CN215152539U - Crease-resistant chiffon crepe fabric - Google Patents

Abstract

The utility model provides a crease-resistant crepe chiffon fabric belongs to the fabric field. It is by outer to interior crepe layer, unidirectional strength layer and the check of including chiffon in proper order and compile the layer, unidirectional strength in situ be equipped with a plurality of parallel arrangement's unidirectional strength line, the check compile in situ be equipped with the first braided wire of a plurality of and a plurality of second braided wire, the first braided wire of a plurality of and a plurality of second braided wire twine in proper order in turn. Its advantage lies in increasing the intensity that the check was compiled the layer, has anti-wrinkle effect, and the intraformational a plurality of unidirectional intensity line of unidirectional intensity sets up along fabric level itself, and these also make the fabric kick-back to the level state to the intensity of intensity line self to effective anti-wrinkle.

Description

Crease-resistant chiffon crepe fabric

Technical Field

The utility model belongs to the fabric field especially relates to a crease-resistant chiffon crepe fabric.

Background

The existing fabrics are various in variety, but with the improvement of living standard of people, the requirements of people on the fabrics not only meet the requirements on styles and workmanship, but also meet the requirements on the performance of the fabrics.

The property of the fabric that is plastically bent and deformed to form wrinkles when it is kneaded and pressed is called a wrinkle property. The ability of a fabric to resist such wrinkles is known as wrinkle resistance. Wrinkle resistance generally refers to the degree of recovery from a crease produced by an external force, and is also called wrinkle (crease) recovery. Wrinkle resistance directly affects the appearance and smoothness of the fabric.

For example, the chinese utility model discloses a gigging yarn-dyed real silk jacquard fabric that feels soft [ application No. 201120573873.3], this utility model has increased the travelling comfort of surface fabric, reaches the feel that the pattern is meticulous, the color level is abundant, gloss is graceful, still has soft, warm feel, nevertheless in use or cleaning process, and the surface fabric is stretched easily, has reduced the travelling comfort and has also destroyed decorative effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide an anti-wrinkle chiffon crepe fabric.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides an anti-wrinkle crepe chiffon fabric, by outer to interior crepe chiffon layer, one-way strength layer and check of including in proper order of weaving, one-way strength in situ be equipped with a plurality of parallel arrangement's one-way strength line, the check weave in situ and be equipped with the first braided wire of a plurality of and a plurality of second braided wire, the first braided wire of a plurality of and a plurality of second braided wire twine in turn in proper order.

In foretell crease-resistant chiffon crepe fabric, the first braided wire of a plurality of is parallel to each other and equidistant setting, and the second braided wire of a plurality of is parallel to each other and equidistant setting, and the first braided wire of a plurality of and a plurality of second braided wire twine in turn in proper order and form a plurality of blank.

In the crease-resistant chiffon crepe fabric, the first knitting threads and the second knitting threads are vertical.

In the wrinkle resistant chiffon crepe fabric described above, there are gaps between each adjacent unidirectional strength line.

In the crease-resistant chiffon crepe fabric, each unidirectional strength line is also provided with high stretch yarns.

In the crease-resistant chiffon crepe fabric, the high elastic filaments are spirally wound on the corresponding unidirectional strength lines.

In the crease-resistant chiffon crepe fabric, the high elastic threads on each one of the unidirectional strength lines are intertwined with the high elastic threads on one of the adjacent unidirectional strength lines.

In the crease-resistant chiffon crepe fabric, the two sides of the lattice woven layer are respectively connected with a unidirectional strength layer, and a plurality of unidirectional strength lines on one side of the lattice woven layer are vertical to a plurality of unidirectional strength lines on the other side of the lattice woven layer.

In the crease-resistant chiffon crepe fabric, 45-degree included angles are formed between each first weaving line and the plurality of unidirectional strength lines on the two sides, and 45-degree included angles are formed between each second weaving line and the plurality of unidirectional strength lines on the two sides.

In the crease-resistant chiffon crepe fabric, anti-falling lines are connected among a plurality of unidirectional strength lines in each unidirectional strength layer, and the anti-falling lines are vertical to the connected unidirectional strength lines.

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses the first braided wire of intraformational a plurality of and a plurality of second braided wire are compiled to the check twines together in turn in proper order, increases the intensity that the layer was compiled to the check, has anti-wrinkle effect, and the intraformational a plurality of unidirectional strength line of unidirectional strength sets up along fabric level itself, and these also make the fabric kick-back to the intensity of intensity line self to effective crease-resistant.

2. The utility model discloses the intensity direction that two one-way strength layers and check were compiled the layer and are produced is all different, and the intensity direction that produces along horizontal direction evenly distributed to make the fabric all have crease-resistant ability on all directions, strengthen the crease-resistant ability of fabric.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the connection of a first braided wire and a second braided wire;

FIG. 3 is a schematic view of a high elastic yarn wound on a unidirectional strength cord;

FIG. 4 is a schematic view of the connection between two elastomeric filaments;

fig. 5 is a schematic view of the structure of a unidirectional strength layer.

In the figure: the binding yarn comprises a chiffon crepe layer 10, a unidirectional strength layer 11, a lattice weaving layer 12, unidirectional strength threads 13, second weaving threads 14, blank spaces 15, high elastic threads 16, first weaving threads 17, a thread slipping prevention thread 18 and a binding thread 19.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-5, an anti-wrinkle chiffon crepe fabric sequentially comprises a chiffon crepe layer 10, a unidirectional strength layer 11 and a lattice weaving layer 12 from outside to inside, wherein a plurality of unidirectional strength lines 13 arranged in parallel are arranged in the unidirectional strength layer 11, a plurality of first weaving lines 17 and a plurality of second weaving lines 14 are arranged in the lattice weaving layer 12, and the plurality of first weaving lines 17 and the plurality of second weaving lines 14 are sequentially and alternately wound.

Preferably, the first braided wire 17, the second braided wire 14 and the unidirectional strength wire 13 may be a woven wire or a prevention tape having high strength and not easy to stretch, organic fibers such as aramid fibers, orlon fibers, polyester fibers, nylon fibers, vinylon fibers, polypropylene fibers, polyimide fibers, or inorganic fibers such as carbon fibers, boron fibers, whiskers, asbestos fibers, and metal fibers may be used.

A plurality of first braided wire 17 and a plurality of second braided wire 14 in the check braided layer 12 twine together in proper order in turn, increase the intensity of check braided layer 12, have anti-wrinkle effect, and the fabric is when folding, and the intensity of check braided layer 12 self makes the fabric kick-back to the flat condition. Furthermore, a plurality of unidirectional strength lines 13 in the unidirectional strength layer 11 are horizontally arranged along the fabric, and when the fabric is folded, the strength of the unidirectional strength lines 13 also promotes the fabric to rebound to a flat state, so that wrinkle resistance is effectively realized.

The first braided wire 17 of a plurality of is parallel to each other and equidistant setting, and the second braided wire 14 of a plurality of is parallel to each other and equidistant setting, and the first braided wire 17 of a plurality of and the second braided wire 14 of a plurality of twines in proper order in turn and forms a plurality of blank 15.

In this embodiment, the first knitting yarn 17 and the second knitting yarn 14 are made of fiber, the plurality of second knitting yarns 14 are parallel to each other and are arranged at equal intervals, and the plurality of first knitting yarns 17 are parallel to each other and are arranged at equal intervals, so that the strength of the lattice knitting layer 12 on each part of the fabric is the same, the fabric structure is reasonably distributed, and in addition, the lattice knitting layer 12 is provided with a plurality of spaces 15, so that the fabric has air permeability.

The first braided wire 17 and the second braided wire 14 are perpendicular.

In this embodiment, the first braided wire 17 and the second braided wire 14 are made of fiber, and after the first braided wire 17 and the second braided wire 14 are wound, the strength generated by the lattice-braided layer 12 is mainly concentrated on two perpendicular wires, so that the structure is more stable on one hand, and the strength is distributed in different directions on the other hand.

With a gap between each adjacent unidirectional strength line 13.

In this embodiment, the unidirectional strength threads 13 are made of fiber, and the gaps between adjacent unidirectional strength threads 13 can further provide good air permeability to the fabric.

Each unidirectional strength line 13 is also provided with a high elastic thread 16.

In this embodiment, the unidirectional strength lines 13 are made of fiber, and the high elastic yarns 16 have high elasticity and strength, so as to enhance the strength of the unidirectional strength lines 13, and further enable the fabric to have wrinkle resistance.

The high elastic filament is spirally wound on the corresponding unidirectional strength line 13.

The elastic thread 16 of each unidirectional strength line 13 is intertwined with the elastic thread 16 of one adjacent unidirectional strength line 13.

In this embodiment, the unidirectional strength line 13 is made of a fiber material, and two adjacent high-elastic yarns 16 are entangled with each other, so as to further increase the strength of the high-elastic yarns 16, thereby further increasing the strength of the unidirectional strength line 13 and further enabling the fabric to have anti-wrinkle performance.

The two sides of the lattice weaving layer 12 are respectively connected with a unidirectional strength layer 11, and a plurality of unidirectional strength lines 13 on one side of the lattice weaving layer 12 are vertical to a plurality of unidirectional strength lines 13 on the other side.

In this embodiment, the unidirectional strength lines 13 are made of fiber, and the strength directions generated by the two unidirectional strength layers 11 are perpendicular to each other, so as to improve the wrinkle resistance of the fabric from different directions.

Each first braided wire 17 and the plurality of unidirectional strength wires 13 on both sides have 45 degree included angles, and each second braided wire 14 and the plurality of unidirectional strength wires 13 on both sides have 45 degree included angles.

In this embodiment, the unidirectional strength lines 13 are made of fiber, the first knitting lines 17 and the second knitting lines 14 are made of fiber, the strength directions generated by the two unidirectional strength layers 11 and the lattice knitting layer 12 are different, and the generated strength directions are uniformly distributed along the horizontal direction, so that the fabric has anti-wrinkle capability in all directions, and the anti-wrinkle capability of the fabric is enhanced.

Anti-falling lines 18 are connected among the plurality of unidirectional strength lines 13 in each unidirectional strength layer 11, and the anti-falling lines 18 are vertical to the unidirectional strength lines 13 connected with the anti-falling lines 18.

In this embodiment, the unidirectional strength threads 13 are made of fiber, the anti-separation threads 18 are made of common cotton threads or fine threads, and the plurality of unidirectional strength threads 13 are not in the intertwining knitting style of the lattice-knitted layer 12, so that the anti-separation threads 18 connect the adjacent unidirectional strength threads 13 to prevent the unidirectional strength threads 13 from moving, and the unidirectional strength threads 13 are not uniformly spaced from each other, which results in uneven strength distribution.

Preferably, cotton can be filled between the adjacent unidirectional strength lines 13, so that the heat preservation and warm keeping effects are improved.

Preferably, a binding-wire 19 is wound around each joint of the first braided wire 17 and the second braided wire 14, and the binding-wire forms a cross shape with the first braided wire 17 and the second braided wire 14, so that the first braided wire 17 or the second braided wire 14 can be prevented from sliding in a dislocation manner.

Preferably, the separation-preventing thread 18 may be a nylon stopper having elasticity and strength to further increase the wrinkle resistance of the fabric and maintain the interval between the unidirectional strength threads 13.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms chiffon crepe layer 10, unidirectional strength layer 11, lattice-knit layer 12, unidirectional strength threads 13, second knitting threads 14, blank spaces 15, elastic threads 16, first knitting threads 17, anticreep threads 18, binding threads 19, etc. are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides an anti-wrinkle crepe chiffon fabric, from outer to interior in proper order including crepe chiffon layer (10), unidirectional strength layer (11) and check and compile layer (12), its characterized in that, unidirectional strength layer (11) in be equipped with a plurality of parallel arrangement's unidirectional strength line (13), the check compile layer (12) in be equipped with the first braided wire of a plurality of (17) and a plurality of second braided wire (14), the first braided wire of a plurality of (17) and a plurality of second braided wire (14) twine in turn in proper order.

2. The crease-resistant chiffon crepe fabric according to claim 1, characterised in that a number of first weaving wires (17) are arranged parallel and equidistant to each other, a number of second weaving wires (14) are arranged parallel and equidistant to each other, a number of first weaving wires (17) and a number of second weaving wires (14) are alternately wound in sequence and form a number of spaces (15).

3. The wrinkle resistant chiffon crepe fabric according to claim 2, characterised in that the first weaving threads (17) are perpendicular to the second weaving threads (14).

4. The wrinkle-resistant chiffon crepe fabric according to claim 3, characterised in that there are gaps between each adjacent unidirectional strength line (13).

5. The wrinkle-resistant chiffon-crepe fabric according to claim 4, characterised in that each unidirectional strength line (13) is also provided with a high elastic filament (16).

6. The wrinkle-resistant chiffon crepe fabric according to claim 5, characterised in that the high-elastic filaments are spirally wound on the corresponding unidirectional strength threads (13).

7. The wrinkle-resistant chiffon crepe fabric according to claim 6, characterised in that the filaments (16) of each unidirectional strength line (13) are intertwined with the filaments (16) of one of the adjacent unidirectional strength lines (13).

8. The wrinkle-resistant chiffon crepe fabric according to claim 7, characterised in that the lattice-knitted layer (12) is connected with unidirectional strength layers (11) on both sides, and the unidirectional strength lines (13) on one side of the lattice-knitted layer (12) are perpendicular to the unidirectional strength lines (13) on the other side.

9. The wrinkle-resistant chiffon crepe fabric according to claim 8, characterised in that each first weaving thread (17) has an angle of 45 ° with the unidirectional strength threads (13) on both sides, and each second weaving thread (14) has an angle of 45 ° with the unidirectional strength threads (13) on both sides.

10. The wrinkle-resistant chiffon crepe fabric according to claim 9, characterised in that anti-running threads (18) are connected between the unidirectional strength threads (13) in each unidirectional strength layer (11), and the anti-running threads (18) are perpendicular to the unidirectional strength threads (13) to which they are connected.

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