CN214179159U - Easy-care shirt - Google Patents

Abstract

The utility model relates to an easy-care shirt, it includes the shirt main part, the shirt main part is crease-resistant cloth, crease-resistant cloth includes cloth basic unit, crease-resistant layer is for crease-resistant warp and crease-resistant weft to work out, crease-resistant warp comprises graphite alkene silk and dacron silk spiral winding, crease-resistant weft comprises carbon fiber silk and dacron silk spiral winding. This easy-care shirt is made through crease-resistant cloth, and crease-resistant cloth is formed by cloth basic unit, crease-resistant layer, the compound of crease-resistant dope layer, makes crease-resistant cloth have better crease-resistant ability to make this shirt still have better roughness after being folded, the washing.

Description

Easy-care shirt

Technical Field

The application relates to the field of clothing, in particular to a non-ironing shirt.

Background

The shirt is an inner coat with a front opening with sleeves in the collar and buttons on the cuffs.

Shirts are subject to creasing or wrinkling after being creased or washed, which affects their aesthetic and neatness, and usually require ironing before their smooth or stiff appearance can be restored.

The fibers for manufacturing the shirt fabric have certain wrinkle resistance, but the recovery time is slow, so that the wearing effect of the shirt is affected, and therefore, the development of the shirt which is comfortable to wear and can achieve the wrinkle resistance effect is a market demand.

SUMMERY OF THE UTILITY MODEL

In order to improve the crease resistance of shirt, the application provides a non-ironing shirt.

The application provides a non-ironing shirt adopts following technical scheme:

the utility model provides an easy-care shirt, includes the shirt main part, the shirt main part is crease-resistant cloth, crease-resistant cloth includes cloth basic unit, crease-resistant layer is for crease-resistant warp and crease-resistant weft to weave and forms, crease-resistant warp comprises graphite alkene silk and dacron silk spiral winding, crease-resistant weft comprises carbon fiber silk and dacron silk spiral winding.

Through adopting above-mentioned technical scheme, will crease-resistant cloth through tailor, make into the shirt main part, make the shirt main part have better crease-resistant performance, the shirt main part is difficult for producing crease, wrinkle after rolling over and pressing or washing, improves the roughness of shirt main part, makes the shirt avoid ironing.

The terylene is a common material for making clothes, is also called Terylene, is the simplest one of three synthetic fibers, has low price, and has the characteristics of firmness, durability, good elasticity, difficult deformation, easy washing, quick drying and the like. The graphene wire is prepared by attaching graphene to other fiber materials in a physical or chemical mode or doping the graphene into artificial fiber slurry in a certain proportion, the physical and chemical properties of original fibers are changed through the characteristics of the graphene, and the graphene wire has good toughness and tensile property. The carbon fiber yarn has high strength, wear resistance, tensile property and wrinkle resistance. The anti-wrinkle layer is formed by interweaving the graphene yarns, the carbon fiber yarns and the polyester yarns, so that the anti-wrinkle layer has the characteristics of wrinkle resistance, pulling resistance, wear resistance and difficulty in pilling.

Optionally, the anti-wrinkle warp threads consist of a graphene yarn and two polyester yarns, and the anti-wrinkle weft threads consist of a carbon fiber yarn and two polyester yarns.

Through adopting above-mentioned technical scheme, graphite alkene silk, carbon fiber silk easily play static, and graphite alkene silk, carbon fiber silk have better electric conductivity, combine graphite alkene silk, carbon fiber silk with the dacron silk respectively and form crease-resistant warp, crease-resistant weft, weave again and form crease-resistant layer, make crease-resistant layer be difficult for playing static.

Optionally, the anti-wrinkle warp threads are formed by spirally winding the graphene yarns and the polyester yarns, and the anti-wrinkle weft threads are formed by spirally winding the carbon fiber yarns and the polyester yarns.

Through adopting above-mentioned technical scheme, crease-resistant warp and crease-resistant weft are helical structure, restrict crease-resistant warp and crease-resistant weft's bending amplitude, improve crease-resistant warp and crease-resistant weft bearing capacity, reduce the deformation that the effect of external force took place to increase the elasticity of this crease-resistant surface fabric, improve the crease-resistant ability on crease-resistant layer.

Optionally, the cross section of the polyester yarn is triangular.

By adopting the technical scheme, the cross section of the polyester yarn is triangular, so that the polyester yarn is supported in a triangular mode, and the crease resistance of the polyester yarn is improved.

Optionally, the graphene wires, the carbon fiber wires and the polyester wires are arranged in a hollow manner.

By adopting the technical scheme, when external force acts on the anti-wrinkle layer, the hollow parts of the graphene wires, the carbon fiber wires and the polyester wires disperse certain acting force, so that the acting force borne by the graphene wires, the carbon fiber wires and the polyester wires is reduced, and the anti-wrinkle capability of the anti-wrinkle layer is improved.

Optionally, the cloth basic unit is warp and weft by the mixed spinning and interweaves and form, the mixed spinning includes outer, the high stretch yarn heart yearn of silk.

By adopting the technical scheme, the high-elastic yarn inner core has higher elastic expansion rate, and the woven fabric has better elasticity, so that the fabric base layer has better deformation resistance. The outer material of silk is silk, and the silk has better compliance, gas permeability, crease resistance, and the silk is outer to be set up in the high stretch yarn inner core outer, improves the compliance and the gas permeability of cloth basic unit, improves user's comfort level.

Optionally, the silk skin is the spiral structure of silk spiral winding on the high stretch yarn heart yearn.

Through above-mentioned technical scheme, silk itself has certain elasticity, and its spiral winding reduces the elasticity influence of silk layer to the high-elastic yarn inner core on the high-elastic yarn inner core, has also strengthened compliance, the gas permeability of the cloth basic unit that the mixed spinning was made into simultaneously.

Optionally, crease-resistant cloth still includes crease-resistant dope layer, crease-resistant dope layer is organosilicon high-elastic coating.

By adopting the technical scheme, the organic silicon high-elastic coating has high-strength rebound resilience, and is easy to recover after external force is removed, so that the wrinkle resistance of the wrinkle-resistant cloth is improved.

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

1. the anti-wrinkle layer is formed by interweaving the anti-wrinkle warp yarns and the anti-wrinkle weft yarns through the graphene yarns, the carbon fiber yarns and the polyester yarns, so that the anti-wrinkle layer has good anti-wrinkle performance;

2. the graphene yarns, the carbon fiber yarns and the polyester yarns are arranged in a hollow mode, so that the anti-wrinkle capacity of the anti-wrinkle layer is improved;

3. the cloth basic unit is interweaved by the mixed spinning that silk spiral winding formed on the high stretch yarn inner core and forms, makes the cloth basic unit have better compliance and crease-resistant ability.

Drawings

Fig. 1 is an overall view of a permanent press shirt according to an embodiment of the present application.

Fig. 2 is a schematic structural view of the crease resistant fabric of the embodiment.

FIG. 3 is a schematic structural view of a mixed yarn of the embodiment.

Fig. 4 is a schematic structural view of crease-resistant warp threads and crease-resistant weft threads of the embodiment.

Description of reference numerals: 1. a shirt body; 11. crease-resistant cloth; 111. a fabric base layer; 112. an anti-wrinkle layer; 113. a crease-resistant coating layer; 2. crease-resistant warp threads; 21. polyester yarn; 22. graphene wires; 3. crease-resistant weft yarns; 31. carbon fiber filaments; 4. mixing and spinning; 41. an outer layer of silk; 42. and the high stretch yarn inner core.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a non-ironing shirt. Referring to fig. 1, the easy-care shirt comprises a shirt body 1, wherein the shirt body 1 is made of anti-wrinkle fabric 11, and the anti-wrinkle fabric 11 is made into the shirt body 1 through cutting and sewing processes.

Referring to fig. 2, the anti-wrinkle fabric 11 sequentially includes an anti-wrinkle coating layer 113, a fabric base layer 111, an anti-wrinkle layer 112, and an anti-wrinkle coating layer 113, and the fabric base layer 111 and the anti-wrinkle layer 112 are fixed by an epoxy adhesive. The anti-wrinkle coating layer 113 is coated on the fabric base layer 111 and the anti-wrinkle layer 112 in a coating manner, so that the anti-wrinkle capability of the anti-wrinkle fabric 11 is improved.

Referring to fig. 2 and 3, the cloth base 111 is made of the blended yarn 4 as warp and weft by weaving through a plain weave process. The blended yarn 4 comprises an outer silk layer 41 and an inner high-stretch yarn core 42, wherein the outer silk layer 41 is formed by spirally winding silk on the inner high-stretch yarn core 42. The silk has better softness and wrinkle resistance, and the high elastic yarn inner core 42 has better elasticity, so that the cloth base layer 111 made by interweaving the mixed spinning 4 has better softness, wrinkle resistance and air permeability. After the anti-wrinkle fabric 11 is made into the shirt, the fabric base layer 111 is a skin-adhering layer, so that the shirt has good flexibility and improves the wearing comfort of a user.

Referring to fig. 2 and 4, the anti-wrinkle layer 112 is formed by circularly interweaving the anti-wrinkle warp threads 2 and the anti-wrinkle weft threads 3 in an arrangement mode of three, one over the other, so that the anti-wrinkle layer 112 forms staggered lines, the interior of the anti-wrinkle layer 112 has stronger internal stress tension, and the internal stress tension enables the interior of the anti-wrinkle layer 112 to be tightly arranged, thereby improving the capability of the anti-wrinkle layer 112 to resist external extrusion force and improving the anti-wrinkle capability.

Referring to fig. 4, the anti-wrinkle warp thread 2 includes two polyester filaments 21 and one graphene filament 22, and the anti-wrinkle warp thread 2 is formed by spirally winding the graphene filament 22 and the polyester filament 21. The crease-resistant weft 3 comprises two polyester yarns 21 and a carbon fiber yarn 31, and is formed by spirally winding the carbon fiber yarn 31 and the polyester yarns 21. The polyester yarns 21, the graphene yarns 22 and the carbon fiber yarns 31 are arranged in a hollow mode, when external force extrudes the anti-wrinkle layer 112, certain extrusion force is dispersed in the hollow portion, and the anti-wrinkle capacity of the anti-wrinkle layer 112 is improved. The cross section of the polyester yarn 21 is triangular, so that the polyester yarn 21 is supported in a triangular mode, the external force resistance of the polyester yarn 21 is improved, and the wrinkle resistance of the wrinkle resistant layer 112 is improved.

Referring to fig. 2, the fabric of the polyester yarn 21 has a high-strength anti-wrinkle capability, the graphene yarn 22 and the carbon fiber yarn 31 have a good conductive capability, and the anti-wrinkle layer 112 is formed by interweaving the graphene yarn 22 and the carbon fiber yarn 31 together with the polyester yarn 21, so that the anti-wrinkle layer 112 has a good antistatic capability. Meanwhile, the graphene wires 22 and the carbon fiber wires 31 have good toughness and tensile strength, and the anti-wrinkle capability of the anti-wrinkle layer 112 is further improved.

Referring to fig. 2, the anti-wrinkle coating layer 113 is a silicone high-elasticity coating layer, and the anti-wrinkle coating layer 113 has good elasticity and anti-wrinkle ability. The organosilicon high-elastic coating is respectively coated on two sides of the fabric base layer 111 and the anti-wrinkle layer 112, which are deviated from each other, so that the anti-wrinkle performance of the anti-wrinkle fabric 11 is enhanced.

To sum up, this easy-care shirt is made through crease-resistant cloth 11, and crease-resistant cloth 11 is formed by cloth basic unit 111, crease-resistant layer 112, the compound of crease-resistant dope layer 113, makes crease-resistant cloth 11 have better crease-resistant ability, makes this shirt still have better roughness after being folded, the washing.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A non-ironing shirt, comprising a shirt body (1), characterized in that: shirt main part (1) is crease-resistant cloth (11), crease-resistant cloth (11) are including cloth basic unit (111), crease-resistant layer (112) are crease-resistant warp (2) and crease-resistant weft (3) and weave and constitute, crease-resistant warp (2) comprise graphite alkene silk (22) and dacron silk (21) spiral winding, crease-resistant weft (3) comprise carbon fiber silk (31) and dacron silk (21) spiral winding.

2. A non-ironing shirt according to claim 1, characterised in that: crease-resistant warp (2) comprise a graphite alkene silk (22) and two dacron silks (21), crease-resistant weft (3) comprise a carbon fiber silk (31) and two dacron silks (21).

3. A non-ironing shirt according to claim 2, characterised in that: crease-resistant warp (2) are that graphite alkene silk (22) and dacron silk (21) spiral winding each other constitute, crease-resistant weft (3) are that carbon fiber silk (31) and dacron silk (21) spiral winding each other constitute.

4. A non-ironing shirt according to claim 3, characterised in that: the cross section of the polyester yarn (21) is triangular.

5. A non-ironing shirt according to claim 4, characterized in that: the graphene wires (22), the carbon fiber wires (31) and the polyester wires (21) are arranged in a hollow mode.

6. A non-ironing shirt according to claim 1, characterised in that: cloth basic unit (111) interweaves for warp and weft by mixed spinning (4) and forms, mixed spinning (4) include silk outer (41), high stretch yarn heart yearn (42).

7. A non-ironing shirt according to claim 6, characterised in that: the outer layer (41) of silk is the spiral structure of silk spiral winding on high stretch yarn heart yearn (42).

8. A non-ironing shirt according to claim 1, characterised in that: crease-resistant cloth (11) still include crease-resistant coating layer (113), crease-resistant coating layer (113) are the high-elastic coating of organosilicon.

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