CN216514437U - Weave structure of cotton lining silk knitted fabric - Google Patents

Abstract

The weave structure of the cotton lining silk knitted fabric is formed by a weaving unit, wherein the weaving unit comprises a first weave structure, a second weave structure and a third weave structure, the first weave structure, the second weave structure and the third weave structure are all formed by regularly arranged and mutually connected zigzag weaves, first yarns are inserted into the first weave structure, the second weave structure and the third weave structure, and the first weave structure, the second weave structure and the third weave structure are woven by two yarns, namely the second yarns and the third yarns. By the weave structure of the cotton lining silk knitted fabric, the knitted cotton lining silk knitted fabric absorbs moisture and is quick to dry, and has the effects of moisture conduction, antibiosis and dryness; the first yarn and the second yarn are cotton yarn and the third yarn can be made of other materials, so that the knitted fabric has functions of other aspects.

Description

Weave structure of cotton lining silk knitted fabric

Technical Field

The utility model relates to the technical field of garment materials, in particular to a technology of a weave structure of a cotton lining silk knitted fabric.

Background

The garment material is an essential substance element of the garment. Along with the innovative development of textile chemical technology and fiber technology, the functionality of clothing materials is diversified day by day, the living conditions of resident substances are improved, the fabric made of a single textile material cannot meet the requirements of people on the use performance of knitted clothing, the single-fiber knitted fabric has a great number of defects due to the single functional characteristics, natural fibers or chemical synthetic fibers cannot have the multiple functions required by people, such as cotton, tencel fiber knitted fabric has soft hand feeling and good moisturizing effect, but the fabric is easy to wrinkle in appearance, and is easy to absorb moisture and difficult to drain in characteristics, so that the body feels close to the skin, sticky and uncomfortable. The synthetic chemical fiber type fabric is wide in appearance, not easy to deform, quick in moisture discharge on the characteristic, but poor in air permeability, and capable of generating stuffy feeling when a human body is in a static state or a motion state, so that the knitted fabric with the characteristics of moisture absorption, sweat releasing, antibiosis, deodorization and easiness in management is popular with consumers. Therefore, how to reasonably and comprehensively use the excellent performances of various fibers is the key point for solving the problem of how to optimize and make up the defects under the condition of keeping and improving the advantages of the fibers in order to better improve and optimize the wearability of the fabric for the public.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a weave structure of a cotton lining silk knitted fabric, which is used for knitting the cotton lining silk knitted fabric, so that the cotton lining silk knitted fabric is moisture-absorbing and quick-drying and has the effect of moisture-conducting, antibacterial and dry-comfortable wearing.

The yarn distribution structure of the yarn path provided by the utility model has the following beneficial effects:

the utility model provides a weave structure of cotton lining silk knitted fabric which characterized in that: the weave structure of the cotton lining silk knitted fabric is formed by a weave unit, the weave unit comprises a first weave structure, a second weave structure and a third weave structure, the first weave structure, the second weave structure and the third weave structure are all formed by regularly arranged and mutually connected zigzag weaves, the lengths of two adjacent zigzag weaves are equal, the widths of the two adjacent zigzag weaves are equal, the two adjacent zigzag weaves are formed by a first zigzag and a second zigzag, the first zigzag and the second zigzag are formed by bending side parts with bending heads connected with the two sides of the bending heads, a bending opening is formed between the bottoms of the two bending side parts, and the first zigzag and the second zigzag are connected by a bending connecting part;

the first inverted-V-shaped of the first path of organization structure corresponds to the first inverted-V-shaped of the second path of organization structure, the first inverted-V-shaped of the second path of organization structure corresponds to the first inverted-V-shaped of the third path of organization structure, the second inverted-V-shaped of the first path of organization structure corresponds to the second inverted-V-shaped of the second path of organization structure, and the second inverted-V-shaped of the second path of organization structure corresponds to the second inverted-V-shaped of the third path of organization structure;

the first inverted-V-shaped bending head of the first path of organization structure penetrates through the first inverted-V-shaped bending head of the second path of organization structure, the first inverted-V-shaped bending head of the second path of organization structure penetrates through the first inverted-V-shaped bending head of the third path of organization structure, the first inverted-V-shaped bending head of the second path of organization structure is positioned at the first inverted-V-shaped bending opening of the first path of organization structure to seal the bending opening, and the first inverted-V-shaped bending head of the third path of organization structure is positioned at the first inverted-V-shaped bending opening of the second path of organization structure to seal the bending opening;

the second inverted-V-shaped bending head of the first path of organization structure penetrates through the second inverted-V-shaped bending head of the second path of organization structure, the second inverted-V-shaped bending head of the second path of organization structure penetrates through the second inverted-V-shaped bending head of the third path of organization structure, the second inverted-V-shaped bending head of the second path of organization structure is positioned at the second inverted-V-shaped bending opening of the first path of organization structure to seal the bending opening, and the second inverted-V-shaped bending head of the third path of organization structure is positioned at the second inverted-V-shaped bending opening of the second path of organization structure to seal the bending opening;

the first path of weave structure, the second path of weave structure and the third path of weave structure are all inserted with first yarns, the first yarns pass through a first reversed V shape of the first path of weave structure, the first yarns pass through a second reversed V shape of the first path of weave structure, the direction of the second reversed V shape of the first path of weave structure through which the first yarns pass is consistent with the direction of the first reversed V shape of the first path of weave structure through which the first yarns pass, the first yarns pass through the first reversed V shape of the second path of weave structure, the first yarns pass through the second reversed V shape of the second path of weave structure, the direction of the second reversed V shape of the second path of weave structure through which the first yarns pass through the second reversed V shape of the second path of weave structure is consistent with the direction of the first reversed V shape of the first path of weave structure through which the first reversed V shape of the third path of weave structure, the first yarns pass through the second reversed V shape of the third path weave structure, the direction of the first yarn passing through the second zigzag of the third path of weave structure is consistent with the direction of the first yarn passing through the first zigzag of the third path of weave structure; the first path of weave structure, the second path of weave structure and the third path of weave structure are all woven through two yarns, namely a second yarn and a third yarn.

The second yarns are used for forming the surface layer of the cotton lining silk knitted fabric, and the third yarns are used for forming the bottom layer of the cotton lining silk knitted fabric.

The first yarn is a skin-friendly hydrophobic fiber filament, the second yarn is a cotton yarn, and the third yarn is an antibacterial polyamide fiber-based graphene filament.

The third yarn is always located inside the second yarn.

The utility model has the following beneficial effects:

according to the utility model, the weaving unit comprises a first way of weave structure, a second way of weave structure and a third way of weave structure, the first way of weave structure, the second way of weave structure and the third way of weave structure are all formed by regularly arranged and mutually connected zigzag weaves, wherein the first way of weave structure, the second way of weave structure and the third way of weave structure are all woven by two kinds of yarns, namely a second yarn and a third yarn, and the first way of weave structure, the second way of weave structure and the third way of weave structure are all penetrated and inserted with the first yarn, so that when the first yarn is a skin-friendly hydrophobic fiber filament, the second yarn is a cotton yarn, and the third yarn is an antibacterial nylon-based graphene long fiber, the woven cotton lining silk knitted fabric can be enabled to be quick-drying, absorb moisture and have the effect of moisture conduction, antibiosis and dryness. The first yarn and the second yarn are cotton yarn and the third yarn can be made of other materials, so that the knitted fabric has functions of other aspects.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the utility model, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

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

figure 2 is a schematic representation of a cotton backed silk knit fabric.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the referred device or element must have a specific orientation, be constructed in a specific orientation and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limitations of the present patent, and the specific meanings of the terms may be understood by those skilled in the art according to specific situations.

Referring to fig. 1, the weave structure of the knitted fabric with cotton interlining yarn of the present invention is formed of knitting units. Referring to fig. 2, as a schematic view of the knitting unit, a first weave structure 21, a second weave structure 22, a third weave structure 23, a first zigzag 211 of the first weave structure, a first zigzag 221 of the second weave structure, a first zigzag 231 of the third weave structure, a second zigzag 212 of the first weave structure, a second zigzag 222 of the second weave structure, a second zigzag 232 of the third weave structure, a bending head 2111 of the first zigzag of the first weave structure, a bending head 2112 of the first zigzag of the first weave structure, a bending head 2121 of the second zigzag of the first weave structure, a bending head 2122 of the second zigzag of the first weave structure, a bending head 2212 of the first zigzag of the second weave structure, a bending head 2212 of the second weave structure, and a bending head 2212 of the first zigzag of the second weave structure are marked, A second zigzag-shaped bending head 2221 of the second path of organization structure, a second zigzag-shaped bending opening 2222 of the second path of organization structure, a first zigzag-shaped bending head 2311 of the third path of organization structure, a first zigzag-shaped bending opening 2312 of the third path of organization structure, a second zigzag-shaped bending head 2321 of the third path of organization structure, and a second zigzag-shaped bending opening 2322 of the third path of organization structure.

The weaving unit comprises a first path of organization structure 21, a second path of organization structure 22 and a third path of organization structure 23, wherein the first path of organization structure, the second path of organization structure and the third path of organization structure are all formed by regularly arranged and interconnected inverted V-shaped organizations, the lengths of two adjacent inverted V-shaped organizations are equal, the widths of the two adjacent inverted V-shaped organizations are equal, the two adjacent inverted V-shaped organizations comprise a first inverted V-shaped organization and a second inverted V-shaped organization, the first inverted V-shaped organization and the second inverted V-shaped organization are formed by bending side parts with bending heads connected with the two sides of the bending heads, bending openings are formed between the bottoms of the two bending side parts, and the first inverted V-shaped organization and the second inverted V-shaped organization are connected by bending connecting parts; the first inverted-V-shaped 211 of the first path of organization structure corresponds to the first inverted-V-shaped 221 of the second path of organization structure, the first inverted-V-shaped 221 of the second path of organization structure corresponds to the first inverted-V-shaped 231 of the third path of organization structure, the second inverted-V-shaped 212 of the first path of organization structure corresponds to the second inverted-V-shaped 222 of the second path of organization structure, and the second inverted-V-shaped 222 of the second path of organization structure corresponds to the second inverted-V-shaped 232 of the third path of organization structure; the first path of organization structure 21 and the second path of organization structure 22 form an up-and-down adjacent structure; the second path of organization structure 22 and the third path of organization structure 23 form an up-and-down adjacent structure, and by analogy, the following same insertion structure is provided:

the first inverted-V-shaped bending head 2111 of the first path of organization structure penetrates through the first inverted-V-shaped bending head 2211 of the second path of organization structure, the first inverted-V-shaped bending head 2211 of the second path of organization structure penetrates through the first inverted-V-shaped bending head 2311 of the third path of organization structure, the first inverted-V-shaped bending head 2211 of the second path of organization structure is positioned at the first inverted-V-shaped bending opening 2112 of the first path of organization structure to seal the bending opening, and the first inverted-V-shaped bending head 2311 of the third path of organization structure is positioned at the first inverted-V-shaped bending opening 2212 of the second path of organization structure to seal the bending opening;

the second n-shaped bending head 2121 of the first path of organization structure passes through the second n-shaped bending head 2221 of the second path of organization structure, the second n-shaped bending head 2222 of the second path of organization structure passes through the second n-shaped bending head 2321 of the third path of organization structure, the second n-shaped bending head 2221 of the second path of organization structure is positioned at the second n-shaped bending opening 2122 of the first path of organization structure to close the bending opening, and the second n-shaped bending head 2321 of the third path of organization structure is positioned at the second n-shaped bending opening 2222 of the second path of organization structure to close the bending opening. The first and second inverted-V-shaped bending heads of the first path of organizational structure of the next weaving unit are positioned at the first and second inverted-V-shaped bending openings of the third path of organizational structure to form a seal.

Therefore, the bending head in the shape of the Chinese character ji of the previous route organization structure passes through the bending head in the shape of the Chinese character ji of the next route organization structure, and the bending head in the shape of the Chinese character ji of the next route organization structure is positioned at the bending opening in the shape of the Chinese character ji of the previous route organization structure.

The first path of weave structure, the second path of weave structure and the third path of weave structure are all inserted with first yarns 6, the first yarns pass through a first reversed V shape of the first path of weave structure, the first yarns pass through a second reversed V shape of the first path of weave structure, the direction of the second reversed V shape of the first path of weave structure and the direction of the first yarns passing through the first reversed V shape of the first path of weave structure are consistent, the first yarns pass through the first reversed V shape of the second path of weave structure, the first yarns pass through the second reversed V shape of the second path of weave structure, the direction of the second reversed V shape of the first yarns passing through the second path of weave structure is consistent with the direction of the first reversed V shape of the first path of weave structure, the first yarns pass through the first reversed V shape of the third path of weave structure, and the first yarns pass through the second reversed V shape of the third path of weave structure, the direction of the first yarn passing through the second zigzag of the third path of weave structure is consistent with the direction of the first yarn passing through the first zigzag of the third path of weave structure; the first path of weave structure, the second path of weave structure and the third path of weave structure are all woven through two kinds of yarns, namely a second yarn 4 and a third yarn 5. The second yarn is used for forming the surface layer 2 of the cotton lining silk knitted fabric, the third yarn is used for forming the bottom layer 1 of the cotton lining silk knitted fabric, and the first yarn 6 is used for forming the middle layer 3 of the cotton lining silk knitted fabric, as shown in figure 2. The first yarn is a skin-friendly hydrophobic fiber filament, the second yarn is a cotton yarn, and the third yarn is an antibacterial nylon-based graphene filament. The third yarn 5 is always positioned inside the second yarn 4, specifically, inside the zigzag in the zigzag structure, that is, inside the bending head and the bending opening.

It should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention and the technical principles used, and any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention disclosed herein should be covered within the protective scope of the present invention.

Claims (4)

1. The utility model provides a weave structure of cotton lining silk knitted fabric which characterized in that: the weave structure of the cotton lining silk knitted fabric is formed by a weave unit, the weave unit comprises a first weave structure, a second weave structure and a third weave structure, the first weave structure, the second weave structure and the third weave structure are all formed by regularly arranged and mutually connected zigzag weaves, the lengths of two adjacent zigzag weaves are equal, the widths of the two adjacent zigzag weaves are equal, the two adjacent zigzag weaves are formed by a first zigzag and a second zigzag, the first zigzag and the second zigzag are formed by bending side parts with bending heads connected with the two sides of the bending heads, a bending opening is formed between the bottoms of the two bending side parts, and the first zigzag and the second zigzag are connected by a bending connecting part;

the first inverted-V-shaped of the first path of organization structure corresponds to the first inverted-V-shaped of the second path of organization structure, the first inverted-V-shaped of the second path of organization structure corresponds to the first inverted-V-shaped of the third path of organization structure, the second inverted-V-shaped of the first path of organization structure corresponds to the second inverted-V-shaped of the second path of organization structure, and the second inverted-V-shaped of the second path of organization structure corresponds to the second inverted-V-shaped of the third path of organization structure;

the first inverted-V-shaped bending head of the first path of organization structure penetrates through the first inverted-V-shaped bending head of the second path of organization structure, the first inverted-V-shaped bending head of the second path of organization structure penetrates through the first inverted-V-shaped bending head of the third path of organization structure, the first inverted-V-shaped bending head of the second path of organization structure is positioned at the first inverted-V-shaped bending opening of the first path of organization structure to seal the bending opening, and the first inverted-V-shaped bending head of the third path of organization structure is positioned at the first inverted-V-shaped bending opening of the second path of organization structure to seal the bending opening;

the second inverted-V-shaped bending head of the first path of organization structure penetrates through the second inverted-V-shaped bending head of the second path of organization structure, the second inverted-V-shaped bending head of the second path of organization structure penetrates through the second inverted-V-shaped bending head of the third path of organization structure, the second inverted-V-shaped bending head of the second path of organization structure is positioned at the second inverted-V-shaped bending opening of the first path of organization structure to seal the bending opening, and the second inverted-V-shaped bending head of the third path of organization structure is positioned at the second inverted-V-shaped bending opening of the second path of organization structure to seal the bending opening;

the first path of weave structure, the second path of weave structure and the third path of weave structure are all inserted with first yarns, the first yarns pass through a first reversed V shape of the first path of weave structure, the first yarns pass through a second reversed V shape of the first path of weave structure, the direction of the second reversed V shape of the first path of weave structure through which the first yarns pass is consistent with the direction of the first reversed V shape of the first path of weave structure through which the first yarns pass, the first yarns pass through the first reversed V shape of the second path of weave structure, the first yarns pass through the second reversed V shape of the second path of weave structure, the direction of the second reversed V shape of the second path of weave structure through which the first yarns pass through the second reversed V shape of the second path of weave structure is consistent with the direction of the first reversed V shape of the first path of weave structure through which the first reversed V shape of the third path of weave structure, the first yarns pass through the second reversed V shape of the third path weave structure, the direction of the first yarn passing through the second zigzag of the third path of weave structure is consistent with the direction of the first yarn passing through the first zigzag of the third path of weave structure; the first path of weave structure, the second path of weave structure and the third path of weave structure are all woven through two yarns, namely a second yarn and a third yarn.

2. The weave structure of the knitted fabric with cotton interlining according to claim 1, characterized in that: the second yarns are used for forming the surface layer of the cotton lining silk knitted fabric, and the third yarns are used for forming the bottom layer of the cotton lining silk knitted fabric.

3. The weave structure of the knitted fabric with cotton interlining according to claim 2, characterized in that: the first yarn is a skin-friendly hydrophobic fiber filament, the second yarn is a cotton yarn, and the third yarn is an antibacterial polyamide fiber-based graphene filament.

4. The weave structure of the cotton-lined silk knitted fabric according to claim 1 or 2, characterized in that: the third yarn is always located inside the second yarn.

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