阅读说明：本技术 一种纤维素纤维长丝在防切割纺织品领域中的应用 (Application of cellulose fiber filament in anti-cutting textile field ) 是由 何英杰 于 2021-08-23 设计创作，主要内容包括：本申请涉及一种纤维素纤维长丝在防切割纺织品领域中的应用,涉及防切割纺织品的领域,其包括纤维素纤维长丝在防切割纺织品领域中的应用。本申请具有纤维素纤维长丝表面较为顺滑,与皮肤接触时较为舒适,同时吸湿排汗性能较好,舒适度高的效果。(The present application relates to the field of cut-resistant textiles, including the use of cellulose fiber filaments in the field of cut-resistant textiles. The application has the effects that the surface of the cellulose fiber filament is smooth, the surface is comfortable when the cellulose fiber filament is in contact with the skin, the moisture absorption and sweat releasing performance is good, and the comfort level is high.)

1. The application of the cellulose fiber filament in the field of the anti-cutting textile is characterized in that the cellulose fiber filament is applied in the field of the anti-cutting textile.

2. Use of a cellulose fibre filament according to claim 1 in the field of cut-resistant textiles, characterised in that: use of cellulose fibre filaments in fabrics, cuffs, gowns, headgear and gloves.

3. Use of a cellulose fibre filament according to claim 1 in the field of cut-resistant textiles, characterised in that: the first anti-cutting yarn is formed by the cellulose fiber filament and the anti-cutting fiber through a core-spun process, the anti-cutting fiber is coated outside the cellulose fiber filament, and the first anti-cutting yarn is applied to fabric, sleeves, clothes, headgear, gloves, armguards, neck guards, knee pads and socks.

4. Use of a cellulose fibre filament according to claim 1 in the field of cut-resistant textiles, characterised in that: the cellulose fiber filament and the anti-cutting staple fiber yarn form a second anti-cutting yarn through any one of double twisting, doubling, cladding and weaving, and the second anti-cutting yarn is applied to fabrics, sleeves, clothes, headgear, gloves, armguards, neck guards, knee pads and socks.

5. Use of cellulose fibre filaments according to claim 4 in the field of cut-resistant textiles, characterised in that: the anti-cutting staple fiber yarn comprises HPPE and aramid fiber.

6. Use of a cellulose fibre filament according to claim 1 in the field of cut-resistant textiles, characterised in that: the cellulose fiber filament and the cutting-proof filament yarn are subjected to any one of double twisting, doubling, coating and weaving to form a third-prevention cutting yarn, and the third-prevention cutting yarn is applied to fabrics, sleeves, clothes, headgear, gloves, armguards, neck guards, knee pads and socks.

7. Use of a cellulose fibre filament according to claim 6 in the field of cut-resistant textiles, characterised in that: the anti-cutting filament yarn comprises HPPE, aramid fiber, glass fiber, basalt fiber and metal fiber.

8. Use of a cellulose fibre filament according to claim 1 in the field of cut-resistant textiles, characterised in that: the cellulose fiber filaments and the anti-cutting yarns are mixed and woven or interwoven to form the anti-cutting fabric.

9. Use of a cellulose fibre filament according to claim 8 in the field of cut-resistant textiles, characterised in that: the cutting-proof fabric is applied to fabric, oversleeves, clothes protectors, headgear, gloves, armguards, neck protectors, knee pads and socks.

Technical Field

The present application relates to the field of cut resistant textiles, and in particular to the use of a cellulose fiber filament in the field of cut resistant textiles.

Background

Cellulose fiber is also called artificial fiber, mainly comprises viscose fiber, acetate fiber, cuprammonium fiber and the like, and is obtained by remolding cellulose molecules of natural substances such as cotton linters, woods, bamboos, bagasse, reeds and the like through a certain process treatment method.

The cellulose fiber filament fabric has good air permeability, is known as breathable fabric, can not feel sultry when being worn in summer, has air permeability superior to pure cotton fabric, is ideal close-fitting fabric and health-care clothing products, and is beneficial to human physiological circulation and health.

The fabrics in the general labor protection industry, such as shoes and clothes, are generally made of cellulose staple fibers, but the cellulose staple fibers are rough due to more ends, so that the wearer feels uncomfortable.

Disclosure of Invention

In order to ameliorate the problem of discomfort in the wearing of labor protection fabrics, the present application provides the use of cellulose fiber filaments in the field of cut resistant textiles.

The application of the cellulose fiber filament in the field of the anti-cutting textile adopts the following technical scheme:

the application of cellulose fiber filament in the field of anti-cutting textiles and the application of cellulose fiber filament in the field of anti-cutting textiles.

Through adopting above-mentioned technical scheme, cellulose fiber filament surface is comparatively smooth, when touching with sharp-pointed object, and sharp-pointed object probably produces and skids, is difficult for causing the damage to cellulose fiber filament, simultaneously when contacting with user's skin, also more comfortable, is difficult for producing uncomfortable and feels, promotes user's use and experiences. In addition, the cellulose fiber filaments have good moisture-conducting performance, so that sweat can be dispersed conveniently, and the comfort level of a user is further improved.

Optionally, the cellulosic fiber filaments are used in fabrics, cuffs, gowns, headgear and gloves.

Through adopting above-mentioned technical scheme, be convenient for promote the comfort level of wearer, cellulose fiber filament surface is comparatively smooth simultaneously, when touching with sharp-pointed article, and sharp-pointed article is difficult for causing the damage to cellulose fiber filament, can promote the durability of fabric.

Optionally, the cellulose fiber filaments and the cut-preventing fibers form first cut-preventing yarns through a core-spun process, the cut-preventing fibers are coated outside the cellulose fiber filaments, and the first cut-preventing yarns are applied to fabrics, sleeves, clothes, headgear, gloves, arms, necks, kneecaps and socks.

Through adopting above-mentioned technical scheme, prevent that the cutting fibre is with cellulose fiber filament cladding in, prevent that the cutting fibre possesses better cutting performance of preventing, be difficult for being cut the damage, cellulose fiber filament then possesses better elasticity, can take place elastic deformation when being cut and come the power of unloading, and the two combines, further promotes the first cutting performance of preventing cutting yarn.

Optionally, the cellulose fiber filaments and the cut-resistant staple fiber yarn are subjected to any one of double twisting, doubling, covering and knitting to form a second cut-resistant yarn, and the second cut-resistant yarn is applied to fabrics, sleeves, gowns, headgear, gloves, armguards, neck guards, knee pads and socks.

Through adopting above-mentioned technical scheme, the staple is more fluffy relatively, and its hydrofuge performance is better, prevents cutting the staple fiber yarn self simultaneously and possesses and prevent cutting the performance, mixes the back with cellulose fiber filament, comfort level when can further increase the second and prevent cutting the yarn and dress.

Optionally, the cut-resistant staple yarn comprises HPPE and aramid.

Through adopting above-mentioned technical scheme, adopt HPPE and aramid fiber for prevent cutting of cutting short fiber yarn prevents that cutting performance is better, and it is also comparatively comfortable to dress simultaneously.

Optionally, the cellulose fiber filaments and the cut-resistant filament yarns are formed into a third cut-resistant yarn by any one of double twisting, doubling, covering and knitting, and the third cut-resistant yarn is applied to fabrics, cuffs, gowns, headgear, gloves, armguards, neckguards, kneepads and socks.

Through adopting above-mentioned technical scheme, adopt and prevent cutting filament yarn, its bulk strength is better, and the smoothness is higher, prevents cutting filament yarn and cellulose fiber filament combination, further increases the bulk strength of third prevention cutting yarn.

Optionally, the cut-resistant filament yarn comprises HPPE, aramid, glass fiber, basalt fiber, metal fiber.

By adopting the technical scheme, the anti-cutting filament yarn is made of HPPE, aramid fiber, glass fiber, basalt fiber, metal fiber and the like, and has good anti-cutting performance and strength.

Optionally, the cellulose fiber filaments and the cut-resistant yarn are mixed or interwoven to form a cut-resistant fabric, and the cut-resistant fabric is applied to fabrics, cuffs, gowns, headgear, gloves, armguards, neck guards, knee pads and socks.

Through adopting above-mentioned technical scheme, the cellulose fiber filament is woven with preventing cutting yarn and is formed the cutting surface fabric of preventing for when preventing that the cutting surface fabric possesses better cutting performance, it is also comparatively comfortable to dress.

Optionally, the cut-resistant fabric is applied to fabrics, cuffs, gowns, headgear, gloves, armguards, neck guards, knee pads and socks.

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

the cellulose fiber filament is applied to the field of anti-cutting fabrics, the surface of the cellulose fiber filament is smooth and is comfortable when being contacted with skin, and the cellulose fiber filament is easy to slip when being cut by sharp articles, so that the cellulose fiber filament is not easy to cut, meanwhile, the surface of the cellulose fiber filament is smooth, the fabrics or users are not easy to scratch when the fabrics are rubbed, the moisture-conducting performance of the cellulose fiber filament is also good, and the comfort level of the cellulose fiber filament is also high while the cellulose fiber filament has good safety;

through the first setting of preventing cutting yarn, prevent that cutting fiber is with cellulose fiber filament cladding in, prevent that cutting fiber possesses better cutting performance of preventing, be difficult for being damaged by the cutting, cellulose fiber filament then possesses better elasticity, can take place elastic deformation when being cut and unload the power, and the two combines, further promotes the first cutting performance of preventing of cutting yarn.

Drawings

Fig. 1 is a schematic view showing the overall structure in embodiment 6 of the present application.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic structural view of the whole body in embodiment 7 of the present application.

Description of reference numerals: 1. a protective layer; 11. a first yarn; 2. a shrink layer; 21. a second yarn; 211. a protection section; 212. a contraction section; 213. gluing points; 3. a skin care layer; 4. splicing the layers; 41. and a fourth yarn.

Detailed Description

Example 1:

the application discloses an application of cellulose fiber filaments in the field of anti-cutting textiles.

The application of the cellulose fiber filament in the field of the anti-cutting textile comprises the application of the cellulose fiber filament in the field of the anti-cutting textile, and the field of the anti-cutting textile comprises fabric, armguards, protective clothing, headgear, gloves, armguards, neck guards, knee pads, socks and the like.

The garment includes a first cut resistant yarn, and a plurality of first cut resistant yarns are woven to form the garment. The first anti-cutting yarn can be made of anti-cutting fibers and cellulose fiber filaments by adopting a core-spun process, and the anti-cutting fibers wrap the cellulose fiber filaments to protect the cellulose fiber filaments. The material of the anti-cutting fiber can be HPPE short fiber or aramid short fiber, and can also be the mixture of the HPPE short fiber and the aramid short fiber.

Example 2:

the application also discloses an application of the cellulose fiber filament in the field of anti-cutting textiles.

The headgear comprises second cut-resistant yarns, and a plurality of second cut-resistant yarns are woven to form the headgear. The second cut-resistant yarn may be formed by combining a cut-resistant staple yarn with a cellulose fiber filament in one of a double twist, a doubling, a wrapping and a weaving. The material of the anti-cutting staple fiber yarn can be HPPE staple fibers or aramid staple fibers, and can also be a mixture of the HPPE staple fibers and the aramid staple fibers.

Example 3:

the application also discloses an application of the cellulose fiber filament in the field of anti-cutting textiles.

The guard arm comprises third-prevention cutting yarns, and a plurality of third-prevention cutting yarns are woven to form the guard arm. The third cut-resistant yarn may be a combination of cellulose fiber filaments and cut-resistant filament yarns, the combination being one of two-for-one twisting, doubling, wrapping and weaving. The material of the anti-cutting filament yarn can be HPPE, aramid fiber, glass fiber, basalt fiber and metal fiber, and can also be a mixture of various HPPE, aramid fiber, glass fiber, basalt fiber and metal fiber.

Example 4:

the application also discloses an application of the cellulose fiber filament in the field of anti-cutting textiles.

The kneepad is made of a cut-resistant fabric which may be formed by co-weaving or interweaving cellulose fiber filaments and cut-resistant yarns. The anti-cutting yarn can be made of HPPE, aramid fiber, glass fiber, basalt fiber and metal fiber, or can be a mixture of various HPPE, aramid fiber, glass fiber, basalt fiber and metal fiber, and the mixing mode can be one of double twisting, doubling, coating and weaving, or a combination of various double twisting, doubling, coating and weaving.

Example 5:

the application also discloses an application of the cellulose fiber filament in the field of anti-cutting textiles.

The oversleeve includes fire-retardant yarn, and a plurality of fire-retardant yarns are woven in order to form the oversleeve, and fire-retardant yarn includes cellulose fiber filament and fire-retardant fibre, and fire-retardant fibre can be acrylic fiber, aramid fiber, fire-retardant dacron and melamine fibre etc. adopts acrylic fiber in this embodiment. The cellulose fiber filament and the acrylic fiber adopt a core-spun process, so that the acrylic fiber wraps the cellulose fiber filament to protect the cellulose fiber filament, and the possibility of ignition of the cellulose fiber filament is reduced. When the protective sleeve is cut by the sharp article, the acrylic fiber is firstly cut by the sharp article and then is blocked by the cellulose fiber filament.

The application principle of the application of the cellulose fiber filament in the field of the anti-cutting textile is as follows in the embodiment 5: the acrylic fiber covers the cellulose fiber filament to protect the cellulose fiber filament, so that the possibility of ignition of the cellulose fiber filament is reduced.

Example 6:

the application discloses an application of cellulose fiber filaments in the field of anti-cutting textiles.

The difference from example 5 is that the cuff comprises an elastic yarn, and a plurality of elastic yarns are woven to form the cuff. The elastic yarn comprises cellulose fiber filaments and elastic fibers, the elastic fibers can be spandex fibers, elastic polyolefin fibers and elastic composite fibers, and the spandex fibers adopted in the embodiment have good elasticity and good heat preservation performance. The cellulose fiber filament and the spandex fiber adopt a core-spun process, so that the spandex fiber is wrapped in the cellulose fiber filament, and the possibility of cutting the spandex fiber is reduced.

Referring to fig. 1 and 2, the protective sleeve comprises a protective layer 1, a shrinkage layer 2 and a skin care layer 3 which are sequentially arranged from outside to inside, the protective layer 1 comprises a plurality of first yarns 11 which are arrayed along the radial direction of the protective layer, and the adjacent first yarns 11 are mutually abutted. The shrinkable layer 2 comprises a plurality of second yarns 21 arrayed along the radial direction of the shrinkable layer 2, the adjacent second yarns 21 are mutually abutted, the shrinkable layer 2 and the protective layer 1 are mutually parallel, and the first yarns 11 and the second yarns 21 are mutually perpendicular. One end of the second yarn 21 passes through the protective layer 1, passes over one first yarn 11, extends a distance, then passes back into the protective layer 1, and passes under the other first yarn 11. The second yarns 21 form a protection section 211 outside the protection layer 1, and form a contraction section 212 inside the protection layer 1, the protection section 211 and the contraction section 212 are arranged in an array along the length direction of the second yarns 21, and the protection section 211 and the contraction section 212 are arranged in a staggered manner. The second yarns 21 are provided with adhesive dots 213 at positions below the first yarns 11, and the adhesive dots 213 are formed by adhering glue, so that the adjacent second yarns 21 are adhered together by the adhesive dots 213. The protective section 211 is in a stretched state in the process of weaving the fabric, when the protective section 211 is broken, the elasticity of the second yarn 21 urges the protective section 211 to retract into the protective layer 1, the length of the protective section 211 is small, and the possibility that the longer second yarn 21 needs to be cut off after the second yarn 21 is broken is reduced. Meanwhile, the protection section 211 is directly retracted into the protection layer 1 after being broken, manual cleaning is not needed, attractiveness is kept, and practicability of the oversleeve is improved. The first yarn 11 and the second yarn 21 are both made of elastic yarns, the skin care layer 3 is formed by weaving the elastic yarns, and the skin care layer 3, the shrinkage layer 2 and the protection layer 1 are sewn and formed.

The application principle of the application of the cellulose fiber filament in the field of the anti-cutting textile is as follows in the embodiment 6: the first yarn 11 and the second yarn 21 are woven to form the protective layer 1 and the shrinkage layer 2, then the adhesive dots 213 are formed on the second yarn 21, and then the skin care layer 3 is sewn with the protective layer 1. The spandex fibers are covered by the cellulose fiber filaments, so that the possibility of cutting the spandex fibers is reduced, and meanwhile, the elastic yarn has good elasticity.

Example 7:

the application discloses an application of cellulose fiber filaments in the field of anti-cutting textiles.

The difference from example 5 is that the cuff comprises a flame retardant elastic yarn, and a plurality of flame retardant elastic yarns are interwoven to form the cuff. The flame-retardant elastic yarn comprises cellulose fiber filaments, flame-retardant fibers and elastic fibers, wherein the flame-retardant fibers can be acrylic fibers, aramid fibers, flame-retardant polyester fibers and melamine fibers, and the acrylic fibers are adopted in the embodiment; the spandex fibers can be spandex fibers, spandex polyolefin fibers, or spandex composite fibers, and are used in this embodiment. The cellulose fiber filaments, the acrylic fibers and the spandex fibers are made into the flame-retardant elastic yarn by adopting a two-for-one twisting process, so that the flame-retardant elastic yarn has better cutting resistance, elasticity and flame retardance, and the comfort and the safety of the manufactured fabric are further improved.

Referring to fig. 3, the cuff comprises a plurality of spliced layers 4, the spliced layers 4 being spliced to each other to form the cuff. Make up through the third yarn between the adjacent splice layer 4 for splice layer 4 can directly change splice layer 4 when appearing damaging, compare in adding the shelter from the thing at impaired department, and is more pleasing to the eye and natural. The splice layer 4 includes fourth yarns 41, and the fourth yarns 41 are arranged in an S-shape along the transverse direction, and after being arranged for a plurality of times, are arranged in an S-shape along the longitudinal direction for a plurality of times, so as to form the rectangular splice layer 4. In the MD arrangement, the fourth yarn 41 passes under the CD arranged fourth yarn 41, passes over the CD arranged fourth yarn 41, and then passes under the CD arranged fourth yarn 41, and so on, to facilitate the formation of the splice layer 4. The transversely arranged fourth yarns 41 are mutually abutted, the longitudinally arranged fourth yarns 41 are also mutually abutted, so that the splicing layer 4 is formed by one fourth yarn 41, when a certain part of the splicing layer 4 is damaged, the reduced part of the fourth yarn 41 can be also detached from the splicing layer 4, the reutilization is convenient, and the energy conservation and the environmental protection are facilitated.

The application principle of the application of the cellulose fiber filament in the field of the anti-cutting textile is as follows in embodiment 7: when the oversleeve is manufactured, the plurality of splicing layers 4 are woven firstly, and then the plurality of splicing layers 4 are sewn through the third yarns to form the oversleeve. When one of the splice layers 4 is damaged, the splice layer 4 can be removed, replaced with a new splice layer 4, and the removed splice layer 4 can be restored to yarn.

The garment in example 1 can also be replaced with fabric, sleeves, headgear, gloves, armguards, neck guards, knee pads, socks, and the like. The headgear in example 2 can also be replaced with fabric, sleeves, gowns, gloves, armguards, neck guards, knee pads, socks, and the like. The armguard of example 3 can also be replaced with fabric, sleeves, a garment, headgear, gloves, a neck protector, knee pads, socks, and the like. The knee pad of example 4 can also be replaced with fabric, sleeve protector, garment protector, headgear, gloves, armguard, neck protector, socks, and the like. The sleeve protectors of examples 5, 6 and 7 can also be replaced by fabrics, clothes, headgear, gloves, armguards, neck guards, knee pads, socks and the like.

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.