KR20160107408A - Multi-fuctional patch and, method of preparing the same - Google Patents

Abstract

The present invention relates to a multifunctional patch and a method of manufacturing the multifunctional patch, and more particularly, to a multifunctional patch and a method of manufacturing the multifunctional patch. An adhesive member fixed to the entire attachment surface of the bio-coated cloth; And a releasing paper coated with a vinyl material so as to be able to repeatedly attach or detach the adhesive member, wherein the bio-coated cloth is standardized by size or type and attached to a release paper, and the bio- A first mixture comprising a mixture of amorphous, tourmaline (tourmaline), loess, bentonite, ilite and cryptomeric; And a second mixture comprising at least one selected from the group consisting of silicone, urethane, ink or polyether resin, wherein the first mixture and the second mixture are mixed at a ratio of 1 to 3: 9 to 7 A multifunctional patch, and a method of manufacturing the same. According to the present invention, anion and far-infrared rays are radiated onto the skin to emit anion and far-infrared rays, thereby exhibiting excellent human health effects such as pain relief, promoting sweat secretion, blood circulation, nervous system control and fatigue recovery, Can be used in a variety of sizes and forms, can be used for various purposes, can be produced cheaply and easily, and can be attached to a part of a myocardial point existing in the human body, Can be implemented.

Description

[0001] MULTI-FUNCTIONAL PATCH AND METHOD OF PREPARING THE SAME [0002]

More particularly, the present invention relates to a multifunctional patch and a method of manufacturing the same. More specifically, the present invention relates to a multifunctional patch and a method of manufacturing the multifunctional patch, And the like, and a method of manufacturing the same.

As medical technology develops, various health aids that are available in everyday life are widely used. Such as mask packs or sheet-type cleansing creams, which are used as cosmetics and cosmetics in skin cosmetics and the like.

Particularly, in recent years, patches have been widely used for the purpose of effective whitening of skin, improvement of wrinkles, prevention of aging, promotion of blood circulation, and the like.

On the other hand, the far-infrared rays are collectively referred to as wavelengths ranging from 3 to 1000 탆 and are known to be useful for the human body by promoting blood circulation by radiating to pain areas such as myalgia, stiffness and stiffness, and relieving pain by relaxing muscles .

These far infrared rays have properties such as resonance absorption function, radiation and seismic power. Because of these features, far infrared rays can activate the atoms in the body, exhaust various wastes, promote metabolism, and restore the physical health rhythm such as cell regeneration and fatigue recovery.

On the other hand, anion is a substance with a negative charge that neutral particles are made from electrons. When the anion radiator touches the water, the water molecule (H2O) is electrolyzed with hydrogen ions (H +) and hydroxide ions At this time, the hydroxide ion (OH-) acts as an anion and gives a useful effect to the human body.

These anions reduce the acidified human body and increase the immunity ability such as sterilization and antibacterial to reduce harmful substances and generate endorphins and entarmin to increase cell membrane permeability, enabling cell activation, metabolism promotion, and rapid fatigue recovery .

Accordingly, there has been an increasing interest in health and beauty in recent years, and the demand for health supplementary supplies has also increased rapidly. Attempts have been made to impart such characteristics as far-infrared rays or anions, which are useful for the human body, -0122948A, KR2011-0112643A, and the like.

However, the conventional inventions using the far-infrared ray and anion emitter are troublesome in production, are not easy to apply, have a high unit price, are bulky, and can not be completely solved.

Accordingly, the inventor of the present invention has been making efforts to solve the above problems, and it has been found that when anion ions and far-infrared rays are radiated onto a part of the skin of a human body, pain relief, antibacterial, antifungal, sweat secretion, blood circulation, The present invention has been completed on a multifunctional patch having excellent effects and a manufacturing method thereof.

It is an object of the present invention to provide a multifunctional patch that emits negative ions and far infrared rays.

Another object of the present invention is to provide a multifunctional patch having excellent human health effects such as pain relief, blood circulation, nervous system control, fatigue recovery, and the like.

Another object of the present invention is to provide an environmentally friendly multifunctional patch harmless to human body.

Another object of the present invention is to provide a multifunctional patch which is excellent in antibacterial and antifungal effects and can suppress the occurrence of allergies and increase sanitary performance.

Another object of the present invention is to provide a multifunctional patch which can have various sizes or shapes and can be used for various purposes.

It is yet another object of the present invention to provide a method of manufacturing a multifunctional patch that is inexpensive and easy to produce.

Another object of the present invention is to provide a multifunctional patch which can be attached to a part of a myocardial point existing in a human body, thereby realizing a skin cosmetic effect more efficiently.

The above and other objects of the present invention can be achieved by the present invention described below.

One aspect of the present invention is a bio-coated cloth having an attachment surface attached to a portion of a skin of a human body; An adhesive member fixed to the entire attachment surface of the bio-coated cloth; And a releasing paper coated with a vinyl material so as to be able to repeatedly attach or detach the adhesive member, wherein the bio-coated cloth is standardized by size or type and attached to a release paper, and the bio- A first mixture comprising an amorphous material, tourmaline (tourmaline), loess, bentonite, ilite and cercopithecide; And a second mixture comprising at least one selected from the group consisting of silicone, urethane, ink or polyether resin, wherein the first mixture and the second mixture are mixed at a ratio of 1 to 3: 9 to 7 Mixed, multi-functional patch.

In an embodiment, the first mixture comprises 10-20% by weight of amethyst, 10-20% by weight of tourmaline, 1-10% by weight of loess, 30-40% by weight of bentonite, 10-20% by weight of ilite, % By weight.

In an embodiment, the first mixture may have a size of 500 to 2000 mesh.

In an embodiment, the size of the bio-coated cloth may be 0.1 mm to 200 mm.

In an embodiment, the shape of the bio-coated cloth may be any one selected from the group consisting of a circle, an ellipse, a triangle, a square, a pentagon, a hexagon, a heart, a semicircle, a curved or a star.

In an embodiment, the attachment surface of the bio-coated cloth may be attached to the sites of the myocardial point present in the human body.

In an embodiment, the bio-coated cloth may include continuous wrinkles in the form of a ring so that the bio-coated cloth can emit far-infrared rays and negative ions to the human body in contact with the skin.

In an embodiment, the anion emission amount is 300 ions / cc or more, and the far infrared ray emissivity may be 0.8 or more in a far infrared wavelength range of 5 to 20 占 퐉 compared to a black body.

Another aspect of the present invention relates to a method for preparing a mixture comprising preparing and pulverizing a first mixture comprising amethyst, tourmaline (tourmaline), loess, bentonite, ilite and cryptomeric; Preparing a second mixture comprising at least one selected from the group consisting of silicone, urethane, ink or polyethylene resin; Mixing the first mixture and the second mixture to form a mixture of optical materials; Coating the optical mixed material on a stretchable fiber cloth and printing to form a bio-coated cloth; Fixing an adhesive member to the entire attachment surface of the bio-coated cloth; And attaching a releasing paper coated with a vinyl material so that the adhesive material can be repeatedly attached or detached, wherein the bio-coated cloth is provided with an attachment surface to be attached to a part of the skin of a human body, Wherein the coated cloth is standardized for its size or form and attached to the release paper, and the first mixture and the second mixture are mixed in a ratio of 1: 3: 9 to 7.

In an embodiment, the size of the bio-coated cloth may be 0.1 mm to 200 mm.

In an embodiment, the shape of the bio-coated cloth may be any one selected from the group consisting of a circle, an ellipse, a triangle, a rectangle, a pentagon, a hexagon, a heart, a semicircle or a star.

In an embodiment, the attachment surface of the bio-coated cloth may be attached to the sites of the myocardial point present in the human body.

In an embodiment, the printing may be printed by any one of digital printing, silk screen printing, or 3D printing methods.

The multifunctional patch according to the present invention has an eco-friendly property which is excellent in human health effects such as pain relief, promotion of sweat secretion, blood circulation, nervous system control, fatigue recovery and the like by radiating anion and far- It has excellent antimicrobial and anti-fungal effect and can suppress allergic reaction and increase hygienic performance. It can have various sizes or forms, can be used for various purposes, can be produced cheaply and easily, So that the skin cosmetic effect can be realized more efficiently.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flow chart showing a process for producing a multifunctional patch according to a specific embodiment of the present invention. FIG.
2 is a schematic diagram showing a multifunctional patch 100 according to an embodiment of the present invention.
3 is a cross-sectional view showing a cross section of the multifunctional patch 100 according to the embodiment of the present invention.

Embodiments of the present application will now be described in more detail with reference to the accompanying drawings. However, the techniques disclosed in the present application are not limited to the embodiments described herein but may be embodied in other forms.

The embodiments disclosed herein are provided so that the disclosure can be thorough and complete, and will fully convey the scope of the present application to those skilled in the art. In the drawings, the width, thickness, and the like of the components are enlarged in order to clearly illustrate the components of each device. In addition, although only a part of the components is shown for convenience of explanation, those skilled in the art can easily grasp the rest of the components.

It is to be understood that when an element is described above as being located above or below another element, it is to be understood that the element may be directly on or under another element, It means that it can be done. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. In the drawings, the same reference numerals denote substantially the same elements.

It is to be understood that the singular forms "a", "an", and "the" include plural referents unless the context clearly dictates otherwise, and the terms "comprise" Components, components, or combinations thereof, and does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof .

Further, in carrying out the method or the manufacturing method, the respective steps of the method may take place differently from the stated order unless clearly specified in the context. That is, each process may occur in the same order as described, may be performed substantially concurrently, or may be performed in the opposite order.

Hereinafter, the present invention will be described in more detail.

Multifunctional patch

One aspect of the present invention is a multifunctional patch comprising: a bio-coated cloth having an attachment surface attached to a part of the skin of a human body; An adhesive member fixed to the entire attachment surface of the bio-coated cloth; And a releasing paper coated with a vinyl material so as to be able to repeatedly attach or detach the adhesive member, wherein the bio-coated cloth is standardized by size or type and attached to a release paper, and the bio- A first mixture comprising an amorphous material, tourmaline (tourmaline), loess, bentonite, ilite and cercopithecide; And a second mixture comprising at least one selected from the group consisting of silicone, urethane, ink or polyether resin, wherein the first mixture and the second mixture are mixed at a ratio of 1 to 3: 9 to 7 Mixed.

FIG. 2 is a schematic view showing a multifunctional patch 100 according to an embodiment of the present invention, and FIG. 3 is a cross-sectional view showing a cross section of a multifunctional patch 100 according to an embodiment of the present invention.

 2 and 3, the multifunctional patch includes a bio-coating cloth 110 having an attachment surface attached to a part of the skin of a human body; An adhesive member 120 adhered to the entire attachment surface of the bio-coated cloth 110; And a releasing paper 130 coated with a vinyl material so that the adhesive member 120 can be repeatedly attached or detached, and the bio-coated cloth is standardized according to its size or shape and attached to the release paper.

The multifunctional patch formed by the present invention adheres to a part of the skin of a human body and emits anion and far-infrared rays, thereby exhibiting an eco-friendly property that is excellent in human health effects such as pain relief, promotion of sweat secretion, blood circulation, It has excellent antimicrobial and anti-fungal effect and can suppress allergic reaction and increase hygienic performance. It can have various forms, can be used for various purposes, and can be produced cheaply and easily.

Hereinafter, the bio-coated cloth, the adhesive member and the release member forming the multifunctional patch will be described in detail.

Bio-coated cloth

The bio-coating cloth 110 is formed by coating a stretchable fiber cloth with a light mixing material and then printing.

The stretchable fiber cloth is made of a base material that is stretchable in the transverse and longitudinal directions and is formed by cutting a band-shaped member having a predetermined width to a predetermined length. An adhesive layer coated with an adhesive material is formed on one side of the base material, It may be a stretchy fiber with a sheet attached. The stretchable fiber cloth may be provided with slits parallel to the longitudinal direction of the substrate, and the slits may be arranged in a direction in which a plurality of lines of the same length are perpendicular to the longitudinal direction of the substrate. Further, the slit may be an elongate band-shaped piece between the pair of slits, and the slit may be terminated at a position spaced from the both ends in the lengthwise direction of the base material, and both end portions of the base material may be left without being cut, have. Examples of such stretchable fiber cloths include paper, a polymer film, a nonwoven fabric or a fabric, and preferably a sports fabric cloth such as a taping cloth cloth can be used. However, the embodiment of the stretchable fiber cloth is not limited thereto. The size and shape of the stretchable fiber cloth can be appropriately changed according to the area to be adhered, and the number of strip-shaped pieces can be changed. If the material is flexible and breathable, The present invention can be embodied in various ways as long as it can implement the idea of the present invention.

Wherein the optical mixture comprises a first mixture comprising amethyst, tourmaline (tourmaline), loess, bentonite, ilite and cryptomeric; And a second mixture comprising at least one selected from the group consisting of silicone, urethane, ink or polyether resin, wherein the first mixture and the second mixture are mixed at a ratio of 1 to 3: 9 to 7 Mixed.

The first mixture may include far-infrared radiative minerals such as amethyst, tourmaline (tourmaline), yellow earth, bentonite, ilite and cryptomeric, or anion generating ores such as germanium. The first mixture may be formed by primary pulverization so as to be mixed with the required performance such as far-infrared rays and / or anion radiation. The first mixture may be mixed at a low cost and having a function of a far-infrared wavelength range of 3 to 1000 占 퐉. Wherein the first mixture comprises 10 to 20 wt.% Of amethyst, 10 to 20 wt.% Of tourmaline, 1 to 10 wt.% Of loess, 30 to 40 wt.% Of bentonite, 10 to 20 wt. By weight, and 10 to 20% by weight of clavate. Preferably 12 to 18% by weight of amethyst, 12 to 18% by weight of tourmaline, 2 to 8% by weight of loess, 25 to 35% by weight of bentonite, 12 to 18% by weight of ilite and 12 to 18% have. More preferably 14 to 16% by weight of amethyst, 14 to 16% by weight of tourmaline, 4 to 6% by weight of loess, 28 to 32% by weight of bentonite, 14 to 16% by weight of ilite and 14 to 16% . In the above content range, anion and far-infrared rays are radiated when adhering to the skin, which is advantageous in human health effects such as pain relief, sweat secretion promotion, blood circulation, nervous system control and fatigue recovery. The first mixture may be finely pulverized and stored in a particle size of 500 to 2000 meshes for use in various applications. Preferably, the first mixture may have a particle size of 700 to 1800 mesh, more preferably 500 to 1500 mesh. Infrared radiation material can be used for each mesh according to various use purposes such as a wavelength range in the above-mentioned size range.

The second mixture may include at least one of silicone, urethane, ink or polyethylene resin. However, as long as the performance of the multifunctional patch according to one embodiment of the present invention can be realized, the type thereof is not limited thereto. When forming the second mixture by singly or in combination of the above components, the multifunctional patch of the present invention exhibits the far infrared ray effect, the adhesive effect is realized, and the elasticity that can be utilized for the purpose of health and the like can be maintained.

The optical mixture material is formed by mixing the first mixture and the second mixture. Preferably, the first mixture and the second mixture are mixed in a ratio of 1 to 3: 9 to 7, more preferably 1.5 to 2.5 : 8.5 to 7.5. In the above range, anion and far-infrared rays are suitably radiated from a mineral which is a radiator in the formation of the optical mixed material, so that excellent effects such as pain relief, sweat secretion promotion, blood circulation, nervous system control and fatigue recovery can be realized.

Since the bio-coated cloth 110 can be attached to the release paper 130 in various sizes according to its size, it needs various sizes depending on the exercise and skin care necessary applications. In this case, The multifunctional patch 100 can be used.

In an embodiment, the size of the bio-coated cloth may be 0.1 mm to 200 mm. Preferably from 0.5 mm to 150 mm, and more preferably from 1 mm to 100 mm. In the above range, far-infrared rays and anion radiation effects of the bio-coated cloth are realized, so that effects such as pain relief, blood circulation and fatigue recovery are excellent, and the adherence of the body is improved.

Since the bio-coated cloth 110 can be attached to the release paper 130 in various forms according to the type thereof, it requires various forms depending on the exercise and skin care necessary applications. Thus, according to the present invention, The multifunctional patch 100 can be used.

In an embodiment, the bio-coated cloth may be in the form of a circle, an ellipse, a triangle, a square, a pentagon, a hexagon, a heart, a semicircle, a curved shape, a star shape or various molding forms thereof. Preferably circular or semicircular, but the shape is not limited thereto as long as it can realize the idea of the present invention. By implementing various forms as described above, there is an advantageous effect that it can be suitably used according to the purpose of use.

In an embodiment, the attachment surface of the bio-coated cloth may be attached to the sites of the myocardial point present in the human body.

The acupoint is a specific site of the human body in which a pathological phenomenon is very conspicuous in a meridian region corresponding to the disease occurrence site when a disease occurs in a human body. , Blood donation or blood. The site of the acupoint is well known in the medical field of Oriental medicine. For example, in the back of a human body, there is a blood vessel portion called a blood vessel. The blood vessel is a blood vessel into which an organ enters into the body. All blood vessels are located in the cervix of the back. Specifically, the blood is the blood of the lungs located between the thoracic spine 3-4, the blood of the heart, and the blood of the heart located between the thoracic spine 4-5. The blood is located between the thoracic spine 5-6 Liver oil, liver oil, liver oil 6-7, liver oil, gallbladder blood, liver oil 7-8, blood vessel of the spleen between the thoracic spine 8-9, the blood of the stomach , Which is located between the lumbar vertebrae and the lumbar vertebra, is located between the lumbar vertebrae and the lumbar vertebrae, Colonic fluid located between the fifth and fifth colon, small intestine located between the first and second colon as the blood of the small intestine, and bladder oil located between the second and third colon as the blood of the bladder. As another example, in the neck region of the human body, a concave region located on the head bone at the center of the rear part of the neck and located about 3 cm from the region where the hair starts to come into contact with the abdomen, A region between the first cervical vertebra and the second cervical vertebra, which is located about 1 cm below the abdominal region, about 2 cm below the abdominal region, and about 1.5 cm away from the abdominal region in the left and right direction, It is known that the portion of the acupoint, such as the blood of the cervix, which is located at the outer boundary of the trapezius immediately behind the trachea, which is about 1.5 cm away from the left and right of the acromion, is supported. In the field of oriental medicine, it is known that the pathological phenomenon occurs when a physical stimulus such as acupuncture or moxibustion is applied to the acupoint for a predetermined period of time, Is known to be able to see. The multifunctional patch 100 according to an embodiment of the present invention may be attached to other sites of the meridian point including the above-described sites of the meridian point. The attachment surface of the bio-coated cloth 110 may be attached By emitting anion and far-infrared rays, excellent effects such as pain relief, sweat secretion promotion, blood circulation, nervous system control and fatigue recovery can be realized.

In an embodiment, the bio-coated cloth may include continuous wrinkles in the form of a ring so that the bio-coated cloth can emit far-infrared rays and negative ions to the human body in contact with the skin.

The multifunctional patch 100 may have a continuous ring-like protrusion (not shown) of the bio-coating cloth 110 continuously and uniformly contacting the skin over a wide area to emit far-infrared rays and negative ions to the human body. It can be used in various parts such as shoulder, head, elbow, hand, finger, chest, back, abdomen, waist, femur, hip, thigh, knee, calf and foot. It can also be used for emergency treatment such as frequent areas of pain during exercise or daily life, sprains, bruises, and dislocations. Particularly, in the case of acute or chronic pain and the like, and when the prevention of pain due to sports or the like is severe, the effect can be increased by crossing a plurality of multifunctional patches 100 crossing each other.

In an embodiment, the anion emission amount is 300 ions / cc or more, and the far infrared ray emissivity may be 0.8 or more in a far infrared wavelength range of 5 to 20 占 퐉 compared to a black body. Preferably, the anion emission amount is 500 ions / cc or more, and the far-infrared emissivity may be 0.95 or more. The anionic and far-infrared rays are radiated in the above-mentioned range, so that the multifunctional patch adheres to the skin and has the advantage of excellent human health effects such as pain relief, sweat secretion promotion, blood circulation, nervous system control and fatigue recovery.

In another embodiment, the bio-coated cloth may further include a polyurethane circular protrusion that is fixed on the entire surface of the bio-coated cloth and has a size of 0.01 to 50 mm so as to contact the skin and generate an acupressure effect on the human body.

The polyurethane circular protrusions (not shown) of the multifunctional patch 100 are closely arranged in a plurality of shapes on a part of the surface of the skin to be contacted to provide a stimulus and emit far infrared rays and negative ions to the human body . It can be used in various parts such as shoulder, head, elbow, hand, finger, chest, back, abdomen, waist, femur, hip, thigh, knee, calf and foot. It can also be used for emergency treatment such as frequent areas of pain during exercise or daily life, sprains, bruises, and dislocations. Particularly, in the case of acute or chronic pain and the like, and when the prevention of pain due to sports or the like is severe, the effect can be increased by crossing a plurality of multifunctional patches 100 crossing each other.

The multifunctional patch 100 according to the various embodiments of the present invention may be applied to the skin of the above-described tree-like shape to achieve human health effects such as pain relief by far infrared ray and anion radiation, promotion of sweat secretion, blood circulation, In addition to the continuous wrinkle protrusions and the polyurethane circular protrusions, protrusions of various lengths, areas, or shapes can be formed to be fixed to the front surface of the bio-coated cloth 110 according to the required applications.

Adhesive member

Referring to FIGS. 2 and 3, the adhesive member 120 is fixed to one surface of the bio-coating cloth 110 and is bonded to one surface of the bio-coating cloth 110 through bonding or the like And may be integrally formed in the longitudinal direction of the bio-coated cloth 110. [0054] The adhesive member 120 is not only easy to use because it is not necessary to apply an adhesive agent separately when the multifunctional patch 100 is used but also easily adheres to the adhesive surface of the adhesive member 120 to easily maintain the adhesive force have. Further, a plurality of air holes (not shown) may be formed in the adhesive member 120 so that the air can be smoothly contacted with the human skin. The adhesive surface of the adhesive member 120 is preferably made of a material harmless to the human body and may be formed in such a manner that the adhesive surface is formed on a synthetic resin film such as a polyester film. However, as long as the spirit of the present invention can be realized, the kind thereof is not limited thereto.

Release paper

Referring to FIGS. 2 and 3, the release paper 130 may be attached to the bio-coating cloth 110 with a surface coated with a vinyl material so that the adhesive member 120 can be repeatedly attached or detached . The release paper 130 may be paper, a nonwoven fabric, or the like, and the type of the release paper 130 is not limited thereto as far as it implements the object of the present invention. When the releasing paper is used, it is excellent in adhesion to a bio-coated cloth and easy to use for repeated attachment and detachment.

Manufacturing method of multifunctional patch

According to another aspect of the present invention, a method for producing a multifunctional patch comprises preparing and pulverizing a first mixture comprising amethyst, tourmaline (tourmaline), loess, bentonite, ilite, and cortex; Preparing a second mixture comprising at least one selected from the group consisting of silicone, urethane, ink or polyethylene resin; Mixing the first mixture and the second mixture to form a mixture of optical materials; Coating the optical mixed material on a stretchable fiber cloth and printing to form a bio-coated cloth; Fixing an adhesive member to the entire attachment surface of the bio-coated cloth; And attaching a releasing paper coated with a vinyl material so that the adhesive material can be repeatedly attached or detached, wherein the bio-coated cloth is provided with an attachment surface to be attached to a part of the skin of a human body, The coated cloth is standardized by its size or form and adhered to the release paper, and the first mixture and the second mixture are mixed in a ratio of 1: 3: 9 to 7. [

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flow chart showing a process for producing a multifunctional patch according to a specific embodiment of the present invention. FIG.

Referring to FIG. 1, the method for preparing a multifunctional patch includes preparing a first mixture (S10); Preparing a second mixture (S20); (S30); Forming a bio-coating cloth (S40); An adhesive member fixing step (S50); And a release paper cementing step (S60), which will be described in more detail below.

The first mixture mixing step (S10) comprises: preparing a first mixture containing far-infrared radiative minerals such as amethyst, tourmaline (tourmaline), loess, bentonite, ilite and cryptomeria; Firstly milling the first mixture so that the first mixture can be mixed according to the required performance such as far-infrared ray and / or anion radiation; Mixing the first finely pulverized first mixture at a low cost and having a function up to a far-infrared wavelength range of 3 to 1000 占 퐉; And then finely pulverizing the mixed first mixture at various particle sizes so as to be used in various applications. Wherein the first mixture comprises 10 to 20 wt% of amethyst, 10 to 20 wt% of tourmaline, 1 to 10 wt% of loess, 30 to 40 wt% of bentonite, 10 to 20 wt% of ilite, 10 to 20 wt% can do. Preferably 12 to 18% by weight of amethyst, 12 to 18% by weight of tourmaline, 2 to 8% by weight of loess, 25 to 35% by weight of bentonite, 12 to 18% by weight of ilite and 12 to 18% have. More preferably 14 to 16% by weight of amethyst, 14 to 16% by weight of tourmaline, 4 to 6% by weight of loess, 28 to 32% by weight of bentonite, 14 to 16% by weight of ilite and 14 to 16% . In the above content range, anion and far-infrared rays are radiated when adhering to the skin, which is advantageous in human health effects such as pain relief, sweat secretion promotion, blood circulation, nervous system control and fatigue recovery. The first mixture may also have a particle size of 500 to 2000 meshes, preferably a particle size of 700 to 1800 meshes, more preferably 500 to 1500 meshes, for use in a variety of applications. In the above range, the far-infrared radiation material can be used for each mesh depending on various uses such as wavelength range.

The second mixture mixing step (S20) may include at least one of silicone, urethane, ink, or polyethylene resin. If the performance of the multifunctional patch according to one embodiment of the present invention can be realized, But is not limited thereto. When forming the second mixture by singly or in combination of the above components, the multifunctional patch of the present invention exhibits the far infrared ray effect, the adhesive effect is realized, and the elasticity that can be utilized for the purpose of health and the like can be maintained.

The optical mixture material forming step (S30) may comprise mixing the first mixture and the second mixture to form a mixture of optical materials. Preferably, the first mixture and the second mixture have a ratio of 1 to 3: 9 to 7 , More preferably 1.5 to 2.5: 8.5 to 7.5. In the above range, anion and far-infrared rays are suitably radiated from a mineral which is a radiator in the formation of the optical mixed material, so that excellent effects such as pain relief, sweat secretion promotion, blood circulation, nervous system control and fatigue recovery can be realized.

The bio-coating cloth forming step (S40) comprises: coating the optical mixed material on a stretchable fiber cloth; And printing the coated stretchable fiber cloth to form a bio-coated cloth. In a specific example, the printing may be printed by any one of a digital printing method, a silk screen printing method, or a 3D printing method. The digital printing uses a digital textile printer or the like, and includes a print head that ejects ink dyes according to data stored in a computer. The ink is sprayed on the print head to print colors on the fibers, There is a feature that can be put quickly. When the multifunctional patch of the present invention is manufactured by the digital printing method, various patterns, designs, shapes, and the like can be implemented according to the intended use such as health or beauty. The silk screen printing is performed by using a silk, polyester cloth or metal mesh as a printing plate, attaching a valve to the mesh by hand or chemical method, pouring the ink into the printing frame and pressing the inner surface of the screen, To be printed on an object placed under the plate. This is inexpensive, can be printed on curved surfaces, is easy to print in multicolor, and the design is not reversed, making it widely used in textile such as print t-shirts. When the multifunctional patch of the present invention is manufactured by the silk screen printing method, curved surface and multicolor printing are easy, and designs are not reversed, so that various patterns, designs, and shapes can be realized. The 3D printing is a three-dimensional printing method using a lamination technique to construct a three-dimensional article. First, a continuous thin cross section of a desired article is formed, and each cross section is formed on the plane surface of the granular material layer And adjacent particles are bonded together. At this time, the particles of each layer are bonded together, and at the same time, each layer is bonded to an already formed layer to form a desired three-dimensional article. Such 3D printing is advantageous because it is possible to produce parts directly from computer-generated design data and to manufacture parts with complicated geometry. It is also characterized by faster and less costly machining of cast or formed parts by conventional hard or soft casting which can take several to several months depending on the complexity of the item. It can also be used in the manufacture of molds for investment casting for the production of fully functional cast metal parts or fibrous articles and for the visualization, demonstration, mechanical manipulation, . In the 3D printing method, it is possible to manufacture the multifunctional patch of the present invention at a faster and lower cost, and it is possible to form various laminated three-dimensional articles and realize a complicated geometric structure.

2, the adhesive member 120 is attached to the entire surface of the bio-coated cloth 110 so that the adhesive member 120 is bonded to the bio-coated cloth 110 (step S50) 110 and may be integrally formed in the longitudinal direction of the bio-coating cloth 110. The bio-coating cloth 110 may be integrally formed with the bio- The adhesive member 120 is not only easy to use since it is unnecessary to apply an adhesive separately when it is fixed to the multifunctional patch 100, but also easily adheres to the adhesive surface of the adhesive member 120, . Further, a plurality of air holes (not shown) may be formed in the adhesive member 120 so that the air can be smoothly contacted with the human skin. Further, the adhesive surface of the adhesive member 120 is preferably made of a material harmless to the human body. For example, the adhesive surface of the adhesive member 120 may be formed of a synthetic resin film such as a polyester film. However, as long as the spirit of the present invention can be realized, the kind thereof is not limited thereto.

Referring to FIG. 2 again, the release-paper-attaching step S60 may be repeated until the releasing paper 130 coated with the vinyl material is adhered to the bio-coating cloth 110 so that the adhesive member 120 can be repeatedly attached or detached. As shown in Fig. The release paper 130 may be paper, a nonwoven fabric, or the like, and the type of the release paper 130 is not limited thereto as far as it implements the object of the present invention. When the releasing paper is used, it is excellent in adhesion to a bio-coated cloth and easy to use for repeated attachment and detachment.

The multifunctional patches of various shapes and patterns completed through the above-described steps can be cut and finished in accordance with a desired design form in accordance with the application for health, beauty, and the like, thereby completing the final product.

As described above, according to the present invention, anion and far-infrared rays are radiated on the skin to attach to the skin, thereby having excellent human health effects such as pain relief, promotion of sweat secretion, blood circulation, nervous system control and fatigue recovery, It has excellent antimicrobial and anti-fungal effects, which can suppress allergic reaction and increase hygienic performance. It can have various sizes or forms, can be used for various purposes, can be produced cheaply and easily, The effect of skin beauty can be realized efficiently.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to preferred embodiments of the present invention. It is to be understood, however, that the same is by way of illustration and example only and is not to be construed in a limiting sense.

The contents not described here are sufficiently technically inferior to those skilled in the art, and a description thereof will be omitted.

Example

Example 1

(First mixture) was prepared and pulverized by the same method as in the composition ratios shown in Table 1 below. Amorphous silica, tourmaline (tourmaline), yellow soil, bentonite, And mixed to form a photo-mixed material. Then, the optical mixed material is coated on a stretchable fiber cloth and printed to form a bio-coated cloth, an adhesive member is adhered to the entire adhered surface of the bio-coated cloth, and the adhesive member is repeatedly attached or detached The multifunctional patches were prepared by laminating release paper coated with a vinyl material. The finished multifunctional patch was dried and stabilized for one week in a well-ventilated, shaded area.

Example 2

A multifunctional patch was prepared in the same manner as in Example 1 except that the ingredients were mixed in the proportions shown in Table 1 below.

Comparative Example 1

A patch was prepared in the same manner as in Example 1 except that the mixed material to be formed in the conventional patch was used instead of the optical mixture in the above.

Comparative Example 2

A patch was prepared in the same manner as in Example 1 except that the first mixture was not used and the optical mixture was formed only with the second mixture.

Comparative Example 3

A patch was prepared in the same manner as in Example 1 except that the first mixture and the second mixture were mixed at a ratio of 5: 5 to form a photo-mixing material.

Example 1 Example 2 Comparative Example 1 Comparative Example 2 Comparative Example 3 Bio-coated cloth
(Textile cloth) sports
tape sports
tape sports
tape sports
tape sports
tape Adhesive member Adhesive material Adhesive material Adhesive material Adhesive material Adhesive material Release paper Release paper Release paper Release paper Release paper Release paper ore
spirit
synthesis
water
quality The first mixture
(weight%) amethyst 5 2 - - 10 tourmaline 2 3 - - 5 Yellow soil 3 5 - - 5 Bentonite 4 10 - - 20 Ilright 3 2 - - 5 Carcass 3 3 - - 5 The second mixture
(weight%) silicon 20 15 - 50 15 urethane 15 25 - 25 10 Ink 25 20 - 15 15 Polyethylene 20 15 - 10 10 Total (wt%) 100 100 - 100 100

Property evaluation

Preparation and method of evaluation

For the evaluation of the physical properties of the multifunctional patch produced by the present invention, the negative ion radiation characteristic test (Comparative Example 2) was carried out with respect to the multifunctional patches of Examples 1 and 2 and Comparative Examples 2 and 3 including the general patch (Comparative Example 1) And far-infrared radiation characteristic tests were carried out. The results are shown in Table 2 below.

The test method of the negative ion radiation characteristic was carried out in accordance with the KICM-FIR-1042 method by the Korea Institute of Construction Materials Research Institute, 1465-4 Seocho 3-dong, Seocho-gu, Seoul. The test specimens were cylindrical with an inner diameter of 44 mm and a height of 297 mm and were tested using a charge particle measuring device under the conditions of 24 ° C, 38% humidity and 42 / cc of anion in the air.

Test methods for far-infrared radiation characteristics were conducted by the Korean Institute of Construction Materials. The emissivity was measured using an FT-IR spectrometer while scanning at a wavelength of 5-20 [mu] m at 40 [deg.] C.

Antibacterial test, antifungal test and deodorization test were carried out by other commonly used methods.

division Example 1 Example 2 Comparative Example 1 Comparative Example 2 Comparative Example 3 Anion measurement
(10 N / cc) Air intake type 567 661 106 89 113 Far-infrared radiation characteristic Emissivity
(5 to 20 占 퐉) 0.935 0.942 0.184 0.199 0.257 Radiant energy
(W / m ² ) 3.49 * 100 3.58 * 100 84.5 29.5 65.2 Antibacterial (%) Escherichia
Coli 99.9 99.9 - - - Antifungal Aspergillus niger 0
(mold
No growth) 0
(mold
No growth) - - - Deodorization (%) ammonia 357 381 142 158 129

Physical property measurement result

As a result of the above anion, far-infrared radiation, antibacterial, antifungal and deodorization test, it was confirmed that the far-infrared radiation effects such as radiant energy and emissivity were significantly superior to those of Comparative Examples 1 to 3 in Examples 1 and 2 according to the present invention. In addition, it is possible to obtain a much higher value in the antibacterial test, and it can be seen that there is no fungal growth even in the antifungal test. Also, it can be confirmed that the deodorization test using ammonia and the measurement test of anion in air are excellent.

More specifically, the numerical values above are the results of measuring the anions released from the measurement object by the above-described test method and displaying them as ionized water per unit volume. As shown in Table 2, the general patch (Comparative Example 1) The functional patch prepared according to the present invention shows a large difference from the number of anions in the air, indicating that a significant amount of anions are generated. In addition, it was confirmed that the far infrared ray emissivity reached 0.935 and 0.942, respectively.

A functional patch is formed by mixing an anion radiator having the above-described effect, that is, amethyst, tourmaline (tourmaline), loess, bentonite, ilite, and amphibole with a band or adhesive of a functional patch. And the anion to help blood circulation to relieve the pain of the general patch is to double the effect. The anion releasing functional patch of the present invention has a convenient size that can be cut to an appropriate size and used for patches, bands, and patches in pain areas.

Clinical evaluation

Preparation and method of evaluation

For the clinical evaluation of the multifunctional patch manufactured according to the present invention, a target is selected from commonly used patches, and based on this, characteristics such as tackiness, elasticity, design, .

First, in order to consider the universally specific validity of the clinical evaluation, subjects were randomly selected and appropriately considered the total age and sex ratio.

Considering that the age group that can use patches for reasons of physical health or skin beauty is not focused on a specific age group, the number of subjects to be tested is 500 persons, 257 men and 243 women, Of children and teenagers to middle - aged middle - aged people in their 60s.

Particularly, in order to obtain definite results, the purpose of the clinical evaluation, the purpose of the clinical evaluation and the evaluation items are explained to the clinical evaluation personnel who are the subject of the test, and sufficient training is performed to identify the difference in the patch wear degree .

Thereafter, the residual effect was removed so as not to cause confusion with the texture of the first patch, such as trauma or healing history, before use of the patch of the present invention.

Clinical evaluation result

As described above, the clinical evaluation of the wearing of the multifunctional patch according to the present invention against the subject randomly and randomly extracted was carried out. As a result, the results shown in Table 3 were obtained as follows.

[Table 3]

The clinical evaluation method was carried out by the 5-point preference test method. The evaluation items of the preference degree were adhesiveness, elasticity, design and improvement, and the multifunctional patch according to the present invention had excellent preference in all fields in the clinical evaluation It looked.

Through the physical property measurement and clinical evaluation results as described above, the multifunctional patch according to the present invention adheres to the skin and radiates anion and far-infrared rays, thereby improving human health effects such as pain relief, sweat secretion promotion, blood circulation, nervous system control, It is excellent and has harmless and environment friendly characteristics to the human body. It has excellent antimicrobial and anti-fungal effect and can suppress the occurrence of allergies and increase hygienic performance. It can have various sizes and forms, can be used for various purposes, It can be seen that the skin cosmetic effect can be realized more efficiently by attaching to the sites of the acupoints present in the skin.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of the appended claims as well as the appended claims.

100: Multifunctional patch 110: Bio-coated cloth
120: Adhesive member 130: Release sheet

Claims (13)

A bio-coating cloth provided with a sticking surface attached to a part of the skin of a human body;
An adhesive member fixed to the entire attachment surface of the bio-coated cloth; And
A releasing paper coated with a vinyl material so that the adhesive member can be repeatedly attached or detached;
Lt; / RTI >
The bio-coated cloth is standardized according to its size or form and attached to the release paper,
The bio-coated cloth is formed by coating a stretchable fiber cloth with a light mixing material and then printing,
Wherein the optical mixture material comprises a first mixture comprising amethyst, tourmaline (tourmaline), loess, bentonite, ilite and cryptomeric; And a second mixture comprising at least one selected from the group consisting of silicone, urethane, ink or polyether resin,
Wherein the first mixture and the second mixture are mixed in a ratio of 1: 3 to 9: 7.
The method according to claim 1,
Wherein the first mixture comprises:
Characterized in that it comprises 10 to 20% by weight of amethyst, 10 to 20% by weight of tourmaline, 1 to 10% by weight of loess, 30 to 40% by weight of bentonite, 10 to 20% by weight of ilite and 10 to 20% Functionality patch.
The method according to claim 1,
Wherein the first mixture has a size of 500 to 2000 mesh.
The method according to claim 1,
Wherein the size of the bio-coated cloth is 0.1 mm to 200 mm.
The method according to claim 1,
Wherein the shape of the bio-coated cloth is any one selected from the group consisting of a circle, an ellipse, a triangle, a rectangle, a pentagon, a hexagon, a heart, a semicircle, a curved or a star.
The method according to claim 1,
Wherein the attachment surface of the bio-coated cloth is attached to a site of acupoint in the human body.
The method according to claim 1,
Wherein the bio-coated cloth includes continuous wrinkles in a ring-like shape so as to be able to emit far-infrared rays and negative ions to the human body in contact with the skin.
8. The method of claim 7,
Wherein the anion emission amount is 300 ions / cc or more, and the far infrared ray emissivity is 0.8 or more in a far infrared wavelength range of 5 to 20 占 퐉 compared to a black body.
Preparing and pulverizing a first mixture comprising amethyst, tourmaline (tourmaline), loess, bentonite, ilite and cryptomeric rock;
Preparing a second mixture comprising at least one selected from the group consisting of silicone, urethane, ink or polyethylene resin;
Mixing the first mixture and the second mixture to form a mixture of optical materials;
Coating the optical mixed material on a stretchable fiber cloth and printing to form a bio-coated cloth;
Fixing an adhesive member to the entire attachment surface of the bio-coated cloth; And
Attaching a releasing paper coated with a vinyl material on one side so that the adhesive member can be repeatedly attached or detached;
Lt; / RTI >
The bio-coated cloth is provided with an attachment surface to be attached to a part of the skin of the human body,
The bio-coated cloth is standardized according to its size or form and attached to the release paper,
Wherein the first mixture and the second mixture are mixed in a ratio of 1: 3 to 9: 7.
10. The method of claim 9,
Wherein the size of the bio-coated cloth is 0.1 mm to 200 mm.
10. The method of claim 9,
Wherein the shape of the bio-coated cloth is any one selected from the group consisting of a circle, an ellipse, a triangle, a rectangle, a pentagon, a hexagon, a heart, a semicircle or a star.
10. The method of claim 9,
Wherein the adhesion surface of the bio-coated cloth is attached to a site of acupoint at a point of the human body.
10. The method of claim 9,
Wherein the printing is performed by any one of a digital printing method, a silk screen printing method and a 3D printing method.

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