CN222707652U - Wool knitted moisture-absorbing quick-drying fabric - Google Patents

Abstract

The utility model belongs to the technical field of knitted fabrics, and discloses a wool knitted moisture-absorbing quick-drying fabric, the fabric structure of which includes: a high-speed absorption and discharge channel 1 which is entirely "C"-type polyester, and a slow absorption and discharge channel 2 which is layered with "C"-type polyester and wool; the channel 1 is responsible for efficiently and quickly absorbing and discharging sweat from the body surface to the front of the fabric; the channel 2 uses the efficient moisture absorption and water storage properties of wool to slow down the evaporation rate; the channel 1 and the channel 2 form two different structural states, wherein one side entirely made of "C"-type polyester forms an uneven beaded mesh effect. The utility model solves the problem of too fast evaporation rate caused by chemical fiber quick-drying clothes, which can easily cause the human body to lose heat rapidly in a short period of time, leading to easy colds, and achieves the effects of fast moisture absorption and quick drying, as well as warmth retention, elasticity, skin-friendly breathability, and odor elimination.

Description

Wool knitted moisture-absorbing quick-drying fabric

Technical Field

The utility model belongs to the technical field of knitted fabrics, and particularly relates to a wool knitted moisture-absorbing quick-drying fabric.

Background

The quick-drying underwear material with the outdoor exercises is a chemical fiber product, the product has high-efficiency water absorption and drainage functions, but is easy to cause cold or other immunity diseases after the high-intensity exercises because of too fast heat release, the invention aims to utilize the extremely high moisture regain of wool fibers, and the molecular structure of the wool fibers has a plurality of hydrophilic amide groups (-CONH), and the side chains contain hydroxyl groups (-OH), amino groups (-NH 2), carboxyl groups (-COOH) and the like, so that the heat release process of the fabric is ensured to be relatively slow and balanced, and the pain points brought by chemical fiber fabric are solved.

Disclosure of utility model

Aiming at the problems in the prior art, the utility model provides a wool knitted moisture-absorbing and quick-drying fabric.

The utility model is realized in such a way that the wool knitted moisture-absorbing and quick-drying fabric comprises the following structure:

One is a high-speed suction and discharge channel I of the C-shaped terylene, and the other is a low-speed suction and discharge channel II of the C-shaped terylene and wool layering;

The first channel is responsible for absorbing and discharging sweat on the body surface to the front surface of the fabric efficiently and rapidly, and the second channel slows down the evaporation rate by utilizing the efficient moisture absorption performance and the water storage performance of wool;

The first channel and the second channel form two different structural states, wherein the uneven pearl net effect is formed by one surface of the C-shaped terylene.

Further, the specific structure of the first channel is composed of C-shaped terylene.

Further, the specific structure of the second channel is formed by alternately arranging the terylene and the wool in layers in a 'C' -shape:

furthermore, the first channel and the second channel form two different structural states in the fabric, wherein one surface is composed of C-shaped terylene to form an uneven pearl net eye effect, and the other surface is a plane structure with wool and the C-shaped terylene alternately arranged one by one.

In combination with the technical scheme and the technical problems to be solved, the technical scheme to be protected has the following advantages and positive effects:

The first channel I is composed of C-shaped terylene, and the design ensures that the first channel I has extremely high moisture absorption and perspiration speed and can effectively and rapidly absorb and discharge perspiration on the body surface to the front surface of the fabric.

The specific structure of the second channel is formed by layering and alternately arranging C-shaped terylene and wool, and the design combines the efficient moisture absorption performance and the water storage performance of the wool, so that the evaporation rate of sweat can be slowed down, and the humidity balance of the fabric is maintained.

Relationship between channel and fabric structure:

The first channel and the second channel form two different structural states in the fabric, one surface of the first channel and the second channel is composed of C-shaped terylene, and an uneven pearl net eye effect is formed. The other surface is a plane structure of wool and C-shaped terylene alternately arranged at intervals, the structure enables the first channel to quickly evaporate sweat conducted by the first plane, and the second channel where the wool fiber is positioned absorbs part of water, so that the evaporation rate is slowed down, and the humidity of the fabric is kept stable.

Structural design's advantage:

Through the double-channel design, the product can absorb and release sweat rapidly, and meanwhile, the humidity balance and the air permeability of the fabric are maintained, so that the comfort and the athletic performance of a wearer are improved. In addition, the uneven pearl net eye structure and the alternating arrangement design of wool and C-shaped terylene further increase the aesthetic property and fashion sense of the fabric, so that the fabric has practicability and aesthetic property.

The utility model increases the specific surface area of the first plane, thereby effectively increasing the air quantity and the water molecule storage quantity of the skin-adhering layer, the surface of the wool fiber is the second plane which is alternately arranged with the first plane and the second plane, the channels in the second plane quickly evaporate sweat conducted by the first plane for a while, and meanwhile, the second channel of the wool fiber absorbs part of water, thereby slowing down the evaporation rate.

The utility model solves the problems of easy cold and the like caused by rapid heat loss of a human body in a short time due to the excessively high evaporation rate of chemical fiber quick-drying clothes, and has the effects of keeping warm, having elasticity, being skin-friendly and breathable and eliminating peculiar smell while having the moisture absorption and quick-drying effects.

The technical scheme fills the technical blank in the domestic and foreign industries, and the utility model effectively reduces the rapid loss of body surface heat by combining materials and structures on the premise of ensuring effective moisture absorption and rapid discharge of skin products for the first time, thereby ensuring the heat balance of human bodies.

Drawings

Fig. 1 is a diagram of a wool knitting moisture-absorbing and quick-drying fabric structure provided by an embodiment of the utility model.

Fig. 2 is a partial enlarged view of a wool knitted moisture-absorbing and quick-drying fabric provided by an embodiment of the utility model.

In figure 1, a first channel, 2, a second channel, 3, C-shaped terylene, and 4, wool.

Detailed Description

The present utility model will be described in further detail with reference to the following examples in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1 and 2, the present utility model provides a wool knitted moisture-absorbing and quick-drying fabric, the fabric structure includes:

One is a high-speed suction and discharge channel I1 of the C-shaped terylene 3, and the other is a low-speed suction and discharge channel II 2 of the C-shaped terylene 3 and the wool 4 in a layered manner;

The first channel 1 is responsible for absorbing and discharging sweat on the body surface to the front surface of the fabric efficiently and rapidly, and the second channel slows down the evaporation rate by utilizing the efficient moisture absorption performance and the water storage performance of wool;

the first channel 1 and the second channel 2 form two different structural states, wherein the uneven pearl net eye effect is formed on one side of the C-shaped terylene 3.

The specific structure of the first channel is composed of C-shaped polyester 3 fiber.

The specific structure of the channel II is formed by alternately arranging the C-shaped terylene 3 and the wool 4 in a layered manner:

The first channel and the second channel form two different structural states in the fabric, wherein one surface is composed of C-shaped terylene to form an uneven pearl net eye effect, and the other surface is a plane structure with wool and the C-shaped terylene alternately arranged one by one.

The working principle of the wool knitted moisture-absorbing and quick-drying fabric is mainly based on the unique double-layer structural design and the characteristics of different materials.

Firstly, the first channel in the fabric is composed of C-shaped terylene and is responsible for efficiently and rapidly absorbing and discharging sweat on the body surface. The polyester has good moisture absorption and quick drying performance, and can rapidly conduct sweat from the skin surface to the outer layer of the fabric. Meanwhile, the rugged pearl mesh structure increases the contact area between the fabric and the skin, and is favorable for rapid absorption and evaporation of sweat. The design makes the channel excellent in moisture absorption and quick drying, effectively prevents sweat from accumulating on the skin surface, and keeps the skin dry and comfortable.

On the other hand, the second channel is formed by alternately arranging the C-shaped terylene and the wool in layers. Wool is used as a natural fiber and has excellent moisture absorption and water storage properties. When sweat is quickly absorbed by the channel I and conducted to the inner layer of the fabric, the wool fiber can fully exert the moisture absorption performance of the wool fiber, and the sweat is further absorbed and stored. Meanwhile, the water storage performance of wool can slow down the evaporation rate of sweat, so that the fabric has a certain moisturizing effect while keeping dry.

The design of the double-layer structure ensures that the fabric achieves good balance in the aspects of moisture absorption, quick drying, heat preservation and moisture preservation. The efficient moisture absorption and quick drying function of the first channel ensures the rapid discharge of sweat, prevents the uncomfortable feeling of sweat and moisture, and the moisture absorption and water storage function of the wool of the second channel ensures that the fabric keeps dry and comfortable and has a certain warm-keeping effect.

In addition, the layering and alternating arrangement structure of the C-shaped terylene and the wool in the fabric also ensures that the fabric is more stable in the whole structure, and enhances the durability and the wrinkle resistance of the fabric. The structure also enables the fabric to better fit the skin in the wearing process, and provides comfortable wearing experience.

The wool knitted moisture-absorbing and quick-drying fabric realizes the effects of quick moisture absorption, perspiration, heat preservation and moisture preservation through the unique double-layer structural design and the characteristics of different materials, and provides dry and comfortable wearing experience for a wearer.

The following are two application examples on cloth construction:

Embodiment one double-layer structured sportswear fabric

The sportswear fabric adopts a double-layer structure design, and aims to improve the moisture absorption and sweat release performance and the wearing comfort. The outer layer is made of quick-drying polyester fabric, has excellent air permeability and quick-drying property, and can rapidly discharge and evaporate sweat and keep skin dry. The inner layer adopts soft and hygroscopic cotton fabric, can be closely attached to the skin, and can absorb and disperse sweat to prevent sweat accumulation.

Small holes and channels are designed between the two layers, so that sweat can be smoothly transferred from the inner layer to the outer layer and quickly evaporated. Meanwhile, the channels also increase the air permeability of the fabric and ensure the comfort when the fabric is worn.

In addition, the elastic fiber is adopted for weaving, so that the elasticity and rebound resilience of the fabric are enhanced, the fabric can be freely stretched in movement, and the fabric is not easy to bind.

Embodiment two, three-layer thermal fabric

The thermal fabric adopts a three-layer structure design, and aims to provide excellent thermal performance and wearing comfort. The outer layer adopts windproof and waterproof fabric, so that cold wind, rain and snow outside can be effectively prevented, and the interior can be kept warm and dry. The middle layer adopts the down or artificial velvet fabric with high heat retention performance, can lock a large amount of air, forms a heat insulation layer, and effectively resists cold. The inner layer is made of soft skin-friendly fabric such as cotton or cashmere, and can be attached to the skin to provide comfortable touch feeling.

Between the three layers, a heat reflection layer and a heat preservation layer are designed, and the heat preservation effect is improved by reflecting the heat of a human body and reducing the heat loss. Meanwhile, the fabric also adopts a ventilation design, so that the body can be kept dry and comfortable while keeping warm.

In addition, the fabric is also focused on detail treatment, such as adopting a seamless sewing technology to reduce heat loss, and elastic designs are added at cuffs, neckline and the like to provide better fitting degree and windproof effect.

The two embodiments show the application of the cloth structure in fabric design, and different functional and performance requirements can be realized through reasonable structural design and material selection, so that the wearing requirements in different scenes are met.

In the description of the present utility model, unless otherwise indicated, the meaning of "plurality" is two or more, and the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus are not to be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The foregoing is merely illustrative of specific embodiments of the present utility model, and the scope of the utility model is not limited thereto, but any modifications, equivalents, improvements and alternatives falling within the spirit and principles of the present utility model will be apparent to those skilled in the art within the scope of the present utility model.

Claims (4)

1. The wool knitted moisture-absorbing quick-drying fabric is characterized by comprising the following structure:

One is a high-speed suction and discharge channel I of the C-shaped terylene, and the other is a low-speed suction and discharge channel II of the C-shaped terylene and wool layering;

The first channel is responsible for absorbing and discharging sweat on the body surface to the front surface of the fabric efficiently and rapidly, and the second channel slows down the evaporation rate by utilizing the efficient moisture absorption performance and the water storage performance of wool;

The first channel and the second channel form two different structural states, wherein the uneven pearl net effect is formed by one surface of the C-shaped terylene.

2. The wool knitted moisture-absorbing and quick-drying fabric as claimed in claim 1, wherein the specific structure of the first channel is composed of 'C' -shaped terylene.

3. The wool knitted moisture-absorbing and quick-drying fabric as claimed in claim 1, wherein the specific structure of the second channel is formed by alternately arranging the polyester fiber and the wool in layers of 'C'.

4. The wool knitted moisture-absorbing and quick-drying fabric as claimed in claim 1, wherein the first channel and the second channel form two different structural states in the fabric, wherein one surface is composed of 'C' -shaped terylene to form an uneven pearl net eye effect, and the other surface is a plane structure with wool and 'C' -shaped terylene alternately arranged one by one.