KR20160109134A - Functional sole used in shoes and fabrication method for the same - Google Patents

Abstract

Disclosed are a functional shoe insole installed inside a shoe and supporting the sole of a foot, and to a manufacturing method thereof. The functional shoe insole comprises: a shoe insole main body; and a yongcheonhyeol support part installed on a position on the shoe insole main body coming in contact with the yongcheonhyeol region of the sole of a foot, and including functional substances which activate blood circulation. By arranging functional substances to the yongcheonhyeol which exhibits the greatest efficacy among acupoints when stimulated, the functional shoe insole has an excellent effect of enhancing health.

Description

Technical Field [0001] The present invention relates to a functional shoe insole and a manufacturing method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a functional shoe insole, and more particularly, to an insole of a shoe contacting a sole when worn.

Feet is a sophisticated and delicate organ composed of numerous bones, joints, ligaments, muscles, and numerous blood vessels, and the important acupuncture points and meridians of the body are concentrated, and the health of the foot is directly related to the health of the whole body. In addition, the reason why the sole is depressed upward is because the small foot is a structure for supporting the weight of the whole body. If the foot is not pushed upwards and is flat, or if it is depressed too much, the cause of foot and knee and back pain It can cause foot pain, arthritis, knee pain, back, neck and disc disease.

Foot protection shoes continue to improve and develop in terms of comfort, comfort and stability in the process of developing along with human history. However, until now, most shoes and insole have been made with uniform product design and size, There was a limit inadequate to alleviate the uncomfortable symptoms.

SUMMARY OF THE INVENTION An embodiment of the present invention has been made to solve the above problems, and it is an object of the present invention to provide a shoe insole having a large health promotion effect and a method of manufacturing the same.

In order to solve the above-described problems, an embodiment of the present invention is a shoe insole for supporting the sole provided on the inner side of a shoe, comprising: a shoe insole main body; And a yinchuan blood supporter installed at a position in contact with the root portion of the foot of the shoe insole body and formed of a functional material for activating blood circulation.

Here, the metatarsal supporting part, which is provided at a position in contact with the tip of the first metatarsal and the tip of the fifth metatarsal bone supporting the ground, and formed of a functional material for activating blood circulation, And a calcaneus support portion provided at a position in contact with the calcaneus portion supporting the ground during uprighting and formed of a functional material for activating blood circulation.

It is more effective that the functional material is a magnet.

It is effective that the polar direction of the magnet is the same as that of the metatarsophalangeal support portion and the calcar support portion, and the polar direction of the magnet of the melancholy support portion is opposite to the metatarsal support portion and the calcar support portion.

Meanwhile, as another category of the present invention, there is a method of modeling a foot shape of a wearer; Determining a shape of the shoe insole body from the foot shape of the modeled wearer; Determining a dragon blood region from the foot shape of the modeled wearer; Determining the shape of the final shoe insole main body by reflecting the shape of the caulking hole fixing groove on the corresponding portion of the shoe insole main body shape in accordance with the detected dragon blood portion; Molding the shoe insole body using the shape of the final shoe insole body; And fixing the functional material to the molten metal bath fixing groove.

Determining a fulcrum as a point where the tip of the first metatarsus, the tip of the fifth metatarsus, and the foot of the calcaneus come in contact with the foot of the modeled wearer after determining the shape of the shoe insole body; Wherein the step of determining the shape of the final shoe insole main body reflects the shape of the metatarsal fixing groove and the calf high point groove in the corresponding portion of the shape of the shoe insole body in conformity with the grasped portion of the fulcrum, In the fixing step, it is preferable that the functional material is further fixed to the metatarsal fixing groove and the calcar fixing groove.

The step of determining the body shape of the shoe insole may include the steps of: determining the footwear correction amount from the modeled foot shape of the wearer; And a step of determining the shape of the foot arch bridge supporting the footwear of the wearer by determining the footwear correction amount.

The step of determining the shape of the shoe insole body may include: determining a toe correction amount from the modeled foot shape of the wearer; And determining the shape of the toe bridge portion supporting the toe of the wearer by determining the toe correction amount.

As described above, according to the present invention, various effects including the following can be expected. However, the present invention does not necessarily achieve the following effects.

First, the health promotion effect is excellent by disposing the functional substance on the dragon blood which exerts the greatest effect when stimulating the menstrual flow of the sole of the foot.

In particular, by concentrating the magnetic force on the dragon blood, the therapeutic effect of the magnet can be maximized.

Further, by providing the toe correcting portion, not only the toe can be prevented from being deformed, but also the deformed toe can be corrected.

In addition, by providing the footrest correction unit, it is possible to maintain the most ideal shape of the footwear, and to correct foot deformed in the form of the footwear

In addition, the method of manufacturing a shoe insole can not only produce a shoe insole optimized for the wearer's foot shape, but also can position the functional material at the position of the wearer's correct dragon blood and support points, thereby maximizing the therapeutic effect There are advantages.

1 is a perspective view showing a foot bone structure viewed from a foot side;
2 is a perspective view showing the foot bone structure viewed from the foot surface,
3 is a perspective view of a shoe insole according to an embodiment of the present invention.
Fig. 4 is an exploded perspective view of Fig.
5 is a block diagram sequentially illustrating a method of manufacturing a functional shoe insole according to an embodiment of the present invention.
Figure 6 is a block diagram illustrating a detailed method of determining the shape of the functional shoe insole body of Figure 5;
Fig. 7 is a block diagram showing a detailed method of determining the binding position of the functional material in Fig. 5
8 is a conceptual diagram showing a method for determining the position of dragon blood from the shape of the sole;
Fig. 9 is a view of a foot insole taken by a wearer,
Fig. 10 is a view showing the foot portion of the sole after wearing the insole of the embodiment of the present invention,

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

Before describing an embodiment of the present invention, the structure of the human foot will be described first.

FIG. 1 shows the foot bone structure viewed from the foot side, and FIG. 2 shows the foot bone structure viewed from the foot side.

As shown in FIG. 1, the foot includes a phalanx 10 forming a toe in the longitudinal direction, a metatarsal 20 connected to the distal end of the phalanx 10 to form a foot, And a calcaneus 50 connected to an end of the scaphot 40 to form an ankle and a calcareous bone 60 connected to the talus 50 to form an ankle.

In the case of a normal foot, the metatarsal 20, the lingual bone 30, the scapular bone 40, and the calyx 60 form an arch 70 to transmit shocks to the body while walking. At this time, the footwear 70 absorbs three times the body weight of the load, and the angle of the footwear 70 is formed around 13 degrees. However, the angle of the footguard 70 may be changed due to a lot of shocks or erroneous gait, and when the angle of the footguard 70 is changed, the pelvis and the vertebrae are turned and various diseases are caused. Therefore, maintaining the angle of the appropriate footguard 70 is very important to health.

Referring to FIG. 2, the metatarsal 20 includes a first metatarsal 21, a second metatarsal 22, a third metatarsal 23, a fourth metatarsal 24, and a fifth metatarsal 25, . (A), the fifth metatarsal tip (B), and the limbs (60) of the calf bone (60) are supported by three points on the ground C). Therefore, many wastes, thrombosis, and other substances causing fatigue or disease are accumulated at the supporting point of the foot 3. Therefore, it is possible to prevent fatigue and illness by making the blood circulation of the supporting point of the foot 3 relaxed.

There are 27 blood from the dragon blood on the soles to the hands on the collarbone. Yongcheonhyeol is the first place where the sound begins, and it is the origin of the nose noise nerve. The dragon of Yongcheon means 'water sprang up,' and the water points to a spring or ground water. Yongcheon is the center of the foot. It is like a spring because the bore seems to be the first spring water, so the stream flows down and flows down. Therefore, Yongcheonhyeol (泉泉 穴) is' blood like spring water spring. The seat of Yongchunhyeol is located at the center of the wrinkle, the deepest corrugated deep, when deeply pressing on the soles of the fingers pushes the front of the sole.

Yongcheon circulates the blood of the whole body with the energy of the throat that extends to the throat of the family noise syllabary, and thus supplies energy to the whole body. It is the reason why the first step is to press Yongcheon when the foot is healed. It stabilizes the mind comfortably and is effective for shock, sunstroke, blowjob, stroke, hypertension, hysteria, seizure, epilepsy, mental illness, pediatric game, headache, paraplegia and especially gynecological diseases and cold and pain over back, lower abdomen and legs It is a big effect of treating acupuncture.

In addition, the toe is deformed due to a long wearing of a shoe which may lead to a deformed foot such as a wrong walking habit or a high heel of modern people. An example of a typical toe deformity is a bulbous bulge with a big toe bowing outward. It is caused by shoes that are not fit to the foot, sharp-pointed shoes, and high-heeled shoes. When the hallucination of the ignorance occurs, the protruding part touches the shoe to cause pain, causing severe deformity of the toe. Can not be worn. The feet feel a pressure of about 16t each time they walk a kilometer, so the weight should spread evenly throughout the soles of the feet. However, if the front ball is narrow, high shoes, or obese, the weight is bent forward, so the big toe is bent and the small toe is also protruding. As the deformation of the big toe progresses, the big toe and the second toe may overlap or the joint may dislocate.

In addition, when the protruding part hits the shoe, the pain becomes intense. Therefore, it is instinctively walked with the weight on the unaffected side. If the weight is applied to one foot, the weight is concentrated on the one knee joint and the back muscle, And the cartilage of the cartilage is worn out.

FIG. 3 is a perspective view of a shoe insole according to an embodiment of the present invention, and FIG. 4 is an exploded perspective view of FIG. 3. FIG.

As shown in these drawings, the functional shoe insole of the present invention is installed inside the shoe and supports the sole, and includes a shoe insole main body 100 and a shoe insole main body 100, And is provided at a position in contact with the first metatarsal tip (A) and the fifth metatarsal tip (B) to support the ground during uprighting, and the blood circulation And a calf support portion 230 formed at a position C which is in contact with the calf bone supporting the ground in a standing state and formed of a functional material for activating blood circulation .

The shoe insole main body 100 includes a toe orthogonal section 110, a metatarsal tip contact section 120, a forefoot bridge section 130 and a calcareous contact section 140 from the distal end. The footwear insole main body 100 is basically formed in conformity with the shape of the soles of the wearer, and the toe bridge portion 110 and the forefoot bridge portion 130 are deformed as necessary for calibration.

The shoe insole main body 100 is formed with a plurality of ventilation holes 102 through the shoe insole main body 100 to prevent sweat on the wearer's sole.

As described above, the toe correcting unit 110 is provided with a toe seating groove 111 in which five toes can be seated, as a portion for correcting the deformed toe, and the toe seating groove 111 is formed between the toe seating grooves 111 And a position fixing protrusion 112 that protrudes to hold the position of the toe. The shape of the toe seating groove 111 and the position fixing protrusion 112 can be shaped in accordance with the shape of the wearer's foot, thereby minimizing inconvenience in wearing. The method of shaping according to the shape can be performed using a 3D printer after modeling the shape of the wearer's foot using a 3D model or a 3D scanner.

The metatarsophalange contact portion 120 is formed continuously with the toe orthogonal portion 110 and includes a metatarsal fixation groove (not shown) capable of fixing a functional material at a position where the metatarsal tip contact portion 120 contacts the first metatarsal tip A and the fifth metatarsal tip B 121 are formed.

The forefoot bridge 130 is formed in an arch shape as a whole to fit the footwear of the wearer. However, it is formed by adding as much correction amount as necessary when calibrating the footwear. In addition, at the contact portion of the footbath bridge 130 in the caudal region, a caulking blood fixing groove 131 for fixing the functional material is formed.

A calcaneal fixation groove 141 capable of fixing a functional material is formed at a portion of the calcarubic contact portion 140 that is in contact with the calf bone bottom C. The dragon-blood support portion 210, the metatarsophalangeal support portion 220 and the calyx support portion 230 are each formed of a functional material and fixed to the metatarsophalangeal fixation groove 121, the molar fixation groove 131 and the calyx fixation groove 141.

Functional substances are all possible as long as they aid in circulation. For example, it may be germanium or jade that emits far-infrared rays, and a magnet that forms a magnetic field is preferable. However, the magnet can exhibit the most excellent effect, which will be described in detail in the following description of the effect.

It is preferable that the polar direction of the magnet is the same as that of the metatarsal support portion 220 and that of the calf support portion 230 and the polar direction of the magnet of the melancholy support portion 210 is opposite to the metatarsal support portion and the calcaneus support portion. That is, the dragon-blood support portion 210 is formed as an N pole and the metatarsal support portion 220 and the calcaneus support portion 230 are formed as an S pole so that a magnetic force line is formed around the dragon-blood support portion 210, It is possible to make the entire magnetic flux flow more smooth.

The treatment effects of the magnet known so far include ① loss of pain ② loss of inflammation and ③ regulation of blood circulation, etc. The clinical results include functional diseases except diseases with severe physical disorders It is said to have an excellent effect. The most frequent clinical experiences include various treatments such as tinnitus, headache, dizziness, insomnia, hypertension, chronic fatigue, liver disease, diabetes and thyroid disease. And it is known that it has excellent therapeutic effect even for painful diseases caused by inflammation of internal organs including skeletal diseases.

As the therapeutic effects of these magnets became known, various types of magnets were developed and marketed. However, these kinds of health aids use indiscriminate use of many magnets without special rules, and not only do they not show much therapeutic effect, but also severely impair health by breaking down the magnetic flow of the human body.

The shoe insole of the embodiment of the present invention concentrates the magnetic force on the dragon's blood, which is the most important menstrual blood in the sole of the foot, to make the flow of the whole body more comfortable, and the first metatarsus tip (A) 5 By setting magnets at the tip of the metatarsus (B) and the calcaneus, the magnetic force was doubled.

Looking more closely at this, a method to stimulate the flow of ki, which is a concept used in oriental medicine, has attracted attention recently. In other words, oriental medicine (acupuncture) place to place the acupuncture (electromagnetic stimulation) is getting good treatment effect. According to the rationing theory, the human body has a flow of energy that controls information flow and regulation in addition to nerve flow and blood flow. Many scientists in the East and the West have been studying to prove the existence of the meridian system. However, they tried to confirm the existence of meridian by using ultra-high-resolution electron microscope, but they did not succeed. It has not yet reached the level of sight. But there was a meaningful progress. Dr. Paul of Germany in the early 1960s found that acupuncture was more electrically conductive than other parts of the skin. Also, because the menstrual blood is related to the function of the internal organs, it is possible to know whether organs are healthy by measuring the electrical state of the menstrual blood. It also proved that if the organ function is abnormal, it can be treated by applying electrical stimulation (electrospinning) to the menstrual blood. Since then, Dr. Paul has developed a unique field of "Dr. Paul Electro-needle" through his 30-year clinical studies.

Recently, it has been accepted that the reality that the energy flowing through the meridian is the magnetic field is very persuasive. After stimulation of acupuncture points with a laser needle, the magnetic field of the human body was measured and the magnetic field increased 30-50 times. Whether the form of stimulation is electricity or magnetism, or light energy (infrared or laser), once it enters through acupuncture, it changes from body to magnetic field energy.

When the current flows into the human body, different resistance values appear depending on the measurement site. At this time, the point where the resistance value is relatively low (the electricity flows well) is almost exactly the same as the acupoint point in oriental medicine. The human body line connecting the points with high electrical conductivity is called 'meridian' in the West, which miraculously coincides with meridian, which is an energy pathway in oriental medicine. In other words, the meridian is not the electrical pathway in the human body, but it is the real system with the highest electrical conductivity.

Therefore, by forming a magnetic field dense in the meridian, the therapeutic effect of the magnet can be further doubled. Therefore, the embodiment of the present invention can expect a therapeutic effect of a superior magnet as compared with a conventional health-aid apparatus in which magnets are arranged indiscriminately. In particular, by concentrating the magnetic force on the dragon blood that exerts the greatest effect when stimulating the acupoint of the sole, the therapeutic effect of the magnet can be maximized.

FIG. 9 is a photograph of the sole of a wearer wearing a general footwear insole followed by radiographing infrared rays of the foot area, and FIG. 10 is a photograph of the sole of foot taken by infrared ray after wearing the footwear insole of the embodiment of the present invention.

As can be seen from these results, when the shoe insole of the embodiment of the present invention is worn, not only the temperature of the sole is high but also the temperature is high in a large area. This confirms that the shoe insole of the embodiment of the present invention smoothly circulates the blood and the feet of the sole.

In addition, since the shoe insole of the embodiment of the present invention includes the toe correcting unit 110, the toe can be prevented from being deformed, and the deformed toe can be corrected. In addition, since the toe muscle portion contacting the toe correcting part 110 has a reflective part corresponding to the eyes and the ear, a stimulus is also added thereto to improve the health of the eyes and the ear.

In addition, by providing the foot arch bridge 130, it is possible to maintain the most ideal shape of the foot bridge and correct foot deformed in the form of the foot bridge.

Hereinafter, a method of manufacturing a shoe insole according to an embodiment of the present invention will be described.

Fig. 5 is a block diagram sequentially showing a method of manufacturing a shoe insole according to an embodiment of the present invention. Fig. 6 is a block diagram showing a detailed method of determining a shape of the shoe insole body of Fig. 5 is a block diagram showing a detailed method of determining the binding position of the functional material in Fig.

As shown in these figures, a method for manufacturing a shoe insole includes the steps of modeling a foot shape of a wearer, determining a shape of the shoe insole body from a shape of the foot of the modeled wearer, Determining 330 a binding position of the functional material to which the functional material such as iron-on-steel binds from the foot shape of the modeled wearer 330, (340) of determining the shape of the final shoe insole body (100) by reflecting the shape of the fixing groove, molding the shoe insole body (100) using the shape of the final shoe insole body (350) And fixing the functional material to the fixing groove (360).

The modeling step 310 of the wearer's foot shape may be performed by using a 3D scanner to scan the wearer's foot or to obtain a modeled shape of the wearer's foot shape by directly holding the wearer's foot.

The step 320 of determining the shape of the body of the shoe insole includes a basic shape determination step 321 for determining the shape of the main body of the shoe insole from the modeled shape of the wearer's foot to the shape of the wearer's foot, A step 323 of determining a foot-length correction amount from the foot shape of the wearer, a step 323 of determining the shape of the foot-shore bridge 130 supporting the footwear of the wearer by determining the foot- Determining a toe correction amount from the modeled foot shape of the wearer, determining a toe correction amount, determining a shape of the toe correcting part 110 supporting the toe of the wearer by determining the toe correction amount (325).

That is, the step of determining the footrest correction amount (step 322) is based on the foot shape of the wearer. If there is a problem with the shape of the footwear, the shape of the footwear correction part 130 is formed according to the shape of the ideal footwear. At this time, if the amount of calibration is large, adjust the calibration amount so that calibration can be performed stepwise.

In the step 324 of judging the toe correction amount, if there is a deformation in the foot shape of the wearer, an appropriate correction amount is determined.

The functional material binding position determining step 330 includes determining 331 a used iron portion from the model of the foot of the wearer and measuring the position of the distal end of the first metatarsal from the foot shape of the modeled wearer, And a step 332 of determining a fulcrum at which the tip B of the fifth metatarsal and the foot C of the calcaneus contact.

The method of determining the dragon's blood region in the step 331 of determining the dragon's blood region is determined from the shape of the sole of the foot (scan of the foot) as shown in FIG. That is, the first line AA connecting the foot-shaped end portion of the left ulna A1 and the end portion of the right ulnar A2 and the center line B3 of the metatarsalbum B1 and the metatarsalbum- And a point located 1 cm rearward from the intersection AB of the first line AA and the second line BB is designated as a cavity S by a second line BB connecting the central portion C1 of the first line AA, . Accordingly, it is possible to precisely detect the position of the cavity portion with respect to the shape of the sole of each wearer.

The step 340 of determining the shape of the final shoe insole main body reflects the shape of the molten bone fixing groove 131 on the corresponding portion of the shoe insole main body shape in accordance with the detected dragon blood portion, , B, and C, the shape of the metatarsophalangeal fixing groove 121 and the calcaneus high-point groove 141 is reflected on the corresponding portion of the shoe insole main body shape.

The step 350 of forming the body forms the product using the 3D printing technique based on the shape of the final shoe insole body.

The step 360 of fixing the functional material fixes the functional material to the molten bone fixing groove 131, the metatarsophalangeal fixing groove 121, and the calcar fixing groove 141. The functional material can use various materials as described above, but a magnet is most preferable.

As described above, the method of manufacturing the shoe insole according to one embodiment of the present invention can not only manufacture the shoe insole optimized for the foot shape of the wearer, but also position the functional material at the position of the wearer's correct dragon blood and support points , And maximizes the therapeutic effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

100: shoe insole body 210:
A: tip of the first metatarsal bone B: tip of the fifth metatarsus
220: Metatarsal support
C: a position in contact with the calcaneus region 230:
310: Step of modeling foot shape
320: Determining the shape of the shoe insole body
331: Step of determining the dragon blood region
340: Determining the shape of the final shoe insole body
350: Step of molding the shoe insole body n
360: Step of fixing functional material
332: step of determining supporting point
322: Step of determining the amount of footrest correction
323: Steps to determine the shape of the footbridge
324: Step of judging the toe correction amount
325: Step of determining the shape of the toe bridge

Claims (8)

1. A functional shoe insole mounted on the inside of a shoe to support the sole,
Shoe insole body; And
A yinchuan blood supporter installed at a position in contact with the root of the foot of the shoe insole body and formed of a functional material for activating blood circulation;
Characterized in that the shoe comprises a shoe.
The method according to claim 1,
A metatarsophal support provided at a position in contact with the first metatarsal tip and the tip of the fifth metatarsal bone supporting the ground in the upright state and formed of a functional material for activating blood circulation; And
A calcareous support part provided at a position in contact with the calcaneus area supporting the ground at the time of standing up and formed of a functional material for activating blood circulation;
Wherein the shoe comprises a shoe.
3. The method according to claim 1 or 2,
Wherein the functional material is a magnet.
3. The method of claim 2,
Wherein the functional material is a magnet,
Wherein the magnet of the metatarsophalangeal support and the calcar support is identical in polarity direction and the polar direction of the magnet of the molar support is opposite to the metatarsophalangeal support and the calcareous support.
A method of making a functional shoe insole,
Modeling the foot shape of the wearer;
Determining a shape of the shoe insole body from the foot shape of the modeled wearer;
Determining a dragon blood region from the foot shape of the modeled wearer;
Determining the shape of the final shoe insole main body by reflecting the shape of the caulking hole fixing groove on the corresponding portion of the shoe insole main body shape in accordance with the detected dragon blood portion;
Molding the shoe insole body using the shape of the final shoe insole body; And
Fixing a functional material to the molten metal bath fixing groove;
≪ / RTI > wherein the shoe insole comprises:
6. The method of claim 5,
After determining the shape of the shoe insole body,
Determining a supporting point which is a portion where the tip of the first metatarsal, the tip of the fifth metatarsal, and the foot of the calcaneus come in contact with the foot shape of the modeled wearer;
Further comprising:
Wherein determining the shape of the final shoe insole body comprises:
The shape of the metatarsophalangeal fixing groove and the calf high point groove is reflected on the corresponding portion of the shape of the shoe insole body in accordance with the grasped portion of the support point,
Wherein the functional material fixing step fixes the functional material further to the metatarsal fixing groove and the calcar fixing groove.
The method according to claim 5 or 6,
Wherein determining the shoe insole body shape comprises:
Determining a footwear correction amount from the modeled foot shape of the wearer; And
Determining a shape of the foot arch bridge supporting the footwear of the wearer by determining the foot care correction amount;
≪ / RTI > further comprising the steps of:
The method according to claim 5 or 6,
Wherein determining the shoe insole body shape comprises:
Determining a toe correction amount from the modeled foot shape of the wearer; And
Determining the toe correction amount and determining a shape of the toe bridge portion supporting the toe of the wearer;
≪ / RTI > further comprising the steps of:

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