CN213154048U - Antistatic T-shirt - Google Patents

Abstract

The utility model relates to an antistatic T-shirt, which comprises a T-shirt main body, wherein the T-shirt main body comprises a T-shirt front part, a T-shirt rear part and a T-shirt cuff part, and the T-shirt front part and the T-shirt rear part are sewn to form a sleeveless T-shirt body; the cuff of the sleeveless T-shirt body is sewn at the cuff to form a T-shirt body, and a first antistatic hemming fabric is sewn between the sewing edge of the front part of the T-shirt and the sewing edge of the rear part of the T-shirt through a first antistatic spun yarn; a second anti-static hemming fabric is sewn between the cuff sewing edge of the sleeveless T-shirt body and the cuff sewing edge of the T-shirt through a second anti-static yarn; the first antistatic spinning and the second antistatic spinning have the same structure; the front part of the T-shirt, the back part of the T-shirt and the cuff part of the T-shirt are all made of antistatic composite fabric. The utility model discloses the effect that has better antistatic effect.

Description

Antistatic T-shirt

Technical Field

The utility model belongs to the technical field of the dress surface fabric and specifically relates to an antistatic T-shirt.

Background

Along with the continuous improvement of the living standard of people, the requirements of people on the fabric of clothes are higher and higher. T-shirts became the most common wearing apparel in the hot summer. At present, the pure cotton T-shirts are the most common, the T-shirts are comfortable to wear, good in hand feeling, environment-friendly and free of static electricity, but the T-shirts are poor in stiffness and easy to wrinkle and deform after being washed with water.

Referring to fig. 1, in order to solve the problems that a pure cotton T-shirt is poor in stiffness and easy to wrinkle and deform after being washed with water, a polyester cotton T-shirt is provided and is prepared from a polyester cotton fabric main body 1, and the polyester cotton fabric main body 1 is formed by blending cotton fibers 101 and polyester fibers 102.

The above prior art solutions have the following drawbacks: polyester is blended in the fabric, so that the antistatic performance of the polyester-cotton T-shirt is poor, and the following hazards can be caused by static electricity: 1. the lasting static electricity can cause the pH value of the blood of a human body to rise, the calcium excretion amount in urine to increase and the blood calcium to decrease; 2. a large amount of dust adsorbed by static electricity contains various viruses, bacteria and harmful substances, so that the human health is harmed; 3. static electricity can also cause abnormal nerve cell membrane current conduction, affect the central nerve of people, and cause fatigue, dysphoria, insomnia and headache.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims at providing an antistatic T-shirt, have better antistatic performance, it is comparatively comfortable to wear.

The above object of the present invention can be achieved by the following technical solutions: an antistatic T-shirt comprises a T-shirt body, wherein the T-shirt body comprises a T-shirt front part, a T-shirt rear part and a T-shirt cuff part, and a sleeveless T-shirt body is sewn at the T-shirt front part and the T-shirt rear part; the cuff of the sleeveless T-shirt body is sewn at the cuff to form a T-shirt body, and a first antistatic hemming fabric is sewn between the sewing edge of the front part of the T-shirt and the sewing edge of the rear part of the T-shirt through a first antistatic spun yarn; a second anti-static hemming fabric is sewn between the cuff sewing edge of the sleeveless T-shirt body and the cuff sewing edge of the T-shirt through a second anti-static yarn; the first antistatic spinning and the second antistatic spinning have the same structure; the front part of the T-shirt, the back part of the T-shirt and the cuff part of the T-shirt are all made of antistatic composite fabric.

By adopting the technical scheme, the first contact with the skin of a wearer is the sewing edges of the front part of the T-shirt, the back part of the T-shirt, the cuffs of the sleeveless T-shirt body and the cuff part of the T-shirt, and the charges generated by friction are released through the first antistatic edge sewing fabric, the second antistatic edge sewing fabric, the first antistatic spun yarn and the second antistatic spun yarn structure, so that the antistatic performance of the utility model is improved; and the T-shirt front portion, the T-shirt rear portion and the T-shirt cuff portion of antistatic composite face preparation itself just have better antistatic performance to effectively promoted the utility model discloses an antistatic performance is comparatively comfortable with the dress.

The present invention may be further configured in a preferred embodiment as: the antistatic composite fabric comprises first warps and first wefts, wherein the first warps and the first wefts are the same in composition; the first warp comprises first cotton fibers, first mulberry silk and first DDY composite conductive fibers.

By adopting the technical scheme, the first mulberry silk has good rebound resilience and can prevent the first cotton thread fiber from being washed and wrinkled; first DDY composite conductive fiber, the utility model discloses good antistatic performance is further guaranteed.

The present invention may be further configured in a preferred embodiment as: the first warp yarn further comprises chitin fibers.

Through adopting above-mentioned technical scheme, chitin fibre has given the utility model discloses good bactericidal nature and close skin nature make the utility model discloses wear more comfortable and sanitary.

The present invention may be further configured in a preferred embodiment as: the first warp further comprises an energy storage composite fiber with a bidirectional temperature regulating function.

Through adopting the technical scheme, given the utility model discloses the health of person of dress can be guaranteed to the function of good two-way temperature regulation and adaptation.

The present invention may be further configured in a preferred embodiment as: the energy storage composite fiber comprises bamboo charcoal fiber and nano antibacterial regenerated protein fiber spirally wound around the circumference of the bamboo charcoal fiber.

By adopting the technical scheme, the bamboo charcoal fiber has strong toughness and wear resistance, has unique rebound resilience, further prevents the first cotton thread fiber from being washed and wrinkled, has moisture absorption and air permeability, antibacterial property, green environmental protection property and ultraviolet resistance, and further ensures the health degree of a wearer; the nano antibacterial regenerated protein fiber has the functions of bidirectional temperature adjustment and adaptation, ensures the body temperature of a wearer, has good antibacterial property, and further ensures the health degree of the wearer.

The present invention may be further configured in a preferred embodiment as: the first antistatic hemming fabric comprises second warps and second wefts, and the compositions of the second warps and the second wefts are the same; the second warp comprises second cotton fiber and second DDY composite conductive fiber.

Through adopting above-mentioned technical scheme, the second cotton thread fibre guarantees the utility model discloses good ventilative hygroscopicity and close skin nature, the compound conductive fiber of second DDY guarantees the utility model discloses good antistatic properties.

The present invention may be further configured in a preferred embodiment as: the second anti-static hemming fabric comprises third warps and third wefts, and the third warps and the third wefts are identical in composition; the third warp comprises third cotton fiber, third DDY composite conductive fiber and polyacrylonitrile-based activated carbon fiber.

By adopting the technical scheme, the third DDY composite conductive fiber ensures the good antistatic performance of the utility model; polyacrylonitrile base activated carbon fiber can adsorb and remove the peculiar smell that gives off in summer armpit, promotes the utility model discloses a wearing comfort and bacterinertness.

The present invention may be further configured in a preferred embodiment as: the first antistatic spinning thread comprises a polyester sewing thread serving as a core thread and a nylon outer cladding layer wrapping the outer wall of the polyester sewing thread.

Through adopting above-mentioned technical scheme, promote first antistatic spinning and the antistatic spinning wearability of second, promote the utility model discloses a sewing strength, thereby promote the utility model discloses a life.

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

1. through T-shirt main part, T-shirt front portion, T-shirt rear portion, T-shirt cuff portion, the sleeveless T-shirt body, first antistatic spinning thread, the anti static spinning thread of second, first antistatic hemming surface fabric, the anti static hemming surface fabric of second and antistatic composite surface fabric, effectively promoted the utility model discloses an antistatic performance and the comparatively comfort level of wearing.

2. Through the third cotton thread fibre in the anti static hemming surface fabric of second, compound conductive fiber of third DDY and polyacrylonitrile base activated carbon fiber, the peculiar smell that the adsorbable armpit gived off in summer promotes the utility model discloses a wearing travelling comfort, antistatic properties and bacterinertness.

Drawings

FIG. 1 is a schematic diagram of a prior art configuration;

FIG. 2 is a schematic overall structure diagram of the first embodiment;

FIG. 3 is a schematic partial structure view of the first embodiment, mainly showing the connecting structure of the front part of the T-shirt, the back part of the T-shirt, the first antistatic hemming fabric and the sleeveless T-shirt body;

FIG. 4 is a schematic partial structure diagram of the first embodiment, which mainly shows a connection structure of a T-shirt cuff and a second anti-static hemming fabric;

fig. 5 is a vertical sectional view of the first antistatic yarn in the first embodiment;

fig. 6 is a schematic structural view of the first antistatic hemming fabric in the first embodiment;

fig. 7 is a schematic structural view of a second anti-static welt fabric in the first embodiment;

FIG. 8 is a schematic structural diagram of an antistatic composite fabric according to the first embodiment;

FIG. 9 is a schematic structural view of an antistatic composite fabric according to the second embodiment;

FIG. 10 is a schematic structural diagram of an antistatic composite fabric in the third embodiment;

fig. 11 is a schematic structural diagram of an energy storage composite fiber in the third embodiment.

In the figure, 1, a polyester-cotton fabric main body; 101. cotton fibers; 102. polyester fiber; 11. a first cotton fiber; 12. first mulberry silk; 13. a first DDY composite conductive fiber; 14. an energy storage composite fiber; 15. bamboo charcoal fiber; 16. nano antibacterial regenerated protein fiber; 17. chitin fiber; 2. a T-shirt body; 21. the front part of the T-shirt; 22. the back of the T-shirt; 23. t-shirt cuff portions; 24. a sleeveless T-shirt body; 3. a first antistatic yarn; 30. a second antistatic yarn; 31. polyester sewing threads; 32. a nylon overwrap; 4. a first antistatic hemming fabric; 40. a second anti-static hemming fabric; 401. a third warp thread; 402. a third weft; 403. a third cotton fiber; 404. a third DDY composite conductive fiber; 405. polyacrylonitrile-based activated carbon fibers; 41. a second warp thread; 42. a second weft; 43. a second cotton fiber; 44. a second DDY composite conductive fiber; 5. antistatic composite fabric; 51. a first warp thread; 52. the first weft.

Detailed Description

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

The first embodiment is as follows:

referring to fig. 2 and 3, for the antistatic T-shirt disclosed by the utility model, the antistatic T-shirt comprises a T-shirt main body 2, wherein the T-shirt main body 2 comprises a T-shirt front part 21, a T-shirt rear part 22 and a T-shirt cuff part 23, and a sleeveless T-shirt body 24 is sewn on the T-shirt front part 21 and the T-shirt rear part 22; a cuff part 23 of the T-shirt is sewn at the cuff part of a sleeve-free T-shirt body 24 to form a T-shirt body 2, and a first antistatic hemming fabric 4 is sewn between the sewn edge of the front part 21 of the T-shirt and the sewn edge of the rear part 22 of the T-shirt through a first antistatic spun yarn 3; referring to fig. 4, a second antistatic hemming fabric 40 is sewn between the cuff sewn edge of the sleeveless T-shirt body 24 and the sewn edge of the T-shirt cuff 23 through a second antistatic spun yarn 30; the T-shirt front 21, T-shirt back 22 and T-shirt cuff 23 are all made of antistatic composite fabric 5 (identified in FIG. 7).

Referring to fig. 2 and 5, the first and second antistatic yarns 3 and 30 have the same structure; taking the first antistatic spun yarn 3 as an example, the first antistatic spun yarn 3 includes a polyester sewing thread 31 as a core thread, and the outer wall of the polyester sewing thread 31 is wrapped with a nylon outer wrapping layer 32 for improving the wear resistance of the first antistatic spun yarn 3.

Referring to fig. 6, the first antistatic hemming fabric 4 includes second warp threads 41 and second weft threads 42, and the composition of the second warp threads 41 and the second weft threads 42 is the same; second warp 41 includes second cotton fiber 43, the compound electrically conductive fibre 44 of second DDY, preferentially shenzhen zhong cheng innovative technology limited's DDY compound electrically conductive fibre-electrically conductive filament, guarantees in the city the utility model discloses good antistatic properties.

Referring to fig. 7, the second anti-static hemming fabric 40 includes third warp 401 and third weft 402, and the third warp 401 and the third weft 402 have the same composition; the third warp 401 comprises a third cotton fiber 403, a third DDY composite conductive fiber 404 and a polyacrylonitrile-based activated carbon fiber 405, the third DDY composite conductive fiber 404 is preferably a DDY composite conductive fiber-conductive filament of cheng innovative technologies limited in shenzhen city, and ensures the good antistatic performance of the utility model; polyacrylonitrile based activated carbon fiber 405 adsorbable summer armpit emanates the peculiar smell, promotes the utility model discloses a wearing comfort and bacterinertness.

Referring to fig. 8, the antistatic composite fabric 5 includes first warp 51 and first weft 52, and the first warp 51 and the first weft 52 have the same composition; the first warp 51 comprises first cotton fibers 11, first mulberry silk 12 and first DDY composite conductive fibers 13, and the first mulberry silk 12 has good rebound resilience to prevent the first cotton fibers 11 from being washed and wrinkled; first DDY compound conductive fiber 13 prefers DDY compound conductive fiber-conductive filament of cheng innovative technology limited company in Shenzhen city, further guarantees the utility model discloses good antistatic performance.

Example two:

the difference between the second embodiment and the first embodiment is that: referring to fig. 9, the first warp yarn 51 includes first cotton yarn fibers 11, first mulberry silk 12, first DDY composite conductive fibers 13, and chitin fibers 17. The good rebound resilience of the first mulberry silk 12 can prevent the first cotton thread fiber 11 from being washed and wrinkled; the first DDY composite conductive fiber 13 is preferably DDY composite conductive fiber-conductive filament of shengzi innovative science and technology limited in Shenzhen city, and the good antistatic performance of the utility model is further ensured; the chitin fiber 17 endows the utility model with good sterilization and skin-friendly performance, and is more comfortable and sanitary to wear.

Example three:

the difference between the third embodiment and the first embodiment is that: referring to fig. 10, the first warp 51 includes first cotton fibers 11, first mulberry silk 12, first DDY composite conductive fibers 13, chitin fibers 17, and energy storage composite fibers 14 having a bidirectional temperature adjusting function. The good rebound resilience of the first mulberry silk 12 can prevent the first cotton thread fiber 11 from being washed and wrinkled; the first DDY composite conductive fiber 13 is preferably DDY composite conductive fiber-conductive filament of shengzi innovative science and technology limited in Shenzhen city, and the good antistatic performance of the utility model is further ensured; the chitin fiber 17 endows the utility model with good sterilization and skin-friendly performance, and is more comfortable and sanitary to wear. With reference to fig. 11, the wearer is prone to sweat in hot summer, especially after the wearer has moved, a large amount of sweat is evaporated to cause a cold, the energy storage composite fiber 14 can perform a bidirectional temperature adjustment function, the body temperature of the wearer is maintained, and the health degree of the wearer is improved. The energy storage composite fiber 14 comprises a bamboo charcoal fiber 15 and a nano antibacterial regenerated protein fiber 16 spirally wound around the bamboo charcoal fiber 15. The bamboo charcoal fiber 15 has high toughness and wear resistance and unique rebound resilience, further prevents the first cotton thread fiber 11 from being washed and wrinkled, and also has moisture absorption and air permeability, antibacterial property, green environmental protection property and ultraviolet resistance, and further ensures the health degree of a wearer; the nano antibacterial regenerated protein fiber 16 has the functions of bidirectional temperature adjustment and adaptation, ensures the body temperature of a wearer, has good antibacterial property, and further ensures the health degree of the wearer.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. An antistatic T-shirt comprises a T-shirt body (2), wherein the T-shirt body (2) comprises a T-shirt front part (21), a T-shirt rear part (22) and a T-shirt cuff part (23), and a sleeveless T-shirt body (24) is sewn on the T-shirt front part (21) and the T-shirt rear part (22); the sleeve opening part (23) of the T-shirt is sewed at the sleeve opening of the sleeveless T-shirt body (24) to form a T-shirt main body (2), which is characterized in that: a first antistatic hemming fabric (4) is sewn between the sewn edge of the front part (21) of the T-shirt and the sewn edge of the rear part (22) of the T-shirt through a first antistatic spinning thread (3); a second anti-static hemming fabric (40) is sewn between the cuff sewing edge of the sleeveless T-shirt body (24) and the sewing edge of the T-shirt cuff (23) through a second anti-static spun yarn (30); the first antistatic spinning (3) and the second antistatic spinning (30) have the same structure; the T-shirt front part (21), the T-shirt back part (22) and the T-shirt cuff part (23) are all made of antistatic composite fabric (5).

2. An antistatic T-shirt according to claim 1, characterized in that: the antistatic composite fabric (5) comprises first warps (51) and first wefts (52), and the first warps (51) and the first wefts (52) are identical in composition; the first warp (51) comprises first cotton thread fibers (11), first mulberry silk (12) and first DDY composite conductive fibers (13).

3. An antistatic T-shirt according to claim 2, characterized in that: the first warp yarn (51) further comprises chitin fibres (17).

4. An antistatic T-shirt according to claim 2, characterized in that: the first warp (51) further comprises an energy storing composite fibre (14) with a bidirectional tempering function.

5. An antistatic T-shirt according to claim 4, characterized in that: the energy storage composite fiber (14) comprises a bamboo charcoal fiber (15) and a nano antibacterial regenerated protein fiber (16) spirally wound on the circumference of the bamboo charcoal fiber (15).

6. An antistatic T-shirt according to claim 1, characterized in that: the first antistatic hemming fabric (4) comprises second warps (41) and second wefts (42), and the second warps (41) and the second wefts (42) are identical in composition; the second warp (41) comprises second cotton fibers (43) and second DDY composite conductive fibers (44).

7. An antistatic T-shirt according to claim 1, characterized in that: the second anti-static hemming fabric (40) comprises third warps (401) and third wefts (402), and the third warps (401) and the third wefts (402) are identical in composition; the third warp (401) comprises third cotton fibers (403), third DDY composite conductive fibers (404) and polyacrylonitrile-based activated carbon fibers (405).

8. An antistatic T-shirt according to claim 1, characterized in that: the first antistatic spinning thread (3) comprises a polyester sewing thread (31) serving as a core thread and a nylon outer cladding (32) wrapping the outer wall of the polyester sewing thread (31).

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