CN218640485U - Heat-insulating antistatic kasuga fabric - Google Patents

Abstract

The utility model discloses a thermal-insulated antistatic spring is spun inferior relates to the technical field of surface fabric, and its technical scheme main points are: including nexine and surface course, the nexine is provided with a plurality of first archs towards the array in the one side of surface course, the surface course is provided with a plurality of second archs towards the array in the one side of nexine, first bellied top is connected with the bellied top of second, and is a plurality of first arch and a plurality of second arch form the heat preservation chamber between with nexine and surface course, a plurality of bleeder vents of being connected with the heat preservation chamber are seted up to the array on the nexine, be provided with the pile towards the bleeder vent on the one side of nexine on the surface course. The utility model discloses a set up acrylic fibre and viscose, acrylic fibre has softness, cold-proof thermal-insulated, powerful good characteristic, and the viscose has the characteristic that is difficult for producing static, has guaranteed the thermal-insulated effect of preventing static of whole surface fabric.

Description

Heat-insulating antistatic kasuga fabric

Technical Field

The utility model relates to a technical field of surface fabric, more specifically says that it relates to a thermal-insulated antistatic spring inferior textile.

Background

The Chunzhan fabric is a long-standing old-fashioned product, but in recent years, the product is reformed in the textile world in lusterless areas, and besides the extinction yarn raw material and the weaving process are adopted, the product is extended in the dyeing and finishing post-treatment process, the density is increased, the hand feeling is softer, the function is more expanded, and the quick-drying type Chunzhan fabric is one of the functional type Chunzhan fabrics.

The traditional Chunzhan is mainly formed by weaving polyester fibers, so that the gloves worn on hands by girls are easy to generate static electricity in winter, the static electricity is generated when the gloves are worn to prick hair, and the gloves worn in winter need to achieve a heat preservation effect to prevent hands from being frostbitten.

Therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a it prevents static spring inferior spinning to insulate against heat for form the heat preservation chamber between surface course and the nexine through set up second arch and first arch on surface course and nexine respectively, set up the pile towards the nexine on the surface course, a plurality of bleeder vents are seted up to the array on the nexine, can prevent that the surface course from producing static and make the surface course have the heat preservation effect simultaneously, thereby make gloves not produce static to the hair.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a thermal-insulated antistatic spring inferior spins, is including nexine and surface course, the nexine is provided with a plurality of first archs towards the array in the one side of surface course, the array is provided with a plurality of seconds archs in the one side of surface course orientation nexine, first bellied top is connected with the bellied top of second, and is a plurality of first arch and a plurality of second arch form the heat preservation chamber between with nexine and surface course, a plurality of bleeder vents of being connected with the heat preservation chamber are seted up to the array on the nexine, be provided with the pile towards the bleeder vent in the one side of surface course orientation nexine.

The utility model discloses further set up to: the surface layer is formed into a variable square and flat tissue through warp and weft weaving of a plurality of first composite yarns.

The utility model discloses further set up to: the change square and flat organization is 8 pages of healds, the warp floating points are floating points, the weft floating points are sinking points, and the organization cycle of the change square and flat organization from left to right and from bottom to top is as follows: floating, sinking and floating sinking, floating, sinking, floating and sinking floating-sinking, floating-floating, floating-sinking, floating-floating, floating-sinking sinking-floating-sinking-floating.

The utility model discloses further set up to: the first composite yarn is formed by twisting a plurality of acrylic fibers and a plurality of viscose glue.

The utility model discloses further set up to: the lining is formed by weaving a plurality of second composite yarns in a warp-weft mode, and the second composite yarns sequentially comprise a core layer, a supporting layer and a winding layer from inside to outside.

The utility model discloses further set up to: the core layer is formed by twisting bamboo fibers and a plurality of hemp.

The utility model discloses further set up to: the supporting layer is arranged on the outer side of the core layer through a plurality of profiled cross-section fibers in a parallel mode, and the cross section of each profiled cross-section fiber is C-shaped.

The utility model discloses further set up to: the winding layer comprises winding yarns which are sparsely wound on the outer side of the supporting layer, and the winding yarns are formed by twisting a plurality of tencel yarns and a plurality of viscose.

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

when this surface fabric is made into gloves and is dressed the use, can have certain steam in the air, people's hand also can sweat, the sweat evaporates and passes the nexine, it will have the air intercommunication of sweat to set up the bleeder vent on the nexine to the heat preservation intracavity, steam in the heat preservation intracavity air is different because of surface course and nexine difference in temperature, some steam can be attached to on the pile of surface course, make the surface course keep certain humidity, form the heat preservation chamber between surface course and the nexine, can prevent that the surface course from producing static and make the surface fabric have the heat preservation effect simultaneously, thereby make gloves not produce static to the hair and keep warm to prevent frostbite in the gloves simultaneously.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a cross-sectional view of a modified basket structure of the present invention;

fig. 4 is a cross-sectional view of a first composite yarn of the present invention;

fig. 5 is a cross-sectional view of a second composite yarn of the present invention.

In the figure: 1. an inner layer; 2. a surface layer; 3. a first protrusion; 4. a second protrusion; 5. a heat preservation cavity; 6. air holes are formed; 7. plush; 8. a first composite yarn; 9. acrylic fibers; 10. gluing; 11. a second composite yarn; 12. a core layer; 13. a support layer; 14. bamboo fiber; 15. hemp; 16. profiled cross-section fibers; 17. winding the yarn; 18. and (5) Tencel.

Detailed Description

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

The utility model provides a thermal-insulated antistatic spring is spun, as shown in fig. 1-5, including nexine 1 and surface course 2, the array is provided with a plurality of first archs 3 on the one side of nexine 1 towards surface course 2 of nexine 1, the array is provided with a plurality of protruding 4 of second on the one side of surface course 2 towards nexine 1, the top of first protruding 3 is connected with the protruding 4 top of second, a plurality of first protruding 3 and a plurality of protruding 4 of second form heat preservation chamber 5 between with nexine 1 and surface course 2, a plurality of bleeder vents 6 of being connected with heat preservation chamber 5 are seted up on the array on nexine 1, be provided with the pile 7 with bleeder vent 6 intercommunication on the one side towards nexine 1 on surface course 2.

As shown in fig. 1-5, a plurality of acrylon 9 and viscose glue 10 are put into a twisting machine to be twisted to form a first composite yarn 8, a plurality of first composite yarns 8 are put into an air jet weaving machine to form a surface layer 2 through warp and weft weaving in a changed square tissue weaving mode, the changed square tissue is 7 pages of healds, the warp floating point is floating, the weft floating point is sinking, and the changed square tissue from bottom to top is in a structure cycle from left to right: <xnotran> , , , , , , , , 9 , , , 10 , , . </xnotran>

As shown in fig. 1-5, a bamboo fiber 14 and a plurality of hemp 15 are put into a twisting machine to be twisted to form a core layer 12, terylene is spun by a spinneret plate to form a profiled cross-section fiber 16 with a C-shaped cross section, the profiled cross-section fiber 16 is doubled to form a supporting layer 13 on the outer side of the core layer 12, a plurality of tencel 18 and a plurality of viscose 10 are put into the twisting machine to be twisted to form a winding yarn 17, the supporting layer 13 and the winding yarn 17 are put into a spindle winder to adjust the twist degree and form the whole second composite yarn 11, the plurality of second composite yarns 11 are put into a water jet loom to be woven in a variable square weave mode to form an inner layer 1, the bamboo fiber 14 has good air permeability, the hemp 15 has the characteristics of good hygroscopicity, fast moisture release and difficult generation of static electricity, the tencel 18 has strong hygroscopicity, the profiled cross-section fiber 16 with the C-shaped cross section has good warm keeping effect, and the fabric has good heat insulation and static electricity prevention effects.

As shown in fig. 1-5, a pile 7 is formed by cutting off weft float long threads on one surface of a surface layer 2 facing an inner layer 1 through a velvet cutting machine, second bulges 4 facing the inner layer 1 are arranged on the surface layer 2 in an array hot stamping mode through a hot stamping process, first bulges 3 facing the surface layer 2 are arranged on the inner layer 1 in an array hot stamping mode through the hot stamping process, a plurality of air holes 6 are arranged on the inner layer 1 in an array mode through a laser drilling machine, the air holes 6 are arranged between the adjacent first bulges 3, and the surface layer 2 and the inner layer 1 are bonded together to enable the first bulges 3 of the inner layer 1 and the second bulges 4 of the surface layer 2 to be bonded together.

As shown in figures 1-5, when the fabric is manufactured into a glove to be worn and used, certain water vapor can exist in the air, hands of people can sweat, the sweat evaporates and penetrates through the lining layer 1, the air holes 6 formed in the lining layer 1 communicate the air with the sweat into the heat preservation cavity 5, the water vapor in the air in the heat preservation cavity 5 can be attached to the plush 7 of the surface layer 2 due to the fact that the temperature difference between the surface layer 2 and the lining layer 1 is different, certain water vapor can keep certain humidity on the surface layer 2, the heat preservation cavity 5 is formed between the surface layer 2 and the lining layer 1, the fabric can be prevented from having a heat preservation effect when the surface layer 2 generates static electricity, and therefore the glove does not generate static electricity on the hair.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the fan belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a thermal-insulated antistatic kasugao, its characterized in that: including nexine (1) and surface course (2), the array is provided with a plurality of first archs (3) on nexine (1) the one side towards surface course (2), surface course (2) are provided with protruding (4) of a plurality of second towards the array on the one side of nexine (1), the top of first arch (3) is connected with the top of the protruding (4) of second, and is a plurality of protruding (3) of first arch and a plurality of second and protruding (4) will be formed heat preservation chamber (5) between nexine (1) and surface course (2), a plurality of bleeder vents (6) of being connected with heat preservation chamber (5) are seted up to the array on nexine (1), surface course (2) is gone up towards and is provided with pile (7) towards bleeder vent (6) in the one side of nexine (1).

2. The thermal insulation antistatic kasugao fabric of claim 1, wherein: the surface layer (2) is woven in a warp-weft mode through a plurality of first composite yarns (8) to form a changing square and flat tissue.

3. The thermal insulating antistatic pongee of claim 2, wherein: the change square-flat organization is 7 pages of healds, the warp floating points are floating points, the weft floating points are sinking points, and the change square-flat organization is organized from left to right and from bottom to top in a circulating way: floating, sinking and floating sinking, floating, sinking, floating and sinking floating-sinking, floating-floating, floating-sinking, floating-floating, floating-sinking sinking-floating-sinking-floating.

4. The thermal insulation antistatic kasugao fabric of claim 3, wherein: the first composite yarn (8) is formed by twisting a plurality of acrylic fibers (9) and a plurality of viscose (10).

5. The thermal insulation antistatic kasugao fabric of claim 4, wherein: the inner layer (1) is formed by weaving a plurality of second composite yarns (11) in a warp-weft mode, and the second composite yarns (11) sequentially comprise a core layer (12), a supporting layer (13) and a winding layer from inside to outside.

6. The thermal insulating antistatic pongee of claim 5, wherein: the core layer (12) is formed by twisting bamboo fibers (14) and a plurality of hemp fibers (15).

7. The thermal insulating antistatic pongee of claim 6, wherein: the supporting layer (13) is arranged on the outer side of the core layer (12) through a plurality of profiled cross-section fibers (16) in a doubling mode, and the cross section of each profiled cross-section fiber (16) is C-shaped.

8. The thermal insulating antistatic pongee of claim 7, wherein: the winding layer comprises winding yarns (17) sparsely wound on the outer side of the supporting layer (13), and the winding yarns (17) are formed by twisting a plurality of tencel yarns (18) and a plurality of viscose (10).

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