JP3103236U - A shoe insole and a combination of a shoe insole and a balancer that enable the alignment of the human body by applying the seismic isolation structure in the building to the shoe insole. - Google Patents

Abstract

The present invention is an era in which walking is avoided and the brain feels walking as stress, and leg and waist and walking troubles that are difficult to improve with the conventional German or Western walking theory are occurring frequently. The present invention corrects the pelvis and skeleton that are easily distorted in daily life and psychological effects, while improving posture and walking, which were difficult with conventional technology.
[Solution] (1) Design of seismic isolation insole that enables joint alignment (alignment) of human body by applying seismic isolation (isolation) structure in building to shoes insole (2) Human body or brain Inventing shoes insole to support the inherent vibration control function

Description

Detailed description of the invention

The present invention includes "methods for improving the fit of shoes" (Japanese Patent Application Laid-Open No. 5-184409), "shoes fit or not fit to the feet", "easy to walk, difficult to walk", "legs hurt and do not hurt". It is not a device that should simply be identified with the prior art such as “various insoles made by duplicating the shape of the sole of the foot as it is” devised to solve the problems and these troubles.
In the present invention, the human body is a building block of 206 skeletons, and walking is a dynamic continuous movement in which the brain moves while maintaining the balance of the whole body while the feet support these skeletons and pelvis, and the shoes are the feet It is considered to function as a base for stabilization.
In this invention, the insole that has seismic isolation (vibration isolation) function in the building is permanently installed on the base of this shoe, assisting the alignment of the whole body from the feet, and alleviating the imbalance of the center of gravity of the human body. This is a technology that relieves brain stress and facilitates the formation of a balanced skeleton and muscles centered on the pelvis.
In addition, in order to compensate for the imbalance of the center of gravity inherent in the human body, an insole with seismic isolation (vibration isolation) function and a fluid balancer or stabilizer to compensate for the vibration control function Technology that enhances the gait improvement effect and enhances the efficiency of the gait exercise effect by combining the two, making it easier to correct skeletal distortions and pelvic distortions caused by psychological influences that occur in lifestyle. It is.

The gait improvement technology in Japan up to now is based on the "three arch theory" (Fig. 1), which is a Western gait theory, and this theory has spread widely worldwide. It was not a proper theory.
For example, there is still a clear difference in height and skeletal and muscular strength between Westerners and Japanese.
The history of footwear in Japan is short, grassy and damp and soft, compared to the thousands of years of footwear that Westerners have walked on hard, dry ground or cobblestones with wooden shoes or shoes with hard leather soles. It is characterized by walking on the bare feet or sandals and living on the tatami for a long time.
For example, in Japan, the “life culture of always wearing shoes on a daily basis” has been fully established for only about 40 years.
For generations in Japan in the mid-50s, it was customary to wear clogs when commuting to school until graduation from high school, wear rubber sandals for school shoes, and barefoot for exercise time.
In contrast to the Western culture, which has a footwear culture that wears shoes at the same time as getting up and keeps wearing shoes until going to bed, in Japan, a footwear culture of walking around the house with bare feet and slippers after getting up and putting on shoes is considered. Have maintained.
In addition, Japan still has a footwear culture of taking off footwear and going up to the house.In particular, Japanese housewives live in bare feet and slippers in the house and wear footwear only when going out. It has a unique footwear culture in which footwear reciprocates on a daily basis over and over.
Therefore, there is a strong possibility that the skeleton has not yet been completely adapted to foreign footwear such as shoes in Japan.
In addition, housewives and young women often use shoes with structures that significantly change their walking characteristics and posture, such as mule sandals, sneakers, high heels, etc., when shopping, walking or going out. The fact is that they are changing.
Furthermore, in addition to the chronic lack of exercise in Japan, transportation has been developed throughout, and most roads are tightly paved and the area of tatami in houses has been reduced, while elevators and escalators have been installed in various places, There is an increase in the floor space of very hard steps in houses.
In other words, the progress of the barrier-free society itself is contributing to the lack of leg strength of modern people, and we are facing the reality that old Western-style walking theory can no longer respond.
In addition, with the progress of the aging society, the number of people who have difficulty walking such as fractures and rheumatism due to osteoporosis and falls, and “Konjak feet” due to the increase in young people who place emphasis on fashion only and prioritize their appearance (“ The ankles have become softer as shown), hallux valgus, etc., and the remarkable decrease in leg strength of growing infants, school children, students, etc. An unusual generation called “Gibetarian” has also emerged.
On the other hand, the `` three arch theory, '' which is a Western-based walking theory, is an old technology that was born in the era when walking is commonplace. In the era of losing, "two arch theory" is a technology that does not fit the actual situation of Japan.
Also, the Western theory of walking, which is a theory of three arches, presupposes the Western footwear culture that shoes worn when waking up continue to sleep until bedtime. (Slippers) They do not envision a unique footwear culture in which they live and go back and forth daily between footwear with significantly different structures such as sandals, sneakers or pumps every time they go out.
In other words, the Western theory of the "three arches" has to be said to be a theory that does not take into account any differences in footwear culture due to the short history of Japanese shoe wear, lifestyle differences in footwear culture, and skeletal muscle strength at all. .
In addition, some Western shoes, insoles and sole plates (sole inserts) based on the "Three Arch Theory" have urethane with a thickness of several millimeters applied only to the surface to soften the feet. Although the structural material itself is extremely hard, it improves walking function by forcing a tough tripod consisting of skeleton, muscle, and ligaments ahead of the ankle. When the Japanese actually wear it (even if it is suitable for Westerners), the toe skeleton in the shoe becomes an inverted arch in the shoe as shown in Fig. 4 and fish eyes and octopus are easily formed on the sole of the foot, and the insole is thin and hard However, there is a drawback that impact absorption is poor and landing impact is transmitted to the knee and hip joint.
In fact, German shoes, which are widely spread in Japan, were born from the German national situation that most of the land was turned into rubble piles by World War II and many people injured their feet, It is characterized by a near solid structure.
Also, the insole put in this German shoe is completely standardized, there is a ready-made insole that has been mass-produced for each walking problem, and the seller has trouble and footprint of the buyer's foot (A method of attaching ink or the like to the soles of the feet and copying the footprints of the stationary state on flat paper) to determine the walking characteristics and determine the number of the corresponding number from the prepared insoles prepared in advance. They simply select the insole that they have worn and provide it to the buyer.
However, this method is based on the premise that there is a serious mistake that the skeleton of the foot in a stationary state is the same as the skeleton of the foot in the continuous movement of walking. It was insufficient technology to make it happen.
As a prior art, there is a technique of using a seismic isolation material for the sole itself, but the seismic isolation material is too soft for the sole of the shoe, and the sole of the sole is easily worn out. The effects of using seismic isolation materials for the US are not illuminated.
In addition, a paper at the 16th Annual Meeting of the Japanese Society of Shoe Medicine (Sendai City) held on September 27, 2002 (Thesis title: "Effects of German-style orthopedic shoes and plantar inserts on valgus angle opening" Surgery Ieyasu Akagi and Yasuhide Imai German orthopedic shoes and sole inserts are compatible with Europeans and Americans at the German shoe maker "Funshoe Shoe Institute", a joint study between Taku Endo, Lutzberge and Oliver Spitz. Was clearly denied that it was not suitable for Japanese.
In addition to differences in the history and culture of footwear with the United States and Europe, this is a method of identifying three skeleton points that are the starting points of the "three arch theory", and is a footprint in a static state mainly represented by "footprint" etc. This seems to be a natural consequence of having used as the basis for the judgment.
For this reason, there has been a need to devise an insole with originality and novelty that improves these shortcomings, adapts to the history and footwear culture of Japan's footwear, and enhances the effects of walking and improving walking. .

Issues that the device is trying to solve

It is generally well known that the pelvis of a human body is easily distorted by daily activities such as sitting on a soft sofa, kneeling, side sitting, cross sitting, chronic lack of exercise, and the like.
However, doctors have forgotten the characteristics of the pelvis, which is easily distorted in daily life, and recommend walking to patients with lifestyle-related diseases such as hypertension, obesity and diabetes.
However, walking with shoes that do not have a function to properly support the pelvis will cause the pelvis to walk in a distorted state that has occurred in daily life, and as a result, the skeleton of the human body will be three-dimensional from the feet to the head Meanwhile, the walking posture is distorted from front to back, left and right, and the heavy skull tilts in an attempt to balance, so that the neck becomes stiff and changes to the engagement of teeth.
Also, walking in an unstable posture can cause stress in the brain, even if the pedestrian is not conscious, constantly trying to balance the whole body.
In other words, for modern people, walking itself is stressful, and after walking due to this stress, the feeling of fatigue remains, and sweet drinks and beers will want to drink, or they will simply become hungry and snack. is there.
By the way, in the field of sports medicine, it is said that if walking (and exercising) is not performed with a well-balanced skeleton, concentration will decrease, well-balanced muscles will not be easily formed, and it will be difficult to increase bone density.
In addition, various shock absorber structures and suspension structures used in conventional sneakers and some walking shoes are packed with simple shock absorption and improved sole elasticity, below the ankle based on Western-based walking theory However, the purpose was not to correct the pelvis and skeleton by joint alignment.
Certainly, many German shoes and insoles were designed to construct "three arches" in which the skeleton, ligaments, and muscles were formed in a composite manner from the ankle to below. No consideration is given to differences in footwear history or footwear culture, and its efficacy has been denied by the Japanese shoe medical community.
In addition, the material of the German insole itself is a hard material formed by molding chips such as cork with resin, so it not only has poor shock absorption properties, but also the knee distortion as it occurs when the unevenness of the ground or the shoe sole wears down And also transmitted to the pelvis through the hip joint.
If you try to completely correct such pelvic distortions, fine adjustments, such as sharpening of the insole, are always necessary, which costs money and time, and is actually a theory and technology with many disadvantages. Not get.
Even more, German and Western shoes and insoles do not have a seismic isolation (vibration isolation) function, nor do they have a function to assist the natural damping (damping) function inherent in the human body. Could not cope with the situation where the walking posture suddenly changed due to psychological effects, and he did not even anticipate such a situation.
In contrast, the present invention has a seismic isolation (vibration isolation) function, and the insole that has the function of assisting the vibration control (vibration suppression) function inherently provided in the human body. It restores the balance of the pelvis that is easy to form, forms well-balanced leg and hip muscles, and always walks back to the correct position by walking the pelvis and hip joints, thereby correcting distortion of the skeleton of the upper body. is there.
Then, a series of such phenomena is transmitted from the feet to the skeleton of the whole body as joint arrangement (alignment), and through the dynamic continuous movement of walking, recovery of the original function of walking and improvement of health are realized.
In addition, even if the walking posture changes or the shoe sole wears due to aging, weight loss or psychological influence, the upper body's skeletal distortion and shaking are absorbed by the seismic isolation (vibration isolation) structure, and the human body is equipped with it. By supporting the pelvis from the feet and maintaining the balance by correcting the walking posture by the action of the insole that assists the vibration control (damping) function, it is possible to prevent falls and back pain.
Furthermore, when manufacturing shoes for people whose toe joints are deformed due to obstacles such as rheumatism, conventionally foot-shaped shoes have been processed as custom-made items, but they are expensive and take more than one month to manufacture. That was the fact.
In the present invention, since the soft insulated material having a thickness of 10 mm to 25 mm is used for the insole, the shoes that can store the insole having this thickness have a remodelable space corresponding to the insole.
Therefore, by partially shaving the insole in accordance with the deformation of the toe joint by 10 mm to 20 mm, the deformed joint can be easily stored without specially ordering the shoe itself. In addition, modern people rarely walk empty-handed, and usually carry a kind of weight that affects some kind of skeleton, such as a handbag, a shoulder bag, or Lutzk.
In addition to such a situation, a person may change his walking posture suddenly or a pelvis or the like may be greatly distorted due to psychological factors.
In addition, humans change the balance of the pelvis and skeleton due to aging, weight change, pregnancy, etc. In addition, for example, if you are happy, you will walk with excitement, if you are anxious or worried, you will sneak and walk, As a result, the pelvis and skeleton change subtly, causing the muscles to stretch and contract, causing back pain and stiff shoulders. In addition, since the muscles of the human body expand and contract due to a weak current from the brain, the lengths of the left and right legs also change due to stress, and the pelvis and skeleton may be distorted.
Muscles are originally controlled by weak currents from the brain, and considering that the skeleton is supported by muscles and ligaments, it is not surprising that brain stress causes muscle atrophy and changes in the skeleton. It should be called a phenomenon.
Therefore, there is a real need for the development of shoes insoles that constantly correct the balance of the pelvis and skeleton, restore the balance of the pelvis by walking, and can cope with changes in walking characteristics due to the influence of the human mind.
In addition, it is not only a time burden to visit a doctor in modern times, but also an increase in the self-pay rate of treatment costs, a decrease in leg strength due to hospitalization, a hospital-acquired infection during hospitalization and various infections associated with blood transfusion, the skills of doctors Hospitalization and surgery, such as deteriorating health and morals, various medical errors, sequelae of surgery, the burden of time and cost in postoperative rehabilitation and the pain associated with rehabilitation, and the increasing financial burden of family members during that time. The fact is that there are risks and burdens associated with them.
Under these circumstances, the present invention is aimed at reducing the problems of legs and hips that many people are facing, improving the health by walking, of course, preventing lifestyle-related diseases by walking correctly, and various health insurance resulting therefrom. The present invention is extremely effective in reducing expenditures, reducing the burden of medical expenses on households, reducing the cost of nursing care associated with raising the age at which people can walk in Japan, and increasing the various types of consumption associated with creating opportunities for elderly people to go out. This is a novel technology for “general health from the bottom of the leg” that has a wide range of public benefits and economic ripple effects.

Means for solving the problem

The human body has a flexible structure similar to a high-rise building that is resistant to earthquakes. It is not an exaggeration to say that the flexible structure of a high-rise building that is resistant to earthquakes was developed based on the toughness of the human skeleton and its "suppleness".
As is well known, the foundation and foundation of a high-rise building that can withstand a strong earthquake is sandwiched between tough springs and thick seismic rubber, which absorb the energy of the earthquake and cause the building to collapse. And damage is prevented.
This is the seismic isolation (vibration isolation) structure of the building, which corresponds to the hand that supports the hammer in FIG. The function of absorbing vibration energy of an earthquake and suppressing the vibration inside a high-rise building with a flexible structure is the vibration control (vibration control) structure (Fig. 3).
In the case of the human body, the skeleton, centering on the pelvis, and the various muscles and ligaments that support them, even when bipedally walking or standing upright, balance together as directed by the brain to absorb sideways and vertical swings. By doing so, it has a damping function.
However, the feet of humans who walk bipedally have not yet had a full-scale seismic isolation (isolation) structure, and shoes and insoles that declare a shock absorber function or a nominal suspension function have been devised. Even so, seismic isolation (vibration isolation) insoles designed to assist or supplement the natural damping (damping) function inherently possessed by the human body have not been devised.
Rather, the human body needs a shoe insole with a seismic isolation (vibration isolation) function that supports the skeleton of the whole body from the feet, and the “one arch theory” has a seismic isolation (vibration isolation) structure that supports it from the base. Only when the seismic isolation (isolation) structure and the "three arch theory" are integrated can the function be fully achieved, the skeleton, centering on the pelvis, and the various muscles and ligaments that support them are combined for a more dynamic damping (Vibration suppression) function is exerted, and it becomes easy for the brain to control the balance of the body.
However, the conventional "three arch theory" uses a hard cork-mixed molding material or a shock absorbing material having a thickness of at most about 3 mm to 5 mm for a shoe insole serving as a base.
With such hard materials and thin insoles, it is not enough to correct the joint alignment (alignment) of the whole body from the feet, as well as unevenness of the ground and wear of the soles encountered while walking, and lowering the hands and shoulders It had the drawback that even the distortion of the skeleton caused by the load was transmitted directly to the pelvis.
Compared to this, the present invention uses a softer seismic isolation (isolation) material with a thickness of 10 mm to 25 mm for the insole, thereby achieving a more advanced seismic isolation (vibration isolation) that was impossible with conventional shoes and insoles. ) Functions can be added.
This also disperses the concentration of the center of gravity on the sole of the foot, prevents the eyes and octopus of the fish from forming on the sole, reduces brain stress during walking, and changes in aging, weight change or psychological Even when the walking posture changes due to the influence, the dynamic alignment of the whole body skeleton and the balance correction of the whole body skeleton are performed while supporting the skeleton during walking, particularly the pelvis, from the feet.
Also, the insole having a seismic isolation (vibration isolation) function pushes the foot forward by the spring effect of the material itself, so that the foot can easily be stepped forward, the walking distance is improved, and the leg strength is improved.
The shoes that store the insole with the seismic isolation (vibration isolation) function are made of a material such as leather, which is easily deformed. Choose a material and a manufacturing method that will fit your feet as if.

(A) In Japan, the habit of wearing shoes on a daily basis is still only for about 40 years, and on a daily basis in homes, it is assumed that walking shoes are only sticky and that people wear shoes only when going out. It is highly likely that people have a footwear culture that is not yet fully adapted to the "container" of shoes.
Therefore, it is not only impossible to apply the “three arch theory” invented in Europe and the United States as it is, but there is also the possibility that it will increase leg and back problems.
All German insoles produced based on the "three arch theory" are uniform, and the purpose is to temporarily construct "three arches" in the shoes. I have to affirm that it has only enough functions to make it easy to walk.
The reason for this is that in the insole and insole of shoes manufactured based on the “three arch theory”, the metatarsal portion of the toes is all depressed in a “mortar-shaped” shape, and the ball of the thumb The arch before the joint between the anterior joint of the bone and the little ball (the anterior joint of the metatarsal of the fifth finger) falls down, and when walking around the house with a solid foot like in Japan and then putting it in the shoes, the toe is inverted. This is because at this point, the "two arch theory" has already broken. (See Fig. 4)
In fact, this phenomenon is contributing to various leg and waist problems in Japan, and there are many instances where fish eyes and octopus occur in this "reverse arch" part.
Therefore, in the present invention, based on the actual situation in Japan, a kind of pillow is inserted between the metatarsal part of the insole with the seismic isolation (isolation) function, and it is always lifted to form "three arches". By restoring the skeletal form originally sought by the "three arch theory", a flexible "three arch" is constructed in the range from the ankle to the toe, thereby realizing stable walking.
In the present invention, this is hereinafter defined as "Japanese four-point support arch theory" for convenience.
Compare the European and American “Three Arch Theories” (FIG. 1) with the “Japanese four-point support arch theory” (FIG. 5) of the present invention.
The three base points in the Western “Three Arch Theory” (FIG. 1) are (1) the lowest point of the calcaneus (FIG. 1A), and (2) the base of the thumb (first finger) of the foot (middle of the tibia). The lowest point of the foot bone: FIG. 1A) (3) This is the base of the little finger (fifth finger) of the foot (lowest point of the metatarsal bone on the tibia side in FIG. 1C). In this case, note that the joints connecting FIG. 1A and FIG. 1C are arranged toward the center of the arch.
On the other hand, in the “Japanese four-point support arch theory” (FIG. 5), the pillow (metatarsal pad) is added.
The measuring method for specifying the center or base point in FIG. 5 is as follows.
First, the feet with bare feet or socks or feet with corrected footprints are directly placed on the upper surface of the insole having the seismic isolation structure (function), and (1) the lowest point of the calcaneus (FIG. 5A). ▼ At the base of the thumb (first finger) of the toe (the lowest point of the metatarsal bone on the tibia) (3) At the base of the little finger (fifth finger) of the foot (the lowest point of the metatarsal on the tibia) Figure 5 C) Touch the finger with a finger to find it out, confirm it visually, or specify it with a 3D scanner foot type measuring instrument, and mark the side of the insulated insole.
5A and 5C are connected by a straight line, and a pillow (metatar bone pad) for supporting the metatarsal arch (FIGS. 5A to 5C) in a range of 20 mm to 30 mm on a straight line connecting the intermediate point and FIG. Or Perotti) at the top or center.
Although the shape of this pad is generally a water drop shape, its shape, area, position, thickness, hardness, etc. are individually adjusted according to walking characteristics.
Furthermore, since FIG. 5A is the starting point of all, it is necessary to fix and prevent slippage in order to prevent the tumor bone from moving back and forth and left and right. The pad was fixed toward the toe from the back of the heel (state of FIG. 6), but in the present invention, a similar material is used to reverse the adhesive from the toe side to the heel as shown in FIG. Fix with.
By doing so, the calcaneus does not slip back and forth and right and left in the shoe, and it is possible to improve stability when landing from the heel.
In addition, this method of fixing bones is particularly effective when the bones and the ribs are easy to move due to sedentary habits or a decrease in leg strength, or when the feet are slippery forward in shoes such as high heels. If it is necessary to fix the skeletal bone by adding a streamlined pad (Fig. 7) made of the same material just below the inner ankle and fix it, the plantar artery can be properly compressed By doing so, it becomes possible to improve cold feet, swelling, numbness and the like.
By the way, the material of these parts and the material of the insole body are made of high elasticity material such as high density foamed resin and porous silicon or rubber, especially the insole with seismic isolation (vibration isolation) function. Timely selection of high-density foam resin and porous silicon, etc., which have various characteristics so that they can be selected according to the age, weight, skeleton, leg strength, walking characteristics, shoes characteristics of the wearer, and various seismic rubber materials for precision machinery Need to be able to combine these.
(B) The insole used for the conventional insole is a leather or a synthetic leather or various fiber cloths, and these are intentionally made of a material or color that is less likely to become dirty and less noticeable. .
For this reason, it was difficult to read the continuous movement of the skeleton, the movement of the toes, and the weight balance in walking with shoes from the dirt and friction marks attached to the litter with the conventional litter.
For example, one way to tackle this problem is to put a pressure sensor on the course to measure foot pressure during walking (combined weight of the weight on the sole of the foot and impact from the sole), take off the shoes, and walk on it. Techniques have been developed to digitally measure foot pressure by allowing the user to put a thin sheet-shaped pressure sensor in footwear and walking on a flat course.
However, outdoor sidewalks and the like are never flat, and modern people almost always walk empty-handed and always carry some kind of baggage, and the height of the season, weather, temperature, humidity, physical condition, heels of shoes, etc. The walking characteristics change depending on the fashion, mood, etc., and the pelvis must be affected by it, and the indoor data measured using the pressure sensor is only data that is unrelated to the actual walking characteristics, There is little point in adjusting the shoe insole based on the data.
In contrast, in the present invention, in order to collect a record of dynamic continuous movement in walking or exercise, shoes having a seismic isolation structure are used for materials that tend to become dirty and tend to leave foot pressure, especially for meat pigs made of vegetable tannins. Paste on the surface of the insole.
As a result, clearer dirt and friction marks with foot pressure are obtained, and by decoding these, it is easier to grasp daily and continuous walking characteristics, the center of gravity during exercise, and the like.
At that time, if pig leather is adhered as a back skin so that the back of the pig leather contacts the sole of the foot, the part where the foot pressure was applied during walking collapses or wears and raises gloss, causing sweat and Traces of sebum are likely to remain, and live records of continuous movement in walking and sports can be accurately collected.
In addition, when this material is used, the seismic isolation material is combined with the feature that only the part that receives the pressure instantaneously depresses, so that the energy of walking can be transmitted to the ground without waste and the fatigue due to walking is reduced. The effect is also obtained.
In addition, the pigskin backskin is in a brushed state, so it absorbs sweat on the soles of the feet well, and after taking off the shoes, the brushed surface comes into contact with the atmosphere to promote drying.
In addition, tannins and catechins used to tan pig leather suppress the growth of various bacteria in the shoes, and at the same time, massage the soles of the feet with the shoe insole that has a seismic isolation (isolation) structure. Get better.
It is said that "the foot is the second heart", but the present invention also has the function of improving blood circulation and activating metabolism by softly massaging the sole of the foot each time one step is taken .
(C) Next, in the implementation of the present invention, the insole with the seismic isolation (vibration isolation) function should be used in a timely manner as necessary according to the walking characteristics of the human body who walks using the insole and the problems with the legs and hips. A method of correcting will be described.
Because the human body changes the balance of the pelvis and skeleton due to aging and weight changes, psychological effects or seasonal changes, health conditions, pregnancy, etc., as well as changes in posture, as well as deformation of shoes, wear of soles and pads etc. This is because the elasticity of the rubber is inevitably reduced.
However, shoe insoles with seismic isolation (isolation) function have the function of correcting the dynamic alignment of the skeleton of the whole body while walking, so there are slight changes in the skeleton, slight wear of the soles, and insoles. With regard to material settling (decrease in elasticity), tuning of the insole itself is hardly necessary.
Rather, the only thing that needs to be tuned is to walk on the insole that has the seismic isolation function, which is soft enough to walk on the lawn with bare feet. When the distortion is corrected from the foot, one of the base points A, I, and U in the "Japanese type four-point support arch theory" (FIG. 5) may move several millimeters due to the walking improvement effect, or the foot on this base point This is when the pressure changes greatly.
For example, when walking on a daily basis using an insole with a seismic isolation (vibration isolation) function that corrects the dynamic alignment of the skeleton of the whole body, the human body will walk by mobilizing the muscles of the whole body. However, a sudden change in walking posture or walking speed due to a sudden decrease in weight or an increase in leg strength may occur.
In such a case, after grasping the characteristics of the skeleton, ligaments, and muscles of the foot and the effect of improving walking, check each pad while checking the foot pressure and friction marks etc. left on the meat of pork by tanning with vegetable tannins. It is necessary to finely move the position of the pad back and forth, right and left, and to appropriately adjust the hardness and height of the pad and its shape and area.
In addition, in the present invention, since a soft seismic isolation (isolation) material having a thickness of 10 mm to 25 mm is used, there are naturally many remodelable areas in shoes capable of storing the same.
For example, even if the deformation of the toes due to rheumatism, etc. can be seen, by cutting this insole with a grinder from various directions, it can be remodeled in a short time so that the protruding joints and claws do not touch the upper of the shoe, In addition, pain during walking can be reduced, and processing costs can be reduced and immediate delivery is possible.
FIG. 8 is a cross-sectional view of the upper and the sole of a shoe that stores an insole having a seismic isolation (isolation) function. The remodeling space can be easily expanded by cutting the upper and lower parts of FIG. If a thick seismic isolation (isolation) insole with a thickness of 10 mm to 25 mm is buried in the sole of the shoe as shown in FIG. 8, the shoe itself does not become a thick sole, and the toe can be easily kicked with the toes.
In other words, the present invention comes with a function to secure in advance a remodelable space that becomes a problem when trying to fit ready-made shoes that do not know who wears them to various walking characteristics, By installing seismic isolation insole with large spare capacity as standard equipment in existing shoes, the frequency of manufacturing custom shoes is reduced, the cost of remodeling can be reduced and immediate delivery is possible, and as a result, it is called "orthopedic shoes" It is a technology that can reduce health insurance expenditures in the sector and reduce medical expenditures in households.
(D) The insole of the present invention weighs about 250 to 500 grams per half foot when combined with shoes, and is not a light shoe.
Until now, the idea of a shoe maker was to "make the shoes as light as possible to reduce the burden when walking."
However, modern people are generally limited in the amount of time and distance they can walk each day, which causes leg weakness.
Therefore, in the present invention, a pair of slightly heavier shoes and seismic isolation (isolation) insole are combined.
In fact, this slightly heavier shoe effectively loads the skeleton and muscles during limited walking time and walking distance, strengthens the muscles of the legs and hips, increases the bone density, and makes it easier for the feet to step forward. It plays the role of a "pendulum weight", and the insole with seismic isolation (vibration isolation), which is rich in elasticity, plays a role of a spring when pushing the foot forward.
(E) The human body has a balance maintaining function when standing upright or when walking on two legs, and its body structure also has a vibration damping structure in which the energy of shaking is easily absorbed by the skeleton and muscles.
In addition, the human body quickly recovers the imbalance of the center of gravity of the body by moving the upper limb, the waist, or the head back and forth and left and right in order to absorb the energy of shaking and inertia during walking and exercise and maintain the body balance.
An insole with a seismic isolation (vibration isolation) structure supports and compensates for such a human damping function from the feet, but when a specific joint or muscle is difficult to function due to, for example, a fracture or deformation of the joint of the foot , A flexible container with a liquid and a small amount of gas filled in a fluid and a small amount of gas in the upper limb, shoulder or head located on the diagonal line that is difficult to function as a `` some kind of weight '' with Velcro etc. The role of stabilizer is exhibited by fixing. (FIG. 9)
This makes it easier for the human body to maintain balance when walking and exercising, making it easier to combine the insole with a seismic isolation (vibration isolation) structure with the vibration control function inherent in the human body, thereby improving the walking function and It improves and improves motor function.

(1) First, perform a chiropractic or manipulative treatment or perform pelvic or hip joint exercises on the human body whose gait function or motor function is to be improved, and if necessary, use a pelvic correction belt or taping. Go to restore the balance of the skeleton around the pelvis. In particular, when correction of the calcaneus and tibial bone or correction of the metatarsal bone is necessary, the balance of the skeleton is maintained by using taping, a supporter, or wearing tights or socks having a joint alignment effect.
(2) Next, put your feet in advance, check the size, take out the insole with seismic isolation (isolation) function stored in the selected shoes, stretch your back, and sit in a chair. Place your foot on the insole, and place your foot so that the center of the calcaneus fits in the center of the heel of the insole.
At this time, make sure that the toe of the insole has a margin of about 1 cm.
This is because an error occurs in the foot circumference (circumference of the toe portion) when the feet are placed on the insole while sitting on the chair, and when the entire weight is placed on the insole while standing.
The procedure is the same when the seismic isolation insole can be stored in the shoes brought in by the user.
(3) Search for the thumb ball (the highest point of the anterior joint of the first metatarsal bone) by hand, and mark the side of the insole immediately below it with an oil pen or the like. Similarly, the little finger ball (the highest point of the anterior joint of the fifth metatarsal) is searched for by hand, and the side of the insole immediately below the finger is marked with an oil pen or the like. This is an operation for specifying the base point of the item (a) in FIG.
{Circle around (4)} The marks made in the above paragraph [3] are connected with a straight line, and the center of the metatarsal pad (d in FIG. 5) is fixed within a range of 20 mm to 30 mm in the toe direction from this line.
(5) In order to prevent the displacement of the calcaneus, fix the U-shaped pad as shown in the key of Fig. 7, and further improve the blood flow of the leg just below the inner ankle and prevent the calcaneus from slipping forward. Then, a blood flow arch pad (f) in FIG. 7 that supports the horizontal arch connecting the points A to A in FIG. 5 is fixed.
In addition, the material of each pad of the air, ki, and ka shown in FIG. 7 is almost the same as the insole having the seismic isolation (isolation) function, and its elasticity, area, height, position, and shape are determined by age. The timely selection is made in accordance with the troubles of the legs, leg strength and legs and hips or the analysis data by the 3D scanner or the fit between the feet and the shoes.
{Circle around (6)} After fixing each of the three pads, on the surface of the insole, leather of meat pork by vegetable tannin tanning is fixed inside out (backskin).
At this time, it is preferable to use an adhesive having a low adhesive strength so that the backskin can be easily peeled off for fine adjustment of the pad.
▲ 7 ▼ Put the insole into the shoes and let the foot break in for 2 to 4 weeks. When the deformation of the shoes has almost subsided, take out the insole and remove the dirt and friction of the pig leather attached to the surface of the insole. Read the record of continuous movement of the skeleton during walking exercise from the distribution of the traces or foot pressure, and fine-tune the position of the two pads and adjust the height of each of the three base points to assist in joint alignment If there is any material having reduced elasticity, the material is replaced, and if necessary, these tunings are repeated as needed in accordance with improvement in leg strength and changes in age, weight, physical condition, season, psychology, and the like.

The effect of the invention

The feature of the present invention is that the seismic isolation (isolation) insole, which is detachable and has a large spare capacity for remodeling, is put in shoes, and shakes by walking on the skeleton and pelvis that are easily distorted due to lack of exercise and lifestyle. The purpose of this is to assist the whole body in the joint arrangement (alignment) and to maintain the same. In addition, this technology is safe, harmless and painless, and can contribute to the maintenance and improvement of the health of the elderly and the improvement of the walking exercise function of the handicapped.
Other advantages are as follows.
{Circle around (1)} Since this technology focuses on the peculiarities of Japanese footwear culture, the effects of preventing hallux valgus and lower back pain and improving walking and posture in Japan are remarkable.
In particular, for the hallux valgus, by correcting the distortion of the pelvis, the biased foot pressure applied to the thumb ball and the little ball can be reduced, and the pain in this portion can be reduced and the progression of the hallux valgus and the like can be prevented.
In addition, it is effective in preventing and improving remarkable decrease in leg strength caused by giving priority to a fashion called “konjak foot”, and chronic decrease in leg strength due to an increase in generations that avoid walking and increase generations that accept walking as stress.
(2) Since the thickness of the insole is 10 mm to 25 mm, it is only necessary to cut the heel portion of the insole to correct the difference in leg length, and it is easy and inexpensive to improve the posture, improve the walking function, and improve the O and X legs. The burden and impact on each joint is small.
(3) The seizure-isolated insole can reduce brain stress during walking, enhance the health maintenance and promotion effect of walking, and prevent and improve lifestyle-related diseases.
{Circle around (4)} It has the effect of improving the chilliness and “swelling” and “numbness” of the feet due to the massage effect on the soles of the feet and the fish eyes and octopus that can be formed on the feet.
{Circle around (5)} Seismic isolation (vibration isolation) can be used to reduce the load on specific joints, such as reducing the impact on deformed parts such as rheumatism, hip joints, and knee joints.
(6) It is effective in improving problems such as leg and knee pain caused by the working environment of nurses, meter readers of electric and gas water supply, courier drivers, etc.
(7) Improvement of changes in walking characteristics due to psychological causes.
(8) Improving teeth meshing, expanding the vocal range of music persons, and improving breathing.
(9) Correction of sports athletes' forms and improvement of back pain, knee pain, etc.
(10) Improve attitudes of children, children and students during the growth period, and improve "hikikomori" and school refusal.
(11) Reducing the time and economic burden of visiting a physician, reducing leg strength due to hospitalization, avoiding various infectious diseases associated with hospital-acquired infections and blood transfusions, avoiding various risks caused by malpractice and medical morals Reducing pain and costs in post-operative rehabilitation and post-operative rehabilitation.
(12) Useless health claims due to the spread of Japan-specific seismic isolation (isolation) insoles that replace expensive German orthopedic shoes and sole inserts (sole soles), which were denied by the Shoe Medical Association for their gait improvement effect The present invention eliminates the imbalance of the center of gravity during walking that occurs when using prostheses and orthoses to assist walking. Improve inexpensively and quickly with seismic insole and stabilizer.
(14) The insole is processed in about 10 minutes, and the shoes and insole can be worn by the user on the spot and returned.

Schematic diagram of German style and Western style "three arch theory" In this case, the arches of A to U are arranged in an arch shape toward the center Conceptual diagram of seismic isolation (isolation) structure and seismic isolation (isolation) function Schematic diagram of the vibration control (vibration control) structure of a high-rise building that is resistant to earthquakes In the case of a Western insole with a depressed metatarsal, the front arch (a to c) falls and becomes an inverted arch, and the five joints are arranged radially, making it easy to become hallux valgus and varus little finger Schematic diagram of Japanese four-point support theory and cross-sectional view of seismic isolation insole d. The metatarsal pad is fixed 20 mm to 30 mm ahead of the metatarsal pad of the German-style plantar insert and uses a soft material. How to use a bone fixation pad on a conventional insole Conceptual diagram of how to use the bone fixation pad and the arrangement of three parts in the Japanese type four-point support theory Cross section of shoes that can store seismic isolation insole Conceptual diagram of a balancer or stabilizer that contains a liquid with fluidity

Explanation of reference numerals

A is the lowest point of the tumor bone

B is the lowest point of the ball of the thumb (the anterior joint of the first metatarsal)

C is the lowest point of the little ball (the anterior joint of the fifth metatarsal)

D is the metatarsal pad in the Japanese four-point support theory

Oh is a conventional U-shaped tumor bone fixation pad fixing method

Mosquito is a streamlined bone fixation pad that prevents the tumor bone from sliding forward and improves blood flow in the sole

Ki is a method of fixing a U-shaped tumor bone fixation pad in the Japanese four-point support theory

Detailed description of the invention

The present invention includes "methods for improving the fit of shoes" (Japanese Patent Laid-Open Publication No. Hei 5-184409), "shoes fit and do not fit shoes", "easy to walk, difficult to walk", "legs hurt and do not hurt". It is not a device that should simply be identified with the prior art such as “various insoles made by duplicating the shape of the sole of the foot as it is” devised to solve the problems and these troubles. In the present invention, the human body is a building block of 206 skeletons, and walking is a dynamic continuous movement in which the brain moves while maintaining the balance of the whole body while the feet support these skeletons and pelvis, and the shoes are the feet It is regarded as functioning as a base for stabilization. In this invention, by installing an insole that plays the role of seismic isolation (isolation) function in architecture on the base of this shoe, it assists the joint arrangement (alignment) of the whole body from the foot and eliminates the imbalance of the center of gravity of the human body. It is a technique that relieves and further reduces brain stress, making it easier to form a balanced skeleton and muscles centered on the pelvis. In addition, in order to compensate for the imbalance of the center of gravity inherent in the human body, an insole with seismic isolation (vibration isolation) function and a fluid balancer or stabilizer to compensate for the vibration control function Technology that enhances the gait improvement effect and enhances the efficiency of the gait exercise effect by combining the two, making it easier to correct skeletal distortions and pelvic distortions caused by psychological influences that occur in lifestyle. It is.

The gait improvement technology in Japan up to now is based on the "three arch theory" (Fig. 1), which is a Western gait theory, and this theory has spread widely worldwide. It was not a proper theory. For example, there is still a clear difference in height and skeletal and muscular strength between Westerners and Japanese. The history of footwear in Japan is short, grassy and damp and soft, compared to the thousands of years of footwear that Westerners have walked on hard, dry ground or cobblestones with wooden shoes or shoes with hard leather soles. It is characterized by walking on the bare feet or sandals and living on the tatami for a long time. For example, in Japan, the “life culture of always wearing shoes on a daily basis” has been fully established for only about 40 years. In Japan, people in their mid-50s and above generally wore clogs when commuting to school, graduated from rubber sandals, and exercised barefoot until school graduation. In contrast to the Western culture, which has a footwear culture that wears shoes at the same time as getting up and keeps wearing shoes until going to bed, in Japan, a footwear culture of walking around the house with bare feet and slippers after getting up and putting on shoes is considered. Have maintained. In addition, Japan still has a footwear culture of taking off footwear and going up to the house.In particular, Japanese housewives live in bare feet and slippers in the house and wear footwear only when going out. It has a unique footwear culture in which footwear reciprocates on a daily basis over and over. Therefore, there is a strong possibility that the skeleton has not yet been completely adapted to foreign footwear such as shoes in Japan. In addition, housewives and young women often use shoes with structures that significantly change their walking characteristics and posture, such as mule sandals, sneakers, high heels, etc., when shopping, walking or going out. The fact is that they are changing. Furthermore, in addition to the chronic lack of exercise in Japan, transportation has been developed throughout, and most roads are tightly paved and the area of tatami in houses has been reduced, while elevators and escalators have been installed in various places, There is an increase in the floor space of very hard steps in houses. In other words, the progress of the barrier-free society itself is contributing to the lack of leg strength of modern people, and we are facing the reality that old Western-style walking theory can no longer respond. In addition, with the development of an aging society, the number of people who have difficulty walking such as fractures and rheumatism due to osteoporosis and falls, and “konnyaku feet” due to an increase in young people who place emphasis on fashion only and prioritize their appearance (remarkably reduced leg strength The ankles have become softer as shown), hallux valgus, etc., and the remarkable decrease in leg strength of growing infants, school children, students, etc. A unique generation called “Gibetarian” has also emerged. On the other hand, the “three arch theory”, which is a Western-based walking theory, is an old technology born in a time when walking is commonplace, and even in Japan, walking is now repelled, and the development of transportation means has lost the opportunity for walking itself. In a time when we are approaching, the "three arch theory" has become a theory and technology that does not fit the actual situation of Japan. Also, the Western theory of walking, which is a theory of three arches, presupposes the Western footwear culture that shoes worn when waking up continue to sleep until bedtime. They don't envision a unique footwear culture in which they live in slippers and go back and forth between footwear with significantly different structures, such as sandals, sneakers or pumps, every time they go out. The "three arch theory" must be said to be a theory that does not take into account any differences in footwear culture due to the short history of shoe wear in Japan, differences in footwear culture due to lifestyle habits, and even skeletal muscle strength. Western-style shoes, insoles, and soles (sole inserts) based on the "Two Arch Theory" are made of urethane with a thickness of several millimeters on the surface in order to partially soften the foot contact. Although some are stuck, the structural material itself is extremely hard, and the walking function is improved by forcibly constructing a strong tripod with skeleton, muscle and ligaments ahead of the ankle, Even if the theory itself is adapted to Westerners, when the Japanese actually wear it, the toe skeleton in the shoe becomes an inverted arch in the shoes as shown in Fig. 4, and fish eyes and octopus are easily formed on the sole of the foot, and the insole is thin German shoes, which are widely used in Japan, have a large rubble pile due to the Second World War. The shoes were born from the German situation that many people had injured their feet, and were characterized by a solid construction similar to trekking shoes.The insoles in these German shoes were completely standardized There are ready-made insoles that have been mass-produced in advance for each walking problem, and the seller has trouble with the buyer's feet and footprints (adhesion etc. on the soles of the feet to flatten the stationary footprints). Gait characteristics is determined based on the method of copying on insulated paper), and only insoles with the corresponding numbers are selected from the pre-made insoles prepared in advance and provided to the purchaser. However, this technique assumes a significant fallacy that the foot skeleton is the same in the continuous motion of walking as a stationary foot skeleton, and especially assists in the alignment of the whole body skeleton and joints. It was not enough technology to use or sustain the material.Also, there is a technology to use seismic isolation material for the sole itself as a prior art, but the seismic isolation material is soft for the sole. The soles of the shoes are easily worn away, which may rather distort the pelvis and the like, and the effect of using a seismic isolation material on the soles of the shoes is not illuminated. In addition, a paper at the 16th Annual Meeting of the Japanese Society of Shoe Medicine (Sendai City) held on September 27, 2002 (Thesis title: "Effects of German-style orthopedic shoes and plantar inserts on valgus angle opening" Surgery Ieyasu Akagi and Yasuhide Imai German orthopedic shoes and sole inserts are compatible with Europeans and Americans at the German shoe maker "Funshoe Shoe Institute", a joint study between Taku Endo, Lutzberge and Oliver Spitz. Was clearly denied that it was not compatible with Japanese. In addition to differences in the history and culture of footwear with the United States and Europe, this is a method of identifying three skeleton points that are the starting points of the "three arch theory", and is a footprint in a static state mainly represented by "footprint" etc. This seems to be a natural consequence of having used as the basis for the judgment. For this reason, there has been a need to devise an insole with originality and novelty that improves these shortcomings, adapts to the history and footwear culture of Japan's footwear, and enhances the effects of walking and improving walking. .

Issues that the device is trying to solve

It is generally well known that the pelvis of a human body is easily distorted by daily activities such as sitting on a soft sofa, kneeling, side sitting, cross sitting, chronic lack of exercise, and the like. However, doctors have forgotten the characteristic of the pelvis, which is easily distorted in daily life, and always recommend walking for those who suffer from lifestyle diseases such as hypertension, obesity and diabetes. However, walking with shoes that do not have a function to properly support the pelvis will cause the pelvis to walk in a distorted state that has occurred in daily life, and as a result, the skeleton of the human body will be three-dimensional from the feet to the head Meanwhile, the walking posture is distorted from front to back and left and right, and the heavy skull is tilted in order to balance, so that the neck is stiffened and the tooth engagement is changed. Also, walking in an unstable posture can cause stress in the brain, even if the pedestrian is not conscious, constantly trying to balance the whole body. In other words, for modern people, walking itself is stressful, and after walking due to this stress, the feeling of fatigue remains, and sweet drinks and beers will want to drink, or they will simply become hungry and snack. is there. By the way, in the field of sports medicine, it is said that if walking (and exercising) is not performed with a well-balanced skeleton, concentration will decrease, well-balanced muscles will not be easily formed, and it will be difficult to increase bone density. In addition, various shock absorber structures and suspension structures used in conventional sneakers and some walking shoes are packed with simple shock absorption and improved sole elasticity, below the ankle based on Western-based walking theory However, the purpose was not to correct the pelvis and skeleton by joint alignment. Certainly, many German shoes and insoles were designed to construct "three arches" in which the skeleton, ligaments, and muscles were formed in a composite manner from the ankle to below, but the differences in the skeleton between Westerners and Japanese and No consideration is given to differences in footwear history or footwear culture, and its efficacy has been denied by the Japanese shoe medical community. In addition, the material of the German insole itself is a hard material formed by molding chips such as cork with resin, so it not only has poor shock absorption properties, but also the knee distortion as it occurs when the unevenness of the ground or the shoe sole wears down And also transmitted to the pelvis through the hip joint. If you try to completely correct such pelvic distortions, fine adjustments, such as sharpening of the insole, are always necessary, which costs money and time, and is actually a theory and technology with many disadvantages. Not get. Even more, German and Western shoes and insoles do not have a seismic isolation (vibration isolation) function, nor do they have a function to assist the natural damping (damping) function inherent in the human body. Could not cope with the situation where the walking posture suddenly changed due to psychological effects, and he did not even anticipate such a situation. In contrast, the present invention has a seismic isolation (vibration isolation) function, and the insole that has the function of assisting the vibration control (vibration suppression) function inherently provided in the human body. In addition to restoring the easy balance of the pelvis and forming balanced leg and hip muscles, walking the pelvis and hip joints always makes it return to the correct position, thereby correcting distortion of the skeleton of the upper body. Then, a series of these phenomena is transmitted from the feet to the skeleton of the whole body as joint arrangement (alignment), and through the dynamic continuous movement of walking, recovery of the original function of walking and improvement of health are realized. In addition, even if the walking posture changes or the shoe sole wears due to aging, weight loss or psychological influence, the upper body's skeletal distortion and shaking are absorbed by the seismic isolation (vibration isolation) structure, and the human body is equipped with it. The function of the insole that assists the vibration control (vibration control) function that supports the pelvis from the feet and corrects the walking posture by maintaining the balance of the pelvis, so that it is possible to prevent falls and back pain. Furthermore, when manufacturing shoes for people whose toe joints are deformed due to obstacles such as rheumatism, conventionally foot-shaped shoes have been processed as custom-made items, but they are expensive and take more than one month to manufacture. That was the fact. In the present invention, since the soft insulated material having a thickness of 10 mm to 25 mm is used for the insole, the shoes that can store the insole having this thickness have a remodelable space corresponding to the insole. Therefore, by partially shaving the insole in accordance with the deformation of the toe joint by 10 mm to 20 mm, the deformed joint can be easily stored without specially ordering the shoe itself. In addition, modern people rarely walk empty-handed, and usually carry a kind of weight that affects some kind of skeleton, such as a handbag, a shoulder bag, or a backpack. In addition to such a situation, a person may change his walking posture suddenly or a pelvis or the like may be greatly distorted due to psychological factors. In addition, humans change their pelvic and skeletal balance due to aging, changes in weight, pregnancy, etc., but besides that, for example, if they are happy, they will walk with excitement, and if they are anxious or worried, they will flutter and walk, As a result, the pelvis and skeleton change slightly, causing the muscles to expand and contract, causing back pain and stiff shoulders. In addition, since the muscles of the human body expand and contract due to a weak current from the brain, the lengths of the right and left feet also change due to stress, and the pelvis and skeleton may be distorted. Since muscles are originally controlled by weak currents from the brain, considering that the skeleton is supported by muscles and ligaments, it is not surprising that brain stress atrophys muscles and changes the skeleton. It should be called a phenomenon. Therefore, there is a real need for the development of shoes insoles that constantly correct the balance of the pelvis and skeleton, restore the balance of the pelvis by walking, and can cope with changes in walking characteristics due to the influence of the human mind. In addition, it is not only a time burden to visit a doctor in modern times, but also an increase in the self-pay rate of treatment costs, a decrease in leg strength due to hospitalization, a hospital-acquired infection during hospitalization and various infections associated with blood transfusion, the skills of doctors Hospitalization and surgery, such as deteriorating health and morals, various medical errors, sequelae of surgery, the burden of time and cost in postoperative rehabilitation and the pain associated with rehabilitation, and the increasing financial burden on families during that time. The fact is that there are risks and burdens associated with them. Under these circumstances, the present invention can reduce the problems of legs and lower limbs facing many people, improve the health of walking, and prevent lifestyle-related diseases by proper walking, and the resulting various health insurance The present invention is extremely effective in reducing expenditures, reducing the burden of medical expenses on households, reducing the cost of nursing care in Japan by raising the age at which people can walk, and expanding various types of consumption in order to create opportunities for elderly people to go out. This is a novel technology for "general health promotion" with a wide range of benefits and economic ripple effects.

Means for solving the problem

The human body has a flexible structure similar to a high-rise building that is resistant to earthquakes. No, it is no exaggeration to say that the flexible structure of a high-rise building that is resistant to earthquakes was developed based on the toughness of the human skeleton and its "suppleness". As is well known, strong springs and thick seismic rubber are sandwiched between the foundation and the base of a high-rise building that can withstand a strong earthquake, and these springs and thick rubber absorb the energy of the earthquake and cause the building to collapse. And damage is prevented. This is the seismic isolation (vibration isolation) structure of the building, which corresponds to the hand that supports the hammer in FIG. The function of absorbing vibration energy of an earthquake and suppressing the vibration inside a high-rise building with a flexible structure is the vibration control (vibration control) structure (Fig. 3). In the case of the human body, the skeleton, centering on the pelvis, and the various muscles and ligaments that support them, even when bipedally walking or standing upright, balance together by the command of the brain to absorb sideways and vertical swings. By doing so, it has a damping function. However, human feet who have been walking on a bipedal foot have lacked a full-scale seismic isolation (vibration isolation) structure at the feet, and shoes and insoles that declare shock absorber functions and nominal suspension functions were devised. Even so, seismic isolation (vibration isolation) insoles designed to assist or supplement the natural damping (damping) function inherently possessed by the human body have not been devised. Rather, the human body needs a shoe insole with a seismic isolation (vibration isolation) function that supports the skeleton of the whole body from the feet, and the “three arch theory” requires a seismic isolation (vibration isolation) structure that supports it from the base. Only when the seismic isolation (isolation) structure and the "three arch theory" are integrated can the function be fully achieved, the skeleton, centering on the pelvis, and the various muscles and ligaments that support them are combined for a more dynamic damping (Vibration suppression) function is exerted, and the balance control of the body by the brain becomes easy. However, the conventional "three arch theory" uses a hard cork-mixed molding material or a shock absorbing material having a thickness of at most about 3 mm to 5 mm for a shoe insole serving as a base. With such a hard material or thin insole, it is not enough to correct the joint alignment (alignment) of the whole body from the feet, as well as unevenness of the ground and wear of the soles encountered during walking, and lowering to the hands and shoulders It had the drawback that even the distortion of the skeleton caused by the load was transmitted directly to the pelvis. Compared to this, the present invention uses a softer seismic isolation (isolation) material with a thickness of 10 mm to 25 mm for the insole, thereby achieving a more advanced seismic isolation (vibration isolation) that was impossible with conventional shoes and insoles. ) Functions can be added. This also disperses the concentration of the center of gravity on the soles of the feet, prevents fish eyes and octopus from forming on the soles, reduces brain stress during walking, and changes in aging, weight changes or psychological Even when the walking posture changes due to the influence, the dynamic alignment of the whole body skeleton and the balance correction of the whole body skeleton are performed while supporting the skeleton during walking, particularly the pelvis, from the feet. Also, the insole having a seismic isolation (vibration isolation) function pushes the foot forward due to the spring effect of the material itself, so that the foot can easily be stepped forward, and the walking distance is improved and the leg strength is improved. In addition, shoes that store the insole with seismic isolation (isolation) function are made of a material such as leather that is easily deformed, and the shoes are deformed by foot break-in for 2 to 3 weeks. Select a material and manufacturing method that will fit into your feet.

(A) In Japan, the habit of wearing shoes on a daily basis is still only about 40 years, and it is assumed that Western people are walking on a daily basis because they are “sticky” and wear shoes only when going out. It is highly likely that people have a footwear culture that is not yet fully adapted to the "container" of shoes. Therefore, it is not only impossible to apply the “three arch theory” invented in Europe and the United States as it is, but there is also the possibility that it will increase leg and back problems. All German insoles produced based on the "three arch theory" are uniform, and the purpose is to temporarily construct "three arches" in the shoes. I have to affirm that it has only enough functions to make it easy to walk. The reason for this is that in the insole and insole of shoes manufactured based on the “three arch theory”, the metatarsal portion of the toes is all depressed in a “mortar-shaped” shape, and the ball of the thumb The front arch connecting the anterior joint of the bone and the little ball (anterior joint of the metatarsal of the fifth finger) falls down, and when walking around the house with solid feet like in Japan, the foot of the toe is This is because it becomes a "reverse arch" and the "three arch theory" has already broken at this point. (See Fig. 4.) In fact, this phenomenon is contributing to various leg and waist problems in Japan, and there are many cases where fish eyes and octopus occur in this "reverse arch" portion. Therefore, in the present invention, based on the actual situation in Japan, a kind of pillow is inserted into the metatarsal part of the insole with a seismic isolation (isolation) function, and by constantly lifting it, "three arches" are formed. By restoring the skeletal form originally sought by the "three arch theory", a flexible "three arch" is constructed in the range from the ankle to the toe, thereby realizing stable walking. In the present invention, this is hereinafter defined as "Japanese four-point support arch theory" for convenience. Compare the European and American “Three Arch Theories” (FIG. 1) with the “Japanese four-point support arch theory” (FIG. 5) of the present invention. The three base points in the Western “Three Arch Theory” (FIG. 1) are (1) the lowest point of the calcaneus (FIG. 1A), and (2) the base of the thumb (first finger) of the foot (middle of the tibia). The lowest point of the foot bone: FIG. 1A) (3) This is the base of the little finger (fifth finger) of the foot (lowest point of the metatarsal bone on the tibia side in FIG. 1C). In this case, note that the joints connecting FIG. 1A and FIG. 1C are arranged toward the center of the arch. On the other hand, in the "Japanese four-point support arch theory" (FIG. 5), the pillow (metatarsal pad or perotti) is added. The measuring method for specifying the center or base point in FIG. 5 is as follows. First, the feet with bare feet or socks or feet with corrected footprints are directly placed on the upper surface of the insole having the seismic isolation structure (function), and (1) the lowest point of the calcaneus (FIG. 5A). ▼ At the base of the thumb (first finger) of the toe (the lowest point of the metatarsal bone on the tibia) (3) At the base of the little finger (fifth finger) of the foot (the lowest point of the metatarsal on the tibia) Figure 5 C) Touch the finger with a finger to find it out, confirm it visually, or specify it with a 3D scanner foot type measuring instrument, and mark the side of the insulated insole. Next, a pillow (metatar bone pad) supporting the metatarsal arch (FIGS. 5A to 5U) in a range of 20 mm to 30 mm on a straight line connecting FIG. Or Perotti) at the top or center. Although the shape of this pad is generally a water drop shape, its shape, area, position, thickness, hardness, etc. are individually adjusted according to walking characteristics. Furthermore, since FIG. 5A is the origin of all, it is necessary to fix and prevent slippage in order to prevent the calcaneus from moving back and forth, left and right. The pad was fixed toward the toe from the back of the heel (state of FIG. 6E), but in the present invention, using the same material as the seismic isolation insole, the pad was reversed from the toe side to the heel as shown in FIG. Is fixed with an adhesive or the like. By doing so, the calcaneus does not slip back and forth and right and left in the shoe, and it is possible to improve stability when landing from the heel. In addition, this method of fixing the calcaneus is particularly effective when the calcaneus and talus tend to move due to sedentary habits or a decrease in leg strength, or when the foot is likely to slide forward in shoes such as high heels. If it is necessary to fix it, the calcaneus can be fixed more by adding a streamlined pad (Fig. 7) made of the same material just below the inner ankle and fixing it. By doing so, it becomes possible to improve cold feet, swelling, numbness and the like. By the way, the material of these parts and the material of the insole body are made of high elasticity material such as high density foamed resin and porous silicon or rubber, especially the insole with seismic isolation (vibration isolation) function. Timely selection of high-density foamed resin and porous silicon, etc., which have various characteristics so that they can be selected according to the age, weight, skeleton, leg strength, walking characteristics, shoes use of the wearer, various anti-vibration rubber materials for precision machinery, etc. Need to be able to combine these.
(B) The insole used for the conventional insole is a leather or a synthetic leather or various kinds of fiber cloths, etc., which are easily slipped on the shoes intentionally, and are hardly soiled and stains are hardly noticeable. Materials and colors have been used. For this reason, it was difficult to read the continuous movement of the skeleton, the movement of the toes, and the weight balance in walking with shoes from the dirt and friction marks attached to the litter with the conventional litter. For example, as a prior art that addresses this problem, a pressure sensor is placed on the course to measure the foot pressure during walking (combined weight of the weight on the sole of the foot and the impact from the sole), and the shoes are removed. There is a technology for digitally measuring foot pressure by walking or putting a thin sheet-shaped pressure sensor in footwear and walking on a flat course. However, the outdoor sidewalk is not a flat surface, and modern people walk with little baggage and always carry some baggage. The walking characteristics change depending on the fashion, mood, etc., and the pelvis must be affected by it, and the indoor data measured using the pressure sensor is only data that is unrelated to the actual walking characteristics, There is little point in adjusting the shoe insole based on the data. In contrast, in the present invention, in order to collect a record of dynamic continuous movement in walking or exercise, shoes having a seismic isolation structure are used for materials that tend to become dirty and tend to leave foot pressure, especially for meat pigs made of vegetable tannins. Affixed to the surface of the insole. As a result, clearer dirt and friction marks with foot pressure are obtained, and by decoding these, it is easier to grasp daily and continuous walking characteristics, the center of gravity during exercise, and the like. At that time, if pig leather is adhered as a backskin so that the back of the pig leather contacts the sole of the foot, the part where the foot pressure was applied during walking gets brushed and wears, causing gloss and Traces of skin and sebum are more likely to remain, and live records of continuous movement in walking and sports can be accurately collected. In addition, when this material is used, the seismic isolation material is combined with the feature that only the part that receives the pressure instantaneously depresses, so that the energy of walking can be transmitted to the ground without waste and the fatigue due to walking is reduced. The effect is also obtained. In addition, the pigskin backskin is in a brushed state, so it absorbs sweat on the soles of the feet well, and after taking off the shoes, the brushed surface comes into contact with the atmosphere to promote drying. In addition, tannins and catechins used to tan pig leather suppress the growth of various bacteria in the shoes, and at the same time, massage the soles of the feet with the shoe insole that has a seismic isolation (isolation) structure. Get better. It is said that "the foot is the second heart", but the present invention also has the function of improving blood circulation and activating metabolism by softly massaging the sole of the foot each time one step is taken .
(C) Next, in the implementation of the present invention, the insole with the seismic isolation (vibration isolation) function should be used in a timely manner as necessary according to the walking characteristics of the human body who walks using the insole and the problems with the legs and hips. A method of correcting will be described. Because the human body changes the balance of the pelvis and skeleton due to aging and weight changes, psychological effects or seasonal changes, health conditions, pregnancy, etc., as well as changes in posture, as well as deformation of shoes, wear of soles and pads etc. This is because a decrease in the elasticity of unavoidable fishing occurs in inevitable fishing. However, shoe insoles with seismic isolation (isolation) function have the function of correcting the dynamic alignment of the skeleton of the whole body while walking, so there are slight changes in the skeleton, slight wear of the soles, and insoles. With regard to material settling (decrease in elasticity), tuning of the insole itself is hardly necessary. Rather, the only thing that needs to be tuned is to walk on the insole that has the seismic isolation function, which is soft enough to walk on the lawn with bare feet. When the distortion is corrected from the foot, one of the base points A, I, and U in the "Japanese type four-point support arch theory" (FIG. 5) may move several millimeters due to the walking improvement effect, or the foot on this base point This is when the pressure changes greatly. For example, when walking on a daily basis using an insole with a seismic isolation (vibration isolation) function that corrects the dynamic alignment of the skeleton of the whole body, the human body will walk by mobilizing the muscles of the whole body. However, a sudden change in walking posture or walking speed due to a sudden decrease in weight or an increase in leg strength may occur. In such a case, after grasping the characteristics of the skeleton, ligaments, and muscles of the foot and the effect of improving walking, check each pad while checking the foot pressure and friction marks left on the meat of pork by tanning with vegetable tannins. It is necessary to finely move the position of the pad back and forth, right and left, and to appropriately adjust the hardness and height of the pad and its shape and area. In addition, in the present invention, since a soft seismic isolation (isolation) material having a thickness of 10 mm to 25 mm is used, there are naturally many remodelable areas in shoes capable of storing the same. For example, even if the deformation of the toes due to rheumatism, etc. can be seen, by cutting this insole with a grinder from various directions, it can be remodeled in a short time so that the protruding joints and claws do not touch the upper of the shoe, In addition, pain during walking can be reduced, and processing costs can be reduced and immediate delivery is possible. FIG. 8 is a cross-sectional view of the upper and the sole of a shoe that stores an insole having a seismic isolation (isolation) function. The remodeling space can be easily expanded by shaving FIG. 8 from above and below. If a thick seismic isolation (isolation) insole with a thickness of 10 mm to 25 mm is buried in the sole of the shoe as shown in FIG. 8, the shoe itself does not become a thick sole, and the toe can be easily kicked with the toes. In other words, the present invention comes with a function to secure in advance a remodelable space that becomes a problem when trying to fit ready-made shoes that do not know who wears them to various walking characteristics, By installing seismic isolation insole with large spare capacity as standard equipment in existing shoes, the frequency of manufacturing custom shoes is reduced, the cost of remodeling can be reduced and immediate delivery is possible, and as a result, it is called "orthopedic shoes" It is a technology that can reduce health insurance expenditures in the sector and reduce medical expenditures in households.
(D) The insole of the present invention weighs about 250 to 500 grams per half foot when combined with shoes, and is not a light shoe. Until now, the idea of a shoe maker was to "make the shoes as light as possible to reduce the burden when walking." However, modern people are generally limited in the amount of time and distance they can walk each day, which causes leg weakness. Therefore, in the present invention, a pair of slightly heavier shoes and seismic isolation (isolation) insole are combined. In fact, this slightly heavier shoe effectively loads the skeleton and muscles during the walking time and walking distance, strengthening the muscles of the legs and hips, increasing the bone density, and making it easier for the feet to step forward. It plays the role of a "pendulum weight", and the insole with seismic isolation (vibration isolation), which is rich in elasticity, plays a role of a spring when pushing the foot forward.
(E) The human body has a balance maintaining function when standing upright or when walking on two legs, and its body structure also has a vibration damping structure in which the energy of shaking is easily absorbed by the skeleton and muscles. In addition, the human body quickly recovers the imbalance of the center of gravity of the body by moving the upper limb, the waist, or the head back and forth and left and right in order to absorb the energy of shaking and inertia during walking and exercise and maintain the body balance. An insole with a seismic isolation (isolation) structure supports and compensates for the damping function of the human body from the feet, but when joints and muscles that are waiting are difficult to function due to, for example, fractures or deformation of the joints of the feet , A flexible container with a liquid and a small amount of gas filled in a fluid and a small amount of gas in the upper limb, shoulder or head located on the diagonal line that is difficult to function as a `` some kind of weight '' with Velcro etc. The role of stabilizer is exhibited by fixing. (Fig. 9) This makes it easier for the human body to maintain balance when walking and exercising, making it easier to integrate the insole with a seismic isolation (vibration isolation) structure with the natural damping function inherent in the human body. It improves walking and motor functions.

(1) First, perform a chiropractic or manipulative treatment, or perform pelvic exercises or hip joint exercises on the human body whose gait function or hunting function is to be improved and improved, and if necessary, a pelvic correction belt or tabing etc. To restore the balance of the skeleton around the pelvis. In particular, when correction of the calcaneus and talus or correction of the metatarsal bone is necessary, the balance of the skeleton is maintained by using taping, a supporter, or wearing tights or socks that have a joint alignment effect.
(2) Next, put your feet in advance, check the size, take out the insole with seismic isolation (isolation) function stored in the selected shoes, stretch your back, and sit in a chair. Place your foot on the insole, and place your foot so that the center of the calcaneus fits in the center of the heel of the insole. At this time, make sure that the toe of the insole has a margin of 1 cm or more. This is because an error occurs in the foot circumference (circumference of the toe portion) when the feet are placed on the insole while sitting on the chair, and when the entire weight is placed on the insole while standing. The procedure is the same when the seismic isolation insole can be stored in the shoes brought in by the user.
(3) Search for the thumb ball (the highest point of the anterior joint of the first metatarsal bone) by hand, and mark the side of the insole immediately below it with an oil pen or the like. Similarly, the little finger ball (the highest point of the anterior joint of the fifth metatarsal) is searched for by hand, and the side of the insole immediately below the finger is marked with an oil pen or the like. This is an operation for specifying the base point of the item (a) in FIG.
{Circle around (4)} The marks made in the above paragraph [3] are connected with a straight line, and the center of the metatarsal pad (d in FIG. 5) is fixed within a range of 20 mm to 30 mm in the toe direction from this line.
(5) In order to prevent the calcaneus from shifting, a U-shaped pad is fixed as shown in FIG. 7 and the blood flow in the leg is improved immediately below the inner ankle to prevent the calcaneus from slipping forward. Then, a blood flow arch pad (f) in FIG. 7 that supports the horizontal arch connecting the points A to A in FIG. 6 is fixed. In addition, the material of each pad of the air, ki, and ka shown in FIG. 7 is almost the same as the insole having the seismic isolation (isolation) function, and its elasticity, area, height, position, and shape are determined by age. The timely selection is made in accordance with the troubles of the legs, leg strength and legs and hips or the analysis data by the 3D scanner or the fit between the feet and the shoes.
{Circle around (6)} After each of the three pads is fixed, the meat pork leather made of vegetable tannin is tanned and fixed to the surface of the insole (backskin). At this time, it is preferable to use an adhesive having a weak adhesive force so that the back skin is easily peeled off for fine adjustment of the pad.
▲ 7 ▼ Put the insole in the shoes and let the foot break in for about 2 to 4 weeks. Read the record of continuous movement of the skeleton during walking exercise from the distribution of traces or foot pressure, and fine-tune the position of the three pads and adjust the height of each of the three base points to assist joint alignment If there is any material having reduced elasticity, the material is replaced, and if necessary, these tunings are repeated as needed in accordance with improvement in leg strength and changes in age, weight, physical condition, season, psychology, and the like.

The effect of the invention

The feature of the present invention is that the seismic isolation (isolation) insole, which is detachable and has a large spare capacity for remodeling, is put in shoes, and shakes by walking on the skeleton and pelvis that are easily distorted due to lack of exercise and lifestyle. To assist in the indirect alignment (alignment) of the whole body and enable its persistence. In addition, this technology is safe, harmless and painless, and can contribute to the maintenance and improvement of the health of the elderly and the improvement of the walking exercise function of the handicapped. The advantages of the present invention are as follows.
{Circle around (1)} Since this technology focuses on the peculiarities of Japanese footwear culture, the effects of preventing hallux valgus and lower back pain and improving walking and posture in Japan are remarkable. In particular, for the hallux valgus, by correcting the distortion of the pelvis, the biased foot pressure applied to the thumb ball and the little ball can be reduced, and the pain in this portion can be reduced and the progression of the hallux valgus and the like can be prevented. In addition, it is effective in preventing and improving remarkable decrease in leg strength caused by giving priority to a fashion called “konjak foot”, and chronic decrease in leg strength due to an increase in generations that avoid walking and increase generations that accept walking as stress.
(2) Since the thickness of the insole is 10 mm to 25 mm, it is only necessary to cut the heel portion of the insole to correct the difference in leg length, and it is easy and inexpensive to improve the posture, improve the walking function, and improve the O and X legs. This reduces the load and impact on each joint.
(3) The seizure-isolated insole can reduce brain stress during walking, enhance the health maintenance and promotion effect of walking, and prevent and improve lifestyle-related diseases.
{Circle around (4)} It has the effect of improving the chilliness and “swelling” and “numbness” of the feet due to the massage effect on the soles of the feet and the fish eyes and octopus that can be formed on the feet.
{Circle around (5)} Seismic isolation (vibration isolation) can be used to reduce the load on specific joints, such as reducing the impact on deformed parts such as rheumatism, hip joints, and knee joints.
(6) It is effective in improving problems such as leg and knee pain caused by the working environment of nurses, meter readers of electric and gas water supply, courier drivers, etc.
(7) It is possible to improve changes in walking characteristics due to psychological causes.
(8) Improving teeth meshing, expanding the vocal range of music persons, and improving breathing.
(9) Correction of sports athletes' forms and improvement of back pain, knee pain, etc.
(10) Improve attitudes of children, children and students during the growth period, and improve "hikikomori" and school refusal.
(11) Reducing the time and economic burden of visiting a physician, reducing leg strength due to hospitalization, avoiding various infectious diseases associated with hospital-acquired infections and blood transfusions, avoiding various risks caused by malpractice and medical morals Reducing pain and costs in post-operative rehabilitation and post-operative rehabilitation.
(12) Useless health claims due to the spread of Japan-owned seismic isolation (insulation) insoles instead of expensive German orthopedic shoes and soles (plant soles), which were denied by the Shoe Medical Association for their gait improvement effect. The present invention eliminates the imbalance in the center of gravity during walking that occurs when using prostheses and orthoses to assist walking. Improve inexpensively and quickly with seismic insole and stabilizer.
(14) The insole is processed in about 10 minutes, and the shoes and insole can be put back on the spot by the user on the spot.

Schematic diagram of German and European and American "three arch theory" In this case, the arches of I-U are arranged in an arch toward the center Conceptual diagram of seismic isolation (isolation) structure and seismic isolation (isolation) function Schematic diagram of the vibration control (vibration control) structure of a high-rise building that is resistant to earthquakes In the case of a Western insole with a depressed metatarsal, the front arch (a to c) falls and becomes an inverted arch, and the five joints are arranged radially, making it easy to become hallux valgus and varus little finger Schematic diagram of Japanese four-point support theory and cross-sectional view of seismic isolation insole d. The metatarsal pad is fixed 20 mm to 30 mm ahead of the metatarsal pad of the German-style plantar insert and uses a soft material. How to use a calcaneal fixation pad on a conventional insole Conceptual diagram of how to use the calcaneal fixation pad and the arrangement of three parts in the Japanese type four-point support theory Cross section of shoes that can store seismic isolation insole Conceptual diagram of a balancer or stabilizer that contains a liquid with fluidity

Explanation of reference numerals

A is the lowest point of the calcaneus

B is the lowest point of the ball of the thumb (the anterior joint of the first metatarsal)

C is the lowest point of the little ball (the anterior joint of the fifth metatarsal)

D is the metatarsal pad in the Japanese four-point support theory

Oh is a conventional U-shaped heel bone fixation pad fixing method

Mosquito is a streamlined calcaneal fixation pad that prevents the calcaneus from sliding forward and improves blood flow in the sole

Ki is a U-shaped calcaneal fixation pad fixing method in Japanese four-point support theory

Detailed description of the invention

The present invention includes "methods for improving the fit of shoes" (Japanese Patent Application Laid-Open No. 5-184409), "shoes fit or not fit to the feet", "easy to walk, difficult to walk", "legs hurt and do not hurt". It is not a device that should simply be identified with the prior art such as “various insoles made by duplicating the shape of the sole of the foot as it is” devised to solve the problems and these troubles.
In the present invention, the human body is a building block of 206 skeletons, and walking is a dynamic continuous movement in which the brain moves while maintaining the balance of the whole body while the feet support these skeletons and pelvis, and the shoes are the feet It is considered to function as a base for stabilization.
In this invention, by installing an insole that plays the role of seismic isolation (isolation) function in architecture on the base of this shoe, it assists the joint arrangement (alignment) of the whole body from the foot and eliminates the imbalance of the center of gravity of the human body. This is a shoe insole technology that relieves and further reduces the tension and stress of the brain during walking and the like, and facilitates the formation of a balanced skeleton and muscles centered on the pelvis.
Insoles that are inherent in the human body and brain and have a seismic isolation (vibration isolation) function to compensate for the imbalance of the center of gravity in the body, and upper limbs, etc. Combining a fixed fluid balancer or stabilizer enhances the effect of improving gait and the efficiency of gait exercise effect, and improves skeletal distortion and pelvic distortion caused by psychological effects in lifestyle. It is a technology that makes it easier to do.

The gait improvement technology so far in Japan is based on the "three arch theory" (Fig. 1), which is a Western gait theory, and this theory has spread widely worldwide, but it is not necessarily the actual situation in Japan. It was not the theory that followed.
For example, there is still a clear difference in height and skeletal and muscular strength between Westerners and Japanese.
Also, the history of footwear in Japan is shorter than the history of thousands of years of Western people who walked on hard dry ground and cobblestones with wooden shoes and shoes with hard leather soles, and the lifestyle of Japan is grassy. It is characterized by long walking on wet soft ground with bare feet or sandals, and long life on tatami mats. For example, in Japan, the “life culture of always wearing shoes on a daily basis” has been fully established for only about 40 years.
In Japan, people in their mid-50s and above generally wore clogs when commuting to school, graduated from rubber sandals, and exercised barefoot until school graduation.
In contrast to the Western culture, which has a footwear culture that wears shoes at the same time as getting up and keeps wearing shoes until going to bed, in Japan, a footwear culture of walking around the house with bare feet and slippers after getting up and putting on shoes is considered. Have maintained.
In addition, Japan still has a footwear culture of taking off footwear and going up to the house.In particular, housewives in Japan live in bare feet and slippers in the house and wear footwear only when going out, so to speak, so-called foot walking. It has a unique footwear culture in which footwear is reciprocated on a daily basis, and some people still have sedentary habits.
Therefore, there is a strong possibility that the skeleton has not yet been completely adapted to foreign footwear such as shoes in Japan.
In addition, housewives and young women often use shoes with structures that significantly change their walking characteristics and posture, such as mule sandals, sneakers, high heels, etc., when shopping, walking or going out. The fact is that they are changing.
Furthermore, in addition to the chronic lack of exercise in Japan, transportation has been developed throughout, and most roads are tightly paved and the area of tatami in houses has been reduced, while elevators and escalators have been installed in various places, There is an increase in the floor space of very hard steps in houses.
In other words, the progress of the barrier-free society itself is contributing to the lack of leg strength of modern people, and we are facing the reality that old Western-style walking theory can no longer respond.
In addition, with the progress of the aging society, the number of people who have difficulty walking such as fractures and rheumatism due to osteoporosis and falls, and “Konjak feet” due to the increase in young people who place emphasis on fashion only and prioritize their appearance (“ The ankles have become softer as shown), hallux valgus, etc., and the remarkable decrease in leg strength of growing infants, school children, students, etc. An unusual generation called “Gibetarian” has also emerged.
On the other hand, the “three arch theory”, which is a Western-based walking theory, is an old technology that was born in a time when walking was natural, and even in Japan, walking is now evaded. As we are entering a period of time, the "three arch theory" is a past theory or old technology that does not fit the actual situation of Japan.
Also, the Western theory of walking, which is a theory of three arches, presupposes the Western footwear culture that shoes worn when waking up continue to sleep until bedtime. (Slippers) They do not envision a unique footwear culture in which they live and go back and forth daily between footwear with significantly different structures such as sandals, sneakers or pumps every time they go out.
In other words, the Western theory of the "three arches" has to be said to be a theory that does not take into account any differences in footwear culture due to the short history of Japanese shoe wear, lifestyle differences in footwear culture, and skeletal muscle strength at all. .
In addition, in Western shoes, insoles and sole plates (sole inserts) based on the "three arch theory", urethane with a thickness of several millimeters is simply applied to the surface only to soften the foot contact. There are some, but the structural material at the base itself is extremely hard, improving the gait function by forcibly building a tough tripod with skeleton, muscles and ligaments ahead of the ankle, Even if the theory itself is adapted to Westerners, when actually worn by the Japanese, the toe skeleton in the shoe becomes an inverted arch in the shoe as shown in Fig. 4, making it easier for fish eyes and octopus to be formed on the sole of the foot, However, since it is thin and stiff, it has poor shock absorption and has a drawback that landing impact is transmitted to knees and hip joints.
In fact, German shoes (German orthopedic shoes) and German foot soles, which have become widespread in Japan, became mostly rubble mountains due to World War II, and many people injured their feet. It is a shoe born from the German national situation that is characterized by a solid structure similar to trekking shoes.
Also, the insole put in this German shoe is completely standardized and manualized, and stocked insole that has been mass-produced in advance for each walking problem is stocked, and the seller has trouble with the buyer's feet And a footprint (a method of attaching the ink etc. to the soles of the feet and copying the footprints in a stationary state on a flat sheet of paper), making a judgment according to the manual, and selecting from the pre-stocked insole. It simply selects the insole with the number to be given and offers it to the buyer.
However, this method is based on the premise that the motion of the foot skeleton in the stationary state is the same as the motion of the foot skeleton in the continuous motion of walking. And it was insufficient technology to sustain this.
As a prior art, there is a product that uses seismic isolation material for the sole itself, but the seismic isolation material is too soft for the sole, and the sole is easily worn out, and as a result, it becomes rather slippery or falls, There is a possibility that the foot may be distorted, and the effect of improving walking caused by using the seismic isolation material for the sole of the shoe is not illuminated.
Also, a paper at the 16th Annual Meeting of the Japanese Society of Shoe Medicine (Sendai), September 27, 2002, titled "Effects of German-style orthopedic shoes and plantar inserts on the degree of hallux valgus angle opening". Surgery Ieyasu Akagi, Yasuhide Imai German-Japanese orthopedic shoes and sole inserts are compatible with Europeans and Americans at the German shoe maker "Funshoe Shoe Institute", a Japanese-German joint study by Taku Endo, Lutzberge and Oliver Spitz. Was clearly denied that it was not suitable for Japanese.
In addition to differences in the history and culture of footwear with the United States and Europe, this is a method of identifying three skeleton points that are the starting points of the "three arch theory", and is a footprint in a static state mainly represented by "footprint" etc. This seems to be a natural consequence of having used that as the basis for the judgment.
For this reason, there has been a need to devise an insole with originality and novelty that improves these shortcomings, adapts to the history and footwear culture of Japan's footwear, and enhances the effects of walking and improving walking. .

Issues that the device is trying to solve

It is generally well known that the pelvis of a human body is easily distorted by daily activities such as sitting on a soft sofa, kneeling, side sitting, cross sitting, chronic lack of exercise, and the like.
However, doctors have forgotten the characteristics of the pelvis, which is easily distorted in daily life, and recommend walking to patients with lifestyle-related diseases such as hypertension, obesity and diabetes.
However, walking with shoes that do not have the function to support the pelvis correctly causes the pelvis to walk with the distortion generated in daily life, and as a result, the skeleton of the human body is three-dimensional from the feet to the head Meanwhile, the walking posture is distorted from front to back, left and right, and the heavy skull tilts in an attempt to balance, so that the neck becomes stiff and changes to the engagement of teeth.
Also, walking in an unstable posture can cause stress, even if the pedestrian is not conscious, and the brain is constantly tense trying to balance the whole body.
In other words, for modern people, walking itself is stressful, and after walking due to this stress, the feeling of fatigue remains, and sweet drinks and beers will want to drink, or they will simply become hungry and snack. is there.
By the way, in the field of sports medicine, it is said that if walking (and exercising) is not performed with a well-balanced skeleton, concentration will decrease, well-balanced muscles will not be easily formed, and it will be difficult to increase bone density.
In addition, various shock absorber structures and suspension structures used in conventional sneakers and some walking shoes are packed with simple shock absorption and improved sole elasticity, below the ankle based on Western-based walking theory The "three arches" described above are merely for correcting pelvic and skeletal movements, and their purpose was not to correct the pelvis and skeleton by joint alignment.
Certainly, many German shoes and insoles were designed to construct "three arches" in which the skeleton, ligaments, and muscles were formed in a composite manner from the ankle to below. No consideration is given to differences in footwear history or footwear culture, and its efficacy has been denied by the Japanese shoe medical community.
In addition, the material of the German insole itself is a hard material formed by molding chips such as cork with resin, so it not only has poor shock absorption properties, but also the knee distortion as it occurs when the unevenness of the ground or the shoe sole wears down And also transmitted to the pelvis through the hip joint.
If you try to completely correct the distortion of the pelvis with such a hard insole, fine adjustments such as always shaving the insole or correcting for abrasion of the soles are required, and it costs much time and it takes time. It must be said that it is not a theory or technology that can completely respond to individual troubles.
Even more, German and Western shoes and insoles do not have seismic isolation (vibration isolation) functions, nor do they have a function to assist the human body's inherent vibration control (vibration suppression) functions. Humans could not cope with sudden changes in walking posture due to psychological effects, and they did not even anticipate such situations.
Compared to this, the present invention not only makes it easier and faster to relieve the imbalance of the center of gravity of the human body, but also makes it easier The insole assists the human body with the inherent vibration control (vibration control) function from the feet, making it easier to generate skeletal alignment and restoring the balance of the pelvis and skeleton that are easily distorted in the lifestyle. It becomes.
In addition to this, it creates balanced muscles of the legs and hips, and moves the pelvis and hip joints to moderately shake, thereby always returning to the correct position, thereby correcting the distortion of the upper body skeleton. is there.
Then, a series of these phenomena is transmitted from the feet to the skeleton of the whole body as joint arrangement (alignment), and through the dynamic continuous movement of walking, recovery of the original function of walking and improvement of health are realized.
In addition, even if the walking posture changes or the shoe sole wears due to aging, weight loss or psychological influence, the upper body's skeletal distortion and shaking are absorbed by the seismic isolation (vibration isolation) structure, and the human body is equipped with it. The function of the insole that assists the vibration control (vibration control) function that supports the pelvis from the feet and corrects the walking posture by maintaining the balance of the pelvis, so that it is possible to prevent falls and back pain.
Furthermore, when manufacturing shoes for people whose toe joints are deformed due to obstacles such as rheumatism, conventionally foot-shaped shoes have been processed as custom-made items, but they are expensive and take more than one month to manufacture. That was the fact.
In the present invention, since the soft insulated material having a thickness of 10 mm to 25 mm is used for the insole, the shoes that can store the insole having this thickness have a remodelable space corresponding to the insole.
Therefore, by partially shaving the insole by 5 mm to 20 mm in accordance with the deformation of the joint of the toe, the deformed joint can be easily stored without specially ordering the shoe itself.
In addition, modern people rarely walk empty-handed, and usually carry a kind of weight that affects some kind of skeleton, such as a handbag, a shoulder bag, or a backpack.
In addition to such a situation, a person may change his walking posture suddenly or a pelvis or the like may be greatly distorted due to psychological factors.
In addition, humans change the balance of the pelvis and skeleton due to aging, weight change, pregnancy, etc. In addition, for example, if you are happy, you will walk with excitement, if you are anxious or worried, you will sneak and walk, As a result, the pelvis and skeleton change subtly, causing the muscles to stretch and contract, causing back pain and stiff shoulders. In addition, since the muscles of the human body expand and contract due to a weak current from the brain, the lengths of the left and right legs also change due to stress, and the pelvis and skeleton may be distorted.
Muscles are originally controlled by weak currents from the brain, and considering that the skeleton is supported by muscles and ligaments, it is not surprising that brain stress causes muscle atrophy and changes in the skeleton. It should be called a phenomenon.
Therefore, there is a real need to develop a shoe insole that constantly corrects the balance of the pelvis and skeleton, restores the balance of the pelvis by walking, and can cope with changes in walking characteristics due to the influence of the human mind.
In addition, it is not only a time burden to visit a doctor in modern times, but also an increase in the self-pay rate of treatment costs, a decrease in leg strength due to hospitalization, a hospital-acquired infection during hospitalization and various infections associated with blood transfusion, the skills of doctors Hospitalization and surgery, such as deteriorating health and morals, various medical errors, sequelae of surgery, the burden of time and cost in postoperative rehabilitation and the pain associated with rehabilitation, and the increasing financial burden of family members during that time. The fact is that there are risks and burdens associated with them.
Under these circumstances, the present invention can reduce the problems of legs and lower limbs facing many people, improve the health of walking, and prevent lifestyle-related diseases by proper walking, and the resulting various health insurance The present invention is extremely effective in reducing expenditures, reducing the burden of medical expenses on households, reducing the cost of nursing care associated with raising the age at which people can walk in Japan, and expanding the various types of consumption associated with creating opportunities for the elderly to go out. This is a novel technology for “general health from the bottom of the leg” that has a wide range of public benefits and economic ripple effects.

Means for solving the problem

The human body has a flexible structure similar to a high-rise building that is resistant to earthquakes. It is not an exaggeration to say that the flexible structure of a high-rise building that is resistant to earthquakes was developed based on the toughness of the human skeleton and its "suppleness".
As is well known, a tough spring or thick rubber is sandwiched between the foundation and the base of a high-rise building that can withstand a strong earthquake, and this spring and thick rubber absorb the energy of the earthquake and It keeps balance and prevents collapse and damage.
This is the seismic isolation (vibration isolation) structure of the building, which corresponds to the hand supporting the rod in FIG.
FIG. 3 is a schematic diagram of a seismic isolation (vibration control) structure used in a high-rise building having a flexible structure, which is used to absorb the energy of shaking of an earthquake and suppress the shaking.
In the case of the human body, the skeleton, centering on the pelvis, and the various muscles and ligaments that support them, even when bipedally walking or standing upright, balance together as directed by the brain to absorb sideways and vertical swings. By doing so, it has a damping function.
However, human skeletons that walk on two legs have a seismic isolation structure as shown in Fig. 3, but lacked a full-scale seismic isolation (seismic isolation) structure at their feet. Seismic isolation designed to assist or supplement the natural damping function of the human body, even though shoes and insoles with shock absorber functions and nominal suspension functions are commercially available (Isolation) The insole was not invented.
For example, the purpose of a German insole or a sole insert is to fix a skeleton, and a suspension or a sneaker having a shock absorber function is also developed for the purpose of suppressing a skeletal or body sway.
However, rather than the human body, it is necessary to have a shoe insole that has a seismic isolation (vibration isolation) function that supports the skeleton of the whole body from the feet, and the “three arch theory” also has a seismic isolation (vibration isolation) structure that supports it from the base Only when the seismic isolation (isolation) structure and the “three arch theory” are integrated can the function be fully demonstrated, the skeleton, centering on the pelvis, and the various muscles and ligaments that support them are combined for a more dynamic control. The vibration (damping) function is exhibited, and the balance control of the body by the brain becomes easy. In other words, when the human body is moderately shaken or shaken by walking or other movements, joint alignment that corrects distortion of the skeleton, pelvis, etc. occurs, and at this time, the tension and stress for maintaining the balance of the brain were reduced for the first time. I feel it.
However, the conventional "three arch theory" uses a hard cork-mixed molding material or a shock absorbing material having a thickness of at most about 3 mm to 5 mm for a shoe insole serving as a base.
With such a hard material or thin insole, it is not enough to correct the joint alignment (alignment) of the whole body from the feet, as well as unevenness of the ground and wear of the soles encountered during walking, and lowering to the hands and shoulders It had the disadvantage that even the skeletal distortion caused by the load was transmitted directly to the pelvis.
Compared to this, the present invention uses a softer seismic isolation (isolation) material with a thickness of 10 mm to 25 mm for the insole, thereby achieving a more advanced seismic isolation (vibration isolation) that was impossible with conventional shoes and insoles. ) Functions can be added.
This also disperses the concentration of the center of gravity on the soles of the feet, prevents fish eyes and octopus from forming on the soles, reduces brain stress during walking, and changes in aging, weight changes or psychological Even if the walking posture changes due to the influence, the dynamic alignment of the whole body skeleton and the balance correction of the whole body skeleton are performed while supporting the skeleton during walking, particularly the pelvis, from the feet.
Also, the insole having the seismic isolation (vibration isolation) function pushes the foot forward by the spring effect of the material itself, so that the foot can easily be stepped forward, the walking distance is improved, and the leg strength is improved.
In addition, shoes that store the insole with seismic isolation (isolation) function are made of a material such as leather that is easily deformed, and the shoes are deformed by foot break-in for 2 to 3 weeks. Choose a material and manufacturing method that will fit your feet.

(A) In Japan, the habit of wearing shoes on a daily basis is still only about 40 years, and it is assumed that Western people are walking on a daily basis because they are “sticky” and wear shoes only when going out. It is highly likely that people have a footwear culture that is not yet fully adapted to the "container" of shoes.
Therefore, it is not only impossible to apply the “three arch theory” invented in Europe and the United States as it is, but there is also the possibility that it will increase leg and back problems.
All German insoles produced based on the "three arch theory" are uniform, and the purpose is to temporarily construct "three arches" in the shoes. I have to affirm that it has only enough functions to make it easy to walk.
Because, in the insole and insole of shoes manufactured based on the "three arch theory", the metatarsal part of the toes is all concave in a mortar shape. The front arch connecting the anterior joint of the bone and the little ball (the anterior joint of the fifth metatarsal) falls down, walking around the house with a solid foot like in Japan, and then putting the foot in the shoe, This is because it becomes a "reverse arch" and the "three arch theory" has already collapsed at this point. (See Fig. 4)
In fact, this phenomenon is contributing to various leg and waist problems in Japan, and there are many instances where fish eyes and octopus occur in this "reverse arch" part.
Therefore, in the present invention, based on the actual situation in Japan, a kind of pillow is inserted into the metatarsal part of the insole with a seismic isolation (isolation) function, and by constantly lifting it, "three arches" are formed. By restoring the skeletal form originally sought by the "three arch theory", a flexible "three arch" is constructed in the range from the ankle to the toe, thereby realizing stable walking.
In the present invention, this is hereinafter defined as "Japanese four-point support arch theory" for convenience.
Compare the European and American “Three Arch Theories” (FIG. 1) with the “Japanese four-point support arch theory” (FIG. 5) of the present invention.
The three base points in the Western “Three Arch Theory” (FIG. 1) are (A) the lowest point of the calcaneus (FIG. 1A), and (B) the base (tibia side) of the toe (first finger) of the foot. The lowest point of the metatarsal: FIG. 1A), (C) The bottom of the little finger (fifth finger) of the foot (lowest point of the metatarsal bone on the tibia side, FIG. 1C). In this case, note that the joints connecting FIG. 1A and FIG. 1C are arranged toward the center of the arch.
On the other hand, in the "Japanese four-point support arch theory" (FIG. 5), the pillow (metatarsal pad or perotti) is added.
The measuring method for specifying the center or base point in FIG. 5 is as follows.
First, a foot wearing bare feet or socks or a foot whose foot shape is corrected by taping or the like is directly placed on the upper surface of an insole having a seismic isolation structure (function), and (1) the lowest point of the calcaneus (FIG. 5A) (2) ) The base of the thumb (first finger) of the toe (the lowest point of the metatarsal bone on the tibia) (3) The base of the little finger (the fifth finger) of the foot (the lowest point of the metatarsal on the tibia) Figure 5 C) Touch the finger with a finger to find it out, check it visually, or specify it with a 3D scanner foot type measuring instrument, and mark the side of the insulated insole.
5A and 5C are connected by a straight line, and a pillow (metatar bone pad) for supporting the metatarsal arch (FIGS. 5A to 5C) in a range of 20 mm to 30 mm on a straight line connecting the intermediate point and FIG. Or Perotti) at the top or center.
Although the shape of this pad is generally a water drop shape, its shape, area, position, thickness, hardness, etc. are individually adjusted according to walking characteristics.
Furthermore, since FIG. 5A is the origin of all, it is necessary to fix and prevent slippage in order to prevent the calcaneus from moving back and forth, left and right. The pad was fixed toward the toe from the back of the heel (state of FIG. 6E), but in the present invention, using the same material as the seismic isolation insole, the pad was reversed from the toe side to the heel as shown in FIG. Is fixed with an adhesive or the like.
By doing so, the calcaneus does not slip back and forth and right and left in the shoe, and it is possible to improve stability when landing from the heel.
In addition, this method of fixing the calcaneus is particularly effective when the calcaneus and talus are easy to move due to sedentary habits or a decrease in leg strength, or when the foot is likely to slide forward in shoes such as high heels, resulting in a so-called flat foot. It is possible to revive the "three arches" by pushing up the skeleton and calcaneus of the foot from the sole of the foot.
If it is necessary to further fix the calcaneus, a streamlined type of 50 to 60 mm long, 15 to 20 mm wide, and 10 to 20 mm thick molded from the same material just below the inner ankle. Pads (FIG. 7) are added and fixed. Thus, the calcaneus can be fixed, and the foot can be gently massaged so that the foot can be cooled, swelling, numbness and the like can be improved.
By the way, the material of these parts and the material of the insole body are made of high-density independent foam resin and highly elastic material such as porous silicon or rubber. Timely selection of high-density foam resin and porous silicon, etc., which have various characteristics so that they can be selected according to the age, weight, skeleton, leg strength, walking characteristics, shoes characteristics of the wearer, and various seismic rubber materials for precision machinery Or be able to combine them.
(B) The insole used for the conventional insole is a leather or a synthetic leather or various kinds of fiber cloths, etc., which are easily slipped on the shoes intentionally, and are hardly soiled and stains are hardly noticeable. Materials and colors have been used.
For this reason, it was difficult to read the continuous movement of the skeleton, the movement of the toes, and the weight balance in walking with shoes from the dirt and friction marks attached to the litter with the conventional litter.
For example, as a prior art that addresses this problem, a pressure sensor is placed on the course to measure the foot pressure during walking (combined weight of the weight on the sole of the foot and the impact from the sole), and the shoes are removed. There is a technology for digitally measuring foot pressure by walking or putting a thin sheet-shaped pressure sensor in footwear and walking on a flat course.
However, the outdoor sidewalk is not a flat surface, and modern people walk with little baggage and always carry some baggage. The walking characteristics change depending on the fashion, mood, etc., and the pelvis must be affected by it, and the indoor data measured using the pressure sensor is only data that is unrelated to the actual walking characteristics, There is little point in adjusting the shoe insole based on the data.
In contrast, in the present invention, in order to collect a record of dynamic continuous movement in walking or exercise, shoes having a seismic isolation structure are used for materials that tend to become dirty and tend to leave foot pressure, especially for meat pigs made of vegetable tannins. Affixed to the surface of the insole.
As a result, clearer dirt and friction marks with foot pressure are obtained, and by decoding these, it is easier to grasp daily and continuous walking characteristics, the center of gravity during exercise, and the like.
At that time, if pig leather is adhered as a back skin so that the back of the pig leather contacts the sole of the foot, the part where the foot pressure was applied during walking collapses or wears and raises gloss, causing sweat and Traces of sebum are likely to remain, and live records of continuous movement in walking and sports can be accurately collected.
In addition, when this material is used, the seismic isolation material is combined with the feature that only the part that receives the pressure instantaneously depresses, so that the energy of walking can be transmitted to the ground without waste and the fatigue due to walking is reduced. The effect is also obtained.
In addition, the pigskin backskin is in a brushed state, so it absorbs sweat on the soles of the feet well, and after taking off the shoes, the brushed surface comes into contact with the atmosphere to promote drying.
In addition, tannins and catechins used to tan pig leather suppress the growth of various bacteria in the shoes, and at the same time, massage the soles of the feet with the shoe insole that has a seismic isolation (isolation) structure. Get better.
It is said that "the foot is the second heart", but the present invention also has the function of improving blood circulation and activating metabolism by softly massaging the sole of the foot each time one step is taken .
(C) Next, when implementing the present invention, the insole with the seismic isolation (vibration isolation) function will be corrected as necessary according to the walking characteristics of the human body who walks using the insole and the trouble of the legs. How to do it.
Because the human body changes the balance of the pelvis and skeleton due to aging and weight changes, psychological effects or seasonal changes, health conditions, pregnancy, etc., as well as changes in posture, as well as deformation of shoes, wear of soles and pads etc. This is because the elasticity of the rubber is inevitably reduced.
However, shoe insoles with seismic isolation (isolation) function have the function of correcting the dynamic alignment of the skeleton of the whole body while walking, so there are slight changes in the skeleton, slight wear of the soles, and insoles. With regard to material settling (decrease in elasticity), tuning of the insole itself is hardly necessary.
Rather, the only thing that needs to be tuned is to use the insole that has the seismic isolation (isolation) function, which is characterized by the softness of walking barefoot on the lawn, to relax the muscles of the whole body and relax the skeleton and pelvis. When the distortion of the foot is corrected from the foot, one of the base points A, I, and E in the "Japanese type four-point support arch theory" (FIG. 5) moves several millimeters due to the gait improvement effect or hangs on this base point. This is when the foot pressure changes significantly.
For example, when walking on a daily basis using insoles with seismic isolation (vibration isolation) function to correct the dynamic alignment of the skeleton of the whole body, the human body mobilizes the muscles of the whole body and walks dynamically. Therefore, a sudden change in walking posture and walking speed may occur due to a sudden decrease in weight or an increase in leg strength.
In such a case, after grasping the characteristics of the skeleton, ligaments, and muscles of the foot and the effect of improving walking, check each pad while checking the foot pressure and friction marks etc. left on the meat of pork by tanning with vegetable tannins. It is necessary to finely move the position of the pad back and forth, right and left, and to appropriately adjust the hardness and height of the pad and its shape and area.
In addition, in the present invention, since a soft seismic isolation (isolation) material having a thickness of 10 mm to 25 mm is used, there are naturally many remodelable areas in shoes capable of storing the same.
For example, even if the deformation of the toes due to rheumatism, etc. can be seen, by cutting this insole with a grinder from various directions, it can be remodeled in a short time so that the protruding joints and claws do not touch the upper of the shoe, In addition, pain during walking can be reduced, processing costs can be reduced, and shoes and insoles can be immediately delivered.
FIG. 8 is a cross-sectional view of the upper and the sole of a shoe that stores an insole having a seismic isolation (isolation) function. The remodeling space can be easily expanded by cutting the upper and lower parts of FIG. If a thick seismic isolation (isolation) insole with a thickness of 10 mm to 25 mm is buried in the sole of the shoe as shown in FIG. 8, the shoe itself does not become a thick sole, and the toe can be easily kicked with the toes.
In other words, the present invention comes with a function to secure in advance a remodelable space that becomes a problem when trying to fit ready-made shoes that do not know who wears them to various walking characteristics, By installing seismic isolation insole with large spare capacity as standard equipment in existing shoes, the frequency of manufacturing custom shoes is reduced, the cost of remodeling can be reduced and immediate delivery is possible, and as a result, it is called "orthopedic shoes" It is a technology that can reduce health insurance expenditures in the sector and reduce medical expenditures in households.
(D) The insole of the present invention weighs about 250 to 500 grams per half foot when combined with shoes, and is not a light shoe.
Until now, the idea of a shoe maker was to "make the shoes as light as possible to reduce the burden when walking."
However, modern people are generally limited in the amount of time and distance they can walk each day, which causes leg weakness.
Therefore, in the present invention, a pair of slightly heavier shoes and seismic isolation (isolation) insole are combined.
In fact, this slightly heavier shoe effectively loads the skeleton and muscles during limited walking time and walking distance, strengthens the muscles of the legs and hips, increases the bone density, and makes it easier for the feet to step forward. It plays the role of a "pendulum weight", and the insole with seismic isolation (vibration isolation), which is rich in elasticity, plays a role of a spring when pushing the foot forward.
(E) The human body has a balance maintaining function when standing upright or when walking on two legs, and its body structure also has a vibration damping structure in which the energy of shaking is easily absorbed by the skeleton and muscles.
In addition, the human body quickly recovers the imbalance of the center of gravity of the body by moving the upper limb, the waist, or the head back and forth and left and right in order to absorb the energy of shaking and inertia during walking and exercise and maintain the body balance.
An insole with a seismic isolation (vibration isolation) structure supports and compensates for the human body's vibration control function from the feet, but when a specific joint or muscle is difficult to function due to, for example, a fracture or deformation of the joint of the foot , A flexible container with a liquid and a small amount of gas filled in a fluid and a small amount of gas in the upper limb, shoulder or head located on the diagonal line that is difficult to function as a `` some kind of weight '' with Velcro etc. By fixing it, it plays the role of stabilizer. (FIG. 9)
This makes it easier for the human body to maintain balance when walking and exercising, making it easier to combine the insole with a seismic isolation (vibration isolation) structure with the vibration control function inherent in the human body, thereby improving the walking function and It improves and improves motor function.

(1) First, a chiropractic or manipulative treatment, or pelvic exercise or hip joint exercise should be performed on the human body whose walking function or motor function is to be improved, and if necessary, a pelvic correction belt or taping, etc. Go to restore the balance of the skeleton around the pelvis. In particular, when correction of the calcaneus and talus or correction of the metatarsal bone is necessary, the balance of the skeleton is maintained by using taping, a supporter, or wearing tights or socks that have a joint alignment effect.
(2) Next, put the feet in advance, check the size, take out the insole with seismic isolation (isolation) function stored in the selected shoes, stretch your back, and place the insole in a posture sitting on a chair. Put your feet on the sock, and place your feet so that the center of the calcaneus fits in the center of the heel of the insole.
At this time, make sure that the toe of the insole has a margin of 1 cm or more.
This is because an error occurs in the foot circumference (circumference of the toe portion) when the feet are placed on the insole while sitting on the chair, and when the entire weight is placed on the insole while standing.
The procedure is the same when the seismic isolation insole can be stored in the shoes brought in by the user.
(3) Search for the thumb ball (the highest point of the anterior joint of the first metatarsal) by hand, and mark the side of the insole immediately below it with an oil pen or the like. Similarly, the little finger ball (the highest point of the anterior joint of the fifth metatarsal) is searched for by hand, and the side of the insole immediately below the finger is marked with an oil pen or the like. This is an operation for specifying the base point of the item (a) in FIG.
(4) Connect the marks made in the above item (3) with a straight line, and fix them so that the center of the metatarsal pad (D in FIG. 5) comes within the range of 20 mm to 30 mm in the toe direction from this line.
(5) In order to prevent the displacement of the calcaneus, a U-shaped pad is fixed as shown in FIG. 7, and the blood flow of the leg is improved immediately below the inner ankle to prevent the calcaneus from slipping forward. Then, a blood flow arch pad (f) in FIG. 7 that supports the horizontal arch connecting the points A to A in FIG. 5 is fixed.
In addition, the material of each pad of the air, ki, and ka shown in FIG. 7 is almost the same as the insole having the seismic isolation (isolation) function, and its elasticity, area, height, position, and shape are determined by age. The timely selection is made in accordance with the troubles of the legs, leg strength and legs and hips or the analysis data by the 3D scanner or the fit between the feet and the shoes.
(6) After fixing each of the three pads, on the surface of the insole, leather of meat pork tanned with vegetable tannin is fixed inside out (backskin).
At this time, it is preferable to use an adhesive having a weak adhesive force so that the back skin is easily peeled off for fine adjustment of the pad.
(7) Put the insole into the shoes and let the foot break in for about 2 to 3 weeks. When the deformation of the shoes has almost stopped, take out the insole and remove the dirt and friction of the pig leather attached to the surface of the insole. Read the record of continuous movement of the skeleton during walking exercise from the distribution of traces or foot pressure, and fine-tune the position of the three pads and adjust the height of each of the three base points to assist joint alignment If there is any material having reduced elasticity, the material is replaced, and if necessary, these tunings are repeated as needed in accordance with improvement in leg strength and changes in age, weight, physical condition, season, psychology, and the like.

The effect of the invention

The feature of the present invention is that the seismic isolation (isolation) insole, which is detachable and has a large spare capacity for remodeling, is put in shoes, and shakes by walking on the skeleton and pelvis that are easily distorted due to lack of exercise and lifestyle. The purpose of this is to assist the whole body in the joint arrangement (alignment) and to maintain the same. In addition, this technology is safe, harmless and painless, and can contribute to the maintenance and improvement of the health of the elderly and the improvement of the walking exercise function of the handicapped.
The advantages of the present invention are as follows.
(1) Since this technology focuses on the uniqueness of Japanese footwear culture and the like, the effects of preventing hallux valgus and low back pain and improving walking and posture in Japan are remarkable.
In particular, for the hallux valgus, by correcting the distortion of the pelvis, the biased foot pressure applied to the thumb ball and the little ball can be reduced, and the pain in this portion can be reduced and the progression of the hallux valgus and the like can be prevented.
In addition, it is effective in preventing and improving remarkable decrease in leg strength caused by giving priority to a fashion called “konjak foot”, and chronic decrease in leg strength due to an increase in generations that avoid walking and increase generations that accept walking as stress.
(2) Since the thickness of the insole is 10 mm to 25 mm, correction of the leg length difference requires only cutting the heel portion of the insole, and it is easy and inexpensive to improve posture, improve walking function, and improve O-legs and X-legs. This reduces the load and impact on each joint.
(3) The seismic isolation insole can reduce brain stress during walking, enhance the health maintenance and promotion effect of walking, and prevent and improve lifestyle-related diseases.
(4) It has the effect of improving coldness and "swelling" and "numbness" of the feet due to the massage effect on the soles of the feet, and improving fish eyes and octopus that can be formed on the feet.
(5) It is possible to disperse the load on specific joints by the seismic isolation (vibration isolation) function, such as to reduce impact on deformed parts such as rheumatism, hip joints, and knee joints.
(6) It is effective in improving troubles such as leg and knee pain caused by the working environment of nurses, meter readers such as electric gas water supply, courier drivers, and the like.
(7) It is possible to improve changes in walking characteristics due to psychological causes.
(8) Improving teeth meshing, expanding the vocal range of musical persons, and improving breathing.
(9) Correcting sports athletes' forms and improving back pain, knee pain, etc.
(10) Improve the attitude of children, children and students during the growth period, and improve "hikikomori" and school refusal.
(11) Reduce the time and economic burden of visiting a physician, decrease leg strength associated with hospitalization, avoid various infectious diseases associated with hospital-acquired infections and blood transfusions, and avoid various risks caused by malpractice and medical morals. Reducing pain and costs in post-operative rehabilitation and post-operative rehabilitation.
(12) Useless health claims due to the spread of Japan-specific seismic isolation (isolation) insoles that replace expensive German orthopedic shoes and soles (plant soles), which have been denied by the Shoe Medical Association for their gait improvement effect. (13) The present invention eliminates the imbalance in the center of gravity during walking that occurs when using prostheses and orthoses to assist walking. Improve inexpensively and quickly with seismic insole and stabilizer.
(14) The insole is processed in about 10 minutes, and the shoes and insole can be returned by the user on the spot.

Schematic diagram of conventional German and European / American “three arch theory” In this case, five joints (a) to (c) are arranged in an arch shape Conceptual diagram of seismic isolation (vibration isolation) structure and seismic isolation (vibration isolation) function This figure shows a rod standing on a finger and balancing by hand to prevent the rod from falling down. Schematic diagram of the vibration control (damping) structure of a high-rise building that is resistant to earthquakes. The common structure of the human skeleton structure (especially the spine) and this schematic diagram is the vibration damping (damping) function of a flexible structure. In the case of a Western insole with a depressed metatarsal, the front arch (the five joints a to c) falls into this depression and becomes an inverted arch. As a result, the five joints are arranged radially and are likely to become hallux valgus and varus little fingers Schematic diagram combining seismic isolation insole with Japanese four-point support theory and cross-sectional view of seismic isolation insole d. The metatarsal pad is fixed 20 mm to 30 mm anterior to the metatarsal pad of the German-style plantar insert, and is higher. Use density independent foam resin as material General use of calcaneal fixation pads on conventional insoles How to use the heel bone fixation pad and the layout of other parts in the Japanese four-point support theory Sectional view of the toes of shoes that can store seismic isolation insoles Structure of balancer or stabilizer filled with fluid liquid

The present invention relates to a combination of a shoe insole and a combination of a shoe insole and a balancer, and the shoe insole having a seismic isolation function having the characteristics of claim 1 is installed in the shoe. Technology that assists joint alignment (alignment) of the whole body from the feet, alleviates the imbalance of the center of gravity of the human body, and facilitates the improvement of skeletal distortions and pelvic distortions due to psychological influences that occur in lifestyle. This is a technique that aims to form a balanced skeleton and muscles and to reduce brain tension and stress during walking and exercise.
In addition, the backskin made of edible pork buckskin by vegetable tanning according to claim 2 is attached to the upper surface of an insole having shoes having a seismic isolation function having the characteristics of claim 1 as a socks of shoes. Effective position of the U-shaped calcaneal fixation pad, streamlined calcaneal fixation pad and metatarsal pad of item 1, and weight shift during walking and exercise, change in foot pressure, toe movement, body balance, etc. It plays the role of a recording sheet that collects a variety of continuous data.Based on this data, it improves daily walking and motor functions, improves posture changes due to psychological effects, and improves the efficiency of walking exercise effects. It is a technology that aims to enhance.
Furthermore, by combining the insole having the seismic isolation function of claim 1 and the balancer of claim 3, a vibration control function for recovering the imbalance of the center of gravity of the human body during walking or exercise more easily and quickly is provided. None, as a "weight" to improve the motor function by the law of inertia due to the flow of liquids and powders and to make it easier to balance the body, or to expand the movable range of the upper limbs and lower limbs by the principle of the pendulum It is a balancer technology.

The present invention relates to "a method for improving the fit of shoes" (Japanese Patent Laid-Open Publication No. 5-184409), or "shoe fits or does not fit""easy to walk, difficult to walk""foot hurts and does not hurt" It is not a technology that should be equated with the prior art such as "various insoles made by replicating the shape of the sole of the foot three-dimensionally as it is" devised to solve such problems and these troubles.
According to the present invention, "The human body is a building block of 206 skeletons, and walking is a dynamic continuous movement in which the brain moves while balancing the whole body while supporting the skeleton and pelvis with the feet, and the shoes are the feet Functioning as a foundation for stabilizing ".
The conventional gait improvement technology in Japan is based on the "three arch theory" (see Fig. 1), which is a Western-based gait theory, and this theory mainly pushes the arch to the extreme with an insole of shoes. At the same time, the center part of the third toe metatarsal on the insole surface is inflated about 6 mm to build "three arches" and thereby stabilize walking, and this technology is widely used worldwide. The theory has spread, but it was not a theory based on the actual situation of Japan.
For example, there is still a clear difference in height and skeletal and muscular strength between Westerners and Japanese. Also, the history of footwear in Japan is short compared to the thousands of years of footwear of Westerners who walked on hard dry ground and cobblestones with shoes and shoes with hard leather soles, and the lifestyle of Japan is grassy. It is characterized by long walking on wet soft ground with bare feet or sandals, and long life on tatami mats. For example, in Japan, the “life culture of wearing shoes on a daily basis” has been fully established for only about 40 years.
For generations in Japan in the mid-50s, it was customary to wear clogs when commuting to school until graduation from high school, wear rubber sandals for school shoes, and barefoot for exercise time.
Also, while in Europe and the United States, there is a footwear culture that wears shoes at the same time as getting up and keeps wearing shoes until going to bed, whereas in Japan after getting up, footwear culture is that people walk around the house with bare feet and slippers and then wear shoes. It is characterized by a footwear culture that feels relaxed by taking off your shoes.
Furthermore, Japan still has a footwear culture of taking off footwear and going up to the house, especially housewives in Japan living barefoot or slippers in the house and wearing footwear only when going out, so to speak, barefoot walking In addition to having a unique footwear culture of reciprocating on a daily basis with footwear wearing walking, some people still have sedentary habits.
Therefore, there is a strong possibility that the skeleton has not yet been completely adapted to foreign footwear such as shoes in Japan.
For this reason, it is not only impossible to apply the "three arch theory" invented in Europe and the United States to Japan as it is, but there is even a fear that it may increase leg and back problems.
In addition, housewives and young women wear shoes with a structure that significantly changes their walking characteristics and posture, such as mules sandals, sneakers and high heels, when shopping, walking or going out. It is the fact that they are changing.
Moreover, in addition to the chronic lack of exercise in Japan, transportation has been thoroughly developed, most roads are tightly paved, the area of tatami in the house is decreasing, and elevators and escalators are installed in various places, The floors of buildings and houses that are extremely hard and have no steps are increasing.
In other words, the progress of the barrier-free society itself has contributed to the lack of leg strength of modern people, and we are facing the reality that old Western-style walking theory more than 50 years ago can no longer cope with it.
In addition, with the progress of the aging society, the number of people with walking difficulties such as osteoporosis and fractures due to falls and rheumatism has increased, and the “konnyaku feet” due to the increase in the number of young people who place emphasis only on fashion and on appearance only (significantly reduced leg strength) It is also concerned that there is an increase in the ankle that has become softer than the ankle like a toddler), hallux valgus, etc., and a remarkable decrease in leg strength of growing infants, school children and students. An unusual generation called “gibetarian”, which cannot be found, has also emerged.
In pursuit of these phenomena, the "three arch theory", which is a Western-based walking theory, is based on old technology and cork and other old materials born in the era when walking is natural, and even walking. It has to be said that this technology is not suitable for the actual situation in Japan, where walking opportunities are being lost due to the development of transportation means.
The Western theory of walking, which is a theory of three arches, presupposes that the shoes worn after waking up are worn all day long until bedtime, and that they are barefoot in a house like a housewife in Japan. He did not envision a unique footwear culture in which he lived a solid life with wearing slippers, and routinely reciprocated between a plurality of footwear with significantly different structures such as sandals, sneakers or pumps every time he went out.
In other words, the Western theory of the "three arches" has to be said to be a theory that does not take into account any differences in footwear culture due to the short history of Japanese shoe wear, differences in footwear culture due to lifestyle habits, and even skeletal muscle strength. .
In the case of Western shoes, insoles or sole plates (sole inserts) based on the "three arch theory", urethane sheets with a thickness of several millimeters are adhered only to the surface to soften the foot contact. Although the structural material itself is extremely hard or thin, the arch and the center of the metatarsal of the third toe are swelled about 6 mm to form the skeleton, muscles and ligaments from the ankle to the toe. The aim is to improve the walking function by forcibly constructing one arch, and there is a drawback that impact absorption is poor and landing impact is transmitted to the knee and hip joint. Moreover, when the Japanese actually wear it, the skeleton of the toe becomes an inverted arch in the shoe, as shown in the lower diagram of FIG. 4, and as a result, fish eyes and octopus tend to be formed on the sole of the foot.
All German insoles made based on the "three arch theory" are uniform, and the purpose is to temporarily construct "three arches" in the shoes. I have to affirm that it has only enough functions to make it easy to walk.
This is because all the insoles and insoles manufactured on the basis of the “three arch theory” have a shallow “mortar shape” in the toe metatarsal part (see the lower diagram in FIG. 4). The front arch connecting the metatarsal head of one toe (ball of the thumb) and the metatarsal head of the fifth toe is depressed, so that people who wear bare feet or slippers on a daily basis, as in Japan, do daily living with bare feet and bare feet. In the habit of walking around the house and putting your feet in the shoes, the front arch connecting the metatarsal head of the first toe and the metatarsal head of the fifth toe at the moment of wearing the shoes This is because it becomes a "reverse arch" and the "three arches" have already collapsed at this point.
In fact, this phenomenon is contributing to various leg and waist problems in Japan, and there are many instances where fish eyes and octopus occur in this "reverse arch" part.
German shoes (German orthopedic shoes) and German foot soles (plant soles), which have become widespread in Japan, are mostly people who suffered foot injuries because most of the land became rubble piles during World War II. These shoes were born from the German situation that there were many, and are characterized by a strong structure close to trekking shoes.
Also, the insoles put in these German shoes are completely standardized and manualized, and there are prepared insoles that have been mass-produced in advance according to walking problems, and the seller has trouble with the buyer's feet. Based on the footprint (a method of attaching the ink etc. to the sole of the foot and copying the footprint of the standing still state on a flat sheet of paper), the walking characteristics are determined, and from among the existing insoles prepared in advance They simply select the insole with the corresponding number and provide it to the buyer.
However, this method involves a serious error that the shape (skeleton) of the foot in a stationary state is the same as the shape (skeleton) of the foot in the continuous movement of walking. It was an inadequate technique to assist and sustain this.
In addition, most of the insole that is used for the insole used in the conventional insole is synthetic leather or various fiber cloths, etc. Color has been used.
For this reason, the conventional litter does not have a function of reading the continuous movement of the skeleton of the foot, the movement of the toes, and the weight balance from the dirt and friction marks adhering to the litter.
For example, as a prior art that addresses this problem, an electronic pressure sensor is placed on the floor to measure the foot pressure during walking (combined weight of the weight applied to the sole of the foot and the impact from the sole of the shoe). There is a technology for digitally measuring foot pressure by walking on the floor or putting a thin sheet-shaped electronic pressure sensor in footwear and walking on a flat course.
However, outdoor sidewalks and the like are never flat, and modern people rarely walk empty-handed and always walk while carrying some baggage, and the season, weather, temperature, humidity, physical condition, heels of shoes, etc. The walking characteristics change rapidly depending on the style, fashion, mood, etc., and the pelvis must be affected as well.In the end, the indoor data measured using the electronic pressure sensor is data that is unrelated to the actual walking characteristics. However, there is little point in adjusting shoe insoles based on this data.
In particular, a modern person with a remarkable decrease in leg strength is unlikely to form the “three arches” in FIG. 1 and cannot expect the seismic isolation function of the “three arches”.
Nevertheless, the purpose of the German insole or sole insert is to fix the "three arches" and the skeleton arranged on it in a building-like manner, such as suspension or sneakers with shock absorber function. It was a technique developed solely for the purpose of absorbing shock, and was not a technique for improving the skeletal imbalance while causing alignment using the movement of the human body.
Rather, modern humans who cannot easily form the “three arches” need insoles with seismic isolation to support joint skeleton while supporting the whole body skeleton from the feet. The "arch" can function sufficiently only if it has a seismic isolation structure that supports it from the base, and only when the seismic isolation structure and the "three arches" are integrated does the skeleton centering on the pelvis and the various muscles supporting them The ligaments combine to provide a more dynamic alignment and easier brain control of the body.
In other words, the human body does not restrain or fix the movement of the body due to exercise such as walking, but rather supports the movement caused by bipedal walking with seismic isolation insole, thus correcting joint distortion such as skeleton and pelvis. It is better to maintain and maintain balance by the innate damping function of the brain, which has a skeleton with improved distortion, to reduce brain tension and stress during walking exercise.
However, the conventional "three arch theory" uses a hard cork-mixed molding material or a shock absorbing material having a thickness of at most about 3 mm to 5 mm for a shoe insole serving as a base.
With such a hard material or thin insole, it is not enough to correct the joint alignment (alignment) of the whole body from the feet, as well as unevenness of the ground and wear of the soles encountered during walking, and lowering to the hands and shoulders It had the disadvantage that even the skeletal distortion caused by the load was transmitted directly to the pelvis.
As a prior art, there is also a technique of using a seismic isolation material for the sole itself, but the seismic isolation material is too soft for the sole, and the sole is easily worn away, which may rather distort the pelvis, etc. The effect of using seismic isolation materials on the ground has not been illuminated.
Also, a paper at the 16th Annual Meeting of the Japanese Society of Shoe Medicine (Sendai), September 27, 2002, titled "Effects of German-style orthopedic shoes and plantar inserts on the degree of hallux valgus angle opening". Surgery Ieyasu Akagi, Yasuhide Imai and German shoe manufacturer: Husund Shoe Institute employees Taku Endo, Lutzberge Oliver Spitz and German-Japanese joint research) Has also been specifically denied to be compatible with Japanese.
In addition to differences in the history and culture of footwear from Europe and the United States, a method of identifying three skeleton points that are the starting points of the "three arch theory" is a footprint in a static state mainly represented by "footprint" etc. This seems to be a natural consequence of having used as the basis for the judgment.
For this reason, the invention of an insole with originality and novelty that has improved these drawbacks, adapted to the history and footwear culture of Japanese footwear, and enhanced the walking exercise effect and the walking improvement effect has been awaited. .

The pelvis of a human body is distorted by everyday activities such as sitting on a soft sofa, kneeling, side sitting, sitting cross-legged, chronic lack of exercise, and carrying a heavy bag.
In addition, doctors have forgotten the characteristics of the pelvis, which are easily distorted in daily life, and always recommend walking to patients with lifestyle-related diseases such as hypertension, obesity and diabetes.
Moreover, if you walk in shoes that do not have a function to support the pelvis correctly, the pelvis will walk while preserving the distortion that has occurred in daily life, and as a result, the skeleton of the human body will be three-dimensional from the feet to the head The skull was meandering in an S-shape, the walking posture was distorted from front to back and right and left, and the heavy skull was inclined to balance, so that the neck could become stiff and the teeth could not mesh properly.
In addition, walking in an unstable posture causes the brain to always be nervous in trying to balance the whole body, even if the pedestrian is not conscious, and this can be a stress that repels walking.
In other words, for modern people, walking itself is stressful, and after walking due to this stress, the feeling of fatigue remains, and sweet drinks and beers will want to drink, or they will simply become hungry and snack. is there.
By the way, in the field of sports medicine, it is said that if walking (and exercising) is not performed with a well-balanced skeleton, concentration will decrease, well-balanced muscles will not be easily formed, and it will be difficult to increase bone density.
In addition, various shock absorber structures and suspension structures used in conventional sneakers and some walking shoes are packed with simple shock absorption and improved sole elasticity, or from ankle based on the old Western theory of walking It only corrected the "three arches" below, and did not assist the pelvis or skeleton with joint alignment, nor did it complement the natural damping function of the human brain.
Certainly, many German shoes and insoles were designed to construct "three arches" in which the skeleton, ligaments, and muscles were formed in a composite manner from the ankle to below. No consideration is given to differences in footwear history or footwear culture, and its efficacy has been denied in the above-mentioned article in the Japanese shoe medical community.
In addition, the material of the German insole itself is a hard material made by hardening chips such as cork with resin, so it not only has poor shock absorption properties, but also knee distortions caused by unevenness of the ground and footsteps caused when the soles are worn down And also transmitted to the pelvis through the hip joint.
Therefore, in order to completely correct the distortion of the pelvis with such a hard insole, fine adjustments such as always shaving the insole to maintain the balance of the pelvis are necessary, and it takes time and cost, and in reality, individual It must be said that it was not a theory or technology that could completely cope with the trouble.
Even more, German and Western shoes and insoles do not have a seismic isolation function and do not have a function to assist the natural damping function inherent in the human body, and humans also walk due to psychological influences He could not cope with sudden changes in attitude, and he did not even anticipate such situations.
In particular, modern people rarely walk empty-handed, and usually carry a kind of weight that affects some kind of skeleton, such as a handbag, a shoulder bag, or a backpack.
In addition to such a situation, a person may change his walking posture suddenly or a pelvis or the like may be greatly distorted due to psychological factors.
In addition, humans change the balance of the pelvis and skeleton due to aging, weight change, pregnancy, etc. In addition, for example, if you are happy, you will walk with excitement, if you are anxious or worried, you will sneak and walk, As a result, the pelvis and skeleton change subtly, causing the muscles to stretch and contract, causing back pain and stiff shoulders. In addition, since the muscles of the human body expand and contract due to a weak current from the brain, the lengths of the left and right legs also change due to stress, and the pelvis and skeleton may be distorted.
Muscles are originally controlled by weak currents from the brain, and considering that the skeleton is supported by muscles and ligaments, it is not surprising that brain stress causes muscle atrophy and changes in the skeleton. It should be called a phenomenon.
Therefore, there is a real need for the development of shoes insoles that constantly correct the balance of the pelvis and skeleton, restore the balance of the pelvis by walking, and can cope with changes in walking characteristics due to the influence of the human mind.
In addition, it is not only a time burden to visit a doctor in modern times, but also an increase in the self-pay rate of treatment costs, a decrease in leg strength due to hospitalization, a hospital-acquired infection during hospitalization and various infections associated with blood transfusion, the skills of doctors Hospitalization and surgery, such as deteriorating health and morals, various medical errors, sequelae of surgery, the burden of time and cost in postoperative rehabilitation and the pain associated with rehabilitation, and the increasing financial burden of family members during that time. The fact is that there are risks and burdens associated with them.

In order to achieve the above object, the method according to claim 1,
High-density independent foamed resin or porous silicon having a length of 100 mm to 300 mm, a width of 40 mm to 130 mm, a thickness of 5 mm to 25 mm, and a material having elasticity of hardness of 30 to 60. A base (32 in FIG. 7) having a seismic isolation function having the shape of an insole made of resin or the like;
A high-density closed-cell foam resin or a porous silicon resin with a hardness of 30 to 60, which is provided at a position corresponding to the heel of the foot on the upper surface of the base and is fixed so that the calcaneus is sandwiched between the toes in a triangle shape. A U-shaped calcaneal fixation pad (25 in FIG. 7)
A streamlined heel bone fixation pad (26 in FIG. 7) which is provided on the upper surface of the base near the heel bone of the foot and has elasticity of hardness 30 to 60 and is made of high-density independent foamed resin, porous silicon resin, or the like. )When,
An elasticity of hardness 30 to 60 whose center is located within a radius of 50 mm in the direction of the toe from the midpoint of the straight line connecting the metatarsal head of the first toe and the metatarsal head of the fifth toe on the upper surface of the base. An insole characterized by having an oval, waterdrop-shaped or polygonal metatarsal pad (23 in FIG. 7) made of a high-density closed-cell foam resin or a porous silicon resin having a property,
The porcine buckle made of edible pork by the vegetable tannin tanning according to claim 2, having a thickness of 0.3 mm to 1.5 mm, wherein the U-shaped calcaneal fixing pad, the streamlined calcaneal fixing pad, and the metatarsal bone 2. An insole according to claim 1, further comprising an insole (35 in FIG. 9) attached to the entire surface or a part of the upper surface of the base with the pad.
A combination of a shoe insole according to claim 3 and a balancer,
The balancer is a deformable sealed container having a shape having a length of 120 mm to 1200 mm, a width of 30 mm to 120 mm, a thickness of 3 mm to 20 mm, and a weight of 100 g to 350 g.
Fluid liquid or powder sealed in a closed container,
A surface fastener attached to the closed container for fixing the closed container to any part of the body is provided (FIG. 10).
By installing these insole with seismic isolation function in the shoes and further combining with the balancer, it assists the joint arrangement (alignment) of the whole body from the feet and relieves the imbalance of the center of gravity of the human body In addition, it is a technology that makes it easier to improve the skeletal distortion and pelvic distortion caused by psychological effects, etc. that occur in the lifestyle, thereby forming a balanced skeleton and muscles, as well as the brain during walking and exercise. To provide technology aimed at reducing tension and stress.
In particular, the backskin made of edible pig by vegetable tanning in the present invention covers a U-shaped calcaneal fixation pad, a streamlined calcaneal fixation pad, and a metatarsal pad fixed on the upper surface of the base with seismic isolation function. A clue to verify the effective positional relationship between the three pads fixed on the upper surface of the base, which is the floor covering of shoes and has a seismic isolation function, and walks the balancer fixed to any part of the human body It plays the role of determining effective parts during time and exercise, and collecting three-dimensional and continuous movement records to assist in joint alignment (alignment) derived by walking.
As a result, clearer dirt and friction marks with foot pressure can be obtained, and by decoding these, daily and continuous walking characteristics and imbalance of the center of gravity during exercise can be easily grasped.

Originally, the human body has a flexible structure similar to a high-rise building that is resistant to earthquakes, but rather focuses on the fact that the flexible structure of a high-rise building that is strong against earthquakes was developed based on the toughness of the human body skeleton and `` flexibility '', Strong springs and thick seismic rubber sandwiched between the foundation and the base of a high-rise building that can withstand a strong earthquake absorb the energy of shaking caused by the earthquake, which keeps the building in balance and prevents collapse and damage. . The present invention applies this technology as an insole for shoes.
The base part having the seismic isolation function according to claim 1 has an insole shape of shoes having a thickness of 5 mm to 25 mm, and supports the sway (fluctuation) of the human body from the foot by applying the seismic isolation structure in the building. It has the function of absorbing the energy of shaking in the human body. This function suppresses human body sway (fluctuation), which can be called the fate of bipedal walking in standing and walking and exercising, supports the human body from the feet, and balances the body only by the brain command conventionally It has a function to supplement the fundamental mechanism of the human body that could not be done with a seismic isolation structure installed at the foot.
Also, the insole with seismic isolation function pushes the foot forward when walking due to the spring effect of the material itself, making it easier for the foot to step forward, improving walking distance and improving leg strength, In addition to improving postural changes due to factors and distortion of the skeletal pelvis joints that are inevitable in daily life, it also assists the natural damping function of the human body or brain, It has the effect of reducing the tension and stress of walking and maintaining these effects by walking.
Even when the human body is bipedal or standing upright, the skeleton centered on the pelvis and the various muscles and ligaments that support them are balanced by the command of the brain to absorb the roll and pitch, etc. The balance is maintained by the vibration control function.
However, although the human skeleton (especially the spine) that walks on two legs originally had a seismic isolation structure similar to that shown in Fig. 3, shoes did not have a full-scale seismic isolation structure. Even if shoes and insoles that have the absolute function or a nominal suspension function are commercially available, seismic isolation insoles designed to supplement or supplement the natural damping function of the human body It was not invented.
The present invention dares to use a soft seismic isolation material having a thickness of 10 mm to 25 mm for the insole, thereby making it possible to provide a more advanced seismic isolation function that cannot be realized with conventional shoes or insoles.
This also disperses the concentration of the center of gravity on the soles of the feet, prevents fish eyes and octopus from forming on the soles, reduces brain stress during walking, and changes in aging, weight changes or psychological Even when the walking posture changes due to the influence, it is possible to correct the dynamic alignment of the whole body skeleton and the whole body skeleton balance while supporting the walking skeleton, particularly the pelvis, from the feet.
In addition, even if the walking posture changes or the shoe sole wears due to aging, weight loss, or psychological effects, the upper body's skeletal distortion and shaking are absorbed by the seismic isolation structure, and the human body is equipped with a vibration control system. By the function of the balancer that assists the function, the pelvis is supported from the feet and the balance is maintained, so that the walking posture is corrected, and it is possible to prevent a fall, a backache, and the like.
The U-shaped calcaneal fixation pad of claim 1 (25 in FIG. 7)
The calcaneus is installed at a position corresponding to the heel of the foot on the upper surface of the base part (32 in FIG. 7) according to claim 1, and is fixed so that the calcaneus is inserted into the ⊂ shape from the toe direction. It is a pad for stabilizing or fixing the talus or the like on the bone, and has the function and effect of securing the starting point of the flexible "three arches" from the ankle to the tip of the toe.
In addition, the streamlined calcaneal fixation pad (26 in FIG. 7)
It is installed at a position near the calcaneus at a position corresponding to the arch of the foot (including the inside step and the outside step) on the upper surface of the base of claim 1, and prevents the calcaneus from slipping forward during walking or the like. In addition to having the function of a wedge, it is possible to prevent the calcaneus from sliding in the toe direction more firmly by overlapping one end thereof with a U-shaped calcaneal fixation pad and fixing it (dotted lines 25 and 26 in FIG. 7). In addition, when the front part of the calcaneus is depressed downward due to insufficient leg strength or the like, the front part of the calcaneus is supported from below by the streamlined calcaneal fixation pad, causing the entire calcaneus. The function of attracting the metatarsal head and the metatarsal head of the fifth toe to the calcaneus occurs, so that the "three arches" connecting 20 and 21 and 22 in FIG. 1 can be constructed without imitating the Western method. And has an effect.
In addition, since this streamlined calcaneal fixation pad indirectly presses the plantar artery inside the arch during walking, there is also an effect of improving blood circulation of the lower limb.
The metatarsal pad of claim 1 (23 in FIG. 7)
The second toe and the third toe from an intermediate point of a straight line connecting the metatarsal head of the first toe (the base of the thumb) and the metatarsal head of the fifth toe (the base of the little finger) on the upper surface of the base of claim 1. An elliptical, waterdrop-shaped, or polygonal pad whose center is located within a radius of 50 mm toward the fingertip of the toe, and the first toe inevitable from Japanese lifestyle and footwear culture Prevent the reverse arch phenomenon of the toe connecting the metatarsal head and the metatarsal head of the fifth toe (the downward curve connecting 21 and 22 in FIG. 4), and put the foot into the shoes from a solid state (spreading feet / flat feet) In this case, it has the function and effect of restoring the arch of the toe connecting the head of the first metatarsal and the head of the fifth metatarsal.
By combining the base having a seismic isolation function with the U-shaped calcaneal fixation pad, the streamlined calcaneal fixation pad, and the metatarsal pad, a flexible and stable feeling can be obtained simply by wearing shoes from the ankle to the toe. One arch "can be constructed, and a stable and comfortable walking can be realized in which the movement of the human body during walking or the like is reduced and the stress of the brain caused by walking is reduced.
Next, the backskin made of edible pork buckskin by the vegetable tannin tanning according to claim 2,
The U-shaped calcaneal fixation pad, the streamlined calcaneal fixation pad, and the metatarsal pad according to claim 1 are fixed at predetermined positions on the upper surface of the base having seismic isolation function according to claim 1, respectively. Or, by further providing a padding part, the effective positions of the U-shaped calcaneal fixation pad, the streamlined calcaneal fixation pad and the metatarsal pad, the weight shift during walking and exercise, the change in foot pressure, the foot It functions as a recording sheet that collects a variety of continuous data such as finger movements and body balance.Based on this data, it is possible to improve daily walking and motor functions and change postures due to psychological effects. It has functions and effects to improve and increase the efficiency of walking exercise effect.
In addition, leather made from vegetable tannins contains a large amount of tannins and catechins, which has the function and effect of suppressing the growth and odor of various bacteria in shoes, and the backskin has a high friction coefficient. When the base having the seismic isolation function according to claim 1 receives the pressure due to walking, only the pressurized portion is instantaneously recessed, and the walking energy is transmitted to the ground without waste. And the effect of reducing fatigue caused by walking can be obtained.
In addition, the pigskin backskin is in a brushed state, so it absorbs sweat from the soles of the feet well, and after taking off the shoes, the brushed surface comes into contact with the air to promote drying, keeping the environment inside the shoes comfortable It also has the function and effect of improving the blood circulation of the lower limbs by massaging the sole of the foot with the base integrated with the seismic isolation function.
The balancer according to claim 3 is
Combined with the insole having the seismic isolation function according to claim 1, when walking due to the seismic damping action by the law of inertia accompanying the flow of the fluid or powder having fluidity enclosed in a deformable sealed container.・ It has the function and effect of recovering the body sway more easily and quickly due to the imbalance of the center of gravity of the human body during exercise, and at the same time, as a `` weight '' for improving the exercise function and making it easier to balance the body, or It has functions and effects such as expansion of the movable range of the upper limb and lower limb by the principle of the pendulum.
In particular, by combining the insole with the seismic isolation function according to the first aspect and the balancer according to the third aspect, the two complement each other, and the energy of body sway (fluctuation) inevitably caused by bipedal walking. It is easy to generate a joint alignment (alignment) of the whole body from the feet by using the movement of the body while absorbing the sway, and the skeletal distortion caused by the lifestyle and the pelvis distortion due to psychological effects are sustained In addition to creating balanced skeletons and muscles, not only reduce brain tension and stress during walking and exercise, but also reduce muscle strength etc. It has the effect of significantly improving walking and motor function for elderly people who cannot be taken or those who have difficulty in maintaining physical balance due to impairment of the brain, upper limbs and lower limbs.
The present invention is aimed at reducing the problems of legs and hips that many people are facing, improving health by walking, preventing lifestyle-related diseases by walking properly, and reducing the expenditures on various health insurance and household The present invention has an extremely wide range of public interests, including the reduction of medical expenses in Japan, the reduction of care costs associated with raising the age of walking in Japan, and the expansion of various types of consumption associated with the creation of opportunities for the elderly to go out. This is a novel technology for "general health promotion from the feet" with great economic ripple effect, and it is possible to improve many troubles as follows.
(1) Since this technology focuses on the uniqueness of Japanese footwear culture and the like, the effects of preventing hallux valgus and low back pain and improving walking and posture in Japan are remarkable.
In particular, for the hallux valgus, by correcting the distortion of the pelvis, the biased foot pressure applied to the thumb ball and the little ball can be reduced, and the pain in this portion can be reduced and the progression of the hallux valgus and the like can be prevented.
In addition, it is effective in preventing and improving remarkable decrease in leg strength caused by giving priority to a fashion called “konjak foot”, and chronic decrease in leg strength due to an increase in generations that avoid walking and increase generations that accept walking as stress.
(2) Since the thickness of the insole is 10 mm to 25 mm, correction of the leg length difference requires only cutting the heel portion of the insole, and it is easy and inexpensive to improve posture, improve walking function, and improve O-legs and X-legs. This reduces the load and impact on each joint.
(3) The seismic isolation insole can reduce brain stress during walking, enhance the health maintenance and promotion effect of walking, and prevent and improve lifestyle-related diseases.
(4) It has the effect of improving coldness and "swelling" and "numbness" of the feet due to the massage effect on the soles of the feet, and improving fish eyes and octopus that can be formed on the feet.
(5) It is possible to disperse the load on specific joints by the seismic isolation (vibration isolation) function, such as to reduce impact on deformed parts such as rheumatism, hip joints, and knee joints.
(6) It is effective in improving troubles such as leg and knee pain caused by the working environment of nurses, meter readers such as electric gas water supply, courier drivers, and the like.
(7) It is possible to improve changes in walking characteristics due to psychological causes.
(8) Improving teeth meshing, expanding the vocal range of musical persons, and improving breathing.
(9) Correcting sports athletes' forms and improving back pain, knee pain, etc.
(10) Improve the attitude of children, children and students during the growth period, and improve "hikikomori" and school refusal.
(11) Reduce the time and economic burden of visiting a physician, decrease leg strength associated with hospitalization, avoid various infectious diseases associated with hospital-acquired infections and blood transfusions, and avoid various risks caused by malpractice and medical morals. Reducing pain and costs in post-operative rehabilitation and post-operative rehabilitation.
(12) Reduce useless health claims by disseminating Japan-specific seismic isolation insoles instead of expensive German orthopedic shoes or soles (plant soles), which were denied the effect of improving walking by the shoe medical association. (13) The present invention eliminates the imbalance in the center of gravity during walking caused by using prostheses and orthoses to assist walking. Can be improved quickly and inexpensively.
(14) The insole is processed in about 10 minutes, and the shoes and insole can be returned by the user on the spot.

About the best mode for carrying out the present invention,
FIGS. 5 and 7 show a combination of a base-isolated insole having the features of claim 1, a buckskin-made bedding skin of edible pork by vegetable tanning having the features of claim 2, and a balancer having the features of claim 3. It will be described based on the above.
The base having a seismic isolation function (32 in FIG. 7) has a length of 100 mm to 300 mm, a width of 40 mm to 130 mm, a thickness of 5 mm to 25 mm, and a hardness of 30 to 60 mm. It has the shape of an insole made of high-density closed-cell foam resin or porous silicon resin, etc., which has elasticity, and uses the seismic isolation structure in architecture to inherently shake the human body during walking and exercise (fluctuation). Is supported from the feet (32 in FIGS. 5 and 7). The U-shaped calcaneal fixation pad of claim 1 (25 in FIG. 7) is installed at a position corresponding to the heel of the foot on the upper surface of the base of claim 1, and holds the calcaneus in a ⊂ shape from the toe direction. A pad for stabilizing and fixing the calcaneus and the talus above the calcaneus, which are made of a high-density independent foamed resin or a porous silicon resin having a resiliency of 30 to 60 and fixed so as to fit into the ankle. And the starting point of the "three arches" constructed from the toe to the toe. Further, the streamlined calcaneal fixation pad (26 in FIG. 7) is installed at a position near the calcaneus at a position corresponding to the arch of the foot on the upper surface of the base of claim 1, and has elasticity of hardness 30 to 60. It has a wedge function of preventing the calcaneus from sliding forward during walking or the like made of high-density independent foamed resin, porous silicon resin, or the like, and one end thereof is overlapped with a U-shaped calcaneal fixation pad (25 in FIG. 7). And 26) to prevent the calcaneus from sliding toward the toe, and to indirectly press the plantar artery on the arch during walking to improve blood circulation in the lower limb. Has the effect of preventing the calcaneus itself from leaning forward, thereby providing an arch at the toe connecting the calcaneus, the head of the first toe metatarsal and the head of the fifth toe metatarsus (connecting 21 and 22 in FIG. 5). Resurrect the upper curve) And elephants.
A hardness of 30 to 60 whose center is located within a radius of 50 mm in the direction of the toe from the midpoint of the straight line connecting the metatarsal head of the first toe and the metatarsal head of the fifth toe on the upper surface of the base. An elliptical, waterdrop-shaped, or polygonal metatarsal pad (23 in FIGS. 5 and 7) made of elastic high-density closed-cell resin or porous silicon resin has a toe arch with a lower figure in FIG. The U-shaped calcaneal fixation pad, the streamlined calcaneal fixation pad and the metatarsal pad are fixed in place, and the vegetable tannin is tanned in a form that covers it. The buckwheat skin of edible pork is provided as a shoe skin.
In the prior art, as a method of fixing the calcaneus, a U-shaped calcaneal fixing pad was fixed in a ⊃ shape from the back of the heel toward the toe (state 24 in FIG. 6). 7 and fixed with an adhesive or the like from the toe side to the heel as shown in FIG.
By doing so, the calcaneus does not slip back and forth and right and left in the shoe, and stability when landing from the heel is improved.
In addition, this method of fixing the calcaneus is particularly effective when the calcaneus and talus tend to move due to sedentary habits or a decrease in leg strength (FIG. 8), or when the foot is likely to slip forward in shoes such as high heels. It has the function of restoring "three arches" by pushing up the so-called flat foot skeleton from the sole of the foot.
Compare the Western "Three Arch Theory" (FIG. 1) with FIG. 5 of the present invention.
The three base points in the Western “Three Arch Theory” (FIG. 1) are the lowest point of the calcaneus (20 in FIG. 1), the base of the big toe (first toe), and the foot. Of the middle finger of the metatarsus of the arch and the third toe is expanded by about 6 mm to form "three arches".
On the other hand, in the present invention (FIG. 7), the metatarsal pad (23) is added to the base having the seismic isolation function, and furthermore, 25 and 26 of FIG. 7 are combined.
The measuring method for specifying the center of 23 in FIGS. 5 and 7 is as follows.
First, a foot wearing bare feet or socks or a foot whose foot shape has been corrected with tape or the like is directly placed on the upper surface of the base having the seismic isolation function (upper figure in FIG. 5), and the lowest point of the calcaneus (20 in FIG. 5) Touch the base of the thumb (first toe) of the toe (the ball of the forefoot) (21 in FIG. 5) and the base of the little finger of the foot (the metatarsal head of the fifth toe) with your finger to search for or confirm with your eyes Or use a 3D scanner foot-type measuring instrument to mark the side of the base of the base-isolated material.
Next, the mark of 21 of FIG. 5 and the mark of 22 of FIG. 5 are connected with a straight line, and an ellipse, a water drop or a polygon is formed so that its center is located within a radius of 50 mm from the midpoint toward the toe. Secure the metatarsal pad.
The shape, area, position, thickness, hardness, etc. of this pad are individually adjusted according to the walking characteristics.
In particular, the base with seismic isolation function is made of high-density foam resin and porous material with various properties so that the hardness can be selected according to the age, weight, skeleton, leg strength, walking characteristics, shoes use of the person wearing the insole Materials such as high quality silicon can be selected at appropriate times, or they can be combined.
Combining the base part with seismic isolation function, the U-shaped calcaneal fixation pad, the streamlined calcaneal fixation pad, and the metatarsal pad, is not a "mimicry" that is completely different from Western-style walking theory. It is possible to easily construct the ideal “three arches” (the upper diagram in FIG. 5) by a unique method. Furthermore, a U-shaped calcaneal fixation pad, a streamlined calcaneal fixation pad and a U-shaped calcaneal fixation pad are attached by attaching a backskin made of edible pork backskin by vegetable tanning having the characteristics of claim 2 to the upper surface of the base having seismic isolation function The effective position of the metatarsal pad, the weight shift during walking and exercise, the change in foot pressure, the movement of the toes, the balance of the body, etc. It plays a role, improves daily walking and motor functions and changes in posture due to psychological effects, etc., based on these live records of walking, and makes it possible to increase the efficiency of the walking exercise effect.
Further, by combining a balancer in which a fluid or powder having fluidity having the characteristics of claim 3 is sealed in a closed container and an insulated insole having the characteristics of claim 1, the center of gravity of the human body during walking or exercise can be adjusted. Performs a vibration control function to restore balance more easily and quickly, improves the motor function by the law of inertia associated with the flow of liquids and powders, and as a `` weight '' to help balance the body, or as a pendulum The movable range of the upper limb and the lower limb can be expanded by the principle of the above.
The balancer according to claim 3,
Combined with the insole having the seismic isolation function according to claim 1, when walking due to the seismic damping action by the law of inertia accompanying the flow of the fluid or powder having fluidity enclosed in a deformable sealed container.・ It has the function and effect of recovering the body sway more easily and quickly due to the imbalance of the center of gravity of the human body during exercise, and at the same time, as a `` weight '' for improving the exercise function and making it easier to balance the body, or It has functions and effects such as expansion of the movable range of the upper limb and lower limb by the principle of the pendulum.
Originally, the human body inherently has a balance maintaining function when standing upright or when walking on two legs, and its body structure also has a structure in which the energy of shaking is absorbed by the skeleton and muscles.
In addition, the human body quickly recovers from the imbalance of the center of gravity of the body by moving the shaking during walking or exercise by moving the upper limb, lower limb, waist, or head back and forth and left and right. The seismic isolation insole having the features of claim 1 supports and balances the equilibrium function of the human body from the feet. In this case, when a specific joint or muscle is difficult to function due to, for example, a fracture or deformation of a joint of a foot, The balancer function is achieved by fixing an elastic container containing liquid or powder and a small amount of gas with a liquid or powder on the upper limb, shoulder, or head, which is located generally on the diagonal line of the difficult part, using a hook-and-loop fastener. (FIG. 10).
This makes it easier for the human body to maintain a balance when walking or exercising, and makes it easier to combine the insole with seismic isolation (vibration isolation) structure with the natural damping function inherent in the human body to improve the walking function and It improves and improves motor function.
In particular, by combining the insole with the seismic isolation function according to claim 1 and the balancer according to claim 3, the two complement each other, and the edible pig by the vegetable tannin tanning having the feature of claim 2. By installing the backskin of the backskin as a recording sheet for continuous movement called walking, we can grasp the body sway (fluctuation) that occurs inevitably due to bipedal walking, and synergize the brain with a flexible body and seismic isolation insole. While absorbing the energy of the sway by the effect, using the sway of the body, it is easy to generate the alignment of the whole body from the feet (alignment), the skeletal distortion caused in the lifestyle and the pelvis due to psychological effects The function and effect of continuously improving distortion and the like are created, which not only forms a balanced skeleton and muscles, but also reduces the tension and stress of the brain during walking and exercise. For elderly people who cannot maintain a sufficient balance with the brain alone due to weakness of muscles, etc., or those who have difficulty in keeping balance of the body due to disorders in the brain, upper limbs, etc., it is possible to greatly improve walking and motor function .

It is a conceptual diagram of a German style and Western style "three arch theory". It is a conceptual diagram of the seismic isolation theory which controls the sway of the stick while balancing the stick placed on the hand. It is a conceptual diagram of the seismic isolation structure of a high-rise building resistant to an earthquake. It is the schematic of the insole | sole of shoes based on a German style and Western "the three arch theory". It is the schematic diagram which showed the position which fixes the U-shaped calcaneus fixation pad on the upper surface of the base part which has a seismic isolation function. It is the figure which showed the fixation method of the calcaneus fixation pad in the conventional Western-style and German style insole. It is the bird's-eye view which showed the arrangement | positioning relationship of the U-shaped calcaneal fixation pad, the streamline type calcaneus fixation pad, and the metatarsal pad on the upper surface of the base part which has a seismic isolation function. It is a bird's-eye view which showed the arrangement | positioning part of the U-shaped calcaneal fixation pad, the streamline type calcaneal fixation pad, and the metatarsal pad to the pump which can store the seismic isolation insole. It is an upper part (toe) sectional drawing of shoes which can store the insole of shoes which have a seismic isolation function. It is the schematic of the balancer which enclosed the liquid with fluidity.

Explanation of reference numerals

Is the lowest point of the calcaneus.

Is the lowest point of the toe ball (first metatarsal head).

Is the lowest point of the little finger (the metatarsal head of the fifth finger).

Is a metatarsal pad.

Is a conventional U-shaped heel bone fixing pad fixing method.

Is a method for fixing a U-shaped calcaneal fixing pad according to claim 1.

Is a streamlined calcaneal fixation pad that prevents the calcaneus from sliding forward and improves blood flow in the sole

Is a sealed container of the balancer according to claim 3, wherein a fluid or powder having fluidity is sealed.

A liquid having a fluidity or the like is sealed in a sealed container of the balancer according to claim 3, and there are bubbles and gaps in the container.

Is a belt for fixing the balancer according to claim 3 to any part of the body

Is a hook-and-loop fastener for fixing the balancer according to claim 3 to any part of the body

Is an example of the use of seismic isolation materials in architecture

A base part having a seismic isolation function having an insole shape of the shoe according to claim 1.

It is a sole in a cross-sectional view of the upper part (toe) of shoes.

It is the upper in the cross section of the upper part (toe) of shoes.

It is an insole of shoes using edible pork backskin with vegetable tannin tanning

It is the foundation of the seismic isolation structure of a high-rise building that is resistant to earthquakes

Claims (4)

Various gait improvement effects such as gait improvement by alignment of joints or skeleton and correction of pelvic distortion due to psychological effects are realized, and shoes applying seismic isolation (vibration isolation) structure in architecture to maintain these effects. Insole of shoes and insole of shoes to assist the vibration control function inherent in the human body or brain from the feet The joint alignment during standing or walking / exercising is assisted by the insole with a seismic isolation (vibration isolation) structure to maintain its effect, and the vibration control (natural) provided by the human body and brain In order to assist the function and maintain the balance of the body easily, a liquid or the like having fluidity is sealed and fixed to a part of the body. Thus, the invention of a balancer or a stabilizer that can easily and quickly recover the imbalance of the center of gravity of the human body by utilizing the function as a “weight” for balancing inertia and the flow due to the flow of the liquid or the like. U for preventing slippage of the foot in the direction of the toe when wearing shoes, enhancing stability of the calcaneus at the time of landing, and absorbing useless rolling generated from the insole itself having a seismic isolation (isolation) function. Of a U-shaped calcaneal fixation pad The movement of the skeleton and toes during continuous motion such as walking can be grasped by applying a material that easily leaves traces of dirt due to foot pressure or friction such as toes on the surface of the insole with seismic isolation (vibration isolation) function Devise shoes insole made of pork leather for meat by tanning tanning, which can be used as a clue to correct the joint alignment etc.

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