CN109276409B

CN109276409B - Foot surface shaping structure

Info

Publication number: CN109276409B
Application number: CN201811208075.3A
Authority: CN
Inventors: 闫维新; 钱阳; 赵言正
Original assignee: Suzhou Diweida Biotechnology Co ltd
Current assignee: Suzhou Diweida Biotechnology Co ltd
Priority date: 2018-10-17
Filing date: 2018-10-17
Publication date: 2024-01-19
Anticipated expiration: 2038-10-17
Also published as: CN109276409A

Abstract

The invention provides a foot surface shaping structure, wherein a foot support component comprises a bottom plate, two side baffles are upwards extended at the left end and the right end of the bottom plate, a rear baffle is arranged at the rear end of the bottom plate, and the foot surface shaping structure further comprises: the heel clamp component is arranged on the inner walls of the two side baffles, and the rear end of the heel clamp component is bent towards the central line of the bottom plate; the foot surface shaping assembly comprises a toe pressing block, a pressing block connecting part and a connecting part mounting seat, wherein the connecting part mounting seat is arranged on the right side surface of the rear baffle plate, the rear end of the pressing block connecting part is inserted into the connecting part mounting seat, and one end of the toe pressing block is connected with the front end of the pressing block connecting part and is transversely arranged above the bottom plate. The foot surface shaping structure provided by the invention can simultaneously shape the front sole deformity, the heel deformity and the toe deformity of a patient, and the structure can adjust the structure length according to the size of the foot so as to adapt to different feet.

Description

Foot surface shaping structure

Technical Field

The invention relates to a shaping structure, in particular to a foot surface shaping structure.

Background

Foot deformity conditions, including deformity in the ball and heel of the foot, toe deformity, etc., occur more or less after surgery for stroke patients or limb injury patients. At present, no structure for effectively shaping the two deformities exists in the market, so that a patient cannot effectively shape the foot in the rehabilitation exercise process or after the rehabilitation exercise.

After searching, the disclosed invention which is the same as the technical scheme of the invention is not found.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a foot surface shaping structure which can effectively shape the deformation of the front sole and the heel of a patient and the deformation of the toes.

In accordance with one aspect of the present invention, there is provided a foot-surface shaping structure comprising a foot-support assembly including a sole plate having two side guards extending upwardly from left and right ends thereof, a rear guard mounted to a rear end of the sole plate, the foot-surface shaping structure further comprising:

the heel clip component is arranged on the inner walls of the two side baffles, and the rear end of the heel clip component is bent towards the central line of the bottom plate;

the foot surface shaping assembly comprises a toe pressing block, a pressing block connecting part and a connecting part mounting seat, wherein the connecting part mounting seat is arranged on the right side face of the rear baffle, the rear end of the pressing block connecting part is inserted into the connecting part mounting seat, one end of the toe pressing block is connected with the front end of the pressing block connecting part, and the toe pressing block is transversely arranged above the bottom plate.

Further, each heel clip part is a rectangular spring piece.

Further, the two side baffles are respectively provided with a heel clip adjusting part corresponding to the rear ends of the two heel clip parts, and each heel clip adjusting part is in threaded connection and passes through the two side baffles to be abutted against the two heel clip parts.

Further, the foot surface shaping assembly also comprises a first handle, the connecting part of the first handle is fixedly connected with a screw rod, the screw rod passes through the connecting part mounting seat and is in threaded connection with the side surface of the rear baffle,

when the height of the toe pressing block needs to be stabilized, the first handle drives the screw rod to screw into the connecting component mounting seat, and the connecting component mounting seat is fastened;

when the height of the toe briquetting is required to be adjusted, the first handle drives the screw rod to unscrew from the connecting component mounting seat, the connecting component mounting seat is loose and drives the briquetting connecting component to further drive the toe briquetting to rotate around the axis of the screw rod, so that the height of the toe briquetting is adjusted.

Furthermore, the lower end of the connecting part mounting seat is of a clamp structure, and the pressing block connecting part is inserted into the clamp structure at the lower end of the connecting part mounting seat.

Further, the foot surface shaping assembly also comprises a second handle, the connecting part of the second handle is connected with a bolt in a threaded manner, the bolt passes through the clip-type structure at the lower end of the connecting part mounting seat and is fastened on the connecting part mounting seat,

when the front and back positions of the toe press block need to be stabilized, the second handle is screwed on the clamp-type structure at the lower end of the connecting part mounting seat, the press block connecting part is fastened in the connecting part mounting seat, and the front and back positions of the toe press block are fixed;

when the front and back positions of the toe press block need to be adjusted, the second handle unscrews the clamp-type structure at the lower end of the connecting part mounting seat, the press block connecting part loosens, and the toe press block is driven to be adjusted front and back.

Further, a gap exists between the rear baffle and a plane where the upper surface of the bottom plate is located.

Further, the foot surface shaping structure further includes:

the sole telescopic assembly comprises a sole part which is arranged on the bottom plate and is inserted in a gap between the rear baffle plate and the bottom plate.

Further, still open a slip track along length direction on the bottom plate, plantar expansion assembly still includes:

the toe overturning part is rotationally connected with the sole part through a torsion spring, and when the toe overturning part and the sole part are positioned on the same plane, the torsion spring provides pretightening force for overturning the toe overturning part upwards.

A sole locking part which passes through the sliding rail and is in threaded connection with the sole part,

when the expansion and contraction amount of the plantar expansion and contraction assembly is required to be adjusted, loosening the plantar locking component, adjusting the position of the plantar component relative to the bottom plate in the range of the sliding track, and changing the expansion and contraction amount of the plantar expansion and contraction assembly;

when the expansion and contraction amount of the plantar expansion and contraction assembly is required to be stabilized, the plantar locking assembly is tightly regulated, the lower surface of the plantar assembly abuts against the upper surface of the bottom plate, and the expansion and contraction amount of the plantar expansion and contraction assembly is stable.

Further, the foot surface shaping structure further includes:

and the foot surface binding component is arranged at the front end of the upper surface of the sole component.

Compared with the prior art, the invention has the following beneficial effects: the foot surface shaping structure provided by the invention can simultaneously shape the front sole deformity, the heel deformity and the toe deformity of a patient by only putting the foot of the patient into the structure, and the structure can adjust the structure length according to the size of the foot so as to adapt to different foot types. The foot shaping device is simple in structure, convenient to operate, good in foot shaping effect and wide in popularization significance.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIGS. 1-4 are schematic views of an exemplary foot-surface shaping structure according to the present invention;

in the figure: 10 is a foot support assembly, 11 is a bottom plate, 12 is two side baffles, 13 is a rear baffle, 21 is a sole component, 22 is a sole locking component, 23 is a toe turnover component, 30 is a foot surface binding component, 40 is a foot rear shaping assembly, 41 is a heel clip component, 42 is a heel clip adjusting component, 50 is a foot surface shaping assembly, 51 is a toe press block, 52 is a press block connecting component, 53 is a connecting component mounting seat, 54 is a first handle, and 55 is a second handle.

FIG. 5 is a schematic view of the adjustment direction of the heel clip adjusting member;

fig. 6 is a schematic view of a bottom view of a foot surface shaping structure according to the present invention;

figure 7 is a schematic view of the toe rollover member of the present invention in an upturned state.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that variations and modifications could be made by those skilled in the art without departing from the inventive concept. These are all within the scope of the present invention.

Referring to Figs. 1-4, which illustrate a construction of an embodiment of a foot-surface shaping structure, the foot-support assembly 10 including a foot-support assembly 10, includes a base plate 11, two side guards 12 extending upwardly from left and right ends of the base plate 11, rear guards 13 integrally formed from rear ends of the two side guards 12, the foot-surface shaping structure further comprising:

a rear foot shaping assembly 40, the rear foot shaping assembly 40 comprising two heel clip members 41 mounted on the inner walls of the two side guards 12, the rear ends of the heel clip members 41 being bent toward the midline of the sole plate 11;

the foot surface shaping assembly 50, the foot surface shaping assembly 50 includes a toe press block 51, a press block connecting member 52 and a connecting member mounting seat 53, the connecting member mounting seat 53 is mounted on the right side surface of the rear baffle 13, the rear end of the press block connecting member 52 is inserted into the connecting member mounting seat 53, and one end of the toe press block 51 is connected with the front end of the press block connecting member 52 and is transversely arranged above the bottom plate 11.

Specifically, in the present embodiment, the inner wall of the back plate 13 is designed to be circular arc shape so as to fit the achilles tendon and the lower leg of the user as much as possible; the front ends of the two heel clip members 41 in the rearfoot shaping assembly 40 are respectively fixed to the inner walls of the two side guards 12, and the rear ends of each heel clip member 41 are respectively bent toward the midline of the bottom plate 11, thereby gripping the heel of the user for the purpose of rectification. The two heel clip parts 41 are made of memory metal, and no matter how much the bending degree of the two heel clip parts 41 is adjusted, the two heel clip parts 41 can restore to the preset bending degree when no force is applied to the two heel clip parts 41; in this embodiment, the connecting member mounting seat 53 is mounted on the right side surface of the back plate 13, the pressing block connecting member 52 is inserted into the connecting member mounting seat 53 along the length direction of the bottom plate 11, the front end of the connecting member mounting seat 53 is connected with a transverse toe pressing block 51 for pressing the toe joint of the user when the toe of the user is lifted, so as to shape the toe, in practical operation, the connecting member mounting seat 53 may be mounted on the left side surface or the back side surface of the back plate 13, and similar connecting rod structures are all within the scope of the invention.

Referring to fig. 3 and 5, each of the heel clip parts 41 is a rectangular elastic piece, based on the above-described embodiment.

Specifically, in actual operation, the rear ends of the two heel clamping members can be provided with a certain radian, so that the heel profile of the user can be better fitted, the rear end of each heel clamping member 41 can be widened and increased, the base area of the heel of the user is increased, and the shaping effect is improved.

Referring to fig. 3, on the basis of any of the above embodiments, two side guards 12 are provided with a heel clip adjusting member 42 at the rear ends of the two heel clip members 41, respectively, and each heel clip adjusting member 42 is screwed to and abuts against the two heel clip members 41 through the two side guards 12.

Specifically, the two heel clip adjusting members 42 are two screws, and the two heel clip adjusting members 42 are rotated to adjust the jacking depth of the two heel clip adjusting members 42, so as to adjust the bending degrees of the two heel clip members 41 according to the heel feet of different users. The amount of gripping of the user's heel by the heel grip member 41 is adjusted by adjusting the two heel grip adjustment members 42, thereby shaping the patient who presents distortion to the forefoot and heel.

Referring to fig. 1 and 4, in addition to any of the above embodiments, the foot surface shaping assembly 50 further includes a first handle 54, a screw is fixedly connected to a connection portion of the first handle 54, the screw is screwed to a side surface of the tailgate 13 through a connection member mounting seat 53,

when the height of the toe block 51 needs to be stabilized, the first handle 54 drives the screw rod to screw into the connecting component mounting seat 53, and the connecting component mounting seat 53 is fastened;

when the height of the toe pressing block 51 needs to be adjusted, the first handle 54 drives the screw rod to unscrew from the connecting component mounting seat 53, the connecting component mounting seat 53 loosens, the pressing block connecting component 52 is driven, and the toe pressing block 51 is driven to rotate around the axis of the screw rod, so that the height of the toe pressing block 51 is adjusted.

Specifically, the foot surface shaping structure of the present invention has a height adjusting function of the toe press block 51 due to the different heights of the toe joints of different users. The connecting component mounting seat 53 is located between the back plate 13 and the first handle 54, when the connecting component mounting seat 53 is clamped by the first handle 54 and the back plate 13, the posture is fixed, otherwise, the rotating posture of the connecting component mounting seat 53 can be adjusted, and the height of the toe pressing block 51 is adjusted, so that the toe pressing block 51 can adapt to the heights of toe joints of different users.

Referring to fig. 1 and 4, in any of the above embodiments, the lower end of the connecting member mount 53 has a clip structure, and the press block connecting member 52 is inserted into the clip structure of the lower end of the connecting member mount 53.

Specifically, the connecting component mounting seat 53 is provided with a through hole along the length direction of the bottom plate 11, the through hole is used for inserting the pressing block connecting component 52, an opening is arranged along the width direction of the bottom plate 11, and the opening is communicated with the through hole, so that the connecting component mounting seat 53 forms a clamp structure, and the clamp structure can be used for controlling the tightness of the clamping of the pressing block connecting component 52 by the connecting component mounting seat 53.

Referring to fig. 1 and 4, in addition to any of the above embodiments, the foot surface shaping assembly 50 further includes a second handle 55, a bolt is screwed to the connection portion of the second handle 55, passes through the clip structure at the lower end of the connection member mounting seat 53 and is fastened to the connection member mounting seat 53,

when the front and rear positions of the toe press block 51 need to be stabilized, the second handle 55 is screwed to the clip structure of the lower end of the connecting member mounting seat 53, the press block connecting member 52 is fastened in the connecting member mounting seat 53, and the front and rear positions of the toe press block 51 are fixed;

when the front and rear positions of the toe press block 51 need to be adjusted, the second handle 55 is unscrewed to loosen the clamp structure at the lower end of the connecting member mounting seat 53, and the press block connecting member 52 is loosened to drive the toe press block 51 to be adjusted front and rear.

Specifically, the second handle 55 cooperates with the bolt to control tightness of the clip structure, so as to control switching between the stable state and the adjustable state of the press block connecting component 52, and when the press block connecting component 52 is in the adjustable state, the press block connecting component 52 can be moved forward and backward to adjust the position, so as to drive the toe press block 51 to adjust forward and backward, so as to adapt to the positions of the toe joints of different users.

In summary, the foot surface shaping assembly 50 has the function of adjusting the height and the front-rear position of the toe-pressing block 51 at the same time, and can perform shaping treatment on the toes of most users.

Referring to fig. 1-4, in addition to any of the above embodiments, a gap exists between the tailgate 13 and the upper surface of the floor 11 in a plane.

Specifically, a gap is provided between the rear fender 13 and the upper surface of the base plate 11 in which the sole member 21 is inserted.

1-4, the foot surface shaping structure further comprises:

the sole telescopic assembly 20. The sole telescopic assembly 20 comprises a sole component 21 which is placed on the bottom plate 11 and is inserted into a gap between the rear baffle 13 and the bottom plate 11.

Specifically, the sole member 21 is a flat plate, the lower surface of the sole member 21 is in contact with the sole plate 11, the sole of the foot is in direct contact with the sole member 21, and the heel is in direct contact with the tailgate 13 when the user receives the treatment and the shaping.

Referring to fig. 1 to 4 and 7, in addition to any of the above embodiments, the sole plate 11 is further provided with a sliding rail along a length direction, and the sole telescopic assembly 20 further includes:

the toe turnover part 23, the toe turnover part 23 is rotatably connected with the sole part 21 through a torsion spring, and when the toe turnover part 23 and the sole part 21 are in the same plane, the torsion spring provides the pretightening force for the toe turnover part 23 to turn upwards.

Sole locking part 22, sole locking part 22 is screwed with sole part 21 through the sliding rail,

referring to fig. 6, when the amount of expansion of the sole expansion assembly 20 needs to be adjusted, the sole locking member 22 is loosened, the position of the sole member 21 relative to the base plate 11 is adjusted within the range of the sliding track, and the amount of expansion of the sole expansion assembly 20 is changed;

when the expansion and contraction amount of the plantar expansion and contraction assembly 20 needs to be stabilized, the plantar locking part 22 is tightly adjusted, the lower surface of the plantar part 21 abuts against the upper surface of the bottom plate 11, and the expansion and contraction amount of the plantar expansion and contraction assembly 20 is stabilized.

Specifically, the effective area of the sole member 21, that is, the area on which the user can tread, is adjusted by adjusting the relative positions of the sole member 21 and the sole plate 11. The toe pressing block 51 is located above the toe joint of the patient all the time, and when the toe turnover part 23 of the plantar expansion part 20 turns up the toe of the patient, the toe pressing block 51 applies a certain force to the toe joint of the patient, and the toe of the patient with the toe deformity is shaped, so that the flatness of the toe is ensured. The toe turnover part 23 is positioned at the front part of the sole part 21 and performs circular motion within a certain range by taking the torsion spring as the axis, the positions of the two motion joints correspond to the positions of the toe motion joints of the patient, and the toe turnover part is turned up by the torsion spring to apply backward rotation force to the toes of the patient.

1-4, the foot-surface shaping structure further includes, in addition to any of the above embodiments:

the foot surface binding member 30, the foot surface binding member 30 is mounted to the front end of the upper surface of the sole member 21.

Specifically, in this embodiment, two foot surface binding portions 30 are symmetrically distributed, and flexible materials are used to fix the front sole of the patient, and the foot surface binding members 30 may be hook-and-loop fasteners, or may be fastening the foot surface to the foot support assembly 10 by means of a fastening strap, a nylon strap, or a buckle.

The foot surface shaping structure provided by the invention has the advantages that the structure is simple, the operation is convenient, the foot of a patient is only required to be placed in the foot surface shaping structure, the matching between the plantar expansion assembly 20 and the foot of the patient is regulated, and the front foot surface of the patient is fixed through the foot surface binding component 30. In the case of the foot surface fixation, the angle between the press block connection part 52 and the connection part mounting seat 53 is adjusted, the toe press block 51 is pressed against the joints of the forefoot toes, and the bent toes are straightened, thereby correcting the deformity of the forefoot of the user. The degree of bending of the heel clip part 41 of the rearfoot shaping assembly 40 is adjusted so that the corrected heel clip part 41 changes the angle between the midline of the user's heel and the midline of the sole plate 11, correcting the deformity of the user's heel. The invention has good operability and universality and has wide popularization significance.

The foregoing describes specific embodiments of the present invention. It is to be understood that the invention is not limited to the particular embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the claims without affecting the spirit of the invention.

Claims

1. A foot-surface shaping structure comprising a foot-support assembly (10), wherein the foot-support assembly (10) comprises a base plate (11), two side guards (12) extending upwardly from the left and right ends of the base plate (11), and a rear guard (13) mounted to the rear end of the base plate (11), the foot-surface shaping structure further comprising:

a rearfoot shaping assembly (40), wherein the rearfoot shaping assembly (40) comprises two heel clamping components (41) which are arranged on the inner walls of the two side baffles (12), and the rear ends of the two heel clamping components (41) are respectively bent towards the central line of the bottom plate (11);

the foot surface shaping assembly (50), the foot surface shaping assembly (50) comprises a toe press block (51), a press block connecting part (52) and a connecting part mounting seat (53), the connecting part mounting seat (53) is mounted on the right side surface of the rear baffle (13), the rear end of the press block connecting part (52) is inserted into the connecting part mounting seat (53), and one end of the toe press block (51) is connected with the front end of the press block connecting part (52) and is transversely arranged above the bottom plate (11);

the foot-surface shaping structure further comprises:

the sole telescopic assembly (20), the sole telescopic assembly (20) comprises a sole component (21) which is arranged on the bottom plate (11) and is inserted into a gap between the rear baffle (13) and the bottom plate (11);

the sole plate (11) is provided with a sliding rail along the length direction, and the sole telescopic assembly (20) further comprises:

the toe overturning component (23), the toe overturning component (23) is rotationally connected with the sole component (21) through a torsion spring, and when the toe overturning component (23) and the sole component (21) are positioned on the same plane, the torsion spring provides a pretightening force for overturning the toe overturning component (23) upwards;

a sole locking part (22), wherein the sole locking part (22) is in threaded connection with the sole part (21) through the sliding track,

when the expansion and contraction amount of the plantar expansion and contraction assembly (20) is required to be adjusted, loosening the plantar locking part (22), adjusting the position of the plantar part (21) relative to the bottom plate (11) in the range of the sliding track, and changing the expansion and contraction amount of the plantar expansion and contraction assembly (20);

when the expansion and contraction amount of the plantar expansion and contraction assembly (20) needs to be stabilized, the plantar locking part (22) is tightly adjusted, the lower surface of the plantar part (21) abuts against the upper surface of the bottom plate (11), and the expansion and contraction amount of the plantar expansion and contraction assembly (20) is stable.

2. A foot-surface shaping structure according to claim 1, wherein each of said heel clip members (41) is a rectangular spring piece.

3. The foot-surface shaping structure according to claim 2, wherein one heel clip adjusting member (42) is provided at each of the rear ends of the two side guards (12) corresponding to the two heel clip members (41), and each of the heel clip adjusting members (42) is screwed to and abuts against the two heel clip members (41) through the two side guards (12).

4. The foot surface shaping structure according to claim 1, wherein the foot surface shaping assembly (50) further comprises a first handle (54), a screw is fixedly connected to a connecting portion of the first handle (54), the screw is screwed to a side surface of the rear baffle (13) through the connecting member mounting seat (53),

when the height of the toe pressing block (51) needs to be stabilized, the first handle (54) drives the screw rod to screw into the connecting part mounting seat (53), and the connecting part mounting seat (53) is fastened;

when the height of the toe pressing block (51) needs to be adjusted, the first handle (54) drives the screw rod to unscrew from the connecting component mounting seat (53), the connecting component mounting seat (53) is loosened, the pressing block connecting component (52) is driven, and the toe pressing block (51) is driven to rotate around the axis of the screw rod, so that the height of the toe pressing block (51) is adjusted.

5. The foot surface shaping structure according to claim 4, wherein the lower end of the connecting member mounting seat (53) is a clip structure, and the press block connecting member (52) is inserted into the clip structure at the lower end of the connecting member mounting seat (53).

6. The foot surface shaping structure according to claim 5, wherein the foot surface shaping assembly (50) further comprises a second handle (55), a bolt is screwed to the connecting portion of the second handle (55), passes through the clip structure at the lower end of the connecting member mount (53) and is fastened to the connecting member mount (53),

when the front and back positions of the toe press block (51) need to be stabilized, the second handle (55) is screwed on the clamp-shaped structure at the lower end of the connecting part mounting seat (53), the press block connecting part (52) is fastened in the connecting part mounting seat (53), and the front and back positions of the toe press block (51) are fixed;

when the front and back positions of the toe press block (51) need to be adjusted, the second handle (55) is unscrewed to enable the clamp structure at the lower end of the connecting component mounting seat (53), and the press block connecting component (52) is loosened to drive the toe press block (51) to be adjusted front and back.

7. A foot-surface shaping structure according to claim 1, characterized in that a gap exists between the tailgate (13) and the plane of the upper surface of the floor (11).

8. The foot surface shaping structure of claim 1 wherein the foot surface shaping structure further comprises:

and a foot surface binding part (30), wherein the foot surface binding part (30) is arranged at the front end of the upper surface of the sole part (21).