CN216688518U - Ultraviolet-resistant ventilated fabric - Google Patents

Abstract

The utility model discloses an anti-ultraviolet breathable fabric, relates to the technical field of textile fabrics, and aims to solve the problem that the traditional fabric is poor in air permeability. The key points of the technical scheme are as follows: including ventilative layer, a plurality of archs are formed to an organic whole on the ventilative layer, are formed with the ventilative passageway between ventilative and the ventilative layer, set up a plurality of bleeder vents with the ventilative passageway intercommunication on the ventilative layer. The bamboo charcoal fiber is arranged in the utility model, and the characteristic performance of stable ultraviolet resistance of the novel material is utilized to ensure that the whole fabric has good ultraviolet resistance.

Description

Ultraviolet-resistant ventilated fabric

Technical Field

The utility model relates to the technical field of textile fabrics, in particular to an anti-ultraviolet breathable fabric.

Background

A fabric generally refers to a sheet-like article made of various yarns by various weaving manners.

Cloth and surface fabric are common fabrics, are used for making various clothing and dresses usually, along with the continuous improvement of people's standard of living, people also are higher and higher to the requirement of clothing, but come back to the end to the requirement of dress still comfortableness, and the factor that influences dress travelling comfort is various, and the gas permeability is just one of them comparatively common, if the gas permeability of surface fabric is not good can bring vexed uncomfortable sensation for the user, therefore it is very necessary to set up the surface fabric that the gas permeability is good.

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 an anti-ultraviolet breathable fabric, which achieves the purpose of improving the integral air permeability of the fabric through the arrangement of the structure.

The technical purpose of the utility model is realized by the following technical scheme: the ultraviolet-resistant breathable fabric comprises a breathable layer, wherein a plurality of protrusions are integrally formed on the breathable layer, a breathable channel is formed between each protrusion and the breathable layer, and a plurality of breathable holes communicated with the breathable channel are formed in the breathable layer.

By adopting the technical scheme, the stable ventilation channel is formed by the combined action of the protrusions and the ventilation layer, so that the ventilation holes can be better communicated with the ventilation channel, and the overall ventilation performance of the fabric is further enhanced.

The utility model is further configured to: the breathable layer and the bulges form a mesh-changing tissue, the ground tissue of the mesh-changing tissue is a plain weave, the number of the mesh warp threads of the bulges is 1, and the number of the traction weft threads of the bulges is 9.

By adopting the technical scheme, the stability of the integral structure of the formed fabric is ensured by utilizing the characteristic of stable structure of the plain weave.

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.

By adopting the technical scheme, the breathable layer and the plurality of bulges are integrally formed in the weaving mode.

The utility model is further configured to: the mesh warp is alkali silk.

By adopting the technical scheme, the dissolving of the alkali soluble yarns is utilized to provide a yielding function for the air-permeable passage, and the integral air permeability of the fabric is further enhanced.

The utility model is further configured to: the ground weave and the traction weft are both formed by plain weaving of breathable yarns, and the breathable yarns are formed by twisting bamboo charcoal fibers and cotton fibers.

By adopting the technical scheme, the air permeability of the whole fabric is enhanced by utilizing the characteristic of good air permeability of the bamboo charcoal fiber and the cotton fiber.

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

the stable ventilation channel is formed through the combined action of the bulges and the ventilation layer, so that the ventilation holes can be better communicated with the ventilation channel, and the overall ventilation performance of the fabric is further enhanced.

Drawings

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

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a schematic view of a mesh warp yarn according to the present invention;

FIG. 6 is a schematic structural view of a breathable yarn of the present invention;

FIG. 7 is a schematic representation of the structure of the breather layer and the protuberances of the present invention.

In the figure: 1. a breathable layer; 2. a protrusion; 3. a ventilation channel; 4. air holes are formed; 5. mesh warp; 6. alkali silk dissolving; 7. a breathable yarn; 8. bamboo charcoal fiber; 9. cotton fibers.

Detailed Description

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

This anti ultraviolet ventilative fabric, as shown in fig. 1 and fig. 2, including ventilative layer 1, integrative the forming has a plurality of archs 2 on ventilative layer 1, be formed with ventilative passageway 3 between arch 2 and ventilative layer 1, can ensure the stable in structure of ventilative passageway 3 that forms between ventilative layer 1 and arch 2 under the effect of the support of the intensity that arch 2 has, and then ensure the stability of ventilative passageway 3 air current flow process, a plurality of bleeder vents 4 with ventilative passageway 3 intercommunication are seted up through laser cutting's mode on ventilative layer 1, the intercommunication degree in ventilative layer 1 inside and outside both sides space has been increased through the bleeder vent 4 of seting up, and then make the gas exchange process of ventilative layer 1 inside and outside both sides become more steady smooth and easy, and then ensure the stability of the whole gas permeability of structure.

As shown in fig. 1-7, the air permeable layer 1 and the protrusions 2 form a mesh-changing weave, the ground weave of the mesh-changing weave is a plain weave, the mesh warps 5 of the protrusions 2 are 1, the traction wefts 5 of the protrusions are 9, the mesh warps 5 are alkali-soluble yarns 6, the mesh warps are easy to dissolve when meeting alkali, the mesh warps can disappear in the subsequent process while pulling the traction wefts, meanwhile, the mesh warps 5 disappear, the communication degree between the air permeable channels 3 and the air vents 4 is better, the air permeability of the whole fabric is further enhanced, the ground weave and the traction wefts are both plain woven by the air permeable yarns 7 through a shuttle loom, the air permeability of the whole fabric is enhanced by the good air permeability of the air permeable yarns 7, and the stability of the ground weave and the whole fabric structure is ensured by the stable structure of the plain weave, the breathable yarn 7 is formed by twisting the bamboo charcoal fiber 8 and the cotton fiber 9, the stability of the overall breathability of the breathable yarn 7 is ensured by utilizing the characteristics of good breathability of the bamboo charcoal fiber 8 and the cotton fiber 9, and meanwhile the overall performance of the fabric is further enhanced by utilizing the antibacterial property and the characteristics of warmness in winter and coolness in summer of the bamboo charcoal fiber 8.

As shown in fig. 1 and 7, the mesh-changing tissue is 9-page heddle, the mesh-changing tissue is composed of a nineteen upper and twelve lower weft surface tissue, a fourteen upper and seventeen lower weft surface tissue, a twenty six upper and five 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, the first mesh warp 5 tissue point of the mesh-changing tissue is six, one, seven, one, two, seven, one, three, one, three mesh warp 5 tissue points of the mesh-changing tissue are thirteen upper, five, one, three mesh warp 5 tissue points of the mesh-changing tissue are fifteen, one, two, one, three, one, three, four, the fifth mesh warp 5 tissue points of the variable mesh tissue are fifteen, one above the other and one below the other, the sixth mesh warp 5 tissue points of the variable mesh tissue are fifteen, one above the other and one below the other, the seventh mesh warp 5 tissue points of the variable mesh tissue are thirteen, one above the upper, five below, thirteen above the other, the eighth mesh warp 5 tissue points of the variable mesh tissue are seven, one above the other, three below the other, one above the other, seven one above the other and one above the other, and the ninth mesh warp 5 tissue points of the variable mesh tissue are six, one below the other, one above the other, six below the other, one above the other and one below the other, and the breathable layer 1 and the plurality of protrusions 2 which are integrally formed can be formed through the weaving mode.

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 (6)

1. An anti-ultraviolet air-permeable fabric comprises an air-permeable layer (1), and is characterized in that: the breathable floor is characterized in that a plurality of bulges (2) are integrally formed on the breathable layer (1), breathable channels (3) are formed between the bulges (2) and the breathable layer (1), and a plurality of breathable holes (4) communicated with the breathable channels (3) are formed in the breathable layer (1).

2. The ultraviolet resistant, breathable fabric of claim 1, wherein: the breathable layer (1) and the bulges (2) form a variable mesh structure, the ground structure of the variable mesh structure is a plain weave, the number of mesh warps (5) of the bulges (2) is 1, and the number of traction wefts is 9.

3. The ultraviolet resistant, breathable fabric of claim 2, 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.

4. The ultraviolet resistant, breathable fabric of claim 3, wherein: the first mesh warp (5) tissue points of the change mesh tissue are six, one above one, seven, one above one, six below one above one, one below one, six, one below one, the second mesh warp (5) tissue points of the change mesh tissue are seven, one above one, one below one, three below one, seven, one above one, the third mesh warp (5) tissue points of the change mesh tissue are thirteen, one above five, one above one, thirteen above one, fifteen, one above one below one, the fourth mesh warp (5) tissue points of the change mesh tissue are fifteen, one above one, one below one, the fifth mesh warp (5) tissue points of the change mesh tissue are thirteen, one above one below one, the seventh mesh warp (5) tissue points of the change mesh tissue are thirteen, one above one, five below one above one, and the eighty mesh warp (5) tissue points of the change mesh tissue are seven, one above one below one, one above one below one above one below one above one, the ninth mesh warp (5) of the variable mesh tissue has six tissue points, one for one, the other for one.

5. The ultraviolet resistant, breathable fabric of claim 2, wherein: the mesh warp (5) is alkali soluble silk (6).

6. The ultraviolet resistant, breathable fabric of claim 5, wherein: the ground weave and the traction weft are both formed by plain weaving of breathable yarns (7), and the breathable yarns (7) are formed by twisting bamboo charcoal fibers (8) and cotton fibers (9).

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