JP2018075107A - Shoemaking mold manufacturing method and shoe manufacturing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a shoemaking mold manufacturing method that can calculate the thickness of an adhesive member for the hallux valgus and the thickness of the adhesive member for the varus small toe, respectively, even if a patient has both diseases of the hallux valgus and the varus small toe, and also provide a shoe manufacturing method using the shoemaking mold.SOLUTION: A shoemaking mold manufacturing method comprises: a step of measuring a foot length and an instep around (S1); a step of selecting a wooden mold according to the foot length and the instep around (S2); a step of measuring a pedal hallux valgus angle (varus small toe angle) and the hallux valgus (varus small toe) of the wooden mold (S3); a step of calculating the thickness of an adhesive member by the measured angle (S4); a step of making a correction wooden mold where the adhesive member of the calculated thickness is stuck (S5); and a step of manufacturing shoes using the correction wooden mold (S6). In the step S5, the adhesive member is made according to the calculated thickness (S11), and the thickness of the adhesive member is adjusted (S22) after the adhesive member is made to adhere to the wooden mold (S12) or the adhesive member is made to adhere (S21).SELECTED DRAWING: Figure 1

Description

  The present invention relates to a method for manufacturing a shoe mold, which is a mold for manufacturing shoes, and a method for manufacturing a shoe, and more particularly to a shoe manufacturing mold for a hallux valgus or a club valgus and a method for manufacturing a shoe.

  In recent years, hallux valgus and hallux valgus have become a problem. Hallux valgus is a symptom in which the toe of the foot is bent in the direction of the small toe (small finger) and the base of the toe protrudes outward. This is a symptom in which the base of the gavel protrudes outward. In the case of hallux valgus or hallux valgus, when walking with normal shoes, the protruding part is pressed against the inner surface of the shoes, causing pain.

  Here, the applicant has obtained the patent shown in Patent Document 1. In “Shoemaking type manufacturing method and shoe manufacturing method” in Patent Document 1, the foot length, foot girth, and instep are measured, and the wooden type corresponding to the foot length and instep is selected, and the foot girth and instep are selected. The thickness of the affixing member is calculated from the measured values around it, an affixing member is created according to the calculated thickness, the affixing member is affixed to a wooden pattern, and shoes are manufactured using the wooden pattern.

  And when calculating the thickness of a sticking member, it calculates according to the calculation formula containing the measured value of a foot circumference, and the measured value of an instep.

  Further, the applicant has known prior art documents of Patent Documents 2 to 4.

Japanese Patent No. 5289366 Japanese Patent No. 3479019 Japanese Patent No. 4087747 Japanese Patent No. 5073316

  However, in the shoemaking manufacturing method in Patent Document 1, the thickness of the affixing member is calculated based on the measured value of the foot circumference and the measured value of the instep, but some patients have a hallux valgus and a hallux valgus as an ankle disease. The thickness of the affixing member is calculated as the sum of the thickness of the affixing member for hallux valgus and the thickness of the affixing member for hallux valgus, and the affixing member for hallux valgus There was a problem that the thickness of the inner member and the thickness of the inner member for the inner gavel cannot be calculated separately. In other words, when there is only one ankle joint disease of hallux valgus or hallux valgus, the thickness of the affixing member for the one can be calculated, but both hallux valgus and hallux valgus diseases However, the calculated thickness must be allocated to the thickness of the affixing member for hallux valgus and the thickness of the affixing member for hallux valgus, but cannot be accurately distributed.

  Therefore, the present invention provides a shoe-making mold that can calculate the thickness of a member for valgus valgus and the thickness of a member for varus pelvis even when the patient has both hallux valgus and hallux valgus diseases. It is an object of the present invention to provide a method for producing shoes and a method for producing shoes using the shoe mold.

  The present invention has been created to solve the above-described problems. First, a method for manufacturing a shoe mold, which is a mold for manufacturing shoes, is a foot on a foot of a user of a shoe to be manufactured. The foot size measurement step for measuring the length and instep, and the foot disease angle indicating the degree of protrusion of the protrusion due to the foot disease that is hallux valgus or hallux valgus, and the apex of the protrusion in the outline in plan view of the protrusion And measuring a foot disease angle which is an acute angle formed by a first straight line corresponding to the inclination of one of the two contours and a second straight line corresponding to the inclination of the other contour, and a foot size measuring step The projection part at the shoemaking mold angle indicating the degree of protrusion in the protrusion corresponding area, which is an area corresponding to the protrusion due to foot disease in the shoemaking mold according to the measured value of the foot length and the measurement value of the instep Outline of the corresponding area in plan view In this case, the shoemaking mold is an acute angle formed by the third straight line corresponding to the inclination of one of the contours on both sides via the apex of the protrusion corresponding region and the fourth straight line corresponding to the inclination of the other contour. An angle measurement step for measuring an angle and a calculation step for calculating the thickness of the affixing member, wherein the foot disease angle is α, the shoemaking angle is β, and the toe side proximal end in a plan view of the protrusion due to the foot disease When the length between the base ends on the heel side is M, a calculation step for calculating the thickness L1 of the affixing member according to the formula (A), and a correction for creating a correction shoemaking type consisting of the shoemaking die and the affixing member In the corrected shoemaking process, in the corrected shoemaking process, the adhesive member is attached to the protruding part corresponding region of the shoemaker, and the corrected shoemaking process is the thickness calculated in the calculating process. It is characterized by having

  In the first configuration, the shoe is manufactured by using the wooden mold to which the attaching member is attached, thereby preventing the portion of the hallux valgus or the portion of the varus of the foot from being pushed against the inner surface of the shoe. It is possible to prevent pain in the hallux valgus part or the hallux valgus part.

  In particular, measure the foot disease angle for hallux valgus and hallux valgus, and measure the shoe mold angle indicating the degree of protrusion in the protrusion corresponding region, which is the region corresponding to the protrusion due to foot disease in the shoe manufacturing mold Since the thickness of the affixing member is calculated from the foot disease angle and the shoemaking mold angle, the thickness of the affixing member for hallux valgus and the thickness of the affixing member for hallux valgus can be calculated respectively. Even in the case of having both diseases of anti-small wrinkles, the thickness of each pasting member can be calculated.

  Second, in the first configuration, the foot disease is hallux valgus, and in the angle measurement step, the foot disease angle is measured for the protrusion by the hallux valgus, and the region corresponding to the protrusion by the hallux valgus in the shoemaking mold is measured. The shoe mold angle is measured for a certain protrusion-corresponding region, and in the calculation process, the length between the base end on the toe side and the base end on the heel side in the plan view of the protrusion part due to the hallux valgus is M. The member is affixed to a protruding portion corresponding region, which is a region corresponding to a protruding portion formed by a shoe-shaped hallux valgus.

  Thirdly, in the first or second configuration, the foot disease is varus varus, and in the angle measurement step, the foot illness angle is measured for the protrusion due to the varus varus, The shoe-making angle is measured for the protrusion corresponding area, which is the area corresponding to the protrusion due to the club gait, and the toe side base end and the heel side base in the plan view of the protrusion due to the hallux valgus are calculated. The length between the ends is M, and in the attaching step, the attaching member is attached to a protruding portion corresponding region which is a region corresponding to the protruding portion due to the shoe-shaped varus.

  Fourthly, in any one of the first to third configurations, in the angle measurement step, in the composite image obtained by superimposing the planar image of the foot and the planar image of the shoemaking mold at the same scale, the contour of the shoemaking mold is obtained. The first intersection (A), which is the two intersections that serve as the base ends of the contours of the foot disease protrusions that protrude from the shoemaking contours at the two intersections where (W) and the foot contours (U) intersect The second intersection point (B) is specified, the protrusion point (c ′) which is the position of the most protruding vertex is specified in the contour of the protrusion of the foot disease, and a straight line (P1) connecting the first intersection point and the protrusion point is determined. The first straight line, the straight line (P2) connecting the second intersection and the protruding point is the second straight line, the tangent line (Q1) at the first intersection of the shoemaking contour is the third straight line, and the shoemaking contour first The tangent line (Q2) at the two intersections is the fourth straight line, and in the calculation process, the protrusion due to foot disease Characterized in that the length between the length first intersection and the second intersection point between the proximal end and the heel side of the base end of the toe-side in plan view.

  Therefore, in the angle measurement step, the first straight line to the fourth straight line are set as described above, so that a shoe suitable for a case where the heel height is low can be manufactured.

  Fifth, in any one of the first to third configurations, in the angle measurement step, in the composite image in which the flat image of the foot and the flat image of the shoe manufacturing are overlapped at the same scale, the contour of the shoe manufacturing is obtained. The first intersection (A), which is the two intersections that serve as the base ends of the contours of the foot disease protrusions that protrude from the shoemaking contours at the two intersections where (W) and the foot contours (U) intersect The second intersection point (B) is specified, and in the outline of the protrusion of the foot disease, it is the inclined side on the first intersection side among the inclined sides on both sides through the protruding point (f) which is the position of the most protruding vertex. A straight line (P1) passing through the first intersection point in a straight line parallel to the straight line (P1 ′) along the specific portion (U1) that is a substantially linear outline existing on one inclined side is defined as the first straight line, and the second intersection point A straight line along a specific portion (U2) that is a substantially linear contour existing on the other inclined side. A straight line parallel to (P2 ′) passing through the second intersection point (P2) is defined as the second straight line, and a tangent line at the first intersection point of the shoemaking contour is defined as the third straight line (Q1). The tangent line at the second intersection point is a fourth straight line (Q2), and in the calculation step, the length between the base end on the toe side and the base end on the heel side in the plan view of the protrusion due to the foot disease is the second intersection point and the second intersection point. It is characterized by the length between the intersections.

  Therefore, in the angle measurement step, the first straight line to the fourth straight line are set as described above, so that a shoe suitable for a case where the heel height is high can be manufactured.

  Sixthly, in any one of the first to third configurations, in the angle measurement step, in the composite image obtained by superimposing the flat image of the foot and the flat image of the shoemaking on the same scale, the contour of the shoemaking The first intersection (A), which is the two intersections at the intersection of (W) and the contour of the foot (U), which are the base ends of the contour of the protruding portion of the foot disease rather than the contour of the shoe-making type ) And the second intersection (B), the projection point (c ′) which is the position of the most protruding vertex in the contour of the projection of the foot disease is specified, and a straight line (P1) connecting the first intersection and the projection point ) As the first straight line, the straight line (P2) connecting the second intersection and the protruding point as the second straight line, the tangent line (Q1) at the first intersection of the shoemaking outline as the third straight line, and the shoemaking outline The tangent line (Q2) at the second intersection point is the fourth straight line. In the case of a hallux valgus, the second position which is the position on the heel side from the protruding point of the hallux valgus on the contour of the foot is the end on the side close to the hallux valgus at the ends on both sides in plan view of the base position of the hallux The second position (C) that is the same distance as the distance from the first position (D) to the protruding point is specified, and the length between the first position and the second position is determined as the foot disease when the foot disease is hallux valgus The length between the proximal end of the toe side and the proximal end of the heel side in a plan view of the protruding portion by the heel, and when the foot disease is club valgus, the heel from the protruding point of the club valgus on the contour of the foot It is the same as the distance from the third position (C), which is the end on the side close to the varus toe, at the ends on both sides in the plan view of the base position of the gavel at the fourth position which is the side position. Identify the fourth position (D) that is the position of the distance, between the third position and the fourth position Characterized in that the length between the base end of the toe and the heel side of the base end in the plan view of the projecting portion by a foot disease when foot disease varus small toe and is.

  Therefore, in the angle measurement step, the first straight line to the fourth straight line are set as described above, so that a shoe suitable for a case where the heel height is low can be manufactured.

  Therefore, in the calculation step, the length between the first position and the second position is the length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to the foot disease when the foot disease is hallux valgus. Since the length between the third position and the fourth position is the length between the base end on the toe side and the base end on the heel side in the plan view of the protrusion due to the foot disease in the case where the foot disease is club valgus When the heel height is low, the thickness of the affixing member can be made sufficiently thick so that the portion of the hallux valgus or the varus cane can be prevented from being pressed against the inner surface of the shoe.

  Seventhly, in any one of the first to third configurations, in the angle measurement step, in the composite image in which the flat image of the foot and the flat image of the shoemaking are overlapped at the same scale, the protrusion of the foot disease In the outline of the part, a straight line along the specific part (U1) which is a substantially linear outline existing on one inclined side among the inclined sides on both sides via the protruding point (f) which is the position of the most protruding vertex. (P1) is the first straight line, and the straight line (P2) along the specific portion (U2) that is a substantially linear contour existing on the other inclined side is the second straight line. The first straight line and the shoemaking contour ( The first intersection (A ′) that is the intersection of W) and the second intersection (B ′) that is the intersection of the second straight line and the shoemaking contour (W) are specified, and the tangent at the first intersection of the shoemaking contour (Q1) is the third straight line, and the tangent (Q2) at the second intersection of the shoemaking contour is When the foot disease is hallux valgus in the calculation step, the ends on both sides in plan view of the base position of the heel at the second position that is the heel side position from the protruding point of the hallux valgus on the contour of the foot in the calculation step The second position (C) that is the same distance as the distance from the first position (D), which is the end on the side close to the hallux valgus, to the protruding point is specified, and the length between the first position and the second position When the foot disease is hallux valgus, the length between the proximal end of the toe side and the heel side in the plan view of the protrusion due to the foot disease when the foot disease is hallux valgus, and when the foot disease is hallux valgus, the contour of the foot A third position, which is an end on the side close to the inner mallet in the end portions on both sides in the plan view of the base position of the gavel at the fourth position, which is the position on the heel side from the protruding point in the upper inner mallet ( 4th position which is a position of the same distance as the distance from C) to the protruding point D) is specified, and the length between the third position and the fourth position is determined between the proximal end on the toe side and the proximal end on the heel side in the plan view of the protrusion due to the foot disease when the foot disease is club varus It is characterized by the length of.

  Therefore, in the calculation step, the length between the first position and the second position is the length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to the foot disease when the foot disease is hallux valgus. Since the length between the third position and the fourth position is the length between the base end on the toe side and the base end on the heel side in the plan view of the protrusion due to the foot disease in the case where the foot disease is club valgus When the heel height is slightly high, the thickness of the affixing member can be made sufficiently thick, and the valgus valgus and the varus cane can be prevented from being pressed against the inner surface of the shoe. .

  Eighth, in any one of the first to third configurations, in the angle measurement step, in the composite image obtained by superimposing the planar image of the foot and the planar image of the shoemaking mold at the same scale, the contour of the shoemaking mold is obtained. The first intersection (A), which is the two intersections at the intersection of (W) and the contour of the foot (U), which are the base ends of the contour of the protruding portion of the foot disease rather than the contour of the shoe-making type ) And the second intersection point (B), and in the contour of the protrusion of the foot disease, it is the inclined side on the first intersection side among the inclined sides on both sides through the protruding point (f) which is the most protruding position A straight line (P1) passing through the first intersection point in a straight line parallel to the straight line (P1 ′) along the specific portion (U1) that is a substantially linear outline existing on one inclined side is defined as the first straight line, and the second intersection point Along the specific part (U2) which is a substantially linear outline existing on the other inclined side which is the side inclined side. The straight line parallel to the straight line (P2 ′) passing through the second intersection point (P2) is the second straight line, the tangent line at the first intersection point of the shoemaking contour is the third straight line (Q1), and the shoemaking mold If the tangent at the second intersection of the contour is the fourth straight line (Q2) and the foot disease is a hallux valgus in the calculation step, the mother at the second position which is the heel side position from the protruding point of the hallux valgus on the contour of the foot. Specify the second position (C), which is the same distance as the distance from the first position (D) to the protruding point, which is the end on the side close to the hallux valgus at both ends in the plan view of the base position of the heel And the length between the first position and the second position is the length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to the foot disease when the foot disease is hallux valgus, In the case of a club gavel, From the fourth position, which is the heel side position from the protruding point, to the protruding point from the third position (C), which is the end portion on the side close to the varus of small edge, in the plan view of the base position of the gavel The fourth position (D), which is a position at the same distance as the distance, is specified, and the length between the third position and the fourth position is determined in plan view of the protrusion due to the foot disease when the foot disease is clubfoot The length is between the base end on the toe side and the base end on the heel side.

  Therefore, in the calculation step, the length between the first position and the second position is the length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to the foot disease when the foot disease is hallux valgus. Since the length between the third position and the fourth position is the length between the base end on the toe side and the base end on the heel side in the plan view of the protrusion due to the foot disease in the case where the foot disease is club valgus When the heel height is high, the thickness of the affixing member can be made sufficiently thicker, and the location of the hallux valgus or the varus cane can be prevented from being pressed against the inner surface of the shoe.

  Ninth, a method for manufacturing a shoe mold, which is a mold for manufacturing shoes, includes a foot size measuring step for measuring a foot length and an instep around a foot of a user of the shoe to be manufactured, a hallux valgus or a hallux valgus. A foot disease angle indicating the degree of protrusion of the protrusion due to a foot disease that is a small heel, and a first contour corresponding to the inclination of one of the two contours through the apex of the protrusion in the contour in plan view of the protrusion The foot disease angle, which is an acute angle formed by the straight line and the second straight line corresponding to the inclination of the other contour, is measured, and the foot length measurement value and the instep measurement value obtained in the foot size measurement process are measured. The shoe-making angle indicating the degree of protrusion in the protrusion corresponding area, which is an area corresponding to the protrusion due to foot disease in the corresponding shoe manufacturing mold, with the apex of the protrusion corresponding area in the outline in plan view of the protrusion corresponding area. Contours on both sides An angle measuring step for measuring a shoe mold angle, which is an acute angle formed by a third straight line corresponding to the inclination of one contour and a fourth straight line corresponding to the inclination of the other contour, and a calculation for calculating the thickness of the pasting member A foot disease angle is α, a shoemaking angle is β, and a length between the vicinity of the proximal end on the toe side and the vicinity of the proximal end on the heel side in a plan view of the protrusion due to the foot disease is M In the correction shoemaking mold, the calculation step of calculating the thickness L1 of the affixing member according to the formula (A), the correction shoemaking creation step of creating a correction shoemaking mold consisting of the shoemaking mold and the affixing member, A pasting member is stuck on the projection corresponding region of the shoemaking mold, and a corrected shoemaking creating step in which the thickness of the pasting member is the thickness calculated in the calculation step is provided.

  In the ninth configuration, by manufacturing the shoe using the wooden mold to which the attaching member is attached, the portion of the hallux valgus or the portion of the varus of the foot is prevented from being pushed against the inner surface of the shoe. It is possible to prevent pain in the hallux valgus part or the hallux valgus part.

  In particular, measure the foot disease angle for hallux valgus and hallux valgus, and measure the shoe mold angle indicating the degree of protrusion in the protrusion corresponding region, which is the region corresponding to the protrusion due to foot disease in the shoe manufacturing mold Since the thickness of the affixing member is calculated from the foot disease angle and the shoemaking mold angle, the thickness of the affixing member for hallux valgus and the thickness of the affixing member for hallux valgus can be calculated respectively. Even in the case of having both diseases of anti-small wrinkles, the thickness of each pasting member can be calculated.

  Tenth, in the ninth configuration, in the angle measurement step, in the composite image in which the flat image of the foot and the flat image of the shoemaking are overlapped at the same scale, the contour of the protruding portion of the foot disease is most prominent. The straight line (P1) along the specific part (U1), which is a substantially straight outline existing on one of the inclined sides on both sides of the protruding point (f) that is the position of the apex, is the first straight line. A straight line (P2) along the specific portion (U2), which is a substantially linear contour existing on the other inclined side, is defined as the second straight line, and the first intersection is the intersection of the first straight line and the shoemaking contour (W). The second intersection (B ′), which is the intersection of one intersection (A ′), the second straight line, and the shoemaking contour (W), is specified, and the tangent (Q1) at the first intersection of the shoemaking contour is the third straight line. And the tangent line (Q2) at the second intersection of the shoemaking contour is the fourth straight line. , The vicinity of the base end on the toe side in the plan view of the protrusion due to foot disease is one of the first intersection and the second intersection point, and the vicinity of the base end on the heel side in the plan view of the protrusion due to foot disease is the first intersection And the other of the second intersections, and the length M is the length between the first intersection and the second intersection.

  Therefore, in the angle measurement step, the first straight line to the fourth straight line are set as described above, so that a shoe suitable for a case where the heel height is slightly high can be manufactured.

  Eleventhly, in the ninth or tenth configuration, the foot disease is hallux valgus, and in the angle measurement step, the foot disease angle is measured for the protrusion due to hallux valgus and corresponds to the protrusion due to hallux valgus in the shoemaking mold. In the calculation process, the length between the vicinity of the base end on the toe side and the vicinity of the base end on the heel side in the plan view of the protrusion portion due to the hallux valgus is calculated as M. In the pasting step, the pasting member is pasted on a protruding portion corresponding region which is a region corresponding to the protruding portion of the shoemaking hallux valgus.

  Twelfthly, in any one of the ninth to eleventh configurations, the foot disease is clubfoot, and in the angle measurement step, the foot disease angle is measured with respect to the protruding portion due to clubfoot. The shoe mold angle is measured for the protrusion corresponding area, which is the area corresponding to the protrusion due to the varus in the shoemaking mold, and the toe side base end in the plan view of the protrusion due to the varus in the calculation process is calculated. The length between the vicinity and the vicinity of the base end on the heel side is M, and in the pasting step, the pasting member is pasted on the projecting portion corresponding region, which is a region corresponding to the projecting portion due to the shoe-shaped inner heel Features.

  A thirteenth aspect is a method for manufacturing a shoe mold, which is a mold for manufacturing shoes, a foot size measuring step for measuring a foot length and an instep around a foot of a user of the shoe to be manufactured, a hallux valgus or a club A foot disease angle indicating the degree of protrusion of the protrusion due to a foot disease that is a small heel, and a first contour corresponding to the inclination of one of the two contours through the apex of the protrusion in the contour in plan view of the protrusion The foot disease angle, which is an acute angle formed by the straight line and the second straight line corresponding to the inclination of the other contour, is measured, and the foot length measurement value and the instep measurement value obtained in the foot size measurement process are measured. The shoe-making angle indicating the degree of protrusion in the protrusion corresponding area, which is an area corresponding to the protrusion due to foot disease in the corresponding shoe manufacturing mold, with the apex of the protrusion corresponding area in the outline in plan view of the protrusion corresponding area. Contours on both sides The angle measuring step for measuring the shoemaking angle, which is an acute angle formed by the third straight line corresponding to the inclination of the one contour and the fourth straight line corresponding to the inclination of the other contour, and the thickness of the pasting member are calculated. In the calculation step, the foot disease angle is α, the shoemaking angle is β, the foot disease is hallux valgus, the fixed value at 50 to 65 mm is M, and the foot disease is hallux valgus When the fixed value at 30 to 45 mm is M, a calculation step of calculating the thickness L1 of the pasting member by the formula (A), and a correction shoemaking step for creating a corrected shoemaking shape including the shoemaking mold and the pasting member Then, in the corrected shoe mold, the pasting member is pasted on the region corresponding to the protruding part of the shoe mold, and the corrected shoe mold creating step in which the thickness of the pasting member is the thickness calculated in the calculating step. It is characterized by.

  In the thirteenth configuration, the shoe is manufactured using the wooden mold to which the affixing member is affixed, thereby preventing the part of the hallux valgus or the part of the varus of the foot from being pushed against the inner surface of the shoe. It is possible to prevent pain in the hallux valgus part or the hallux valgus part.

  In particular, measure the foot disease angle for hallux valgus and hallux valgus, and measure the shoe mold angle indicating the degree of protrusion in the protrusion corresponding region, which is the region corresponding to the protrusion due to foot disease in the shoe manufacturing mold Since the thickness of the affixing member is calculated from the foot disease angle and the shoemaking mold angle, the thickness of the affixing member for hallux valgus and the thickness of the affixing member for hallux valgus can be calculated respectively. Even in the case of having both diseases of anti-small wrinkles, the thickness of each pasting member can be calculated.

  Moreover, since it is not necessary to measure the value of M every time when calculating the thickness of the sticking member, the thickness of the sticking member can be easily calculated.

  In the fourteenth aspect, in the thirteenth configuration, the foot disease is hallux valgus, and in the angle measurement step, the foot disease angle is measured for the protrusion portion caused by the hallux valgus, and the region corresponding to the protrusion portion caused by the hallux valgus in the shoemaking mold. The shoe mold angle is measured for a certain protrusion-corresponding area, and in the calculation process, the fixed value at 50 to 65 mm is set to M, and in the affixing process, the affixing member is an area corresponding to the protrusion by the shoe mold hallux valgus It is characterized by being pasted on the area.

  In the fifteenth aspect, in the above-described thirteenth or fourteenth configuration, the foot disease is clubux wart, and in the angle measurement step, the foot disease angle is measured with respect to the protruding portion due to clubfoot, Measure the shoemaking angle for the protrusion corresponding region, which is the region corresponding to the protrusion due to the club gait, and in the calculation process, the fixed value at 30 to 45 mm is M, and in the application process, the application member is It sticks to the protrusion corresponding | corresponding area | region which is an area | region corresponding to the protrusion part by anti-small wrinkles.

  Sixteenth, in any one of the first to fifteenth configurations, the corrected shoe mold creating step creates a pasting member having a thickness calculated in the calculating step, and a pasting member And a pasting step of pasting the pasting member created in the creating step on the shoe corresponding to the protruding portion corresponding region of the shoemaking mold.

  Seventeenth, in any one of the first to fifteenth configurations, the correction shoemaking creation step is a pasting step in which a pasting member having a thickness larger than the calculated thickness is pasted on the shoemaking mold, A thickness adjusting step in which the thickness of the sticking member attached to the shoemaking mold is calculated as the thickness calculated in the calculating step.

  In the eighteenth configuration, in the seventeenth configuration, in the thickness adjustment step, the circumference length along a loop-shaped curve along the surface of the shoemaking mold in a state where the calculated thickness of the adhesive member is attached. Calculating the perimeter passing through the surface of the affixing member and adjusting the thickness of the affixing member by cutting the affixing member so that the perimeter of the corrected shoe mold is the calculated perimeter To do.

  In the nineteenth aspect, in the eighteenth configuration, in the thickness adjustment step, the circumferential length along the loop-shaped curve in a state where the pasting member is pasted is defined as the first circumferential length, and the pasting member is pasted. If the peripheral length along the loop-shaped curve is the second peripheral length, the adhesive member is applied only to either the hallux valgus side area or the valgus side side area. In the case of attaching, the calculated peripheral length is calculated by adding the length LD calculated by the equation (B) to the second peripheral length, while the hallux valgus side region and the valgus side region When affixing the affixing member to both, the length LD calculated by the formula (B) for the affixing member on the hallux valgus side and the affixing member on the varus side of the second circumference are calculated by the equation (B). The sum of the length LDs to be added to the second perimeter Calculating a perimeter issued the calculated by, first perimeter length, and adjusting the thickness of the joining member so that the length issued the calculated.

  In the twentieth aspect, in the eighteenth configuration, in the thickness adjustment step, the peripheral length along the loop-shaped curve in a state where the adhesive member is attached is defined as the first peripheral length, and the adhesive member is attached. If the peripheral length along the loop-shaped curve is the second peripheral length, the adhesive member is applied only to either the hallux valgus side area or the valgus side side area. In the case of attaching, the calculated peripheral length is calculated by adding the length LD calculated by the formula (C) to the second peripheral length, while the hallux valgus side region and the valgus side side region When affixing the affixing member to both, the length LD calculated by the equation (C) for the affixing member on the hallux valgus side and the affixing member on the varus side of the second circumference are calculated by the equation (C). The sum of the length LDs to be added to the second perimeter Calculating a perimeter issued the calculated by, first perimeter length, and adjusting the thickness of the joining member so that the length issued the calculated.

  Therefore, it is possible to easily calculate the calculated perimeter compared to the case where the formula (B) is used.

  In the twenty-first configuration, in the eighteenth configuration, in the thickness adjustment step, the circumferential length along the loop-shaped curve in a state where the pasting member is pasted is defined as the first circumferential length, and the pasting member is pasted. If the peripheral length along the loop-shaped curve is the second peripheral length, the adhesive member is applied only to either the hallux valgus side area or the valgus side side area. When attaching, calculate the perimeter by adding twice the thickness (L1) of the pasting member to the second perimeter, while the hallux valgus side region and the valgus side When affixing the affixing member on both of the regions, the length of the affixing member is about twice as long as the affixing member thickness (L1) and the affixing member is on the vestibule side. Add twice the sum of the lengths to the second perimeter Calculating a perimeter issued the calculated by, first perimeter length, and adjusting the thickness of the joining member so that the length issued the calculated.

  Therefore, the calculated perimeter can be calculated more easily than in the case where the formula (B) or the formula (C) is used.

In addition, the 22nd has an upper and a bottom, and the bottom is a sheet bottom attached to the upper surface, an insole provided above the outsole, and an upper surface of the insole. A method of manufacturing a shoe having an insole,
A lifting process in which the upper is suspended by covering the upper with the insole temporarily secured to the shoemaking mold manufactured by the shoemaking mold manufacturing method of any one of the first to twenty-first configurations, and the upper is suspended A first attachment step of attaching a bottom body including at least an outsole and an insole to the bottom side of the upper in a rare state; and a substantially plate-like inclination adjusting member and an insole with the shoemaking mold removed from the upper In the second attachment step of attaching the inclination adjusting member so as to be sandwiched between the insole and the insole, the inclination adjusting member is attached to the heel at the bottom portion of the heel or the heel portion in the state where the shoe is worn in the region of the insole. The second attachment step of attaching to the position where the inclination angle inclined downward toward the toe side is reduced by the inclination angle with respect to the horizontal direction of the region below the toe side portion from the bottom portion. , Characterized by having a.

  In the shoe manufactured according to the eighteenth configuration, since the inclination adjusting member is provided, the heel of the foot can be made difficult to move forward, and the toe side of the foot is strongly pressed against the inner surface of the shoe. Therefore, the symptoms of hallux valgus and hallux valgus can be prevented from worsening, and the pain of the hallux valgus and hallux valgus can be alleviated.

  Thirty-third, in the twenty-second configuration, the second attachment step includes an inclination adjusting member bonding step for bonding the inclination adjusting member to the insole, and an insole bonding step for bonding the insole to the insole and the inclination adjusting member. It is characterized by having.

  In a twenty-fourth aspect, in the twenty-second or twenty-third configuration, the inclination adjusting member has openings (4112, 4310) penetrating from the front surface to the back surface, and the inclination adjusting member It is characterized by being attached to the underside of the insole so that the bottom of the heel is the position of the opening when worn.

  Therefore, when the region above the opening in the insole enters into the opening, the region becomes depressed, and the toe side region (first region) in the region in the insole opening and the region in the insole Since the upper region (second region) of the region adjacent to the toe side with respect to the opening of the inclination adjusting member is inclined to the upper side as it goes to the toe side, the inclination angle of the first region and the second region Becomes gentle and can prevent the heel of the foot from moving forward.

  According to a twenty-fifth aspect, in the twenty-second or twenty-third configuration, the inclination adjusting member has a plate-like plate-like portion (4110) having an opening (4112) penetrating from the front side surface to the back side surface; A protrusion (4120) projecting upward from the upper surface of the plate-like part, and in a state where the inclination adjusting member is attached to the shoe, the protrusion is adjacent to the opening on the toe side of the opening. The projecting portion is provided with an inclined surface (4120-2) from the heel side end of the projecting portion, the inclined surface is inclined upward toward the toe side, and the inclination adjusting member is It is characterized in that it is attached to the underside of the insole so that the bottom of the heel becomes the position of the opening when the shoe is worn.

  Therefore, when the region above the opening in the insole (first region) enters the opening, the region becomes recessed, and the region above the protrusion in the insole is the upper surface of the protrusion. By being provided along the upper surface, the region is curved into a generally U-shape projecting upward, whereby the region on the upper side of the inclined surface provided from the heel side end of the projecting portion The (second region) is inclined with respect to the upper surface of the insole so as to be on the toe side, and as a result, the inclination angle of the insole first region and the second region with respect to the horizontal direction becomes gentle. The heel can be prevented from moving forward.

  In addition, the 26th has an upper and a bottom, and the bottom is attached to the upper, the insole provided above the outsole, and the insole attached to the upper surface of the insole The shoe is manufactured by the method for manufacturing a shoe mold of any of the first to twenty-first configurations, and the upper is covered with the upper in a state where the insole is temporarily fixed. A suspension step to be performed; a first attachment step of attaching a bottom body including at least an outsole and an insole to the bottom surface side of the upper in a state where the upper is suspended; and a state in which the shoemaking mold is removed from the upper, In the second attachment step of attaching the insole to the upper surface of the bottom, the rear side component (5100) and the front side component (5200) connected from the toe side end of the rear side component are provided. The part is a substantially plate-shaped rear component rear part 5102) and the thickness changing portion rear side portion continuously provided from the toe side end portion of the rear side configuration portion, the thickness changing portion being increased from the rear side configuration portion toward the toe side. (5104-1) and a thickness changing portion (5104) having a thickness changing portion front side portion (5104-2) continuously provided from the end portion on the toe side of the thickness changing portion rear side portion and decreasing in thickness toward the toe side. ), And at least the rear component portion is formed with an opening (5110) at the rear side portion, and the front component portion is continuously provided from the toe side end portion of the thickness changing portion, and the upper side as it goes to the toe side. And a second attachment step for attaching an insole (5001) presenting a curved plate shape.

  Therefore, it is possible to prevent the heel from moving to the front side by the front end portion of the opening and the thickness change portion rear side portion, and to prevent the symptoms of hallux valgus and hallux valgus from becoming worse, It can relieve pain at the site and the part of the hallux varus.

  According to a twenty-seventh aspect, in the twenty-sixth configuration, a third attachment step of attaching a sheet-like insole to the upper surface of the insole attached to the upper surface of the insole in the second attachment step is provided.

In addition, the twenty-eighth includes an upper and a bottom, and the bottom includes an outsole attached to the upper, an insole provided above the outsole, and an insole attached to the upper surface of the insole. A method of manufacturing a shoe having
A lifting process in which the upper is suspended by covering the upper with the insole temporarily secured to the shoemaking mold manufactured by the shoemaking mold manufacturing method of any one of the first to twenty-first configurations, and the upper is suspended A first attachment step of attaching the bottom body including at least the outsole and the insole to the bottom surface side of the upper in a rare state, and attaching a sheet insole to the upper surface of the insole with the shoemaking mold removed from the upper In the second attachment step and the third attachment step in which the second insole is attached to the upper surface of the insole, the front side component (5200) and the front side component (5200) connected from the toe side end of the rear side component ), And the rear component is a substantially plate-shaped rear component rear side (5102) and a toe-side end portion of the rear component rear portion, and a thickness changing portion provided continuously , Thicker as it goes from the rear component to the toe side The thickness change part rear side part (5104-1) where thickness becomes thick, and the thickness change part front side part (5104-2) which becomes continuous from the end part of the toe side of the thickness change part rear side part and becomes thinner toward the toe side ), And an opening (5110) is formed at least on the rear side portion of the rear constituent portion, and the front constituent portion is continuously provided from the toe side end of the thickness changing portion. And a third attachment step of attaching a second insole (5001) that has a plate shape that curves upward as it goes to the toe side.

  Therefore, it is possible to prevent the heel from moving to the front side by the front end portion of the opening and the thickness change portion rear side portion, and to prevent the symptoms of hallux valgus and hallux valgus from becoming worse, It can relieve pain at the site and the part of the hallux varus.

  In the twenty-ninth configuration, in any one of the twenty-sixth to twenty-eighth configurations, a region corresponding to the arch of the front component portion has a bulge portion that bulges upward at a bulge portion that supports the arch. A protruding portion (5300) is provided. Therefore, the arch can be supported by the bulging portion.

  According to the shoe manufacturing method and the shoe manufacturing method according to the present invention, a shoe is manufactured using a wooden mold to which a sticking member is attached, so that the part of the hallux valgus or the part of the hallux valgus is the shoe. It can be prevented from being pushed by the inner surface of the body, and the pain of the hallux valgus part or the hallux valgus part can be prevented.

  In particular, measure the foot disease angle for hallux valgus and hallux valgus, and measure the shoe mold angle indicating the degree of protrusion in the protrusion corresponding region, which is the region corresponding to the protrusion due to foot disease in the shoe manufacturing mold Since the thickness of the affixing member is calculated from the foot disease angle and the shoemaking mold angle, the thickness of the affixing member for hallux valgus and the thickness of the affixing member for hallux valgus can be calculated respectively. Even in the case of having both diseases of anti-small wrinkles, the thickness of each pasting member can be calculated.

  Further, in the shoe manufacturing method, when providing an inclination adjusting member or providing an insole having a thickness changing portion, the heel can be prevented from moving to the front side, and the toe side of the foot is the inner surface of the shoe. Can prevent the toe side of the foot from being strongly pressed against the inner surface of the shoe, thus preventing the symptoms of hallux valgus and club vagina from getting worse. Thus, it is possible to relieve pain in the hallux valgus region and the club valgus region.

It is a flowchart which shows the manufacturing method of a shoemaking type | mold, and the manufacturing method of shoes. It is explanatory drawing for demonstrating the measuring method of foot size. It is a top view which shows the example of a foot size measuring tool. It is a top view which shows the other example of a foot size measuring tool. It is a bottom view which shows the other example of a foot size measuring tool. It is explanatory drawing which shows the method of imaging | photography of a leg | foot. It is explanatory drawing which shows the example of the plane image of a leg | foot. It is explanatory drawing which shows the method of imaging | photography of a wooden pattern. It is explanatory drawing which shows the example of a tree-shaped plane image. It is explanatory drawing which shows the example of a synthesized image. It is explanatory drawing which shows the measuring method of the hallux valgus angle of a foot, and the hallux valgus angle of a wooden form (1st measuring method). It is explanatory drawing which shows the measuring method of the varus minor angle of a foot, and the club-shaped varus angle (first measuring method). It is explanatory drawing for demonstrating the calculation formula which calculates the thickness of a sticking member. It is a figure which shows the example of a sticking member, (a) is a top view, (b) is a side view of a longitudinal direction, (c) is a side view of a transversal direction. It is a top view of a correction | amendment tree shape. It is the perspective view seen from the left side of the correction | amendment wooden mold. It is the perspective view seen from the right side of the correction | amendment wooden mold. It is explanatory drawing which shows the example of the plane image of a leg | foot. It is explanatory drawing which shows the method of imaging | photography of a wooden pattern. It is explanatory drawing which shows the example of a synthesized image. It is explanatory drawing which shows the measuring method of the hallux valgus angle of a foot, and the hallux valgus angle of a wooden form (2nd measuring method). It is explanatory drawing which shows the measuring method of the varus minor angle of a foot, and the club-shaped varus minor angle (2nd measuring method). It is explanatory drawing which shows the measuring method of the hallux valgus angle of a foot, and the hallux valgus angle of a wooden form (3rd measuring method). It is explanatory drawing which shows the measuring method of the varus minor angle of a foot | leg, and the club-shaped varus minor angle (a 3rd measuring method). It is a top view of a correction | amendment tree shape. It is the perspective view seen from the left side of the correction | amendment wooden mold. It is the perspective view seen from the right side of the correction | amendment wooden mold. It is explanatory drawing for demonstrating the other example of calculation of the value of M. It is a perspective view which shows the example of the shoes manufactured using the correction | amendment wooden pattern. It is principal part sectional drawing of the shoes of FIG. FIG. 21 is a plan view of the shoe of FIG. 20. FIG. 32 is a fragmentary cross-sectional view taken along the line T-T in FIG. 31. It is a figure which shows an inclination adjustment member, (a) is a top view, (b) is a side view, (c) is VV sectional drawing of (a), (d) is a rear view. Yes, (e) is a front view. It is a flowchart which shows the manufacturing method of the shoes using a correction | amendment wooden pattern. It is a principal part perspective view which shows the mode of suspension in the manufacturing method of the shoes using a correction | amendment wooden pattern. It is a figure which shows the other example of an inclination adjustment member, (a) is a top view, (b) is a side view, (c) is VV sectional drawing of (a), (d) FIG. 4B is a rear view, FIG. 4E is a front view, and FIG. 4F is a plan view showing an arrangement position of the inclination adjusting member in the shoe. It is a figure which shows the other example of an inclination adjustment member, (a) is a top view, (b) is a side view, (c) is V1-V1 sectional drawing of (a), (d) (E) is V2-V2 sectional drawing of (a), (f) is a front view, (g) is a top view which shows the arrangement position of the inclination adjustment member in shoes. It is a figure which shows the other example of an inclination adjustment member, (a) is a top view, (b) is a side view, (c) is VV sectional drawing of (a), (d) FIG. 4B is a rear view, FIG. 4E is a front view, and FIG. 4F is a plan view showing an arrangement position of the inclination adjusting member in the shoe. It is a perspective view which shows the structure of an insole. FIG. 40 is a main part sectional view showing a state in which the insole of FIG. 39 is attached to the shoe; It is principal part sectional drawing which shows the example of the thickness change part in an insole. It is a top view which shows the frame | skeleton of a leg | foot.

  In the present invention, even when a patient has both a hallux valgus and a hallux valgus disease, the thickness of the hallux valgus sticking member and the thickness of the hallux valgus sticking member can be calculated respectively. The object of providing a manufacturing method and a shoe manufacturing method using the shoemaking mold was realized as follows.

  The shoe mold manufacturing method and shoe manufacturing method of the present embodiment will be described more specifically with reference to FIG. 1 and the like. First, the foot length and instep of the user of the shoe to be manufactured are measured (see FIG. 1 S1, foot size measurement step).

  First, as for the foot length K1, as shown in FIG. 2, the length from the position of the vertical line dropped from the rear end of the heel (rear end point) to the position of the vertical line dropped from the tip of the foot is measured. The tip of the foot is the tip of the second heel. That is, the foot length K1 is measured by measuring the length along the front-rear direction straight portion (center line) aK between the rear end of the heel and the tip of the second heel of the foot.

  For the instep, measure the circumference of the foot of the highest part of the foot at a position above the arch.

  Specifically, as described below, it is preferable to measure the instep by placing a measure portion at a predetermined angle with respect to the front-rear direction linear portion at a predetermined length from the rear end point of the foot. That is, as shown in FIG. 2, at a position PK at a ratio of 51.0 to 61.0% (preferably 56.0%) with respect to the foot length from the rear end point of the foot heel in plan view, The angle γ1 formed by the direction of the toe side of the directional linear portion a and the inner direction with respect to the foot placement position of the measure portion for measuring the instep is 75.5 to 85.5 degrees for men (preferably Measure the circumference of the instep by placing the major part at 80.5 degrees. That is, in FIG. 2, the ratio of the length K2 to the foot length K1 is 51.0 to 61.0% (preferably 56.0%), and the curve (loop-shaped curve) CK representing the instep is expressed as In plan view, the curve CK (straight line in plan view) passes through the position PK of K2 from the rear end point of the heel, and the angle between the toe side of the front-rear direction straight line portion aK and the curve CK (placement of the foot) (Inner angle of position) [gamma] 1 is 75.5 to 85.5 degrees (preferably 80.5 degrees). Then, the measure portion is arranged in a state extending linearly under the foot so as to follow the curve CK, and 51.0 to 61.0% (preferably from the rear end point of the foot to the foot length). , The direction of the toe side of the linear part aK in the front-rear direction and the inner direction with respect to the position of the foot of the measure part (tape measure) for measuring the instep is passed through the position PK with a ratio of 56.0%) The major part is arranged so that the angle γ1 formed is 75.5 to 85.5 degrees (preferably 80.5 degrees), and then the major part is wrapped around the foot and the instep is measured. When viewed from the side of the foot, the curve representing the instep is such that the angle γ2 made with the toe side of the horizontal plane is 71.0 to 81.0 degrees (preferably 76.0 degrees). As for the measure for measuring the instep, when the side is viewed from the inside of the foot, the measure portion is 71.0-81.0 degrees (preferably 76.0 degrees) with respect to the toe side of the horizontal plane. To be.

  In the case of a woman, the angle γ1 is set to 74.5 to 84.5 degrees (preferably 79.5 degrees), and the others are the same.

  In addition, in order to measure the foot length and the instep, it is preferable to use the foot size measuring device described in Patent Documents 2 to 4.

  The foot size measuring tool A described in Patent Documents 2 and 3 is configured as shown in FIG. 3, and the foot-shaped display unit 10, the foot length measuring unit 20, It has a foot circumference measurement unit 30, an instep measurement unit 40, and the like.

  Further, a foot size measuring tool 1 described in Patent Document 4 is configured as shown in FIGS. 4 and 5 and has a measuring tool main body 1A. The measuring tool main body 1A includes a main body region 5. 4 and a foot rest measuring unit 40 on the front side surface of the main body region 5 as shown in FIG. And an instep measurement unit 50 and an entry field 68. On the back surface of the main body region unit 5, as shown in FIG. 5, a foot type display unit 110, a foot length measurement unit 120, and a foot It has a surrounding measurement unit 140, an instep measurement unit 150, and an entry field 168. In particular, when measuring the foot circumference by placing the measure part at a predetermined angle from the rear end point of the foot and at a predetermined angle with respect to the linear part in the front-rear direction, or at the position of the predetermined length from the rear end point of the foot In the case where the measure part is arranged at a predetermined angle with respect to the linear part in the front-rear direction to measure the instep, it is preferable to use the foot size measuring tool shown in Patent Document 4.

  As described above, when the foot length and the instep are measured, the measurement of the foot length obtained by the measurement and the wooden pattern (shoemaking) 1100 corresponding to the measurement value of the instep are selected (FIG. 1). S2). That is, the shoemaking type | mold according to the measured value of the foot length obtained in the foot size measurement process and the measured value of the instep is selected. In addition, as a premise, since the standard is prepared according to the length of the foot length, the instep, and the foot circumference, the wooden shape having a size close to the measured value is selected. That is, for the foot length, if there is no dimension that matches the measured value, select the dimension that is larger than the measured value and is closest to the measured value, and if there is a dimension that matches the measured value, Select dimensions. For the instep, if there is no dimension that matches the measured value, select the dimension that is smaller than the measured value and closest to the measured value, and if there is a dimension that matches the measured value, Select dimensions. That is, for the instep, the dimensions are selected as described above in order to fix the foot at the position around the instep. Since the wooden mold 1100 is a base (may be basic) when the corrected wooden mold 1105 is manufactured, the original wooden mold, the original wooden mold, the basic wooden mold, the original shoe mold, the original shoe mold, and the basic It may be a shoemaking type.

  That is, the foot length is prepared for each predetermined length (for example, every 5 mm), and the instep and foot circumference are prepared for each predetermined length (for example, every 4 mm). The instep and foot circumference are set such that a value obtained by adding a predetermined length to the instep circumference is the foot circumference. For example, the length of the foot circumference = the length around the instep + n (n is a positive number) is set, and the value of n is, for example, 2 mm. The length may be other than 2 mm.

  For example, for the foot length, the next of 250 mm at a pitch of 5 mm is set to a size of 255 mm, and for the instep, the next of 246 mm at a pitch of 4 mm is set to a size of 250 mm. If the measured foot length is 253 mm and the instep is 249 mm, a wooden pattern with a foot length of 255 mm and an instep of 246 mm is selected. Since the instep is 246 mm, the wooden foot circumference is 248 mm (246 mm + 2 mm).

  In the above example, if the measured value of the instep is 250 mm, a wooden pattern with an instep of 250 mm is selected. Since the instep is 250 mm, the wooden foot circumference is 252 mm (250 mm + 2 mm).

  For the instep, if there is no dimension that matches the measured value, the dimension that is smaller than the measured value and closest to the measured value is selected. Good. That is, in the above example, when the instep is 249 mm, 250 mm is closer than in the case where the instep is 246 mm.

  Although the tree pattern is selected from a plurality of types prepared in advance, a tree pattern with the selected dimensions may be created.

  Next, in order to calculate the thickness of the affixing members 2000 and 2100, the hallux valgus angle and the hallux valgus angle of the foot and the hallux valgus angle and the hallux valgus angle of the wooden pattern are measured (S3 in FIG. 1, angle measuring step). ).

  That is, a flat image of the foot is obtained and a flat image of the tree shape is obtained. In order to obtain a planar image of the foot, as shown in FIG. 6, the planar image is obtained by photographing the foot 1000 from above (that is, from the direction of the arrow in FIG. 6). That is, an image obtained by shooting the foot 1000 from directly above is obtained with the optical axis of the camera being perpendicular to the mounting surface G of the foot. An example of a planar image of a foot is an image 1000G shown in FIG.

  Similarly, with respect to a planar image of a wooden pattern (that is, an original wooden pattern), as shown in FIG. 8, a wooden pattern 1100 as a shoe manufacturing pattern (which may be a shoe manufacturing pattern or a shoe pattern) is viewed from above (that is, FIG. 8). Take a picture (from the direction of the arrow) to obtain a flat image. Also in this case, the optical axis of the camera is set to be perpendicular to the wooden placement surface G, and an image taken from directly above the wooden mold 1100 is obtained. An example of a tree-shaped planar image is a tree-shaped image 1100G shown in FIG.

  Next, a composite image is created by superimposing the foot planar image and the wooden planar image at the same scale. For example, by superimposing a tree-shaped plane image on the plane image of the foot and making the tree-shaped plane image translucent, a composite image as shown in FIG. Make it possible to see both of the contours. It is also possible to obtain a composite image by superimposing the foot planar image on the wooden planar image and making the foot planar image translucent.

  Note that when obtaining a composite image, the scales of the planar image of the foot and the planar image of the wooden pattern are the same in order to accurately obtain the height of the protrusion from the wooden surface of the hallux valgus and the varus of small hallux.

  Further, the relative positional relationship between the planar image of the foot and the planar image of the wooden pattern is a position corresponding to the position of the foot when the shoe manufactured by the wooden pattern is worn. A position where the outline U of the 1000G and the outline W of the tree-shaped image 1100G match as much as possible (a position where the degree of coincidence is high), for example, so as to satisfy at least one of the following specific conditions. That is, “the outer contour UO in the contour U of the foot image 1000G and the outer contour WO in the contour W of the tree-shaped image 1100G are matched (if they do not match, the contour UO and the contour WO are Parallel (may be substantially parallel) (first condition). ”,“ The heel side end of the contour U and the heel side end of the contour W are matched (second condition). "" The mother's heel (thumb) and the gavel (little finger) do not protrude from the wooden outline W (that is, the outline of the mother's heel and the outline of the gavel are inside the contour W or on the line of the contour W). Or “a part of the inner side of the main rod and a part of the outer side of the gavel are outside the wooden outline W, and the inner end portion 1001P of the base of the main rod 1001 and the base position of the gavel 1005 The outer end portion 1005Q of the head is not positioned outside the contour W (the end portion 1001P). And the end 1005Q is, on the line of the inside or contour W contour W). "(For the third condition)" on satisfying at least one.

  Here, at the base position of the main rod 1001, as shown in FIGS. 10 and 28, there are an inner end portion 1001P and an outer end portion 1001Q in a plan view. As a specific method of the end portion 1001P, Since the end portion 1001Q outside the base of the main rod is a boundary position between the main rod and the second finger, it is relatively easy to specify, and a perpendicular line 1001Jb is drawn with respect to a straight line 1001Ja indicating the direction of the main rod from the end portion 1001Q. What is necessary is just to specify the intersection of this perpendicular line 1001Jb and the outline U of a leg as the edge part 1001P. Note that the base position of the main shaft 1001 can be said to be a linear position connecting the end portion 1001P and the end portion 1001Q, and it can be said that the perpendicular line 1001Jb indicates the base position of the main shaft 1001.

  Further, as shown in FIG. 10, the base position of the gavel 1005 has an inner end part 1005P and an outer end part 1005Q in a plan view. As a specific method of the end part 1005Q, The inner end portion 1005P is a boundary position between the gavel and the fourth finger, and thus is relatively easy to specify. A perpendicular line 1005Jb is drawn from the end portion 1005P to the straight line 1005Ja indicating the direction of the gavel, What is necessary is just to specify the intersection with the outline U of a leg as the edge part 1005Q. The base position of the gavel 1005 can be said to be a linear position connecting the end part 1005P and the end part 1005Q, and the perpendicular line 1005Jb can be said to indicate the base position of the gavel 1005.

  In addition, for the inner side and the outer side when expressed as the inner end and the outer end of the base position, the toe side is the inner side in the left and right direction of the foot (the direction perpendicular to the foot length direction). The side is the outside.

  As the degree of coincidence between the contour U and the contour W, for example, as shown in FIG. 10, a plurality of straight lines (for example, straight lines J1 and J2) are formed from the toes in the direction perpendicular to the foot length direction. Draw through the heel through an interval, measure the length between contour U and contour W on each straight line, and if the sum of the measured lengths is small, the degree of coincidence is high, and the sum of the measured lengths is the smallest The positional relationship may be The straight lines J1 and J2 are examples of a plurality of straight lines. Actually, many straight lines (for example, 20 to 30 straight lines) are drawn at intervals (for example, the same distance). The length to be measured is the length between the intersection of the contour U and the straight line (intersection with the contour U) and the intersection of the contour W and the straight line (intersection with the contour W). When there are a plurality of intersections (specifically, two) with the intersection or the contour W, the length of one intersection is the length of the closest intersection of the other plurality of intersections. That is, in the straight line J1 of FIG. 10, for the intersection W1 between the straight line J1 and the contour W, the intersection W1 is closer to the intersection U1 of the intersections U1 and U2 between the straight line J1 and the contour U. The length between the intersection points U1 is measured. For the intersection W2 between the straight line J1 and the contour W, the intersection W2 is closer to the intersection U2 of the intersections U1 and U2, and therefore the length between the intersection W2 and the intersection U2 is measured. A method for calculating the degree of coincidence based on the minimum sum of the measurement lengths in this way is referred to as “a coincidence degree determination method based on the minimum sum of the measurement lengths”.

  In this way, when the degree of coincidence between the contour U and the contour W is calculated according to the coincidence degree determination method based on the minimum sum of the measurement lengths, the tip of the toe side of the foot outline U For the range from 1001T to the tip of the gavel 1005T, the space in the shoe is secured on the tip side of the foot toe, so the degree of coincidence with the wooden contour W does not have to be particularly important. Remove from the measurement target. For example, for the straight line J2 in FIG. 10, only the length between the inner intersections W2 and U2 may be measured. Further, the outer portion UK on the heel side in the contour of the foot is excluded from the measurement target because the ankle is photographed.

  Also, on the premise that the third condition in the above specific condition is satisfied, the degree of coincidence is calculated by the above-mentioned “matching degree determination method based on the minimum sum of measurement lengths”, thereby calculating the relative position of the foot and the tree. You may decide.

  After creating the composite image as described above, the hallux valgus angle of the foot and the hallux valgus angle of the wooden pattern are measured from the area of the hallux valgus in the synthesized image. Measure the angle of depression and the varus of hallway.

  First, the measurement of the hallux valgus angle of the foot and the hallux valgus angle of the wooden pattern will be described. As shown in FIG. 11, in the hallux valgus region of the composite image, the contour U of the foot protrudes outside the contour W of the tree, and the contour U of the foot and the contour W of the tree are the intersections A and B. We are in a cross. Note that the positions of the intersection A and the intersection B are the intersection A located on the left side when the projection point f (described later) is viewed as a plane above the straight line connecting the intersection A and the intersection B, and the intersection A is located on the right side. The intersection point located is the intersection point B. One of the intersection A and the intersection B is a first intersection, and the other is a second intersection.

  In FIG. 11, the range from the intersection point A to the intersection point B in the contour U of the foot is “the contour in plan view of the protrusion due to a foot disease that is hallux valgus or hallux valgus (specifically, a foot disease that is hallux valgus)” , And the intersection A and the intersection B are the base ends of the outline of the protrusion of the foot disease protruding from the outline of the tree W, and the protrusion by the hallux valgus is the part protruding by the hallux valgus, the protrusion Has a certain area along the foot surface (that is, the outer periphery of the protrusion has a loop shape), and specifically has a range from the intersection A to the intersection B in the contour U of the foot. The region having a certain area along the surface of the foot, and the region in plan view of the protrusion by the hallux valgus is the range from the intersection A to the intersection B in the contour U of the foot and the intersection A to the intersection B in the wooden contour W Depending on the range Or was it is a region. In addition, the area corresponding to the protrusion by the hallux valgus (area where the surface area of the protrusion is located) in the wooden surface area is the “protrusion corresponding area that is the area corresponding to the protrusion due to the foot disease”. A region having a certain area along the surface of the wooden mold having a range from the intersection A to the intersection B in the contour W of the mold is a “projection corresponding region that is a region corresponding to a projection due to a foot disease”. That is, the region in plan view of the protrusion corresponding region is a region surrounded by a straight line connecting the intersection point A and the intersection point B with the range from the intersection point A to the intersection point B in the tree-shaped contour W. The range from the intersection A to the intersection B in W indicates the outline of the protrusion corresponding region in plan view.

  Here, in the foot outline U, the protrusion point f (the apex of the protrusion due to the foot disease) which is the most protruding position with respect to the tree shape is specified, and a straight line (first straight line) connecting the intersection A and the protrusion point f A straight line (second straight line) P2 connecting P1 and the intersection point B and the protruding point f is drawn. Here, as a method of specifying the protruding point f, for example, in the range from the intersection A to the intersection B in the foot contour U, the distance to the straight line R connecting the intersection A and the intersection B (perpendicular to the straight line R) The length from the intersection of the perpendicular and the contour U to the intersection of the perpendicular and the straight line R) is defined as the protruding point f. Assuming that the intersection point between the straight line P1 and the straight line P2 is an intersection point c ', the intersection point c' coincides with the protruding point f. Note that one of the straight line P1 and the straight line P2 corresponds to the “first straight line corresponding to the inclination of one of the contours on both sides via the vertex of the projecting portion in the plan view of the projecting portion”. The other of P2 corresponds to the “second straight line corresponding to the inclination of the other contour among the contours on both sides via the vertex of the projecting portion in the contour of the projecting portion in plan view”.

  As a result, a triangle T1 having the intersection c ', the intersection A, and the intersection B as vertices is formed, and the triangle T1 is formed by the straight line R, the straight line P1, and the straight line P2. In addition, an angle (acute angle) formed by the straight line P1 and the straight line P2 is defined as an angle α. This angle α is the foot disease angle, in particular, the hallux valgus angle of the foot. In FIG. 11, this angle α is measured.

  Further, the tangent line Q1 at the intersection point A of the contour W and the tangent line Q2 at the intersection point B of the contour W are drawn on the composite image, and the intersection point of the tangent line Q1 and the tangent line Q2 is defined as an intersection point d '. The tangent line Q1 and the tangent line Q2 are straight lines. The tangent line Q1 and the tangent line Q2 are straight lines. When one of the tangent line Q1 and the tangent line Q2 is the third straight line and the other is the fourth straight line, and the intersection point A is the first intersection point, the tangent line Q1 is the third straight line, the tangent line Q2 is the fourth straight line, When B is the first intersection, the tangent line Q1 is the fourth straight line, and the tangent line Q2 is the third straight line. As a result, a triangle T2 having the intersection d ', the intersection A, and the intersection B as vertices is formed, and the triangle T2 is formed by the straight line R, the tangent Q1, and the tangent Q2. Further, an angle (acute angle) formed by the tangent line Q1 and the tangent line Q2 is defined as an angle β. This angle β is the shoemaking angle, in particular, the wooden hallux valgus angle. In FIG. 11, this angle β is measured. Further, in FIG. 11, the length (= M) between the intersection A and the intersection B is measured. This length M is “the length between the toe side base end (that is, the intersection point B) and the heel side base end (that is, the intersection point A) in plan view of the protrusion due to the foot disease”. That is, the intersection point B is a toe side base end in the plan view of the protrusion due to the foot disease, and the intersection point A is a base end on the heel side in the plan view of the protrusion due to the foot disease.

  Next, the measurement of the varus angle of the foot and the varus angle of the wooden shape will be described. The measurement of the varus angle of the foot and the valgus angle of the wooden pattern is the same as in the case of the hallux valgus angle. That is, as shown in FIG. 12, in the area of the varus of the composite image, the foot contour U protrudes outward from the wooden contour W, and the foot contour U intersects the wooden contour W. Crosses A and intersection B. One of the intersection A and the intersection B is a first intersection, and the other is a second intersection.

  In FIG. 12, the range from the intersection A to the intersection B in the foot contour U is “the plane of the protrusion due to the foot disease that is hallux valgus or hallux valgus (specifically, the foot disease that is hallux valgus)” “A contour in vision”, and the intersection A and the intersection B are the base end of the contour of the protrusion of the foot disease that protrudes from the contour of the wooden pattern W, and the protrusion due to the varus A protruding portion, and the surface of the protruding portion has an area along the surface of the foot (that is, the outer periphery of the protruding portion has a loop shape). A region having a certain area along the surface of the foot having a range from A to the intersection B, and a region in a plan view of the protruding portion due to the varus is a range from the intersection A to the intersection B in the contour U of the foot And the range from the intersection A to the intersection B in the tree-shaped contour W Or was it is a region. In addition, the region corresponding to the protrusion due to the club fold in the wooden surface region (the region where the surface region of the protrusion is located) is the “protrusion corresponding region that is the region corresponding to the protrusion due to the foot disease”. A region having a certain area along the surface of the tree shape having a range from the intersection A to the intersection B in the tree-shaped contour W is a “protrusion corresponding region that is a region corresponding to a protrusion due to a foot disease”. . That is, the region in plan view of the protrusion corresponding region is a region surrounded by a straight line connecting the intersection point A and the intersection point B with the range from the intersection point A to the intersection point B in the tree-shaped contour W. The range from the intersection A to the intersection B in W indicates the outline of the protrusion corresponding region in plan view.

  Here, in the foot outline U, the protrusion point f (the vertex of the protrusion due to the foot disease) which is the most protruding point with respect to the tree pattern is specified, and a straight line connecting the intersection A and the protrusion point f (first straight line) A straight line (second straight line) P2 connecting P1 and the intersection point B and the protruding point f is drawn. Here, as a method of specifying the protruding point f, for example, in the range from the intersection A to the intersection B in the foot contour U, the distance to the straight line R connecting the intersection A and the intersection B (perpendicular to the straight line R) The length from the intersection of the perpendicular and the contour U to the intersection of the perpendicular and the straight line R) is defined as the protruding point f. Assuming that the intersection point between the straight line P1 and the straight line P2 is an intersection point c ', the intersection point c' coincides with the protruding point f. Note that one of the straight line P1 and the straight line P2 corresponds to the “first straight line corresponding to the inclination of one of the contours on both sides via the vertex of the projecting portion in the plan view of the projecting portion”. The other of P2 corresponds to the “second straight line corresponding to the inclination of the other contour among the contours on both sides via the vertex of the projecting portion in the contour of the projecting portion in plan view”.

  As a result, a triangle T1 having the intersection c ', the intersection A, and the intersection B as vertices is formed, and the triangle T1 is formed by the straight line R, the straight line P1, and the straight line P2. In addition, an angle (acute angle) formed by the straight line P1 and the straight line P2 is defined as an angle α. This angle α is a foot disease angle, particularly a hallux valgus angle of the foot, and this angle α is measured in the composite image shown in FIG.

  Further, the tangent line Q1 at the intersection point A of the contour W and the tangent line Q2 at the intersection point B of the contour W are drawn on the composite image, and the intersection point of the tangent line Q1 and the tangent line Q2 is defined as an intersection point d '. The tangent line Q1 and the tangent line Q2 are straight lines. When one of the tangent line Q1 and the tangent line Q2 is the third straight line and the other is the fourth straight line, and the intersection point A is the first intersection point, the tangent line Q1 is the third straight line, the tangent line Q2 is the fourth straight line, When B is the first intersection, the tangent line Q1 is the fourth straight line, and the tangent line Q2 is the third straight line. As a result, a triangle T2 having the intersection d ', the intersection A, and the intersection B as vertices is formed, and the triangle T2 is formed by the straight line R, the tangent Q1, and the tangent Q2. Further, an angle (acute angle) formed by the tangent line Q1 and the tangent line Q2 is defined as an angle β. This angle β is a shoemaking angle, in particular, a wooden varus angle, and this angle β is measured in the composite image shown in FIG. In FIG. 12, the length (= M) between the intersection A and the intersection B is measured. This length M is “the length between the toe side base end (that is, the intersection point A) and the heel side base end (that is, the intersection point B) in the plan view of the protrusion due to the foot disease”. That is, the intersection point A becomes the toe side base end in the plan view of the protrusion due to the foot disease, and the intersection point B becomes the base end on the heel side in the plan view of the protrusion due to the foot disease.

  In the composite image, when the hallux valgus or the hallux valgus does not occur, the above-described angle measurement is not necessary because there is no need to attach the attaching member. In other words, in the hallux valgus region, when the foot contour U does not protrude from the wooden contour W, it is not necessary to measure the foot and wooden hallux valgus angle. When the contour U does not protrude beyond the wooden contour W, it is not necessary to measure the varus of the foot and the wooden valgus, and for the hallux valgus and the hallux valgus, the feet protrude beyond the wooden shape. Measure the angle only on the side. Moreover, when the hallux valgus or the hallux valgus does not occur, naturally, the calculation of the thickness of the affixing member described below (S4 in FIG. 1) and the creation of the affixing member (S5 in FIG. 1) The sticking to the wooden mold (S6 in FIG. 1) is not necessary.

  The hallux valgus angle of the foot and the hallux valgus angle of the foot correspond to the “foot disease angle indicating the degree of protrusion of the protrusion due to the foot disease that is hallux valgus or hallux valgus”. The club heel angle corresponds to “a shoemaking angle indicating the degree of protrusion in the protrusion corresponding area, which is an area corresponding to the protrusion due to a foot disease”.

  When the foot and wooden hallux valgus angle and the foot and wooden hallux valgus angle are measured as described above, the thickness of the affixing member is calculated (S4 in FIG. 1, calculation step).

  That is, when the triangle T1 is simplified as an isosceles triangle having a side along the straight line R as a base, as shown in the schematic diagram of FIG. 13, the intersection c ′ is an intersection c that is a vertex of the isosceles triangle. Thus, the triangle T1 is an isosceles triangle having the intersection c, the intersection A, and the intersection B as vertices. Further, if the triangle T2 is regarded as an isosceles triangle having a side along the straight line R as a base, as shown in FIG. 13, the intersection d ′ becomes an intersection d that is a vertex of the isosceles triangle, and the triangle T2 is It is an isosceles triangle having the intersection d, the intersection A, and the intersection B as vertices. In FIG. 13, an extension line of the straight line connecting the intersection c and the intersection d to the straight line R intersects with the straight line R at the intersection e, and the straight line between the intersection c and the intersection e is perpendicular to the straight line R.

  In FIG. 13, when the length from the intersection point c to the intersection point d is L1, the length from the intersection point d to the straight line R is L2, and the length between the intersection point A and the intersection point B is M, the angle α The relationship between the lengths L1, L2, and M is as shown in Expression (1) because the triangle having the vertex at the intersection c, the intersection A, and the intersection e is a right triangle.

  Further, the relationship between the angle β and the lengths L2 and M is as shown in Expression (2) because the triangle having the vertex at the intersection d, the intersection A, and the intersection e is a right triangle.

  Further, when Expression (2) is modified, Expression (3) is obtained.

  Then, Expression (4) is derived from Expression (1) and Expression (3).

  In FIG. 13, when the intersection d is regarded as the apex of the protruding portion with respect to the straight line R in the tree shape, the length L1 is a portion where the legs protrude from the tree shape (in FIG. 13, the portion excluding the triangle T2 from the triangle T1 is the length L1). The length L1 is the thickness of the pasting member.

  Therefore, about the thickness of the affixing member on the hallux valgus side, the length L1, That is, the thickness of the affixing member on the hallux valgus side can be calculated.

  That is, a triangle T1 having sides along two straight lines (straight line P1 and straight line P2) that form a hallux valgus angle of the foot (that is, an angle α) is measured. By regarding a triangle T2 having sides along two straight lines (straight line Q1 and straight line Q2) forming a wooden hallux valgus angle (ie, angle β) as both isosceles triangles, The thickness of the pasting member can be calculated by a simple calculation formula.

  Similarly, for the thickness of the affixing member on the inner side of the club, the angle α and the angle β measured in FIG. It is possible to calculate the length L1, that is, the thickness of the affixing member on the varus side.

  In other words, the varus minor angle of the foot and the wooden varus angle are measured, and along two straight lines (straight line P1 and straight line P2) forming the varus minor angle (that is, angle α) of the foot. A triangle T1 having a side and a triangle T2 having a side along two straight lines (a straight line Q1 and a straight line Q2) forming a wooden-shaped club depression angle (that is, an angle β) are both isosceles. By considering it as a triangle, the thickness of the affixing member can be calculated by a simple calculation expression such as Expression (4).

  Note that, as described above, the thickness of the affixing member is calculated by regarding a triangle having sides along two straight lines as an isosceles triangle, but originally the lengths of the two sides are extremely different in the triangle. Therefore, there is no particular problem in considering it as an isosceles triangle, and when a member is made in accordance with the actually calculated thickness and a shoe is manufactured using a wooden mold to which the member is attached, There was no problem with comfort.

  In addition, the intersection d ′ in the tree pattern is a vertex in the contour W of the tree pattern (the vertex in the curve between the intersection A and the intersection B (the point having the longest length to the straight line R in the curve between the intersection A and the intersection B)). However, the amount of protrusion is small, and it can be considered that the length from the intersection d ′ to the straight line R and the length from the vertex to the straight line R in the wooden outline W are substantially equal. There is no particular problem in calculating the thickness.

  In the above description, the angle (acute angle) formed between the tangent line Q1 and the tangent line Q2 is the angle β. An angle (acute angle) between the two straight lines is defined as a straight line between the protruding point g and the intersection B in the curve between the intersection A and the intersection B instead of the tangent line Q2. The angle β may be used. In this case, one of the straight line between the protruding point g and the intersection A and the straight line between the protruding point g and the intersection B is the third straight line, and the other is the fourth straight line. The projecting point g is the most projecting point in the range from the intersection A to the intersection B of the tree-shaped contour W. For example, in the range from the intersection A to the intersection B in the tree-shaped contour W, the intersection A and the intersection Let the protrusion point g be the point with the longest distance to the straight line R connecting B (the length from the intersection of the perpendicular and the contour W to the intersection of the perpendicular and the straight line R). In this way, even when the straight line between the protrusion point g and the intersection point A is used instead of the tangent line Q1 and the straight line between the protrusion point g and the intersection point B is used instead of the tangent line Q2, Measures the shoemaking mold angle, which is an acute angle formed by the third straight line corresponding to the inclination of one of the contours on both sides via the apex of the protrusion corresponding region and the fourth straight line corresponding to the inclination of the other contour. It can be said that.

  As described above, when the thickness of the pasting member is calculated, the pasting member is created according to the calculated thickness of the pasting member (S11 in FIG. 1, pasting member creating step).

  When creating the affixing member, for example, natural leather, synthetic leather, synthetic rubber is used (other materials may be used), and the affixing member shape is as shown in affixing members 2000 and 2100 shown in FIG. In plan view, as shown in FIG. 14 (a), a rectangular corner is chamfered in a substantially arc shape, and in front view, the approximate center in the left-right direction is thickest toward both left and right ends. The shape is a slanted shape, and in the side view, the approximate center in the front-rear direction is the thickest, and the slanted shape is slanted toward the front and rear ends. L1. In addition, the affixing member 2000 is an affixing member for hallux valgus, and the affixing member 2100 is an affixing member for a hallux valgus. In the sticking members 2000 and 2100, the left-right direction is formed longer than the front-rear direction, and the left-right direction of the sticking member is pasted along the wooden front-back direction.

  In addition, although the length of the sticking member in the left-right direction is the length (= M) between the intersection A and the intersection B measured as described above, it may be longer than the length between the intersection A and the intersection B. That is, according to the schematic diagram of FIG. 13, the length of the sticking member in the left-right direction is at least the length between the intersection A and the intersection B, and the portion where the foot protrudes from the tree (in FIG. The portion excluding the triangle T2 from the triangle T1 corresponds to this), and it does not protrude from the affixing member. Moreover, the direction which formed the length of the sticking member in the left-right direction longer than the length between the intersection A and the intersection B can improve the appearance of the shape of the manufactured shoe. That is, if the length in the left-right direction of the affixing member is the length between the intersection A and the intersection B, the location where the affixing member is affixed in the manufactured shoe protrudes in a conspicuous state when viewed from the outside, but the appearance is poor. And the direction which formed the length of the sticking member in the left-right direction longer than the length between the intersection A and the intersection B can improve the appearance of the shape of the manufactured shoe.

  In addition, as a planar shape of a sticking member, it is not restricted to the shape shown in FIG.

  In the case of natural leather or synthetic leather, the affixing member is formed by cutting with a grinder or the like (that is, by cutting out), and the synthetic rubber is formed by pouring molten synthetic rubber into a mold.

  If the pasting member is created as described above, the pasting member is pasted on the wooden mold (S12 in FIG. 1, pasting step). That is, the region for the hallux valgus is a region corresponding to the position of the hallux valgus in the wooden mold (that is, the protruding portion corresponding region corresponding to the protruding portion of the hallux valgus) (specifically, on the inner side surface of the wooden mold, Affixed to the base of the mallet, the area corresponding to the position of the varus of the mallet (ie, corresponding to the protrusion of the valgus) The region corresponding to the protruding portion) (specifically, the region including the position corresponding to the root of the gavel on the outer side surface of the tree).

  Specifically, in both of the sticking member 2000 for the hallux valgus and the sticking member 2100 for the hallux valgus, an intermediate position between the intersection A and the intersection B in the wooden pattern (the intersection A and the intersection B in the horizontal direction). Is attached so that the maximum thickness portion of the attaching member is located at a position corresponding to the intermediate position E1 in the hallux valgus and the intermediate position E2 in the hallux valgus. That is, in the schematic diagram of FIG. 13, since the maximum thickness is obtained at the position of the intersection point e, the position corresponding to the intersection point e that is equidistant from the intersection point A and the intersection point B is the maximum thickness portion. . As a specific method, a composite image (see FIG. 10) having the same scale as the tree shape is prepared, the tree shape is arranged on the composite image, and the outline of the tree shape in plan view on the side surface of the tree shape At positions that form W, marks corresponding to the intersections A and B are marked with a writing instrument or the like, and intermediate positions E1 and E2 between the marks corresponding to the intersection A and the marks corresponding to the intersection B (FIGS. 10, 16, and FIG. 17) (Attachment member is affixed so that a maximum thickness location may be located in the position corresponding to the mark corresponding to intersection A and the equidistant position from the mark corresponding to intersection B in the horizontal direction). In FIGS. 16 and 17, the outline W is indicated by a one-dot chain line.

  Note that the maximum thickness portion is located at a position corresponding to the intermediate positions E1 and E2. In the plan view, the maximum thickness portion is perpendicular to the straight line connecting the intersection A and the intersection B from the intermediate positions E1 and E2. In some cases, there may be a case where there is a maximum thickness portion on an extended line of a straight line connecting the intermediate position E1 and the intermediate position E2 in plan view. In this case, in FIG. 15, there are maximum thickness portions at positions E1 'and E2' where the straight line connecting the intermediate position E1 and the intermediate position E2 and the outline of the pasting member are in contact. In particular, as will be described below, when adjusting the thickness of the affixing member in a state where the affixing member is affixed to the wooden pattern, the correction of the corrected wooden mold 1105 to which the affixing member is affixed When the perimeter in the state is compared with the perimeter of the wooden mold 1100 in the state where the pasting member is not pasted, if there is a maximum thickness portion on the extended line of the straight line connecting the middle position E1 and the middle position E2, there is a comparison. It becomes easy.

  The state in which the pasting members 2000 and 2100 are pasted on the wooden mold 1100 is as shown in FIGS.

  A corrected shoemaking creation process for creating a corrected wooden mold (corrected shoemaking) 1105 composed of the wooden mold (shoemaking mold) 1100 and the pasting members 2000 and 2100 by the pasting member creating process (S11) and the pasting process (S12). (S5) is configured. In the corrected shoe mold creation process, in the corrected wooden mold 1105, the pasting members 2000 and 2100 are pasted on the protruding part corresponding region of the wooden pattern, and the thicknesses of the pasting members 2000 and 2100 are calculated in the calculation process. It has become.

  11 and 12, when the protruding point f is shifted to the intersection A side or the intersection B side with respect to the intermediate position between the intersection A and the intersection B, the maximum thickness point is determined between the intersection A and the intersection B. It may be pasted while being shifted by a length corresponding to the shift amount with respect to the intermediate position.

  As described above, the correction wooden mold 1105 is attached to the position corresponding to the protruding portion of the foot of the user of the shoe (that is, the protruding portion that is deformed and protruded by the hallux valgus or the club valgus). create. That is, the correction tree pattern 1105 is configured by the tree pattern 1100 and the bonding member 2000 and / or the bonding member 2100. That is, the process from step S1 to step S5 corresponds to a shoemaking manufacturing method.

  In the above description, in the corrected shoemaking creation step (S5), a paste member corresponding to the calculated thickness of the paste member is created in step S11 (paste member creation step), and step S12 (paste step). ), The created pasting member was pasted, but a pasting member having a thickness larger than the calculated thickness of the pasting member was created, and the pasting member was pasted on the wooden mold (S21, pasting step), and the pasting member was You may make it adjust so that it may become the thickness which calculated the thickness of the affixing member in the state affixed on the wooden form (S22, thickness adjustment process).

  A corrected shoemaking creation process (corrected shoemaking mold) 1105 comprising a wooden mold (shoemaking mold) 1100 and affixing members 2000 and 2100 by these pasting process (S21) and thickness adjusting process (S22) ( S5) is configured. In the corrected shoe mold creation process, in the corrected wooden mold 1105, the pasting members 2000 and 2100 are pasted on the protruding part corresponding region of the wooden pattern, and the thicknesses of the pasting members 2000 and 2100 are calculated in the calculation process. It has become.

  In the thickness adjustment step, the thickness of the pasting member must be measured in a state where the pasting member is pasted on the wooden mold 1100. This is done by comparing the perimeter of the mold 1105 with the perimeter of the wooden mold 1100 without the pasting member. As shown in FIG. 15, the perimeter in the state of the corrected wooden mold 1105 is the position of the surface of the pasting member corresponding to the intermediate position E1 and the position of the pasting member corresponding to the intermediate position E2 in the wooden mold 1100. The length of the loop-shaped curve LP ′ passing through the position E2 ′ is the length of the loop-shaped curve LP passing through the intermediate position E1 and the intermediate position E2. The loop-shaped curve LP and the loop-shaped curve LP ′ overlap in a region where the pasting members 2000 and 2100 in the wooden mold 1100 are not pasted, and connect the intermediate position E1 and the middle position E2 in plan view. The line is a straight line, and the line connecting the intermediate position E1 ′ and the intermediate position E2 ′ is a straight line. That is, the intermediate positions E1 'and E2' are located on the straight line connecting the intermediate position E1 and the intermediate position E2.

  In addition, as a method of determining the intermediate positions E1 ′ and E2 ′ in the correction tree pattern 1105, a curve W ′ corresponding to the outline (outer outline) of the pasting member in the plan view of the correction tree pattern 1105 on the surface of the correction tree pattern 1105 is used. Intermediate positions E1 ′ and E2 ′ are determined at positions on the curve (that is, a horizontal curve). In FIGS. 16 and 17, the curve W ′ is indicated by a two-dot chain line.

  Specifically, since the intermediate position E1 and the intermediate position E2 are determined in the composite image shown in FIG. 10, a planar image of the correction tree mold 1105 is obtained at the same scale as the composite image, and the composite image and the planar image are obtained. By overlapping, the intermediate positions E1 and E2 are drawn on the planar image, and the contact points of the straight line extension between the intermediate position E1 and the intermediate position E2 and the contours (outer contours) of the pasting members 2000 and 2100 are intermediate positions E1 ′ and E2. 'And. Then, on the surface of the actual correction tree 1105, intermediate positions E1 ′ and E2 obtained in the composite image in the horizontal curve corresponding to the outline (outer outline) of the pasting member in the plan view of the correction tree 1105. The horizontal positions corresponding to “′” are defined as intermediate positions E1 ′ and E2 ′ in the actual correction tree 1105.

  When the affixing member is affixed to only one of the hallux valgus area or the hallux valgus area, that is, only one of the hallux valgus or the hallux valgus has occurred. 10 does not protrude from the tree-shaped contour W, there is no intermediate position E1 ′ or intermediate position E2 ′. Therefore, in the composite image shown in FIG. 10, a predetermined direction from the intermediate position E1 or E2 A straight line is drawn and a contact point between the straight line and the wooden outline W is regarded as an intermediate position.

  That is, in the composite image shown in FIG. 10, a center line ZT1 that is a straight line connecting the base end UB of the heel and the tip of the second eyelid is drawn, and a straight line ZT2 is drawn from an intermediate position with respect to this center line ZT1. The contact point with the mold contour W is set as the other intermediate position. In addition, as an angle with respect to the center line ZT1 of the straight line ZT2, an angle α4 formed by the direction of the toe side of the center line ZT1 and the inner side of the leg of the straight line ZT2 is 69.0 to 79. It is 0 degree (preferably 74.0 degrees), and in the case of female use, it is 68.0 to 78.0 degrees (preferably 73.0 degrees).

  For example, in the composite image of FIG. 10, when the hallux valgus does not occur and the contour U of the foot does not protrude from the wooden outline W in the area of the hallux valgus, the intermediate position E1 A straight line ZT2 is drawn so that the angle α4 is the above-mentioned angle with respect to the center line ZT1, and a contact point between the straight line ZT2 and the wooden outline W is set as an intermediate position E2 ″, and an intermediate position E1 and an intermediate position E2 ′ A loop-shaped curve passing through “curve LP” (that is, the perimeter in the state of the correction tree pattern 1105).

  Further, in the composite image of FIG. 10, when the hallux valgus is not generated and the contour U of the foot does not protrude from the wooden outline W in the hallux valgus region, the center line ZT1 from the intermediate position E2 Then, a straight line ZT2 is drawn so that the angle α4 becomes the above angle, and a contact point between the straight line ZT2 and the wooden outline W is defined as an intermediate position E1 ″, and a loop shape passing through the intermediate position E1 ″ and the intermediate position E2 Let the curve be the curve LP ′ (that is, the perimeter in the state of the correction tree 1105).

  In this case, the intermediate positions E1 ″ and E2 ″ in the correction tree 1105 are determined as follows: on the surface of the correction tree 1105, the contour of the tree 1100 in the plan view of the correction tree 1105 (outside contour). ), The positions corresponding to the intermediate positions E1 ″ and E2 ″ at the positions on the curve corresponding to () are the intermediate positions E1 ″ and E2 ″.

  Here, according to the schematic diagram of FIG. 13, when the length between the intersection A and the intersection c and the length between the intersection B and the intersection c are set to the length L3, the expression (5) is established.

  Then, length L3 can be expressed by equation (6) by modifying equation (5).

  Further, when the length between the intersection A and the intersection d and the length between the intersection B and the intersection d are set to the length L4, the equation (7) is established.

  Then, length L4 can be expressed by equation (8) by modifying equation (7).

  Then, when the affixing member 2000 and the affixing member 2100 are affixed, about 1 affixing member, when the affixing member is affixed, compared with the case where it is not affixed, 2 (L3- It becomes longer by the length of L4). When 2 (L3−L4) is a length LD, LD is represented by Expression (9).

  Therefore, each LD for each attached member is calculated, and the sum of the calculated LDs is the difference between the length of the loop-shaped curve LP ′ and the length of the loop-shaped curve LP. That is, when the affixing member is affixed to both sides of the hallux valgus side and the valgus side, the length LD for the affixing member on the valgus side and the length LD for the affixing member on the valgus side are calculated. The sum of the two LDs is the difference between the length of the loop-shaped curve LP ′ and the length of the loop-shaped curve LP. When the affixing member is only one of the hallux valgus side and the valgus side, the length LD is calculated for the affixing member, and the calculated LD is equal to the length of the loop-shaped curve LP ′. This is the difference in length of the curve LP.

  Then, when the sum of the LD when there are two affixing members and the LD when there is one affixing member are both length MD, the length MD is set to the perimeter of the wooden mold 1100 (that is, the length of the curve LP). The added perimeter is calculated, and the perimeter in the state of the corrected tree pattern 1105 (that is, the length of the curve LP ′) is the calculated perimeter length (the perimeter of the tree pattern 1100 (that is, the length of the curve LP)). Then, the surface of the affixing member is shaved so as to be longer than the length MD) (sharpening in this way is the thickness adjusting step). That is, a perimeter length obtained by adding the length MD to the perimeter length of the tree pattern 1100 (that is, the length of the curve LP) (this is the calculated perimeter length), and the perimeter length in the state of the correction tree pattern 1105 is Make the calculated perimeter. In the shaving process, the surface of the affixing member is evenly shaved (that is, the thickness to be scraped is made uniform over the entire surface of the affixing member). In addition, when two affixing members (that is, two affixing members on the left and right) are affixed, the two affixing members are shaved to the same extent (that is, equally on the left and right). That is, if the surface of one affixing member is shaved, the surface of the other affixing member is also abraded, and the amount of shaving of one affixing member and the amount of shaving of the other affixing member are the same (may be substantially the same). To do.

  For example, a grinder is used for the shaving. For example, the amount of shaving is made the same by making the grinding time of the grinder the same between the two pasting members.

  In addition, when affixing the affixing member on the area on the hallux valgus side and the area on the vestibule side, it is affixed thicker by the same thickness on the left and right than the calculated thickness of the affixing member, since it is cut evenly on the left and right It is preferable to create a member and attach it to the wooden mold 1100. For example, when the calculated value of the thickness of the affixing member on the hallux valgus side is L1 (G) and the calculated value of the thickness of the affixing member on the valgus side is L1 (N), and the thickness to be added is m It is preferable that the affixing member on the hallux valgus side has a thickness of L1 (G) + m, and the affixing member on the valgus side has a thickness of L1 (N) + m. In addition, as shown in FIG. 14, in one sticking member, as shown in FIG. 14, the thickness in the one sticking member is almost the same in the left and right direction and the front and rear direction, and the thickness is gradually slanted toward both ends. Are different from each other, the thickness of the thickest portion is made thicker than the calculated thickness, and is gently inclined toward the left and right ends and the front and rear ends.

  In addition, even when the affixing member on the hallux valgus side and the affixing member on the valgus side are respectively machined and the thickness of each affixing member is different from the calculated thickness, the perimeter is the calculated perimeter. Then, since the length along the circumference on the inner surface of the shoe can be secured, it can be said that there is no particular problem.

  Further, considering FIG. 13 in a simplified manner, a bent straight line from the intersection A to the intersection B through the intersection d is regarded as one straight line (that is, the intersection d and the intersection e match), and the length L2 is set to 0. (In other words, the base length is M, the height is L1, and the two hypotenuses are L3 isosceles), the calculation formula can be simplified as follows: Good.

  That is, when the length between the intersection A and the intersection c and the length between the intersection B and the intersection c are set to the length L3, the expression (10) is established.

  Further, when the length between the intersection point A and the intersection point d and the length between the intersection point B and the intersection point d are set to the length L4 (however, the intersection point d coincides with the intersection point e), the equation (11) is established.

  Therefore, when the difference between the length of the loop-shaped curve LP ′ and the length of the loop-shaped curve LP is the length LD, the length LD (= 2 (L3−L4)) is expressed by the equation (12). The length MD is added to the perimeter of the wooden mold 1100 (that is, the length of the curve LP) where the sum of the LD when there are two affixing members and the LD when there is one affixing member are both length MD. The perimeter of the corrected tree pattern 1105 (that is, the length of the curve LP ′) is calculated from the calculated perimeter length (the perimeter of the tree pattern 1100 (that is, the length of the curve LP)). Also, the surface of the affixing member is shaved so that it becomes a length that is longer by the length MD) (sharpening in this way is the thickness adjusting step). In addition, like the case of Formula (9), it is made to grind the surface of a sticking member equally.

  As described above, by calculating the length LD using the expression (12), it is possible to easily calculate the peripheral length obtained by adding the length MD to the peripheral length of the tree pattern 1100 as compared with the case of the expression (9). .

  Further, the above idea of simplifying the isosceles triangle with a base length of M, a height of L1, and two hypotenuse lengths of L3 is further simplified so that the two hypotenuses in the isosceles triangle are Considering that each hypotenuse divided into a predetermined length is composed of a component in a direction parallel to the base and a component in a direction perpendicular to the base, the length L3 can be considered as M / 2 + L1, If the difference between the length of the loop-shaped curve LP ′ and the length of the loop-shaped curve LP is the length LD, the length LD can be expressed by LD = 2 × L1. Assuming that the sum and the LD when there is one pasting member are both the length MD, the perimeter of the tree pattern 1100 (that is, the length of the curve LP) plus the length MD is calculated, and the corrected tree pattern The perimeter in the state of 1105 (that is, the length of the curve LP ′) is The surface of the affixing member is shaved so as to be the calculated perimeter (that is, the length that is longer by the length MD than the perimeter of the wooden mold 1100 (that is, the length of the curve LP)). It is also good (thickening is the thickness adjusting step). In addition, like the case of Formula (9) and Formula (12), it is made to grind the surface of a sticking member equally. Thus, by considering the length L3 as M / 2 + L1, the peripheral length obtained by adding the length MD to the peripheral length of the wooden mold 1100 more easily than using the formula (9) and the formula (12). Can be calculated.

  In actual measurement of the perimeter, by attaching the strip-shaped tape TP at a position along the curve LP on the upper surface of the wooden mold 1100 in the wooden mold 1100 before the bonding members 2000 and 2100 are bonded (FIG. 15), the perimeter of the wooden mold 1100 and the perimeter of the corrected wooden mold 1105 can be easily measured. That is, a measure is arranged along the tape TP, and a loop-like curve along the tape TP (that is, a curve along the curves LP and LP ′) may be measured with the measure, so that the measurement becomes easy.

  As a specific example of how to attach the tape TP, a composite image (see FIG. 10) having the same scale as the wooden pattern is prepared, the wooden pattern is arranged on the composite image, and the tree is viewed in plan view on the side surface of the wooden pattern. Identify the intermediate positions E1 and E2 between the intersection A and the intersection B at the position that forms the outline of the mold (for example, mark the position corresponding to the intersection A and the intersection B with a writing instrument, and the mark and the intersection corresponding to the intersection A) The tape TP is attached along the straight line connecting the intermediate positions E1 and E2 in plan view (that is, on the straight line connecting the tape TP to the intermediate positions E1 and E2). To be placed on). If there is only one of the hallux valgus and the hallux valgus and only one of the intermediate position E1 and the intermediate position E2, the base end UB of the heel and the second heel in the composite image shown in FIG. A center line ZT1, which is a straight line connecting the tips of the two, is drawn, and with respect to the center line ZT1, a straight line ZT2 is drawn from an intermediate position (that is, the intermediate position E1 or E2), and a contact point with the wooden outline W is set to the other side. As an intermediate position, the tape TP is attached along a straight line connecting the two intermediate positions in plan view. In addition, as an angle with respect to the center line ZT1 of the straight line ZT2, an angle α4 formed by the direction of the toe side of the center line ZT1 and the inner side of the leg of the straight line ZT2 is 69.0 to 79. It is 0 degree (preferably 74.0 degrees), and in the case of female use, it is 68.0 to 78.0 degrees (preferably 73.0 degrees).

  When measuring the curves along the curves LP and LP ′ with a measure, the measure is arranged in a substantially straight line along the tape TP in a plan view. The measure is also arranged in a straight line on the bottom side.

  In each of the thickness adjustment steps described above, the foot size measuring tool shown in FIGS. 4 and 5 may be used for the measurement of the perimeter in the state of the correction wooden mold 1105 and the measurement of the perimeter of the wooden mold 1100. In that case, using the foot circumference measurement unit 40 (140) (see FIGS. 4 and 5), the circumference of the corrected tree 1105 and the circumference of the tree 1100 are measured.

  In the measurement, the corrected wooden mold 1105 and the wooden mold 1100 are arranged on the foot display section 10 (110) shown in FIGS. 4 and 5, and the measure section 230 is formed in the pair of openings in the foot circumference measuring section 40 (140). ˜250 is measured, and if the loop portion LP or the loop curve LP ′ to be measured does not coincide even if the measure portion is inserted for each of the plurality of pairs of openings, the curve is A pair of openings that are closest to LP (which may be a curve LP ′) is selected and the perimeter is measured.

  Although the above description, particularly FIGS. 6 to 12 and FIGS. 15 to 17 are for the right foot, the same is true for the left foot, and FIGS. 6 to 12 and FIGS. This is the same except that the figure is symmetrical.

  In step S3, the hallux valgus angle and the valgus minor depression angle are measured by the method shown in FIGS. 11 and 12 (this is referred to as “first measurement method”). The method shown applies to shoes where the heel height is low (for example, if the heel height is less than 3 cm for both women's shoes and men's shoes). When the height is slightly high or the heel height is high, the hallux valgus angle and the varus minor angle are measured as follows. In other words, as the heel height increases, the heel side of the foot becomes higher than the toe side, so the toe side is strongly pressed against the inner surface of the shoe, and the degree of protrusion due to hallux valgus and club folds increases. It is necessary to increase the thickness of the pasting member.

  That is, similarly to the description in step S3 above, a planar image of the foot is obtained and a planar image of a tree shape is obtained. In order to obtain a planar image of the foot, as shown in FIG. 6, the planar image is obtained by photographing the foot 1000 from above (that is, from the direction of the arrow in FIG. 6). That is, an image obtained by shooting the foot 1000 from directly above is obtained with the optical axis of the camera being perpendicular to the mounting surface G of the foot. As an example of the planar image of the foot, an image 1000G shown in FIG.

  Similarly, with respect to the tree-shaped planar image, as illustrated in FIG. 19, the tree-shaped 1100 is photographed from above (that is, from the direction of the arrow in FIG. 19) to obtain a planar image. Also in this case, the optical axis of the camera is set to be perpendicular to the wooden placement surface G, and an image taken from directly above the wooden mold 1100 is obtained. FIG. 19 shows an example of a shoe with high heel.

  In the state of wearing shoes with high heels, the heel side of the foot floats upward with respect to the toe side, so the side view of the foot is different from the state shown in FIG. 6, but as described later, As shown in FIGS. 21 and 22, the method of measuring the hallux valgus angle and the varus minor angle is devised so that the thickness of the affixing member is increased.

  Next, a composite image is obtained by superimposing the foot planar image and the wooden planar image at the same scale. For example, by superimposing a tree-shaped plane image on the plane image of the foot and making the tree-shaped plane image translucent, a composite image as shown in FIG. 20 is obtained. Make both contours visible. It is also possible to obtain a composite image by superimposing the foot planar image on the wooden planar image and making the foot planar image translucent.

  Note that when obtaining a composite image, the scales of the planar image of the foot and the planar image of the wooden pattern are the same in order to accurately obtain the height of the protrusion from the wooden surface of the hallux valgus and the varus of small hallux.

  Further, the relative positional relationship between the planar image of the foot and the planar image of the wooden pattern is a position corresponding to the position of the foot when the shoe manufactured by the wooden pattern is worn. A position where the contour U of the 1000G and the contour W of the tree-shaped image 1100G match as much as possible (a position where the degree of matching is high), for example, so as to satisfy at least one of the following conditions. That is, “the outer contour UO in the contour U of the foot image 1000G and the outer contour WO in the contour W of the tree-shaped image 1100G are parallel (may be substantially parallel)” (fourth condition) ”,“ “The mother toe (thumb) and the gavel (little finger) do not protrude from the wooden outline W (that is, the outline of the toe and the gavel are inside the outline W or on the line of the outline W). ”Or“ A part of the inner side of the main cage and a part of the outer side of the gavel are outside of the wooden outline W, and the inner end portion 1001P of the base position of the main cage 1001 and the The end portion 1001Q outside the root position is not positioned outside the contour W (the end portion 1001P and the end portion 1005Q are inside the contour W or on the line of the contour W) ”(fifth condition)” To satisfy at least one of the following.

  Here, the fifth condition is the same as the third condition, and the fourth condition is similar to the first condition. However, in the planar image of the foot, the foot is slanted in the state of wearing shoes. In a region that is inclined upward toward the rear, the foot plane image obtained by photographing and the wooden plane image have different inclinations in the height direction, so that the contour UO of the foot and the contour WO of the wooden pattern are as much as possible. Try to be parallel.

  As the heel increases, the length of the branch tree shape in the front-rear direction is shortened. When a composite image is created, as shown in FIG. Therefore, the condition that “the end on the heel side of the contour U and the end on the heel side of the contour W are matched” is not applied.

  As the degree of coincidence between the contour U and the contour W, as described above, the “method based on the minimum sum of the measurement lengths” may be used. In the region inclined upwards toward the rear, the foot plane image obtained by shooting and the wooden plane image are different in inclination in the height direction, and are therefore excluded from the determination of the degree of coincidence. For the region behind the front end position H in the region where the foot is inclined obliquely upward in the state of wearing shoes, the length between the contour U and the contour W in a straight line perpendicular to the foot length direction is It is preferable not to measure. In addition, since the number of samples to be measured is reduced when such exclusion from the determination of the degree of coincidence is made, on the premise that the fifth condition is satisfied, the “matching degree determination method based on the minimum sum of measurement lengths” is performed. It is preferable to calculate the degree of coincidence.

  After creating the composite image as described above, the hallux valgus angle of the foot and the hallux valgus angle of the wooden pattern are measured from the area of the hallux valgus in the synthesized image. Measure the angle of depression and the varus of hallway. In the following, a method for measuring the hallux valgus angle and the club valgus angle when the heel height is slightly high and when the heel height is high will be described.

  First, a measurement method when the heel height is slightly high (for example, when the heel height is 3 cm or more and less than 6 cm) (this is referred to as “second measurement method”) will be described. As shown in FIG. 21, in the hallux valgus region of the composite image, the foot contour U protrudes outward from the wooden contour W, and the foot contour U and the wooden contour W are the intersections A and B. We are in a cross.

  In FIG. 21, the range from the intersection A to the intersection B in the foot contour U is “the contour in plan view of the protrusion due to a foot disease that is hallux valgus or hallux valgus (specifically, a foot disease that is hallux valgus)” The intersection point A and the intersection point B become the base end of the contour of the protrusion of the foot disease that protrudes from the contour of the tree W, and the protrusion by the hallux valgus is the portion protruding by the hallux valgus, the protrusion Has a certain area along the foot surface (that is, the outer periphery of the protrusion has a loop shape), and specifically has a range from the intersection A to the intersection B in the contour U of the foot. The region having a certain area along the surface of the foot, and the region in plan view of the protrusion by the hallux valgus is the range from the intersection A to the intersection B in the contour U of the foot and the intersection A to the intersection B in the wooden contour W Depending on the range Or was it is a region. In addition, the area corresponding to the protrusion by the hallux valgus (area where the surface area of the protrusion is located) in the wooden surface area is the “protrusion corresponding area that is the area corresponding to the protrusion due to the foot disease”. A region having a certain area along the surface of the wooden mold having a range from the intersection A to the intersection B in the contour W of the mold is a “projection corresponding region that is a region corresponding to a projection due to a foot disease”. That is, the region in plan view of the protrusion corresponding region is a region surrounded by a straight line connecting the intersection point A and the intersection point B with the range from the intersection point A to the intersection point B in the tree-shaped contour W. The range from the intersection A to the intersection B in W indicates the outline of the protrusion corresponding region in plan view.

  Here, in the foot outline U, the linear or substantially linear specific portions U1 and U2 exist on the inclined sides on both sides via the protruding point f which is the most protruding point with respect to the tree shape. A straight line P1 that overlaps the specific portion U1 is drawn along the specific portion U1, and a straight line P2 that overlaps the specific portion U2 is drawn along the specific portion U2. It can be said that this specifying unit U1 is a line 6101S along the portion on the first proximal phalanx 6201 side in the outer contour of the first metatarsal bone 6101 of the skeleton of the foot shown in FIG. U2 can be said to be a line 6201S along the first metatarsal 6101 side portion of the outer contour of the first proximal phalanx 6201 shown in FIG. When the specific part U1 is not linear when drawing the straight line P1, a straight line that is closest to the specific part U1 is drawn, for example, the straight line having the highest degree of coincidence with the specific part U1. For example, in order to obtain a straight line having the highest degree of coincidence, the length from a plurality of points (for example, points at predetermined intervals) from one end to the other end of the specific portion U1 to the straight line (to the straight line) The straight line with the smallest sum of the lengths of the vertical lines is taken. The method of drawing the straight line P2 is the same as that of the straight line P1, and when the specific part U2 is not linear, a straight line that is closest to the specific part U2 is drawn, for example, a straight line having the highest degree of coincidence with the specific part U2. . The protruding point f is, for example, a point having the longest distance to a straight line connecting the intersection A and the intersection B. One of the straight line P1 and the straight line P2 corresponds to the “first straight line corresponding to the inclination of one of the contours on both sides of the projecting portion in plan view through the vertex of the projecting portion”. The other corresponds to the “second straight line corresponding to the inclination of the other contour among the contours on both sides via the apex of the projecting portion in the plan view of the projecting portion”.

  The straight line P1 and the straight line P2 intersect at the intersection point c ′, the straight line P1 and the contour W intersect at the intersection point A ′, the straight line P2 and the contour W intersect at the intersection point B ′, and thereby the intersection point c ′ and the intersection point A ′ and the intersection point B ′. A triangle T1 having 'as a vertex is formed, and the triangle T1 is formed by a straight line R, a straight line P1, and a straight line P2. In addition, an angle (acute angle) formed by the straight line P1 and the straight line P2 is defined as an angle α. This angle α is a foot disease angle, particularly a hallux valgus angle of the foot, and this angle α is measured in the composite image shown in FIG. One of the intersection A ′ and the intersection B ′ is the first intersection, and the other is the second intersection. In FIG. 21, the intersection A ′ indicates the vicinity of the heel side base end (intersection point A) in the plan view of the protrusion due to the foot disease (“the position near the heel side base end (intersection point A)”, “heel side base”. And the intersection point B ′ is the vicinity of the toe side base end (intersection point B) in the plan view of the protrusion due to the foot disease (“toe side base end (intersection point)”. B) and “near position of the toe side base point (intersection point B)”.

  Further, the tangent line Q1 at the intersection point A 'of the contour W and the tangent line Q2 at the intersection point B' of the contour W are drawn on the composite image, and the intersection point of the tangent line Q1 and the tangent line Q2 is defined as an intersection point d '. The tangent line Q1 and the tangent line Q2 are straight lines. When one of the tangent line Q1 and the tangent line Q2 is the third straight line and the other is the fourth straight line, and the intersection point A ′ is the first intersection point, the tangent line Q1 becomes the third straight line, the tangent line Q2 becomes the fourth straight line, When the intersection point B ′ is the first intersection point, the tangent line Q1 is the fourth straight line, and the tangent line Q2 is the third straight line. As a result, a triangle T2 having the intersection d ', the intersection A', and the intersection B 'as vertices is formed, and the triangle T2 is formed by the straight line R, the tangent Q1, and the tangent Q2. Further, an angle (acute angle) formed by the tangent line Q1 and the tangent line Q2 is defined as an angle β. This angle β is a shoemaking angle, particularly a wooden hallux valgus angle, and this angle β is measured in the composite image shown in FIG. In FIG. 21, the length (= M) between the intersection A ′ and the intersection B ′ is measured. The length M is the length between the vicinity of the base end on the toe side (that is, the intersection point B ′) and the vicinity of the base end on the heel side (that is, the intersection point A ′) in the plan view of the protrusion due to the foot disease. "

  In accordance with the measured angle α, angle β, and the length between the intersection A ′ and the intersection B ′, the thickness of the pasting member is calculated in step S4.

  Note that the measurement of the hallux valgus angle of the foot and the club valgus angle of the wooden pattern is the same as in the case of the hallux valgus described above. As shown in FIG. Since there are linear or substantially linear specific portions U1 and U2 on the inclined sides on both sides via the protruding point f which is the most protruding point, a straight line overlapping the specific portion U1 along this specific portion U1 While drawing P1, the straight line P2 which overlapped the specific part U2 along the specific part U2 is drawn. 42. It can be said that this specifying unit U1 shows a line 6202S along the portion on the fifth metatarsal 6102 side in the outer contour of the fifth proximal phalanx 6202 of the skeleton of the foot shown in FIG. U2 can be said to be a line 6102S along the portion on the fifth proximal phalanx 6202 side in the outer contour of the fifth metatarsal 6102 shown in FIG. When the specific part U1 is not linear when drawing the straight line P1, a straight line that is closest to the specific part U1 is drawn, for example, the straight line having the highest degree of coincidence with the specific part U1. For example, in order to obtain a straight line having the highest degree of coincidence, the length from a plurality of points (for example, points at predetermined intervals) from one end to the other end of the specific portion U1 to the straight line (to the straight line) The straight line with the smallest sum of the lengths of the vertical lines is taken. The method of drawing the straight line P2 is the same as that of the straight line P1, and when the specific part U2 is not linear, a straight line that is closest to the specific part U2 is drawn, for example, a straight line having the highest degree of coincidence with the specific part U2. . The protruding point f is, for example, a point having the longest distance to a straight line connecting the intersection A and the intersection B. One of the straight line P1 and the straight line P2 corresponds to the “first straight line corresponding to the inclination of one of the contours on both sides of the projecting portion in plan view through the vertex of the projecting portion”. The other corresponds to the “second straight line corresponding to the inclination of the other contour among the contours on both sides via the apex of the projecting portion in the plan view of the projecting portion”.

  In FIG. 22, the range from the intersection A to the intersection B in the foot contour U is “a plane of a protrusion due to a foot disease that is hallux valgus or hallux valgus (specifically, a foot disease that is hallux valgus)”. “A contour in vision”, and the intersection A and the intersection B are the base end of the contour of the protrusion of the foot disease that protrudes from the contour of the wooden pattern W, and the protrusion due to the varus A protruding portion, and the surface of the protruding portion has an area along the surface of the foot (that is, the outer periphery of the protruding portion has a loop shape). A region having a certain area along the surface of the foot having a range from A to the intersection B, and a region in a plan view of the protruding portion due to the varus is a range from the intersection A to the intersection B in the contour U of the foot And the range from the intersection A to the intersection B in the tree-shaped contour W Or was it is a region. In addition, the region corresponding to the protrusion due to the club fold in the wooden surface region (the region where the surface region of the protrusion is located) is the “protrusion corresponding region that is the region corresponding to the protrusion due to the foot disease”. A region having a certain area along the surface of the tree shape having a range from the intersection A to the intersection B in the tree-shaped contour W is a “protrusion corresponding region that is a region corresponding to a protrusion due to a foot disease”. . That is, the region in plan view of the protrusion corresponding region is a region surrounded by a straight line connecting the intersection point A and the intersection point B with the range from the intersection point A to the intersection point B in the tree-shaped contour W. The range from the intersection A to the intersection B in W indicates the outline of the protrusion corresponding region in plan view.

  The straight line P1 and the straight line P2 intersect at the intersection point c ′, the straight line P1 and the contour W intersect at the intersection point A ′, the straight line P2 and the contour W intersect at the intersection point B ′, and thereby the intersection point c ′ and the intersection point A ′ and the intersection point B ′. A triangle T1 having 'as a vertex is formed, and the triangle T1 is formed by a straight line R, a straight line P1, and a straight line P2. In addition, an angle (acute angle) formed by the straight line P1 and the straight line P2 is defined as an angle α. This angle α is a foot disease angle, in particular, a foot varus angle, and this angle α is measured in the composite image shown in FIG. One of the intersection A ′ and the intersection B ′ is the first intersection, and the other is the second intersection. In FIG. 22, the intersection A ′ is the vicinity of the toe side proximal end (intersection A) in the plan view of the protrusion due to the foot disease (the vicinity of the toe side (the vicinity of the toe side proximal end position (intersection A))). The intersection B ′ is near the heel side proximal end (intersection B) in the plan view of the protrusion due to the foot disease (the heel side vicinity (the heel side proximal end position (intersection B)). It is also possible). That is, when considering both the case of hallux valgus and hallux valgus, the vicinity of the base end on the toe side in the plan view of the protrusion due to the foot disease becomes one of the intersection A ′ and the intersection B ′. The vicinity of the base end on the heel side in the plan view is the other of the intersection point A ′ and the intersection point B ′.

  Further, the tangent line Q1 at the intersection point A 'of the contour W and the tangent line Q2 at the intersection point B' of the contour W are drawn on the composite image, and the intersection point of the tangent line Q1 and the tangent line Q2 is defined as an intersection point d '. As a result, a triangle T2 having the intersection d ', the intersection A', and the intersection B 'as vertices is formed, and the triangle T2 is formed by the straight line R, the tangent Q1, and the tangent Q2. Further, an angle (acute angle) formed by the tangent line Q1 and the tangent line Q2 is defined as an angle β. This angle β is a shoe-making angle, in particular, a wooden varus angle, and this angle β is measured in the composite image shown in FIG. In FIG. 22, the length (= M) between the intersection A ′ and the intersection B ′ is measured. This length M is the length between the vicinity of the proximal end on the toe side (that is, the intersection A ′) and the vicinity of the proximal end on the heel side (that is, the intersection B ′) in the plan view of the protrusion due to the foot disease. "

  In accordance with the measured angle α, angle β, and the length between the intersection A ′ and the intersection B ′, the thickness of the pasting member is calculated in step S4.

  As described above, according to the measurement of the hallux valgus angle and the hallux valgus angle when the heel height is slightly high, the position of the intersection c ′ is farther from the tree-shaped contour than in the case of FIGS. Thus, the thickness of the pasting member is calculated to be thicker than in the case of FIGS.

  Next, a measurement method when the heel height is high (for example, when the heel height is 6 cm or more) (this is referred to as a “third measurement method”) will be described. As shown in FIG. 23, in the hallux valgus region of the composite image, the foot contour U protrudes outward from the wooden contour W, and the foot contour U and the wooden contour W are the intersections A and B. We are in a cross.

  In FIG. 23, the range from the intersection A to the intersection B in the contour U of the foot is “the contour in plan view of the protrusion due to a foot disease that is hallux valgus or hallux valgus (specifically, a foot disease that is hallux valgus)” The intersection point A and the intersection point B become the base end of the contour of the protrusion of the foot disease that protrudes from the contour of the tree W, and the protrusion by the hallux valgus is the portion protruding by the hallux valgus, the protrusion Has a certain area along the foot surface (that is, the outer periphery of the protrusion has a loop shape), and specifically has a range from the intersection A to the intersection B in the contour U of the foot. The region having a certain area along the surface of the foot, and the region in plan view of the protrusion by the hallux valgus is the range from the intersection A to the intersection B in the contour U of the foot and the intersection A to the intersection B in the wooden contour W Depending on the range Or was it is a region. In addition, the area corresponding to the protrusion by the hallux valgus (area where the surface area of the protrusion is located) in the wooden surface area is the “protrusion corresponding area that is the area corresponding to the protrusion due to the foot disease”. A region having a certain area along the surface of the wooden mold having a range from the intersection A to the intersection B in the contour W of the mold is a “projection corresponding region that is a region corresponding to a projection due to a foot disease”. That is, the region in plan view of the protrusion corresponding region is a region surrounded by a straight line connecting the intersection point A and the intersection point B with the range from the intersection point A to the intersection point B in the tree-shaped contour W. The range from the intersection A to the intersection B in W indicates the outline of the protrusion corresponding region in plan view.

  Here, in the foot outline U, the linear or substantially linear specific portions U1 and U2 exist on the inclined sides on both sides via the protruding point f which is the most protruding point with respect to the tree shape. A straight line P1 ′ that overlaps the specific part U1 is drawn along the specific part U1, a straight line P2 ′ that overlaps the specific part U2 is drawn along the specific part U2, and further, a straight line parallel to the straight line P1 ′ A straight line P1 passing through A is drawn, and a straight line P2 passing through the intersection B is drawn as a straight line parallel to the straight line P2 ′. When the straight line P1 ′ is drawn, if the specific portion U1 is not linear, a straight line that is closest to the specific portion U1 is drawn. For example, the straight line having the highest degree of coincidence with the specific portion U1 is used. When drawing, if the specific part U2 is not a straight line, a straight line closest to the specific part U2 is drawn, for example, a straight line having the highest degree of coincidence with the specific part U2. The method for obtaining a straight line having the highest degree of coincidence with the specific parts U1 and U2 is the same as described above when the heel height is slightly high. The protruding point f is, for example, a point having the longest distance to a straight line connecting the intersection A and the intersection B. One of the straight line P1 and the straight line P2 corresponds to the “first straight line corresponding to the inclination of one of the contours on both sides of the projecting portion in plan view through the vertex of the projecting portion”. The other corresponds to the “second straight line corresponding to the inclination of the other contour among the contours on both sides via the apex of the projecting portion in the plan view of the projecting portion”.

  The straight line P1 and the straight line P2 intersect at an intersection c ′, thereby forming a triangle T1 having the intersection c ′, the intersection A and the intersection B as vertices, and the triangle T1 is formed by the straight line R, the straight line P1, and the straight line P2. Is done. In addition, an angle (acute angle) formed by the straight line P1 and the straight line P2 is defined as an angle α. This angle α is a foot disease angle, particularly a hallux valgus angle of the foot, and this angle α is measured in the composite image shown in FIG. One of the intersection A and the intersection B is a first intersection, and the other is a second intersection.

  Further, the tangent line Q1 at the intersection point A of the contour W and the tangent line Q2 at the intersection point B of the contour W are drawn on the composite image, and the intersection point of the tangent line Q1 and the tangent line Q2 is defined as an intersection point d '. The tangent line Q1 and the tangent line Q2 are straight lines. The tangent line Q1 and the tangent line Q2 are straight lines. When one of the tangent line Q1 and the tangent line Q2 is the third straight line and the other is the fourth straight line, and the intersection point A is the first intersection point, the tangent line Q1 is the third straight line, the tangent line Q2 is the fourth straight line, When B is the first intersection, the tangent line Q1 is the fourth straight line, and the tangent line Q2 is the third straight line. As a result, a triangle T2 having the intersection d ', the intersection A, and the intersection B as vertices is formed, and the triangle T2 is formed by the straight line R, the tangent Q1, and the tangent Q2. Further, an angle (acute angle) formed by the tangent line Q1 and the tangent line Q2 is defined as an angle β. This angle β is a shoemaking angle, in particular, a wooden hallux valgus angle, and this angle β is measured in the composite image shown in FIG. In FIG. 23, the length (= M) between the intersection A and the intersection B is measured. This length M is “the length between the toe side base end (that is, the intersection point B) and the heel side base end (that is, the intersection point A) in plan view of the protrusion due to the foot disease”. That is, the intersection point B is a toe side base end in the plan view of the protrusion due to the foot disease, and the intersection point A is a base end on the heel side in the plan view of the protrusion due to the foot disease.

  According to the measured angle α, angle β, and the length between the intersection A and the intersection B, the thickness of the pasting member is calculated in step S4.

  Note that the measurement of the hallux valgus angle of the foot and the hallux valgus angle of the wooden pattern is the same as in the case of the hallux valgus described above, and as shown in FIG. Since there are linear or substantially linear specific portions U1 and U2 on the inclined sides on both sides via the protruding point f which is the most protruding point, a straight line overlapping the specific portion U1 along this specific portion U1 Draw P1 ′, draw a straight line P2 ′ overlapping the specific part U2 along the specific part U2, and draw a straight line P1 passing through the intersection A with a straight line parallel to the straight line P1 ′ and parallel to the straight line P2 ′ A straight line P2 passing through the intersection B is drawn. When the straight line P1 ′ is drawn, if the specific portion U1 is not linear, a straight line that is closest to the specific portion U1 is drawn. For example, the straight line having the highest degree of coincidence with the specific portion U1 is used. When drawing, if the specific part U2 is not a straight line, a straight line closest to the specific part U2 is drawn, for example, a straight line having the highest degree of coincidence with the specific part U2. The method for obtaining a straight line having the highest degree of coincidence with the specific parts U1 and U2 is the same as described above when the heel height is slightly high. The protruding point f is, for example, a point having the longest distance to a straight line connecting the intersection A and the intersection B. One of the straight line P1 and the straight line P2 corresponds to the “first straight line corresponding to the inclination of one of the contours on both sides of the projecting portion in plan view through the vertex of the projecting portion”. The other corresponds to the “second straight line corresponding to the inclination of the other contour among the contours on both sides via the apex of the projecting portion in the plan view of the projecting portion”.

  In FIG. 24, the range from the intersection A to the intersection B in the foot contour U is “a plane of the protrusion due to a foot disease that is hallux valgus or hallux valgus (specifically, a foot disease that is hallux valgus)”. “A contour in vision”, and the intersection A and the intersection B are the base end of the contour of the protrusion of the foot disease that protrudes from the contour of the wooden pattern W, and the protrusion due to the varus A protruding portion, and the surface of the protruding portion has an area along the surface of the foot (that is, the outer periphery of the protruding portion has a loop shape). A region having a certain area along the surface of the foot having a range from A to the intersection B, and a region in a plan view of the protruding portion due to the varus is a range from the intersection A to the intersection B in the contour U of the foot And the range from the intersection A to the intersection B in the tree-shaped contour W Or was it is a region. In addition, the region corresponding to the protrusion due to the club fold in the wooden surface region (the region where the surface region of the protrusion is located) is the “protrusion corresponding region that is the region corresponding to the protrusion due to the foot disease”. A region having a certain area along the surface of the tree shape having a range from the intersection A to the intersection B in the tree-shaped contour W is a “protrusion corresponding region that is a region corresponding to a protrusion due to a foot disease”. . That is, the region in plan view of the protrusion corresponding region is a region surrounded by a straight line connecting the intersection point A and the intersection point B with the range from the intersection point A to the intersection point B in the tree-shaped contour W. The range from the intersection A to the intersection B in W indicates the outline of the protrusion corresponding region in plan view.

  The straight line P1 and the straight line P2 intersect at an intersection c ′, thereby forming a triangle T1 having the intersection c ′, the intersection A and the intersection B as vertices, and the triangle T1 is formed by the straight line R, the straight line P1, and the straight line P2. Is done. In addition, an angle (acute angle) formed by the straight line P1 and the straight line P2 is defined as an angle α. This angle α is a foot disease angle, in particular, a foot varus minor angle, and this angle α is measured in the composite image shown in FIG. One of the intersection A and the intersection B is a first intersection, and the other is a second intersection.

  Further, the tangent line Q1 at the intersection point A of the contour W and the tangent line Q2 at the intersection point B of the contour W are drawn on the composite image, and the intersection point of the tangent line Q1 and the tangent line Q2 is defined as an intersection point d '. The tangent line Q1 and the tangent line Q2 are straight lines. The tangent line Q1 and the tangent line Q2 are straight lines. When one of the tangent line Q1 and the tangent line Q2 is the third straight line and the other is the fourth straight line, and the intersection point A is the first intersection point, the tangent line Q1 is the third straight line, the tangent line Q2 is the fourth straight line, When B is the first intersection, the tangent line Q1 is the fourth straight line, and the tangent line Q2 is the third straight line. As a result, a triangle T2 having the intersection d ', the intersection A, and the intersection B as vertices is formed, and the triangle T2 is formed by the straight line R, the tangent Q1, and the tangent Q2. Further, an angle (acute angle) formed by the tangent line Q1 and the tangent line Q2 is defined as an angle β. This angle β is a shoe-making angle, in particular, a wooden varus angle, and this angle β is measured in the composite image shown in FIG. In FIG. 24, the length (= M) between the intersection A and the intersection B is measured. This length M is “the length between the toe side base end (that is, the intersection point A) and the heel side base end (that is, the intersection point B) in the plan view of the protrusion due to the foot disease”. That is, the intersection point A becomes the toe side base end in the plan view of the protrusion due to the foot disease, and the intersection point B becomes the base end on the heel side in the plan view of the protrusion due to the foot disease.

  According to the measured angle α, angle β, and the length between the intersection A and the intersection B, the thickness of the pasting member is calculated in step S4.

  As described above, according to the measurement of the hallux valgus angle and the club valgus angle when the heel height is high, the position of the intersection c ′ becomes a position away from the wooden outline as compared with the case where the heel height is slightly high, The thickness of the pasting member is calculated to be thicker than when the heel height is slightly high.

  Even when the heel height is slightly high or the heel height is high, if the thickness of the affixing member is calculated in step S4, a correction tree pattern is created in the correction shoemaking pattern creation process as in the case where the heel height is low (S5). ). That is, a pasting member corresponding to the calculated thickness is created (S11, pasting member creating step), and the pasting member created is pasted (S12, pasting step), or a pasting member having a thickness larger than the calculated thickness is used. Create and affix the affixing member on the wooden pattern (S21, affixing step), and adjust the thickness of the affixing member to the calculated thickness in the state of affixing the affixing member on the wooden pattern (S22, thickness adjustment) Process).

  In creating the affixing member, for example, the affixing member having the shape shown in FIG. 14 is used, and the length in the left-right direction of the affixing member is the length between the intersection A and the intersection B. It may be longer than the length between B. When the heel height is slightly high, the thickness of the affixing member is calculated according to the measured angle α, angle β, and the length between the intersection A ′ and the intersection B ′, but as shown in FIG. 21 and FIG. In addition, since the foot outline U protrudes from the intersection A to the outline B in the range of the intersection B, the length of the sticking member in the left-right direction is at least the length between the intersection A and the intersection B. To do.

  Moreover, when affixing the affixing member, the affixing member is adhered to the wooden pattern in the same manner as in step S12. In other words, the affixing member for hallux valgus is affixed to the area corresponding to the position of the hallux valgus on the wooden mold (the area including the position corresponding to the root of the main hall on the inner side surface of the wooden mold) The member is attached to the area corresponding to the position of the hallux valgus in the wooden mold (the area including the position corresponding to the base of the mallet on the outer side surface of the wooden mold), specifically, the sticking member for the hallux valgus In both of 2000 and the inner member 2100 for valgus gavel, an intermediate position between the intersection A and the intersection B in the wooden pattern (a position equidistant from the intersection A and the intersection B in the horizontal direction) (in the hallux valgus) At the intermediate position E1 and the inner mallet, it is pasted so that the maximum thickness portion of the pasting member is located at a position corresponding to the middle position E2). Note that the maximum thickness portion is located at a position corresponding to the intermediate positions E1 and E2. In the plan view, the maximum thickness portion is perpendicular to the straight line connecting the intersection A and the intersection B from the intermediate positions E1 and E2. In some cases, there may be a case where there is a maximum thickness portion on an extended line of a straight line connecting the intermediate position E1 and the intermediate position E2 in plan view.

  When the heel height is slightly high, the thickness of the affixing member is calculated according to the measured angle α, angle β, and the length between the intersection A ′ and the intersection B ′. Affixing is performed so that the maximum thickness portion of the affixing member is located at a position corresponding to an intermediate position (intersection e) between A ′ and intersection B ′. Since the intermediate position between the intersection A ′ and the intersection B ′ and the intermediate position between the intersection A and the intersection B are substantially the same position, even if the heel height is slightly high, the middle between the intersection A and the intersection B in the tree pattern You may make it affix so that the largest thickness location of an affixing member may be located in the position corresponded to a position.

  Further, in the thickness adjusting step, similarly to the case where the heel height is low, if the sum of the LD when there are two affixing members and the LD when there is one affixing member are both length MD, the wooden pattern 1100 Is calculated by adding the length MD to the peripheral length (that is, the length of the curve LP), and the peripheral length (that is, the length of the curve LP ′) in the state of the correction tree pattern 1105 is calculated. The surface of the affixing member is shaved so as to have a length (length that is longer by the length MD than the perimeter of the wooden mold 1100 (that is, the length of the curve LP)). Note that LD may be calculated by equation (9), may be calculated by equation (12), or may be calculated by LD = 2 × L1, as in the case where the heel height is low. Also good. When the heel height is slightly high, M in the formulas (9) and (12) is the length between the intersection point A ′ and the intersection point B ′.

  A correction tree pattern 1105 obtained by bonding the bonding members 2000 and 2100 to the tree pattern 1100 shown in FIGS. 19 and 20 is as shown in FIGS.

  When the heel height is low (less than 3 cm), the first measurement method is used. When the heel height is slightly high (3 cm or more and less than 6 cm), the second measurement method is used. When the heel height is high (6 cm In the above case, the third measurement method is used. However, the first measurement method, the second measurement method, and the second measurement method depend on the shape of the toe side of the shoe (toe design), the thickness of the heel, and the severity of the hallux valgus. It is preferable to use the three measurement methods flexibly. For example, if the shape of the toe side becomes a square shape in plan view, the foot easily moves to the toe side, and accordingly, the heel height is considered to be high (for example, the second measurement is performed even when the heel height is less than 3 cm). Method), and the thickness of the affixing member is increased. In addition, when the heel thickness is thin, the worn shoe becomes unstable and the foot easily moves to the toe side, so that the heel height is considered high (for example, the heel height is 5 cm). In this case, the third measuring method is used), and the thickness of the pasting member is increased. Further, when the hallux valgus is serious, the folds and small folds are easily bent, and accordingly, the heel height is considered high, and the thickness of the affixing member is increased.

  21 to 24, the protruding point that is the most protruding point with respect to the tree pattern is the intersection point A than the intermediate position between the intersection point A and the intersection point B (or the intermediate position between the intersection point A ′ and the intersection point B ′). When it is shifted to the side or the intersection B side, the maximum thickness portion may be pasted with a shift corresponding to the shift amount with respect to the intermediate position.

  Further, the value of M in Equation (4) is the length between the intersection A and the intersection B in the first measurement method and the third measurement method, and the intersection A ′ in the second measurement method. In the state where the shoes are actually worn, the part of the hallux valgus or the valgus is particularly pushed from the toe side (if the heel is high, it is pushed from the toe side. Force increases), and the height of the protruding point f increases (that is, for example, the distance from the protruding point f to the straight line connecting the intersection point A and the intersection point B increases). Since it is wise to calculate the thickness of the affixing member in order to prevent the position of the gavel from touching the inner surface of the shoe, the value of M in equation (4) is It can be considered that the calculation is performed with a longer length.

  That is, as shown in FIG. 28, at the position on the heel side from the protruding point f on the contour U of the foot, the inner end of the base position of the main hook 1001 (the base positions on both sides of the main hook 1001 in plan view (that is, The base position on the side close to the hallux valgus at the end portion 1001P and the end portion 1001Q) is identified as a position having the same distance as the distance between 1001P and the protruding point f, and the position is defined as position C (second position). That is, when the end portion 1001P is the position D (first position), the distance between the protruding point f and the position D and the distance between the protruding point f and the position C are the same. Then, the length between the position C and the position D (the length of the straight line R ′ between the position C and the position D) is M in the formula (4), and the formula (4) is calculated. That is, the range of the protrusion of the hallux valgus (protrusion due to foot disease) is broader than those of the first measurement method to the third measurement method. The length between the base ends on the heel side is the length between the position C and the position D. That is, the position C is “a heel-side proximal end in the plan view of the protrusion due to the foot disease”, and the position D is the “toe-side proximal end in the plan view of the protrusion due to the foot disease”.

  In FIG. 28, the range from the position C to the position D in the foot contour U is “a plan view of a protrusion due to a foot disease that is hallux valgus or hallux valgus (specifically, a foot disease that is hallux valgus)”. The contour from the intersection A to the intersection B in the foot contour U becomes “the contour of the portion protruding from the shoe-shaped contour in the protruding portion of the foot disease”, and the intersection A and the intersection B are "The base end of the contour of the portion protruding from the shoemaking contour".

  As described above, by making the value of M longer than the length between the intersection A and the intersection B (or the length between the intersection A ′ and the intersection B ′), the calculated length L1 becomes longer and pasted. The thickness of the member can be increased. In addition, since the intersection point B is located on the heel side from the inner end portion 1001P of the base position of the main shaft 1001, the length between the intersection point A and the intersection point B and the length between the intersection point A ′ and the intersection point B ′ are as follows. When the length between the position C and the position D is M, the length between the intersection A and the intersection B (or the intersection A ′ and the intersection B ′ is not longer than the length between the position C and the position D. The calculated length L1 does not become shorter than when M is the length between the two.

  Similarly, with respect to the club wart, the outer edge of the base of the gavel at the heel side from the protrusion point f on the contour U of the foot (the root positions on both sides of the gavel in plan view (that is, The base position on the side close to the varus of the inner edge of the end portion 1005P and the end portion 1005Q) is specified as a position having the same distance as the distance between 1005Q and the protruding point f, and the position is defined as a position D (fourth position). (See FIG. 12). That is, when the end portion 1005Q outside the base position of the club valgus is defined as the position C (third position) (see FIG. 12), the distance between the protruding point f and the position D and the distance between the protruding point f and the position C. Are the same. Then, the length between the position C and the position D (the length of the straight line between the position C and the position D) is M in the formula (4), and the formula (4) is calculated. In other words, the range of the protrusion of the club valgus (protrusion due to foot disease) is broader than those of the first measurement method to the third measurement method, and “toe side in plan view of the protrusion due to foot disease” The length between the base end and the base end on the heel side ”is the length between the position C and the position D. That is, the position D is “a heel-side proximal end in the plan view of the protrusion due to the foot disease”, and the position C is the “toe-side proximal end in the plan view of the protrusion due to the foot disease”.

  In the case of FIG. 12, the range from the position C to the position D in the contour U of the foot is “a foot disease that is hallux valgus or hallux valgus (specifically, a foot disease that is hallux varus). The contour from the intersection A in the contour U of the foot to the intersection B becomes the “contour of the portion protruding from the shoe-shaped contour in the projection of the foot disease”, and the intersection A and The intersection B is the “base end of the contour of the portion protruding from the shoemaking contour”.

  As described above, by making the value of M longer than the length between the intersection A and the intersection B (or the length between the intersection A ′ and the intersection B ′), the calculated length L1 becomes longer and pasted. The thickness of the member can be increased. In addition, since the intersection A in FIG. 12 is located on the heel side from the outer end of the base position of the gavel, the length between the intersection A and the intersection B and the length between the intersection A ′ and the intersection B ′ are , The length between the position C and the position D is not longer than the length between the position C and the position D, and the length between the intersection A and the intersection B (or the intersection A ′ and the intersection B). The calculated length of L1 is never shorter than when M is the length between '.

  When the length between the position C and the position D (the length of the straight line R ′ between the position C and the position D) is M, M in the expressions (9) and (12) is also the position C and the position. The length between D. In addition, in FIG. 28, when the intersection point A is the base end on the heel side in the plan view of the protrusion due to the foot disease, and the intersection point B is the base end on the toe side in the plan view of the protrusion due to the foot disease, C is defined as “near the heel-side base end in a plan view of the protrusion due to the foot disease (“ proximal position of the heel-side base end ”,“ position near the heel-side base end position ”), and position D May be set in the vicinity of the base end on the toe side in a plan view of the protrusion due to the foot disease (“position in the vicinity of the base end on the toe side” or “position in the vicinity of the base end position on the toe side”). Similarly, in FIG. 12, when the intersection point A is regarded as the toe side proximal end in the plan view of the protrusion due to the foot disease, and the intersection point B is regarded as the proximal end on the heel side in the planar view of the protrusion due to the foot disease, The position C is defined as “near the toe-side proximal end in the plan view of the protrusion due to the foot disease (“ near-toe-side proximal position ”,“ toe-side proximal position ”), D may be “the vicinity of the heel side proximal end in the plan view of the protrusion due to the foot disease” (may be “the vicinity position of the heel side proximal end” or “the vicinity position of the heel side proximal end position”).

  Further, data on the length between the position C and the position D is acquired from a plurality of samples, a predetermined fixed value (for example, an average value of a plurality of data) is obtained from the acquired plurality of data, The value may be used as the value of M. As the value (that is, the value of M), for example, it is conceivable to set a fixed value at 50 to 65 mm for the hallux valgus and a fixed value at 30 to 45 mm for the hallux valgus. The fixed value at 50 to 65 mm may be any value within the range of 50 to 65 mm, but for example, any of 50 mm, 55 mm, 60 mm, and 65 mm is conceivable. Moreover, as a fixed value in 30-45 mm, the arbitrary value in 30-45 mm may be sufficient, For example, any in 30 mm, 35 mm, 40 mm, and 45 mm can be considered. By using a fixed value in this way, when calculating the thickness of the affixing member, it is not necessary to measure the value of M each time, and thus the thickness of the affixing member can be easily calculated. In addition, the said numerical value of 50-65 mm about hallux valgus and the numerical value of 30-45 mm about hallux valgus are numerical values obtained by acquiring many samples. By calculating the thickness, it is possible to obtain an appropriate thickness, so that the pain of hallux valgus and hallux valgus is alleviated and the inner surface of the shoe is tightened to the area of hallux valgus or hallux The condition does not loosen more than necessary.

  The above description, particularly FIGS. 18 to 28, is for the right foot, but is the same for the left foot, and FIGS. 18 to 28 are the same except that the figure is symmetrical.

  When the sticking member is attached to the wooden pattern as described above, a shoe is manufactured using the wooden pattern (corrected wooden pattern) to which the sticking member is attached (S6 in FIG. 1). The shoe manufacturing method using the corrected tree pattern 1005 is the same as the conventional method.

  For example, an example of a shoe manufactured by a cement manufacturing method is configured as shown in FIGS. 29 and 30, and a shoe 3005 shown in FIG. 29 includes an upper (may be an upper or upper) 3010 and a bottom 3020. And a heel 3040.

  Here, the upper 3010 is a part formed upward from the bottom 3020, and covers the periphery of the user's foot (including the toes and heels) and the upper side of the user's foot, and the upper leather 3012. And a back leather 3014. The back leather 3014 is provided on the inner surface of the front leather 3012, and is provided on the inner surface of the front leather 3012 by partially adhering to the inner side of the front leather 3012. A tip core is provided between the front leather 3012 and the back leather 3014 on the toe side in the upper 3010, and a moon core is provided between the front leather 3012 and the back leather 3014 on the heel side in the upper 3010.

  Further, the bottom portion 3020 includes an outsole (which may be a real bottom) 3022, a midsole 3024 provided above the outsole 3022, a midsole 3026 provided above the midsole 3024, and a midsole 3026 And an insole 3028 provided on the upper side. A bottom main body is configured by the outsole 3022, the midsole 3024, and the midsole 3026, and the bottom main body is configured by at least the outsole 3022 and the midsole 3026. 30 and 32, the midsole 3024 is provided. However, the bottom 3020 may be configured such that the midsole 3024 is not provided. The insole 3028 has a sheet shape with a uniform thickness (may be substantially equal).

  Adjacent members in the bottom 3020 are fixed by adhesion. That is, the outsole 3022 is bonded to the midsole 3024, the midsole 3024 is bonded to the midsole 3026, and the insole 3028 is bonded to the midsole 3026. The lower end region of the upper 3010 is bonded to the midsole 3026 and the outsole 3022. That is, the surface opposite to the front leather 3012 in the lower end region of the back leather 3014 is bonded to the midsole 3026, and the surface opposite to the back leather 3014 in the lower end region of the front leather 3012 is bonded to the front bottom 2022. Yes. The outer shape of the insole 3026 is formed substantially the same as the contour of the bottom surface of the correction wooden mold 1105, and the outer shape of the insole 3028 is formed substantially the same as the outer shape of the insole 3026.

  In addition, as shown in FIGS. 30 to 33, an inclination adjustment member 4100 is provided in an end region on the heel side of the bottom portion 3020, and specifically, the inclination adjustment member 4100 includes an insole 3026 and an insole 3028. The inclination adjusting member 4100 is bonded to the insole 3026 and the insole 3028 with an adhesive.

  Here, the inclination adjusting member 4100 will be described. The inclination adjusting member 4100 is a substantially plate-like member, and has a plate-like portion 4110 and a protruding portion 4120 protruding upward from the plate-like portion 4110 from the upper surface. It is integrally formed of any one of leather (natural leather or synthetic leather), EVA, synthetic rubber, urethane, and elastomer (other materials may be used). In the case of leather, the inclination adjusting member is formed by grinding with a grinder or the like (that is, by cutting out), and for EVA, synthetic rubber, urethane, and elastomer, the cutting method or molten material is poured into the mold. The tilt adjusting member can be formed by the method.

  Here, the plate-like portion 4110 has a plate-like shape and has a shape in which a substantially rectangular corner portion is chamfered in a substantially arc shape in plan view, specifically, a straight front side portion 4100a, A substantially arc-shaped corner side 4100b provided continuously from the left side end of the front side 4100a, and a substantially arc-shaped corner side 4100c provided continuously from the right side end of the front side 4100a. And a straight side part 4100d provided continuously from the end of the corner part 4100b opposite to the front part 4100a, and a part from the end of the corner part 4100c opposite to the front part 4100a. A linear side portion 4100e that is provided, and a rear side portion 4100f that is connected to the rear end of the side portion 4100d and the rear end of the side portion 4100e. doing.

  Here, the side part 4100d and the side part 4100e are inclined with respect to the center line 4100J in the front-rear direction so that the length between the side part 4100d and the side part 4100e increases as going to the rear side. Is formed.

  In addition, a circular opening 4112 is provided in a rear region of the plate-like portion 4110. The opening 4112 is formed so as to penetrate from the front side to the back side of the inclination adjusting member 4100. The arc shape of the opening 4112 and the arc shape of the rear side portion 4100f are formed concentrically (may be substantially concentric).

  The protruding portion 4120 is provided at an intermediate position from the front end portion to the rear end portion of the plate-like portion 4110, and the front end 4120a of the protruding portion 4120 is provided with a gap from the front side portion 4100a. The rear end 4120 b of the shape portion 4120 is formed to be the front end position of the opening 4112. Further, the protruding portion 4120 is formed from the side portion 4100d to the side portion 4100e in the left-right direction. The projecting portion 4120 is formed in a strip shape in the left-right direction, but the center position in the front-rear direction (may be a substantially center position) is formed to be the thickest (that is, the center position in the front-rear direction (also a substantially center position). A good apex) is inclined so as to be downward from the apex toward the front side, and is inclined so as to be downward from the apex toward the rear side. That is, the protrusion 4120 has an inclined surface 4120-1 that is inclined downward toward the front side on the front side, and an inclination that is inclined downward toward the rear side on the rear side. It has surface 4120-2. That is, the upper surface of the projecting portion 4120 has a substantially U-shape projecting upward (may be a substantially U-shape or a substantially mountain shape). That is, the protrusion 4120 is provided adjacent to the opening 4112 on the toe side of the opening 4112, and the protrusion 4120 is provided with an inclined surface 4120-2 from the heel side end of the protrusion 4120. The inclined surface 4120-2 is inclined upward toward the toe side.

  In addition, the inclination adjusting member 4100 is formed symmetrically with respect to the whole via the center line 4100J. In the inclination adjusting member 4100, the opening 4112 and the inclined surface 4120-2 have a function of preventing the heel from moving forward.

  Here, the manufacturing method of the shoe 3005 shown in FIGS. 29 to 33 is as shown in FIG. That is, first, each part constituting the upper 2010 is sewn and manufactured (S31 in FIG. 344).

  Next, the upper 2010 is suspended (S32 in FIG. 34, the suspension process). That is, a moon core is placed in the heel portion of the upper 3010, a tip is placed in the toe portion, and the upper is held by heating and cooling. On the other hand, as shown in FIG. The upper 3010 is suspended in a state where the bottom surface is temporarily fixed with a nail or the like, the upper 3010 is covered with the correction wooden mold, and the heel portion of the upper 3010 is fixed to the correction wooden mold with the nail 3100. At the time of the suspension, the upper 3010 is pulled toward the insole 3026 side, and is thus formed to be extended by being pulled.

  Next, the bottom portion, in particular, the front bottom 3022 is bonded (S33 in FIG. 34, first mounting step). That is, the back leather 3014 is bonded to the midsole 3026, the midsole 3024 is bonded to the midsole 3026, and the outsole 3022 is bonded to the front leather 3012 and the midsole 3024. When the midsole 3024 is bonded to the midsole 3026, the nail that temporarily fixes the midsole 3026 to the correction wooden mold is removed.

  Next, the corrected wooden mold is removed from the shoe (that is, the shoe being manufactured), and the tilt adjusting member 4100 is bonded to the insole 3026 (S34 in FIG. 34, tilt adjusting member bonding step). In addition, when the shoe is worn, the inclination adjusting member 4100 is attached such that the bottom portion 1002D of the foot (the region including the lower end of the heel (the lower position of the lower end of the rib protrusion outer protrusion) 1002C) is the opening 4112. To be in position. That is, by causing at least a part of the bottom 1002D of the heel 1002 to be located above the opening 4112, the heel 1002 is prevented from moving to the front by the front end of the opening 4112 or the protrusion 4120. Therefore, even if the shoe has high heels, it is possible to prevent the foot from moving forward (so-called forward slipping of the foot).

  That is, the region 3028-1 on the upper side of the opening 4112 in the insole 3028 enters the opening 4112, so that the region 3028-1 becomes depressed, and the upper side of the protruding portion 4120 on the insole 3028 is also increased. Since the region 3028-2 is provided on the upper surface of the projecting portion 4120 along the upper surface, the region 3028-2 is curved into a generally U-shape projecting upward. The region 3028-2a on the upper side of the inclined surface 4120-2 is inclined such that the region 3028-2a on the upper side of the midsole 3026 is located on the upper side (the distance from the upper surface of the midsole 3026 becomes longer) as a result of the inclination. The inclination angle α1 with respect to the horizontal direction of the region (first region) 3028-1 and region (second region) 3028-2a of the insole 3028 is The inclination angle β1 with respect to the horizontal direction of the regions below the regions 3028-1 and 3028-2a becomes smaller (that is, the inclination of the first region and the second region becomes gentle), and these regions (regions 3028-1) , 3028-2a) because the heel 1002 is disposed (for example, the heel bottom portion 1002D is in contact with the region 3028-1 and the front heel region 1002E (the portion at the heel and the toe side of the heel bottom portion 1002D) ) Is in contact with the region 3028-2a (and the region 3028-1)), and the heel 1002 can be prevented from moving forward, whereby the toe side of the foot is strongly pressed against the inner surface of the shoe Can be prevented, the symptoms of hallux valgus and hallux valgus can be prevented from worsening, and pain at the hallux valgus and hallux valgus can be alleviated. Furthermore, since the inclination angle α1 can be reduced by increasing the thickness 4120L of the region where the protrusion 4120 is formed in the inclination adjusting member 4100, when the heel height is high, by increasing the thickness 4120L, The minute inclination angle α1 can be reduced to prevent the heel 1002 from moving forward.

  Next, the insole 3028 is adhered to the insole 3026 and the inclination adjusting member 4100, and finishing is performed by applying cream or the like to the upper leather 2012 of the upper 2010 (S35 in FIG. 34, insole adhesion step). As described above, the shoe 2005 is manufactured.

  The step S34 and the step of bonding the insole 3028 in step S35 constitute a second attachment step.

  In the above description, a shoe manufactured by a cement type manufacturing method has been described, but a shoe manufactured by another manufacturing method may be used. For example, a Mackay method, a Goodyear-Welt method, a California method, a stitch-down method, a vulcanized method, an injection method, and the like can be given. These manufacturing methods also have a suspension process.

  That is, the McKay type manufacturing method puts a shoe mold into the upper and hangs it, then bonds the insole and outsole to the suspended upper, then pulls out the shoe mold, and then the upper, insole and outsole Is a method of stitching together.

  In the Goodyear-Welt type manufacturing method, the insole is temporarily fixed to a shoe mold, the upper is suspended, and then the upper and welt are sewn to the rib provided on the insole by scooping, and then the outer bottom is covered. After that, it is a method to lock stitch the welt and the bottom with a sewing machine.

  In addition, the California-style manufacturing method inserts a shoe mold in a state where the peripheral area of the upper, the insole and the platform leather are stitched together, and the platform is placed on the platform provided via a cushion on the opposite side of the shoe mold of the insole. This is a method in which a wound leather is wound and suspended, and then an adhesive is applied to the platform wound leather and the bottom is pressed.

  In the stitch-down type manufacturing method, the peripheral region of the upper is hung outside, and the peripheral region of the upper and the peripheral portion of the front bottom are sewn with a lock stitch by a sewing machine.

  Also, the vulcanized manufacturing method is that the area around the upper is hung on the insole, then attached to the vulcanizing and crimping machine, and the unvulcanized rubber is placed in the pressure and crimping machine and the bottom is This is a vulcanization pressure bonding method.

  The injection-type manufacturing method is a method in which the peripheral region of the upper is suspended from the insole and then mounted on a mold of an injection molding machine, and a synthetic resin is injected to form the bottom.

  Another example of the inclination adjusting member will be described. The inclination adjusting member 4200 shown in FIG. 36 has a plate-like shape as a whole, a side portion 4200a having a substantially arc shape, a substantially arc-shaped side portion 4200b provided opposite to the side portion 4200a, and a side portion 4200a. Provided between one end (left end) and one end (left end) of the side 4200b, the side 4200c having a substantially arc shape and the other end (right side) of the side 4200a 2) and the other end (right end) of the side 4200b, and is surrounded by a side 4200d having a substantially arc shape. The length of the side portion 4200a along the side portion 4200a is longer than the length of the side portion 4200b along the side portion 4200b, and the side portion 4200a and the side portion 4200b are formed substantially concentrically, and the side portion 4200a. Is formed larger than the diameter of the side portion 4200b (radius in a substantially arc shape).

  In other words, the inclination adjusting member 4200 has a shape in which both the left and right sides are formed in an arc shape, and the left and right sides of a belt-like shape having straight sides parallel to each other are curved to the heel side. Even so, the side 4200b on the heel side of the inclination adjusting member 4200 has a shape recessed on the toe side in plan view.

  When the shoe is worn, the inclination adjusting member 4200 is attached to the heel bottom 1002D (the region including the lower end of the heel (the position below the lower end of the rib protrusion outer protrusion) 1002C) of the side 4200b. The front region 1002E of the foot heel (the portion at the heel and the toe side portion from the bottom of the heel) is positioned at the side portion 4200b.

  Thus, the region above the inclination adjusting member 4200 in the insole 3028 is provided on the upper surface of the inclination adjusting member 4200 along the upper surface, so that the region on the heel side in the region above the inclination adjusting member 4200 in the insole 3028 (first 2 regions) (regions above the heel side region in the inclination adjusting member 4200) and regions adjacent to the heel side of the second region (first region) are closer to the toe side with respect to the upper surface of the midsole 3026. Since it is inclined so as to be on the upper side, the inclination angle of the first region and the second region becomes gentle, and the heel 1002 is disposed in these regions (the first region and the second region) (for example, the heel The bottom portion 1002D is in contact with the first region, and the region 1002E on the front side of the heel of the foot (the region on the toe side than the bottom portion 1002D of the heel at the heel portion) The second region (and the first region) and the heel of the foot can be prevented from moving forward, thereby preventing the toe side of the foot from being strongly pressed against the inner surface of the shoe, and the hallux valgus 36 to prevent the symptoms of hallux valgus and the hallux valgus and the hallux valgus to alleviate the pain of the hallux valgus. The first region corresponds to the lower region of the bottom of the heel when the shoe is worn, and the first region corresponds to the lower region of the toe side of the heel when the shoe is worn.

  Moreover, the inclination adjusting member 4300 shown in FIG. 37 has a plate shape as a whole and an annular shape. That is, the inclination adjusting member 4300 has a substantially elliptical side part 4300a and a substantially elliptical side part 4300b provided inside the side part 4300a, and has a substantially elliptical opening in plan view on the inner side. A portion 4302 is provided. The side portion 4300a is formed to be elongated toward the heel side in accordance with the shape of the insole 3028.

  When the shoe is worn, the inclination adjusting member 4300 is attached to the bottom portion 1002D of the heel of the foot (the region including the lower end of the heel (the lower position of the lower end of the rib protrusion outer protrusion) 1002C). The front side region 1002E of the heel (the portion at the heel and the toe side portion from the bottom of the heel) is set to the position of the region 4302 (described later) (particularly, the region on the heel side of the region 4302). That is, the lower end of the heel is positioned at the center of the opening 4310.

  As a result, the region above the opening 4310 in the insole 3028 enters the opening 4310, so that the region is recessed, and the toe side region 4302 (opening) of the inclination adjusting member 4300 in the insole 3028 An upper region of the toe side region (region adjacent to the toe side with respect to the opening 4310) from the portion 4310 is provided on the upper surface of the region 4302 along the upper surface, whereby the opening 4310 of the insole 3028 is provided. The toe side region (first region) and the region above the region 4302 of the insole 3028 (particularly the heel side region) (second region) are on the toe side with respect to the upper surface of the insole 3026. Since it is inclined so as to be more upward, the inclination angle of the first region and the second region becomes gentle, and these regions (first region, second region) Since the heel 1002 is disposed in the region) (for example, the bottom portion 1002D of the heel is in contact with the first region, the region 1002E on the front side of the heel of the foot (the region on the toe side than the bottom portion 1002D of the heel). The second region (and the first region) and the heel of the foot can be prevented from moving forward, thereby preventing the toe side of the foot from being strongly pressed against the inner surface of the shoe, and the hallux valgus In addition, in the configuration shown in Fig. 37, the second region is an insole that can prevent the symptoms of hallux valgus and hallux valgus and prevent the hallux valgus and the hallux valgus. The first region corresponds to the lower region of the bottom of the heel when the shoe is worn, and the first region corresponds to the lower region of the toe side of the heel when the shoe is worn.

  Further, the inclination adjusting member 4400 shown in FIG. 38 has a plate shape as a whole and a quadrangular shape. That is, the inclination adjusting member 4400 includes a linear side portion 4400a, a side portion 4400b that is parallel to the side portion 4400a (may be substantially parallel), and a substantially arc-shaped side that is substantially perpendicular to the side portions 4400a and 4400b. Part 4400c, and substantially straight side part 4400d inclined with respect to side part 4400a and side part 4400b, side part 4400a is on the toe side, side part 4400b is on the heel side, and side part 4400c is on the foot. Inside, side 4400d is the outside of the foot.

  The side portion 4400c is formed along the shape of the inner side (left side in FIG. 38) of the inner surface of the shoe, and has a substantially arc shape that bulges outwardly (right side in FIG. 38). Further, the side portion 4400d is formed along the shape of the outer side (right side in FIG. 38) on the inner surface of the shoe, and is inclined so as to become inward as it goes to the heel side. The length in the direction is formed so as to decrease toward the heel side.

  When the shoe is worn, the inclination adjusting member 4400 is attached to the heel bottom 1002D (the area including the lower end of the heel (lower position of the lower end of the rib protrusion outer protrusion) 1002C) of the side 4400b. The front region 1002E of the heel of the foot (the portion at the heel and the toe-side portion of the heel from the bottom of the heel) is positioned at the side 4400b.

  Thus, the region above the inclination adjusting member 4400 in the insole 3028 is provided on the upper surface of the inclination adjusting member 4400 along the upper surface, whereby the region on the heel side in the region above the inclination adjusting member 4400 in the insole 3028 (first 2 regions) (regions above the heel side region in the inclination adjusting member 4400) and regions adjacent to the heel side of the second region (first region) are closer to the toe side with respect to the upper surface of the midsole 3026. Since it is inclined so as to be on the upper side, the inclination angle of the heel side region in the inclination adjusting member 4400 becomes gentle, and the heel 1002 is disposed in these regions (first region, second region) (for example, heel) The bottom portion 1002D of the heel touches the first region, and the region 1002E on the front side of the heel of the foot (the bottom portion 1002D of the heel at the heel portion). (The toe side area) is the second area (and touches the first area), and the heel of the foot can be made difficult to move forward, so that the toe side of the foot is strongly pressed against the inner surface of the shoe. 38, the symptoms of hallux valgus and hallux valgus can be prevented from worsening, and pain in the hallux valgus and hallux valgus can be alleviated. In the insole, the second region hits the region below the toe side of the heel in the portion of the heel in the state of wearing the shoe, and the first region is the bottom of the heel in the state of wearing the shoe This is the lower area.

  In the above description, the inclination adjusting member is provided to make it difficult to move the heel of the foot forward. However, the insole 5001 shown in FIGS. 39 and 40 may be attached on the insole 3026. . A step of attaching the insole 5001 to the upper surface of the midsole 3026 is a second attachment step.

  That is, the insole 5001 includes a rear side component 5100 and a front side component 5200 provided continuously from the toe side (front side) end of the rear component 5100.

  Here, the rear side component 5100 includes a flat plate portion 5102 and a thickness changing portion 5104 provided continuously from the front side of the flat plate portion 5102.

  The flat plate portion 5102 has a flat plate shape (may be substantially flat plate shape), the outer contour has a shape along the inner periphery along the inner bottom 3026 of the shoe upper, and the rear end portion has a substantially circular shape. It has an arc shape.

  Further, the thickness changing portion 5104 changes in thickness in the front-rear direction, and the thickness gradually increases from the rear end (heel side end) of the thickness changing portion 5104 to the front side, and the maximum thickness position of the thickness changing portion 5104 From 5104M, the thickness gradually decreases toward the front side. The thickness changing portion 5104 is formed thicker than the thickness of the region other than the thickness changing portion 5104 in the insole 5001 except for the front end and the rear end of the thickness changing portion 5104.

  The thickness changing portion 5104 is divided into a thickness changing portion rear side portion 5104-1 and a thickness changing portion front side portion 5104-2 through a boundary along the maximum thickness position 5104M, and the maximum thickness from the rear end of the thickness changing portion 5104. In the thickness change portion rear side portion 5104-1 that is the region up to the position 5104M, the inclined surface 5106-1 that is the upper surface of the thickness change portion rear side portion 5104-1 is the bottom surface of the thickness change portion rear side portion 5104-1. On the other hand, it is inclined so as to be higher as it goes to the toe side (that is, the distance from the bottom surface of the thickness change portion rear side portion 5104-1 becomes longer), while on the toe side from the maximum thickness position 5104M. In the thickness change portion front side portion 5104-2, the inclined surface 5106-2 which is the upper surface of the thickness change portion front side portion 5104-2 is closer to the toe side than the bottom surface of the thickness change portion front side portion 5104-2. A lower (i.e., the distance from the bottom surface of the thickness varying portion front portion 5104-2 is shorter) inclined so as. In the thickness changing portion 5104, the thickness changes in the front-rear direction, but has the same thickness in the left-right direction. When the shoe is worn, the region 1002E on the front side of the heel of the foot is on the inclined surface 5106-1.

  Thereby, the inclination angle α11 with respect to the horizontal direction of the inclined surface 5106-1 in the rear side portion 5104-1 of the thickness changing portion is larger than the inclination angle β11 with respect to the horizontal direction of the end portion position on the toe side of the opening portion 5110 of the midsole 3026. Get smaller.

  Further, the rear component 5100 is formed with a substantially circular opening 5110, most of the opening 5110 is formed in the flat plate-like part 5102, and the toe side end region of the opening 5110 is The thickness changing portion 5104 is formed. Note that the entire region of the opening 5110 may be formed in the flat plate portion 5102.

  The position where the opening 5110 is formed is that when the shoe is worn, the bottom 1002D of the foot heel (the region including the lower end of the heel (the position below the lower end of the rib protrusion outer protrusion) 1002C) is the position of the opening 5110. To be. That is, when at least a part of the bottom portion 1002D of the heel 1002 is positioned above the opening portion 5110, the heel 1002 is moved to the front side by the front end portion of the opening portion 5110 and the thickness changing portion rear side portion 5104-1. Accordingly, even if the shoe has high heels, it is possible to prevent the foot from moving forward (so-called slipping of the foot).

  In addition, the front side component 5200 is continuously provided from the toe side end of the front component rear side 5202 and the front side rear portion 5202 of the front component rear side 5202 provided continuously from the toe side end of the thickness changing portion 5104. A front side portion 5204.

  The front side component portion rear side portion 5202 has a plate shape (may be substantially plate shape), and is curved so as to become an upper side as it goes to the toe side. That is, the front side component portion rear side portion 5202 is formed to curve upward as it goes to the toe side in accordance with the shape of the upper surface of the insole 3026 in a shoe with high heel, and the inclination angle with respect to the horizontal direction as it goes to the toe side Is formed to be small.

  Further, the front side portion 5204 of the front side has a plate shape (may be substantially plate shape). A bulging portion 5300 bulging upward along the inner side portion is formed from the rear side portion 5202 of the front side configuration portion to the front side portion 5204 of the front side configuration portion, and the arch is supported by the bulging portion 5300. Can be done. Most of the region of the bulging portion 5300 is formed in the front side configuration portion rear side portion 5202, and the toe side end region of the bulging portion 5300 is formed in the front side configuration portion front side portion 5204. Note that all the regions of the bulging portion 5300 may be formed in the front side configuration portion rear side portion 5202.

  The outer outline (that is, the outer shape) of the insole 5001 in plan view is formed to be substantially the same as the outer shape of the insole 3026. Note that the outer shape of the midsole 3026 is formed substantially the same as the contour of the bottom surface of the correction tree 1105.

  In addition, when attaching to the insole 3026 of the insole 5001, the lower surface of the insole 5001 is fixed to the upper surface of the insole 3026 with an adhesive. That is, an adhesive is applied to a region in contact with the midsole 3026 of the insole 5001 and fixed to the midsole 3026.

  As described above, the heel 1002 can be prevented from moving to the front side by the front end portion of the opening 5110 and the thickness change portion rear side portion 5104-1, and the symptoms of hallux valgus and hallux valgus get worse. It is possible to relieve pain in the hallux valgus region and the club valgus region.

  In addition, in the insole 5001, by adjusting the thickness of the thickness changing portion 5104, the inclination angle of the inclined surface 5106-1 in the horizontal direction of the thickness changing portion rear side portion 5104-1 and the toe side of the opening portion 5110 of the insole 3026 As shown in FIG. 41, the example shown in FIG. 40 is shown in FIG. 41 (b), and the difference between the end position of the horizontal position and the horizontal direction can be adjusted. Thus, when the thickness 5104L (thickness of the maximum thickness position 5104M) of the thickness changing portion 5104 is larger than the thickness 5104L (thickness of the maximum thickness position 5104M) of the thickness changing portion 5104 of FIG. An angle of inclination α21 with respect to the horizontal direction of the inclined surface 5106-1 in the side portion 5104-1 and a pair of end positions on the toe side of the opening portion 5110 of the insole 3026 in the horizontal direction. The difference in the inclination angle β21 can be increased, so that it is possible to cope with a shoe having a higher heel height. On the other hand, as shown in FIG. 41 (c), the thickness changing portion 5104 is compared with FIG. When the thickness 5104L (thickness of the maximum thickness position 5104M) is reduced, the inclination angle α31 of the inclined surface 5106-1 in the horizontal direction of the thickness change portion rear side portion 5104-1 and the end portion on the toe side of the opening portion 5110 of the midsole 3026 The difference in the inclination angle β31 of the position with respect to the horizontal direction can be reduced, and it is possible to cope with the case where the height of the heel is low.

  In the above description, the insole 5001 is attached to the upper surface of the insole 3026, but a sheet-like insole may be attached to the upper surface of the insole 5001 like the insole 3028. The configuration for attaching this sheet-like insole is the third attachment step. The sheet-like insole is an insole having a uniform thickness (which may be substantially equal) (that is, a flat insole). The sheet-like insole covers the entire area of the insole 5001 including the opening 5110. When the sheet-like insole is attached, the lower surface of the sheet-like insole is bonded to the upper surface of the insole 5001. Fix with an agent. Even in this case, although the sheet-like insole is on the upper surface of the insole 5001, the heel can be prevented from moving to the front side by the front end of the opening 5110 or the thickness changing part rear side part 5104-1. The symptoms of hallux valgus and hallux valgus can be prevented from worsening, and the pain of the hallux valgus and hallux valgus can be alleviated.

  In the above description, the insole 5001 is attached to the upper surface of the insole 3026, and further, the sheet-like insole is attached to the upper surface of the insole 5001, but the order of the insole 5001 and the sheet-like insole is reversed. A configuration may be adopted in which a sheet-like insole is attached to the upper surface of the bottom 3026 (second attachment step), and further, an insole 5001 is attached to the upper surface of the sheet-like insole (third attachment step). When attaching the sheet insole to the upper surface of the insole 3026, the lower surface of the sheet insole is fixed to the upper surface of the insole 3026 with an adhesive, and when attaching the insole 5001 to the sheet insole, The insole 5001 is fixed to the upper surface of the sheet insole with an adhesive. Even in this case, it is possible to prevent the heel from moving to the front side by the front end portion of the opening 5110 and the thickness change portion rear side portion 5104-1, so that the symptoms of hallux valgus and hallux valgus become worse. It can prevent and relieve pain of the hallux valgus part and the part of the hallux valgus.

  The material of the insole 5001 may be leather (natural leather or synthetic leather), synthetic rubber, urethane, EVA, elastomer, fabric, etc. In the case of leather, it is integrally formed by cutting with a grinder or the like. And a method of forming a sheet-shaped leather by overlapping the sheet-shaped leather for the thickness changing portion 5104, and for synthetic rubber, urethane, EVA, and elastomer, a method by cutting out Alternatively, a method can be considered in which the molten material is integrally formed by pouring it into a mold. In addition, for the fabric, a core material is formed from leather, synthetic rubber, urethane, EVA, elastomer, etc. (a core material that is thinner than the insole 5001 is formed), and a sheet-like fabric is pasted on the core material It can be considered.

  Note that the above description, particularly FIGS. 29, 31, 32, 35 to 40, and 42, is for the right foot, but the same applies to the left foot, and FIG. 29, FIG. 31, FIG. 32, FIGS. 35 to 40, and 42 are the same except that the drawings are symmetrical.

  As described above, by manufacturing a shoe using a wooden mold to which the above-mentioned attaching member is attached, it is possible to prevent the portion of the hallux valgus or the portion of the varus of the foot from being pushed against the inner surface of the shoe. At the same time, by preventing the toe side of the foot from being strongly pressed against the inner surface of the shoe by the inclination adjusting member, it is possible to prevent pain in the hallux valgus region or the club valgus region. In particular, as described above, for the hallux valgus sticking member, measure the hallux valgus angle of the foot and the wooden hallux valgus angle, calculate the thickness of the sticking member according to the two hallux valgus angles measured, As for the sticking member, the varus angle of the foot and the crouching angle of the wooden pattern are measured, and the thickness of the sticking member is calculated according to the measured two valgus angles. The thickness of the member and the thickness of the affixing member for hallux valgus can be calculated respectively, and even when the patient has both hallux valgus and hallux valgus diseases, the thickness of each affixing member can be calculated it can. In addition, since the thickness of the affixing member is calculated appropriately, pains in the hallux valgus region and hallux valgus region can be prevented, and the foot on the inner surface of the shoe can be moved to the hallux valgus region and hallux valgus region. The tightening condition will not become unnecessarily loose.

  In addition, as described above, the first measuring method, the second measuring method, and the third measuring method are provided as methods for measuring the foot and wooden hallux valgus and the foot and wooden hallux valgus. Therefore, by using a measurement method suitable for the height of the heel, the thickness of the affixing member can be calculated appropriately. Especially, women's shoes have various heel heights, It can be said that it is suitable for women's shoes.

  In the above description, the “toe side proximal end in the plan view of the protrusion due to the foot disease” may be referred to as “the toe side proximal end position in the plan view of the protrusion due to the foot disease”. The heel side proximal end in plan view of the protruding portion due to the heel may be referred to as “heel side proximal end position in planar view of the protruding portion due to foot disease”.

1000 foot 1000G foot image 1001 mother heel 1001P, 1001Q, 1005P, 1005Q end 1005 gavel 1100 wood type 1105 correction wood type 1100G wood type image 2000, 2100 affixing member 3005 shoe 3010 upper 3020 bottom 3022 outsole 3024 middle item 3026 Insole 3028 Insole 3040 Heel 4100, 4200, 4300, 4400 Inclination adjusting member 4110 Plate-like part 4112 Opening part 4120 Protruding part 4120-1, 4120-2 Inclined surface 5001 Insole 5100 Rear side part 5102 Flat part 5104 Thickness Change portion 5104-1 Thickness change portion rear side portion 5104-2 Thickness change portion front side portion 5106-1 510106 Inclined surface 5200 Front side configuration portion 5202 Front side configuration portion rear side portion 5204 Front side configuration portion front side portion 5300 bulge A, B, A ′, B ′, c, c ′, d, d ′ Intersection C, D Position f, g Protrusion point P1, P1 ′, P2, P2 ′, Q1, Q2, R Straight line T1 , T2 Triangle U, W Contour U1, U2 Specific part

Claims (29)

A method for producing a shoe mold, which is a mold for producing shoes,
A foot size measurement process for measuring the foot length and instep around the foot of the user of the shoe to be manufactured;
A foot disease angle that indicates the degree of protrusion of the protrusion due to a foot disease that is hallux valgus or hallux valgus, and in the contour in plan view of the protrusion, the inclination of one of the two contours through the apex of the protrusion The foot disease angle, which is an acute angle formed by the corresponding first straight line and the second straight line corresponding to the inclination of the other contour, is measured, and the foot length measurement value obtained in the foot size measurement process and the instep In the shoe mold angle indicating the degree of protrusion in the protrusion corresponding area, which is an area corresponding to the protrusion due to foot disease in the shoe manufacturing according to the measured value, in the outline in plan view of the protrusion corresponding area, the protrusion corresponding area Angle measuring step of measuring a shoemaking mold angle, which is an acute angle formed by a third straight line corresponding to the inclination of one of the two outlines through the apex of the first line and a fourth straight line corresponding to the inclination of the other outline When,
A calculation step of calculating the thickness of the affixing member, wherein the foot disease angle is α, the shoemaking mold angle is β, and the toe side proximal end and the heel side proximal end in the plan view of the protrusion due to foot disease When the length is M, a calculation step of calculating the thickness L1 of the pasting member according to the formula (A),
A correction shoemaking process for creating a correction shoemaking mold comprising a shoemaking mold and a pasting member, wherein in the correction shoemaking, the pasting member is pasted on the region corresponding to the protruding portion of the shoemaking mold, and the thickness of the pasting member is A corrected shoemaking creation step that is the thickness calculated in the calculation step;
A method for producing a shoe mold, comprising:

The foot disease is hallux valgus, and in the angle measurement step, the foot disease angle is measured for the protrusion due to hallux valgus, the shoe mold angle is measured for the protrusion corresponding region that is the region corresponding to the protrusion due to hallux valgus in the shoe mold,
In the calculation step, M is the length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion by the hallux valgus,
The method for manufacturing a shoemaking mold according to claim 1, wherein, in the attaching step, the attaching member is attached to a protruding portion corresponding region, which is a region corresponding to the protruding portion by the hallux valgus of the shoemaking mold. The foot disease is club valgus, and in the angle measurement process, the foot disease angle is measured for the protrusion due to club valgus, and the region corresponding to the protrusion due to hallux valgus in the shoe mold is a protrusion corresponding region. Measure the shoe mold angle and
In the calculation step, let M be the length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to the club fold.
The method for manufacturing a shoemaking mold according to claim 1 or 2, wherein, in the pasting step, the pasting member is pasted to a protruding portion corresponding region, which is a region corresponding to the protruding portion due to the varnish of the shoemaking mold. In the angle measurement step, in the composite image obtained by overlapping the flat image of the foot and the flat image of the shoemaking mold at the same scale, the shoemaking mold has two intersections where the shoemaking outline (W) and the foot outline (U) intersect. The first intersection point (A) and the second intersection point (B), which are the base points of the contour of the protrusion of the foot disease that protrudes from the contour, are identified, and the most prominent in the contour of the protrusion of the foot disease The protruding point (c ′) that is the position of the vertex is identified, the straight line (P1) connecting the first intersection and the protruding point is the first straight line, and the straight line (P2) connecting the second intersection and the protruding point is the second straight line age,
The tangent (Q1) at the first intersection of the shoemaking contour is the third straight line, and the tangent (Q2) at the second intersection of the shoemaking contour is the fourth straight line,
The length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to a foot disease is set as the length between the first intersection and the second intersection in the calculation step. Or the manufacturing method of the shoemaking type | mold of 2 or 3. In the angle measurement step, in the composite image obtained by overlapping the flat image of the foot and the flat image of the shoemaking mold at the same scale, the shoemaking mold has two intersections where the shoemaking outline (W) and the foot outline (U) intersect. The first intersection point (A) and the second intersection point (B), which are the base points of the contour of the protrusion of the foot disease that protrudes from the contour, are identified, and the most prominent in the contour of the protrusion of the foot disease Along the specific part (U1) which is a substantially linear outline existing on one inclined side which is the inclined side on the first intersection side among the inclined sides on both sides via the protruding point (f) which is the position of the vertex A straight line parallel to the straight line (P1 ′) and passing through the first intersection point (P1) is defined as the first straight line, which is a substantially linear outline existing on the other inclined side that is the inclined side on the second intersection point side. A straight line (P2) passing through the second intersection at a straight line parallel to the straight line (P2 ′) along the part (U2) is defined as a second straight line. ,
The tangent at the first intersection of the shoemaking contour is the third straight line (Q1), the tangent at the second intersection of the shoemaking contour is the fourth straight line (Q2),
The length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to a foot disease is set as the length between the first intersection and the second intersection in the calculation step. Or the manufacturing method of the shoemaking type | mold of 2 or 3. In the angle measurement process, in the composite image obtained by superimposing the flat image of the foot and the flat image of the shoemaking at the same scale, two points of intersection of the shoemaking contour (W) and the foot contour (U) Identify the first intersection (A) and the second intersection (B) that are the two intersections that are the base ends of the outline of the part protruding from the shoe-shaped outline in the protrusion, and in the outline of the protrusion of the foot disease, The protruding point (c ′) that is the position of the most protruding vertex is specified, the straight line (P1) connecting the first intersection and the protruding point is defined as the first straight line, and the straight line (P2) connecting the second intersection and the protruding point is defined as the first line. Two straight lines
The tangent (Q1) at the first intersection of the shoemaking contour is the third straight line, and the tangent (Q2) at the second intersection of the shoemaking contour is the fourth straight line,
In the calculation step, when the foot disease is hallux valgus, it is close to the hallux valgus at the ends on both sides in the plan view of the base position of the heel at the second position which is the position on the heel side from the protruding point of the hallux valgus on the contour of the foot The second position (C) that is the same distance as the distance from the first position (D) that is the end of the side to the protruding point is specified, and the length between the first position and the second position is determined as a foot disease The length between the proximal end of the toe side and the proximal end of the heel side in a plan view of the protrusion due to the foot disease in the case of hallux valgus,
In the case where the foot disease is club valgus, the inner positions at both ends in the plan view of the base position of the heel at the fourth position which is the position on the heel side from the protruding point of the club valgus on the contour of the foot The fourth position (D), which is the same distance as the distance from the third position (C), which is the end near the anti-gavel, to the protruding point is specified, and between the third position and the fourth position The length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to the foot disease in the case where the foot disease is club varicose, or 1 or 2 or 3. A method for producing a shoe mold according to 3. In the angle measurement step, in the composite image in which the flat image of the foot and the flat image of the shoemaking are overlapped at the same scale, the outline of the protruding portion of the foot disease passes through the protruding point (f) which is the position of the most protruding vertex. A straight line (P1) along the specific portion (U1) that is a substantially linear contour existing on one of the inclined sides is a first straight line, and a substantially linear contour existing on the other inclined side. The straight line (P2) along the specific part (U2) is the second straight line,
A first intersection (A ′) that is the intersection of the first straight line and the shoemaking contour (W) and a second intersection (B ′) that is the intersection of the second straight line and the shoemaking contour (W) are specified, and shoemaking The tangent (Q1) at the first intersection of the mold contour is the third straight line, and the tangent (Q2) at the second intersection of the shoemaking contour is the fourth straight line,
In the calculation step, when the foot disease is hallux valgus, it is close to the hallux valgus at the ends on both sides in the plan view of the base position of the heel at the second position which is the position on the heel side from the protruding point of the hallux valgus on the contour of the foot The second position (C) that is the same distance as the distance from the first position (D) that is the end of the side to the protruding point is specified, and the length between the first position and the second position is determined as a foot disease The length between the proximal end of the toe side and the proximal end of the heel side in a plan view of the protrusion due to the foot disease in the case of hallux valgus,
In the case where the foot disease is club valgus, the inner positions at both ends in the plan view of the base position of the heel at the fourth position which is the position on the heel side from the protruding point of the club valgus on the contour of the foot The fourth position (D), which is the same distance as the distance from the third position (C), which is the end near the anti-gavel, to the protruding point is specified, and between the third position and the fourth position The length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to the foot disease in the case where the foot disease is club varicose, or 1 or 2 or 3. A method for producing a shoe mold according to 3. In the angle measurement process, in the composite image obtained by superimposing the flat image of the foot and the flat image of the shoemaking at the same scale, two points of intersection of the shoemaking contour (W) and the foot contour (U) Identify the first intersection (A) and the second intersection (B) that are the two intersections that are the base ends of the outline of the part protruding from the shoe-shaped outline in the protrusion, and in the outline of the protrusion of the foot disease, Along the specific part (U1) which is a substantially linear contour existing on one inclined side which is the inclined side on the first intersection side among the inclined sides on both sides via the protruding point (f) which is the most protruding position A straight line parallel to the straight line (P1 ′) and passing through the first intersection point (P1) is defined as the first straight line, which is a substantially linear outline existing on the other inclined side that is the inclined side on the second intersection point side. A straight line (P2) passing through the second intersection point is a second straight line parallel to the straight line (P2 ′) along the portion (U2). And line,
The tangent at the first intersection of the shoemaking contour is the third straight line (Q1), the tangent at the second intersection of the shoemaking contour is the fourth straight line (Q2),
In the calculation step, when the foot disease is hallux valgus, it is close to the hallux valgus at the ends on both sides in the plan view of the base position of the heel at the second position which is the position on the heel side from the protruding point of the hallux valgus on the contour of the foot The second position (C) that is the same distance as the distance from the first position (D) that is the end of the side to the protruding point is specified, and the length between the first position and the second position is determined as a foot disease The length between the proximal end of the toe side and the proximal end of the heel side in a plan view of the protrusion due to the foot disease in the case of hallux valgus,
In the case where the foot disease is club valgus, the inner positions at both ends in the plan view of the base position of the heel at the fourth position which is the position on the heel side from the protruding point of the club valgus on the contour of the foot The fourth position (D), which is the same distance as the distance from the third position (C), which is the end near the anti-gavel, to the protruding point is specified, and between the third position and the fourth position The length between the base end on the toe side and the base end on the heel side in a plan view of the protrusion due to the foot disease in the case where the foot disease is club varicose, or 1 or 2 or 3. A method for producing a shoe mold according to 3. A method for producing a shoe mold, which is a mold for producing shoes,
A foot size measurement process for measuring the foot length and instep around the foot of the user of the shoe to be manufactured;
A foot disease angle that indicates the degree of protrusion of the protrusion due to a foot disease that is hallux valgus or hallux valgus, and in the contour in plan view of the protrusion, the inclination of one of the two contours through the apex of the protrusion The foot disease angle, which is an acute angle formed by the corresponding first straight line and the second straight line corresponding to the inclination of the other contour, is measured, and the foot length measurement value obtained in the foot size measurement process and the instep In the shoe mold angle indicating the degree of protrusion in the protrusion corresponding area, which is an area corresponding to the protrusion due to foot disease in the shoe manufacturing according to the measured value, in the outline in plan view of the protrusion corresponding area, the protrusion corresponding area Angle measuring step of measuring a shoemaking mold angle, which is an acute angle formed by a third straight line corresponding to the inclination of one of the two outlines through the apex of the first line and a fourth straight line corresponding to the inclination of the other outline When,
It is a calculation step for calculating the thickness of the affixing member, where the foot disease angle is α, the shoemaking mold angle is β, the toe side proximal end and the heel side proximal end in a plan view of the protrusion due to foot disease When the length between the neighborhood is M, a calculation step of calculating the thickness L1 of the pasting member according to the formula (A),
A correction shoemaking process for creating a correction shoemaking mold comprising a shoemaking mold and a pasting member, wherein in the correction shoemaking, the pasting member is pasted on the region corresponding to the protruding portion of the shoemaking mold, and the thickness of the pasting member is A corrected shoemaking creation step that is the thickness calculated in the calculation step;
A method for producing a shoe mold, comprising:

In the angle measurement step, in the composite image in which the flat image of the foot and the flat image of the shoemaking are overlapped at the same scale, the outline of the protruding portion of the foot disease passes through the protruding point (f) which is the position of the most protruding vertex. A straight line (P1) along the specific portion (U1) that is a substantially linear contour existing on one of the inclined sides is a first straight line, and a substantially linear contour existing on the other inclined side. The straight line (P2) along the specific part (U2) is the second straight line,
A first intersection (A ′) that is the intersection of the first straight line and the shoemaking contour (W) and a second intersection (B ′) that is the intersection of the second straight line and the shoemaking contour (W) are specified, and shoemaking The tangent (Q1) at the first intersection of the mold contour is the third straight line, and the tangent (Q2) at the second intersection of the shoemaking contour is the fourth straight line,
In the calculation step, the vicinity of the base end on the toe side in the plan view of the protrusion due to the foot disease is set as one of the first intersection and the second intersection point, and the vicinity of the base end on the heel side in the plan view of the protrusion due to the foot disease is 10. The method for manufacturing a shoe mold according to claim 9, wherein the other of the first intersection and the second intersection is set, and the length M is a length between the first intersection and the second intersection. The foot disease is hallux valgus, and in the angle measurement step, the foot disease angle is measured for the protrusion due to hallux valgus, the shoe mold angle is measured for the protrusion corresponding region that is the region corresponding to the protrusion due to hallux valgus in the shoe mold,
In the calculation step, let M be the length between the vicinity of the proximal end on the toe side and the vicinity of the proximal end on the heel side in a plan view of the protrusion by the hallux valgus,
The method for manufacturing a shoemaking mold according to claim 9 or 10, wherein, in the attaching step, the attaching member is attached to a protruding portion corresponding region, which is a region corresponding to the protruding portion by the shoemaking hallux valgus. The foot disease is club valgus, and in the angle measurement process, the foot disease angle is measured for the protrusion due to club valgus, and the region corresponding to the protrusion due to hallux valgus in the shoe mold is a protrusion corresponding region. Measure the shoe mold angle and
In the calculation step, let M be the length between the vicinity of the proximal end on the toe side and the vicinity of the proximal end on the heel side in a plan view of the projecting portion due to the varus toe,
The method for manufacturing a shoe mold according to claim 9, 10 or 11, wherein, in the affixing step, the affixing member is affixed to a protruding portion corresponding region, which is a region corresponding to the protruding portion due to the shoe-shaped varnish of the shoe mold. . A method for producing a shoe mold, which is a mold for producing shoes,
A foot size measurement process for measuring the foot length and instep around the foot of the user of the shoe to be manufactured;
A foot disease angle that indicates the degree of protrusion of the protrusion due to a foot disease that is hallux valgus or hallux valgus, and in the contour in plan view of the protrusion, the inclination of one of the two contours through the apex of the protrusion The foot disease angle, which is an acute angle formed by the corresponding first straight line and the second straight line corresponding to the inclination of the other contour, is measured, and the foot length measurement value obtained in the foot size measurement process and the instep In the shoe mold angle indicating the degree of protrusion in the protrusion corresponding area, which is an area corresponding to the protrusion due to foot disease in the shoe manufacturing according to the measured value, in the outline in plan view of the protrusion corresponding area, the protrusion corresponding area Angle measuring step of measuring a shoemaking mold angle, which is an acute angle formed by a third straight line corresponding to the inclination of one of the two outlines through the apex of the first line and a fourth straight line corresponding to the inclination of the other outline When,
A step of calculating the thickness of the affixing member, wherein the foot disease angle is α, the shoemaking angle is β, and when the foot disease is hallux valgus, the fixed value at 50 to 65 mm is M and the foot disease is internal In the case of anti-gavel, when the fixed value at 30 to 45 mm is M, a calculation step of calculating the thickness L1 of the pasting member by the formula (A);
A correction shoemaking process for creating a correction shoemaking mold comprising a shoemaking mold and a pasting member, wherein in the correction shoemaking, the pasting member is pasted on the region corresponding to the protruding portion of the shoemaking mold, and the thickness of the pasting member is A corrected shoemaking creation step that is the thickness calculated in the calculation step;
A method for producing a shoe mold, comprising:

The foot disease is hallux valgus, and in the angle measurement step, the foot disease angle is measured for the protrusion due to hallux valgus, the shoe mold angle is measured for the protrusion corresponding region that is the region corresponding to the protrusion due to hallux valgus in the shoe mold,
In the calculation step, M is a fixed value at 50 to 65 mm,
14. The method for manufacturing a shoemaking mold according to claim 13, wherein, in the attaching step, the attaching member is attached to a protruding portion corresponding area which is an area corresponding to the protruding portion formed by the hallux valgus of the shoemaking mold. The foot disease is club valgus, and in the angle measurement process, the foot disease angle is measured for the protrusion due to club valgus, and the region corresponding to the protrusion due to hallux valgus in the shoe mold is a protrusion corresponding region. Measure the shoe mold angle and
In the calculation step, M is a fixed value at 30 to 45 mm,
The method for manufacturing a shoemaking mold according to claim 13 or 14, wherein, in the attaching step, the attaching member is attached to a protruding portion corresponding region, which is a region corresponding to a protruding portion formed by a shoe-shaped inner valgus. The correction shoemaking process
A pasting member creating step for creating a pasting member having a thickness calculated in the calculating step;
A pasting step for pasting the pasting member created in the pasting member creating step to the protrusion corresponding region of the shoe-making mold; and
The method for producing a shoe mold according to claim 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15. The correction shoemaking process
A pasting step of pasting a pasting member having a thickness larger than the calculated thickness on the shoemaking mold;
A thickness adjusting step in which the thickness of the affixing member affixed to the shoemaking mold is the thickness calculated in the calculating step;
The method for producing a shoe mold according to claim 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15. In the thickness adjustment process, calculate the perimeter along the surface of the affixing member with the perimeter along the surface of the shoe mold in the state where the affixing member with the calculated thickness is affixed, and correct it The method for manufacturing a shoemaking mold according to claim 17, wherein the thickness of the sticking member is adjusted by shaving the sticking member so that the perimeter of the shoemaking mold becomes the calculated perimeter. In the thickness adjustment step, the peripheral length along the loop-shaped curve in a state where the pasting member is pasted is defined as the first peripheral length, and the peripheral length in a state where the pasting member is not pasted, The length calculated by the formula (B) when the pasting member is pasted only on either the hallux valgus side region or the valgus side side region when the perimeter along the second is the perimeter length. In the case where the calculated perimeter is calculated by adding the length LD to the second perimeter, and the pasting member is pasted on both the hallux valgus side region and the inner valgus side side, The sum of the length LD calculated by the formula (B) for the affixed member on the hallux valgus side and the length LD calculated by the formula (B) for the affixed member on the valgus side is added to the second peripheral length. To calculate the calculated perimeter, and the first囲長 is, shoe-type method of claim 18, wherein the adjusting the thickness of the joining member so that the length issued the calculated.

In the thickness adjustment step, the peripheral length along the loop-shaped curve in a state where the pasting member is pasted is defined as the first peripheral length, and the peripheral length in a state where the pasting member is not pasted, When the peripheral length along the second peripheral length is the second peripheral length, the length calculated by the formula (C) is used when the adhesive member is applied only to either the hallux valgus side region or the valgus side side region. In the case where the calculated perimeter is calculated by adding the length LD to the second perimeter, and the pasting member is pasted on both the hallux valgus side region and the inner valgus side side, The sum of the length LD calculated by the formula (C) for the affixing member on the hallux valgus side and the length LD calculated by the formula (C) for the affixing member on the varus side is added to the perimeter. To calculate the calculated perimeter, and the first囲長 is, shoe-type method of claim 18, wherein the adjusting the thickness of the joining member so that the length issued the calculated.

In the thickness adjustment step, the peripheral length along the loop-shaped curve in a state where the pasting member is pasted is defined as the first peripheral length, and the peripheral length in a state where the pasting member is not pasted, When the peripheral length along the second peripheral length is the second peripheral length, in the case where the adhesive member is applied only to either the hallux valgus side region or the valgus side side region, the thickness (L1) of the adhesive member is 2 When calculating the perimeter calculated by adding the double length to the second perimeter, on the other hand, when pasting the affixing member on both the hallux valgus side region and the valgus side side region, For the affixing member on the hallux valgus side, add the sum of the length of twice the thickness (L1) of the affixing member and the length of the affixing member on the valgus side to twice the thickness of the affixing member (L1). To calculate the calculated perimeter, and the first囲長 is, shoe-type method of claim 18, wherein the adjusting the thickness of the joining member so that the length issued the calculated. An shoe having an upper and a bottom, wherein the bottom has an outsole attached to the upper, an insole provided above the outsole, and a sheet-like insole attached to the upper surface of the insole A manufacturing method comprising:
A suspension step of hanging the upper by covering the upper with the insole temporarily secured to the shoe mold produced by the method for producing a shoe mold of claim 1 to 21;
A first attachment step of attaching a bottom body including at least an outsole and an insole to the bottom surface side of the upper in a state where the upper is suspended;
In the second mounting step, the inclination adjusting member is attached so that the insole and the substantially plate-like inclination adjusting member are sandwiched between the insole and the insole with the shoemaking mold removed from the upper. Inclined inclining downward toward the toe side at an inclination angle with respect to the horizontal direction of the lower region of the toe side portion of the heel bottom portion or the heel bottom portion of the heel with the shoe in the insole region A second mounting step for mounting at a position to reduce the angle;
A method for manufacturing a shoe, comprising: The second attachment step includes a tilt adjusting member bonding step for bonding the tilt adjusting member to the insole, and an insole bonding step for bonding the insole to the insole and the tilt adjusting member. Shoes manufacturing method. The inclination adjusting member has openings (4112, 4310) penetrating from the front side surface to the back side surface,
The inclination adjusting member is attached to the underside of the insole so that the bottom of the heel is located at the opening when the shoe is worn. Shoes manufacturing method. The inclination adjusting member has a plate-like plate-like portion (4110) having an opening (4112) penetrating from the front-side surface to the back-side surface, and a protruding portion (4120) protruding upward from the upper surface of the plate-like portion. Have
In a state where the inclination adjusting member is attached to the shoe, the projecting portion is provided adjacent to the opening on the toe side of the opening, and the projecting portion is inclined from the heel side end of the projecting portion. (4120-2) is provided, and the inclined surface is inclined upward toward the toe side,
The inclination adjusting member is attached to the underside of the insole so that the bottom of the heel is located at the opening when the shoe is worn. Shoes manufacturing method. A method for manufacturing a shoe having an upper and a bottom, wherein the bottom has an outsole attached to the upper, an insole provided above the outsole, and an insole attached to the upper surface of the insole. There,
A suspension step of hanging the upper by covering the upper with the insole temporarily secured to the shoe mold produced by the method for producing a shoe mold of claim 1 to 21;
A first attachment step of attaching a bottom body including at least an outsole and an insole to the bottom surface side of the upper in a state where the upper is suspended;
In the second attachment step in which the insole is attached to the upper surface of the insole with the shoemaking mold removed from the upper, the front component connected from the toe side end of the rear component (5100) and the rear component (5200), and the rear constituent part is provided with a substantially plate-like rear constituent part rear side part (5102) and a toe side end of the rear constituent part rear side part. The thickness change portion rear side portion (5104-1) that increases in thickness toward the toe side that is provided continuously from the rear side configuration portion, and the toe portion that is provided continuously from the toe side end of the thickness change portion rear side portion A thickness changing portion (5104) having a thickness changing portion front side portion (5104-2) that becomes thinner toward the side, and an opening (5110) is formed at least on the rear side portion of the rear side configuration portion, The front component is connected from the end on the toe side of the thickness changing portion, and the upper side as it goes to the toe side A second mounting step of mounting the insole (5001) which presents a curved plate-like,
A method for manufacturing a shoe, comprising: 27. The method for manufacturing a shoe according to claim 26, further comprising a third attachment step of attaching the sheet insole to the upper surface of the insole attached to the upper surface of the insole in the second attachment step. A method for manufacturing a shoe having an upper and a bottom, wherein the bottom has an outsole attached to the upper, an insole provided above the outsole, and an insole attached to the upper surface of the insole. There,
A suspension step of hanging the upper by covering the upper with the insole temporarily secured to the shoe mold produced by the method for producing a shoe mold of claim 1 to 21;
A first attachment step of attaching a bottom body including at least an outsole and an insole to the bottom surface side of the upper in a state where the upper is suspended;
A second attachment step of attaching a sheet insole to the upper surface of the insole with the shoemaking mold removed from the upper;
In the third attachment step of attaching the second insole to the upper surface of the insole, the rear component (5100) and the front component (5200) connected from the toe side end of the rear component, The rear component part is a substantially plate-shaped rear component rear part (5102) and a thickness changing part provided continuously from the toe side end of the rear component rear part, from the rear component part Thickness decreases as it goes to the toe side continuously provided from the end part on the toe side of the thickness change part rear side part (5104-1) and the thickness change part rear side part that the thickness increases continuously toward the toe side. A thickness changing portion (5104) having a thickness changing portion front side portion (5104-2), at least an opening (5110) is formed in the rear side portion of the rear constituent portion, and the front constituent portion is the thickness changing portion. A second plate that is continuously provided from the end of the toe side and curves upward as it goes to the toe side. A third mounting step of mounting the mat (5001),
A method for manufacturing a shoe, comprising: The bulge portion (5300) having a bulge shape that bulges upward at the bulge portion that supports the arch is provided in a region corresponding to the arch of the front side component portion. 28. A method for manufacturing a shoe according to 28.

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