CN219133428U - High-strength washable fabric and garment - Google Patents

Abstract

The utility model relates to a high strength washing resistant surface fabric and clothes, by interior to including in proper order outward, interior lining surface material layer, first elastic layer, net surface material layer, second elastic layer, third elastic layer, wear-resisting surface material layer, net surface material layer evenly is provided with the cavity, and first elastic layer, net surface material layer, second elastic layer have constituted evenly distributed's cavity and have filled propylene granule. The first elastic layer and the second elastic layer are rich in elasticity, so that the fabric is not easy to wrinkle after being washed with water and is smoother; the grid fabric layer is positioned between the two layers, so that the propylene particles can be limited to deviate; the propylene particles have elasticity to resist the shrinkage of fabric fibers, the cavity of the grid fabric can be supported and maintained, the grid surface layer is used as a middle main body layer structure, and under the matched support of each propylene particle, the shrinkage deformation condition of the fabric can be improved after the fabric is washed with water.

Description

High-strength washable fabric and garment

Technical Field

The application relates to the field of textile technology, in particular to a high-strength water-resistant fabric and clothes.

Background

The fabric as a material for making the garment not only can explain the style and the characteristics of the garment, but also can directly control the color and the modeling of the garment. The fabric is various, and different fabric types can be adopted in different scenes.

For example, the fabric made of cotton cloth is easy to keep warm, soft and close-fitting, has excellent hygroscopicity and air permeability, and can be made into cotton clothes worn in winter, but the cotton cloth is easy to shrink and wrinkle after being washed with water; the silk is soft in texture and high in wearing comfort, but the silk can shrink and deform after being washed with water, so that the wearing comfort is reduced when the silk is worn again; fine, light and thin textile structures are subject to water washing, which tends to cause structural deformation.

Disclosure of Invention

In order to solve the problem of shrinkage deformation of the fabric after washing, the application provides a high-strength washable fabric and clothes.

In a first aspect, the present application provides a high-strength washable fabric, which adopts the following technical scheme:

the utility model provides a high strength washing resistant surface fabric, is from interior lining surface fabric layer, first elastic layer, open porous net surface fabric layer, second elastic layer, third elastic layer, wear-resisting surface fabric layer in proper order from interior to exterior, and open porous net surface fabric layer evenly is provided with the cavity, and first elastic layer, open porous net surface fabric layer, second elastic layer have constituted evenly distributed's cavity and have filled propylene granule.

By adopting the technical scheme, the first elastic layer and the second elastic layer are rich in elasticity, so that the fabric is not easy to wrinkle after being washed with water and is smoother; the grid fabric layer with holes is positioned between the two layers, so that propylene particles can be limited to deviate; the propylene particles have elasticity to resist the shrinkage of fabric fibers, the cavity of the grid fabric can be supported and maintained, the grid surface layer is used as a middle main body layer structure, and under the matched support of each propylene particle, the shrinkage deformation condition of the fabric can be improved after the fabric is washed with water.

Optionally, the lining fabric layer is a lyocell fiber layer.

By adopting the technical scheme, the lyocell fiber layer is prepared from natural plant fibers, and has no chemical reaction in the processing process, so that the lining fabric layer has the environment-friendly performance; the lyocell fiber layer has the softness of cotton and the high strength of terylene, and has small shrinkage, so that the fabric is limited to shrink towards the inner layer after being washed.

Optionally, the first elastic layer and the second elastic layer are both provided with grooves distributed in an array, the grooves correspond to the cavities, and propylene particles are inlaid between the first elastic layer and the second elastic layer.

Through adopting above-mentioned technical scheme, after cloth washing shrink, propylene particle can directly exert its supporting role, prevents that propylene particle and the adjacent two-layer clearance that opens the net precoat that has the hole from producing, and then restriction surface fabric shrink's condition produces.

Optionally, the mesh fabric layer with holes is woven by warps and wefts, wherein the warps are polyester fibers, and the wefts are acrylic fibers.

By adopting the technical scheme, the terylene has high strength and elastic recovery capability, has the characteristics of firmness, durability, crease resistance and easy care, soft acrylic fiber texture and high strength, and can reduce the abrasion of acrylic particles on a meshed fabric layer with holes after the terylene and the acrylic fiber are blended.

Optionally, the third elastic layer is provided with elastic protrusions towards the wear-resistant fabric layer, the wear-resistant fabric layer is provided with grooves, and the elastic protrusions of the third elastic layer are embedded into the grooves.

By adopting the technical scheme, the contact area between the second elastic layer and the wear-resistant fabric layer is increased, the elastic protrusions are embedded into the grooves of the wear-resistant fabric layer, and the ductility of the wear-resistant fabric layer is enhanced.

Optionally, an organosilicon high-elastic coating is arranged between the lining fabric layer and the first elastic layer.

By adopting the technical scheme, the organosilicon high-elastic coating has strong rebound resilience, enhances the elastic performance of the material layers on the two sides of the organosilicon high-elastic coating, improves the color fastness of the fabric, and reduces the fading speed of the fabric.

In a second aspect, the present application provides a garment, which adopts the following technical scheme:

a garment comprises a washable fabric, a garment body, sleeves and sleeves, wherein two sides of the garment body are connected with one sleeve.

By adopting the technical scheme, the clothes made of the water-resistant facial wash material have good water-resistant performance, limit shrinkage deformation of the clothes after water washing, and reduce wrinkles on the surface of the clothes.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the first elastic layer and the second elastic layer are rich in elasticity, so that the fabric is not easy to wrinkle after being washed with water and is smoother; the grid fabric layer with holes is positioned between the two layers, so that propylene particles can be limited to deviate; the propylene particles have elasticity to resist the shrinkage of fabric fibers, so that the cavity of the grid fabric can be supported and maintained, the grid surface layer is used as a middle main body layer structure, and under the matched support of each propylene particle, the shrinkage deformation condition of the fabric can be improved after the fabric is washed with water;

2. the lyocell fiber layer is made of natural plant fibers, and has no chemical reaction in the processing process, so that the lining fabric layer has the environment-friendly performance; the lyocell fiber layer has the softness of cotton and the high strength of terylene, and has small shrinkage, so that the fabric is limited to shrink towards the inner layer after being washed;

3. after the material is washed and shrunk, the propylene particles can directly play a supporting role, so that gaps are prevented from being generated between the propylene particles and two adjacent layers of the meshed fabric layer with holes, and further the shrinkage of the fabric is limited.

Drawings

Fig. 1 is a schematic cross-sectional view of a high-strength water-resistant fabric of the present application.

Fig. 2 is a schematic structural view of the perforated mesh fabric layer of the present application.

Fig. 3 is a schematic structural view of a garment of the present application.

Reference numerals illustrate: 1. a lining fabric layer; 2. a silicone high-elastic coating; 3. a first elastic layer; 4. a grid fabric layer with holes; 41. a chamber; 5. a second elastic layer; 51. a groove; 6. a third elastic layer; 61. an elastic protrusion; 7. a wear-resistant fabric layer; 71. a groove; 8. propylene particles; 9. a clothing body; 10. sleeves.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

Example 1:

the embodiment of the application discloses a high-strength water-resistant fabric.

Referring to fig. 1, the high-strength water-resistant facial cleanser sequentially comprises a lining fabric layer 1, a first elastic layer 3, a meshed fabric layer 4 with holes, a second elastic layer 5, a third elastic layer 6 and a wear-resistant fabric layer 7 from inside to outside. The high-strength washable fabric can improve shrinkage, wrinkling and deformation caused by washing.

The lining fabric layer 1 is a lyocell fiber layer which is environment-friendly and has small shrinkage, and the lyocell fiber layer has softness and high strength and can increase the comfort when being worn. A silicone high-elastic coating 2 is adhered between the lining fabric layer 1 and the first elastic layer 3.

Referring to fig. 2, the perforated mesh fabric layer 4 is woven by warp yarns and weft yarns, wherein the warp yarns are polyester fibers, and the weft yarns are acrylic fibers. The perforated mesh facer layer 4 forms chambers 41 distributed in an array. In the fabric manufacturing process, the perforated grid fabric layer 4 is adhered to one side, away from the lining fabric layer 1, of the first elastic layer 3, then propylene particles 8 are uniformly filled in a cavity 41 formed by the cavity 41 and the first elastic layer 3, and then the second elastic layer 5 is adhered to one side, away from the first elastic layer 3, of the perforated grid fabric layer 4. The propylene particles 8 slightly protrude from the perforated mesh fabric layer 4, and the first elastic layer 3 and the second elastic layer 5 are supported by the propylene particles 8, thereby forming grooves 51 for confining the propylene particles 8.

Referring to fig. 1, the third elastic layer 6 is a nylon fabric layer, and the third elastic layer 6 is provided with strip-shaped elastic protrusions 61 distributed in an array towards the wear-resistant fabric layer 7. The wear-resistant fabric layer 7 is an acrylic fabric woven by mixing polyamide fibers, the wear-resistant fabric layer 7 is provided with grooves 71, and the elastic protrusions 61 of the third elastic layer 6 are embedded in the grooves 71.

The implementation principle of the embodiment 1 is as follows: after the fabric is washed by water, the fabric fiber contracts, the propylene particles 8 positioned in the middle layer resist the contraction trend of the fabric, and the contraction amount of the fabric is reduced. The elastic fabric layers on the two sides of the meshed fabric layer 4 with holes limit the movement of propylene particles 8, and simultaneously make the two sides of the meshed fabric layer 4 with holes elastic, so that the shrinkage generated by the fabric is uniform, the whole fabric remains flat and is not easy to deform.

Example 2:

referring to fig. 3, a garment comprises a body 9, sleeves 10 and the high-strength water-resistant fabric of example 1. The coat body 9 and the sleeves 10 are made of high-strength waterproof facial wash, and one sleeve 10 is sewn on each side of the coat body 9.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (7)

1. The utility model provides a high strength wash resistant surface fabric which characterized in that:

the novel lining fabric comprises a lining fabric layer (1), a first elastic layer (3), a meshed fabric layer (4) with holes, a second elastic layer (5), a third elastic layer (6) and a wear-resistant fabric layer (7) from inside to outside, wherein the first elastic layer (3), the meshed fabric layer (4) and the second elastic layer (5) form a plurality of evenly distributed cavities (41), and propylene particles (8) are filled in the cavities (41).

2. The high-strength water-resistant fabric as claimed in claim 1, wherein:

the lining fabric layer (1) is a lyocell fiber layer.

3. The high-strength water-resistant fabric as claimed in claim 1, wherein:

the first elastic layer (3) and the second elastic layer (5) are respectively provided with grooves (51) distributed in an array, the grooves (51) correspond to the cavity (41), and the propylene particles (8) are inlaid between the first elastic layer (3) and the second elastic layer (5).

4. The high-strength water-resistant fabric as claimed in claim 1, wherein:

the grid fabric layer (4) is formed by weaving warps and wefts, wherein the warps are polyester fibers, and the wefts are acrylic fibers.

5. The high-strength water-resistant fabric as claimed in claim 1, wherein:

the third elastic layer (6) is provided with elastic protrusions (61) towards the wear-resistant fabric layer (7), the wear-resistant fabric layer (7) is provided with grooves (71), and the elastic protrusions (61) of the third elastic layer (6) are embedded into the grooves (71).

6. The high-strength water-resistant fabric as claimed in claim 1, wherein:

an organosilicon high-elasticity coating (2) is arranged between the lining fabric layer (1) and the first elastic layer (3).

7. A garment, characterized in that: the high-strength water-resistant fabric comprises the high-strength water-resistant fabric as claimed in any one of claims 1 to 6, and further comprises a coat body (9) and sleeves (10), wherein two sides of the coat body (9) are connected with one sleeve (10).

Images