阅读说明：本技术 一种多功能矫形鞋及其使用方法 (Multifunctional orthopedic shoe and using method thereof ) 是由 不公告发明人 于 2021-07-02 设计创作，主要内容包括：本发明涉及一种多功能矫形鞋,包括鞋底和鞋面,鞋面中设置有矫形底板,矫形底板上表面的足弓部设置有向上突起的承托部,承托部与矫形底板一体成型,矫形底板下表面的前掌部设有第一安装槽,第一安装槽中设有第一调节件,矫形底板下表面的足弓部设有第二安装槽,第二安装槽中设有第二调节件,矫形底板下表面的脚跟部设有第三安装槽,第三安装槽中设置有第三调节件,第一调节、第二调节件和第三调节件通过双面胶分别固定安装在第一安装槽、第二安装槽和第三安装槽中,鞋面的后侧的内壁上设置有矫正板,所述鞋面的前侧设置有防踮脚件,鞋底中设置有减震组件,相对于现有技术,本发明提高了矫形鞋的矫形效果和减震效果,并且具有多种矫形功能。(The invention relates to a multifunctional orthopedic shoe, which comprises a sole and a vamp, wherein the vamp is provided with an orthopedic bottom plate, the arch part on the upper surface of the orthopedic bottom plate is provided with a supporting part protruding upwards, the supporting part is integrally formed with the orthopedic bottom plate, the half sole part on the lower surface of the orthopedic bottom plate is provided with a first mounting groove, a first adjusting part is arranged in the first mounting groove, the arch part on the lower surface of the orthopedic bottom plate is provided with a second mounting groove, a second adjusting part is arranged in the second mounting groove, the heel part on the lower surface of the orthopedic bottom plate is provided with a third mounting groove, a third adjusting part is arranged in the third mounting groove, the first adjusting part, the second adjusting part and the third adjusting part are fixedly mounted in the first mounting groove, the second mounting groove and the third mounting groove respectively through double faced adhesive tapes, the inner wall on the rear side of the vamp is provided with a plate, the front side of the vamp is provided with a foot-proof part, and the sole is provided with a damping component, compared with the prior art, the orthopedic shoe has the advantages that the orthopedic effect and the shock absorption effect of the orthopedic shoe are improved, and the orthopedic shoe has multiple orthopedic functions.)

1. A multifunctional orthopedic shoe comprises a sole and an upper, and is characterized in that: the shoe comprises a shoe upper and is characterized in that an orthopedic bottom plate is arranged in the shoe upper, an arch part on the upper surface of the orthopedic bottom plate is provided with a supporting part protruding upwards, the supporting part and the orthopedic bottom plate are integrally formed, a half sole part on the lower surface of the orthopedic bottom plate is provided with a first mounting groove, a first adjusting piece is arranged in the first mounting groove, a second mounting groove is arranged in the arch part on the lower surface of the orthopedic bottom plate, a second adjusting piece is arranged in the second mounting groove, a heel part on the lower surface of the orthopedic bottom plate is provided with a third mounting groove, a third adjusting piece is arranged in the third mounting groove, the first adjusting piece, the second adjusting piece and the third adjusting piece are fixedly mounted in the first mounting groove, the second mounting groove and the third mounting groove respectively through double faced adhesive tapes, a correcting plate is arranged on the inner wall of the rear side of the shoe upper, and a foot-tipping-preventing piece is arranged on the front side of the shoe upper.

2. The multi-functional orthopedic shoe of claim 1, wherein: the toe standing preventing piece comprises a binding belt, a first perforation and a second perforation, wherein the first perforation and the second perforation are respectively arranged on the inner side wall and the outer side wall of the vamp, one end of the binding belt is fixedly connected with the inner side wall of the vamp, the other end of the binding belt sequentially penetrates through the first perforation and the second perforation to be arranged on the outer side wall of the vamp, an adjusting buckle is arranged at one end of the binding belt, which is located on the outer side wall of the vamp, in a penetrating manner, a clamping needle is arranged on the adjusting buckle, a plurality of clamping holes are formed in the binding belt, and the clamping holes are evenly arranged at intervals along the length direction of the binding belt.

3. The multi-functional orthopedic shoe of claim 2, wherein: a plurality of air holes are formed in the vamp.

4. The multi-functional orthopedic shoe of claim 3, wherein: the sole is provided with a shock absorption assembly, and the shock absorption assembly comprises a heel shock absorption piece and a half sole shock absorption piece.

5. The multi-functional orthopedic shoe of claim 4, wherein: the heel shock absorption part comprises a heel shock absorption cavity, the heel shock absorption cavity is arranged in the heel part of the sole, a plurality of bidirectional shock absorption columns are fixedly arranged in the heel shock absorption cavity, each bidirectional shock absorption column comprises an upper column body and a lower column body, the upper column body and the lower column body are both hollow column bodies provided with inner cavities, a movable gap is arranged between the upper column body and the lower column body, the upper surface of the upper column body is fixedly connected with the upper inner wall of the heel shock absorption cavity, the lower surface of the lower column body is fixedly connected with the lower inner wall of the heel shock absorption cavity, movable column through holes are respectively arranged on the lower surface of the upper column body and the upper surface of the lower column body, a movable column is arranged between the upper column body and the lower column body, the upper end of the movable column is fixedly connected with the upper inner wall of the inner cavity of the upper column body, and the lower end of the movable column sequentially penetrates through the two movable column through holes downwards to be arranged in the inner cavity of the lower column body, a first spring baffle is fixedly arranged at the lower end of the movable column, a first spring is arranged between the first spring baffle and the inner wall of the upper side of the inner cavity of the lower column body and is sleeved on the movable column, two ends of the first spring are respectively fixedly connected with the upper surface of the first spring baffle and the upper inner wall of the inner cavity of the lower cylinder, a bushing is slidably arranged on the movable column through hole on the lower surface of the upper column body and sleeved on the movable column, a guide strip is arranged between the lining and the movable column, the upper end of the lining is positioned in the inner cavity of the upper column body, the lower end of the bushing is abutted against the upper surface of the lower column body, the upper end of the bushing is fixedly provided with a second spring baffle plate, a second spring is arranged between the second spring baffle plate and the inner wall of the upper side of the inner cavity of the upper cylinder body and is sleeved on the movable cylinder, and two ends of the second spring are respectively fixedly connected with the upper surface of the second spring baffle and the inner wall of the upper side of the inner cavity of the upper cylinder.

6. The multi-functional orthopedic shoe of claim 5, wherein: the upper surface of lower cylinder is provided with first shock attenuation blotter, the lower surface of second spring baffle is provided with second shock attenuation blotter.

7. The multi-functional orthopedic shoe of claim 4, wherein: the half sole shock absorption part comprises a half sole shock absorption groove, the half sole shock absorption groove is arranged at the half sole part of the sole, the opening of the half sole shock absorption groove faces downwards, a shock absorption bottom plate is arranged in the half sole shock absorption groove, through holes are formed in the front end and the rear end of the shock absorption bottom plate, a connecting column is arranged on each through hole, a connecting hole matched with the connecting column is formed in the inner wall of the upper side of the half sole shock absorption groove, a plurality of L-shaped clamping grooves are formed in the upper end of each connecting column, each L-shaped clamping groove is composed of a vertical clamping groove and a horizontal clamping groove, a limiting bulge is arranged at one end, close to the vertical clamping groove, of each horizontal clamping groove, an adjusting column is arranged at the lower end of each connecting column, clamping blocks matched with the L-shaped clamping grooves are arranged on the inner wall of each connecting hole, a plurality of buffer blocks are arranged in the middle of the upper surface of the shock absorption bottom plate, a buffer block pressing plate is arranged above the plurality of buffer blocks, and a cover plate is arranged above the buffer blocks pressing plate, an adjusting washer is arranged between the cover plate and the damping bottom plate, a through groove is formed in the middle of the cover plate, a conduction block is arranged in the through groove, the lower surface of the conduction block is abutted to the upper surface of the buffer block pressing plate, and the upper surface of the conduction block is abutted to the inner wall of the upper side of the half sole damping groove.

8. The multi-functional orthopedic shoe of claim 7, wherein: the upper part of one end, far away from the vertical clamping groove, of the horizontal clamping groove is provided with a second vertical clamping groove, the lower end of the second vertical clamping groove is communicated with the horizontal clamping groove, and a second limiting protrusion is arranged at the lower end of the second vertical clamping groove.

9. The multi-functional orthopedic shoe of claim 7, wherein: the middle part of the upper surface of the damping bottom plate is provided with at least four buffer blocks.

10. A method of using the multi-functional orthopedic shoe adapted to claim 4, characterized in that: the method comprises the following steps:

s1, mounting and adjusting the front sole damping piece: the pressing force of the buffer block is changed by increasing and decreasing the adjusting washer, the damping bottom plate is installed in the half sole damping groove according to different damping requirements of users, then the connecting column is inserted into the through hole in an aligning mode, the connecting column moves upwards through the adjusting column and is inserted into the connecting hole, the connecting column is rotated through the adjusting column after the connecting column is inserted into the connecting hole, the clamping block is aligned with the vertical clamping groove of the L-shaped clamping groove, the connecting column further moves into the connecting hole after being aligned, the clamping block moves downwards along the vertical clamping groove, after the clamping block moves to the bottom of the vertical clamping groove, the connecting column is rotated through the adjusting column again, the clamping block moves towards the horizontal clamping groove, after the clamping block is contacted with the limiting convex block, the force applied to the adjusting column is increased, so that the clamping block passes over the limiting convex block and moves towards the horizontal clamping groove, after the clamping block enters the horizontal clamping groove, the vertical movement of the clamping block can be limited by the horizontal clamping groove, the limiting protrusions can limit horizontal movement of the clamping blocks, so that the connecting columns are fixed in the connecting holes, and the damping bottom plate is fixed in the half sole damping groove.

S2, wearing shoes: the foot is inserted into the upper and fixed.

S3, correction: in the in-process of wearing, the portion of supporting in the arch of foot portion of orthopedic bottom plate can bear the arch of foot portion of user's foot, thereby correct arch of foot portion, the arch of foot portion that prevents the foot appears the phenomenon of low and collapse, through changing the first regulating part of adjustment difference, second regulating part and third regulating part, thereby transform orthopedic bottom plate's angle, change the atress condition of user foot, turn up the foot, the condition of turning up and out the eight characters in the foot is adjusted, make the constraint area laminate with the instep each other through pulling the constraint area, it is fixed with the constraint area to mutually support through the card hole on card needle and the constraint area on the regulation buckle, thereby prevent that the user from appearing the phenomenon that the foot stood in the course of walking, correct on tiptoe walking.

S4, heel shock absorption: when the multifunctional orthopedic shoe is worn to walk, the vibration generated at the heel part of the sole is transmitted to the lower column body to enable the lower column body to move upwards, the downward impact force of the heel drives the upper column body to enable the upper column body to move downwards, the lining is driven by the lower column body to move upwards, so that the second spring baffle plate drives the second spring to contract, the upper column body drives the movable column to move downwards to enable the second spring to contract, the vibration is attenuated by the elastic force generated by the contraction of the second spring, while the first spring is stretched, and when the foot is lifted, under the action of the elastic force of the first spring and the second spring, the upper column body and the lower column body rebound, the second spring baffle plate and the lower column body move downwards, thereby enabling the first spring to contract while the second spring is stretched, reducing the rebound shock by the elastic force generated by the first spring, and improving the shock-absorbing effect of the orthopedic shoe through repeated bidirectional shock absorption.

S5, sole damping: in the walking process of the multifunctional orthopedic shoe, the vibration generated by the half sole part of the sole is transmitted to the inner wall of the half sole damping groove through the buffer block, the buffer block pressing plate and the conducting block, and the vibration is buffered through the buffer block in the transmission process, so that the influence of the vibration on the half sole part of a user is reduced.

Technical Field

The invention relates to a multifunctional orthopedic shoe and a using method thereof.

Background

The orthopedic shoes (correcting shoes) are special shoes for correcting foot diseases, which are manufactured with the purposes of correcting foot deformation, dispersing foot pressure, relieving pain symptoms and the like, and can be also called shoe-shaped orthotics, and are mainly characterized in that the shoe soles with high front parts and low back parts are used against the prior art, the stress on soles can be changed when the shoes are worn, the mechanical state of a human body can be comprehensively adjusted, the shoe soles have the functions of forcing the gravity center of the human body to move backwards and reducing the supporting surface of the human body, are used for correcting the bad posture of the human body and optimizing and beautifying the body state, have positive rehabilitation significance on lumbar muscle strain, lumbocrural pain and cervical spondylosis, the existing widely used orthopedic shoes have only a single orthopedic function and cannot meet various requirements of users, the shock absorption function of the orthopedic shoes is poor, the shock received when the user wears the orthopedic shoes, the comfort is reduced, and the orthopedic effect of the orthopedic shoes is also influenced, meanwhile, the damping performance of the orthopedic shoes cannot be adjusted and cannot be changed according to the use requirements, so that the practicability of the orthopedic shoes is reduced, and therefore improvement is needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a multifunctional orthopedic shoe with multiple orthopedic functions, good damping effect, good orthopedic effect and high practicability and a using method thereof.

The technical scheme of the invention is realized as follows: a multifunctional orthopedic shoe comprises a sole and an upper, and is characterized in that: the shoe comprises a shoe upper and is characterized in that an orthopedic bottom plate is arranged in the shoe upper, an arch part on the upper surface of the orthopedic bottom plate is provided with a supporting part protruding upwards, the supporting part and the orthopedic bottom plate are integrally formed, a half sole part on the lower surface of the orthopedic bottom plate is provided with a first mounting groove, a first adjusting piece is arranged in the first mounting groove, a second mounting groove is arranged in the arch part on the lower surface of the orthopedic bottom plate, a second adjusting piece is arranged in the second mounting groove, a heel part on the lower surface of the orthopedic bottom plate is provided with a third mounting groove, a third adjusting piece is arranged in the third mounting groove, the first adjusting piece, the second adjusting piece and the third adjusting piece are fixedly mounted in the first mounting groove, the second mounting groove and the third mounting groove respectively through double faced adhesive tapes, a correcting plate is arranged on the inner wall of the rear side of the shoe upper, and a foot-tipping-preventing piece is arranged on the front side of the shoe upper.

The invention is further configured to: the toe standing preventing piece comprises a binding belt, a first perforation and a second perforation, wherein the first perforation and the second perforation are respectively arranged on the inner side wall and the outer side wall of the vamp, one end of the binding belt is fixedly connected with the inner side wall of the vamp, the other end of the binding belt sequentially penetrates through the first perforation and the second perforation to be arranged on the outer side wall of the vamp, an adjusting buckle is arranged at one end of the binding belt, which is located on the outer side wall of the vamp, in a penetrating manner, a clamping needle is arranged on the adjusting buckle, a plurality of clamping holes are formed in the binding belt, and the clamping holes are evenly arranged at intervals along the length direction of the binding belt.

The present invention is preferably: a plurality of air holes are formed in the vamp.

The present invention is preferably: the sole is provided with a shock absorption assembly, and the shock absorption assembly comprises a heel shock absorption piece and a half sole shock absorption piece.

The present invention is preferably: the heel shock absorption part comprises a heel shock absorption cavity, the heel shock absorption cavity is arranged in the heel part of the sole, a plurality of bidirectional shock absorption columns are fixedly arranged in the heel shock absorption cavity, each bidirectional shock absorption column comprises an upper column body and a lower column body, the upper column body and the lower column body are both hollow column bodies provided with inner cavities, a movable gap is arranged between the upper column body and the lower column body, the upper surface of the upper column body is fixedly connected with the upper inner wall of the heel shock absorption cavity, the lower surface of the lower column body is fixedly connected with the lower inner wall of the heel shock absorption cavity, movable column through holes are respectively arranged on the lower surface of the upper column body and the upper surface of the lower column body, a movable column is arranged between the upper column body and the lower column body, the upper end of the movable column is fixedly connected with the upper inner wall of the inner cavity of the upper column body, and the lower end of the movable column sequentially penetrates through the two movable column through holes downwards to be arranged in the inner cavity of the lower column body, a first spring baffle is fixedly arranged at the lower end of the movable column, a first spring is arranged between the first spring baffle and the inner wall of the upper side of the inner cavity of the lower column body and is sleeved on the movable column, two ends of the first spring are respectively fixedly connected with the upper surface of the first spring baffle and the upper inner wall of the inner cavity of the lower cylinder, a bushing is slidably arranged on the movable column through hole on the lower surface of the upper column body and sleeved on the movable column, a guide strip is arranged between the lining and the movable column, the upper end of the lining is positioned in the inner cavity of the upper column body, the lower end of the bushing is abutted against the upper surface of the lower column body, the upper end of the bushing is fixedly provided with a second spring baffle plate, a second spring is arranged between the second spring baffle plate and the inner wall of the upper side of the inner cavity of the upper cylinder body and is sleeved on the movable cylinder, and two ends of the second spring are respectively fixedly connected with the upper surface of the second spring baffle and the inner wall of the upper side of the inner cavity of the upper cylinder.

The present invention is preferably: the upper surface of lower cylinder is provided with first shock attenuation blotter, the lower surface of second spring baffle is provided with second shock attenuation blotter.

The present invention is preferably: the half sole shock absorption part comprises a half sole shock absorption groove, the half sole shock absorption groove is arranged at the half sole part of the sole, the opening of the half sole shock absorption groove faces downwards, a shock absorption bottom plate is arranged in the half sole shock absorption groove, through holes are formed in the front end and the rear end of the shock absorption bottom plate, a connecting column is arranged on each through hole, a connecting hole matched with the connecting column is formed in the inner wall of the upper side of the half sole shock absorption groove, a plurality of L-shaped clamping grooves are formed in the upper end of each connecting column, each L-shaped clamping groove is composed of a vertical clamping groove and a horizontal clamping groove, a limiting bulge is arranged at one end, close to the vertical clamping groove, of each horizontal clamping groove, an adjusting column is arranged at the lower end of each connecting column, clamping blocks matched with the L-shaped clamping grooves are arranged on the inner wall of each connecting hole, a plurality of buffer blocks are arranged in the middle of the upper surface of the shock absorption bottom plate, a buffer block pressing plate is arranged above the plurality of buffer blocks, and a cover plate is arranged above the buffer blocks pressing plate, an adjusting washer is arranged between the cover plate and the damping bottom plate, a through groove is formed in the middle of the cover plate, a conduction block is arranged in the through groove, the lower surface of the conduction block is abutted to the upper surface of the buffer block pressing plate, and the upper surface of the conduction block is abutted to the inner wall of the upper side of the half sole damping groove.

The present invention is preferably: the upper part of one end, far away from the vertical clamping groove, of the horizontal clamping groove is provided with a second vertical clamping groove, the lower end of the second vertical clamping groove is communicated with the horizontal clamping groove, and a second limiting protrusion is arranged at the lower end of the second vertical clamping groove.

The present invention is preferably: the middle part of the upper surface of the damping bottom plate is provided with at least four buffer blocks.

The invention also discloses a using method suitable for the multifunctional orthopedic shoes, which is characterized by comprising the following steps: the method comprises the following steps:

s1, mounting and adjusting the front sole damping piece: the damping bottom plate is arranged in the half sole damping groove, then the connecting column is aligned and inserted into the through hole, the connecting column is moved upwards and inserted into the connecting hole through the adjusting column, the connecting column is rotated through the adjusting column after the connecting column is inserted into the connecting hole, so that the clamping block is aligned with the vertical clamping groove of the L-shaped clamping groove, the connecting column is further moved into the connecting hole after being aligned, the clamping block moves downwards along the vertical clamping groove, after the clamping block moves to the bottom of the vertical clamping groove, the connecting column is rotated through the adjusting column again, so that the clamping block moves towards the horizontal clamping groove, after the clamping block is contacted with the limiting convex block, the force applied on the adjusting column is increased, so that the clamping block passes over the limiting convex block and moves towards the horizontal clamping groove, after the clamping block enters the horizontal clamping groove, the horizontal clamping groove can limit the vertical movement of the clamping block, the limiting protrusions can limit horizontal movement of the clamping blocks, so that the connecting columns are fixed in the connecting holes, and the damping bottom plate is fixed in the half sole damping groove.

S2, wearing shoes: the foot is inserted into the upper and fixed.

S3, correction: in the in-process of wearing, the portion of supporting in the arch of foot portion of orthopedic bottom plate can bear the arch of foot portion of user's foot, thereby correct arch of foot portion, the arch of foot portion that prevents the foot appears the phenomenon of low and collapse, through changing the first regulating part of adjustment difference, second regulating part and third regulating part, thereby transform orthopedic bottom plate's angle, change the atress condition of user foot, turn up the foot, the condition of turning up and out the eight characters in the foot is adjusted, make the constraint area laminate with the instep each other through pulling the constraint area, it is fixed with the constraint area to mutually support through the card hole on card needle and the constraint area on the regulation buckle, thereby prevent that the user from appearing the phenomenon that the foot stood in the course of walking, correct on tiptoe walking.

S4, heel shock absorption: when the multifunctional orthopedic shoe is worn to walk, the vibration generated at the heel part of the sole is transmitted to the lower column body to enable the lower column body to move upwards, the downward impact force of the heel drives the upper column body to enable the upper column body to move downwards, the lining is driven by the lower column body to move upwards, so that the second spring baffle plate drives the second spring to contract, the upper column body drives the movable column to move downwards to enable the second spring to contract, the vibration is attenuated by the elastic force generated by the contraction of the second spring, while the first spring is stretched, and when the foot is lifted, under the action of the elastic force of the first spring and the second spring, the upper column body and the lower column body rebound, the second spring baffle plate and the lower column body move downwards, thereby enabling the first spring to contract while the second spring is stretched, reducing the rebound shock by the elastic force generated by the first spring, and improving the shock-absorbing effect of the orthopedic shoe through repeated bidirectional shock absorption.

S5, sole damping: in the walking process of the multifunctional orthopedic shoe, the vibration generated by the half sole part of the sole is transmitted to the inner wall of the half sole damping groove through the buffer block, the buffer block pressing plate and the conducting block, and the vibration is buffered through the buffer block in the transmission process, so that the influence of the vibration on the half sole part of a user is reduced.

Compared with the prior art, the invention has the advantages that the foot of the user is shaped in a plurality of ways through the shaping bottom plate, the phenomena of foot eversion, foot enstrophe, splayed and flat feet and the like of the foot are reduced, meanwhile, the foot of the user can be limited in the vamp through the binding belt, the phenomenon that the user stands on the foot to walk in the walking process is prevented, the foot of the user is prevented from being distorted, the heel shock absorbing piece in the shock absorbing component can effectively reduce the shock generated by the collision between the ground and the heel of the sole in the walking process, the wearing comfort degree of the multifunctional shaping shoe is improved, the phenomenon that the foot is misplaced due to the shock can be prevented, the forefoot shock absorbing piece in the shock absorbing component can effectively reduce the shock generated by the collision between the ground and the forefoot of the sole in the walking process, the wearing comfort degree of the multifunctional shaping shoe is further improved, and the flexibility of the forefoot shock absorbing piece can be changed according to the requirements of the user, therefore, the shock absorption effect of the half sole shock absorption piece is changed, and meanwhile, the use method is simple, and a user can conveniently wear the multifunctional orthopedic shoe.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic sectional structure view of the sole.

Fig. 3 is a schematic structural view of a bidirectional shock-absorbing column.

Fig. 4 is a schematic structural view of the front sole cushioning member.

FIG. 5 is a schematic view of a connecting column structure.

Fig. 6 is a schematic view of a connection hole structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 6, the invention discloses a multifunctional orthopedic shoe, which comprises a sole 1 and an upper 2, wherein in the specific embodiment of the invention: the shoe upper 2 is provided with an orthopedic bottom plate 3, the arch part of the upper surface of the orthopedic bottom plate 3 is provided with a bearing part 31 protruding upwards, the bearing part 31 is integrally formed with the orthopedic bottom plate 3, a first mounting groove is arranged at the half sole part of the lower surface of the orthopedic bottom plate 3, a first adjusting piece 32 is arranged in the first mounting groove, a second mounting groove is arranged on the arch part of the lower surface of the orthopedic bottom plate 3, a second adjusting piece 33 is arranged in the second mounting groove, a third mounting groove is arranged at the heel part of the lower surface of the orthopedic bottom plate 3, a third adjusting member 34 is disposed in the third mounting groove, the first adjusting member 32, the second adjusting member 33 and the third adjusting member 34 are fixedly mounted in the first mounting groove, the second mounting groove and the third mounting groove respectively by a double-sided adhesive tape, the inner wall of the rear side of the vamp 2 is provided with a correcting plate, and the front side of the vamp 2 is provided with a tiptoe-preventing piece 4.

By adopting the technical scheme, in the process of using the multifunctional orthopedic shoe, the raised bearing part on the orthopedic bottom plate can support the arch part of the foot of a user, so that the pressure of the arch part is uniformly distributed, the phenomenon of collapse and lower arch part is reduced, meanwhile, the stress direction of the foot of the user is changed by adjusting and replacing the first adjusting part, the second adjusting part and the third adjusting part in the first mounting groove, the second mounting groove and the third mounting groove on the lower surface of the orthopedic bottom plate, and the first adjusting part, the second adjusting part and the third adjusting part with different angles are used, so that the adjustment is carried out aiming at the conditions of foot eversion, foot enstrophy, splayfoot outward and the like, and the anti-tiptoe-sticking part can prevent the user from standing the foot during walking.

In a specific embodiment of the invention: the anti-tiptoe standing piece 4 comprises a binding belt 41 and a first perforation and a second perforation which are respectively arranged on the inner side wall and the outer side wall of the vamp 2, one end of the binding belt 41 is fixedly connected with the inner side wall of the vamp 2, the other end of the binding belt sequentially penetrates through the first perforation and the second perforation to be arranged on the outer side wall of the vamp 2, an adjusting buckle 42 is arranged at one end of the binding belt 41, which is positioned on the outer side wall of the vamp 2, in a penetrating manner, a clamping needle 421 is arranged on the adjusting buckle 42, a plurality of clamping holes 410 are formed in the binding belt 41, and the plurality of clamping holes 410 are uniformly arranged at intervals along the length direction of the binding belt 41.

By adopting the technical scheme, in the process of using the multifunctional orthopedic shoe, after the orthopedic shoe is worn, one end of the restraint belt on the lateral wall of the outer side of the vamp is pulled, so that one section of the restraint belt in the vamp is attached to the surface of the foot of a user, after the restraint belt is tightened, the adjusting buckle is adjusted, the clamping pin on the adjusting buckle is inserted into the clamping hole in the proper position on the restraint belt to position the restraint belt, and therefore, the restraint belt is always attached to the surface of the foot in the walking process of the user, the position of the foot is limited, the phenomenon that the user walks when standing on the foot is prevented.

In a specific embodiment of the invention: the vamp 2 is provided with a plurality of air holes 21.

By adopting the technical scheme, the plurality of air holes can promote the air circulation in the vamp, reduce the phenomena of peculiar smell and bacterial growth in the vamp and improve the ventilation effect of the orthopedic shoe.

In a specific embodiment of the invention: a shock-absorbing assembly is arranged in the sole 1, and comprises a heel shock-absorbing piece 5 and a forefoot shock-absorbing piece 6.

By adopting the technical scheme, in the process of using the multifunctional orthopedic shoe, the damping component on the sole can improve the damping effect of the orthopedic shoe, the heel damping part can weaken the vibration generated at the heel, and the half sole damping part can weaken the vibration generated at the half sole.

In a specific embodiment of the invention: the heel shock absorption member 5 comprises a heel shock absorption cavity 51, the heel shock absorption cavity 51 is arranged in the heel part of the sole 1, a plurality of bidirectional shock absorption columns 52 are fixedly arranged in the heel shock absorption cavity 51, each bidirectional shock absorption column 52 comprises an upper column 521 and a lower column 522, each of the upper column 521 and the lower column 522 is a hollow column provided with an inner cavity, a movable gap is formed between the upper column 521 and the lower column 522, the upper surface of the upper column 521 is fixedly connected with the upper inner wall of the heel shock absorption cavity 51, the lower surface of the lower column 522 is fixedly connected with the lower inner wall of the heel shock absorption cavity 51, the lower surfaces of the upper column 521 and the lower column 522 are respectively provided with a movable column through hole 523, a movable column 524 is arranged between the upper column 521 and the lower column 522, the upper end of the movable column 524 is fixedly connected with the upper inner wall of the inner cavity of the upper column 521, and the lower end of the movable column 524 sequentially penetrates through the two movable column through holes 523 to be arranged in the inner cavity of the lower column 522 In the middle, a first spring baffle 525 is fixedly arranged at the lower end of the movable column 524, a first spring 5251 is arranged between the upper side inner walls of the inner cavities of the first spring baffle 525 and the lower column body 522, the first spring 5251 is sleeved on the movable column 524, two ends of the first spring 5251 are respectively and fixedly connected with the upper surface of the first spring baffle 525 and the upper side inner wall of the inner cavity of the lower column body 522, a bushing 526 is slidably arranged on a movable column through hole 523 at the lower surface of the upper column body 521, a bushing 526 is sleeved on the movable column 524, a guide strip 527 is arranged between the bushing 526 and the movable column 524, the upper end of the bushing 526 is positioned in the inner cavity of the upper column body 521, the lower end of the bushing 526 is abutted against the upper surface of the lower column body 522, a second spring baffle 528 is fixedly arranged at the upper end of the bushing 526, a second spring 5281 is arranged between the second spring baffle 528 and the upper side inner wall of the inner cavity of the upper column body 521, and the second spring 5281 is sleeved on the movable column 524, two ends of the second spring 5281 are fixedly connected to the upper surface of the second spring retainer 528 and the inner wall of the upper side of the inner cavity of the upper cylinder 521 respectively.

By adopting the technical scheme, when a user walks, heels fall towards the ground and collide with the ground, vibration and impact force are generated by the collision, the impact force generated by the ground is upwards transferred to drive the lower cylinder to upwards move, the impact force generated by the heels is downwards transferred to drive the upper cylinder to downwards move, the bushing is driven by the lower cylinder to upwards move so that the second spring baffle plate drives the second spring to contract, the upper cylinder drives the movable column to downwards move so that the second spring contracts, the vibration is weakened through the elastic force generated by the contraction of the second spring, the upper cylinder downwards moves so as to drive the movable column to downwards move so that the first spring is stretched, the vibration is further weakened through the elastic force generated by the stretching of the first spring, when the feet are lifted to be far away from the ground, the bidirectional damping column is reset, and the upper cylinder and the lower cylinder are far away from each other under the action of the elastic forces of the second spring and the first spring, the second spring baffle and the lower column body move downwards, so that the first spring is contracted, the second spring is stretched, and the rebound vibration is reduced by the elastic force generated by the contraction of the first spring, so that the damping effect of the heel part of the foot of the orthopedic shoe is improved by repeated bidirectional damping, and the rebound vibration of the damping piece is reduced.

In a specific embodiment of the invention: the upper surface of the lower cylinder 522 is provided with a first shock-absorbing cushion 5221, and the lower surface of the second spring shield 528 is provided with a second shock-absorbing cushion 5282.

By adopting the technical scheme, in the process of using the multifunctional orthopedic shoe, when the lower cylinder body is contacted with the upper cylinder body, the first shock absorption cushion can reduce the impact force generated when the lower cylinder body is contacted with the upper cylinder body, so that the generated vibration is reduced, and when the second spring baffle plate is contacted with the lower side inner wall of the inner cavity of the upper cylinder body, the second shock absorption cushion can reduce the impact force generated when the second spring baffle plate is contacted with the lower side inner wall of the inner cavity of the upper cylinder body, so that the generated vibration is reduced.

In a specific embodiment of the invention: the front sole damping piece 6 comprises a front sole damping groove 601, the front sole damping groove 601 is arranged at the front sole part of the sole 1 and has a downward opening, a damping bottom plate 602 is arranged in the front sole damping groove 601, through holes 6021 are arranged at the front and rear ends of the damping bottom plate 602, a connecting column 603 is arranged on the through hole 6021, a connecting hole 604 matched with the connecting column 603 is arranged on the inner wall of the upper side of the front sole damping groove 601, a plurality of L-shaped clamping grooves 605 are arranged at the upper end of the connecting column 603, each L-shaped clamping groove 605 is composed of a vertical clamping groove 6051 and a horizontal clamping groove 6052, a limiting bulge 606 is arranged at one end of the horizontal clamping groove 6052 close to the vertical clamping groove 6051, an adjusting column 607 is arranged at the lower end of the connecting column 603, a clamping block 6041 matched with the L-shaped clamping groove 605 is arranged on the inner wall of the connecting hole 604, a plurality of buffer blocks 608 are arranged in the middle part of the upper surface of the damping bottom plate 602, a buffer block pressing plate 609 is arranged above the buffer blocks 608, a cover plate 610 is arranged above the buffer block pressing plate 609, an adjusting gasket 611 is arranged between the cover plate 610 and the shock absorption bottom plate 602, a through groove is formed in the middle of the cover plate 610, a conduction block 612 is arranged in the through groove, the lower surface of the conduction block 612 is abutted to the upper surface of the buffer block pressing plate 609, and the upper surface of the conduction block 612 is abutted to the upper inner wall of the half sole shock absorption groove 601.

By adopting the technical scheme, when a user walks, the half sole of the foot of the user falls on the ground, the half sole of the sole is contacted with the ground to generate collision impact, the generated impact force and vibration are transmitted to the inner wall of the half sole shock absorption groove through the buffer block, the buffer block pressing plate and the conduction block, the impact force and the vibration can be buffered through the buffer block in the transmission process, so that the influence of the impact force and the vibration on the half sole of the user is reduced, the shock absorption effect and the wearing comfort of the multifunctional orthopedic shoe are improved, when the requirement of the user changes, the connecting column is rotated through the adjusting column, so that the clamping block in the horizontal clamping groove of the L-shaped clamping groove crosses the limiting bulge and moves into the vertical clamping groove, then the connecting column is pulled downwards to separate the clamping block from the vertical clamping groove, and the connecting column is pulled out and separated from the connecting hole, then separating the damping bottom plate from the half sole damping groove, detaching the cover plate and the conducting block on the damping bottom plate, increasing or decreasing the number of adjusting washers according to the requirement, thereby changing the pressing force of the buffer block to meet different damping requirements of users, after the adjustment is completed, aligning and inserting the connecting column into the through hole and moving the connecting column upwards and inserting the connecting column into the connecting hole through the adjusting column, rotating the connecting column through the adjusting column after the connecting column is inserted into the connecting hole to align the fixture block with the vertical clamping groove of the L-shaped clamping groove, further moving the connecting column into the connecting hole after the alignment, moving the fixture block downwards along the vertical clamping groove, rotating the connecting column through the adjusting column again after the fixture block moves to the bottom of the vertical clamping groove, so that the fixture block moves to the horizontal clamping groove, increasing the force applied on the adjusting column after the fixture block contacts with the limiting convex block to enable the fixture block to cross the limiting convex block and move to the horizontal clamping groove, after the clamping block enters the horizontal clamping groove, the horizontal clamping groove can limit the vertical movement of the clamping block, and the limiting protrusion can limit the horizontal movement of the clamping block, so that the connecting column is fixed in the connecting hole, and the damping bottom plate is fixed in the half sole damping groove.

In a specific embodiment of the invention: a second vertical clamping groove 613 is arranged above one end, far away from the vertical clamping groove 6051, of the horizontal clamping groove 6052, the lower end of the second vertical clamping groove 613 is communicated with the horizontal clamping groove 6052, and a second limiting protrusion 614 is arranged at the lower end of the second vertical clamping groove 613.

Through adopting above-mentioned technical scheme, when fixed damping bottom plate, after mutually supporting the fixture block in the connecting hole and the horizontal draw-in groove in the L shape draw-in groove on the spliced pole, can further stimulate the spliced pole downwards through the adjustment post for the fixture block passes through the spacing arch of second and gets into in the vertical draw-in groove of second, thereby further improve the cooperation stability between spliced pole and the connecting hole, reduce the phenomenon that spliced pole and connecting hole separation lead to damping bottom plate and sole separation appear wearing orthopedic shoes walking in-process.

In a specific embodiment of the invention: at least four buffer blocks 608 are arranged in the middle of the upper surface of the shock absorbing base plate 602.

Through adopting above-mentioned technical scheme, the shock attenuation effect of preceding sole shock attenuation piece can be guaranteed to four at least buffer blocks, has improved the shock attenuation stability of multi-functional orthopedic shoes.

The invention also discloses a using method suitable for the multifunctional orthopedic shoes, in the specific embodiment of the invention: the method comprises the following steps:

s1, mounting and adjusting the front sole damping piece: the pressing force of the buffer block 608 is changed by increasing and decreasing the adjusting washer 611, so as to meet different shock absorption requirements of a user, the shock absorption bottom plate 602 is installed in the front palm shock absorption groove 601, then the connecting column 603 is inserted into the through hole 6021 in an aligned manner, the connecting column 603 is moved upwards and inserted into the connecting hole 604 through the adjusting column 607, the connecting column 603 is rotated through the adjusting column 607 after the connecting column 603 is inserted into the connecting hole 604, the fixture block 6041 is aligned with the vertical clamping groove 6051 of the L-shaped clamping groove 605, the connecting column 603 is further moved into the connecting hole 604 after the alignment, the fixture block 6041 is moved downwards along the vertical clamping groove 6051, after the fixture 6041 is moved to the bottom of the vertical clamping groove 6051, the connecting column 603 is rotated through the adjusting column 607 again, the fixture 6041 is moved towards the horizontal clamping groove 6052, after the fixture 6041 is contacted with the limiting lug 606, the force exerted on the adjusting column 607 is increased, so that the fixture 6041 crosses the limiting lug 606 and moves towards the horizontal clamping groove 6052, after the fixture block 6041 enters the horizontal fixture groove 6052, the horizontal fixture groove 6052 can limit the vertical movement of the fixture block 6041, and the limiting protrusion 606 can limit the horizontal movement of the fixture block 6041, so that the connecting column 603 is fixed in the connecting hole, and the damping bottom plate 602 is fixed in the half sole damping groove 601.

S2, wearing shoes: the foot is inserted into the upper 2 and secured.

S3, correction: in the wearing process, the support part 31 on the arch part of the orthopedic bottom plate 3 can support the arch part of the foot of the user, so that the arch part of the foot is corrected, the phenomenon that the arch part of the foot is low and collapses is prevented, the angle of the orthopedic bottom plate 3 is changed by changing and adjusting the first adjusting part 32, the second adjusting part 33 and the third adjusting part 34 which are different, the stress condition of the foot of the user is changed, the conditions of foot eversion, foot inversion and foot splaying are adjusted, the binding belt 41 is mutually attached to the instep by pulling the binding belt 41, the binding belt 41 is fixed by mutually matching the clamping pin 421 on the adjusting buckle 42 and the clamping hole 410 on the binding belt 41, the phenomenon that the user sheds the foot in the walking process is prevented, and the walking path of the foot is corrected.

S4, heel shock absorption: during walking with the multifunctional orthopedic shoe, vibration generated at the heel part of the shoe sole is transmitted to the lower column 522 to enable the lower column 522 to move upwards, downward impact force of the heel drives the upper column 521 to enable the upper column 521 to move downwards, the bushing 526 is driven by the lower column 522 to move upwards so that the second spring baffle 528 drives the second spring 5281 to contract and the upper column 521 drives the movable column 524 to move downwards so that the second spring 5281 contracts, the vibration is weakened through elastic force generated by contraction of the second spring 5281, meanwhile, the first spring 5251 is stretched, when the foot is lifted, under the elastic force of the first spring 5251 and the second spring 5281, the upper column 521 and the lower column rebound, the second spring baffle 528 and the lower column 522 move downwards so that the first spring 5251 contracts, the second spring 5281 is stretched, rebound vibration is reduced through elastic force generated by the first spring 5251, and the shock absorption effect of the orthopedic shoes is improved through repeated bidirectional shock absorption.

S5, sole damping: during walking with the multifunctional orthopedic shoe, vibration generated by the forefoot part of the sole is transmitted to the inner wall of the forefoot damping groove 601 through the buffer block 608, the buffer block pressure plate 609 and the conduction block 612, and the vibration is buffered through the buffer block 608 during transmission, so that the influence of the vibration on the forefoot part of a user is reduced.

By adopting the technical scheme, the use method is simple, the connecting column is matched with the connecting hole through the connecting column, the connecting column is fixed in the connecting hole through the clamping block and the L-shaped clamping groove, the mounting and the dismounting of the damping bottom edge are facilitated, the damping effect of the half sole damping piece can be adjusted conveniently by a user, different requirements of the user on the damping effect are met, the user can wear the multifunctional orthopedic shoe to walk only by adopting a common wearing mode, the heel damping piece and the half sole damping piece in the damping component can automatically perform damping work, the damping effect and the wearing comfort level of the multifunctional orthopedic shoe are improved, and the multifunctional orthopedic shoe can automatically correct and adjust eversion, splayed and flat feet after being worn by the user.

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 invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.