KR200401236Y1 - Inner sole of shoes having multi-functional printed layer and the lining and inner sole - Google Patents

Abstract

The present invention forms a printing layer having a complex function on the inner skin or sole of a shoe, such as leather shoes or shoes, and emits a large amount of negative ions and far-infrared rays, while also acting as an antibacterial and deodorizing function inside the shoe from the printing layer. Shoes with a multi-functional printed layer that promotes the health of the feet, and has a constant temperature function by using cold and heat functional materials to maintain a temperature similar to the human body temperature in the summer or winter to obtain more comfortable shoes For linings and soles.

Description

Inner sole of shoes having multi-functional printed layer and the lining and inner sole}

The present invention forms a printing layer having a complex function on the inner skin or sole of a shoe, such as leather shoes or shoes, by which the anion and far infrared rays are radiated, and constant The present invention relates to a shoe lining material and an outsole having a printed layer of a composite function that maintains the temperature to give a more comfortable fit in summer or winter.

Modern people spend most of their day working outside. Therefore, about 700 tons per day (weight 70kg, 10,000 steps) will be applied to the foot, the lowest structure of the human body.

The foot is composed of 52 bones, 60 joints, 214 ligaments and 38 muscles, including one-fourth of our body, and numerous blood vessels.

For this reason, the Chinese medical text 'foot foot reflexology health law' said that all the organs of the human body are connected to the soles of the feet, which is a miniature version of the human body. Therefore, the health of the foot is directly connected to the health of the whole body and the skeleton of the instep is firmly connected to each other to support the weight evenly and to play a role of absorbing the shock when walking.

The big toe acts as a lever to move weight from one foot to the other, and each toe grips the ground to help move forward, while the heel of the foot helps balance the body with minimal energy consumption. It is to play a role.

Therefore, the importance of the shoes worn on the feet as described above is incredibly enormous, and should be designed in consideration of the design and hygiene aspects as well as the design of these shoes.

Ordinary shoes such as shoes and sneakers, or leisure shoes such as golf shoes and hiking boots are worn for a relatively long time, and the moistness of the feet and fungi occurs due to sweat or moisture generated during walking or exercise. It is worsening your health.

Therefore, in recent years, various new materials or new products have been released one after another, and efforts to comfort the interior of the shoes have been repeated, but the effect is weak, and most of them have only tried.

In addition, as described above, the sole of the wearer's sole is almost blocked from outside air, so when sweat occurs a lot in summer, such as bad smell of shoes as well as the wearer's foot, it is not very good for hygiene.

In summer, the ventilation is not smooth, so the temperature inside the shoes rises rapidly, and moisture, which is the main cause of germ growth, is continuously accumulated. In winter, the sweat generated from the feet takes away the body temperature, which makes it more cold. will be.

The present invention was devised to eliminate the problems as described above, by forming a separate functional print layer on the front and rear end of the shoe lining material or the sole of the shoe, while in charge of the antibacterial and deodorant function of the interior of the shoe from the print layer Promotes foot health by radiating abundant anions and far-infrared rays, and by providing a constant temperature function by cold and heat function materials to maintain a temperature that is similar to the human body temperature in summer or winter. It is an object of the present invention to provide a shoe lining and an outsole having a printed layer of a composite function.

The object of the present invention as described above, the mixing step of stirring the water and the binder, cold and thermal functional materials, silver nano, anion powder and the like; A viscosity adjusting step of adjusting the viscosity of the stirred mixture; A printing step of applying the mixed liquid having the adjusted viscosity; As it is divided into a heating process for drying the printed inner material or the sole window, and proceeds sequentially,

The anion powder is achieved by separately completing a raw stone crushing step, a sodium chloride mixing step, a sintering step, a fired product crushing and crushing step, and a charcoal powder mixing step.

Hereinafter, preferred embodiments of the present invention will be described.

First, the shoe lining material and the outsole having a printed layer of the composite function according to the present invention,

0.1 wt% water purifier, 0.5 wt% silver nano, 5 wt% anion powder, 30 wt% cold / hot function material, 50 wt% binder, 3 wt% shading inhibitor, 3 wt% binder, 1 wt% thickener, water 7.4 wt% is mixed and stirred together;

The viscosity of the mixture was adjusted by adding or subtracting the viscosity to 20,000 cps;

Undergoing a printing process of applying the mixture, the viscosity of which is maintained, to the surface of the shoe lining and the sole of the shoe;

The mixture is printed by bonding the shoe lining material and the sole with heating at a temperature of 100 to 150 ° C. for 3 to 10 minutes.

Here, the water purifying agent in the above-described print layer mixture is a preparation agent for increasing the viscosity by mixing an anionic powder and a binder (binder) before processing, and may be used as a cationic antioxidant of an anionic medicine, and tripolyphosphate, etc. will be.

In addition, the cold and heat functional material is applied to the fabric material used as a shoe endothelial material is mainly used for the purpose of temperature control function, mainly a phase transition material (PCM-product or scientific name) is used. The phase change material is a liquid and solid phase of the drug is switched to produce a temperature control function to give the skin a feeling of heat or cold heat.

In addition, the binder may be a viscous liquid polymer compound that can form a composite function of the fiber and the shape of the printing layer to give durability and to fix and fix the cold heat material, anionic powder, and other mixed drugs to the fiber, for example For example, resin which has adhesiveness, such as an acryl type, a urethane type, and an epoxy type, can be used.

In addition, the anti-shagging agent is a drug for preventing the sticky paste (Binder paste) from being stuck between the graduation (mesh) when passing through the screen mesh, the drug is kept moisturizing or wettability to dry the drug Will be late. Therefore, the rate of passage of the sha by the wettability is increased to prevent clogging of the sha, and typical examples thereof include sebum (PEG-trade name), glycerin, and the like.

In addition, the binder processing agent refers to a drug used to bind a complex medicine such as anionic powder, silver nano or the like to the fiber, and the binder or curing agent may also be referred to as a binding processing agent, and typical examples thereof include an acrylic binder and a polyurethane binder. .

In addition, thickeners are chemical agents for controlling the viscosity of a machine working to have a printed layer and are usually a type of surfactant.

In addition, the anionic powder is crushed and crushed tourmaline gemstones; Performing a tow discharge process of mixing 5% by weight of sodium chloride relative to the total weight of the finely divided powder and precipitating it in water; Further firing by heating the discharged tourmaline tow, and then crushing and pulverizing the calcined mixture again; It is completed by mixing and stirring 5% by weight of the charcoal powder relative to the total weight of the powdery particles.

In addition, the firing process of the tow, the primary firing step for separating and removing lead at a temperature of 600 ℃, volatile arsenic (As) at 1560 ℃ or more; A secondary firing step for reducing the chromaticity of the tow by a reduction furnace method at a temperature of 900 ° C .; The pores of the tow are expanded at a temperature of 1200 ° C. so that the third firing step is carried out to burn out and remove impurities.

Footwear innerwear material of the shoe as described above and the outsole as shown in Figure 3,

In the known shoe inner material in which the adhesive paper 2, the cushion paper 3, and the inner skin material 4 are sequentially bonded to the lower side of the outer skin 1,

The inner shell 4 is made of poly trimethylene terephthalate (PTT) fiber, but the exposed surface of the inner shell 4 is

0.1 wt% water purifier, 0.5 wt% silver nano, 5 wt% anion powder, 30 wt% cold / hot function material, 50 wt% binder, 3 wt% shading inhibitor, 3 wt% binder, 1 wt% thickener, water 7.4% by weight of the mixed and stirred printing liquid is formed by forming a hardened bonded print layer (5),

Shoe sole is as shown in Figures 4a to 4b,

The cushioning pad 11 and the bottom pad 12 are sequentially bonded to the upper side of the support pad 10, and the rear end of the support pad 10 has a buffer paper 13 having a predetermined thickness. In

The bottom paper 12 is poly trimethylene terephthalate (PTT) fiber, and the buffer paper 13 is made of leather, but the exposed surface of the bottom paper 12 and the buffer paper 13,

0.1 wt% water purifier, 0.5 wt% silver nano, 5 wt% anion powder, 30 wt% cold / hot function material, 50 wt% binder, 3 wt% shading inhibitor, 3 wt% binder, 1 wt% thickener, water 7.4% by weight of the mixed and stirred printing liquid is formed by forming the hardened bonding print layer (5).

At this time, the printed layer 5 is made of a braille-type printed layer in which the independent points on the projection are continuously distributed over the entire surface, and further improves contact and radiation area, showing excellent function while providing breathability and acupressure effect. Yet, even a relatively small amount of material will excel in efficacy.

On the other hand, the above-mentioned PTT (Poly Trimethylene Terephthalate) fiber is a fiber developed by the Ministry of Commerce, Industry and Energy, Korea Institute of Industrial Technology, and a research center for three years, and has a high elasticity function and a recovery function of fabrics. It is a state-of-the-art fiber that has been newly designed and developed through the poly merzation process (Poly merzation).

In addition, the anionic powder is finely divided by crushing tourmaline (Tourmaline) ore, tow extraction and calcining, has a viscosity of 4000 ~ 8000 cps, grayish white and has the appearance and color like sticky grass, and has a hydrogen ion of 7.5 It has concentration and properties of anionic complex emulsion viscous polymer compound.

In particular, the anion powder emits a large amount of negative ions and far infrared rays, so cell activation and blood purification, metabolism enhancement (fatigue recovery), mental stability, allergy constitution improvement, waste discharge and the like can be expected.

In addition, silver nano is composed of a colorless transparent milky white liquid having a particle size of 10 to 50 nm, and is a polymer composite of silver nano ions having ionicity of a weakly cationic dispersed polymer and having a solid concentration of 40%. Should be.

Silver is a jewel that has been used as a tool to check the imbalance of the body when worn on the body, and has been used as a silver pill to prevent gynecological diseases, herbal medicine, and to clear blood when it is powdered.

Strong sterilization, antimicrobial and electromagnetic shielding capacity is maximized, has more than 650 kinds of various pathogens, bacteria, bacteria, fungi, etc. sterilization function and propagation inhibitory ability, there is no resistance to antibiotics, harmless to the human body.

In addition, the cold and heat functional material is composed of a spherical capsule having a particle size of 1 to 4 μm, and is a milky white aqueous polymer resin, which is in the form of a phase transfer material (PCM) and does not contain ions. Having a hydrogen ion concentration of 7.5 PH,

Phase transfer material (PCM), which is a drug with automatic temperature control, serves to absorb or store and transfer heat according to external temperature conditions.

At this time, the cold and heat function materials should be made of materials that are harmless to the human body.

In such a material, looking at the above anion powder,

Since the anion powder is manufactured at the particle size level of the ion, the particle size of about 10-50 nm is used, and it can be semi-permanently preserved, such as antibacterial, deodorant, and laundry durability.

The anionic powder is made of tourmaline as a raw material, and the tourmaline particle size is crushed and mixed with water, and the shredded tourmaline particles are mixed with sodium chloride (Nacl) about 5%.

Mixing sodium chloride by about 5% will prevent the growth of bacteria. According to the dental engineering literature, sodium ions (Na ⁺ ) enable the preservation of permanent teeth in the mouth and the suppression of bacterial propagation even if food is stuck in the teeth, and prevents bacterial penetration in the body.

As above, when the tourmaline is mixed with sodium chloride in a mixture of water, sodium chloride is reacted with water, sodium ions (Na ⁺⁾ and chloride ion (cl ^-) while an aqueous solution. Is the present case, the chloride ion (cl ^-) is It is preferable to remove adsorption using the same method as the ion exchange resin method. Sodium ions (Na ⁺ ) in the aqueous solution remains as a bacteriostatic inhibitor.

The next step is to fire the discharged tourmaline tow, and the firing temperature is removed in three steps such as 600 ° C, 900 ° C, and 1200 ° C.

Primary firing is a process to remove lead (Pb) and arsenic (As), which are toxic substances. The method of removing lead is to use a device that melts lead at 600 ℃ and falls down using heavy specific gravity. It can be usefully used. Toxic substances such as arsenic (As) can be removed by volatilization above 1560 ℃.

Secondary firing is a process for lightening the color of tourmaline, and at this time, the reduction furnace calcining method at 900 ° C. is used to reduce the color of the tourmaline to the gray-white level by the reduction furnace method.

Tertiary firing, 'indirect heat firing method' may be used, in this process is to expand the internal pores of tourmaline, to remove the impurities by burning a small amount of impurities such as arsenic, and to increase the deodorizing function. Specifically, indirect thermal calcining is performed at a temperature of 1200 ° C. for a long time so that impurities such as arsenic are volatilized while many pores of nano size are generated in tourmaline.

When micronized for use in fiber through the tourmaline crushing and crushing process completed tertiary firing, when the bamboo charcoal powder is finely mixed by 5%, the tourmaline grain size is lighter and the color becomes lighter.

Bamboo charcoal has a white charcoal color, so it is white and can be applied and applied in various colors.

When describing the process of forming a printed layer using such anion powder,

[Example 1. When the object to be printed is PTT fiber]

1. Printing pattern design

Automatic screen printing pattern is computerized to design a pattern that is optimal for workability and to be formed on a film.

2. Screen pattern template preparation

Secure the sha on the aluminum mold. A diazo film is applied on the fixed sha and dried to a temperature of about 80 ° C.

The design film is placed on the dry film and irradiated to the sha organs to transfer the pattern to the screen form.

The screen pattern is prepared by preparing irradiated patterns by washing with water.

3. PTT Fabric Preparation

After weaving the yarn of corn starch, we finish the dyeing process and prepare the PTT fabric with the processing width for printing without the flexible processing in the process of fixing the fabric's warp yarn.

4. Manufacturing of auto screen printing medicine

0.1 wt% water purifier, 0.5 wt% silver nano, 5 wt% anion powder, 30 wt% cold / hot function material, 50 wt% binder, 3 wt% shading inhibitor, 3 wt% binder, 1 wt% thickener, water 7.4 wt% is mixed.

The mixing speed is rotated at a speed of 3000rpm to prepare a binder (Binder Paste) in the sticky state by adjusting to the appropriate viscosity for working on the automatic screen.

Washing durability of the above silver nano and processed to the fiber in a state that can be manufactured into a drug by adjusting the texture and feel of the fiber to a very high state.

Cold and heat function materials are developed to express the performance of the temperature function by prescribing the proper quantity in the maximum amount.

In order to increase the workability and increase productivity, the anti-shading agent is added in an amount of 3% by weight to increase the permeability of the screen sha, thereby increasing workability and productivity.

When only a small amount of thickener is added and added, a viscous silver nano, anionic powder, cold and hot functional materials are prepared.

5. Auto Screen Printing

Put the chemical with viscosity to work on the automatic screen printing machine where the belt is rotated, and squeeze the work to proceed with a soft urethane squeegee yam to form a printing pattern so that the printing pattern does not spread immediately. Automatic screen printing with a sharp and clear pattern.

The pressure is controlled so that 80 ~ 100g / y of drug is applied to the printing material by adjusting printing weight and proper use concentration.

6. Drying

The printed functional fabric is immediately dried with hot air for about 10 minutes at a temperature of about 100 ° C., and the first curing is performed quickly.

7. Setting

Automatic screen printing Apply heat to the functional fabric (Heat Setting) to make the medicine open and close.

At this time, the functional fabric is dried at a temperature of 145 ° C. for about 5 minutes in a tender processing machine (Tenter-rolling machine) to improve the quality of the product.

As a result, the straightening process increases the laundry durability of the drug and increases the elasticity of the appearance of the fiber.

In addition, the glossiness is increased to play a decisive role in improving the quality.

[Example 2. When the object to be printed is leather]

1. Binder Mixing

After purifying water, silver nano, anion powder, cold and thermo functional materials, binder, anti-blocking agent, bonding agent, thickener, and water, the mixture is sufficiently stirred at a speed of 3000 rpm for about 20 minutes.

After reducing the tourmaline powder that has sunk to the bottom as much as possible, add a dispersing agent that can prevent the sinking by adding a thickener to delay the time for the tourmaline powder to settle 2 to 3 days to mix the binder drug.

2. Adjust viscosity

It is thickened with the precipitation inhibitor of tourmaline powder and adjusted to a viscosity suitable for production.

A good viscosity for hand printing is around 20,000 cps.

At this time, the reason for adjusting to a viscosity of about 20,000 cps is the optimum viscosity for forming a three-dimensional printing layer of 300 ~ 400um thickness of the coating layer.

3. Textile coating processing (hand printing)

Fix the leather or fiber in the proper position on the wooden panel where the adhesive is evenly attached to the surface at the angle of inclination of the wooden board of 40 degrees.

(Hand print surface: 20m horizontal, 60m vertical, 40 degree inclined angle) Prepare the binder paste and screen model in the same state as the sticky paste prepared on it, and apply the squatting rubber plate to squash from the top to the bottom. To form a hand print pattern.

A hand print pattern is formed and a hot air blower is immediately used to dry the water-soluble binder (Binder Paste) by wind to express the print pattern.

4. Post-processing process

The pattern is set to the shoe lining material or the outsole by applying heat so that the drug is completely combined with the leather.

At this time, the temperature and time of the heat is to play an important role, the temperature is 145 ℃ and the time is set for 3 minutes heat correction (Setting), the sticky state (Binder Paste) is completely combined with the leather, durable durability Phosphorus binding polymer is an addition bonding reaction.

The mixture content and function at this time are shown in the table below.

In addition, the far-infrared radiation generated from the shoe inner material and the outsole having the composite function print layer as described above is the same as the measured value (issue number: KFI-763) of the Korea Far Infrared Application Evaluation Institute below.

In addition, the anion generated from the shoe inner material and the outsole having a composite function of the print layer as described above is the same as the measurement value (issue number: KFIM-573) of the Korea Far Infrared Application Evaluation Institute below.

In addition, the antibacterial test by the shoe lining material and the outsole having a printed layer of the composite function as described above is the same as the measurement value (issue number: KFIA-333) of the Korea Far Infrared Application Evaluation Institute below.

Therefore, the shoe and the accompanying interior material having a printed layer of the composite function according to the present invention, along with the antibacterial and deodorant function, a large amount of negative ions and far infrared rays are radiated to further benefit the health of the foot.

For reference, the following table is an antibacterial test analysis table for visually confirming the bacterial propagation state when the composite functional print layer of the present invention is formed (photo 4) and when it is not (photo 3). Inner skin and outsole of the shoe to which the invention is applied can be confirmed that the growth of bacteria is suppressed as shown in Photo 4.

As described above, the inner skin material and the sole for the shoe having the composite layer of the present invention have a function of the antibacterial and deodorizing function of the shoe from the printing layer having the composite function, while allowing abundant amounts of negative ions and far infrared rays to be emitted. Promotes the health of the foot, by having a constant temperature function by the cold, heat function material to maintain a temperature similar to the human body temperature in the summer or winter to get a more comfortable feeling of wearing shoes.

1 is a flow chart according to the process according to the present invention

Figure 2 is an enlarged view of a portion of the fabric surface-printed by the present invention

Figure 3 is a detailed view of the shoe lining manufactured by the present invention

4a to 4b is a detailed view of the sole for shoes manufactured by the present invention,

Figure 4a is an embodiment of the printing layer formed on the front side fiber portion of the sole

Figure 4b is an embodiment of the printing layer formed on the rear leather portion of the sole

Explanation of symbols on main parts of drawing

1: outer jacket 2: adhesive paper

3: cushion paper 4: inner skin

5: printing layer

10: support pad 11: cushion paper

12: bottom paper 13: buffer paper

Claims (4)

In the known shoe inner material in which the adhesive paper 2, the cushion paper 3, and the inner skin material 4 are sequentially bonded to the lower side of the outer skin 1, The inner shell 4 is made of poly trimethylene terephthalate (PTT) fiber, but the exposed surface of the inner shell 4 is 0.1 wt% water purifier, 0.5 wt% silver nano, 5 wt% anion powder, 30 wt% cold / hot function material, 50 wt% binder, 3 wt% shading inhibitor, 3 wt% binder, 1 wt% thickener, water A shoe lining material having a smart composite function print layer, characterized in that a printed layer (5) having a mixed and stirred printing solution of 7.4% by weight is cured. The method of claim 1, The printing layer (5) is a shoe lining material having a smart composite function print layer, characterized in that the independent point on the projection is applied and adhered to the entire surface continuously. The cushioning pad 11 and the bottom pad 12 are sequentially bonded to the upper side of the support pad 10, and the rear end of the support pad 10 has a buffer paper 13 having a predetermined thickness. In The bottom paper 12 is poly trimethylene terephthalate (PTT) fiber, and the buffer paper 13 is made of leather, but the exposed surface of the bottom paper 12 and the buffer paper 13, 0.1 wt% water purifier, 0.5 wt% silver nano, 5 wt% anion powder, 30 wt% cold / hot function material, 50 wt% binder, 3 wt% shading inhibitor, 3 wt% binder, 1 wt% thickener, water A shoe sole having a smart composite print layer, characterized in that a printed layer (5) of which 7.4% by weight is mixed and stirred with the printed solution is cured. The method of claim 3, wherein The printing layer 5 is a shoe sole having a smart composite function print layer, characterized in that the independent point on the projection is applied to the entire surface in succession.