JP6518429B2 - Heel high by insole - Google Patents

Description

  The invention relates to a heel height-classified insole that can keep the 3 arches of a foot properly even if the heel height of a female shoe changes and the fifth metatarsal bone low of the foot does not hurt.

  High heels have the advantage of making the legs look beautiful and taller.

  On the other hand, the height of the heel determines the ratio of weight applied to the forefoot and the buttocks of the foot.

Generally, weight ratio applied to forefoot (%) = 4.93 × heel height (cm) +41.29
It is indicated by.

The load differs between when the load is applied to both feet and when the load is applied to one foot, but if the weight (kg) applied to the forefoot portion (one foot) with one foot is described as an example,
Weight applied to forefoot (one foot) (Kg) =
(Weight x 4.93 x Heel height (cm) + 41.29) ÷ 50
It is indicated by.

  Although the value differs depending on the lifestyle, for example, as shown in FIG. 25A, the ratio (%) applied to the foot when the shoe is not worn is 43% for the forefoot portion and 57% for the buttocks.

  On the other hand, when the heel of the shoe is 2 cm, as shown in FIG. 25 (b), the percentage (%) applied to the foot is 50% for the forefoot portion and 50% for the heel portion (FIG. a) see).

  When the heel of the shoe is 4 cm, as shown in FIG. 25C, the percentage (%) applied to the foot is 57% for the forefoot portion and 43% for the heel portion (see FIG. 25B) ).

  When the heel of the shoe is 6 cm, as shown in FIG. 25 (d), the ratio (%) applied to the foot is 75% at the forefoot and 25% at the heel (see FIG. 26 (c)).

  When the heel of the shoe is 10 cm, as shown in FIG. 25 (e), the ratio (%) applied to the foot is 90% at the forefoot and 10% at the heel (see FIG. 26 (d)).

  Therefore, as shown in FIGS. 26 (a) to 26 (d), as the heel of the shoe becomes higher, the contact area between the sole and the insole of the shoe decreases.

  That is, as the heel of the shoe becomes higher, the area on which the sole and the insole of the shoe are in contact becomes smaller, so the burden on the foot increases. For example, patent document 1 is disclosed as an insole for solving this.

  The insole of Patent Document 1 measures the pressure distribution acting on the sole by a foot pressure distribution measuring system, and designs and manufactures an insole of the curvature and shape and thickness of an insole of a high-heeled shoe based on the measurement result .

  Paragraph 0043 of Patent Document 1 states that “the thickness of each part of the insole is designed according to the height H1 of the heel”.

  In addition, in the paragraph [0066], “... Especially, the positions of the reference points T1, T2 and T3 of the insoles 18, 52 and 62 are important elements for obtaining the foot pressure dispersing effect. The reference points T1, T2 and T3 used in the description correspond to the measurement points P2 in the high-heeled shoes 10, 50 and 60, respectively.

  Further, in the paragraph [0067], as shown in “FIG. 19 (A), the position of the reference point T1 in the high heel shoe 10 as the“ first shoe ”is the reference point from the edge 18a on the heel side of the insole 18 It can specify with the 1st longitudinal direction distance X1 of the parallel direction to ground G to T1, and the 1st up-and-down direction distance Y1 from ground G to reference point T1.

Further, in the paragraph [0069], as shown in “FIG. 19 (C), the position of the reference point T3 in the high heel shoe 60 as the“ second shoe ”is the reference point from the edge 62a on the heel side of the insole 62. It can be specified by the second longitudinal distance X3 parallel to the ground G up to T3 and the second vertical distance Y3 from the ground G to the reference point T3. "
Also, in paragraph [0070], “When manufacturing the high heel shoes 10, 50, 60, first, the high heel shoes 10 as the“ first shoe ”is designed according to the above“ design method of insole ” Design is performed using the insole 18, and the position of the reference point T1 is specified by the first longitudinal distance X1 and the first vertical distance Y1 based on actually measured values (measured values). It is described as ".

  Further, in the paragraph [0071], “followingly, as shown in FIG. 20, the second longitudinal distance X2, X3 in the high heel shoes 50, 60 as the“ second shoe ”and the first longitudinal distance X1. Design the same. It is described as ".

  This X1, X2, X3 is the horizontal distance from the edge 18a on the heel side of the shoe from the description of FIG. 19 etc., and Y1, Y2, Y3 are the vertical distances from the ground.

  That is, in the insole of Patent Document 1, the position (reference point) of each point P1 to P6 (see FIG. 5) of each of the high heel shoes 10, 50, 60 having different heights of heels is the aforementioned longitudinal distance, vertical direction It is specified by the distance. This specified position (reference point) is the same distance from the rear end of each insole even though the heel height is different from the heel height of the heel shoes 10, 50, 60 from FIG. 19 and FIG. 20 of Patent Document 1 is there.

  And the thickness of each point P1-P6 (refer FIG. 5) of each of the heel shoes 10, 50, 60 from which the height of a heel differs is made to differ according to the heel height from FIG. That is, the overall height of the curved surface determined by P1 to P6 of the insole is changed according to the heel height. That is, when the heel is high, the entire curved surface is made high.

  Further, in paragraph [0079] of Patent Document 1, “The insole 72 is a material having buffer property and flexibility such as foamable synthetic resin and elastomer as shown in FIGS. In the present embodiment, it is described as being made of urethane rubber).

  That is, Patent Document 1 is a soft insole, and when placed on the floor, the back surface is flat.

JP 2012-66050 A

However, in the case of walking wearing high-heeled shoes, the heel is higher longitudinal arch increases of feet high, ing tend to walk as twisting the foot on the inside as a result.

  However, the insole of Patent Document 1 raises the entire curved surface determined by the points P1 to P6 as the heel increases.

  On the other hand, according to the height of the heel of the shoe, the height of the three arches of the sole (lateral arch, inner longitudinal arch, outer longitudinal arch) changes, and the position of the apex also changes.

  However, in the insole of Patent Document 1, even if the heel height changes, the height of the apex for keeping the three arches according to the heel height while making each point (P1 to P6) from the rear end of the insole all the same. It does not properly support the 3 arches of the foot according to the heel height because it only changes the height. Because of this, weight distribution does not go well.

  In addition, since the insole of Patent Document 1 is a soft insole, it is difficult to attach it to the insole of a shoe and can not provide an appropriate repulsive force to the sole.

  The present invention has been made in view of the above problems, and the fifth metatarsal bone base does not ache as the height of the heel increases, and the three arches of the foot are properly supported even if the height of the heel changes. And a heel height-sorted insole capable of giving a suitable level of repulsive force to the sole of the foot.

The heel height-classified insole according to the present invention is a female having a lateral arch projection having a vertex between the second metatarsal and the third metatarsal, a convex for the inner longitudinal arch and a convex for the outer longitudinal arch. According to the height of the heel of the shoe, the height of the apex of each of the lateral arch convexity, the internal longitudinal arch convexity and the external longitudinal arch convexity and the position of the apex are made different, and the corresponding female An insole used by being attached to the insole of a shoe ,
The female shoes have a predetermined height as a reference height, and a reference heel female shoe having a reference heel of the reference height or a high heel female shoe having a high heel higher than the reference heel or a lower than the reference heel Low heel women shoes with heels,
The insole used for the high heel female shoes is a high heel insole, and the high heel insole is
The height of the apex for the high heel insole lateral arch, which is the apex of the high heel insole lateral arch convex, is the height of the reference heel. Convex heel for insole horizontal arch, which is the apex of convex for the lateral arch of the insole for the heel used in female shoes, and apex of the convex for the lateral arch, insole for low heel, used in the low heel female shoes And the convex portion for the high heel insole lateral arch is formed to be lowest with respect to the apex for the low heel insole lateral arch.
The inner vertical arch projection is a high heel insole inner vertical arch projection, and the height of the high heel insole inner vertical arch apex is the apex of the high heel insole inner vertical arch projection An apex for the inner heel for the reference heel, an apex for the inner heel for the reference heel, which is the apex of the inner longitudinal arch, and an apex for the lower heel, the apex for the inner vertical arch of the low heel insole; The highest-heel insole inner longitudinal-arch convex portion is formed at the highest height with respect to the vertical-arch convex portion apex,
The convex portion for the outer longitudinal arch is a convex portion for the insole outer longitudinal arch for high heel, and the height of the apex for the high heel insole outer longitudinal arch which is the apex of the convex for the high heel insole outer longitudinal arch is An apex for an outer longitudinal arch for the reference heel, an apex for an outer longitudinal arch for the reference heel, which is an apex of the outer longitudinal arch, and an apex for a low heel, an apex for the outer longitudinal arch for the low heel insole; The high-heel insole outer longitudinal arch projection is formed at the highest height with respect to the vertical arch projection apex,
The apex for the high heel inner longitudinal arch is formed on the front side of the apex for the reference heel inner longitudinal arch.
The apex for the high heel lateral arch is formed at a position on the rear side with respect to the apex for the standard heel lateral arch,
The gist of the high heel outer longitudinal arch convex portion is formed on the front side of the reference heel outer longitudinal arch convex portion .
Further, the heel height-classified insole according to the present invention has a convex portion for the lateral arch having a vertex between the second metatarsal and the third metatarsal, a convex portion for the inner longitudinal arch, and a convex portion for the outer longitudinal arch. According to the height of the heel of the female shoe, the height of the apex and the position of the apex of each of the convex part for the lateral arch, the convex part for the inner longitudinal arch and the convex part for the outer longitudinal arch are different according to the height An insole used by being attached to the insole of a female shoe of
The female shoes have a predetermined height as a reference height, and a reference heel female shoe having a reference heel of the reference height or a high heel female shoe having a high heel higher than the reference heel or a lower than the reference heel Low heel women shoes with heels,
The insole used for the low heel female shoes is a low heel insole, and the low heel insole is
The horizontal arch projection is a low heel insole horizontal arch projection, and the height of the low heel insole horizontal arch apex, which is the apex of the low heel insole horizontal arch projection, is the reference heel Convex heel for insole horizontal arch which is the apex of convex for lateral arch of insole used for female shoes, and apical of convex for lateral arch of insole for high heel used in high heel female shoes (The peak for the high heel insole lateral arch convexity) which is the highest, and forms the low heel insole lateral arch convexity,
The convex portion for the inner longitudinal arch is a convex portion for the insole inner longitudinal arch for the low heel, and the height of the convex apex for the inner heel for the low heel is the apex of the convex portion for the inner heel for the low heel insole An apex for the inner heel for the reference heel, an apex for the inner heel for the reference heel, which is the apex of the inner longitudinal arch, and an apex for the high heel, the apex for the inner vertical arch for the high heel insole; The low-heel insole inner longitudinal arch projection is formed at the lowest position with respect to the vertical arch projection apex,
The convex portion for the outer longitudinal arch is a convex portion for the insole outer longitudinal arch for the low heel, and the height of the convex portion for the outer heel for the insole outer longitudinal arch which is the apex of the convex for the low heel insole outer longitudinal arch is An apex for an outer longitudinal arch for the reference heel, an apex for an outer longitudinal arch for the reference heel, which is an apex of the outer longitudinal arch, and an apex for a low heel, an apex for the outer longitudinal arch for the low heel insole; The low-heel insole outer longitudinal arch projection is formed at the lowest position with respect to the vertical arch projection apex,
The apex for the low heel inner longitudinal arch is formed on the rear side with respect to the reference heel inner longitudinal arch apex.
The apex for the low heel lateral arch is formed on the front side with respect to the apex for the standard heel lateral arch.
The gist of the low heel outer longitudinal arch convex portion is formed at a position on the rear side with respect to the reference heel outer longitudinal arch convex portion .
Furthermore, the heel height-sorted insole according to the present invention includes a lateral arch projection having a vertex between the second metatarsal and the third metatarsal, a convex for the inner longitudinal arch and a convex for the outer longitudinal arch. According to the height of the heel of the female shoe, the height of the apex and the position of the apex of each of the convex part for the lateral arch, the convex part for the inner longitudinal arch and the convex part for the outer longitudinal arch are different according to the height An insole used by being attached to the insole of a female shoe of
The female shoes have a predetermined height as a reference height, and a reference heel female shoe having a reference heel of the reference height, or a high heel female shoe having a high heel whose height is higher than the reference heel, or the reference Low-heel women's shoes with low-heel lower than heel,
The insole used for the reference heel female shoe is a reference heel insole, and the reference heel insole is
The high-heel is the height of the reference heel for insole horizontal arch convex that is the apex of the reference heel for insole horizontal arch convex of the reference heel for the horizontal arch convex. A peak for the high heel insole lateral arch, which is an apex of a lateral arch convex portion for a high heel insole used for a female shoe, and a vertex for a lateral arch convex portion for a low heel insole used for the low heel female shoe The height between the low heel insole horizontal arch convexity and the convex for the standard heel insole horizontal arch,
The inner longitudinal arch projection is a reference heel insole inner longitudinal arch projection, and the height of the reference heel insole inner longitudinal arch apex which is the apex of the reference heel inner inward longitudinal arch projection is An apex for an inner longitudinal arch of the high heel insole, an apex for an inner longitudinal arch for the high heel which is an apex of the inner longitudinal arch of the inner heel, and an inner for a low heel which is an apex of a convex for the inner longitudinal arch of the low heel insole; The height is made between the vertical arch convexity apex and the convex for the standard heel insole inner longitudinal arch is formed,
The convex portion for the outer longitudinal arch is a convex portion for the insole outer longitudinal arch for the reference heel, and the height of the apex for the outer heel for the insole outer longitudinal arch which is the vertex of the convex portion for the outer heel for the insole outer longitudinal arch A high heel insole outer vertical arch convexity which is the apex of the high heel insole outer vertical arch convexity and a low heel insole outer which is the apex of the low heel insole longitudinal outer arch convexity The height is made between the vertical arch convexity apex and the convex for the standard heel insole outer longitudinal arch is formed,
The apex for the inner vertical arch for the reference heel is:
The high heel inner longitudinal arch convex portion is formed at a position between a reference heel inner longitudinal arch convex apex.
The reference heel horizontal arch convexity apex is formed at a position between the high heel horizontal arch convexity apex and the low heel horizontal arch convexity apex.
The apex for the reference heel outer longitudinal arch is formed at a position between the apex for the high heel outer longitudinal arch and the apex for the reference heel outer longitudinal arch. I assume .

According to the heel height different insoles of the present invention as described above, it is possible to even the height of the heat Lumpur is changed to properly support 3 arch of the foot, and provide an appropriate repulsion foot .

It is a perspective view in the case of mounting | wearing a female shoe with the heel height-sorted insole 100 of this Embodiment, and putting a leg in a female shoe. It is a perspective view which shows the shape of front and back of insole 100A for reference | standard heels. FIG. 3 is an explanatory view when the reference heel insole 100A is viewed from the heel side and the toe side. It is a side view at the time of putting the back of the insole forefoot part 101A for standard heels of the standard heel insole 100A flat on a floor. It is an explanatory view of a case from a top of a foot sole side of a normal foot. It is a top view when it sees from the upper side at the time of putting on a female shoe 200 attached with a standard heel insole 100A. It is a bottom view when it sees from the lower side, when wearing female shoes 200 which attached insole 100A for standard heels. It is an explanatory view explaining a transverse section of each section of insole 100A for reference heels of this embodiment. It is a dimension figure of the position and thickness (height) of each vertex of insole 100A for reference | standard heels. FIG. 5 is a cross-sectional view of a section having a major vertex. FIG. 8 is a cross-sectional view of section (8). It is explanatory drawing of the difference of each vertex of the low heel insole 100C and the high heel insole 100B. It is sectional drawing explaining the difference in the height of each vertex on front side horizontal arch line Ya. It is sectional drawing explaining the difference in the height of each vertex on center horizontal arch line Yb. It is sectional drawing explaining the difference of the height of each vertex on the back side horizontal arch line Yc. It is sectional drawing explaining the difference in the height of each vertex in the convex part for outer side longitudinal arches. It is an explanatory view explaining each part QP1-QP9 of a sole. It is explanatory drawing of the measurement result of each site | part in the front side horizontal arch line Ya. It is an explanatory view of a measurement result of each part in central horizontal arch line Yb. It is explanatory drawing of the measurement result of each site | part of the back side horizontal arch line Yc. It is an explanatory view explaining an effect at the time of using a heel height distinction insole of this embodiment. The ratio effect of the load at the time of using the heel height classified insole is shown. It is sectional drawing of the heel height another insole of other embodiment. It is explanatory drawing of the heel height-classified insole of a skin integral type. It is explanatory drawing explaining the ratio of the load concerning the forefoot part of a leg | foot, and the buttocks of a leg | foot by the height of the heel of the conventional shoes. It is explanatory drawing explaining the ratio of the area which a sole and an insole of a shoe contact according to the height of the heel of the conventional shoes.

  The present embodiment changes the position and height of the ridge apex for the inner longitudinal arch, the ridge apex for the lateral arch, and the ridge apex for the outer longitudinal arch according to the height of the heel, and the fifth The metatarsal bone is made not to contact strongly with the insole by the heel height.

  In addition, although it can be applied to female shoes with a heel height of 1 cm to 19 cm etc., in this embodiment, the height of the heel is based on the insole for 6 cm, and the insole for 3 cm with respect to the insole for 6 cm It compares with the insole for 9 cm heels, and explains.

  In addition, the heel height classified insole is a generic term for a 6 cm heel insole, a 3 cm heel insole and a 9 cm heel insole.

  Further, the size of the shoes is preferably 19 cm to 27 cm, etc., but it will be described as a heel height-classified insole based on a 23 cm type female shoe.

  The above heel height classified insole is described by adding English letter "A" for 6 cm heel, English letter "B" for 9 cm heel, and English letter "C" for 3 cm heel, and English letters When it is not added, it is a generic description of 6 cm heel, 9 cm heel, and 3 cm heel.

  The embodiment will be described below with reference to the drawings.

  FIG. 1 is a perspective view of a case where a heel height-classified insole 100 according to this embodiment is attached to a female shoe and a foot is inserted into the female shoe.

  FIG. 1 shows the positions of the apexes of the respective convexes when the height of the heel is 3 cm, 6 cm, and 9 cm. These apexes differ in position and height depending on the heel height, but in FIG. 1, the apex position in the case of 3 cm, 6 cm, and 9 cm for the convex portion for the inner longitudinal arch and the convex portion for the lateral arch only Indicates

  Further, in the case where the heights of the heels are 3 cm, 6 cm, and 9 cm, the vertical dimensions of the insoles classified by heel height are somewhat different, but are not shown in FIG. Further, in FIG. 1, the size of the shoes is 19 cm to 27 cm or the like, but it is simply referred to as a female shoe 200, and the foot is also different in size but is simply referred to as a foot 300.

  The above-mentioned female shoe 200 is composed of a sole 220, a heel 230 (3 cm heel, 6 cm heel or 9 cm heel) and the like.

  Further, the height of the heel refers to the height from the back surface of the heel portion of the sole 220 to the heel end.

  The heel height classified insole 100 shown in FIG. 1 is made of cork rubber (containing about 20% urethane), and the gauze 180 is crimped on the surface. In addition, the top sheet is attached to the surface of the insole 210 of the female shoe 200 and is not shown in FIG.

  Before describing the heel height-classified insole 100 of the present embodiment, the skeleton of the foot 300 will be described with reference to the drawings.

  The foot 300 is composed of a forefoot portion 310, a midfoot portion 340, and a rear foot portion 360, as shown in FIG.

[Description of ankle skeleton]
In the embodiment, the skeleton of the foot does not use an anatomical name, and will be described by a name used in the manufacturing industry such as an artificial leg and brace.

  The skeleton of the forefoot portion 310 includes the first end bone 312, the second end bone 313, the third end bone 314, the fourth end bone 315, the fifth end bone 316, the second middle joint bone 321, and the third middle joint bone 322 And fourth middle segment bone 323, fifth middle segment bone 324, first base segment bone 332, second base segment bone 333, third base segment bone 334, fourth base segment bone 335 and fifth base segment bone 336 and The range which consists of

  The midfoot portion 340 includes the first metatarsal bone 342, the second metatarsal bone 343, the third metatarsal bone 344, the fourth metatarsal bone 345, the fifth metatarsal bone 346, the first cuneiform bone 352, and the second scaly bone It refers to a range including the bone 353, the third cuneiform 354, the cubic bone 356, and the scaly bone 357. In addition, the rear foot portion 360 is a range including the tara bone 362 and the ribs 363.

  Further, as shown in FIG. 1, the foot 300 is important to maintain the three arches FA (horizontal arch FA1, inner longitudinal arch FA2, outer longitudinal arch FA3). When the horizontal arch FA1 collapses, it tends to be an open leg and hallux valgus. In addition, when the outer longitudinal arch FA2 collapses, the posture tends to collapse. When the inner vertical arch FA3 collapses, it tends to flatten.

[Summary of insole by heel height]
For this reason, as shown in FIG. 1, the heel height-classified insole 100 according to the present embodiment includes the inner vertical arch convex portion 140, the horizontal arch convex portion 150, and the outer vertical arch for forming the three arches FA. The convex portion 160 is formed on the front side. Moreover, heel height different insole 100 of the present embodiment, the material is foamed rubber, which is the hardness 45 to 55 degrees (measured by type A durometer according to JIS Standard).

  The inner vertical arch convex portion 140 and the horizontal arch convex portion 150 described above are connected by a smooth curved surface. In the present embodiment, the inner vertical arch convex portion 140 and the horizontal arch convex portion 150 are collectively referred to as arched convex area 170.

  Further, as shown in FIG. 1, in the heel height-classified insole 100 of the present embodiment, the tip line La is in the vicinity of the center of the first base joint bone 332 and the center of the second base joint bone 333 in the forefoot part 310 of the foot 300. Formed so as to be located near the line Li (triangular line) passing near and near the center of the third base joint bone 334 and near the center of the fourth base joint bone 335 and near the center of the fifth base joint bone 336, The forefoot portion 310 is shaped so as to cover the rear foot portion 360 from the line Li.

  Then, the positions and heights of the above-mentioned ridge apexes for the inner longitudinal arch in the arch region 170 and the ridges for the outer longitudinal arch 160, the apex for the lateral arch, and the apex for the outer longitudinal arch Depends on the heel height. These positions and heights will be described in detail later.

  In FIG. 1, one heel height-classified insole 100 is used to show the difference in the position of these apexes.

  In FIG. 1, the inner longitudinal arch line front position point P1 (*), the convex apex P2 for the horizontal arch (P2A, P2B, P2C), the outer longitudinal arch line front position point P3 (*), and the inner longitudinal arch Convex apex P4 (P4A, P4B, P4C), central longitudinal arch line center position P5 (☆), outer longitudinal arch line central position P6 (☆), and inner longitudinal arch line rear side P7 ( And a central vertical arch line rear side position point P8 (*) and a convex apex P9 of the outer vertical arch.

  The above-mentioned inner vertical arch convexity peak P4 (P4A, P4B, P4C) is for the inner vertical arch line front position point P1 (☆), the inner vertical arch line rear position point P7 (☆) and the inner vertical arch It is a vertex which becomes the largest height in convex part 140 for inner vertical arches on inner vertical arch line E which passes through convex part vertex P4.

  Also, the horizontal arch convexity peak P2 is a horizontal archline passing through the inner longitudinal arch line front position point P1 (☆), the horizontal arch convex apex P2 and the outer vertical arch line front position point P3 (☆) (Not shown in FIG. 1) is the maximum vertex of the lateral arch convexity 150.

  Furthermore, the outer longitudinal arch convexity peak P9 is an outer longitudinal direction passing through the outer longitudinal arch line front position point P3 (と), the outer longitudinal arch line center position point P6 (と), and the outer longitudinal arch convex portion apex P9. This is the maximum vertex of the outer longitudinal arch convex portion 160 on the arch line J.

  The position point uses the expression position point to indicate that the height is different from these vertices.

  Also, it passes parallel to the inner longitudinal arch line E and the outer longitudinal arch line J, passing through the convex apex P2 for the lateral arch, the central longitudinal arch line center position point P5, and the central longitudinal arch line rear position point P8. Line is referred to as central longitudinal arch line H. These lines may be slightly offset.

(Description of the apex of the convex portion 150 for the lateral arch)
The lateral arch convex portion 150 includes, as a lateral arch convex portion P2, a standard heel convex arch apex P2A (●) for 6 cm heel and a high heel horizontal arch convex apex for 9 cm heel. P2B (◎) and a convex apex P2C (○) for a low heel horizontal arch for 3 cm heel are shown.

  That is, as shown in FIG. 1, in the case of the insole in the case of the heel for 9 cm, the convex portion apex P2 for the lateral arch is on the rear side with respect to the convex apex P2A (●) for the lateral heel for the reference heel. Convex arch apex P2B (◎) for the high heel horizontal arch is formed, and in the case of the heel for 3 cm, it is positioned on the front side with respect to the convex arch apex P2A (●) for the horizontal arch for reference heel It is formed as.

(Description of the vertex of the inner vertical arch convex portion 140)
In addition, as the inner vertical arch convex portion 140, as the inner vertical arch convex portion apex P4, the reference heel inner convex arch apex P4A (●) for 6 cm heel and the high heel inner side for 9 cm heel A vertical arch convexity peak P4B (◎) and a low heel inner vertical arch convexity peak P4C (○) for 3 cm heel are shown.

  That is, as shown in FIG. 1, in the case of the in-sole for the 9 cm heel, the in-side longitudinal arch convex portion vertex P4 is for the reference heel in-the-side longitudinal arch convex vertex P4A in the case of the 6 cm heel insole. In the case of the insole in the case of the heel for 3 cm, the convex apex P4B for the inner vertical arch for high heel is formed at the position that is the front side, and in the case of the insole in the case of the heel for 3 cm, the convex apex P4 C (○) for the inner vertical arch for low heel is 6 cm It is formed to be located on the rear side with respect to the apex P4A for the inner vertical arch for the standard heel in the case of the insole.

(Description of each position point)
In addition, in the inner longitudinal arch line E passing through the inner longitudinal arch line front position point P1 (☆) and the inner longitudinal arch convex portion apex P4, the inner longitudinal arch line rear side on the rear side of the inner longitudinal arch convex apex P4. Position point P7 (*) is present.

  In addition, a central longitudinal arch line center position point P5 (*) and a central longitudinal arch line rear position point P8 (*) are present in the central longitudinal arch line H passing the apex P2 of the horizontal arch convexity.

  Inside longitudinal arch line front position point P1 (☆), outside longitudinal arch line front position point P3 (☆), central longitudinal arch line center position point P5 (☆), outside longitudinal arch line center position point P6 (☆), Inner vertical arch line rear side position point P7 (☆), central vertical arch line rear side position point P8 (☆), convex portion apex P9 for outer side longitudinal arch, by heel height classified insole 100 (for 3 cm, 6 cm or 9 cm) Although their positions and heights are different, they are not shown in FIG.

  The inner vertical arch line front position point P1 (*) and the outer vertical arch line front position point P3 (*) are the same as the horizontal arch convex apex P2 even if the insole type is different. Even if the type of insole is different, the position point of the outer vertical arch convex portion vertex P9 is the same as the inner vertical arch convex portion apex P4.

  In addition, the outer vertical arch line center position point P6 (☆), the inner vertical arch line rear position point P7 (☆), the central vertical arch line central position point P5 (☆), the central vertical arch line rear position point P8 (☆ Is different depending on the heel height-sorted insole 100 (for 3 cm, 6 cm or 9 cm) in position and height, but each position point is the same as that of the inner longitudinal arch convexity peak P4.

(Description of the fifth metatarsal bone corresponding region 146)
On the other hand, as shown in FIG. 1, a fifth metatarsal corresponding region 146 corresponding to the fifth metatarsal 346 is formed in the insole.
The thickness of the fifth metatarsal region 146 corresponds to the thickness of the insole rear foot portion 105 (1.0 mm to 2.0 mm) or the insole forefoot portion 101 (1.0 mm to 2. mm) even if the height of the heel 230 changes. It is made about 0 mm thick so that the bottom of the fifth metatarsal bone 346 does not hit the surface of the insole strongly.

  The respective vertexes and position points described above will be described in detail later with reference to the drawings.

Example 1
The first embodiment will be described by taking a 6 cm heel as an example. In addition, except for the fifth metatarsal region 146, the central longitudinal arch line H, the inner longitudinal arch line E, and the outer longitudinal arch line J, the English letter "A" is added to the 6 cm heel.

  In addition, a 6 cm heel insole is described as a reference heel insole 100A. Further, an insole for 9 cm heel described later is described as a high heel insole 100B, and an insole for 3 cm heel is described as a low heel insole 100C.

  FIG. 2 is a perspective view showing the shape of the front and back of the reference heel insole 100A. The front side is shown in FIG. 2 (a), and the back side is shown in FIG. 2 (b).

  FIG. 3 is an explanatory view when the reference heel insole 100A is viewed from the heel side and the toe side. FIG. 3A is a view on arrow a in FIGS. 1 and 2. FIG.3 (b) is b arrow directional view of FIG.1 and FIG.2.

  As shown in FIG. 2 (a), the fifth metatarsal bone corresponding region 146 in the standard heel insole 100A is the standard heel inner longitudinal arch convex portion 140A, the standard heel horizontal arch convex portion 150A (drop type) And it is made to become lowest with respect to the convex part 160A for outer side longitudinal arches for reference | standard heels. The thickness is, for example, about the thickness of the standard heel insole forefoot portion 101A or the standard heel insole forefoot portion 105A.

  Also, as shown in FIG. 2 (b), when the foot is placed on the floor (or the insole 210 of the female shoe 200) on the back of the reference heel insole 100A, the rear foot 360 and the middle foot of the sole The portion 340 is shaped to correspond to the surface when it contacts the floor (hereinafter referred to as insole back middle foot-rear foot area surface 100Aa), and this insole back middle foot-rear foot area surface 100Aa A surface corresponding to the forefoot portion 310 (hereinafter, referred to as insole back forefoot portion surface area 100Ab) is formed to be curved on the front side.

  Further, a region corresponding to the midfoot portion 340 of the insole sole midfoot-rearfoot region surface 100Aa is curved so that the front side is exposed.

  And the foot outside edge surface 175A is formed in the outside of the foot of insole back middle foot part-rear foot part field 100Aa. Further, a foot inner side edge surface 186A is formed on the inside of the foot.

  The lateral width of the foot outer edge surface 175A is about 5.0 mm (4.5 to 5.5 mm, preferably 5.0 mm), and the lateral width of the foot inner side edge surface 186A is about 22.6 mm (22.1 to 23.1 mm: preferably 22.6 mm).

  Also, as shown in FIGS. 3A and 3B, when viewed from the a arrow in FIG. 1, the reference heel insole 100A swells largely at the inner side of the foot and slightly on the front side. It's jumping up.

The reference heel insole 100A is made is foamed rubber, since it is the hardness of 45 to 55 degrees (measured by type A durometer according to JIS Standard), a back surface of the reference heel insole forefoot 101A When placed flat on the floor, as shown in FIG. 4, the rear stage rises at a predetermined angle while maintaining the shape. Therefore, it is easy to wear on the female shoe 200 and can provide a predetermined repulsive force to the sole.

[Description of the foot skeleton and each vertex]
FIG. 5 is an explanatory view of a case where a foot surface of a normal foot is from above. FIG. 6 is a top view as viewed from above when the female shoe 200 attached with the standard heel insole 100A is worn. However, FIG. 5 and FIG. 6 also show and explain the foot skeleton. However, in FIG. 5, it demonstrates not using the alphabetic character which shows the classification of an insole.

  As shown in FIG. 5, in the sole, there is a sole surface contacting the floor (hereinafter referred to as a contact sole surface Qa (hatched area)) and an arch surface Qb (point area) when the foot is placed on the floor.

  A point in the vicinity of the inside of the foot where the first metatarsal bone 342 and the first cuneiform bone 352 in the arched surface Qb (point area) contact is referred to as a convex portion apex portion QP4 (□) of the foot inner longitudinal arch.

  Then, the sole inner longitudinal arch line front position point QP1 (□) that is near the back of the ball Ga (the back side of the bone head of the first metatarsus 342) and the convex apex portion QP4 for the sole inner longitudinal arch A line passing through the sole inner longitudinal arch line rear side position point QP7 (□) near the outer side of the foot slightly near the front side of the cuneiform bone 357 is referred to as the foot rear inner longitudinal arch line QE.

  In addition, a point between the second metatarsus 343 and the third metatarsus 344 is referred to as an apex portion QP2 for the foot horizontal arch, and is opposed to the above-described apex portion QP4 for the foot inner longitudinal arch. The area where the bottom of the second metatarsus bone 343 and the bottom of the third metatarsus 344 are in contact with each other is referred to as a midfoot longitudinal arch line center position site QP5. A line passing through the foot sole central longitudinal arch line central position site QP5 and the foot sole horizontal arch convex portion QP2 is referred to as a foot sole central longitudinal arch line QH.

  A portion opposed to the foot sole inner longitudinal arch line rear position point portion QP7 in the foot backside central longitudinal arch line QH is referred to as a foot sole central longitudinal arch line rear side position portion QP8.

  Furthermore, the point on the lateral side where the rib 363 and the cubic bone 356 contact each other is referred to as a convex apex portion QP9 for the sole outer longitudinal arch, near the back of the small ball Gb (near the back of the bony head of the fifth metatarsal 346 ) Is referred to as the foot sole outer side longitudinal arch line front position point site QP3.

  Then, a line passing through the foot sole outer side longitudinal arch line front position portion QP3 and the foot sole outer side longitudinal arch convex portion apex portion QP9 is referred to as a foot outer side longitudinal arch line QJ.

  A portion of the sole outer longitudinal arch line QJ opposite to the sole central longitudinal arch line central position spot QP5 is referred to as a sole outer longitudinal arch line central position spot QP6.

  Furthermore, as shown in FIG. 5, the lateral arches of the foot include a front lateral arch FA1a, a central lateral arch FA1B and a rear lateral arch FA1C.

  The front horizontal arch FA1a is a line passing through the foot sole inner longitudinal arch line front position point QP1 (□), the foot apex lateral ridge arch apex portion QP2, and the foot outer longitudinal arch line front position point QP3.

  The central horizontal arch FA1B is a line passing through the convex top portion QP4 (□) of the foot inner side longitudinal arch, the foot middle central longitudinal arch line center position point portion QP5, and the foot sole outer longitudinal arch line center position point portion QP6 It is.

  The back horizontal arch FA1C is a line passing through the foot sole inner longitudinal arch line rear position point portion QP7, the foot sole central longitudinal arch line rear position position point QP8, and the convex portion apex portion QP9 for the foot sole outer longitudinal arch is there.

  And as shown in FIG. 6, the insole 100A for reference | standard heel forms said each vertex (AP1-AP9) in the position corresponding to each site | part (QP1-QP9) of the foot sole of FIG.

  In FIG. 6, the line corresponding to the front horizontal arch FA1a is referred to as the front horizontal arch line Ya, the line corresponding to the central horizontal arch FA1B is referred to as the central horizontal arch line Yb, and the line corresponding to the rear horizontal arch FA1C is referred to as the rear. It is called a side lateral arch line Yc.

  On the other hand, as shown in FIG. 7, a foot inner side edge surface 186A and a foot outer edge surface 175A are formed diagonally on the back surface of the reference heel insole 100A. That is, the upper part of the female shoe 200 is shaped so as to be easily caught.

[Detailed explanation of thickness and position of each vertex]
FIG. 8 is an explanatory view for explaining a cross section of each section of the reference heel insole 100A of the present embodiment.

  FIG. 8A shows a top view of the reference heel insole 100A, and shows that it is cut at 18 sections for explanation.

  As shown in FIG. 8 (b), the sections (18), (17) and a part of the section (16) correspond to the reference heel insole forefoot portion 101A, and are one of the sections (16) to (9). The range to the part (front side) corresponds to the midfoot part 340, and a part (rear side) of the section (9) corresponds to the rear foot part 360.

  As shown in FIG. 8A, in the section (14), the reference heel inner longitudinal arch line front position point P1A (▲), the reference heel horizontal arch convex apex P2A (●), and the outer longitudinal arch There is a line front position point P3 (▲).

  In the section (12), a reference heel inner vertical arch convexity peak P4A, a reference heel central vertical arch line central position point P5A (▲), and a reference heel outer vertical arch line central position point P6A ( ▲) exists.

  The section (10) also indicates that the reference heel inner longitudinal arch line rear position point P7A (▲) and the reference heel central vertical arch line rear position point P8A (▲) are present. In the section (8), there is a reference heel outer longitudinal arch convexity peak P9A.

  FIG. 8B is a cross-sectional view in which the sections are arranged. In FIG. 8 (b), the thickness of each section, the apex P2A for the reference arch horizontal arch, the apex P4A for the inner vertical arch for the reference heel, the central longitudinal arch line rear position point P8A for the reference heel, etc. Is shown.

  As shown in FIG. 8B, the insole forefoot portion 101A for the reference heel corresponds to the section (18) and the section (17). The section (18) is about 1 mm, and the section (17) is about 2.0 mm.

  FIG. 9 is a dimension diagram of the position and thickness (height) of each vertex of the reference heel insole 100A. In FIG. 9, the reference heel insole 100A is placed on a horizontal floor. However, in FIG. 8, FIG. 9, and FIG. 10, the unit of length (mm) is not shown.

  The aforementioned floor horizontal line is indicated by a straight line Ri. This straight line Ri is parallel to the central longitudinal arch line H, passing a point Ra on the back side just below the apex P2A for the reference heel horizontal arch, as shown in FIG. 9B.

  FIG. 9 (a) shows a side view of the reference heel insole 100A as viewed from the inside of the foot, and FIG. 9 (b) shows the aa cross section of the reference heel insole 100A shown in FIG. FIG. 9 (c) shows a side view of the reference heel insole 100A shown in FIG. 8 as viewed from the direction of the outside of the foot.

  FIG. 10 is a cross-sectional view of a section having a major vertex. FIG. 10 (a) is a cross section of the slice (14), FIG. 10 (b) is a cross section of the slice (12), and FIG. 10 (c) is a cross sectional view of the slice (11). ) Is a cross-sectional view of the section (10). FIG. 11 is a cross-sectional view of the section (8).

  As shown in FIG. 9A, the reference heel insole 100A has a total length of 172.5 mm (172.0 mm) between the reference heel insole rear end 103A and the reference heel insole tip 101Aa (corresponding to La). ~ 173.0 mm: preferably 172.5 mm).

  And as shown in FIG.9 (c), width is made into 70.4 mm (69.9-79.9 mm: Preferably 70.4 mm) at the maximum.

(Position of P1A, P2A, P3A)
As shown in FIG. 9C, the reference heel inner longitudinal arch line front position point P1A, the reference heel horizontal arch convex apex P2A, and the reference heel outer vertical arch line front position point P3A are the reference heel insoles. It is formed to 123.5 mm (123.0 to 124.0 mm, preferably 125.0 mm) from the rear end 103A. That is, from the rear end 103A of the reference heel insole, the position is about twice the 6 cm heel.

(Position of P4A, P5A, P6A)
As shown in FIG. 9 (c), the reference heel inner vertical arch convexity peak P4A, the reference heel central vertical arch line center position P5A, and the reference heel outer vertical arch line central position P6A are for the reference heel. It is formed to be 90 mm (89.5 to 90.2 m, preferably 90 mm) from the insole rear end 103A. That is, from the rear end 103A of the reference heel insole, the position is about 1.5 times the 6 cm heel.

(Position of P7A, P8A)
As shown in FIG. 9C, the reference heel inner longitudinal arch line rear position point P7A and the reference heel central longitudinal arch line rear position point P8A are 71.0 mm (70 mm) from the rear end 103A of the reference heel insole. 5 to 71.5 m: preferably 70.0 mm). That is, the reference heel insole rear end 103A is positioned about 1.1 times the 6 cm heel.

(Description of P9A)
As shown in FIG. 9C, the position for the reference heel outer vertical arch convexity P9A is 65.5 mm (64.0 to 66.0 mm: preferably 65.0 mm) from the rear end 103A of the reference heel insole. Is formed.

  That is, the difference between the reference heel outer vertical arch convex portion P9A and the reference heel inner vertical arch line rear position point P7A and the reference heel central vertical arch line rear position point P8A is about 6.0 mm. ing.

(Description of each edge point)
Then, a line is drawn at a right angle to the foot inner side edge surface 186A from the apex P4A for the inner longitudinal arch for this reference heel, and a point intersecting the edge of the inner side edge face 186A The edge point 186Aa) is about 11.5 mm (11.0 to 12.0 mm: preferably 11.5 mm).

  Also, the height of the inner vertical arch apex opposite inner side edge point 186Aa is about 18.0 mm from the floor (Ri), as shown in FIG. 9A, when the standard heel insole 100A is placed on the floor. 5 to 18.5 mm: preferably 18.0 mm).

  In addition, a point is drawn at a right angle to the foot outer edge surface 175A from the inner heel arch convexity P4A for the standard heel, and the point intersects the edge of the outer foot surface 175A (inner vertical arch apex opposite outer side edge point 175Aa Until 4), as shown in FIG.9 (c), it is about 49.2 mm (49.0-49.4 mm: preferably 49.2 mm).

  The height of the inner longitudinal arch apex opposite outer side edge point 175Aa is about 15.0 mm (14.5 to 15.5 mm, preferably 15.0 mm) from the floor (Ri), as shown in FIG. 9 (d). ).

Further, a point on the foot outer edge surface 175A opposite to the reference heel outer longitudinal arch convexity P9A of the reference heel outer longitudinal arch convexity 160A is referred to as an edge point 175Ac.
The height from the floor (Ri) to this edge point 175Ac is about 16.0 mm (15.5 to 16.5 mm: preferably 16.0 mm) as shown in FIG. 9 (d).

(Description of height thickness of each vertex)
In addition, the reference heel upper inner vertical arch convexity peak P4A is present in the section (12) as shown in FIGS. 8 (a), 8 (b) and 10 (b).
In FIG. 8A, the apex P4A of the reference heel inner longitudinal arch convexity is formed in the vicinity of the connection between the bone head of the first cuneiform bone 352 and the bone base of the first metatarsal bone 342.

  In addition, the height of the reference heel inner vertical arch convexity P4A in the section (12) is as shown in FIGS. 9 (d) and 10 (b) when the reference heel insole 100A is placed on the floor. To about 18.0 mm (17.5 to 18.5 mm: preferably 18.0 mm).

  In addition, a reference heel inner longitudinal arch line rear position point P7A located on the inner vertical arch line E and a central heel longitudinal arch line rear position point P8A located on the central vertical arch line H are shown in FIG. As shown in c), it is formed to be positioned 71.0 mm (70.5 to 71.5 m, preferably 71.0 mm) from the rear end 103A of the reference heel insole.

  The reference heel inner longitudinal arch line rear side position point P7A is located at the section (10) as shown in FIGS. 8 (a), 8 (b) and 10 (d).

  The height of the reference heel inner longitudinal arch line rear position point P7A in the section (10) is as shown in FIG. 10 (d) when the reference heel insole 100A is placed on the floor (Ri), It is about 16.0 mm (15.5 to 16.5 mm: preferably 16.0 mm).

  Further, as shown in FIG. 10 (d), the height to the outer end and the floor of the foot opposite to the reference heel inner longitudinal arch line rear side position point P7A is about 13.0 mm (12.5 to 13.5 mm: preferably 13.0 mm).

  Further, as shown in FIGS. 8B and 10D, the thickness of the fifth metatarsal corresponding region 146 of the section 10 is about 2.0 mm (1.5 to 2.5 mm: preferably 2) .0 mm). Furthermore, as shown in FIG. 10 (d), the height is about 8.0 mm (7.5 to 8.0 mm: preferably 8.0 mm) from the floor (Ri) to the height of the fifth metatarsal corresponding area 146 surface. It is done.

  Further, as shown in FIG. 9 (d), the central longitudinal arch line back side position point P8A for the reference heel is at a position on the central longitudinal arch line H opposite the inner heel side arch line position P7A for the reference heel. It is formed.

  The reference heel central longitudinal arch line rear side position point P8A is present in the section (10) as shown in FIGS.

  The height of the central vertical arch line rear position point P8A for the reference heel is 14.0 mm from the floor (Ri) as shown in FIG. 10 (d) when the reference heel insole 100A is placed on the floor (Ri). (13.5 to 14.5 mm: preferably 14.0 mm).

  That is, the difference in height between the reference heel inner longitudinal arch line rear position point P7A and the reference heel central vertical arch line rear position point P8A is about 2.0 mm, and the reference heel central longitudinal arch line rear side The height difference between the position point P8A and the fifth metatarsal corresponding region 146 is about 6.0 mm.

[Description of Major Vertices of Reference Arch Horizontal Arch Protrusions 150A]
As shown in FIG. 9B and FIG. 9C, the position of the reference heel horizontal arch convexity P2A is 123.5 mm (123.0 to 124.0 mm) from the rear end 103A of the reference heel insole. Preferably, it is formed in 125.0 mm. That is, it is formed at a position that is about twice as long as the 6 cm heel.

  Then, a point perpendicular to the foot inner side edge surface 186A by drawing a line perpendicular to the foot inner side edge surface 186A side on the foot inner side from the apex P2A of the reference heel horizontal arch convexity (horizontal arch apex opposite It is made about 33.2 mm (32.7 to 33.7 mm: preferably 33.2 mm) up to the inner side edge point point 186Ab).

Also, a point is drawn from the apex P2A for the standard heel lateral arch convex at a right angle to the side of the foot outer edge surface 175A that is the foot outer side and intersects the edge of the foot outer edge surface 175A Until the edge point 175Ab), it is about 33.8 mm (33.3 to 34.3 mm: preferably 33.8 mm). Also, as shown in FIG. The height of the apex P2A is about 12.0 mm (11.5 mm to 12.5 mm, preferably 12.0 mm) from the floor (Ri) when the 6 cm heel is placed on the floor (Ri). (See FIG. 10 (a)).

  The reference heel lateral arch convexity peak P2A is present in the section (14) as shown in FIGS. 8 (a), 8 (b) and 10 (a).

  When the insole 100A for the reference heel is placed on the floor (Ri), the lateral arch apex opposite inward side edge point 186Ab on the foot inner side edge surface 186A opposite to the reference heel horizontal arch convexity P2A The height is set to 11.0 mm (10.5 to 11.5 mm: preferably 11.0 mm) from the floor (Ri) as shown in FIGS. 10 (a) and 10 (a).

  Furthermore, the height of the lateral arch apex opposite lateral side edge point 175Ab in the foot lateral edge surface 175A opposite to the standard heel lateral arch convexity apex P2A is as shown in FIG. 9D and FIG. 10A. When the standard heel insole 100A is placed on the floor (Ri), the height is about 7.0 mm (6.5 to 7.5 mm: preferably 7.0 mm) from the floor (Ri).

(The height explanation of the ridge apex P9A for the outer side vertical arch for the standard heel)
As shown in FIG. 8A, FIG. 8B, and FIG. 11, the apex point P9A for the outer heel arch for reference heel is present in the section (8). Further, as shown in FIG. 11, the thickness of the reference heel outer vertical arch convexity P9A is about 4.0 mm (3.545.5 mm: preferably 4.0 mm).

  Furthermore, as shown in FIG. 11, when the insole 100A for the reference heel is placed on the floor (Ri), the height of the apex P9A for the outer longitudinal arch for the reference heel is about 14.0 mm from the floor (Ri) 13.5 to 14.5 mm: preferably 14.0 mm).

  And, as shown in FIG. 11, the height from the floor (Ri) of the edge point 175Ac of the section (8) is about 16.0 mm, and the central longitudinal arch line center position point P5A of the reference heel in the section (12) Since the height from the floor (Ri) is about 16.0 mm, the height between the edge point 175Ac of the section (8) and the central longitudinal arch line central position point P5A for the reference heel is the degree of identification.

  In addition, as shown in FIG. 11, the height of the apex P9A for the reference heel outer longitudinal arch convexity is about 14.0 mm, and the height of the reference heel central longitudinal arch line rear position point P8A is 14.0 mm Because of the degree, the height of the reference heel outer vertical arch convexity P9A and the reference heel central vertical arch line rear side position point P8A are approximately the same.

  The height from the floor (Ri) to the fifth metatarsal corresponding region 146 is about 10.0 mm (9.5 to 10.5 mm, preferably 10.0 mm).

(Description of heel portion apex 100Ap for reference heel)
As shown in FIG. 9C, the reference heel fore heel apex 100 Ap is located approximately 25.0 mm (24.5 to 25.5 mm, preferably 25.0 mm) from the rear end 103A of the reference heel for insole. . The reference heel buttock apex 100 Ap is present in the section (2) as shown in FIGS. 8 (a) and 8 (b).

  As shown in FIG. 8B, the thickness of the reference heel buttock apex 100Ap is about 2.0 mm (1.5 to 2.5 mm, preferably 2.0 mm).

[Description of the fifth metatarsal bone corresponding region]
The fifth metatarsal bone corresponding region 146 corresponds to the section (9) to the section (11) as shown in FIGS. 8 (a) and 8 (b).

  As shown in FIG. 8 (b) and FIG. 10 (c), FIG. 10 (d) and FIG. 10 (e), the thickness of the section (9) to the section (11) is about 2.0 mm (1.5 to 2) , 5 mm). That is, the fifth metatarsal corresponding region 146 is made approximately the same as the thickness of the section (17) of the insole forefoot portion 101A for the reference heel and the thickness of the section (3) and the section (2) corresponding to the rear foot 360 There is. That is, the thickness is reduced.

(Summary of Example 1)
Therefore, the height of the reference heel outer vertical arch convex portion P9A is about 14.0 mm, and the height of the reference heel central vertical arch line rear side position point P8A is about 14.0 mm. It is possible to lift at these two vertices.

  In addition, since the reference heel soil convex region 170A has a curved surface shape having each vertex and each position having the heights described above, it is uniformly in contact with the sole surface Qb of the sole and the contact sole surface Qa It will support the soles.

  At this time, the thickness near the bottom of the fifth metatarsal corresponding region 146 is made as thin as that of the insole forefoot portion 101A for the reference heel and the heel portion 360a, and the height to the surface is 10.0 mm. Since it is an extent, there is a sufficient height difference of about 4.0 mm between the reference heel outer vertical arch convex portion P9A and the reference heel central vertical arch line rear position point P8A. As a result, the base of the fifth metatarsal bone 346 does not hit the surface of the insole strongly, so that the base of the fifth metatarsal bone 346 does not ache.

Example 2
As Example 2, the difference in the position of each vertex between the low heel insole 100C and the high heel insole 100B with respect to the standard heel insole 100A will be described with reference to FIG. Moreover, the difference in height of each vertex will be described with reference to FIG. 13, FIG. 14, FIG. 15, and FIG.

  FIG. 13 is a cross-sectional view for explaining the difference in height of each vertex on the front lateral arch line Ya.

  FIG. 14 is a cross-sectional view for explaining the difference in height of each vertex on the central lateral arch line Yb.

  FIG. 15 is a cross-sectional view for explaining the difference in height of each vertex on the rear lateral arch line Yc.

  FIG. 16 is a cross-sectional view for explaining the difference in height of each vertex in the outer longitudinal arch convex portion.

  In these figures, only the curve of the surface of the insole is shown and described.

  Further, in FIG. 12, the reference heel insole 100A, the low heel insole 100C, and the high heel insole 100B will be described as one drawing.

  Further, in FIG. 12, the high heel insole 100B is shown by a dotted line, and the low heel insole 100C is shown by a dotted line.

  As shown in FIG. 12, the high heel insole 100B is such that its tip is on the back side about 3 mm (2.5 to 3.5 mm, preferably 3.0 mm) with respect to the standard heel insole 100A. (Indicated by a dotted line). In addition, the low heel insole 100C is set to be on the front side (indicated by a dotted line) by about 3 mm (1.5 to 4.0 mm: preferably 3 mm).

  Furthermore, the high heel soil area first convex area 170B (one dotted line) is about 3 mm (1.5 to 4.0 mm, preferably 3 mm) in the rear side with respect to the standard heel soil area first convex area 170A (solid line). It is supposed to be.

  In addition, the low heel soil rim first convex area 170C (dotted line) is on the front side about 3 mm (1.5 to 4.0 mm, preferably 3 mm) with respect to the standard heel earth convex surface area 170A (solid line). It has been

  In FIG. 12, the reference heel inner longitudinal arch line front position point P1A (▲) existing on the front horizontal arch line Ya in each insole, the high heel inner longitudinal arch line front position point P1B (double triangle) Lower heel inner vertical arch line front position point P1C (△), reference heel horizontal arch convex apex P2A (●), high heel horizontal arch convex apex P2B (◎), for low heel Horizontal arch convexity peak P2C (○), standard heel outer longitudinal arch line front position point P3A (▲), high heel outer longitudinal arch line front position point P3B (double triangle), low heel outer side Vertical arch line front position point P3C (Δ) is shown.

  In addition, a reference heel inner vertical arch convexity peak P4A (●) existing on the central horizontal arch line Yb in each insole, a high heel inner vertical arch convexity peak P4B (◎), and a low height High-heel heel central vertical arch line center position point P5C (○), high heel central vertical arch line center position point P5B (double triangle), low Center vertical arch line center position point P5C (△) for heel, outer vertical arch line center position point P6A (▲) for reference heel, outer vertical arch line center position point P6B (double triangle) for high heel, low And a heel outer longitudinal arch line center position point P6C (Δ).

  In addition, the reference heel inner longitudinal arch line rear position point P7A (▲) existing on the rear lateral arch line Yc in each insole, and the high heel inner longitudinal arch line rear position point P7B (double Middle vertical arch line rear position point P7C (Δ) for low heel, middle vertical arch line rear position point P8A for reference heel, and middle vertical arch line rear position point P8B for high heel (double) (Triangle) and the central vertical arch line rear side position point P8C (Δ) for low heel are shown.

  Further, a reference heel outer longitudinal arch convex portion 160A (solid line), a high heel outer longitudinal arch convex portion 160B (one dotted line), and a low heel outer longitudinal arch convex portion 160C (dotted line) are shown. Each reference heel outer longitudinal arch convexity peak P9A (●), high heel outer longitudinal arch convexity apex P9B (と), and low heel outer longitudinal arch convexity apex P9C (○) It shows.

(Description of each vertex position on Ya)
As shown in FIG. 12, in the case of the high heel insole 100B, the high heel inner longitudinal arch line front position point P1B (double triangle) and the convex apex P2B (頂点) for the high heel horizontal arch and the high heel The outer longitudinal arch line front position point P3B (double triangle) is formed at a position of about 120.5 mm (120.0 to 121.0 mm, preferably 120.5 mm) from the rear end 103 of the insole. That is, it is formed on the rear side by about 3.0 mm as compared with the reference heel inner longitudinal arch line front position point P1A (▲) in the case of the reference heel insole 100A.

  In the case of the low heel insole 100C, the low heel inner longitudinal arch line front position point P1C (C), the low heel horizontal arch convex peak P2C (○), and the low heel outer vertical arch line front position point P3C (△) is about 126.5 mm from the back end of the insole 103, and is formed about 3.0 mm before compared to the inner vertical arch line front position point P1A (▲) for the reference heel in the case of the insole 100A for the reference heel It is done.

  On the other hand, as shown in FIG. 13, with respect to the reference heel inner longitudinal arch line front position point P1A (に 対 し て) on the front horizontal arch line Ya, the high heel inner longitudinal arch line front position point P1B (double triangle) Is formed by lowering by about 0.5 mm (0.3 to 0.7 mm: preferably 0.5 mm), and the low heel inner longitudinal arch line front position point P1C (.DELTA.) Is about 1.5 mm (1.2 ~ 1.7 mm: preferably 1.5 mm), it is formed high.

  That is, the inner vertical arch line front position point P1 (P1A, P1B, P1C) is highest for the low heel inner vertical arch line front position point P1C in the case of the low heel insole 100C, and then the reference heel insole 100A. In the case of the reference heel inner longitudinal arch line front position point P1A, the high heel inner longitudinal arch line front position point P1B in the case of the high heel insole 100B is formed the lowest.

  In addition, as shown in FIG. 13, the convex portion apex P2B (A) for the high heel horizontal arch with respect to the convex portion apex P2A (indicated by ●) for the standard heel horizontal arch on the front side lateral arch line Ya. Is formed to be lowered by about 1.6 mm (1.3 to 1.9 mm: preferably 1.6 mm), and the convex apex P2C (○) of the low heel horizontal arch is about 1.5 mm (1. 2 to 1.7 mm: preferably 1.5 mm), and is formed high.

  That is, the convex apex P2 (P2A, P2B, P2C) for the lateral arch is the highest for the convex apex P2C (o) for the low heel lateral arch in the case of the low heel insole 100C, and then the insole 100A for the reference heel. In the case of the reference heel, the convex portion apex P2A (●) for the lateral heel for the heel is formed next higher, and the convex apex P2B (◎) for the lateral arch for the high heel is formed the lowest.

  Further, the high heel outer longitudinal arch line front position P3B (double triangle) is about 0.3 mm (0.2 to 0.4 mm) with respect to the reference heel outer longitudinal arch line front position P3A (A). : Preferably 0.3 mm), formed low, the low heel outer longitudinal arch line front position point P3C (△) is about 0.3 mm relative to the reference heel outer longitudinal arch line front position point P3 A (() (0.2 to 0.4 mm: preferably 0.3 mm), it is formed low.

  That is, the outer longitudinal arch line front position point P3 (P3A, P3B, P3C) is the highest for the low heel outer longitudinal arch line front position point P3C (Δ) in the case of the low heel insole 100C, next for the reference heel. The reference heel outer longitudinal arch line front position point P3A (▲) in the case of the insole 100A is the next highest, and the high heel outer longitudinal arch line front position point P3B in the case of the high heel insole 100B is the lowest.

(Description of each vertex position on Yb)
As shown in FIG. 12, in the case of the high heel insole 100B, the convex portion apex P4B (頂点) for the high heel inner longitudinal arch, the central vertical arch line center position point P5B (double triangle) for the high heel, and the height The heel outer longitudinal arch line center position point P6B (double triangle) is formed at a position of about 93.0 mm (92.5 to 93.5 mm, preferably 93.0 mm) from the rear end 103 of the insole.

  That is, in the case of the high heel insole 100B, the convex apex P4B (◎) for the high heel inner longitudinal arch and the central longitudinal arch line center position point P5B (double triangle) for the high heel and the outer longitudinal arch line central for the high heel The position point P6B (double triangle) is formed on the front side by about 3.0 mm in comparison with the inner heel arch vertical peak P4A (●) for the standard heel in the case of the standard heel insole 100A.

  In the case of the low heel insole 100C, the low heel internal longitudinal arch convexity peak P4C (C), the low heel central longitudinal arch line central position point P5C (Δ), and the low heel external longitudinal arch line central The position point P6C (△) is about 87.0 mm (86.5 to 87.5 mm: preferably 89.0 mm) from the back end of the insole 103, and for the inner vertical arch for the reference heel in the case of the insole 100A for the reference heel It is formed about 3.0 mm behind as compared with the convex apex P4A (●). That is, it is formed at a position which is about 1.45 times the length of the 6 cm heel from the rear end 103 of the insole.

  On the other hand, as shown in FIG. 14, the ridge apex P4B (◎) for the high heel inner longitudinal arch is 0 with respect to the apex P4A (●) for the inner heel arch for the reference heel on the central lateral arch line Yb. .3 mm (0.2 to 0.5 mm: preferably 0.3 mm), formed to be high, and the convex apex P4C (() for the low heel inner longitudinal arch is formed to be low by about 0.3 mm .

  That is, in the case of the inner vertical arch convex portion P4 (P4A, P4B, P4C), the high heel inner vertical arch convex peak P4B in the case of the high heel insole 100B is the highest, and then the reference heel insole 100A. In the case of the reference heel inner vertical arch convexity peak P4A (●) is next higher, and the low heel inner vertical arch convex apex P4C in the case of the low heel insole 100C is formed the lowest.

  Further, as shown in FIG. 14, the central vertical arch line center position point P5B (double triangle) for high heel in the case of the high heel insole 100B on the central lateral arch line Yb is the case for the standard heel insole 100A. The center vertical arch line center position point P5C for low heel in the case of the low heel insole 100C is formed to be raised by about 0.5 mm with respect to the center vertical arch line center position point P5A (▲) for the reference heel It is formed low about 0.5 mm.

  That is, the central longitudinal arch line central position point P5 (P5A, P5B, P5C) is the highest at the central longitudinal arch line central position point P5B (double triangle) for the high heel in the case of the high heel insole 100A, The center vertical arch line center position point P5A (▲) for the reference heel in the case of the heel insole 100A is next highest, and the center vertical arch line center position point P5C (Δ) for the low heel in the case of the low heel insole 100C is the highest. It is formed low.

  Furthermore, the high heel external longitudinal arch line center position point P6B (double triangle) in the case of the high heel insole 100B is the external longitudinal arch line central position point P6A (▲) in the reference heel insole 100A. Against a height of about 1.0 mm (0.5 to 1.5 mm: preferably 1.0 mm), and the low heel outer longitudinal arch line center position point P6C (Δ) in the case of the low heel insole 100C is formed high Is formed as low as about 1.0 mm.

  That is, the outer vertical arch line central position point P6 (P6A, P6B, P6C) is the highest for the high heel outer vertical arch line central position point P6B (double triangle) in the case of the high heel insole 100B, and the reference is next The outer vertical arch line center position point P6A (▲) for the reference heel in the case of the heel insole 100A is next highest, and the outer heel arch line central position point P6C for the low heel in the case of the low heel insole 100C is the lowest. Ru.

(Back side horizontal arch line Yc)
As shown in FIG. 12, in the case of the high heel insole 100B, the high heel inner longitudinal arch line rear position point P7B (double triangle) and the high heel central longitudinal arch line rear position point P8B are insoles. It is formed at a position of 74.0 mm (73.5 to 74.5 mm, preferably 74.0 mm) from the rear end 103.

  In the case of the low heel insole 100C, the low heel inner longitudinal arch line rear position point P7C (△) and the low heel central longitudinal arch line rear position point P8C (Δ) are the insole rear ends 103 to 68. It is formed in the position of about .0 mm (67.5-68.5 mm: preferably 68.0 mm).

  That is, the high heel inner longitudinal arch line rear position point P7B (double triangle) in the case of the high heel insole 100B and the high heel central longitudinal arch line rear position point P8B are the cases of the insole 100A for the reference heel. The inner side longitudinal arch line rear side position point P7A (▲) of the standard heel and the central longitudinal arch line rear side position point P8A of the standard heel are respectively formed on the front side by about 3.0 mm.

  In the case of the low heel insole 100C, the low heel inner longitudinal arch line rear position point P7C (Δ) and the low heel central longitudinal arch line rear position point P8C (Δ) are the reference heel insole 100A. The reference heel inner longitudinal arch line rear side position point P7A and the reference heel central longitudinal arch line rear side position point P8A are formed so as to be about 3.0 mm behind each other.

  On the other hand, as shown in FIG. 15, the high heel internal longitudinal arch line rear position point P7B (two) relative to the reference heel internal longitudinal arch line rear position point P7A (() on the rear lateral arch line Yc. The heavy triangle) is formed about 1.5 mm (1.3 to 1.7 mm: preferably 1.5 mm) high, and the low heel inner longitudinal arch line rear side position point P7C is about 2.0 mm (1.8 ~ 2.2 mm: preferably 2.0 mm), it is formed low.

  That is, the inner vertical arch line rear position point P7 (P7A, P7B, P7C) is the highest for the high heel inner vertical arch line rear position point P7B in the case of the high heel insole 100B, and then the insole for the reference heel. The inner vertical arch line back position point P7A (▲) for the reference heel in the case of 100A is the next highest, and the inner bottom vertical arch line rear position point P7C for the low heel in the case of the low heel insole 100C is the lowest. .

(Convex part 160 for outer side longitudinal arch)
The height of each vertex of the outer longitudinal arch convex portion 160 in the case of the reference heel insole 100A, the high heel insole 100B, and the low heel insole 100C will be described with reference to FIG.

  As shown in FIG. 16, the high heel outer longitudinal arch convexity peak P9B for the high heel insole 100B is for the reference heel horizontal longitudinal arch convex apex P9A (●) in the case of the reference heel insole 100A. Height is about 0.3 mm (0.2 to 0.4 mm: preferably 0.3 mm), and in the case of the low heel insole 100C, the convex apex P9C (○) for the low heel outer longitudinal arch is 0.5 mm The degree is being lowered.

(Reason for height)
The height of each vertex is determined by the result of measurement by a measuring device (not shown) which mounts the foot and changes the inclination to measure the height of each part of the sole.

  In the present embodiment, the height of each site QP1 to QP9 of the sole shown in FIGS. 17 (a) and 17 (b) was measured.

  And the average of the height of QP1-QP9 of each site | part of a foot sole of several women is shown in FIG.18, FIG.19, FIG.20.

  FIG. 18 shows the front lateral arch line Ya, FIG. 19 shows the central lateral arch line Yb, and FIG. 20 shows the rear lateral arch line Yc. From these measurement results, the height of each vertex and position point of each insole shown in FIG. 12 and the like was determined.

(Explanation by difference in height of heel)
The effects of using the heel height-sorted insole of this embodiment will be described using FIG. In this description, the lateral arch convex portion 150 will be described as an example.

FIG. 21 (a) shows the case where the high heel insole 100B is used, and FIG. 21 (b) shows the case where the reference heel insole 100A is used, and FIG. 21 ( c) shows the low heel insole. The case of using 100 C is shown. However, the insole is shown in an a-b cross section in FIG. 1 and the foot skeleton is shown as viewed from the inside of the foot.

  Then, when the foot is inserted into the female shoe 200 using the standard heel insole 100A of FIG. 21 (b) and FIG. 21 (c), the instep of the foot is curved as the heel becomes higher. ing. For this reason, the position of the area of the sole corresponding to the top of the lateral arch also shifts slightly to the rear as the heel increases. That is, the convex portion apex portion QP2 (indicated by □) of the lateral arch is displaced rearward.

  However, as shown in FIG. 21 (a), this heel height classified insole is for the high heel lateral arch convexity peak P2B of the high heel insole 100B as the reference heel insole 100A shown in FIG. 21 (b). Since it is shifted backward with respect to the convex apex P2A for the lateral arch for the reference heel, the apex P2B for the convex for the high arch lateral arch is shown in FIG. 17 with the second metatarsal 343 and the third metatarsal 344 Position (lateral arch apex portion QP2) to support the lateral arch of the foot.

  In addition, when the foot is inserted into a female shoe using the low heel insole 100C shown in FIG. 21 (c) and FIG. 21 (b), the foot has a straight instep as the heel is lowered. Become. For this reason, the position of the area of the sole corresponding to the top of the lateral arch is slightly shifted forward as the heel is lowered. That is, the lateral arch apex portion QP2 of the foot is slightly shifted forward.

  However, the low heel horizontal arch convexity peak P2C of the low heel insole 100C is in front of the standard heel horizontal arch convexity apex P2A of the standard heel insole 100A as shown in FIG. Since it is offset, the low heel horizontal arch convexity P2C is positioned between the second metatarsal 343 and the third metatarsal 344 (QP2) to support the lateral arch of the foot.

  FIG. 22 shows the effect of load ratio when the heel height-classified insole of this embodiment is used.

  The left side shows the load distribution when the heel height-sorted insole of this embodiment is not used. When the heel height classified insole is not used, a large load is applied to the lateral arch convex portion 150. On the other hand, when the heel height-classified insole 100 of the present embodiment is used, as shown on the right, the portion for the lateral arch convex portion 150 is blue. That is, the load is reduced. And, as shown in the left figure, the load is generally dispersed since it is generally blue. Therefore, the foot does not get tired and the foot does not get hurt.

<Other Embodiments>
The insole forefoot portion 101 (101A,...) Of the above embodiment may be elongated as shown in FIG. 23 (a), or may have a constant thickness as shown in FIG. 23 (b). Absent.

  23 (a) and 23 (b) are shown by the a-b cross section in FIG. 1, and are shown with the heel height classified insole 100 (for 3 cm, 6 cm or 9 cm) placed on the floor.

  Further, as shown in FIG. 24, a skin 400 (leather, synthetic leather, etc.) may be adhered and used on the heel height-classified insole 100 (for 3 cm, 6 cm or 9 cm). The skin 300 may be the same as the vertical dimension of the heel height-classified insole 100 or may be long.

  FIG. 24 (a) shows the top surface, and FIG. 24 (b) shows the a-b cross section in FIG. However, FIG.24 (b) has shown the state which pulled the front side of the outer_skin | epidermis 400. FIG.

  In addition, when the heel is raised by 1 cm, the apex (for example, P4) is raised about 2 mm (1.8 to 2.2 mm: preferably 2.0 mm) and the convex apex P2 for the lateral arch is about 1 mm (0.8 to 1). .2 mm: preferably 1.0 mm) is preferably formed at the back.

  The embodiment described above exemplifies a configuration for embodying the technical idea of the present invention, and does not limit the arrangement and combination of component parts, the order of processing, and the like.

  Various changes can be added to the technical idea of the present invention within the technical scope described in the claims. It should be noted that the drawings are schematic, and the configuration of the apparatus is different from the actual one.

Reference Signs List 100 heel height classified insole 140 inner vertical arch convex 150 horizontal arch convex 160 outer vertical arch convex 170 arch area convex area 200 female shoe 220 sole 230 heel 310 forefoot 240 middle foot 360 rear foot 312 1st distal segment bone 313 second distal segment bone 314 third distal segment bone 315 fourth distal segment bone 316 fifth distal segment bone 342 first metatarsal bone 343 second metatarsal bone 344 third metatarsal bone 345 fourth metatarsal bone 346 5 metatarsus 352 1st cuneiform 353 2nd cuneiform 354 3rd scaly 356 cubic bone 357 scaly bone 362 talar 363 calcaneus

Claims (6)

According to the height of the heel of a female shoe having a lateral arch projection having a vertex between the second metatarsal and the third metatarsal, a convex for the inner longitudinal arch and a convex for the outer longitudinal arch The height of the apex of each of the lateral arch projection, the inner longitudinal arch projection and the outer longitudinal arch projection and the position of the apex are made different from each other, and they are used by being attached to the insole of the corresponding female shoe Being an insole,
The female shoes have a predetermined height as a reference height, and a reference heel female shoe having a reference heel of the reference height or a high heel female shoe having a high heel higher than the reference heel or a lower than the reference heel Low heel women shoes with heels,
The insole used for the high heel female shoes is a high heel insole, and the high heel insole is
The height of the apex for the high heel insole lateral arch, which is the apex of the high heel insole lateral arch convex, is the height of the reference heel. Convex heel for insole horizontal arch, which is the apex of convex for the lateral arch of the insole for the heel used in female shoes, and apex of the convex for the lateral arch, insole for low heel, used in the low heel female shoes And the convex portion for the high heel insole lateral arch is formed to be lowest with respect to the apex for the low heel insole lateral arch.
The inner vertical arch projection is a high heel insole inner vertical arch projection, and the height of the high heel insole inner vertical arch apex is the apex of the high heel insole inner vertical arch projection An apex for the inner heel for the reference heel, an apex for the inner heel for the reference heel, which is the apex of the inner longitudinal arch, and an apex for the lower heel, the apex for the inner vertical arch of the low heel insole; The highest-heel insole inner longitudinal-arch convex portion is formed at the highest height with respect to the vertical-arch convex portion apex,
The convex portion for the outer longitudinal arch is a convex portion for the insole outer longitudinal arch for high heel, and the height of the apex for the high heel insole outer longitudinal arch which is the apex of the convex for the high heel insole outer longitudinal arch is An apex for an outer longitudinal arch for the reference heel, an apex for an outer longitudinal arch for the reference heel, which is an apex of the outer longitudinal arch, and an apex for a low heel, an apex for the outer longitudinal arch for the low heel insole; The high-heel insole outer longitudinal arch projection is formed at the highest height with respect to the vertical arch projection apex,
The apex for the high heel inner longitudinal arch is formed on the front side of the apex for the reference heel inner longitudinal arch.
The apex for the high heel lateral arch is formed at a position on the rear side with respect to the apex for the standard heel lateral arch,
The heel high-classed insole, wherein the high heel outer longitudinal arch convex portion apex is formed on the front side with respect to the reference heel outer longitudinal arch convex portion apex . According to the height of the heel of a female shoe having a lateral arch projection having a vertex between the second metatarsal and the third metatarsal, a convex for the inner longitudinal arch and a convex for the outer longitudinal arch The height of the apex of each of the lateral arch projection, the inner longitudinal arch projection and the outer longitudinal arch projection and the position of the apex are made different from each other, and they are used by being attached to the insole of the corresponding female shoe Being an insole,
The female shoes have a predetermined height as a reference height, and a reference heel female shoe having a reference heel of the reference height or a high heel female shoe having a high heel higher than the reference heel or a lower than the reference heel Low heel women shoes with heels,
The insole used for the low heel female shoes is a low heel insole, and the low heel insole is
The horizontal arch projection is a low heel insole horizontal arch projection, and the height of the low heel insole horizontal arch apex, which is the apex of the low heel insole horizontal arch projection, is the reference heel Convex heel for insole horizontal arch which is the apex of convex for lateral arch of insole used for female shoes, and apical of convex for lateral arch of insole for high heel used in high heel female shoes (The peak for the high heel insole lateral arch convexity) which is the highest, and forms the low heel insole lateral arch convexity,
The convex portion for the inner longitudinal arch is a convex portion for the insole inner longitudinal arch for the low heel, and the height of the convex apex for the inner heel for the low heel is the apex of the convex portion for the inner heel for the low heel insole An apex for the inner heel for the reference heel, an apex for the inner heel for the reference heel, which is the apex of the inner longitudinal arch, and an apex for the high heel, the apex for the inner vertical arch for the high heel insole; The low-heel insole inner longitudinal arch projection is formed at the lowest position with respect to the vertical arch projection apex,
The convex portion for the outer longitudinal arch is a convex portion for the insole outer longitudinal arch for the low heel, and the height of the convex portion for the outer heel for the insole outer longitudinal arch which is the apex of the convex for the low heel insole outer longitudinal arch is An apex for an outer longitudinal arch for the reference heel, an apex for an outer longitudinal arch for the reference heel, which is an apex of the outer longitudinal arch, and an apex for a low heel, an apex for the outer longitudinal arch for the low heel insole; The low-heel insole outer longitudinal arch projection is formed at the lowest position with respect to the vertical arch projection apex,
The apex for the low heel inner longitudinal arch is formed on the rear side with respect to the reference heel inner longitudinal arch apex.
The apex for the low heel lateral arch is formed on the front side with respect to the apex for the standard heel lateral arch.
The heel height classified insole, wherein the low heel outer longitudinal arch convex portion is formed at a position on the rear side with respect to the reference heel outer longitudinal arch convex portion apex . According to the height of the heel of a female shoe having a lateral arch projection having a vertex between the second metatarsal and the third metatarsal, a convex for the inner longitudinal arch and a convex for the outer longitudinal arch The height of the apex of each of the lateral arch projection, the inner longitudinal arch projection and the outer longitudinal arch projection and the position of the apex are made different from each other, and they are used by being attached to the insole of the corresponding female shoe Being an insole,
The female shoes have a predetermined height as a reference height, and a reference heel female shoe having a reference heel of the reference height, or a high heel female shoe having a high heel whose height is higher than the reference heel, or the reference Low-heel women's shoes with low-heel lower than heel,
The insole used for the reference heel female shoe is a reference heel insole, and the reference heel insole is
The high-heel is the height of the reference heel for insole horizontal arch convex that is the apex of the reference heel for insole horizontal arch convex of the reference heel for the horizontal arch convex. A peak for the high heel insole lateral arch, which is an apex of a lateral arch convex portion for a high heel insole used for a female shoe, and a vertex for a lateral arch convex portion for a low heel insole used for the low heel female shoe The height between the low heel insole horizontal arch convexity and the convex for the standard heel insole horizontal arch,
The inner longitudinal arch projection is a reference heel insole inner longitudinal arch projection, and the height of the reference heel insole inner longitudinal arch apex which is the apex of the reference heel inner inward longitudinal arch projection is An apex for an inner longitudinal arch of the high heel insole, an apex for an inner longitudinal arch for the high heel which is an apex of the inner longitudinal arch of the inner heel, and an inner for a low heel which is an apex of an inner longitudinal arch convex for the low heel. The height is made between the vertical arch convexity apex and the convex for the standard heel insole inner longitudinal arch is formed,
The convex portion for the outer longitudinal arch is a convex portion for the insole outer longitudinal arch for the reference heel, and the height of the apex for the outer heel for the insole outer longitudinal arch which is the vertex of the convex portion for the outer heel for the insole outer longitudinal arch A high heel insole outer vertical arch convexity which is the apex of the high heel insole outer vertical arch convexity and a low heel insole outer which is the apex of the low heel insole longitudinal outer arch convexity The height is made between the vertical arch convexity apex and the convex for the standard heel insole outer longitudinal arch is formed,
The apex for the inner vertical arch for the reference heel is:
The high heel inner longitudinal arch convex portion is formed at a position between a reference heel inner longitudinal arch convex apex.
The reference heel horizontal arch convexity apex is formed at a position between the high heel horizontal arch convexity apex and the low heel horizontal arch convexity apex.
The reference heel outer vertical arch convex portion is formed at a position between the high heel outer vertical arch convex apex and the reference heel outer vertical arch convex apex. heel height by insole to. The outer vertical arch convexity apex of the outer longitudinal arch convexity is substantially opposed to the outer longitudinal arch convexity on the inner longitudinal arch line passing through the ball of the foot and the inner longitudinal arch convexity apex of the inner longitudinal arch convexity And an inner longitudinal arch line rear side position point is formed at a position on the rear side with respect to the inner vertical arch convex portion apex,
Furthermore, the central longitudinal position is substantially opposite to the inner longitudinal arch line rear side position point on the central longitudinal arch line near the central longitudinal arch line parallel to the inner longitudinal arch line and passing the apex of the lateral arch projection of the lateral arch projection. An archline back position point is formed,
The height of the edge point of the foot lateral edge surface near the convex portion for the outer longitudinal arch is the height of the central longitudinal arch line central position point near the position on the central longitudinal arch line opposite to the apex of the convex portion for the inner longitudinal arch And about
The height of the inner longitudinal arch line rear position point is about the height of the central longitudinal arch line central position point,
The height of the central longitudinal arch line rear position point is
The height of the apex for the outer longitudinal arch in the outer longitudinal arch projection is about the height, and the fifth metatarsal corresponding region has a thickness corresponding to the rear foot of the insole rear foot or insole forefoot portion The heel height-sorted insole according to claim 1, 2 or 3, characterized in that it has a thickness . The tip line substantially corresponds to a line passing near the center of each of the first, second, third, fourth, and fifth base bones of the forefoot portion of the foot The heel height-sorted insole according to claim 1, 2 or 3, wherein the line is formed into a triangular shape, and the line covers the back surface of the midfoot portion and the back surface of the rear foot portion . 4. The insole according to claim 1, 2 or 3, wherein said high heel insole, low heel insole and reference heel insole are made of cork rubber (containing about 20% urethane) or foam rubber. .