CN215152602U - Fabric for manufacturing non-ironing jacket - Google Patents

Abstract

The application discloses a fabric for manufacturing a non-ironing jacket, which belongs to the technical field of textile fabrics and comprises a fabric base layer, wherein a fabric surface layer is arranged on one side surface of the fabric base layer, an antibacterial layer and a non-ironing layer are sequentially arranged between the fabric base layer and the fabric surface layer, and the antibacterial layer is formed by weaving antibacterial fibers and bamboo charcoal fibers in a staggered manner; the non-ironing layer is formed by weaving warps and wefts in a staggered mode, and the warps and the wefts are soaked by the anti-wrinkling finishing agent. The application has the effects of reducing breeding of bacteria and protecting human skin.

Description

Fabric for manufacturing non-ironing jacket

Technical Field

The application relates to the field of textile fabrics, in particular to a fabric for manufacturing a non-ironing coat.

Background

Many coats on the market are formed by weaving single warps and wefts in a staggered mode, the smoothness of the fabric can be guaranteed, the function of the coat is single, and along with the technical progress, people have higher requirements for the functionality and the comfort of the clothes.

In the related art, chinese utility model with publication number CN202509214U discloses a crease-resistant functional fabric, which is woven by warp yarns and weft yarns, wherein the warp yarns are made of optical polyester monofilaments, and the weft yarns are made of nylon yarns.

The inventor thinks that when the clothes made of the non-ironing fabric is worn on the body, sweat on the surface of the skin of a wearer is difficult to discharge out of the clothes, and the gathering of the sweat can not only generate sweat odor, but also breed a large amount of bacteria more easily, thereby harming the health of the skin of the human body.

SUMMERY OF THE UTILITY MODEL

In order to reduce breeding of bacteria and protect human skin, the application provides the fabric for manufacturing the non-ironing jacket.

The fabric for manufacturing the non-ironing coat adopts the following technical scheme:

the fabric for manufacturing the non-ironing jacket comprises a fabric base layer, wherein a fabric surface layer is arranged on one side surface of the fabric base layer, an antibacterial layer and a non-ironing layer are sequentially arranged between the fabric base layer and the fabric surface layer, and the antibacterial layer is formed by weaving antibacterial fibers and bamboo charcoal fibers in a staggered mode.

By adopting the technical scheme, the antibacterial performance of the fabric is enhanced by using the antibacterial fibers, so that the possibility of bacterial breeding is reduced, and the skin of a human body is protected; utilize bamboo charcoal fiber to improve the gas permeability of surface fabric, further strengthen the moisture absorption and moisture removal ability of surface fabric to accelerate the discharge of human skin surface sweat, improve wearer's comfort level, and bamboo charcoal fiber has good adsorptivity, can eliminate the peculiar smell.

Preferably, the fabric base layer is formed by interweaving flax fibers and soybean fibers.

By adopting the technical scheme, when the flax fibers are contacted with the surface of the skin of a human body, the phenomenon of pores can be generated, sweat of the human body is absorbed and is uniformly conducted out, and therefore the sweat is prevented from accumulating and breeding bacteria; the soybean fiber has good skin-friendly property and good moisture absorption and conductivity, and can be used as one of the components of the fabric base layer to enhance the air permeability of the fabric.

Preferably, the surface layer of the fabric is formed by weaving blended yarns, and the blended yarns are formed by mutually winding and weaving two hydrophobic yarns and one hydrophilic yarn.

By adopting the technical scheme, the hydrophobic fibers are basically synthetic fibers and have higher strength, so that the durability of the fabric is improved, and the hydrophilic yarns are added, so that the air permeability of the fabric is enhanced, and the softness of the fabric is improved.

Preferably, the hydrophobic yarns are polyester filaments, and the hydrophilic yarns are cotton yarns.

By adopting the technical scheme, the fabric woven by the polyester filament yarns has the advantages of good strength, smoothness, stiffness, easiness in washing and quick drying, the defect of the polyester filament yarns can be eliminated by adding the cotton yarns, and the air permeability, the moisture absorption and the softness of the fabric are enhanced.

Preferably, the non-ironing layer is formed by weaving warps and wefts in a staggered mode, and the warps and the wefts are soaked by the anti-wrinkling finishing agent.

Through adopting above-mentioned technical scheme, crease-resist finishing agent soaks and handles and to make crease-resist finishing agent get into the space between the fibre molecule to replace firm covalent bond with the hydrogen bond between the fibre molecule, thereby make warp and weft have higher crease-resistant performance.

Preferably, the weft comprises a first weft and a second weft, the first weft and the second weft are arranged at intervals, and the first weft is formed by winding kapok fibers and shape memory polymer fibers on shape memory alloy fibers.

By adopting the technical scheme, the shape memory alloy fiber is used as the inner core, when the external temperature reaches the design temperature, the fabric can be restored to the original state, so that the crease resistance of the fabric is improved, the shape memory polymer fiber is favorable for strengthening the crease resistance of the fabric, and the kapok fiber is favorable for ensuring the softness of the hand feeling of the fabric.

Preferably, the shape memory alloy fiber is a shape memory titanium-nickel alloy fiber.

By adopting the technical scheme, the shape memory titanium-nickel alloy fiber is taken as the most common shape memory alloy fiber in current research and application, and has high stability and wider restoration design temperature range.

Preferably, the second weft and the warp are both made of nylon fibers.

By adopting the technical scheme, the nylon is favorable for improving the elasticity of the fabric, and the fabric is firmer and more wear-resistant.

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

1. the antibacterial fiber is used for enhancing the antibacterial performance of the fabric, so that the possibility of bacterial breeding is reduced, and the skin of a human body is protected; the bamboo charcoal fiber is used for improving the air permeability of the fabric and further enhancing the moisture absorption and removal capacity of the fabric, so that the sweat on the surface of the skin of a human body is accelerated to be discharged, the comfort level of a wearer is improved, and the bamboo charcoal fiber has excellent adsorbability and can eliminate peculiar smell;

2. when the flax fibers are contacted with the surface of the skin of a human body, the flax fibers can generate a capillary phenomenon, absorb sweat of the human body and uniformly conduct the sweat out, so that the sweat is prevented from accumulating and breeding bacteria; the soybean fiber has good skin-friendly property and good moisture absorption and conductivity, and can enhance the air permeability of the fabric;

3. the shape memory alloy fiber is used as an inner core, so that the crease resistance of the fabric can be improved, the shape memory polymer fiber is favorable for enhancing the crease resistance of the fabric, and the kapok fiber is favorable for ensuring the softness of the hand feeling of the fabric.

Drawings

Fig. 1 is a schematic view of the internal structure of the fabric for manufacturing the easy-care jacket according to the embodiment of the present application.

Fig. 2 is a schematic structural view of a face fabric substrate according to an embodiment of the present application.

Fig. 3 is a schematic structural view of an antibacterial layer of an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a non-ironing layer according to an embodiment of the present application.

Fig. 5 is a schematic structural view of the first weft in the embodiment of the present application.

Fig. 6 is a schematic structural view of a blended yarn according to an embodiment of the present application.

Description of reference numerals:

1. a fabric base layer; 11. flax fibers; 12. soybean fibers; 2. an antimicrobial layer; 21. an antimicrobial fiber; 22. bamboo charcoal fiber; 3. a non-ironing layer; 31. warp threads; 32. a weft; 321. a first weft; 3211. kapok fiber; 3212. a shape memory polymer fiber; 3213. shape memory alloy fibers; 322. a second weft; 4. a surface layer of the fabric; 41. blending yarns; 411. a hydrophobic yarn; 412. a hydrophilic yarn.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a fabric for manufacturing a non-ironing coat. Referring to fig. 1, the fabric for manufacturing the non-ironing jacket comprises a fabric base layer 1, wherein an antibacterial layer 2, a non-ironing layer 3 and a fabric surface layer 4 are fixedly connected to one side surface of the fabric base layer 1 in sequence.

Referring to fig. 1 and 2, the fabric base layer 1 is formed by blending flax fibers 11 and soybean fibers 12, the flax fibers 11 have the advantages of good moisture absorption and heat dissipation, antifouling and antibacterial properties and the like, and the flax fibers 11 are antistatic and ultraviolet-proof. The flax fiber 11 is the only bundle fiber in the natural fiber, and the air permeability of the flax fiber 11 is excellent, so that the fabric substrate 1 made of flax can quickly reduce the skin surface temperature of a human body. The flax fiber 11 has high moisture absorption and release speed, and can generate a capillary phenomenon when the fabric base layer 1 is contacted with the skin of a human body to assist the skin to perspire, and the flax can absorb the sweat of the human body and uniformly conduct the sweat out, so that the sweat is prevented from being accumulated and breeding bacteria. The soybean fiber 12 has fine fineness, light specific gravity, high tensile strength, strong acid and alkali resistance, good moisture absorption and conductivity, and good skin-friendly property.

Referring to fig. 1 and 3, the antibacterial layer 2 is formed by weaving antibacterial fibers 21 and bamboo charcoal fibers 22 in a staggered manner, and the antibacterial fibers 21 further enhance the antibacterial performance of the fabric and reduce the possibility of bacterial growth, so that the skin of a human body is protected. The bamboo charcoal fiber 22 is provided with gaps, has the functions of moisture absorption, ventilation, antibiosis, bacteriostasis and ultraviolet resistance, is favorable for absorbing and decomposing peculiar smell, and has the function of deodorizing the bamboo charcoal fiber 22.

Referring to fig. 4 and 5, the non-ironing layer 3 is formed by weaving warp 31 and weft 32 in a staggered manner, and the weft 32 includes first weft 321 and second weft 322, the first weft 321 is arranged at intervals along the length direction of the warp 31, and every two second weft 322 are arranged to form one first weft 321. Warp 31 and second weft 322 are the nylon fiber and make, and nylon fiber's setting makes the surface fabric durable more wear-resisting, and nylon fiber density is less, and elasticity is good, and has good chemical stability.

Referring to fig. 4 and 5, the first weft 321 is formed by winding kapok fibers 3211 and shape memory polymer fibers 3212 on shape memory alloy fibers 3213, and the warp 31 and the weft 32 are subjected to infiltration treatment by a crease-resistant finishing agent, which is beneficial to improving the crease resistance of the fabric. The kapok fiber 3211 is favorable for ensuring the air permeability and the moisture absorption performance of the fabric, and the kapok fiber 3211 and the shape memory polymer fiber 3212 are favorable for ensuring the softness of the hand feeling of the fabric. The shape memory alloy fiber 3213 is a shape memory titanium-nickel alloy fiber, and the shape memory titanium-nickel alloy fiber is used as an inner core, which is beneficial to further improving the crease resistance of the fabric. Even if the fabric is kneaded into a messy and bad shape, the shape memory polymer fibers 3212 and the shape memory alloy fibers 3213 recover when the temperature of the fabric reaches a set value, so that the fabric can be kept flat without the need for the wearer to iron the fabric.

Referring to fig. 1 and 6, the fabric surface layer 4 is woven by using blended yarns 41, the blended yarns 41 include hydrophobic yarns 411 and hydrophilic yarns 412, the hydrophobic yarns 411 are polyester filaments, and the hydrophilic yarns 412 are cotton yarns. The single blended yarn 41 includes two hydrophobic yarns 411 and one hydrophilic yarn 412, and the two hydrophobic yarns 411 and the one hydrophilic yarn 412 are intertwined with each other to form the blended yarn 41. The hydrophobic yarn 411 is arranged to enable the fabric to be higher in strength, easy to wash and quick to dry, the hydrophilic yarn 412 is blended in the hydrophobic yarn 411, the defect of the hydrophobic yarn 411 is favorably eliminated, the softness and the air permeability of the fabric are enhanced, and therefore sweat on the surface of human skin can be conducted to the surface layer 4 of the fabric and is evaporated quickly.

The implementation principle of the fabric for manufacturing the non-ironing coat in the embodiment of the application is as follows: the fabric base layer 1 woven by the flax fibers 11 and the soybean fibers 12 can ensure the air permeability, moisture absorption and moisture conductivity of the fabric; warp 31 and weft 32 through crease-resistant finishing agent processing are favorable to improving the crease-resistant performance of surface fabric, and contain shape memory alloy fibre 3213 in the weft 32 in non-ironing layer 3, and when the surface fabric reached design temperature, the surface fabric can recover automatically, further strengthens the crease-resistant performance of surface fabric. The antibacterial layer 2 woven by the antibacterial fiber 21 and the bamboo charcoal fiber 22 can effectively reduce the gathering of sweat, thereby preventing the breeding of bacteria. The surface layer 4 of the fabric is formed by blending hydrophilic yarns 412 and hydrophobic yarns 411, which is beneficial to improving the wear resistance of the fabric under the condition of ensuring the surface softness of the fabric.

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. The utility model provides a surface fabric for making non-ironing jacket, includes surface fabric basic unit (1), its characterized in that: the fabric comprises a fabric base layer (1) and is characterized in that a fabric surface layer (4) is arranged on one side face of the fabric base layer (1), an antibacterial layer (2) and a non-ironing layer (3) are sequentially arranged between the fabric base layer (1) and the fabric surface layer (4), and the antibacterial layer (2) is formed by weaving antibacterial fibers (21) and bamboo charcoal fibers (22) in a staggered mode.

2. The fabric for making a non-ironing coat according to claim 1, wherein: the fabric base layer (1) is formed by interweaving flax fibers (11) and soybean fibers (12).

3. The fabric for making a non-ironing coat according to claim 1, wherein: the fabric surface layer (4) is formed by weaving blended yarns (41), and the blended yarns (41) are formed by mutually winding and weaving two hydrophobic yarns (411) and one hydrophilic yarn (412).

4. The fabric for making a non-ironing coat according to claim 3, wherein: the hydrophobic yarns (411) are polyester filaments, and the hydrophilic yarns (412) are cotton yarns.

5. The fabric for making a non-ironing coat according to claim 1, wherein: the non-ironing layer (3) is formed by weaving warps (31) and wefts (32) in a staggered mode, and the warps (31) and the wefts (32) are soaked through a crease-resistant finishing agent.

6. The fabric for making a non-ironing coat according to claim 5, wherein: the weft (32) comprises a first weft (321) and a second weft (322), the first weft (321) and the second weft (322) are arranged at intervals, and the first weft (321) is formed by winding kapok fibers (3211) and shape memory polymer fibers (3212) on shape memory alloy fibers (3213).

7. The fabric for making a non-ironing coat according to claim 6, wherein: the shape memory alloy fiber (3213) is a shape memory titanium-nickel alloy fiber.

8. The fabric for making a non-ironing coat according to claim 6, wherein: the second weft (322) and the warp (31) are both made of nylon fibers.

Images