CN101583293A - Shoes with elasticity enhancing structure for promoting secretion of growth hormone and enhancing performance - Google Patents

Abstract

The present invention discloses shoes capable of promoting the secretion of a growth hormone by transferring stimulation to feet, absorbing or minimizing shock transferred to foot-soles, and restoring their original shapes within a short time after eliminating an external force. A shoe according to the present invention comprises a main body portion for accommodating a foot of a user; a bottom portion formed integrally with the main body portion and including a bottom sole and a midsole integrally formed on the bottom sole; and an elasticity enhancing structure installed inside of the midsole of the bottom portion. The elasticity enhancing structure may be installed inside of the midsole corresponding to a heel of the user. The elasticity enhancing structure may be divided into a plurality of unit structures and installed throughout the entire region of the midsole, or has a size corresponding to the entire region of the midsole. Here, the elasticity enhancing structure may comprise a base having a predetermined volume and a restoring member mounted inside of the base. Further, the elasticity enhancing structure may comprise a base having a predetermined volume, and upper and lower restoring members mounted at upper and lower portions inside of the base at a predetermined interval. An elasticity enhancing structure with another configuration may comprise a base having a predetermined volume and one or more space portions defined inside of the base. A restoring member may be arranged above or below the space portion. In addition, two restoring members may be arranged above and below the space portion, respectively.

Description

Be used to promote the shoes with elasticity enhancing structure of growth hormone secretion and reinforcing property

Technical field

The present invention relates to shoes, more specifically, relate to the shoes that can promote growth hormone secretion, absorption and dispersion to impact, obtain strong reaction force.

Background technology

Substantially, Ren Lei growth means that the overall size of health or breeding and the growth of height by cell increase.Especially, Ren Lei height increases because of the cell division of growth hormone secretion effect or growth dish (growth plate).

When neuronic stimulation because of such as motion, anxiety, pressure, when powerful factors such as physics dynamics enter hypothalamus, produce the growth hormone relevant with human growth in stature.The release of the IGF (IGF) that growth hormone not only promotes is synthetic to protein, bone growth and cell proliferation play an important role, and stimulate IGF synthetic in other cells and discharge, thereby the process of influence growth.

One of intense stimulus that promotes growth hormone secretion is motion.By intensity, the duration and periodic associated of kinetic growth hormone secretion and motion.Especially, along with exercise intensity continues to increase, promoted growth hormone secretion.

Thereby, under the situation of walking or running, should increase the dynamics and the amount of the impact that is applied to human body from ground, maybe should be beneficial to the performance of physics dynamics, to promote growth hormone secretion.

In addition, the growth of height is mainly grown by the cell division in the growth dish owing to bone.This be because, height is limited by the bone that piles up each other of human body, the organ beyond the bone influences height hardly.

The growth of bone mainly takes place in the growth dish.At this, the growth dish refers to newly produce the position of bone, is usually located at the upper and lower of long bone (elongated bone), thereby makes the two-way growth of bone.Like this, when the growth dish was stimulated by the artificial physical means beyond stimulating naturally, the growth dish carried out cell division energetically, increases height thereupon.

The stimulation of above-mentioned growth dish or the promotion of growth hormone secretion can obtain by using gravity or moving both vertically of body weight---such as jump, rope skipping, basketball or the like---, also can cause by particular tool or method artificially in daily life.

Therefore, in walking or motion, stimulation can be delivered to pin via shoes, with promotion growth hormone secretion and stimulating growth dish, thereby increases height.For this reason, preferably, the privileged site of shoes, for example the sole member that contacts with sole has the hardness above predetermined value.And preferably, load is delivered to human body with the reaction force that surpasses predetermined value.

Simultaneously, one of major function of shoes is absorption or is minimized in the impact that is delivered to sole between walking or moving period.Prevent that so preferably the user who is wearing these shoes is hindered by impact.

Summary of the invention

Technical problem

A target of the present invention provides such shoes, its can: promote growth hormone secretion by in walking or motion, stimulating to the pin transmission; Absorb or minimize the impact that is delivered to sole; And after eliminating external force, recover its original-shape at short notice by the elasticity of brilliance.

Technical scheme

According to the one side that is used to realize this target of the present invention, a kind of shoes are provided, it comprises: main part, it is used to hold user's pin; And bottom, itself and main part integral body form, and wherein the rear feet corresponding to user's heel of bottom has the hardness of 66 to 85 degree when by the SRIS 0101 Asker C type hardness tester instrumentation amount of Japan rubber industry ANSI (Japansociety of rubber industry standard).

According to a further aspect in the invention, provide a kind of shoes, it comprises: main part, and it is used to hold user's pin; The bottom, itself and main part are whole to be formed, and comprises and go to the bottom and be integrally formed in the middle end on going to the bottom; And elasticity enhancing structure, it is installed at the middle end of bottom.

Elasticity enhancing structure can be installed in corresponding to user's heel at middle the end.Elasticity enhancing structure can be divided into a plurality of cellular constructions and be installed in the whole zone at the middle end, or has the size corresponding to the whole zone at the middle end.

At this, elasticity enhancing structure can comprise the matrix with predetermined, and is installed in the restoring component in this matrix.In addition, elasticity enhancing structure can comprise the matrix with predetermined, and the last restoring component and the following restoring component that are installed in the upper and lower in this matrix with predetermined space.

Elasticity enhancing structure with another kind of structure can comprise the matrix with predetermined, and is limited to the one or more spatial portions in this matrix.Restoring component can be positioned in spatial portion above or below.In addition, two restoring components can be positioned in the above and below of spatial portion respectively.

Simultaneously, spatial portion can form on the length of matrix and width arbitrary.

Preferably, when by the K6301 A of Japanese Industrial Standards (JIS) type hardness tester instrumentation amount, have the hardness of 45 to 60 degree, and have 60% to 80% elastic modelling quantity according to the elasticity enhancing structure that comprises in the shoes of the present invention.

In order to satisfy aforementioned condition, matrix is made by the arbitrary of natural rubber, natural rubber compound and polybutadiene rubber, and restoring component is made by the arbitrary of glass fibre that scribbles fibrous glass Teflon and carbon fiber.

Beneficial effect

According to shoes of the present invention, being installed in the pin transmission to the user in walking or motion of rear feet or the elasticity enhancing structure with enough hardness at the middle end stimulates, thereby promotes growth hormone secretion.

Simultaneously, absorb or minimize the impact that is delivered to sole from ground according to the remarkable flexible elasticity enhancing structure of having of shoes of the present invention, thereby prevent that the user is injured.In addition, after eliminating external force, elasticity enhancing structure is recovered original-shape at short notice, thereby generates strong reaction force.Such reaction force is passed to pin, thereby promotes growth hormone secretion.

In addition, the strong elastic force of elasticity enhancing structure has improved in high jump and the performance in running.

Description of drawings

Fig. 1 is the stereogram according to shoes of the present invention;

Fig. 2 is the chart that the growth hormone activity when the growth hormone activity (activity) during according to the shoes of first embodiment of the present invention and user wear conventional shoe to user dress compares;

Fig. 3 is that it shows the structure according to the shoes of second embodiment of the present invention corresponding to the detailed view at the position of the position A of Fig. 1;

Fig. 4 is the stereogram of the elasticity enhancing structure of Fig. 3;

Fig. 5 is the cutaway view along the line B-B intercepting of Fig. 4 (Fig. 3); And

Fig. 6 to 14 is the cutaway views corresponding to Fig. 5, and it shows the elasticity enhancing structure of various embodiments of the present invention.

The specific embodiment

After this, describe in detail with reference to the accompanying drawings according to shoes of the present invention.

Fig. 1 is the stereogram according to shoes of the present invention.

In shoes 100 according to first embodiment of the present invention, the average hardness scope of bottom 120 rear feet of user's heel---preferably corresponding to---is 66 to 85 degree, and this is that SRIS 0101 Asker C type hardness tester instrumentation by Japan rubber industry ANSI gets.

The bottom 120 of shoes 100 comprise go to the bottom, with go to the bottom integrally formed in the end 122 and be arranged in the end at the end 122.Yet the middle end 122, absorb the impact that great majority are applied to shoes 100.Thereby preferably, the middle end 122---particularly rear feet---has the hardness of aforementioned range.

When the user wears shoes 100 walkings, when running or moving, has the bottom 120 stimulation users' of aforementioned hardness rear feet.Therefore, the growth dish of pin, lower leg area and femoral region is stimulated, to promote growth hormone secretion.

As mentioned above, have the hardness of 66 to 85 degree in order to make bottom 120 rear feet, preferably, the hardness control member that is used for easily controlling hardness is installed in the rear feet at the end 122.

The hardness control member can be made by the arbitrary of rubber, polyurethane, phylon, silicones and analog, but is not limited to these.That is, the hardness control member can be made by any materials, as long as this material transfer stimulates and have the elasticity of brilliance.Preferably, the hardness control member has the size corresponding to the rear feet at the middle end 122.

When the hardness control member was installed in the rear feet of bottom 120 of shoes 100, the stimulation that applies via shoes 100 was passed to user's rear feet, thereby promotes growth hormone secretion and stimulating growth dish.The result is to be beneficial to the cell division in the growth dish, thereby to have quickened the growth of bone.

Done following experiment, to measure the active degree of the growth hormone secretion that causes by shoes according to above-mentioned embodiment.

Carried out the experiment that growth hormone that the shoes rear feet by average hardness causes produces at 20 objects (55 ± 2kg:7 people, 60 ± 1kg:6 people, 65 ± 1kg:6 people).

Particularly, every kind of shoes of this 20 object dresses each one day and the 2.4km that jogs, wherein the rear feet of the bottom of these shoes has the hardness of 46 to 55 degree, 56 to 65 degree, 66 to 75 degree and 76 to 85 degree, and this is (after this being called " hardness ") that the SRIS 0101 AskerC type hardness tester instrumentation by Japan rubber industry ANSI gets.

Before motion to this 20 objects blood sampling, measuring normal growth hormone generation, and jogging after to they blood samplings, the growth hormone secretion amount that causes by the hardness of shoes with measurement.

* 41 adopt blood analyze according to the 1RMA test of using reagent D iagnostic Use GH Kit by Green Cross Medical Corporation.The blood analysis result is shown in the chart of Fig. 2.

In the object of shoes of wearing the average hardness that rear feet has 46 to 55 degree, the object of 55kg has the average growth hormone of 10.7ng/ml, the object of 60kg has the average growth hormone of 9.2ng/ml, and the object of 65kg has the average growth hormone of 7.1ng/ml.Weighted average is 9.0ng/ml.

In the object of shoes of wearing the average hardness that rear feet has 56 to 65 degree, the object of 55kg has the average growth hormone of 15.5ng/ml, the object of 60kg has the average growth hormone of 9.9ng/ml, and the object of 65kg has the average growth hormone of 19.9ng/ml.Weighted average is 15.1ng/ml.

In the object of shoes of wearing the average hardness that rear feet has 66 to 75 degree, the object of 55kg has the average growth hormone of 36.6ng/ml, the object of 60kg has the average growth hormone of 36.2ng/ml, and the object of 65kg has the average growth hormone of 32.9ng/ml.Weighted average is 35.2ng/ml.

In the object of shoes of wearing the average hardness that rear feet has 76 to 85 degree, the object of 55kg has the average growth hormone of 43.1ng/ml, the object of 60kg has the average growth hormone of 24.1ng/ml, and the object of 65kg has the average growth hormone of 28.9ng/ml.Weighted average is 32.0ng/ml.

According to The above results, to compare with the conventional shoe of improving the dress impression with the average hardness below the bottom has 60 to 65 degree, the shoes that rear feet has the average hardness of 66 to 85 degree have produced the raised growth hormone.

Simultaneously, when rear feet had the hardness that surpasses 86 degree, object was because of the excessive hardness 2.4km that can not jog.So just can not obtain experimental result.

After this, with the shoes of describing according to second embodiment of the present invention.

Fig. 3 is the detailed view corresponding to the position of the position A of Fig. 1.As shoes according to first embodiment, according to the shoes 100 of second embodiment of the present invention comprise main part 110 and with main part 110 integrally formed bottoms 120.Main part 110 defines the space of the pin that is used to hold the user, and bottom 120 is the members that contact with user's sole.

Shoes 100 according to second embodiment of the present invention also comprise elasticity enhancing structure 130, and, the middle end 122 was composition members of bottom 120 at the end 122 during it was installed in.

In Fig. 3, during single elasticity enhancing structure 130 is positioned in the zone zone of user's heel (promptly corresponding to) at the end 122.Yet, the invention is not restricted to this.

That is, a plurality of elasticity enhancing structure can be positioned in the whole zone at the middle end 122 with predetermined space, or single elasticity enhancing structure 130 can be positioned in the whole zone at the middle end 122.

When the user wore shoes 100 walkings or runs, elasticity enhancing structure 130 was not only secreted to cause growth hormone the most actively to user's pin transmission load, and absorption is applied to the impact of shoes 100 so that it is not delivered to user's pin.After this, the structure of elasticity enhancing structure 130 will be explained.

Fig. 4 is the stereogram of the elasticity enhancing structure 130 of Fig. 3, and Fig. 5 is that wherein the restoring component 132 and 133 of Fig. 5 is not shown in Fig. 4 along the cutaway view of the line B-B intercepting of Fig. 4.

According to one of composition member of shoes 100 of the present invention, elasticity enhancing structure 130 comprises the matrix 131 with predetermined, and is installed in the one or more restoring components 132 and 133 in the matrix 131.

To the matrix 131 of elasticity enhancing structure 130 and the structure and the attribute of restoring component 132 and 133 be described.

Matrix 131

Matrix 131 is made by the material with high elastic modulus (40% to 90%), for example, and natural rubber, polybutadiene rubber or silicones.A plurality of spatial portions 134 are limited at wherein.

In Fig. 3, four spatial portions 134 with predetermined length are formed on the width of matrix 131, but the invention is not restricted to this.

That is, spatial portion 134 numbers are not limit, and can be formed on the length direction (being the length direction of footwear) of matrix 131.In addition, spatial portion 134 can two ends by shutoff, rather than penetrate matrix 131.

In having the shoes of above-mentioned structure, matrix 131 main absorptions are applied to the impact of shoes, and the spatial portion 134 that is limited in the matrix 131 causes that by impact distortion absorbs impact with secondary, thereby alleviates the impact that is applied to user's pin greatly.

In addition, spatial portion 134 is applied to the external force deformation of these shoes, and recovers original-shape after external force is eliminated.Like this, elasticity enhancing structure 130 has remarkable elasticity.

At this, preferably, the thickness range of matrix 131 is 6 to 10mm, and the height of each spatial portion 134 (diameter) is about 3mm.Yet obviously, the height of the thickness of matrix 131 and spatial portion 134 should be determined according to the overall size of shoes.

Restoring component 132 and 133

Elasticity enhancing structure 130 also comprises the restoring component 132 and 133 that is positioned in the matrix 131.Restoring component 132 and 133 can---for example scribble glass fibre, glassfiber composite, carbon fiber or the carbon fiber composite of fibrous glass Teflon---by the material that can recover original-shape as early as possible and make, and can form sheet or netted.

The restoring component of being made by previous materials 132 and 133 has disperseed to concentrate on the external force of specific region, concentrates on the specific region of pin to prevent stress.In addition, be applied in elasticity enhancing structure 130 under the situation of external force deformation of shoes, elasticity enhancing structure 130 is recovered original-shape at short notice because of the remarkable recuperability of restoring component 132 and 133.

Simultaneously, with reference to Figure 4 and 5, two restoring components are promptly gone up restoring component 132 and following restoring component 133, be positioned in the upper and lower of matrix 131 respectively, and four spatial portions 134 are formed between restoring component 132 and the following restoring component 133.Yet, the invention is not restricted to this structure.

For example, spatial portion 134 can not be formed in the matrix 131, single restoring component 132 or 133 can be positioned in spatial portion 134 above or below.In addition, last restoring component 132 and following restoring component 133 can be positioned in the above and below of the matrix 131 of unqualified spatial portion 134 respectively.

In addition, at least one spatial portion 134 can be formed in the matrix 131, single restoring component 132 or 133 can optionally be positioned in spatial portion 134 above or below.

At this, be formed on spatial portions 134 in the matrix 131 of elasticity enhancing structure 130 and can form and has the tabular of predetermined plane district---as restoring component 132 or 133, and cylindric shown in the figure.

In the elasticity enhancing structure 130 of structure with Figure 4 and 5, high modulus material layer (matrix 131) is formed on its top and bottom, have the last restoring component 132 of remarkable recuperability and the upper and lower that following restoring component 133 is positioned in this high modulus material layer respectively, and, wherein be limited with the zone of high modulus material layer (matrix 131) between last restoring component 132 and following restoring component 133 of a plurality of spatial portions 134.

Thereby elasticity enhancing structure 130 alleviates the impact that is applied to user's pin by the impact that absorption is applied to shoes, and recovers original-shape rapidly by each element.The result is that the above-mentioned structure of elasticity enhancing structure 130 has improved the exercise performance of shoes, such as speed (quickness), elasticity or analog, thereby has strengthened propulsive force and jump power.

Simultaneously, elasticity enhancing structure 130 should have predetermined hardness and elasticity, and to reach target of the present invention, that is: promotion growth hormone secretion, absorption are applied to the impact of sole and recover original-shape rapidly after eliminating external force.

Preferably, the elasticity enhancing structure of using among the present invention 130 have 45 to 60 the degree hardness---this gets by JIS K6301 A type hardness tester instrumentation, and has 60 to 80% elastic modelling quantity in this hardness.

Elasticity enhancing structure 130 can minimize the load that is delivered to pin because of aforementioned physical characteristic, and maximization secretion of growth hormone process.

After this, the embodiment of elasticity enhancing structure 130 will be explained.

Embodiment

The sample of long 45mm, wide 70mm and high 7.5mm (matrix 131) is made by the polybutadiene rubber with high elastic modulus.Be limited with the spatial portion 134 of diameter 3mm in the matrix 131 of aforementioned dimensions alternatively, and be mounted with the netted restoring component of making by the glass fibre that scribbles fibrous glass Teflon alternatively.

In each embodiment, be placed in the number of spatial portion 134 in the matrix 131 of elasticity enhancing structure 130 and restoring component 132 and 133 and position shown in Fig. 5 to 14.

Embodiment 1: the elasticity enhancing structure (see figure 6) that comprises matrix 131 and be placed in the single restoring component 132 in the matrix 131.

Embodiment 2: comprise matrix 131, be placed in single restoring component 132 in the matrix 131 and the elasticity enhancing structure (see figure 7) that is limited to the single spatial portion 134 of restoring component 132 belows.

Embodiment 3: comprise matrix 131, be placed in single restoring component 132 in the matrix 131 and the elasticity enhancing structure (see figure 8) that is limited to two spatial portions 134 of restoring component 132 belows.

Embodiment 4: comprise matrix 131, be placed in single restoring component 132 in the matrix 131 and the elasticity enhancing structure (see figure 9) that is limited to three spatial portions 134 of restoring component 132 belows.

Embodiment 5: comprise matrix 131, be placed in single restoring component 132 in the matrix 131 and the elasticity enhancing structure (see figure 10) that is limited to four spatial portions 134 of restoring component 132 belows.

Embodiment 6: comprise matrix 131 and be placed in two restoring components 132 in the matrix 131 and 133 elasticity enhancing structure (seeing Figure 11).

Embodiment 7: comprise matrix 131, be placed in two restoring components 132 and 133 and the elasticity enhancing structure (seeing Figure 12) that is limited to the single spatial portion 134 between restoring component 132 and 133 in the matrix 131.

Embodiment 8: comprise matrix 131, be placed in two restoring components 132 and 133 and the elasticity enhancing structure (seeing Figure 13) that is limited to two spatial portions 134 between restoring component 132 and 133 in the matrix 131.

Embodiment 9: comprise matrix 131, be placed in two restoring components 132 and 133 and the elasticity enhancing structure (seeing Figure 14) that is limited to three spatial portions 134 between restoring component 132 and 133 in the matrix 131.

Embodiment 10: comprise matrix 131, be placed in two restoring components 132 and 133 and the elasticity enhancing structure (see figure 5) that is limited to four spatial portions 134 between restoring component 132 and 133 in the matrix 131.

Hardness with each elasticity enhancing structure of above-mentioned structure gets by JIS K6301 A type hardness tester instrumentation, their elasticity is also recorded (via KSM 6518 standard testings, it is such experiment: pendular body is fallen to elastomer from maximum height, and pendular body is expressed as percentage by the elastomeric height that collides institute's resilience).

The consistency and elasticity modulus (%) of the elasticity enhancing structure of each embodiment is shown in table 1 and 2.

Table 1

Numbering	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5
						Hardness	50	52	50	50	51
Elastic modelling quantity	75	75	69	70	72

Table 2

Numbering	Embodiment 6	Embodiment 7	Embodiment 8	Embodiment 9	Embodiment 10
						Hardness	52	52	55	54	51
Elastic modelling quantity	64	62	65	66	65

Comparing embodiment

Use phylon (comparing embodiment 1,2 and 3), polyurethane (comparing embodiment 4), General Purpose Rubber (comparing embodiment 5) and natural rubber (comparing embodiment 6)---they are the materials that are used for forming the middle end of conventional shoe, and the sample of long 45mm, wide 70mm and high 7.5mm is made into the size identical with inventive embodiments respectively.

Different with the sample of inventive embodiments, do not form spatial portion and restoring component in the sample of comparing embodiment 1 to 6.

The hardness of the sample of comparing embodiment gets by JIS K6301 A type hardness tester instrumentation, and their elastic modelling quantity is recorded (via KSM 6518 standard testings).

The consistency and elasticity modulus (%) of the sample of each comparing embodiment is shown in the table 3.

Table 3

	Comparing embodiment 1	Comparing embodiment 2	Comparing embodiment 3	Comparing embodiment 4	Comparing embodiment 5	Comparing embodiment 6
							Hardness	32	38	38	34	91	69
Elastic modelling quantity	37	42	41	32	42	45

Learn that from last table the elasticity enhancing structure of embodiment 1 to 10 has frequently the more remarkable consistency and elasticity of common components than embodiment 1 to 4.

Especially, comparing embodiment 5 and 6 General Purpose Rubber and natural rubber have remarkable hardness, but have not good elasticity.Simultaneously, the elasticity enhancing structure of embodiment 1 to 10 has good consistency and elasticity.

The preferred embodiments of the invention have only been described for the purpose of illustration.Those skilled in the art can make various modifications, change within the spirit and scope of the present invention and replenish.All such modifications, change and replenishing all be believed to comprise of the present invention as the claims restricted portion in.

For example, in Fig. 1, sport footwear is illustrated as shoes according to the present invention.Yet, obviously, be applied to elasticity enhancing structure of the present invention and can be installed in all types of shoes, for example Men's Shoes, women's shoes, military footwear or analog.

Claims (18)

1. shoes, it comprises:

Main part, it is used to hold user's pin; With

The bottom, itself and main part integral body form,

Wherein the rear feet corresponding to user's heel of bottom has the hardness of 66 to 85 degree when by the SRIS 0101 Asker C type hardness tester instrumentation amount of Japan rubber industry ANSI.

2. the shoes of claim 1 also comprise the hardness control member of the rear feet at the middle end that is installed in the bottom.

3. the shoes of claim 2, wherein the hardness control member is made by the arbitrary of rubber, polyurethane, phylon and silicones.

4. shoes, it comprises:

Main part, it is used to hold user's pin;

The bottom, itself and main part are whole to be formed, and comprises and go to the bottom and be integrally formed in the middle end on going to the bottom; With

Elasticity enhancing structure, it is installed at the middle end of bottom.

5. the shoes of claim 4, during wherein elasticity enhancing structure is installed at the end corresponding to user's heel.

6. the shoes of claim 4, wherein elasticity enhancing structure be divided into a plurality of cellular constructions and be installed in in the whole zone at the end.

7. the shoes of claim 4, wherein elasticity enhancing structure has the size corresponding to the whole zone at the middle end.

8. the shoes of claim 4, wherein elasticity enhancing structure comprises the matrix with predetermined, and is installed in the restoring component in this matrix.

9. the shoes of claim 4, wherein elasticity enhancing structure comprises the matrix with predetermined, and the last restoring component and the following restoring component that are installed in the upper and lower in the matrix with predetermined space.

10. the shoes of claim 4, wherein elasticity enhancing structure comprises the matrix with predetermined, and is limited to the one or more spatial portions in this matrix.

11. the shoes of claim 10 also comprise the restoring component that is positioned in the spatial portion top.

12. the shoes of claim 10 also comprise the restoring component that is positioned in the spatial portion below.

13. the shoes of claim 10 also comprise the restoring component that is positioned in the spatial portion above and below respectively.

14. the shoes of claim 10, wherein spatial portion forms on the length of matrix and width arbitrary.

15. the shoes of each of claim 4 to 10, wherein elasticity enhancing structure is worked as the hardness that must be had 45 to 60 degree by the K6301 A of Japanese Industrial Standards (JIS) type hardness tester instrumentation, and has 60% to 80% elastic modelling quantity.

16. the shoes of each of claim 8 to 10, wherein matrix is made by natural rubber, natural rubber compound, polybutadiene rubber and the arbitrary of silicones.

17. the shoes of claim 8 or 9, wherein restoring component is made by the arbitrary of the glass fibre that scribbles fibrous glass Teflon, glassfiber composite, carbon fiber and carbon fiber composite.

18. the shoes of claim 8 or 9, wherein restoring component has sheet and netted arbitrary shape.

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