TWM571139U - Anti-socks structure - Google Patents

Abstract

An anti-socks structure comprises: a sock body, which is provided with a sock toe portion, a sock portion, a heel portion, a tight portion, a plurality of deodorizing fibers, a plurality of anti-caries fibers, and a plurality of The elastic fiber has a plurality of adsorption holes on the surface of each deodorizing fiber, and each of the anti-caries fibers is made of a silver-based bacteriostatic agent mixed with rayon, and is mixed with each deodorizing fiber, each anti-caries fiber and each elastic fiber. Knitting the toe portion of the sock, the body portion, the heel portion, and the tightening portion, and the tightening portion has a knitting density greater than the toe portion, the body portion, and the heel portion; Providing an anti-socks structure, in particular, in the process of wearing, using each deodorizing fiber and each anti-caries fiber to make the sock body have deodorizing and anti-mite functions, and to achieve the function of knitting and deodorizing knit socks .

Description

Anti-socks structure

The present invention relates to an anti-socks structure, in particular, in the process of wearing, the deodorant fiber and each anti-caries fiber are used to make the sock body have deodorizing and anti-smashing functions, and the knitting is sterilized and deodorized. Socks function.

According to the living habits of today's people, when walking outdoors, they are used to wearing shoes, and avoid scratches when shoes and feet are rubbed. Before wearing shoes, they will wear socks first, and use socks to cover the human foot to avoid friction between shoes and feet. However, as time goes by, the time for people to wear shoes is gradually increasing. Especially for students and office workers, they must wear shoes for about 12 hours all day long, which will cause the feet to easily produce bacteria and mold and produce odor or cause foot ulceration. The skin is always in a damp condition. The epidermis, especially the soles of the feet, is most prone to fungi. When the fungus multiplies and invades the cortex, it induces ankle. Foot, also known as the Hong Kong foot, is a common, contagious skin disease. Such skin infections are mainly caused by mold, often causing itching, peeling and redness of the skin; in a few cases, there may even be blisters, and skin infections caused by Hong Kong feet are good in the fingers. The second common is the sole of the foot. At the same time, there may be nails on the nails or nails in the hands. The above diseases are all apes. A kind of skin disease, especially in tropical and subtropical island climates, is more likely to occur in Hong Kong's feet due to the high temperature and high humidity environment. For this reason, the commercially available shoes begin to increase the perspiration design, and the inside of the shoes is ventilated and wicked. The moisture and heat inside the shoes can be reduced by the flow of air to avoid the bacteria in the shoes and the temperature is too high, so as to greatly reduce the chance of suffering from athlete's foot.

However, as far as the above is concerned, even if the breathability of the shoes is improved, the socks worn by the human foot are liable to cause poor perspiration of the feet, and the fibers of the socks themselves are prone to bacteria and mold, thereby infecting the human foot. The skin, causing ankle or other skin diseases, is a major drawback, and needs to be improved.

The present invention provides an anti-socks structure comprising: a sock body having a sock toe portion, a sock portion, a sock portion and a tightening portion, the sock system being integrally formed by knitting. The utility model is characterized in that: the sock system is made of a plurality of deodorizing fibers, a plurality of anti-twist fibers and a plurality of elastic fibers, and each deodorizing fiber is ground to a powder shape by high-temperature calcination of bamboo fibers, and is sprayed. The spinning method is prepared by having a plurality of adsorption holes on the surface of each deodorizing fiber, and each anti-caries fiber is made of a silver-based bacteriostatic agent mixed with rayon, and each deodorizing fiber, each anti-caries fiber, and each The elastic fiber blended knit fabric is formed into the toe portion of the sock, the body portion, the heel portion, and the tightening portion, and the knit density of the tightening portion is greater than the toe portion, the sock portion, and the heel portion So that the tightening portion can be placed on the ankle of the human body. The powder prepared by grinding the bamboo fiber after high-temperature calcination is a particle between 1 and 100 nm; wherein each anti-caries fiber is made by using a nano-silver bacteriostatic agent mixed polyester fiber by a yarn spinning method, Each anti-twist fiber is provided with a plurality of anti-caries particles; wherein each anti-caries particle can release silver ions in a humid environment, and the sock body has a sterilization function by using silver ions; wherein each deodorant fiber and each anti-antibody of the sock body The ratio of the ray fiber and the elastic fiber is 75 to 80% of each deodorizing fiber, 15 to 20% of each anti-twist fiber, and 5 to 10% of each elastic fiber, and the body is made by blending; The odor fiber is calcined at a high temperature by steam, and then ground into nanometer particle powder to obtain bamboo charcoal cellulose, and the bamboo charcoal cellulose is added to a solvent, dissolved, and each deodorizing fiber is obtained by yarn spinning; Wherein the upper end side of the body portion is provided with a venting zone, wherein the venting zone is configured to reduce the knitting density, so that the venting zone can be ventilated and wicked; wherein the sling portion is made by thickening knitting, so that the hosiery Heel has a slow The punching function; wherein the joint of the toe portion of the sock and the body portion is made by a wireless stitching method; wherein each elastic fiber is made of spandex.

The main purpose of the present invention is to provide an anti-socks structure, in particular, a deodorizing and anti-caries function by using various deodorizing fibers and anti-caries fibers during the wearing process, and the sterilization is achieved. Deodorant knit socks feature.

The effect of the anti-socks structure of the present invention is that the sock body is provided with the toe portion, the body portion, the heel portion and the tightening portion, and the sock system is integrated by knitting. The product is formed by spinning each deodorizing fiber, each anti-twist fiber and each elastic fiber, and each deodorizing fiber is ground to a powder shape by high-temperature calcination of the bamboo fiber, and is sprayed by a yarn. The product has a plurality of adsorption holes on the surface of each deodorizing fiber, and each anti-caries fiber is made of a silver-based bacteriostatic agent mixed with rayon, and is mixed with each deodorizing fiber, each anti-caries fiber and each elastic fiber. Knitting the toe portion of the sock, the body portion, the body portion and the tightening portion, and the knit density of the tightening portion is greater than the toe portion, the body portion and the heel portion, The tightening portion can be sleeved on the ankle of the human body; thereby providing an anti-socking socks structure, in particular, a deodorizing and anti-caries function of the sock body by using each deodorizing fiber and each anti-twist fiber during the wearing process. , 俾 to achieve the function of sterilizing and deodorizing knit socks.

First, please refer to Fig. 1 to Fig. 5 , which is the "anti-socks structure" of the present invention; it comprises a sock body 1 which is provided with a toe portion 11 and a sock portion. 12. A sock heel portion 13, a tightening portion 14, a plurality of deodorizing fibers 15, a plurality of anti-twist fibers 16 and a plurality of elastic fibers 17; wherein: the sock body 1 is provided with the sock portion 11 The sock body portion 12, the body portion 13 and the tightening portion 14 are integrally formed by knitting, and the body body 1 is made of each deodorizing fiber 15 and each of the anti-deodorant fibers. The rayon fiber 16 and each of the elastic fibers 17 are woven, and each of the deodorizing fibers 15 of the hosiery body 1 is ground to a powder shape by high-temperature calcination of the bamboo fiber, and is made by squirting and spinning. Each of the deodorizing fibers 15 has a plurality of adsorption holes 151 on its surface, and each adsorption hole 151 of each deodorizing fiber 15 of the sock body 1 utilizes a pore adsorption principle, so that odor molecules can be deodorized by the respective deodorant fibers of the sock body 1. 15 adsorption holes 151 are adsorbed to reduce people In the odor of the foot, each of the anti-caries fibers 16 of the sock body 1 is made of a silver-based bacteriostatic agent mixed with rayon fibers, and each of the deodorizing fibers 15 of the sock body 1 and the anti-caries of the sock body 1 are utilized. The fiber 16 and the elastic fibers 17 of the body 1 are knitted and knitted to form the toe portion 11 of the sock body 1, the sock portion 12 of the body 1 , the sock portion 13 of the body 1 and the body 1 The tightening portion 14 and the tightening portion 14 of the sock body 1 have a knitting density greater than the sock toe portion 11 of the sock body 1, the sock portion 12 of the sock body 1, and the sachet portion 13 of the sock body 1. The tightening portion 14 of the sock body 1 can be sleeved on the ankle of the human body; and the above structure is further explained: after the carbon fiber is carbonized, the carbonized bamboo fiber is calcined by high temperature steam to be carbonized. The bamboo fiber generates each adsorption hole 151, and then the carbonized bamboo fiber is ground into a powder by a nanometer grinder, and the powder obtained by grinding is a particle between 1 and 100 nm; the anti-caries fiber 16 of the sock body 1 described above Mixing polyester fiber with nano silver bacteriostatic agent The anti-caries fiber 16 is attached with a plurality of anti-caries particles 161, and each anti-caries particle 161 of each anti-caries fiber 16 of the sock body 1 is presented as a nano silver powder, so that the respective anti-snag 1 is resistant. The ray fiber 16 has an antibacterial function; wherein the anti-caries particles 161 of each anti-caries fiber 16 of the sock body 1 can release silver ions in a humid environment, and the silver ions are positively charged, and the silver ions can puncture the bacteria and a cell wall of the fungus, and destroying proteins of bacteria and fungi, whereby the sock body 1 has a germicidal function by using silver ions; each of the deodorizing fibers 15 of the sock body 1 and the anti-caries fibers 16 of the sock body 1 And the blending ratio of each elastic fiber 17 of the sock body 1, the deodorizing fiber 15 of the sock body 1 is 75 to 80%, and the anti-twist fiber 16 of the sock body 1 is 15 to 20%, the sock Each of the elastic fibers 17 of the body 1 is 5 to 10%, and the sock body 1 is made by a blending method, so that the sock body 1 has an antibacterial and deodorizing function; each of the deodorant fibers 15 of the sock body 1 is After carbonization of bamboo fiber by steam high temperature calcination Grinding into nanometer fine particle powder to obtain bamboo charcoal cellulose, adding bamboo charcoal cellulose to a solvent, dissolving it, and obtaining each deodorizing fiber 15 of the sock body 1 by yarn spinning; the sock body 1 described above The upper end side of the body portion 12 is provided with a gas permeable area 121, and the gas permeable area 121 of the body portion 12 of the body body 1 is used to reduce the knitting density, so that the gas permeable area 121 of the body portion 12 of the body body 1 is increased in mesh. Large, so that the venting area 121 of the body portion 12 of the sock body 1 can be ventilated and wicked to reduce the moisture of the human foot; the sock portion 13 of the sock body 1 is made of a towel thick bottom knitting method. The heel portion 13 of the sock body 1 has a cushioning function, so that the impact force between the human heel portion and the ground can be absorbed by the heel portion 13 of the sock body 1 during walking to reduce the human heel portion during walking. The pressure to be subjected to; the joint of the sock 11 of the sock 1 and the sock portion 12 of the sock 1 is made by means of a wireless stitching, so that the toe 11 of the sock 1 and the sock Body 1 The joint portion of the body portion 12 is in a wirelessly stitched state, and when the body portion 1 is worn, the inner edge of the sock portion 11 of the sock body 1 and the sock portion 12 of the body body 1 is flat. When the human body is wearing the body 1 , the inner edge of the body 1 can be attached to the outer edge of the human foot; in particular, the elastic fibers 17 of the body 1 are made of spandex. The spandex has high tensile property and high elasticity, so that the tightening portion 14 of the sock body 1 is not easily loosened, and can be sleeved on the ankle portion of the human body; as shown in the above, the "anti-sock structure" of the present invention is preferably The state of use of the embodiment includes a sock body 1 which is provided with a sock toe portion 11, a sock portion 12, a sock portion 13, a tightening portion 14, and a plurality of deodorizing portions. a fiber 15, a plurality of anti-caries fibers 16 and a plurality of elastic fibers 17; wherein: the sock body 1, the toe portion 11, the body portion 12, the sock portion 13, the tightening portion 14, and each deodorizing Fiber 15, each anti-caries fiber 16 and each elastic fiber 17, The structure has been described above, so it will not be described: First, after the carbon fiber is carbonized, the carbonized bamboo fiber is calcined by high temperature steam to make the carbonized bamboo fiber produce each adsorption hole 151, and then the carbonized bamboo fiber is passed through the nanometer. The grinder is ground into a powder, and the powder obtained by grinding is a particle between 1 and 100 nm to obtain bamboo charcoal cellulose, and the bamboo charcoal cellulose is added to a solvent, dissolved, and the sock is obtained by gauze spinning. Each of the deodorizing fibers 15 of the body 1 has a respective adsorption hole 151 through the surface of each of the deodorizing fibers 15 of the sock body 1, so that the odor molecules can be adsorbed by the respective adsorption holes 151 of the deodorizing fibers 15 of the sock body 1, and further When the human body is worn on the body 1 , the body 1 absorbs the odor molecules of the human foot by the respective adsorption holes 151 of the deodorizing fibers 15 , so that the odor molecules generated by the human foot are utilized by the body 1 . Each of the adsorption holes 151 of each of the deodorizing fibers 15 of the sock body 1 is adsorbed to reduce the odor at the human foot, and the kneading socks having the deodorizing function are obtained. Further, the anti-twist fibers of the body 1 are The 16 series is made by using a nano silver-based bacteriostatic agent mixed polyester fiber by a yarn-spinning method, and each of the anti-caries fibers 16 is attached with a plurality of anti-caries particles 161, and each of the anti-caries fibers 16 of the sock body 1 is The anti-caries particles 161 are present in the nano silver powder, so that the anti-caries fibers 16 of the sock body 1 have an antibacterial function, and the anti-caries particles 161 of the anti-caries fibers 16 of the sock body 1 are in a humid environment. The silver ions are released, and the silver ions are positively charged. The silver ions can puncture the cell walls of bacteria and fungi, and destroy the proteins of bacteria and fungi, thereby using the silver ions to make the sock body 1 have a bactericidal function. When the foot wears the sock body 1, the moisture discharged from the capillary hole of the human foot causes the anti-caries particles 161 of the anti-caries fibers 16 of the body body 1 to release positively charged silver ions, and transmits silver. The ions sterilize the human foot to greatly reduce the bacteria and mold of the human foot, thereby reducing the chance of the foot and the knitting socks of the antibacterial function; and the body part 12 of the body 1 The side system is provided with a venting area 121, and the venting area 121 of the body portion 12 of the sock body 1 is designed to reduce the knitting density, so that the venting area 121 of the body portion 12 of the sock body 1 has a mesh opening thereof, so that the sock The venting area 121 of the body portion 12 of the body 1 can be ventilated and wicked to reduce the moisture of the human foot, and the toe portion 13 of the body 1 is made of a towel thick bottom knitting, so that the body 1 The heel portion 13 has a cushioning function, so that the impact force between the human heel portion and the ground can be absorbed by the heel portion 13 of the sock body 1 during walking to reduce the pressure on the heel portion of the human body during walking. And the joint of the sock 11 of the sock 1 and the sock portion 12 of the sock 1 is made by a wireless stitching method, so that the sock 11 of the sock 1 and the sock of the sock 1 The joint of the body portion 12 is in a state of being wirelessly stitched, and when the body portion 1 is worn, the inner edge of the sock portion 11 of the sock body 1 and the sock portion 12 of the body body 1 is flat. Causing the human foot to wear the body 1 When the inner edge of the sock body 1 can be attached to the outer edge of the human foot, so that the sock body 1 can be attached and fixed to the human foot, so as to achieve the comfort of the knit socks function; The effect of the anti-socks structure is as follows: the sock body 1 is provided with the sock toe portion 11, the sock portion 12, the sock portion 13 and the tightening portion 14, the sock body 1 The body part 1 is integrally formed by knitting, and is characterized in that the body body 1 is made of each deodorizing fiber 15, each of the anti-caries fiber 16 and each elastic fiber 17, and each deodorizing fiber 15 of the body body 1 is After the bamboo fiber is calcined at a high temperature, it is ground to a powder form, and is produced by a yarn-spinning method, so that the surface of each deodorizing fiber 15 of the sock body 1 has a plurality of adsorption holes 151, and each of the sock body 1 is deodorized. Each of the adsorption holes 151 of the fiber 15 utilizes the principle of pore adsorption, so that odor molecules can be adsorbed by the respective adsorption holes 151 of the deodorant fibers 15 of the sock body 1 to reduce the odor of the human foot, and the respective resistance of the body 1 is Fiber 16 is a mixture of silver-based bacteriostatic agents The fiber is made of silk, and the deodorant fiber 15 of the sock body 1, the anti-caries fiber 16 of the body body 1 and the elastic fibers 17 of the body body 1 are knitted and knit to make the sock of the sock body 1. a portion 11, a sock portion 12 of the sock body 1, a sachet portion 13 of the sock body 1, and a tightening portion 14 of the sock body 1, and the knit density of the tightening portion 14 of the sock body 1 is greater than the sock The toe portion 11 of the body 1 , the sock portion 12 of the body 1 and the sock portion 13 of the body 1 allow the tightening portion 14 of the body 1 to be placed over the ankle of the human body; The structure of the anti-sock socks, in particular, in the wearing process, the deodorant fibers 15 and the anti-caries fibers 16 are used to make the sock body 1 have the functions of deodorizing and anti-smashing, and the knitting socks have the function of sterilizing and deodorizing. By.

In summary, the structure of an anti-snoring socks has not been seen in various books or publicly used, and it is in line with the requirements of new patent applications, so please ask the Bureau to give a patent, and to pray. To be clear, the above is the specific embodiment of the creation and the technical principles applied. If the changes made according to the concept of this creation, the functional role produced by it does not exceed the spirit of the manual and the drawings. At the time, it should be combined with Chen Ming within the scope of this creation.

[this creation]

1‧‧‧ socks body

11‧‧‧ socks toe

12‧‧‧Socks

121‧‧‧ Breathable area

13‧‧‧Socks

14‧‧‧ tightening

15‧‧‧Deodorant fiber

151‧‧‧Adsorption holes

16‧‧‧Anti-caries fiber

161‧‧‧Anti-mite particles

17‧‧‧elastic fiber

The first picture is a schematic diagram of the creation. Figure 2 is a three-dimensional diagram of the creation. Figure 3 is a partial enlarged view of the creation (1). Figure 4 is a partial enlarged view of the creation (2). Figure 5 is a schematic diagram of the implementation of the preferred embodiment of the present invention.

Claims (10)

An anti-socks structure comprises: a sock body having a sock toe portion, a sock portion, a sock portion and a tightening portion, the sock system being integrally formed by knitting, characterized in that The sock system is made of a plurality of deodorizing fibers, a plurality of anti-twist fibers and a plurality of elastic fibers, and each deodorizing fiber is ground to a powder shape by high-temperature calcination of bamboo fibers, and is sprayed by a yarn. The product has a plurality of adsorption holes on the surface of each deodorizing fiber, and each anti-caries fiber is made of a silver-based bacteriostatic agent mixed with rayon, and is mixed with each deodorizing fiber, each anti-caries fiber and each elastic fiber. Knitting the toe portion of the sock, the body portion, the body portion and the tightening portion, and the knit density of the tightening portion is greater than the toe portion, the body portion and the heel portion, The tightening portion can be placed on the ankle of the human body. The anti-socks structure according to claim 1, wherein the powder obtained by grinding the bamboo fiber after high-temperature calcination is a particle between 1 and 100 nm. The anti-socks structure according to claim 1, wherein each of the anti-caries fibers is made by using a nano-silver bacteriostatic agent mixed polyester fiber by a yarn-spinning method, so that each anti-caries fiber is provided with a plurality of anti-caries fibers. Particles. The anti-socks structure according to claim 3, wherein each of the anti-caries particles releases silver ions in a humid environment, and the sock body has a sterilization function by using silver ions. The anti-socks structure according to claim 1, wherein each of the deodorizing fibers, the anti-caries fibers and the elastic fibers of the sock body has a ratio of 75 to 80% of each deodorizing fiber, and each anti-caries fiber 15~ 20%, each elastic fiber 5~10%, and the sock body is made by blending. The anti-socks structure according to claim 1, wherein each of the deodorizing fibers is ground to a nanometer particle powder by high-temperature calcination of the bamboo fiber to obtain bamboo charcoal cellulose, and the bamboo charcoal cellulose is added to the solvent. It is dissolved and each deodorizing fiber is obtained by a yarn spinning method. The anti-socks structure according to claim 1, wherein the upper end side of the body portion is provided with a gas permeable area, wherein the gas permeable area is made to reduce the knitting density, so that the gas permeable area can be ventilated and perspiration. The anti-sock structure according to claim 1, wherein the heel portion is made in a thickened knitting manner to provide a cushioning function for the heel portion. The anti-sock structure according to claim 1, wherein the joint of the toe portion and the sock portion is made by a wireless stitching method. The anti-sock structure according to claim 1, wherein each of the elastic fibers is made of spandex.