CN213138065U

CN213138065U - Warm-keeping shoe material fabric

Info

Publication number: CN213138065U
Application number: CN202021506949.6U
Authority: CN
Inventors: 李连华
Original assignee: Quanzhou Tongchuang Shoes Co ltd
Current assignee: Quanzhou Tongchuang Shoes Co ltd
Priority date: 2020-07-27
Filing date: 2020-07-27
Publication date: 2021-05-07
Anticipated expiration: 2030-07-27

Abstract

The utility model relates to a cold-proof shoes material surface fabric, including top layer, intermediate level and bottom, the top layer is by complex number warp and the heavy superficial interweave of complex number weft and constitutes, spiral winding has plastic fiber silk on the warp, warp with weave between the weft and form a plurality of ventilative units, the intermediate level thickness is 2mm-4mm, be provided with the supporting network in the intermediate level, the supporting network intussuseption is filled with cold-proof cotton, the bottom is woven by cashmere mixed yarn plain weave and is formed, cashmere mixed yarn includes cashmere fibre and cotton fibre, and the surface fabric wholly possesses certain hardness and supports and possesses the thermal behavior simultaneously, can be applicable to shoes material surface fabric field.

Description

Warm-keeping shoe material fabric

Technical Field

The utility model relates to a structural fabric, concretely relates to cold-proof shoes material surface fabric.

Background

The shoe material fabric is of various types, various fabrics such as leather shoe fabrics, plastic fabrics, woven shoe fabrics and knitted shoe fabrics generally only have functional characteristics endowed by self materials, such as windproof and waterproof characteristics of the plastic fabrics, and the air permeability of the leather fabrics and the knitted fabrics, and other functional characteristics which are difficult to exceed the properties of the self materials, such as heat preservation characteristics, the heat preservation fabrics are popular in recent years and extend from the clothes heat preservation fabrics to the shoe material heat preservation fabrics, the existing shoe material heat preservation fabrics are generally interwoven by adopting some novel special fiber yarns, such as hollow fibers, far infrared fibers and the like, the fabrics made of the fibers are expensive, the weaving difficulty is high, and the cost is high.

Chinese patent application No.: 201120070594.5 discloses a thermal fabric, which comprises a fabric substrate formed by interweaving warp and weft in a sinking and floating way, wherein each warp comprises a plurality of surface warp sections and a plurality of inner warp sections, each weft comprises a plurality of surface weft sections and a plurality of inner weft sections, the fabric substrate comprises a plurality of rectangular base blocks with the same size, each base block comprises an upper layer tissue formed by interweaving the surface warp sections and the surface weft sections in a sinking and floating way and a lower layer tissue formed by interweaving the inner warp sections and the inner weft sections, the upper layer tissue of each base block is connected with the lower layer tissue of the adjacent base blocks in the warp direction and the weft direction of the base block, and the lower layer tissue of each base block is connected with the upper layer tissue of the adjacent base blocks in the warp direction and the weft direction of the base block. The utility model discloses a reach cold-proof effect through surface fabric structural improvement, nevertheless the comparatively soft many as the clothing field of organizational structure obviously can't be applicable to the vamp field.

SUMMERY OF THE UTILITY MODEL

Therefore, to foretell problem, the utility model provides a cold-proof shoes material surface fabric improves the precoat under the prerequisite that reaches better cold-proof effect, reaches cold-proof effect and adapts to comparatively complicated vamp field simultaneously and provides antibiotic effect.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the surface layer is formed by interweaving a plurality of warps and a plurality of wefts in a sinking and floating mode, plastic fiber yarns are spirally wound on the warps, a plurality of ventilation units are formed by weaving the warps and the wefts, the thickness of the middle layer is 2-4 mm, a supporting net is arranged in the middle layer, warm cotton is filled in the supporting net, the bottom layer is formed by plain weaving cashmere blended yarns, and the cashmere blended yarns comprise cashmere fibers and cotton fibers.

Furthermore, the warp threads and the weft threads are vertically staggered, and the surface area of the breathable unit is 0.1mm²-0.3mm²The air-permeable unit penetrates through the surface layer.

Further, the surface layer and the middle layer are compounded through hot pressing, and the middle layer and the bottom layer are sewn through needles and threads.

Further, the cashmere fibers and the cotton fibers are twisted and spun in a spiral mode, and the density of the cashmere blended yarn is 30-50 yarns/cm.

Furthermore, the density of the warp threads and the weft threads is 40-70 threads/cm.

Further, a silver ion antibacterial agent is sprayed between the cashmere fibers and the cotton fibers.

By adopting the technical scheme, the beneficial effects of the utility model are that:

1. the shoe material fabric main body comprises a surface layer, a middle layer and a bottom layer, different functions of each layer are refined through a composite hierarchical organization structure, and the maximum utilization of the functions among the layers is realized; the surface layer is formed by interweaving a plurality of warps and a plurality of wefts in a sinking and floating manner, the structure is more compact and stable, the surface layer has good direct contact with the outside, and external risks such as laceration and the like are avoided; a plurality of ventilation units are formed between the warp and weft threads, so that the ventilation of the vamp is improved, and the clock in the shoe is kept dry and free of peculiar smell; the middle layer is internally provided with a supporting net, so that the strength and plasticity of the vamp are further improved, the heat-insulating cotton is filled in the supporting net, on one hand, the supporting performance of the supporting net is enhanced, on the other hand, the heat-insulating performance is provided for the fabric, in addition, the middle arrangement of the heat-insulating layer can avoid the heat-insulating cotton from being directly contacted with the outside to be damaged and can also avoid the direct contact with the human body to generate peculiar smell and mould, the bottom layer is formed by mixing and weaving cashmere fibers and cotton fibers, the bottom layer is made of mild materials which can be directly contacted with the human body, and meanwhile.

2. By reasonably setting the surface area of the ventilation unit, specifically 0.1mm²-0.3mm²And the ventilation unit completely penetrates through the surface layer, so that the water splashing prevention performance of the surface layer cannot be damaged, and the good ventilation performance is ensured.

3. The surface layer and the middle layer are compounded through hot pressing, so that the visual effect can be prevented from being influenced by needles and threads on the outer surface of the surface layer, external moisture is prevented from entering the inner-layer heat-preservation cotton through threads, the water-splashing-preventing performance is reduced, the heat-preservation cotton is possibly mildewed, and the heat-preservation characteristic is reduced, and the middle layer and the bottom layer are sewn through the needles and the threads, so that the effect of more stability is achieved, and meanwhile, a certain auxiliary fixing effect is realized on cashmere blending of the bottom layer.

4. The cashmere fiber and the cotton fiber are twisted and spun in a spiral mode, the density of the cashmere blended yarn is 30-50 pieces/cm, the cashmere fiber and the cotton fiber are matched more closely and integrated to a higher degree through spiral twisting and spinning, the cashmere fiber is fragile, the cotton fiber plays a role in protecting the cashmere fiber to a certain degree, and the lower spinning density provides more excellent heat insulation performance.

5. The density of the warp and the weft is 40-70/cm, and the larger weaving density provides stronger anti-pulling capability for the surface layer and simultaneously brings good water-repellent capability.

6. The silver ion antibacterial agent is sprayed between the cashmere fibers and the cotton fibers, bacteria are easily generated due to the fact that the bottom layer is directly contacted with feet or socks, a good wearing environment is created for the interior of the shoe due to the addition of the antibacterial agent, and meanwhile, the silver ion antibacterial agent can also play an auxiliary fixing role in connection of the cashmere fibers and the cotton fibers.

Drawings

FIG. 1 is an exploded view of the solid layer structure of the present invention;

FIG. 2 is an enlarged view of the layered structure of the present invention;

FIG. 3 is a schematic view of the surface layer weave structure of the present invention;

figure 4 is the utility model discloses bottom cashmere fibre and cotton fiber winding structure chart.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

The embodiment of the utility model provides a do:

referring to fig. 1 to 4, the warm shoe material fabric comprises a surface layer 1, a middle layer 2 and a bottom layer 3, wherein the surface layer is woven by a plurality of warps 12 and a plurality of wefts 11 in a vertical sinking-floating weaving mode, each warp 12 is spirally wound with a plastic fiber 13, two adjacent warps 11 and two adjacent wefts 12 are woven to form a ventilation unit 14, and the surface area of the ventilation unit 14 is controlled to be 0.2mm²The plastic fiber 14 is wound on the warp 12 through the gaps of the ventilation units 14, the weaving density of the warp 12 and the weft 11 is 50/cm, the middle layer 2 is a net structure consisting of a supporting net 21, the thickness is 3mm, the supporting net is filled with heat insulation cotton 22, and the surface layer 1 and the middle layer 2 are hot-pressed and compounded in a dot modeThe bottom layer is a fabric layer formed by further weaving cashmere blended yarns twisted and spun by cashmere fibers 31 and cotton fibers 32 in a spiral mode, the weaving density of the cashmere blended yarns is 40 pieces/cm, a silver ion antibacterial agent is sprayed between the cashmere fibers 31 and the cotton fibers 32, and the middle layer 2 and the bottom layer 3 are sewn by using needle threads.

The weaving density of the warp 12 and the weft 11 can be any value within the range of 40/cm-70/cm, and can also be larger or smaller than the range, but too large weaving density can cause the surface area of the breathable unit 14 to be too small and the air permeability to be slightly poor, while too small weaving density can cause the tensile resistance of the surface layer 1 to be poor and the water-proof capability to be completely lost, similarly, the weaving density of cashmere blended yarn can be any value between 30/cm-50/cm, but too small can cause the strength of the bottom layer to be insufficient and damaged, and too large can cause the gas in the shoe to be difficult to exchange with the outside; the thickness of the middle layer 2 can be any value between 2mm and 4mm or larger or smaller, and the defects that the finished shoes are too large to cause the finished shoes to be overstaffed and the heat-insulating performance is reduced are overcome.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A warm-keeping shoe material fabric is characterized in that: the cashmere blended yarn comprises a surface layer, a middle layer and a bottom layer, wherein the surface layer is formed by interweaving a plurality of warps and a plurality of wefts in a sinking and floating mode, plastic fiber yarns are spirally wound on the warps, the warps and the wefts are woven to form a plurality of breathable units, the thickness of the middle layer is 2mm-4mm, a supporting net is arranged in the middle layer, warm cotton is filled in the supporting net, the bottom layer is formed by plain weaving cashmere blended yarns, and the cashmere blended yarns comprise cashmere fibers and cotton fibers.

2. The thermal shoe material fabric according to claim 1, characterized in that: the warps and the wefts are vertically staggered, and the surface area of the breathable unit is 0.1mm²-0.3mm²The air-permeable unit penetrates through the surface layer.

3. The thermal shoe material fabric according to claim 1, characterized in that: the surface layer and the middle layer are compounded through hot pressing, and the middle layer and the bottom layer are sewn through needles and threads.

4. The thermal shoe material fabric according to claim 1, characterized in that: the cashmere fibers and the cotton fibers are twisted and spun in a spiral mode, and the density of the cashmere blended yarn is 30 to 50 yarns/cm.

5. A thermal footwear material fabric as claimed in any one of claims 1 to 4, wherein: the density of the warp threads and the weft threads is 40-70 threads/cm.

6. The thermal shoe material fabric according to claim 5, characterized in that: silver ion antibacterial agents are sprayed between the cashmere fibers and the cotton fibers.