre layer (8) is bonded between the base cloth layer (1) and the crepe three-dimensional layer (2).

5. The high-shrinkage ultra-three-dimensional crepe cloth as claimed in claim 4, characterized in that the high temperature resistant fiber layer (8) is made of one or more of inorganic silicate fiber, flame retardant resin fiber and aramid fiber.

6. The high-shrinkage ultra-three-dimensional crepe cloth according to claim 1, characterised in that the first warp threads (3) and the first weft threads (5) are internally woven with heat-conducting carbon fibres.

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