CN212973203U - Split type orthopedic shoe pad - Google Patents

Abstract

The utility model provides a split type orthopedic shoe-pad relates to a shoe-pad, including the shoe-pad body, the shoe-pad body is the three-dimensional curved surface structure, shoe-pad body below is fixed with module gluing base plate, module gluing base plate below is fixed with the wedge module, the wedge module includes that the inboard wholly increases the module, the outside wholly increases the module, the forefoot inboard increases the module, the forefoot outside increases the module and the heel inside and outside of two symmetries increases the module, the inboard wholly increases the module and the outside wholly increases the module and locates module gluing base plate below, the forefoot inboard increases the module, the forefoot outside increases the module and the heel inside and outside of two symmetries increases the module and locates inboard wholly increasing the module and the outside wholly increases the module below. The utility model discloses with the module of the a plurality of differences of wedge module of falling into of orthopedic shoe-pad, will correct the functional module ization, both satisfy the treatment requirement of the sick state condition of arch of foot, also can adjust plantar mechanics angle to can be quick, convenient and accurate completion finished product matching equipment.

Description

Split type orthopedic shoe pad

Technical Field

The utility model relates to a shoe-pad, especially a split type orthopedic shoe-pad.

Background

The feet are important weight-bearing organs and moving organs of the human body and bear the reaction force of the weight of the body and the ground. If the foot has problems or the wrong gait causes the pressure to be improperly absorbed by the joints, the human body force line can slowly accumulate into other diseases once having problems, and the ankle, the knee, the pelvis, the lumbar vertebra and other parts are affected. The ankle joint deformation caused by the ankle diseases of flat feet, high-arch feet, hallux valgus, tendonitis, metatarsalgia, congenital or acquired long and short legs and the like can further compensate the problems of knee and hip.

The orthopedic insole carries out biomechanical orthopedic on feet, not only carries out rehabilitation treatment on the pathological condition of the foot arch, but also carries out mechanical correction according to the inversion or eversion state of the sole contact surface. The bottom surfaces of the existing orthopedic insoles on the market are all in right and parallel due to the requirements of cost control and large-scale production, and the inward or outward turning design is not considered, which brings great inconvenience for correcting the mechanical angle of the foot.

SUMMERY OF THE UTILITY MODEL

For solving the deficiency among the prior art, the utility model provides a split type orthopedic shoe-pad specifically adopts following technical scheme to realize:

the utility model provides a split type orthopedic shoe-pad, includes the shoe-pad body, the shoe-pad body is the three-dimensional curved surface structure, shoe-pad body below is fixed with module gluing base plate, module gluing base plate below is fixed with the wedge module, the wedge module includes that inboard whole increases the module, the outside wholly increases the module, the forefoot inboard increases the module, the forefoot outside increases the module and the heel inside and outside of two symmetries increases the module, inboard whole increases the module and the outside whole increases the module and locates module gluing base plate below, the heel inside and outside that the module, the forefoot outside increased the module and two symmetries in the forefoot inboard increases the module and the outside whole increases the module below.

Preferably, the insole body is fixed with the module gluing base plate in a clamping groove mode, and the module gluing base plate is fixed with the wedge-shaped module in a gluing mode.

Preferably, cylindrical protrusions are arranged at the center of the half sole and the center of the heel of the insole body, round holes are arranged at the center of the half sole and the center of the heel of the module adhesive base plate, and the two cylindrical protrusions are clamped into the round holes.

Preferably, a double-sided adhesive tape is adhered to the back of the wedge-shaped module.

Preferably, the insole body is formed by foaming material EVA high-temperature compression molding or fluid material PU mold injection molding or resin material 3D printing.

Preferably, the module adhesive substrate is made of rubber and plastic materials with the hardness index of more than 90 degrees or a cardboard in the middle of texon.

Preferably, the wedge-shaped module is formed by compression molding of foaming material EVA at high temperature.

The utility model provides a pair of split type orthopedic shoe-pad, its beneficial effect lies in: the orthopedic insole is divided into a plurality of different wedge-shaped modules, the correcting function is modularized, the treatment requirement of the pathological condition of the foot arch is met, the mechanical angle of the foot sole can be adjusted, and the matching and assembling of finished products can be completed quickly, conveniently and accurately.

Drawings

FIG. 1 is a perspective view of the split orthopedic insole of the present invention in an exploded state;

fig. 2 is an exploded bottom view of a split orthopedic insole of the present invention;

FIG. 3 is a front view of the split orthopedic insole of the present invention in an exploded state;

FIG. 4 is a schematic view of the arch support of a split orthotic insole of the present invention;

fig. 5 is a schematic view of the wedge-shaped module of the split orthopedic insole of the present invention.

Detailed Description

To further illustrate the embodiments, the present invention provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the embodiments. With these references, one of ordinary skill in the art will appreciate other possible embodiments and advantages of the present invention. Elements in the figures are not drawn to scale and like reference numerals are generally used to indicate like elements.

The present invention will now be further described with reference to the accompanying drawings and detailed description.

As shown in fig. 1-5, the split orthopedic insole provided in this embodiment includes an insole body 1, the insole body 1 has a three-dimensional curved surface structure, and is formed by high-temperature compression molding using a foam material EVA (ethylene-vinyl acetate copolymer) or injection molding using a fluid material PU (polyurethane) mold, or 3D printing using a resin material. A module adhesive base plate 2 is fixed below the insole body 1, and the module adhesive base plate 2 is made of rubber and plastic materials with hardness index of more than 90 degrees or a cardboard in the Tekenson. Be fixed with wedge module 3 below module gluing base plate 2, wedge module 3 includes inboard whole increase module 31, the outside wholly increases module 32, the forefoot inboard increases module 33, the forefoot outside increases module 34 and the heel inside and outside of two symmetries and increases module 35, inboard whole increase module 31 and the outside wholly increases module 32 and locates module gluing base plate 2 below, the forefoot inboard increases module 33, the forefoot outside increases module 34 and the heel inside and outside of two symmetries and increases module 35 and locate inboard whole increase module 31 and the outside wholly increases module 32 below.

In the embodiment, the thickness of the half sole of the insole body 1 is designed to be 3mm, the thickness of the lowest point of the heel is designed to be 5mm, the height difference between the front and the back is 2mm, the height of the arch support (the height of the highest point A0 from the ground) is taken as a standard, the insole body 1 is designed to be 3 standard templates with the height being 17.5mm, 19.5mm and 21.5mm respectively, and the orthopedic requirements of the arch morbid treatment are met. Sole center and heel center of shoe-pad body 1 all are equipped with cylinder arch 11, and the sole center and the heel center of module gluing base plate 2 all are equipped with round hole 21, and the high design of the protruding 11 of cylinder in this embodiment is 1.5mm, and the thickness of module gluing base plate 2 is 1.5mm, and two protruding 11 blocks of cylinder just advance round hole 21, have both located shoe-pad body 1 and module gluing base plate 2, guarantee the coincidence of two parts. The module gluing base plate 2 is designed into a plane curve shape so as to conveniently and quickly glue the wedge-shaped module 3, the outline curve corresponds to the lower bottom contour line of the insole body 1, and the outline curve rule of the middle bottom surface of the inner cavity of the shoe is also met. The whole wedge-shaped module 3 is made of foaming material EVA (ethylene-vinyl acetate copolymer) through high-temperature die pressing, and the hardness index is greater than 75 degrees.

The wedge-shaped module 3 can be set as different standard components according to the increase needs, and the one side of wedge-shaped module 3 is pasted with the double faced adhesive tape, can follow the correction angle of pasting the quick adjustment shoe-pad of follow-up and getting. Because the insole body 1, the module adhesive base plate 2 and the wedge-shaped module 3 are movably combined in a split mode, the insole can be flexibly assembled according to a foot orthopedic scheme, and the insole is simple and easy to operate.

This application will orthopedic insole divide into a plurality of different modules of wedge module, will correct the functional module ization, both satisfy the treatment requirement of arch of foot pathological condition, also can adjust plantar mechanics angle to can be quick, convenient and accurate completion finished product match the equipment.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. A split orthopedic insole is characterized by comprising an insole body (1), wherein the insole body (1) is of a three-dimensional curved surface structure, a module gluing base plate (2) is fixed below the insole body (1), a wedge-shaped module (3) is fixed below the module gluing base plate (2), the wedge-shaped modules (3) comprise an inner side integral heightening module (31), an outer side integral heightening module (32), a forefoot inner side heightening module (33), a forefoot outer side heightening module (34) and two symmetrical heel inner and outer side heightening modules (35), the inner integral heightening module (31) and the outer integral heightening module (32) are arranged below the module gluing base plate (2), the forefoot inner side heightening module (33), the forefoot outer side heightening module (34) and the two symmetrical heel inner and outer side heightening modules (35) are arranged below the inner side integral heightening module (31) and the outer side integral heightening module (32).

2. The split orthopedic insole of claim 1, wherein: the insole body (1) is fixed with the module gluing base plate (2) in a clamping groove mode, and the module gluing base plate (2) is fixed with the wedge-shaped module (3) in a gluing mode.

3. The split orthopedic insole of claim 2, wherein: the insole is characterized in that cylindrical bulges (11) are arranged at the center of the half sole and the center of the heel of the insole body (1), round holes (21) are arranged at the center of the half sole and the center of the heel of the module adhesive base plate (2), and the two cylindrical bulges (11) are clamped into the round holes (21).

4. The split orthopedic insole of claim 2, wherein: and double-sided adhesive tape is adhered to the back of the wedge-shaped module (3).

5. A split orthotic insole according to any one of claims 1 to 4, wherein: the insole body (1) is formed by adopting foaming material EVA high-temperature compression molding or fluid material PU mold injection molding or resin material 3D printing molding.

6. A split orthotic insole according to any one of claims 1 to 4, wherein: the module adhesive substrate (2) is made of rubber and plastic materials with the hardness index of more than 90 degrees or a texon middle bottom paperboard.

7. A split orthotic insole according to any one of claims 1 to 4, wherein: the wedge-shaped module (3) is formed by adopting foaming material EVA high-temperature compression molding.

Images