CN210283464U - Ultraviolet-resistant shirt composite fabric - Google Patents

Abstract

The utility model relates to a functional fabric technical field aims at providing an ultraviolet resistance shirt composite fabric, and its technical scheme main points are: including the composite fabric body, the composite fabric body includes the surface fabric basic unit, the ultraviolet resistance fabric layer, the moisture absorption sweat-releasing layer, the ultraviolet resistance fabric layer sets up in surface fabric basic unit skin, the moisture absorption sweat-releasing layer sets up in the ultraviolet resistance fabric layer skin, the ultraviolet resistance fabric layer includes ultraviolet resistance blend fiber layer, set up in the ultraviolet resistance preparation inlayer of ultraviolet resistance blend fiber layer surface, ultraviolet resistance blend fiber layer is acrylic fibres and copper ammonia fiber blend fiber layer, the moisture absorption sweat-releasing layer is cotton and washes blend fiber layer. The utility model has the advantages of soft moisture absorption and strong ultraviolet resistance.

Description

Ultraviolet-resistant shirt composite fabric

Technical Field

The utility model relates to a functional fabric technical field, in particular to compound surface fabric of ultraviolet resistance shirt.

Background

The composite fabric is one of three elements of the clothes, is a material for manufacturing the clothes, can embody the style and the characteristics of the clothes, and is directly related to the expression effect of the color and the shape of the clothes.

Along with the improvement of living standard of people, people put forward the requirement of more and more multifunctionality to the composite fabric, therefore the composite fabric gradually develops to the direction of functional composite fabric, and functional composite fabric is mainly obtained through functional fiber and functional after-treatment to the fiber. The functional fiber mainly comprises: modified fibers, such as modified at the raw material stage to achieve pilling resistance, antistatic properties, hydrophilicity, flame retardancy, and the like; functional afterfinishes typically include: comfortable finishing is realized by the finishing in the aspects of moisture absorption, sweat discharge, moisture permeability, lightness, smoothness, static resistance and the like. Sanitary finishing is carried out to embody the antibacterial and deodorant properties; protective finishing, embodied in flame retardance, ultraviolet resistance, radiation protection and the like; health care finishing, which is embodied in beauty treatment, skin friendliness and far infrared; the storage finishing is easy, and is embodied in the functional finishing of crease resistance and moth resistance; environment-friendly finishing is characterized by environment friendliness, greenness and no pollution.

Chinese patent No. CN202664233U discloses a shirt with high ultraviolet resistance, which comprises a shirt fabric layer, wherein a polymer ultraviolet resistance preparation layer is arranged on the outer surface of the shirt fabric layer. By adopting the macromolecular anti-ultraviolet agent, covalent bonds are formed with the fiber molecules of the composite fabric under the high-temperature condition, so that the composite fabric is endowed with the function of absorbing ultraviolet rays.

Although the prior art scheme absorbs the ultraviolet rays irradiated to the shirt composite fabric through the high-molecular ultraviolet-resistant preparation, the ultraviolet-resistant preparation on the composite fabric is worn and dropped off due to wearing and washing of the shirt in the actual use process, so that the ultraviolet resistance of the shirt is reduced, and further improvement is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an ultraviolet resistance shirt composite fabric, have soft moisture absorption, advantage that ultraviolet resistance can be strong.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the ultraviolet-resistant shirt composite fabric comprises a composite fabric body, wherein the composite fabric body comprises a fabric base layer, an ultraviolet-resistant fabric layer and a moisture absorption and sweat releasing layer, the ultraviolet-resistant fabric layer is arranged on the outer layer of the fabric base layer, and the moisture absorption and sweat releasing layer is arranged on the outer layer of the ultraviolet-resistant fabric layer.

By adopting the technical scheme, the ultraviolet-resistant fabric layer can play a role in absorbing ultraviolet rays, so that the ultraviolet rays irradiated on the fabric base layer are reduced; the moisture absorption and sweat releasing layer can improve the sweat absorption effect of the fabric, so that the air permeability and the comfort degree of the shirt composite fabric are improved.

Furthermore, the ultraviolet-resistant fabric layer comprises an ultraviolet-resistant blended fiber layer and an ultraviolet-resistant preparation inner layer arranged on the outer surface of the ultraviolet-resistant blended fiber layer.

By adopting the technical scheme, the ultraviolet-resistant blended fabric layer is formed by blending various fibers with ultraviolet resistance, so that the ultraviolet resistance of the shirt composite fabric is improved by utilizing the ultraviolet resistance of the fibers; the inner layer of the anti-ultraviolet preparation is formed by attaching the anti-ultraviolet preparation to the surface of the anti-ultraviolet blended fiber layer, so that the effect of further improving the anti-ultraviolet performance of the shirt composite fabric by using the anti-ultraviolet preparation is achieved.

Further, the uvioresistant blended fiber layer is an acrylic fiber and cuprammonium fiber blended fiber layer.

By adopting the technical scheme, the acrylic fiber is a synthetic polymer fiber, and the-CN group in the molecular structure can effectively absorb ultraviolet energy and convert the ultraviolet energy into heat energy to be dissipated, so that the energy transmitted and conducted to the fiber by ultraviolet rays is greatly reduced, and the effect of resisting ultraviolet rays is achieved; on the other hand, since the ultraviolet absorption ability of acrylic fiber is imparted by its unique molecular structure, the durability of ultraviolet resistance is excellent.

The cuprammonium fibers are soft, have good drapability and strong moisture absorption performance, have good wearability as a composite fabric, and can improve the wearing comfort of the fabric; on the other hand, the cuprammonium rayon also has good antistatic performance, and the electrostatic effect generated by acrylic fibers can be reduced by blending the cuprammonium rayon with the acrylic fibers.

Further, the moisture absorption and sweat releasing layer is a cotton-polyester blended fiber layer.

By adopting the technical scheme, the cotton has good moisture absorption and air permeability, and the moisture absorption and air permeability of the fabric can be effectively improved; the terylene has high strength and good wear resistance, and can effectively improve the wear resistance of the moisture absorption and sweat releasing layer.

Furthermore, the surface of the moisture absorption and sweat release layer is woven and post-finished with bubble wrinkle bulges.

By adopting the technical scheme, the thermal shrinkage rate of the terylene and the cotton has larger difference, and the terylene and the cotton can be utilized to have different thermal shrinkage rates when the fabric is processed by subsequent finishing, so that the bubble wrinkle bulge on the surface of the breathable fabric layer has better standing property and higher rebound resilience, and the softness and the hygroscopicity of the moisture absorption and sweat release layer are further ensured.

Furthermore, the bubble wrinkle bulges are uniformly arranged on the surface of the breathable fabric layer along the warp direction and the weft direction.

Through adopting above-mentioned technical scheme, set up warp direction bubble wrinkle protruding and latitudinal direction bubble wrinkle protruding, can improve the ventilative homogeneity of moisture absorption on moisture absorption sweat-releasing layer, also make bubble wrinkle protruding have better outward appearance effect simultaneously.

Further, an ultraviolet-resistant preparation outer layer is arranged on the outer surface of the moisture-absorbing sweat-releasing layer.

By adopting the technical scheme, the ultraviolet-resistant preparation is attached to the surface of the fiber of the moisture-absorbing and sweat-releasing layer through the same method on the outer layer of the ultraviolet-resistant preparation, so that the effect of further improving the ultraviolet resistance of the shirt composite fabric by using the ultraviolet-resistant preparation is achieved.

Furthermore, a first adhesive layer is arranged between the fabric base layer and the ultraviolet-resistant blended fiber layer, and a second adhesive layer is arranged between the ultraviolet-resistant blended fiber layer and the breathable fabric layer.

Through adopting above-mentioned technical scheme, first bond line can carry out bonding fixation with surface fabric basic unit and ultraviolet resistance fabric layer, and the second bond line can laminate and firm with ultraviolet resistance fabric layer and ventilative fabric layer bonding fixation.

To sum up, the utility model discloses following beneficial effect has:

1. the anti-ultraviolet fabric layer is adhered and fixed on the surface of the fabric base layer, so that the effect of improving the overall anti-ultraviolet performance of the shirt composite fabric is achieved;

2. the ultraviolet-resistant fabric layer is arranged into the ultraviolet-resistant blended fiber layer and the ultraviolet-resistant preparation inner layer, so that the effect of improving the ultraviolet resistance of the composite fabric by utilizing the synergistic effect of the ultraviolet-resistant blended fiber and the ultraviolet-resistant preparation is achieved;

3. by arranging the moisture absorption and sweat releasing layer and coating the ultraviolet-resistant preparation outer layer on the surface of the moisture absorption and sweat releasing layer, the effect of further improving the ultraviolet resistance of the composite fabric is achieved while the moisture absorption of the fabric is improved.

Drawings

FIG. 1 is a schematic overall view of an ultraviolet-resistant shirt composite fabric according to an embodiment;

fig. 2 is a sectional view for embodying the overall structure in the embodiment.

In the figure, 1, a fabric base layer; 2. an anti-ultraviolet fabric layer; 21. an anti-ultraviolet blended fiber layer; 22. an inner layer of an anti-ultraviolet agent; 3. a first adhesive layer; 4. a second adhesive layer; 5. a moisture absorption and sweat releasing layer; 6. bubble wrinkle bulge; 7. and an outer layer of the uvioresistant preparation.

Detailed Description

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

Example (b):

an ultraviolet-resistant shirt composite fabric is shown in figures 1 and 2 and comprises a fabric base layer 1, an ultraviolet-resistant fabric layer 2 is arranged on the outer surface of the fabric base layer 1, and a first bonding layer 3 is arranged between the fabric base layer 1 and the ultraviolet-resistant fabric layer 2, so that the fabric base layer 1 and the ultraviolet-resistant fabric layer 2 are bonded and fixed.

As shown in fig. 2, the ultraviolet-resistant fabric layer 2 includes an ultraviolet-resistant blended fiber layer 21, and an ultraviolet-resistant agent inner layer 22 disposed on an outer surface of the ultraviolet-resistant blended fiber layer 21. The anti-ultraviolet blended fiber layer 21 is an acrylic fiber and copper ammonia fiber blended fiber layer, the acrylic fiber is a synthetic polymer fiber, and-CN group in the molecular structure of the acrylic fiber can effectively absorb ultraviolet energy and convert the ultraviolet energy into heat energy to be dissipated, so that the energy transmitted and conducted to the fiber by ultraviolet rays is greatly reduced, and the anti-ultraviolet effect is achieved; on the other hand, since the ultraviolet ray absorbing ability of acrylic fiber is formed by its unique molecular structure, the durability of the ultraviolet ray resistance is excellent.

The cuprammonium fibers are soft, have good drapability and strong moisture absorption performance, have good wearability as a composite fabric, and can improve the wearing comfort of the fabric; on the other hand, the copper ammonia fiber also has good antistatic performance, and can reduce the electrostatic phenomenon generated by acrylic fibers by blending with the acrylic fibers.

The outer surface of the fabric base layer 1 is coated with the high-molecular ultraviolet-resistant preparation at high temperature, and under the action of high temperature, the high-molecular ultraviolet-resistant preparation can be adsorbed and forms molecular bonding with fiber molecules of the ultraviolet-resistant blended fiber layer 21, so that a firmer ultraviolet-resistant preparation inner layer 22 is formed.

As shown in fig. 2, the moisture absorption and sweat releasing layer 5 is arranged on the outer surface of the ultraviolet resistant fabric layer 2, the second adhesive layer 4 is coated between the ultraviolet resistant fabric layer 2 and the moisture absorption and sweat releasing layer 5, and the ultraviolet resistant fabric layer 2 and the moisture absorption and sweat releasing layer 5 can be adhered and firmly fixed through the second adhesive layer 4.

As shown in fig. 2, moisture absorption and sweat releasing layer 5 is cotton polyester blended fiber layer, it has bubble wrinkle arch 6 to weave at moisture absorption and sweat releasing layer 5 surface, bubble wrinkle arch 6 is along the warp direction, the weft direction evenly sets up in moisture absorption and sweat releasing layer 5 surface, cotton moisture absorption and sweat releasing nature is good, can effectively improve the moisture absorption and sweat releasing performance of surface fabric, the intensity of dacron is high, and there is great difference with cotton heat shrinkage factor, carry out back way dyeing and finishing man-hour to the surface fabric, can pass through dacron and cotton different heat shrinkage factor, make the protruding 6 upright nature of bubble wrinkle on moisture absorption and sweat releasing layer 5 surface better, the resilience is higher, thereby the soft moisture absorption and sweat releasing nature of moisture absorption and sweat releasing layer 5 has been improved.

As shown in fig. 2, an outer layer 7 of an anti-ultraviolet preparation is arranged on the outer surface of the moisture-absorbing and sweat-releasing layer 5, and a high molecular anti-ultraviolet preparation is coated on the outer surface of the moisture-absorbing and sweat-releasing layer 5 at a high temperature, and the high molecular anti-ultraviolet preparation adsorbs and forms a molecular bonding effect with fiber molecules of the moisture-absorbing and sweat-releasing layer 5, so that the firmer outer layer 7 of the anti-ultraviolet preparation is formed.

The specific implementation process comprises the following steps:

firstly, weaving a fabric base layer 1, coating a first bonding layer 3 on the outer surface of the fabric base layer 1, bonding and fixing an anti-ultraviolet blended fiber layer 21 on the outer layer of the first bonding layer 3, then uniformly coating a high-molecular anti-ultraviolet preparation on the outer surface of the anti-ultraviolet blended fiber layer 21 under a high-temperature condition, and forming a molecular bonding effect between molecules of the anti-ultraviolet preparation and fiber molecules of the anti-ultraviolet blended fiber layer 21, thereby forming a firm anti-ultraviolet preparation inner layer 22.

The second adhesive layer 4 is uniformly coated on the surface of the inner layer 22 of the ultraviolet resistant preparation in the same method, the moisture absorption and sweat releasing layer 5 is adhered and fixed on the surface of the second adhesive layer 4, the warp-wise and weft-wise bubble wrinkle bulges 6 are formed on the surface of the moisture absorption and sweat releasing layer 5 through the processes of knitting and after-finishing, and the bubble wrinkle bulges 6 can improve the softness and the moisture absorption and sweat releasing performance of the moisture absorption and sweat releasing layer 5.

And finally, coating an outer layer 7 of the anti-ultraviolet preparation on the outer surface of the moisture-absorbing and sweat-releasing layer 5 by the same method, thereby further improving the anti-ultraviolet performance of the composite fabric.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an ultraviolet resistance shirt composite fabric, includes the composite fabric body, its characterized in that: the composite fabric body comprises a fabric base layer (1), an ultraviolet-resistant fabric layer (2) and a moisture-absorbing sweat-releasing layer (5), wherein the ultraviolet-resistant fabric layer (2) is arranged on the outer layer of the fabric base layer (1), and the moisture-absorbing sweat-releasing layer (5) is arranged on the outer layer of the ultraviolet-resistant fabric layer (2).

2. The ultraviolet-resistant shirt composite fabric as recited in claim 1, wherein: the anti-ultraviolet fabric layer (2) comprises an anti-ultraviolet blended fiber layer (21) and an anti-ultraviolet preparation inner layer (22) arranged on the outer surface of the anti-ultraviolet blended fiber layer (21).

3. The ultraviolet-resistant shirt composite fabric as recited in claim 2, wherein: the anti-ultraviolet blended fiber layer (21) is an acrylic fiber and cuprammonium fiber blended fiber layer.

4. The ultraviolet-resistant shirt composite fabric as recited in claim 1, wherein: the moisture absorption and sweat releasing layer (5) is a cotton-polyester blended fiber layer.

5. The ultraviolet-resistant shirt composite fabric as recited in claim 4, wherein: the surface of the moisture absorption and sweat releasing layer (5) is woven and post-finished with bubble wrinkle bulges (6).

6. The ultraviolet-resistant shirt composite fabric as recited in claim 5, wherein: the bubble wrinkle bulges (6) are uniformly arranged on the surface of the moisture absorption and sweat releasing layer (5) along the warp direction and the weft direction.

7. The ultraviolet-resistant shirt composite fabric as recited in claim 6, wherein: and an ultraviolet resistant preparation outer layer (7) is arranged on the outer surface of the moisture absorption and sweat releasing layer (5).

8. The ultraviolet-resistant shirt composite fabric as recited in claim 1, wherein: a first bonding layer (3) is arranged between the fabric base layer (1) and the ultraviolet-resistant blended fiber layer (21), and a second bonding layer (4) is arranged between the ultraviolet-resistant blended fiber layer (21) and the moisture-absorbing sweat-releasing layer (5).

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