CN216514405U - Stripping printed cotton-flax fabric - Google Patents

Abstract

The utility model discloses a discharge printing cotton and linen fabric, relates to the textile technology, and aims to solve the problems that once the cotton and linen fabric is used as clothes, the cotton and linen fabric used as clothes is usually thicker and the ventilation effect of the cotton and linen fabric is also reduced linearly, and the technical scheme is as follows: including the surface course, the protruding net of one side fixedly connected with of surface course, the area of protruding net is in the fourth to the half of surface course area, just form the depressed part that a plurality of even intervals set up between protruding net and the surface course. The utility model can ensure good ventilation effect and comfort through the cotton-flax material.

Description

Stripping printed cotton-flax fabric

Technical Field

The utility model relates to a textile technology, in particular to a stripping printing cotton and linen fabric.

Background

The cotton-flax is a textile made of cotton and flax which are warm plants, are respectively harvested from the seeds of cotton and castor-oil plant, and then the cotton and flax are dried in the sun, threshed by a machine, decomposed into seeds and cotton-flax parts, pressed by the machine, spun into threads, cloth and finally dyed to obtain the finished product.

The cotton and linen fabric mainly uses the air permeability as a main selling point, but once the cotton and linen fabric is used as clothes, the cotton and linen fabric used as clothes is usually thick in order to ensure the perspective-proof effect, and the air permeability effect is also reduced linearly.

Therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide the stripping printed cotton and linen fabric, which can ensure good ventilation effect and comfort through the cotton and linen material.

The technical purpose of the utility model is realized by the following technical scheme: the utility model provides a discharge printing cotton-flax fabric, includes the surface course, one side fixedly connected with protruding net of surface course, the area of protruding net is in the fourth to half of surface course area, just form the depressed part that a plurality of even intervals set up between protruding net and the surface course.

Through adopting above-mentioned technical scheme, through setting up protruding net to when making this surface fabric use as the clothing, can contact with the surface of protruding net with human body, reduce area of contact between human body and the surface fabric then, avoid the surface fabric to contact with the human body for a long time and make people feel sultry, simultaneously because the setting of protruding net, make it can make the surface fabric keep thin thick evenly spaced state, make thick position can evenly be in the light, avoid the surface fabric printing opacity.

The utility model is further configured to: the surface layer and the convex net are of an integrally formed structure, the surface layer is of a plain weave, and the convex net is of a variable mesh weave.

The utility model is further configured to: the number of meshes of the convex net and the number of traction wefts of the convex net are both 10.

By adopting the technical scheme, the mesh warp number and the traction weft number of the convex net are 10, so that the woven convex net is not contacted with a human body by a single yarn, but the contact area of the woven convex net and the human body is properly increased, and people are more comfortable when in contact.

The utility model is further configured to: the variable mesh tissue is 9-page healds and consists of a nineteen upper and lower weft surface tissue, a fourteen upper and lower weft surface tissue, a twenty six upper and lower warp surface tissue, a sixteen upper and fifteen lower warp surface tissue, a sixteen lower and fifteen upper and fifteen lower weft surface tissue, a sixteen upper and fifteen lower warp surface tissue, a twenty six upper and five lower warp surface tissue, a fourteen upper and seventeen lower weft surface tissue and a nineteen lower and twelve upper weft surface tissue from left to right.

The utility model is further configured to: the first mesh warp tissue point of the variable mesh tissue is six one after another, one above another, seven after another, six above one below another, the second mesh warp organization points of the variable mesh organization are seven, one above the other, three below the other, one above the other, the third mesh warp tissue point of the variable mesh tissue is thirteen, five, lower and thirteen, the fourth mesh warp tissue point of the variable mesh tissue is fifteen, one above another, one below another, the fifth mesh warp tissue point of the variable mesh tissue is fifteen, one above the other, one below the other, the sixth mesh warp tissue point of the variable mesh tissue is fifteen, one above the other, the seventh mesh warp tissue point of the variable mesh tissue is thirteen-upper, five-lower, thirteen-upper, the eighth mesh warp tissue point of the variable mesh tissue is seven-upper, three-lower, seven-lower, one-upper, the ninth mesh warp tissue point of the variable mesh tissue is six one after another, one above another, seven after another, six above one below another.

Through adopting above-mentioned technical scheme, weave the structure through the aforesaid to make people can be through integrated into one piece's protruding net and surface course, make the surface fabric have better wholeness.

The utility model is further configured to: the variable mesh weave and the plain weave are both woven by composite yarns.

The utility model is further configured to: the composite yarn comprises a core layer and an outer covering wire spirally interwoven and wound on the outer side of the core layer.

The utility model is further configured to: the core layer is formed by false twisting a plurality of core wires, and the core wires are formed by twisting two viscose fibers.

By adopting the technical scheme, the core layer has better water absorption, ventilation and moisture dissipation effects through the viscose fibers, and the fabric has better elasticity.

The utility model is further configured to: the outer covering wire is formed by twisting two cotton and linen yarns.

In conclusion, the utility model has the following beneficial effects:

through setting up protruding net to when making this surface fabric use as the clothing, can contact with the surface of protruding net with human, reduce area of contact between human and the surface fabric then, avoid the surface fabric to contact with the human body for a long time and make people feel sultry, simultaneously because the setting of protruding net, make it can make the surface fabric keep the evenly spaced state of thin thickness, make thick position can evenly be in the light, avoid the surface fabric printing opacity.

Drawings

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

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is a second schematic structural view of the present invention;

FIG. 4 is an enlarged view at B in FIG. 3;

FIG. 5 is a mesh organization chart of the present invention;

FIG. 6 is a section view of a composite yarn of the present invention.

In the figure: 1. a surface layer; 2. a convex net; 3. a recess; 4. air holes are formed; 5. a core layer; 6. a core wire; 7. viscose fibers; 8. wrapping the wire; 9. cotton and linen yarns.

Detailed Description

The utility model is described in detail below with reference to the figures and examples.

Example (b):

a discharge printing cotton and linen fabric comprises a surface layer 1, wherein a convex net 2 is fixedly connected to one side of the surface layer 1, the area of the convex net 2 is one fourth to one half of the area of the surface layer 1, a plurality of concave parts 3 are formed between the convex net 2 and the surface layer 1 and are evenly arranged at intervals, and a plurality of air holes 4 are formed in the surface layer 1.

Surface course 1 and protruding net 2 are integrated into one piece structure, and surface course 1 is plain weave, and protruding net 2 is the change mesh tissue.

As shown in fig. 5, the mesh warp number and the number of the drawing wefts of the convex net 2 are 10, the mesh-changing structure is 9-page heddle, the mesh-changing structure is composed of a nineteen upper and lower twelve weft-surface structure, a fourteen upper and seventeen lower weft-surface structure, a twenty-six upper and five lower warp-surface structure, a sixteen upper and fifteen lower warp-surface structure, a sixteen lower fifteen upper and fifteen lower weft-surface structure, a twenty-six upper and five lower warp-surface structure, a fourteen upper and seventeen lower weft-surface structure, and a nineteen lower twelve upper and twelve weft-surface structure from left to right, the first mesh warp-changing structure point of the mesh-changing structure is six, one, seven, one, two, three, one, the second mesh warp-point of the mesh-changing structure is seven, one, three, one, three mesh warp-point of the mesh-changing structure is thirteen, one, five, one, three mesh warp-mesh warp-mesh structure points are thirteen, the fourth mesh warp tissue points of the change mesh tissue are fifteen on one, one above another and one below one, the fifth mesh warp tissue points of the change mesh tissue are fifteen on one above one below one, the sixth mesh warp tissue points of the change mesh tissue are fifteen on one above one below one, the seventh mesh warp tissue points of the change mesh tissue are thirteen on one, five below one, thirteen above one, eight mesh warp tissue points of the change mesh tissue are seven on one above one, three below one, seven on one below one, and one above one, and nine mesh warp tissue points of the change mesh tissue are six on one below one, one above one, seven below one, six above one, six below one.

As shown in fig. 6, both the mesh-changing weave and the plain weave are woven by composite yarns, each of which includes a core layer 5 and an outer covering 8 spirally interlaced and wound around the outer side thereof, the core layer 5 is formed by false twisting a plurality of core wires 6, the core wires 6 are formed by twisting two viscose fibers 7, and the outer covering 8 is formed by twisting two cotton and linen yarns 9.

When people need to obtain the fabric, firstly, two viscose fibers 7 can be fed into a twisting machine to be twisted, then core wires 6 are obtained, a plurality of viscose fibers are false-twisted through a two-for-one twisting false twisting machine to obtain a core layer 5, two cotton and linen yarns 9 are twisted through a twisting machine to obtain outer covered yarns 8, and the two outer covered yarns 8 are wound on the outer side of the core layer 5 through a ring spinning machine to obtain the composite yarn.

Five composite yarns are used as mesh warps and five composite yarns are used as traction wefts, a plurality of composite yarns are fed into a water jet loom together according to a one-over-one-under plain weave, at the moment, in order to enable the mesh warps to better float on the surface, when reeding is carried out, the mesh warps and the warps of the plain weave are penetrated into the same reed dent, the mesh warps and the traction wefts are arranged into six one-over-one-seven-over-one-under-one, the first mesh tissue points of the mesh weave are arranged into six one, one-over-seven, one-over-one, the second mesh tissue points of the mesh weave are arranged into seven one-over-one, one-over-one-under-three, one-over-seven-over-one-under-one, the third mesh tissue points of the mesh weave are arranged into thirteen-over-five mesh warp tissue points, one-over-one-over-under-over-one tissue points, the fifteen mesh weave points are arranged into fifteen mesh weave points, and carrying out spray weaving in a manner that the seventh mesh warp tissue point for changing the mesh tissue is over thirteen, over five, under thirteen, the eighth mesh warp tissue point for changing the mesh tissue is over seven, over one, under three, over seven, under one, and over seven, over one, and the ninth mesh warp tissue point for changing the mesh tissue is over six, over one, over seven, under six, over one, so as to obtain a surface layer 1 and an integrally formed convex net 2, and finally forming air holes 4 on the surface layer 1 to obtain the fabric.

When this surface fabric uses as the clothing, the even interval setting of the sunken department 3 that forms between protruding net 2 and the surface course 1, thereby make the surface fabric keep thickness spaced state, and the part of thickness distributes evenly, so make the surface fabric be difficult for the printing opacity, and in the position at sunken department 3 place, a plurality of bleeder vents 4 have been seted up on the surface course 1, make the surface fabric ventilation effect can strengthen, simultaneously, one side at protruding net 2 place is towards human one side, can reduce the area of surface fabric and human contact through protruding net 2 and sunken department 3, then avoid the surface fabric to cover human body's body surface for a long time and lead to people to feel vexed heat, so make this surface fabric have splendid prevent light permeability and ventilative effect.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (9)

1. The utility model provides a discharge printing cotton-flax fabric which characterized in that: including surface course (1), one side fixedly connected with protruding net (2) of surface course (1), the area of protruding net (2) is in the fourth to half of surface course (1) area, just form between protruding net (2) and surface course (1) the depressed part (3) that a plurality of even intervals set up.

2. The discharge printing cotton and linen fabric as claimed in claim 1, wherein: surface course (1) and protruding net (2) are integrated into one piece structure, just surface course (1) is plain weave, protruding net (2) are the mesh tissue of change.

3. The discharge printing cotton and linen fabric as claimed in claim 2, wherein: the number of meshes and the number of traction wefts of the convex net (2) are 10.

4. The discharge printing cotton and linen fabric as claimed in claim 3, wherein: the variable mesh tissue is 9-page healds and consists of a nineteen upper and lower weft surface tissue, a fourteen upper and lower weft surface tissue, a twenty six upper and lower warp surface tissue, a sixteen upper and fifteen lower warp surface tissue, a sixteen lower and fifteen upper and fifteen lower weft surface tissue, a sixteen upper and fifteen lower warp surface tissue, a twenty six upper and five lower warp surface tissue, a fourteen upper and seventeen lower weft surface tissue and a nineteen lower and twelve upper weft surface tissue from left to right.

5. The discharge printing cotton and linen fabric as claimed in claim 4, wherein: the first mesh warp tissue point of the variable mesh tissue is six one after another, one above another, seven after another, six above one below another, the second mesh warp organization points of the variable mesh organization are seven, one above the other, three below the other, one above the other, the third mesh warp tissue point of the variable mesh tissue is thirteen, five, lower and thirteen, the fourth mesh warp tissue point of the variable mesh tissue is fifteen, one above another, one below another, the fifth mesh warp tissue point of the variable mesh tissue is fifteen, one above the other, one below the other, the sixth mesh warp tissue point of the variable mesh tissue is fifteen, one above the other, the seventh mesh warp tissue point of the variable mesh tissue is thirteen-upper, five-lower, thirteen-upper, the eighth mesh warp tissue point of the variable mesh tissue is seven-upper, three-lower, seven-lower, one-upper, the ninth mesh warp tissue point of the variable mesh tissue is six one after another, one above another, seven after another, six above one below another.

6. The discharge printing cotton and linen fabric as claimed in claim 2, wherein: the variable mesh weave and the plain weave are both woven by composite yarns.

7. The discharge printing cotton and linen fabric as claimed in claim 6, wherein: the composite yarn comprises a core layer (5) and an outer covering wire (8) spirally interwoven and wound on the outer side of the core layer.

8. The discharge printing cotton and linen fabric as claimed in claim 7, wherein: the core layer (5) is formed by false twisting a plurality of core wires (6), and the core wires (6) are formed by twisting two viscose fibers (7).

9. The discharge printing cotton and linen fabric as claimed in claim 7, wherein: the outer covering wire (8) is formed by twisting two cotton and linen yarns (9).

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