CN211672673U

CN211672673U - Ergonomic high-heeled shoes

Info

Publication number: CN211672673U
Application number: CN202020387552.3U
Authority: CN
Inventors: 黄立鑫
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-24
Filing date: 2020-03-24
Publication date: 2020-10-16
Anticipated expiration: 2030-03-24

Abstract

The utility model discloses an ergonomic high-heeled shoes, concretely relates to shoes technical field, including outsole front end region and heel region, outsole front end region sets to the low arcuation in preceding high back, the heel region is trilateral arc column structure, heel region front portion is provided with the arch of shoes region, the regional front portion of arch of shoes is provided with the sole region, the sole region is planar structure, the waist type of planar structure profile for the sole stress state that coincide, planar structure is provided with small difference in height and radian on the left and right sides direction, be provided with the toe region between sole region and the outsole front end region, the toe region sets up the slope that hangs down in preceding high back to smooth transition and formation, heel region bottom is provided with high-heeled shoes heel. The utility model optimizes the shape of the sole, makes the foot and the shoe more fit, and leads the foot and the shoe of the wearer to be integrated, thus ensuring more comfortable feeling.

Description

Ergonomic high-heeled shoes

Technical Field

The utility model relates to a shoes technical field, more specifically says, the utility model relates to an ergonomic high-heeled shoes.

Background

The injury caused by high-heeled shoes is that relative to flat shoes, when wearing the flat shoes, the outsole of the sole is a plane, and when standing, the whole outsole is in full contact with the ground. The sole is of substantially uniform thickness and the insole of the sole is also a flat surface. High-heeled shoes have evolved from flat shoes. Most high-heeled shoes on the market at present have soles, and the heels of flat shoes can be imagined to be heightened, and the soles which are originally plane are bent by a proper angle. That is, the sole of most high-heeled shoes corresponds to a plane that is curved in one dimension. When the flat shoe is worn and the shoe stands, the heel, the lateral arch, the sole and the toes of the sole plate are all contacted with the insole except the inner side arch part of the foot. The contact surface of the sole is vertical to the gravity of the human body, and the stress is stable. When standing with a high-heeled shoe, the foot is inclined forward in the shoe, the contact condition of the heel, the sole and the toes with the insole is worsened, and the lateral slipping can be generated. The contact between the inner arch and the outer arch is not as good as that of flat shoes due to the unreasonable radian of the sole.

Because the normal gravity transmission load line of the foot is changed when the high-heeled shoes are worn, the pressure bearing angle and the pressure bearing position of the knee and the waist are changed, the foot pain, the foot deformation, the foot sprain, the falling injury and the like can be caused, and the foot varus, the foot valgus, the X-shaped leg, the O-shaped leg, the inner splayed character, the outer splayed character and the like can also be caused.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defects of the prior art, embodiments of the present invention provide an ergonomic high-heeled shoe.

In order to achieve the above object, the utility model provides a following technical scheme: an ergonomic high-heeled shoe comprises an outsole front end area and a heel area, wherein the outsole front end area is in an arc shape with a high front part and a low rear part, the height difference of the arc shape is at least 0.5 cm, the heel area is in a three-side arc-shaped structure, the height difference of the arc shape is at least 0.5 cm, the front part of the heel area is provided with a shoe arch area, the front part of the shoe arch area is provided with a shoe sole area, the shoe sole area is in a planar structure, the contour of the planar structure is a waist shape matched with the stress state of a foot sole, specifically, the planar structure is transited from a first metatarsal big end to a fifth metatarsal small end, the planar structure is provided with a micro radian in the front and rear direction, the planar structure is provided with a micro height difference and a radian in the left and right directions, a toe area is arranged between the shoe sole area and the outsole front end area, and the toe area is at least 0, the toe area is set to smooth transition and forms a slope with a high front part and a low rear part, the bottom of the heel area is provided with a heel of the high-heeled shoe, and the distance from the center line of the heel of the high-heeled shoe to the outer edge of the heel area is 3.5 cm-9.0 cm.

In a preferred embodiment, the heel of the high-heeled shoe is internally provided with an adjusting device, and the heel area and the bottom of the arch area are provided with a buffer and shock absorption layer.

In a preferred embodiment, the adjusting device comprises an installation slot, the installation slot is a through hole structure, the diameter of the left part of the through hole structure is larger than that of the right part, the inside of the left part of the through hole structure is in a tooth shape and is provided with a limit sleeve, the outer wall of the limit sleeve is arranged in a tooth shape and is clamped with the left part of the installation slot, the inner wall of the limit sleeve is arranged in a regular hexagonal shape, the inside of the limit sleeve is provided with a screw rod rotating end, the screw rod rotating end is in a hexagonal prism shape and is clamped with the limit sleeve, the right end of the limit sleeve is clamped with a compression spring, the right end of the compression spring is clamped on a step between the left part and the right part of the installation slot, the right end of the screw rod rotating end is fixedly connected with a screw rod main body, the outside of the right side of the installation slot is provided with, the right end of the screw rod main body is provided with a screw rod limiting disc, the transmission nut is hinged with a connecting rod, the other end of the connecting rod is hinged to the buffering damping layer, and the hinged position of the connecting rod and the buffering damping layer is located at the bottom of the shoe arch area.

In a preferred embodiment, the outsole front area, the heel area, the arch area, the ball area and the toe area are scanned by a foot type scanner to obtain individual data of foot type, and the data acquisition is performed in batches for different foot types, so as to optimize the processing of big data and design specific size.

In a preferred embodiment, the buffer layer is made of ethylene vinyl acetate copolymer material.

In a preferred embodiment, the limiting sleeve is made of brass alloy, and graphite particles are embedded in the surface of the brass alloy.

In a preferred embodiment, the screw rod main body is a trapezoidal screw rod, and the engagement state between the screw rod main body and the transmission nut meets the thread transmission self-locking condition.

In a preferred embodiment, the end of the rotating end of the screw is provided with a chamfer.

In a preferred embodiment, the heel of the high-heeled shoe is integrally formed of a polyurethane material.

In a preferred embodiment, the mounting slot is made of brass alloy and is embedded inside the heel of the high-heeled shoe through a thread gluing method.

The utility model discloses a technological effect and advantage:

1. the utility model provides an ergonomic high-heeled shoe, through setting up "outsole front end region and heel region, outsole front end region sets up to front high back low arc form, the height difference of arc height low point is at least 0.5 centimetre, heel region is trilateral arc-shaped structure, the height difference of arc height low point is at least 0.5 centimetre, heel region front portion is provided with the arch of shoes region, arch of shoes region front portion is provided with the sole region, the sole region is planar structure, the planar structure profile is the waist type of the identical sole stress state, specifically for the transition from the first metatarsal big end to the fifth metatarsal tip, planar structure has small radian in front and back direction, planar structure is provided with small height difference and radian in left and right direction, be provided with the toe region between sole region and the outsole front end region, the toe region is higher than the sole region by at least 0.5 centimetre, the toe region sets up to smooth transition and forms a slope of front high back low, the heel of the high-heeled shoe is arranged at the bottom of the heel area, and the distance between the center line of the heel of the high-heeled shoe and the outer edge of the heel area is 3.5-9.0 cm, so that the shape of the sole is optimized, the foot and the shoe are more attached, and firstly, the foot and the shoe of a wearer are integrated, and the wearer feels more comfortable; secondly, the shoes are more attached to the ground, so that the feet, the shoes and the ground of a wearer are more reasonably contacted, the stress of the feet is more dispersed, and the peak value of the pressure of the soles is reduced; thirdly, the foot is stabilized at a reasonable position in the shoe, so that the foot, the shoe and the ground transmit the gravity of the human body on a straight line, the ankle is not subjected to lateral component force, the foot is prevented from being sprained or injured, and the possibility of deformation of the foot and the leg is reduced. The harm of the existing high-heeled shoes to the body is avoided and reduced; meanwhile, the distance between the heel and the sole is shortened by leaning on the front heel, and the gravity center of a human body is more rapid and smooth when the user walks from the heel to the sole.

2. The utility model discloses a setting up "high-heeled shoes heel is inside to be provided with adjusting device, heel region and shoes bow regional bottom are provided with the buffering buffer layer, adjusting device includes the installation slotted hole, the installation slotted hole is through-hole column structure, through-hole column structure left part diameter is greater than the right part, through-hole column structure left part inside is the cusp and is provided with the stop sleeve, the stop sleeve outer wall sets up to the cusp and installs slotted hole left part joint, the stop sleeve inner wall sets up to regular hexagon shape, the stop sleeve inside is provided with the lead screw rotation end, the lead screw rotation end is hexagonal prism and with stop sleeve joint, stop sleeve right-hand member joint has compression spring, compression spring right-hand member joint is on the step between installation slotted hole left part and the right part, lead screw rotation end right-hand member fixedly connected with the lead screw main part, installation slotted hole right side outside is provided, the screw rod main body is connected with a transmission nut in a meshed manner, the right end of the screw rod main body is provided with a screw rod limiting disc, the transmission nut is hinged with a connecting rod, the other end of the connecting rod is hinged and connected to the buffering and damping layer, the hinged position of the connecting rod and the buffering and damping layer is positioned at the bottom of a shoe arch area, when adjustment is needed, a socket wrench is used for propping against a limiting sleeve to press inwards, so that a compression spring is compressed, the limiting sleeve moves inwards and is separated from a screw rod rotating end, at the moment, a regular hexagonal groove in the socket wrench is clamped with the screw rod rotating end, the socket wrench is rotated to drive the screw rod rotating end and the screw rod main body to rotate, the transmission nut moves left and right to drive the connecting rod to move, the compression size of the buffering and damping layer at the bottom of the shoe arch area is adjusted, the, the mounting slotted hole is blocked to the outer wall, prevents that the lead screw rotation end from rotating in the use, influences the effect.

Drawings

Fig. 1 is a schematic view of the sole structure of the present invention.

Fig. 2 is a schematic structural view of the heel and the adjusting device of the present invention.

Fig. 3 is a schematic structural diagram of the adjusting device of the present invention.

Fig. 4 is a schematic view of the structure of the end face of the mounting slot, the limiting sleeve and the screw rod.

Fig. 5 is a schematic diagram illustrating the classification of different foot types according to the present invention.

The reference signs are: 1. an outsole forward end region; 2. a heel region; 3. an arch area; 4. a ball region; 5. a toe region; 6. heels of high-heeled shoes; 7. an adjustment device; 8. a buffer damping layer; 71. mounting a slotted hole; 72. a limiting sleeve; 73. a rotating end of the screw rod; 74. a compression spring; 75. a lead screw body; 76. fixing the bearing; 77. a drive nut; 78. a screw rod limiting disc; 79. a connecting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

According to the ergonomic high-heeled shoe shown in fig. 1, the ergonomic high-heeled shoe comprises an outsole front end region 1 and a heel region 2, wherein the outsole front end region 1 is in an arc shape with a high front part and a low rear part, the height difference of the arc shape is at least 0.5 cm, the heel region 2 is in a three-side arc-shaped structure, so that a heel is completely wrapped, the position of the heel in the shoe is fixed, a gravity line of a human body is on a correct heel, the phenomenon that the gravity line deviates to cause foot sprain or adverse influence on legs is avoided, and the height difference of the arc shape is at least 0.5 cm; the front part of the heel area 2 is provided with a shoe arch area 3, the shoe arch area 3 is in a three-dimensional design and is completely attached to a foot arch, firstly, the foot arch is protected from being damaged (flat foot), secondly, the contact area between the foot and an insole of the shoe is increased, the friction force between the foot and the shoe is increased, and the tendency that the foot slides forwards in the shoe is reduced; a sole area 4 is arranged in the front of the arch area 3, the sole area 4 is of a planar structure, the outline of the planar structure is of a waist shape matched with the stress state of a sole, specifically, the planar structure is transited from a large end of a first metatarsus to a small end of a fifth metatarsus, a micro radian is arranged in the front-rear direction, a micro height difference and a radian are arranged in the left-right direction of the planar structure, so that the sole area 4 is suitable for the physiological shape of the sole, a toe area 5 is arranged between the sole area 4 and the outsole front end area 1, and the toe area 5 is at least 0.5 cm higher than the sole area 4; the toe area 5 is set to be in smooth transition and forms a slope with a high front part and a low rear part, the design has the advantages that firstly, five toes are unfolded and unfolded to bear partial gravity of a human body, secondly, the slope at the front end of the insole resists the component force of forward sliding of the foot caused by high-heeled shoes, and thirdly, the condition that the toe is bent and deformed due to forward sliding of the foot and pressing of the toe is avoided; the whole sole has enough rigidity to ensure that the high-heeled shoes do not deform and twist. The design of the high-heeled shoes is kept consistent with ergonomic appeal, the heels 6 of the high-heeled shoes are arranged at the bottoms of the heel areas 2, and the distance between the center line of each heel 6 of the high-heeled shoes and the outer edge of each heel area 2 is 3.5 cm-9.0 cm; the shoe outsole front end region 1, the shoe heel region 2, the shoe arch region 3, the shoe palm region 4 and the toe region 5 acquire foot type individual data through foot type scanning equipment, and large data optimization processing optimization and specific size design are performed through data acquisition of different foot types in batches.

According to the ergonomic high-heeled shoe shown in fig. 2-4, an adjusting device 7 is arranged inside a heel 6 of the high-heeled shoe, a buffer damping layer 8 is arranged at the bottom of a heel area 2 and a shoe arch area 3, the adjusting device 7 comprises an installation groove hole 71, the installation groove hole 71 is of a through hole structure, the diameter of the left part of the through hole structure is larger than that of the right part, the inside of the left part of the through hole structure is in a tooth shape and is provided with a limit sleeve 72, the outer wall of the limit sleeve 72 is arranged in the tooth shape and is clamped with the left part of the installation groove hole 71, the inner wall of the limit sleeve 72 is arranged in a regular hexagonal shape, a screw rod rotating end 73 is arranged inside the limit sleeve 72, the screw rod rotating end 73 is in a hexagonal prism shape and is clamped with the limit sleeve 72, a compression spring 74 is clamped at the right end of the limit sleeve 72, the right end of, a fixed bearing 76 is arranged outside the right side of the installation groove hole 71, a lead screw main body 75 is arranged inside the fixed bearing 76, a transmission nut 77 is engaged and connected to the lead screw main body 75, a lead screw limiting disc 78 is arranged at the right end of the lead screw main body 75, a connecting rod 79 is hinged to the transmission nut 77, the other end of the connecting rod 79 is hinged to the buffering and damping layer 8, and the hinged position of the connecting rod 79 and the buffering and damping layer 8 is positioned at the bottom of the shoe arch area 3; when the adjustment is needed, the socket wrench is used for pushing the limiting sleeve 72 to press inwards, so that the compression spring 74 is compressed, the limiting sleeve 72 moves inwards and is separated from the screw rod rotating end 73, at the moment, the regular hexagonal groove in the socket wrench is clamped with the screw rod rotating end 73, the socket wrench is rotated to drive the screw rod rotating end 73 and the screw rod main body 75 to rotate, the transmission nut 77 moves leftwards and rightwards along with the screw rod rotating end and drives the connecting rod 79 to move, the compression size of the buffering shock absorption layer 8 at the bottom of the shoe arch area 3 is adjusted, the flexibility of the shoe arch area 3 is adjusted, the arch of foot is protected, when the socket wrench is taken out, the compression spring 74 resets, the screw rod rotating end 73 is clamped by the inner wall of the limiting sleeve 72, the installation slotted hole. The buffering and shock-absorbing layer 8 is made of ethylene-vinyl acetate copolymer material, and the ethylene-vinyl acetate copolymer material has high resilience, high tensile strength, high toughness, good shock resistance and good buffering performance, and can better protect the arch part. Spacing sleeve 72 adopts the brass alloy to make, and the brass alloy surface is inlayed and is had graphite particle mutually, and the brass alloy improves spacing sleeve 72's wearability, and graphite particle can improve the lubricating property between spacing sleeve 72 and the lead screw rotation end 73, conveniently adjusts the operation. The lead screw main body 75 is a trapezoidal lead screw, the meshing state between the lead screw main body 75 and the transmission nut 77 meets the thread transmission self-locking condition, and the transmission nut 77 is prevented from driving the lead screw main body 75 to rotate when the arch region 3 is stressed. The end part of the screw rod rotating end 73 is provided with a chamfer, so that the screw rod rotating end 73 can be sleeved in the socket wrench more easily during adjustment, and the operation convenience is improved. The heels 6 of the high-heeled shoes are made of polyurethane materials in an integrated forming mode, and the polyurethane materials are high in strength, wear-resistant and oil-resistant and have certain shock absorption performance. The mounting slot 71 is made of brass alloy, is embedded inside the heel 6 of the high-heeled shoe in a thread gluing mode, can reduce the weight of the heel 6 of the high-heeled shoe in an embedding mode, and simultaneously improves the strength of the mounting slot 71 and reduces the cost.

The utility model discloses the theory of operation:

an ergonomic high-heeled shoe comprises a sole, wherein the sole comprises an outsole front end region 1 and a heel region 2, the outsole front end region 1 is arranged into an arc shape with a high front part and a low rear part, the height difference of the arc shape is at least 0.5 cm, the heel region 2 is of a three-side arc-shaped structure, so that a heel is completely wrapped, the position of the heel in the shoe is fixed, a gravity line of a human body is positioned on a correct heel, the phenomenon that the gravity line deflects to cause foot sprain or generate adverse effects on legs is avoided, and the height difference of the arc shape is at least 0.5 cm; the front part of the heel area 2 is provided with a shoe arch area 3, the shoe arch area 3 is in a three-dimensional design and is completely attached to a foot arch, firstly, the foot arch is protected from being damaged (flat foot), secondly, the contact area between the foot and an insole of the shoe is increased, the friction force between the foot and the shoe is increased, and the tendency that the foot slides forwards in the shoe is reduced; a sole area 4 is arranged in the front of the arch area 3, the sole area 4 is of a planar structure, the outline of the planar structure is of a waist shape matched with the stress state of a sole, specifically, the planar structure is transited from a large end of a first metatarsus to a small end of a fifth metatarsus, a micro radian is arranged in the front-rear direction, a micro height difference and a radian are arranged in the left-right direction of the planar structure, so that the sole area 4 is suitable for the physiological shape of the sole, a toe area 5 is arranged between the sole area 4 and the outsole front end area 1, and the toe area 5 is at least 0.5 cm higher than the sole area 4; the toe area 5 is set to be in smooth transition and forms a slope with a high front part and a low rear part, the design has the advantages that firstly, five toes are unfolded and unfolded to bear partial gravity of a human body, secondly, the slope at the front end of the insole resists the component force of forward sliding of the foot caused by high-heeled shoes, and thirdly, the condition that the toe is bent and deformed due to forward sliding of the foot and pressing of the toe is avoided; the whole sole has enough rigidity to ensure that the high-heeled shoes do not deform and twist. The design of the high-heeled shoes is kept consistent with ergonomic appeal, the heels 6 of the high-heeled shoes are arranged at the bottoms of the heel areas 2, and the distance between the center line of each heel 6 of the high-heeled shoes and the outer edge of each heel area 2 is 3.5 cm-9.0 cm.

The sole design process includes: 1. using a foot type scanning device to obtain specific data of a foot, and finishing individual formulation of the ergonomic high-heeled shoes according to the individual data of the foot type; 2. through data acquisition of different foot types in batches and optimization processing of big data, shoe type shoe trees are reasonably designed, and the foot type batch manufacturing of the ergonomic high-heeled shoes is completed; 3. according to optimization of a large amount of foot big data of a plurality of people, the design of the general high-heeled shoes put on the market is completed, and specific data of the outsole front end area 1, the heel area 2, the arch area 3, the sole area 4 and the toe area 5 are designed.

When the softness of the shoe arch region 3 needs to be adjusted, the socket wrench is used for pushing the limiting sleeve 72 to press inwards, so that the compression spring 74 is compressed, the limiting sleeve 72 moves inwards and is separated from the screw rod rotating end 73, at the moment, the regular hexagon groove in the socket wrench is clamped with the screw rod rotating end 73, the socket wrench is rotated to drive the screw rod rotating end 73 and the screw rod main body 75 to rotate, the transmission nut 77 moves leftwards and rightwards along with the screw rod rotating end 73 and drives the connecting rod 79 to move, the compression size of the buffering damping layer 8 at the bottom of the shoe arch region 3 is adjusted, the softness of the shoe arch region 3 is adjusted, the arch of foot is protected, when the socket wrench is taken out, the compression spring 74 resets, the inner wall of the limiting sleeve 72 clamps the screw rod rotating end 73, the outer wall of the. The buffering and shock-absorbing layer 8 is made of ethylene-vinyl acetate copolymer material, and the ethylene-vinyl acetate copolymer material has high resilience, high tensile strength, high toughness, good shock resistance and good buffering performance, and can better protect the arch part. Spacing sleeve 72 adopts the brass alloy to make, and the brass alloy surface is inlayed and is had graphite particle mutually, and the brass alloy improves spacing sleeve 72's wearability, and graphite particle can improve the lubricating property between spacing sleeve 72 and the lead screw rotation end 73, conveniently adjusts the operation. The lead screw main body 75 is a trapezoidal lead screw, the meshing state between the lead screw main body 75 and the transmission nut 77 meets the thread transmission self-locking condition, and the transmission nut 77 is prevented from driving the lead screw main body 75 to rotate when the arch region 3 is stressed. The end part of the screw rod rotating end 73 is provided with a chamfer, so that the screw rod rotating end 73 can be sleeved in the socket wrench more easily during adjustment, and the operation convenience is improved. The heels 6 of the high-heeled shoes are made of polyurethane materials in an integrated forming mode, and the polyurethane materials are high in strength, wear-resistant and oil-resistant and have certain shock absorption performance. The mounting slot 71 is made of brass alloy, is embedded inside the heel 6 of the high-heeled shoe in a thread gluing mode, can reduce the weight of the heel 6 of the high-heeled shoe in an embedding mode, and simultaneously improves the strength of the mounting slot 71 and reduces the cost.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to the common design, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An ergonomic high-heeled shoe, characterized in that: the shoe sole comprises a shoe sole front end area (1) and a heel area (2), wherein the shoe sole front end area (1) is arranged in an arc shape with a high front part and a low rear part, the height difference of the arc shape is at least 0.5 cm, the heel area (2) is a three-side arc-shaped structure, the height difference of the arc shape is at least 0.5 cm, the front part of the heel area (2) is provided with a shoe arch area (3), the front part of the shoe arch area (3) is provided with a shoe sole area (4), the shoe sole area (4) is a planar structure, the profile of the planar structure is a waist shape matched with the stress state of a foot sole, specifically, the planar structure is in transition from a first metatarsal big end to a fifth metatarsal small end, the planar structure is provided with a micro radian in the front and rear direction, the planar structure is provided with a micro height difference and a radian in the left and right directions, and a toe area (5) is arranged between the shoe sole front, the toe area (5) is at least 0.5 cm higher than the sole area (4), the toe area (5) is in smooth transition and forms a slope with a high front part and a low rear part, the bottom of the heel area (2) is provided with a heel (6) of a high-heeled shoe, and the distance from the center line of the heel (6) of the high-heeled shoe to the outer edge of the heel area (2) is 3.5 cm-9.0 cm.

2. An ergonomic high-heeled shoe as claimed in claim 1, wherein: the high-heeled shoes are characterized in that adjusting devices (7) are arranged inside heels (6) of the high-heeled shoes, and buffering shock-absorbing layers (8) are arranged at the bottoms of the heel areas (2) and the arch areas (3).

3. An ergonomic high-heeled shoe as claimed in claim 2, wherein: the adjusting device (7) comprises an installation groove hole (71), the installation groove hole (71) is of a through hole structure, the diameter of the left part of the through hole structure is larger than that of the right part, the inside of the left part of the through hole structure is in a tooth shape and is provided with a limiting sleeve (72), the outer wall of the limiting sleeve (72) is in a tooth shape and is clamped with the left part of the installation groove hole (71), the inner wall of the limiting sleeve (72) is in a regular hexagonal shape, a screw rod rotating end (73) is arranged inside the limiting sleeve (72), the screw rod rotating end (73) is in a hexagonal prism shape and is clamped with the limiting sleeve (72), a compression spring (74) is clamped at the right end of the limiting sleeve (72), the right end of the compression spring (74) is clamped on a step between the left part and the right part of the installation groove hole (71), a screw rod main body (75) is fixedly connected with the right end of the screw rod (73), and a fixed, the inside lead screw main part (75) that sets up of fixing bearing (76), the meshing is connected with drive nut (77) on lead screw main part (75), lead screw main part (75) right-hand member is provided with lead screw spacing dish (78), the articulated connecting rod (79) that is connected with on drive nut (77), the articulated connection in buffering buffer layer (8) of connecting rod (79) other end, connecting rod (79) and the articulated department of buffering buffer layer (8) are located the regional (3) bottom of shoe arch.

4. An ergonomic high-heeled shoe as claimed in claim 1, wherein: the shoe sole comprises a shoe sole front end region (1), a shoe heel region (2), a shoe arch region (3), a shoe palm region (4) and a toe region (5), wherein foot type individual data are acquired through foot type scanning equipment, and large data optimization processing optimization and specific size design are performed through data acquisition of different foot types in batches.

5. An ergonomic high-heeled shoe as claimed in claim 2, wherein: the buffer damping layer (8) is made of an ethylene-vinyl acetate copolymer material.

6. An ergonomic high-heeled shoe as claimed in claim 3, wherein: the limiting sleeve (72) is made of brass alloy, and graphite particles are embedded in the surface of the brass alloy.

7. An ergonomic high-heeled shoe as claimed in claim 3, wherein: the screw rod main body (75) is a trapezoidal screw rod, and the meshing state between the screw rod main body (75) and the transmission nut (77) meets the thread transmission self-locking condition.

8. An ergonomic high-heeled shoe as claimed in claim 3, wherein: the end part of the screw rod rotating end (73) is provided with a chamfer.

9. An ergonomic high-heeled shoe as claimed in claim 2, wherein: the heels (6) of the high-heeled shoes are integrally formed by adopting a polyurethane material.

10. An ergonomic high-heeled shoe as claimed in claim 3, wherein: the mounting slot hole (71) is made of brass alloy and is embedded in the heel (6) of the high-heeled shoe in a thread dispensing mode.