CN202466095U - Elastic fabric and elastic close-fitting garment - Google Patents

Abstract

The embodiment of the utility model discloses stretch fabric and elasticity close-fitting clothing, stretch fabric, include: concave-convex folded cross section structure of hollow fiber weaving structure: the convex folds of the concave-convex folded cross section structure are connected by the hanging needle stitches in a penetrating way, and the tightness of the hanging needle stitches is adjustable; the concave folds of the concave-convex folded cross section structure are attached to the skin. The utility model discloses fabric and elasticity close-fitting clothes utilize to have and weave fashioned unsmooth book shape cross section fabric structure by hollow fiber, utilize unsmooth book shape cross section structure three-dimensional air duct makes the skin experience comfortable to strengthened the function that the health keeps warm and the moisture discharges, and do not have extra suture or adhesive amalgamation to the different fabric structure in the elasticity close-fitting clothes, and adopt advanced seamless one shot forming technique to realize, reach the seamless concatenation effect that the multiple structure was woven, further increased the travelling comfort of wearing.

Description

Elastic fabric and elastic tights

technical field

The utility model relates to the technical field of functional fabrics, in particular to an elastic fabric and seamless elastic tights.

Background technique

Elastic tight sportswear is usually worn close to the skin surface. It has the advantages of reducing the friction between clothing and air and the pressure support generated by the fabric structure design in key parts. It is more and more used in competitive sports and sports. In the daily training and physical activities of fans.

Existing elastic tights generally generate a certain amount of wearing pressure through the natural uplift or support of the human body volume, and add the necessary structural design during exercise to improve wearing comfort or functional performance, such as: for the target sports event on the human body part Special tailoring or combined sweat-wicking mesh design on high-humidity areas such as the back and underarms of tight-fitting sportswear.

However, most of the existing elastic tights use an additional thermoplastic polyurethane fabric to support and stabilize the bandage design on the local joints or soft tissue. The positional displacement changes during contraction and relaxation may easily cause excessive pressure on the interface between the material and the skin or poor comfort of local tightness; The natural stretching of the limbs and the discharge of sweat and moisture. If excessive sweat and moisture are not discharged in time, it will easily cause coldness and muscle soreness; It reduces the friction and itching between the tights fabric and the skin, further reducing the wearing comfort.

Utility model content

In view of this, the utility model provides an elastic fabric and a seamless elastic tights, so as to improve the wearing comfort, sweat-wicking effect and thermal performance of the tight-fitting sportswear.

An elastic fabric, comprising: a concave-convex folded cross-sectional structure of hollow fiber weaving structure:

The convex folds of the concave-convex folded cross-sectional structure are connected by hanging needle stitches, and the tightness of the lifting needle stitches is adjustable;

The concave-convex folds of the concave-convex fold-shaped cross-sectional structure fit the skin.

Preferably:

The hollow fiber is specifically: a mixture of superfine denier polyamide fiber and high elastic Lycra polypropylene covering yarn.

In order to improve the above scheme, the fabric also includes:

The tuck and float plating weaving structure is arranged on the corresponding muscles on the fabric.

The coil-transferred real mesh structure is arranged on the fabric corresponding to the high-heat and high-humidity part of the body surface.

The elastic buffer pad is arranged on the corresponding joints on the fabric and formed by hanging needle stitches.

An elastic tights, comprising: a seamless fabric with a concave-convex folded cross-section structure formed by weaving hollow fibers;

The convex folds of the concave-convex folded cross-section of the seamless fabric are connected by hanging needle stitches, and the tightness of the lifting needle stitches is adjustable;

The concave-convex folds of the seamless fabric's concave-convex fold-shaped cross-section fit closely with the skin.

Preferably:

The hollow fiber is specifically: a mixture of superfine denier polyamide fiber and high elastic Lycra polypropylene covering yarn.

In order to improve the above scheme, the elastic tights also include:

A tuck and float plating structure arranged on the seamless fabric corresponding to the muscles.

The loop transfer real mesh structure is arranged on the seamless fabric corresponding to the high heat and high humidity part.

An elastic bandage and a cushioning liner formed by hanging needle stitches on the seamless fabric corresponding to the joints and muscles.

It can be seen from the above technical solutions that the fabric and elastic tights in the embodiment of the utility model utilize a fabric structure with a concave-convex folded cross-section formed by weaving hollow fibers, and use the concave-convex folded cross-section to construct a three-dimensional air duct , make the skin feel comfortable, and enhance the body's thermal insulation and moisture release functions, and there is no additional stitching or adhesive stitching for different fabric structures in elastic tights, but it is realized by advanced seamless one-time molding technology, reaching The seamless splicing effect of multi-structure weaving further increases the wearing comfort.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description These are only some embodiments of the utility model, and those skilled in the art can also obtain other drawings based on these drawings without creative work.

Fig. 1a is a schematic structural diagram of a cross-section of an elastic fabric disclosed in an embodiment of the present invention in a static wearing state;

Fig. 1b is a schematic structural diagram of a cross-section of an elastic fabric disclosed in an embodiment of the present invention in a sports wearing state;

Fig. 1c is a schematic diagram of a cross-sectional structure of an elastic fabric disclosed in another embodiment of the utility model;

Fig. 1d is a schematic diagram of a cross-sectional structure of an elastic fabric disclosed in another embodiment of the utility model;

Fig. 2 is a schematic diagram of a seamless elastic fabric and its cross-sectional structure disclosed in the embodiment of the present invention;

Fig. 3 is a schematic diagram of an elastic fabric disclosed in another embodiment of the present invention and its cross-sectional structure;

Fig. 4a is a schematic diagram of the front structure of an elastic tights jacket disclosed by an embodiment of the present invention;

Fig. 4b is a schematic diagram of the back structure of an elastic tights jacket disclosed in another embodiment of the present invention;

Fig. 5a is a schematic diagram of the front structure of an elastic tights trousers disclosed in another embodiment of the present invention;

Fig. 5b is a schematic diagram of the back structure of an elastic tights trousers disclosed in another embodiment of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

The embodiment of the utility model discloses an elastic tights, which can improve the wearing comfort, perspiration effect and thermal performance of the tight sportswear.

Figure 1a shows a cross-sectional structure of an elastic fabric, and the elastic fabric 2 includes:

Concave-convex cross-sectional structure 1 formed by weaving hollow fibers;

The convex folds 3 of the concave-convex fold-shaped cross-sectional structure 1 are connected by hanging needle stitches 4;

The concave-convex folds 5 of the concave-convex fold-shaped cross-sectional structure 1 are attached to the skin 6 .

The combination of the structure of the concave-convex folded cross-section and the hollow fiber, that is, the combination of moisture absorption and light-weight characteristics: the hollow fiber provides light weight and certain warmth retention for tight clothing, and the specific fabric Superfine denier polyamide fiber and high-elastic Lycra polypropylene yarn blend seamless fabric, which is dry and soft to wear, and the structure of concave-convex folded cross-section can accelerate sweat evaporation during dynamic wearing, which is not only light in weight, but also increases The specific surface area of the fiber is increased, which is conducive to the rapid evaporation and loss of sweat.

Combining with the illustrations of Fig. 1a-Fig. 1d: the seamless fabric forms a fabric structure with a three-dimensional space through the hanging needle stitch 4:

As shown in Figure 1a: when the human body is in a state of rest or a small amount of exercise, the concave-convex cross-sectional structure 1 creates a gas exchange space between the fabric 2 and the skin 6 surface, and this space structure can help store more still air And heat energy 7 (Figure 1a), so that the fabric has the function of blocking air circulation and preventing cold air from directly and rapidly invading the human body, thereby increasing the warmth retention property, which is useful for keeping the body warm when the skin is in the warm-up stage before strenuous exercise and resting after exercise. positive effect.

As shown in Figure 1b: when the human body is in a state of motion, a part of the fabric is in contact with the skin, and a part of the fabric is separated from the surface of the skin. Skin sweat moisture 9 ( FIG. 1 b ) is circulated and exchanged, and the ventilation air duct takes away the body surface moisture to increase heat exchange and loss.

As shown in Figure 1c: the folding structure is adjusted by changing the hanging needle stitches to produce different fabric properties such as thickness, stretchability, and touch. The fabric structure in Figure 1c is thicker than the fabric structure in Figure 1d due to the tightness of the hanging needle stitches And less elastic, better support and shape retention.

Figures 2-3 show the structure of two different stretch fabrics and their cross-sections:

In Fig. 2, by changing the stitching path of the lifting needle, the lifting needle stitch of the elastic fabric is a smooth straight structure, while the lifting needle stitch in Fig. 3 is in a "zigzag" shape, and the elastic fabric with a straight structure is soft and comfortable, and the stretch fabric is soft and comfortable. The elastic body-fitting sportswear made of the zigzag-shaped concave-convex folded fabric structure through seamless technology can massage the local skin after wearing, and the zigzag-shaped hanging needle stitch fabric embodies It has a large degree of stretch and good resilience, which is convenient for use in parts with large deformation or in sports forms.

It should be noted:

The fabric can be tailored according to the design and use of the garment to meet the application needs of different body parts, and the elastic fabric can include: tuck and float plating structures arranged on the fabric at corresponding muscles; Set on the fabric corresponding to the high-heat and high-humidity part of the body surface coil transfer real mesh structure; set on the fabric corresponding to joints or muscle parts through the elastic bandage or cushioning pad that is threaded through the stitches of the hanging needle.

Before carrying out the description of the embodiment of the elastic tights, it needs to be clear that the elastic tights can be split tops, full-length trousers or one-piece trousers, as well as cropped trousers and shorts , half-sleeve tops or wipe-sleeve tops, and its application fields can be extended to clothing categories such as body shaping clothing, postpartum recovery, functional clothing, fashion, etc. The specific shape and product category can be formulated and constructed according to needs, and are not limited to specific clothing For the convenience and clarity of the description, the shape and product category are described in the form of tight-fitting sportswear:

Fig. 4a-Fig. 4b shows the application of elastic fabric in tight-body sports tops in the above-mentioned embodiment, and Fig. 5a-Fig. 5b shows the application of elastic fabric in the above-mentioned embodiment in tight-body sports trousers. Body clothing includes: the hollow fiber braided seamless braided fabric with a concave-convex folded cross-section structure, and even the whole body of the elastic bodysuit can be formed by using the seamless braided fabric, without limitation.

4a, 4b, 5a and 5b, the seamless braided fiber adopts a special-shaped cross-sectional structure, that is, the concave-convex folded cross-sectional structure combines hollow fiber ultra-fine denier polyamide fiber 70D/160F and high-elastic Lycra polyamide fiber. Propylene-covered yarn mixture forming weaving, the hollow fiber superfine denier polyamide fiber 70D/160F and high-elastic Lycra polypropylene-covered yarn mixture is preferably used in this embodiment, and cellulose fibers such as 60S Tencel or Modal replaces polyamide fibers to enhance fabric wicking.

Referring to the concave-convex folded cross-sectional structure formed by the hollow fiber weaving in Figure 1a-1d, the seamless braid and the elastic tights can be formed integrally by applying seamless weaving technology: between different weaving tissues of body parts There are no extra sutures and stitches in between, and the touch is smooth and comfortable, which overcomes the shortcoming of skin friction and itching caused by increased stitches in the prior art.

According to the basic characteristics of human body heating and sweating, the back 41 (Fig. 4b), side waist 42 (Fig. 4a), front chest 43 (Fig. 4a) and front abdomen 44 (Fig. 4b) of the elastic clothing are provided with the hollow The seamless braided fabric with a concave-convex folded cross-section structure formed by fiber weaving, sweat is discharged along the three-dimensional perspiration channel formed by the concave-convex folded cross-section when it is dynamic; when it is still, more static air is stored in the folded fabric The heat retention is increased in the shape structure; the "zigzag" concave-convex folded braided structure is especially applied to the front abdomen 44 (Fig. 4b), which plays a role in massaging the body part during exercise and enhances the comfort of wearing;

Corresponding to the high temperature and high humidity parts of the seamless woven fabric, such as the underarm 45 (Fig. 4b), the rear popliteal fossa 46 (Fig. 5b), the middle of the back 47 (Fig. 4b), and the rear middle of the buttocks 59 (Fig. 5b) , using seamless coil transfer technology to produce a true mesh structure to increase moisture diffusion;

At deltoid 48 (Fig. 4b), quadriceps 49 (Fig. 5b), tibialis anterior muscle, gastrocnemius 51 (Fig. 5b), hip bone muscle group position 58 (Fig. 5b) etc. in the muscle of described seamless braid Correspondingly, a seamless knitted bandage structure conforming to the shape of the muscle group is produced by combining the tuck float plating with low elastic stretch and the hanging needle structure for support;

The corresponding joints on the seamless braided fabric, such as the knee joint 52 (Fig. 5a) and the elbow joint 53 (Fig. 4a) in the figure, are threaded and thickened with a hanging needle stitch to produce a local elastic cushioning pad with a thickness of 7 mm. Joint protection.

It should be noted that: the above-mentioned seamless knitted bandage and the elastic cushioning pad are directly seamlessly woven and connected with the elastic tight-fitting garment, and are formed at one time without additional stitching.

In addition, when it is applied to the abdomen 57 (Fig. 5a), lower buttocks 54 (Fig. 5b), and back waist 55 (Fig. 4b) in combination with the zigzag stitch structure described in Fig. 1d, it will enhance the dynamic and soft touch of the skin, Especially in the process of exercise, it further plays the role of massaging and promoting blood circulation.

In summary:

The fabric and elastic tights of the embodiment of the utility model utilize the fabric structure with a concave-convex folded cross-section formed by weaving hollow fibers, and use the concave-convex folded cross-section to construct a three-dimensional air duct, which makes the skin feel comfortable and enhances the The function of body warmth and moisture release, and there is no additional stitching or adhesive stitching for different fabric structures in elastic tights, and it is realized by advanced seamless one-time molding technology to achieve the seamless stitching effect of multi-structure weaving, Further increase the wearing comfort.

The fabric and the elastic body-fitting clothing of the embodiment of the utility model use hollow fibers to weave to form a seamless fabric with a concave-convex folded cross-section structure. It is comfortable, and can construct three-dimensional air ducts, and enhances the functions of body warmth and moisture release.

And, according to the mechanical properties of human skeletal muscles, the elastic tights in the above embodiments apply the seamless braided fabric with a concave-convex folded cross-sectional structure formed by hollow fiber weaving to the elastic tights to exert advanced seamless three-dimensional molding Technology and three-dimensional space structure generate clothing shapes with concave-convex folds, elasticity and thickness. The coil transfer real mesh structure corresponding to the high-heat and high-humidity part on the braid, the elastic bandage and the cushioning pad arranged on the seamless braid corresponding to the joints of the joints, are suitable for key muscle groups, high-heat and high-humidity parts And the joints to support, protect and enhance heat dissipation.

Each embodiment in this specification is described in a progressive manner, each embodiment focuses on the difference from other embodiments, and the same and similar parts of each embodiment can be referred to each other.

The above description of the disclosed embodiments enables those skilled in the art to realize or use the utility model. Various modifications to these embodiments will be obvious to those skilled in the art, and the general principles defined herein can be used in other embodiments without departing from the spirit or scope of the embodiments of the present invention. accomplish. Therefore, the embodiments of the present invention will not be limited to these embodiments shown herein, but will conform to the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A kind of elastic fabric, it is characterized in that, comprises: the concavo-convex folding shape cross-sectional structure of hollow fiber weaving structure: The convex folds of the concave-convex folded cross-sectional structure are connected by hanging needle stitches, and the tightness of the lifting needle stitches is adjustable; The concave-convex folds of the concave-convex fold-shaped cross-sectional structure fit the skin. 2. The elastic fabric according to claim 1, characterized in that it comprises: the hollow fiber is specifically: a mixture of superfine denier polyamide fiber and high-elastic Lycra polypropylene wrapped yarn. 3. The elastic fabric according to claim 2, further comprising: a tuck and float plating weaving structure arranged on the fabric corresponding to the muscles. 4 . The elastic fabric according to claim 2 , further comprising: a coil-transfer true mesh structure arranged on the fabric corresponding to the high-heat and high-humidity part of the body surface. 5 . The elastic fabric according to claim 2 , further comprising: elastic cushioning pads arranged at corresponding joints on the fabric and formed by stitches of hanging needles. 6 . 6. An elastic tights, characterized in that, comprising: a seamless fabric of concave-convex folded cross-sectional structure formed by hollow fiber weaving; The convex folds of the concave-convex folded cross-section of the seamless fabric are connected by hanging needle stitches, and the tightness of the lifting needle stitches is adjustable; The concave-convex folds of the seamless fabric's concave-convex fold-shaped cross-section fit closely with the skin. 7. The elastic tights according to claim 6, characterized in that it comprises: the hollow fiber is specifically: a mixture of superfine denier polyamide fiber and high elastic Lycra polypropylene wrapped yarn. 8 . The elastic tights as claimed in claim 6 , further comprising: tuck and float plating structures arranged on the seamless fabric at corresponding muscles. 9 . 9 . The elastic tights according to claim 6 , further comprising: a coil-transfer true mesh structure arranged on the seamless fabric corresponding to the high-heat and high-humidity part. 10 . The elastic tights as claimed in claim 6 , further comprising: an elastic bandage and a cushioning pad formed by hanging needle stitches on the seamless fabric corresponding to the joints and muscles. 11 .

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