KR101857154B1 - Bio insol of yongcheon spot finger pressure and method of manufacturing the same - Google Patents

Abstract

The bio-engraved acupressure insole 100 according to the present invention is constructed as follows.
A base sheet 110 covering the bottom surface of the shoe and a fabric 120 adhered to the top surface of the base sheet 110. The base sheet 110 is formed to be convex upward, A protrusion 130 having a receiving space 135 opened downward and corresponding to the receiving space 135 and a buffer block 150 received and attached to the receiving space 135.
In addition, a manufacturing method for making the bio-engraved acupressure insole 100 is as follows.
The base fabric 110 and the fabric 120 are cut to conform to the foot shape and the foam fabric is thermocompression bonded to the base sheet 110 with the protrusions 130 formed thereon A step of attaching the fabric sheet 120 to an upper surface of the base sheet 110 after the forming step and after the forming step and a step of attaching the base sheet 110 and the fabric sheet 120 after the attaching step A step of applying a mixed solution of charcoal powder and bioceramic powder selectively mixed with water to the fabric 120 after the punching step; And then drying the mixed solution.
Therefore, the following effects can be obtained.
First, Yongcheon Blood (W) can be pressurized without pain, so it is effective to walk for a long time.
Second, because it has an antibacterial and sterilizing function, it is possible to prevent odor from being generated due to foot odor.
Thirdly, there is an effect that the moisture introduced between the base sheet 110 and the shoe sole can be easily discharged in a state in which the bio-engraved insole 100 is accommodated in the shoe.
Fourth, since the heel is buffered when walking, it can prevent joint disease.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a method for manufacturing an insole for a bio-

More particularly, the present invention relates to a method for manufacturing a bio-erythropoietic acupressure insole and a bio-erythropoietic insole, and more particularly, The present invention relates to a method for manufacturing an acupressure insole.

Hereinafter, the acupressure insole according to the background art will be described with reference to the accompanying drawings.

1 is an exploded perspective view showing an acupressure insole according to the background art.

The shiatsu insole (1), which is accommodated in the inside of the shoe and laid on the bottom of the shoe, is designed to enable cushioning during walking and slip on the sole of the shoe.

The structure of this shiatsu insole is as follows.

As shown in FIG. 1, a base sheet 10 is disposed to cover a bottom surface of a shoe. The base sheet 10 is attached to an upper surface of the base sheet 10 to absorb sweat of the foot.

On the upper surface of the base sheet 10, a protrusion 13 is formed so as to press against the molten metal of the sole. Needless to say, the fabric 20 covers the projections at the same time.

In addition, a non-slip protrusion 25 is attached to the upper surface of the fabric 20 to prevent slip and to stimulate the sole so that the back of the sole can be pressed.

However, the above-described acupressure insole 1 according to the background art has the following problems.

First, the base sheet 10 is made of EVA (Ethylene Vinyl Acetate) material so that it can be buffered with a light weight. However, in the case of the protruding portion 13, since the inside is filled, continuous irritation of the molten bone leads to pain and hinders walking. In order to solve this problem, the inside of the protrusion 13 may be configured to be opened downward. However, in this case, the protrusion 13 may be easily squeezed by the weight of the protrusion 13,

Second, although the fabric 20 can absorb the sweat discharged from the feet, the sweat may cause the bacteria to multiply and cause a bad odor.

Third, when the shoe insole 1 is laid on the inside of the shoe, moisture is introduced between the shoe insole 1 and the shoe sole. In this case, since the function of discharging the moisture is lacking, the bacteria propagate and cause a malodor.

Fourth, when walking, the weight is placed on the heel, so that when the heel touches the ground, the impact is transmitted to the knee and the hip joint, causing joint diseases. Of course, in the case of sneakers, since the sole of the shoe is made of a material capable of buffering, such a phenomenon can be prevented. However, since the sole of the general shoe lacks the cushioning function, the cushion insole 1 alone has a problem of insufficient buffering.

Korean Utility Model Registration No. 20-0451617 (December 21, 2010)

The present invention provides a method of manufacturing a bio-erythropoietic insole and a bio-erythropoietic insole according to the present invention.

First, the base sheet is made of EVA (Ethylene Vinyl Acetate) material so that it can be buffered with a light weight. However, in the case of the protrusion, since the inside of the protrusion is filled up, it causes pain when continuously stimulating the bulbous blood, which is an obstacle to walking.

Second, it is possible to absorb the sweat discharged from the foot by the fabric, but it is intended to solve the problem that the sweat causes the bacteria to multiply and cause the odor.

Third, moisture permeates between the shoe insole and shoe sole when the shoe insole is laid inside the shoe. In this case, it is difficult to discharge the moisture, so that bacteria also multiply, thereby causing a malodor.

Fourth, when walking, the weight is placed on the heel, so that when the heel touches the ground, the impact is transmitted to the knee and the hip joint to solve the problem of causing joint disease.

The bioabsorbable acupressure insole according to the present invention is constructed as follows.

A base sheet covering a bottom surface of the shoe; and a fabric attached to an upper surface of the base sheet, wherein the base sheet has protrusions formed in an upwardly convex shape, And a buffer block received and attached to the accommodation space.

Further, the fabric is selectively contained in charcoal particles and bioceramics.

Further, the base sheet includes a cushion portion protruding upwardly from a portion corresponding to the heel and opened downward.

Further, it includes an exhaust hole penetrating the base sheet and the fabric.

Further, the buffer block is characterized in that the compression strength of the foamed material is smaller than that of the base sheet.

Further, the buffer is characterized in that the alcohol is absorbed in the buffer block.

A method for manufacturing a bio-bladder acupressure insole according to the present invention that enables the above-described configuration is as follows.

A shaping step of cutting the foamed fabric as a material of the base sheet and the fabric of the fabric so as to conform to the shape of a foot and thermally pressing the foamed fabric with a mold to form a base sheet having the protrusions; A step of attaching the fabric to an upper surface of the sheet; and a step of perforating an exhaust hole that passes through the base sheet and the fabric at the same time after the attaching step; and after the perforating step, And a drying step of drying the mixed solution after the application step.

Further, in the molding step, the mold is molded so that the protrusion is formed on the base sheet by the mold, and the buffer block is inserted into the receiving space in the attaching step.

The foamed fabric may be an ethylene vinyl acetate (EVA) material, and the buffer block may be an ethylene propylene rubber (EPDM) material.

Further, in the molding step, the cushioning portion is formed through the mold.

In the present invention, the method for manufacturing the Yongchonjip acupressure insole and the bioassimilator acupressure insole has the following effects.

First, when Yongchunhyeol shiaproot insole is put in shoes and foot is touched, the protruding part corresponds to the point of Yongcheonhyeol, so the dragon blood is pressed. At this time, the buffer block shrinks and smoothly compresses the dragon blood so that the pain does not accompany. Therefore, there is an effect that walking can be performed for a long time.

Second, the fabric absorbs the sweat of the foot. Since the charcoal particles and the bioceramics particles are mixed between the fibers constituting the fabric, the antibacterial effect is exerted.

Thirdly, when the weight is applied to the cushioning portion by the heel during walking, the cushioning portion is opened downward, so that the cushioning portion is flattened downward, and the shape is deformed. Therefore, there is an effect of preventing joint disease caused in the knee or hip joint.

Fourth, since the moisture introduced between the base sheet and the shoe sole can be discharged through the exhaust hole, the shoe can be always kept in a dry state and clean.

1 is an exploded perspective view showing an acupressure insole according to the background art;
FIG. 2 is a perspective view showing a yinchuan blood pressure insole according to the present invention. FIG.
FIG. 3 is an exploded perspective view showing a yinchuan blood pressure insole according to the present invention. FIG.
4 is a cross-sectional view taken along the line F-F 'in Fig.
FIG. 5 is a sectional view showing a state in which the Yongchuanjip acupuncture insole according to the present invention is stepped on.
6 is a block diagram showing a method of manufacturing a bio-X-ray blood pressure insole according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing the insole of the articulated biceps according to the present invention, FIG. 3 is an exploded perspective view showing the artificial knee joint of the present invention, FIG. 4 is a sectional view taken along the line F- FIG. 6 is a block diagram illustrating a method of manufacturing a bioabsorbable sock according to the present invention. Referring to FIG.

The bio-erythropoietic insole 100 according to the present invention is characterized by being able to continuously irritate the dragon blood without pain and having antimicrobial properties, thereby preventing odor from occurring and preventing joint disease.

The bio-erythropoietic insole 100 according to the present invention will be described below.

A base sheet 110 covering the bottom surface of the shoe is formed and a fabric 120 adhered to the top surface of the base sheet 110 is formed.

The base sheet 110 is convex upward and is formed with a protrusion 130 corresponding to the dragon blood W and having a receiving space 135 opened downward. Also, a buffer portion 140 protruding upward from the base sheet 110 at a portion corresponding to the heel and opened downward is formed. Further, a buffer block 150 accommodated and attached to the accommodation space 135 is formed.

In addition, the fabric 120 has a plurality of non-slip projections 125 on the upper surface thereof, preventing slippage of the feet and supporting each part of the sole. Needless to say, the fabric 120 accommodates and covers both the protrusion 130 and the buffer 140.

Further, an exhaust hole 115 penetrating the base sheet 110 and the fabric 120 is formed. Since the support protrusion 117 is formed around the exhaust hole 115 at the lower surface of the base sheet 110, a gap is formed so that the air between the base sheet 110 and the shoe sole can be easily discharged. do.

The cushion block 150 is preferably made of a foam material having a compressive strength lower than that of the base sheet 110. For example, the base sheet 110 is made of EVA (Ethylene Vinyl Acetate) It is made of EPDM (ethylene propylene rubber) material. The EVA material is low cost, lightweight and easy to process. And, EPDM material is lightweight and has better buffering effect than EVA material when foamed.

In addition, the fabric 120 is preferably made of a horn fabric including a face or a surface so that sweat of the foot can be easily absorbed. And, in order to be able to be antibacterial, it is included in the fibers constituting the fabric 120 selectively in the charcoal powder and the bioceramic powder.

In addition, since the buffer block 150 is configured to absorb alcohol, the sterilizing function is provided.

The protrusions 130 are disposed at two-thirds of the length of the rear end of the base sheet 110 and the protrusions 130 are positioned at the center of the width of the left and right widths of the base sheet 110, .

In addition, the protrusion 130 has a length (the length direction of the foot) of 75 mm to 78 mm and a width of 28 mm to 38 mm, so that it can mostly correspond to the position of the dragon blood W that differs from person to person. In addition, when the height (the height of the upper side of the base sheet jogged) is 6 mm to 9 mm, the dragon blood W can be effectively pressed without pain.

Also, a buffer portion 140 protruding upward from the base sheet 110 at a portion corresponding to the heel and opened downward is formed. The buffer 140 has a length and a width of 25 mm to 28 mm, and a height (height measured from the upper surface of the base) of 3.5 mm to 5 mm.

At this time, the thickness of the base sheet 110 is 1 mm to 1.5 mm, and the buffer block 150 is attached to the accommodating space 135 in a state of being attached to the base sheet 110 in a downward direction of 0.5 to 1 mm So that the compression effect is possible. If the cushioning block 150 is deeply inserted into the receiving space 135, the lower surface of the cushioning block 150 does not touch the bottom of the shoe and the cushioning effect is lowered. When the cushioning block 150 protrudes too far downward, I feel.

The use of the bioengrage chiropractic insole 100 has the following advantages.

As shown in FIG. 5, when the bio-Yongchunjip acupuncture insole 100 is stepped on the shoe, the protruding portion 130 corresponds to the point of the dragon blood W, so that the dragon blood W is pressed. At this time, the buffer block 150 contracts and smoothly presses the dragon blood W so that the pain does not accompany. At this time, since the buffer block 150 containing air is compressed due to its foaming property, the air contained in the inside of the buffer block 150 passes between the support protrusions 117 and escapes through the exhaust hole 115. Accordingly, the buffer block 150 can be compressed with ease. If the air is not exhausted, compression is disabled. At this time, since the alcohol absorbed in the buffer block 150 is exhausted to the exhaust hole 115 after passing between the support protrusions 117 in a gaseous state, it is filled in the shoe so that sterilization is possible. Of course, sterilization is possible because the alcohol is filled in the vaporized state between the bio-Yongchunjip acupressure insole (100) and the shoe bottom. Therefore, it is possible to solve the problem that the dragon blood (W) is accompanied by pain even when walking for a long time. If the protruding portion 130 is in a charged state without being opened downward, it will cause pain when the dragon blood W is pressed, making it impossible to use. Therefore, it stimulates yongcheon blood (W) smoothly without pain, which is helpful for health promotion.

In addition, the fabric 120 absorbs perspiration of the foot. Since the char particles and the bioceramics particles are mixed between the fibers constituting the fabric 120, the antibacterial effect is exerted. Therefore, it is possible to prevent the occurrence of a malodorous phenomenon. The sweat is vaporized again and disappears when the shoe is taken off.

In addition, when the body weight is applied to the cushioning part 140 by the heel during walking, since the cushioning part 140 is opened downward, the cushioning part 140 is flattened downward to deform the shape. When the foot is lifted in this state, the load is removed and the buffer 140 is restored to its original state. At this time, the foam block may be accommodated below the buffer 140 to further increase the buffering effect. In this case, however, the heel is increased and the fatigue of the foot is increased. Therefore, there is an advantage that the joint disease occurring in the knee or the hip joint can be prevented.

In addition, since the moisture introduced into the space between the base sheet 110 and the shoe sole can be discharged through the exhaust hole 115, the shoe can be always kept dry and clean.

1 to 6, a method of manufacturing a bio-X-ray pressure insole according to the present invention will be described.

The base fabric 110 and the fabric 120 are cut to conform to the foot shape and the foam fabric is thermocompression bonded to the base sheet 110 with the protrusions 130 formed thereon A molding step is performed.

After the forming step, an attaching step of attaching the fabric 120 to the upper surface of the base sheet 110 is performed.

After the attaching step, a piercing step is performed to perforate the exhaust hole 115 penetrating the base sheet 110 and the fabric 120 at the same time.

After the perforating step, a coating step of applying a mixture of charcoal powder and water to the fabric 120 is performed.

After the application step, a drying step of drying the mixed solution is performed.

The base sheet 110 is foamed in the molding step and has a thickness of 2 mm to 3 mm. The base sheet 110 is cut so as to conform to the bottom shape of the shoe, and is then inserted into a mold. Heat is applied at a temperature of 100 ° C to 150 ° C, Make sure the shape is shaped to match. That is, at this time, as shown in FIG. 2, the flanges 113 protrude upward from the right and left sides and the rear side. At this time, the protrusion 130 and the buffer 140 are simultaneously formed.

The fabric 120 has a surface or a surface that is hollow and has a plurality of non-slip projections 125 of synthetic resin on its upper surface, and is cut to conform to the bottom shape of the shoe.

In the attaching step, the fabric 120 and the base sheet 110 are adhered to each other while being heat-pressed. That is, the fabric 120 and the base sheet 1100 are simultaneously inserted into the mold, and the application of pressure is performed by pressing a force of 7 kgf to 10 kgf at a temperature of 100 ° C. to 110 ° C. for 5 to 10 seconds.

Further, after the attachment of the present invention is completed in the mold, the buffer block 150 is attached to the accommodation space 135 using an adhesive. A synthetic resin adhesive such as a silicone adhesive may be used as the adhesive at this time.

In the perforating step, the exhaust hole 115 having a diameter of 3 mm to 6 mm is pierced using a punching machine. If the number is the above diameter, 9 to 12 are suitable.

In the application step, a mixture of charcoal powder and bioceramics powder mixed with water at a volume ratio of 1: 1 is used. At this time, particles of charcoal powder and bioceramic powder are used in a range of 50 mesh to 230 mesh. The powders and the bioceramics powder have antimicrobial and anti-inflammatory effects, which are well known in the art.

The mixed material is sprayed on the upper surface of the fabric 120 for 30 seconds to 60 seconds by spraying. At this time, the mixed solution is injected in an amount of 2 to 6 cc.

In the drying step, the substrate is dried for 1 hour to 1 hour and 30 minutes in a chamber for spraying hot air at 80 ° C to 100 ° C.

In the present invention, the foamed fabric is made of ethylene vinyl acetate (EVA), and the buffer block is made of EPDM (Ethylene Propylene Rubber).

In addition, the protrusion 130 has a length (the length direction of the foot) of 75 mm to 78 mm and a width of 28 mm to 38 mm, so that it can mostly correspond to the position of the dragon blood W that differs from person to person. In addition, when the height (the height of the upper side of the base sheet jogged) is 6 mm to 9 mm, the dragon blood W can be effectively pressed without pain.

Also, a buffer portion 140 protruding upward from the base sheet 110 at a portion corresponding to the heel and opened downward is formed. The buffer 140 has a length and a width of 25 mm to 28 mm, and a height (height measured from the upper surface of the base) of 3.5 mm to 5 mm.

At this time, the thickness of the base sheet 110 is 1 mm to 1.5 mm, and the buffer block 150 is attached to the accommodating space 135 in a state of being attached to the base sheet 110 in a downward direction of 0.5 to 1 mm So that the compression effect is possible. If the cushioning block 150 is deeply inserted into the receiving space 135, the lower surface of the cushioning block 150 does not touch the bottom of the shoe and the cushioning effect is lowered. When the cushioning block 150 protrudes too far downward, I feel.

(Example)

In the present invention, the foamed fabric is made of ethylene vinyl acetate (EVA), the buffer block is made of EPDM (Ethylene Propylene Rubber), and the foamed fabric has a thickness of 1.5 mm.

And made according to the above-mentioned manufacturing method, but the following dimensions are strictly observed.

The protrusions 130 were 76 mm in length, 30 mm in width, and 7 mm in height.

Also, the buffer block 150 is protruded 1 mm below the base sheet 110.

(Comparative Example)

An EVA (Ethylene Vinyl Acetate) material was used as the foam fabric, and protrusions for pressing the dragon blood W were made to have the same dimensions as the protrusions 130, and the inside was filled with the EVA material. The same fabric as that of the fabric 120 was attached to the top of the foam fabric. In addition, the thickness of the foamed fabric was set to be 1.5 mm, and the buffer 140 was not formed. The exhaust hole 115 is not constituted, and the application step is omitted.

(Test Example)

Two males with a height of 170 cm to 175 cm and a body weight of 60 kg to 70 kg were selected for the man, who was 40 years old. One person wore a bio-bladder acupuncture insole 100 according to the above embodiment, and the other wears an insole according to a comparative example of fraud. And they walked each 2km in 40 minutes. The insole according to the examples and comparative examples was collected and the following test results were obtained.

Example
Compare to
Pain in the ceiling

none
has exist
Presence of odor

none
has exist
Bacterial flies

232 grains / cm²
732 horses / cm²

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Therefore, it is to be understood that the embodiments disclosed herein are not for purposes of limiting the technical idea of the present invention, but are intended to be illustrative, and thus the scope of the technical idea of the present invention is not limited by these embodiments. It will be understood by those skilled 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.

100: Yongchun blood acupressure insole 110: base sheet
113: Flange 115: Exhaust hole
117: pedestal 120: fabric
125: non-slip projections 130: projections
135: accommodation space 140: buffer
150: buffer block

Claims (10)

A base sheet 110 covering a bottom surface of the shoe,
And a fabric 120 attached to an upper surface of the base sheet 110,
The base sheet (110)
A protrusion 130 formed to be upwardly convex and corresponding to the dragon blood W and having an accommodation space 135 opened downward,
A buffer block 150 which is a foam material accommodated in and adhered to the accommodation space 135 ,
An exhaust hole 115 penetrating the base sheet 110 and the fabric 120,
And a support protrusion 117 formed around the exhaust hole 115 at the lower surface of the base sheet 110,
The fabric 120 is optionally comprised of charcoal particles and bioceramic particles,
And a cushioning part 140 protruded upward from the base sheet 110 at a portion corresponding to the heel and opened downward,
Wherein alcohol is absorbed into the buffer block 150 and the vaporized alcohol is discharged through the exhaust holes 115 through the support protrusions 117 when the buffer block 150 is compressed. Yongchunhyeol acupressure insole. delete delete delete delete delete delete delete delete delete

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