CN216627649U - Sole with stable and gait adjustment function - Google Patents

Abstract

The utility model discloses a sole with functions of stabilization and gait adjustment, which comprises: a sole body; the triangular frame-shaped structure is arranged in the middle of the sole body and comprises a transverse edge, a first bevel edge and a second bevel edge which are connected end to end; the transverse edges are arranged along the width direction of the sole body and are correspondingly positioned at 1/3 positions in front of the soles, and the transverse edges are provided with a plurality of transverse strip-shaped grains which are uniformly arranged at intervals; the first bevel edge and the second bevel edge are respectively arranged on two sides of the sole body, the first bevel edge is correspondingly positioned at the inner side longitudinal arch position of the foot, and the second bevel edge is correspondingly positioned at the outer side longitudinal arch position of the foot; the annular structure is arranged at the rear part of the sole body and is correspondingly positioned at the position of the heel, and the annular structure is connected with one ends of the first inclined edge and the second inclined edge, which are far away from the transverse edge, into a whole; the buffer structure also comprises at least one of a first circular buffer structure, a second circular buffer structure and a third circular buffer structure; the sole has good stability and gait adjusting function.

Description

Sole with stable and gait adjustment function

Technical Field

The utility model belongs to the technical field of soles, and particularly relates to a sole with functions of stability and gait adjustment.

Background

The common characteristics of common sole materials are wear resistance, water resistance, oil resistance, heat resistance, pressure resistance, impact resistance, good elasticity, easy adaptation to foot shapes, difficult deformation after shaping, heat preservation, easy moisture absorption and the like, and simultaneously, the sole materials are matched with a midsole to have various conditions of brake action, no slipping, easy stopping and the like when feet are changed during walking.

However, the prior sole lacks the functions of dynamic adjustment and stable control of the foot during walking or exercising of the human body. First, it is impossible to adjust the bad gait of the human body, such as the inward splayed and outward splayed gait. Second, there is insufficient stable control of the arch during walking or exercise, especially when one leg supports the body or the foot bears several times the body weight, and there is no control over excessive collapse of the arch and excessive movement of the joints. In addition, the existing sole has poor lateral stability and has poor effects of preventing the inversion of feet, spraining the feet and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, it is an object of the present invention to provide a shoe sole having stability and a gait adjusting function, which has good stability and a gait adjusting function.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

a shoe sole with stability and gait adjustment functions, comprising:

a sole body;

the triangular frame-shaped structure is arranged in the middle of the sole body and comprises a transverse edge, a first bevel edge and a second bevel edge which are connected end to end; the transverse edges are arranged along the width direction of the sole body and are correspondingly positioned at 1/3 positions in front of the soles, and the transverse edges are provided with a plurality of transverse strip-shaped grains which are uniformly arranged at intervals; the first bevel edge and the second bevel edge are respectively arranged at two sides of the sole body, the first bevel edge is correspondingly positioned at the inner side longitudinal arch position of the foot, and the second bevel edge is correspondingly positioned at the outer side longitudinal arch position of the foot;

the annular structure is arranged at the rear part of the sole body and is correspondingly positioned at the position of a heel, and the annular structure is connected with one ends of the first inclined edge and the second inclined edge, which are far away from the transverse edge, into a whole;

the buffer structure also comprises at least one of a first circular buffer structure, a second circular buffer structure and a third circular buffer structure;

the first circular buffer structure is arranged at the junction of the transverse edge and the first inclined edge and is correspondingly positioned at the first metatarsal head of the sole of a foot; the second circular buffer structure is arranged at the junction of the transverse edge and the second oblique edge and is correspondingly positioned at the fifth metatarsal head of the sole; the third circular buffer structure is arranged in the middle of the circular ring structure and is correspondingly positioned at the center of the heel;

the material hardness of the triangular frame-shaped structure and the circular ring-shaped structure is greater than that of the first circular buffer structure, the second circular buffer structure and the third circular buffer structure.

According to an embodiment of the present invention, an end of the first oblique side away from the lateral side has a larger width than an end near the lateral side.

According to an embodiment of the utility model, both an end of the first oblique edge adjacent to the transverse edge and the second oblique edge are provided with chevrons.

According to an embodiment of the present invention, a dot pattern is disposed at an end of the first oblique side away from the transverse side.

According to an embodiment of the present invention, the first circular buffer structure, the second circular buffer structure and the third circular buffer structure are made of EVA.

According to an embodiment of the present invention, the material of the triangular frame-shaped structure and the circular ring-shaped structure is rubber.

Due to the adoption of the technical scheme, compared with the prior art, the utility model has the following advantages and positive effects:

(1) the triangular frame structure is arranged in the embodiment of the utility model, so that a plantar stabilizing support is formed, and the stability and balance are provided for the foot. The transverse edges of the triangular frame-shaped structure are provided with transverse strip patterns, so that transverse bending can be realized while good support performance is achieved, the transverse strip patterns are consistent with the physiological characteristics of the rolling of the half sole when a human body normally walks, and meanwhile, the transverse strip patterns can play a role in adjusting abnormal rolling directions during walking, such as inner splayed gaits and outer splayed gaits; the first bevel edge can provide support for a longitudinal arch at the inner side of a human body, and can play a role in strengthening and stabilizing the condition of excessive arch collapse such as flat feet and loose ligaments; the second bevel edge can provide support for the longitudinal arch at the outer side of the human body, play a role in strengthening stability, prevent the inversion of feet, bend the feet and the like.

(2) In the embodiment of the utility model, the first circular buffer structure provides an anchor point for the final ground pedaling stage and toe rolling in the walking process, promotes the dorsiflexion of the toes and provides power for pedaling the feet off the ground; the second round buffer structure provides buffer for the outer side to fall to the ground and provides power for the foot from the outer side to the inner side excessively in the walking process; the third circular buffer structure provides the buffering for the calcaneal tubercle, and the reinforcing travelling comfort is favorable to alleviating symptoms such as calcaneal pain, plantar fasciitis, and the outside ring shape structure of third circular buffer structure provides the support for soft tissue around the heel.

(3) In the embodiment of the utility model, the width of one end of the first bevel edge, which is far away from the transverse edge, is larger than that of one end of the first bevel edge, which is close to the transverse edge, and the end of the first bevel edge, which is far away from the transverse edge, is connected with the circular ring structure into a whole, so that the support for the rear side of the inner arch is further enhanced, and the control of the excessive rotation movement of the foot during walking (the excessive process of falling from the heel to the inner arch) is facilitated.

Drawings

The following detailed description of embodiments of the utility model is provided in conjunction with the appended drawings, in which:

FIG. 1 is a schematic view of a sole with stabilization and gait adjustment features of the utility model;

fig. 2 is a schematic view of a portion of the shoe corresponding to the sole of the foot having the function of stabilizing and adjusting gait according to the utility model.

Description of reference numerals:

1: a sole body; 2: transverse edges; 3: a first beveled edge; 4: a second beveled edge; 5: a circular ring-shaped structure; 6: a first circular buffer structure; 7: a second circular buffer structure; 8: a third circular buffer structure; 9: transverse stripe lines; 10: herringbone lines; 11: and (4) dot patterns.

Detailed Description

The utility model is described in further detail below with reference to the figures and specific examples. Advantages and features of the present invention will become apparent from the following description and from the claims. It is to be noted that the drawings are in a very simplified form and are all used in a non-precise ratio for the purpose of facilitating and distinctly aiding in the description of the embodiments of the utility model.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

Referring to fig. 1 and 2, the core of the present invention is to provide a shoe sole with stabilization and gait adjustment functions, which comprises a shoe sole body 1, a triangular frame-shaped structure and a circular ring-shaped structure 5, and at least one of a first circular cushioning structure 6, a second circular cushioning structure 7 and a third circular cushioning structure 8.

The middle part of sole body 1 is located to the triangle frame shape structure, adopts harder wear-resisting material to make, adopts hard rubber in this embodiment. The triangular frame structure forms a plantar stabilizing support that provides stability and balance to the foot.

The material hardness of the triangular frame-shaped structure and the circular ring-shaped structure 5 is greater than that of the first circular buffer structure 6, the second circular buffer structure 7 and the third circular buffer structure 8.

The triangular frame-shaped structure comprises a transverse edge 2, a first bevel edge 3 and a second bevel edge 4 which are connected end to end. The horizontal limit 2 sets up and corresponds 1/3 positions before being located the sole along the width direction of sole body 1, and horizontal limit 2 is equipped with the horizontal stripe 9 that a plurality of even intervals set up, and horizontal limit 2 can be convenient for realize transversely bending when having good support nature, and the rolling physiological characteristic of half sole is unanimous when this horizontal stripe 9 and human normal walking, simultaneously, to the unusual condition of rolling direction during the walking, like interior eight characters, outer eight characters gait, can play the adjustment effect.

The first bevel edge 3 and the second bevel edge 4 are respectively arranged at two sides of the sole body 1, the first bevel edge 3 is correspondingly positioned at the longitudinal arch position of the inner side of the foot, and the second bevel edge 4 is correspondingly positioned at the longitudinal arch position of the outer side of the foot. The end of the first oblique side 3 remote from the transverse side 2 has a greater width than the end close to the transverse side 2, which increases the stiffness of the end of the first oblique side 3 remote from the transverse side 2.

The first bevel edge 3 can provide support for the longitudinal arch at the inner side of the human body, and can play a role in strengthening and stabilizing the condition of excessive arch collapse such as flat feet and loose ligaments; the second bevel edge 4 can provide support for the longitudinal arch at the outer side of the human body, play a role in strengthening stability, prevent the foot from turning inwards, spraining the foot and the like.

One end of the first bevel edge 3 close to the transverse edge 2 and the second bevel edge 4 are both provided with herringbone lines 10 for increasing surface friction force and enhancing wear resistance. The end of the first inclined edge 3 far away from the transverse edge 2 is provided with dot grains 11.

In other embodiments, in order to deal with the situation of high arch, such as high arch foot, stiff foot, etc., the first bevel edge 3 may be made of a softer material, which can provide elasticity and play a role in absorbing and buffering.

The ring-shaped structure 5 is arranged at the rear part of the sole body 1 and is correspondingly positioned at the position of the heel, and is made of hard and wear-resistant materials, and hard rubber is adopted in the embodiment. The circular ring-shaped structure 5 is connected with one ends of the first inclined edge 3 and the second inclined edge 4 which are far away from the transverse edge 2 into a whole. The width of one end of the first inclined edge 3 close to the transverse edge 2 is smaller than that of the end far away from the transverse edge 2, and the end of the first inclined edge 3 far away from the transverse edge 2 is connected with the annular structure 5 into a whole, so that the support for the rear side of the inner arch is further strengthened, and the control of the excessive rotation movement of the foot during walking (the transition process of falling from the heel to the inner arch) is facilitated.

The first circular buffer structure 6, the second circular buffer structure 7 and the third circular buffer structure 8 can be freely combined according to specific needs to realize different functions. Fig. 1 is an embodiment in which the first circular buffer structure 6, the second circular buffer structure 7, and the third circular buffer structure 8 are all disposed, and fig. 2 is an embodiment in which the first circular buffer structure 6 and the third circular buffer structure 8 are disposed.

The first circular buffer structure 6 is disposed at the junction of the lateral edge 2 and the first oblique edge 3 and is correspondingly located at the first metatarsal head of the sole of a foot, and is made of a relatively flexible material, in this embodiment, soft and elastic EVA is used to provide a comfortable cushioning effect. The first circular buffer structure 6 provides an anchor point for the last pedaling to the ground stage and the rolling of toes in the walking process, promotes the dorsiflexion of the toes and provides power for the feet to pedal away from the ground.

The second circular buffer structure 7 is disposed at the junction of the transverse edge 2 and the second oblique edge 4 and is located at the position corresponding to the fifth metatarsal head of the sole of a foot, and is made of a relatively flexible material, in this embodiment, soft and elastic EVA, so as to play a role of comfort and cushioning. The second circular buffer structure 7 provides buffer for the outer side to fall to the ground and provides power for the foot to excessively move from the outer side to the inner side during walking.

The third circular buffer structure 8 is arranged in the middle of the circular ring structure 5 and is correspondingly positioned at the center of the heel, and is made of a flexible material, in this embodiment, soft elastic EVA, so that the third circular buffer structure plays a role in comfort and cushioning. The third circular buffer structure 8 provides the buffering for the calcaneal tubercle, and the reinforcing travelling comfort is favorable to alleviating symptoms such as calcaneal pain, plantar fasciitis, and the outside ring shaped structure 5 of third circular buffer structure 8 provides the support for the soft tissue around the heel.

The sole body 1 is also provided with a plurality of anti-skid lines at other parts. The material of sole body 1 position in the front and back is harder wear-resisting rubber material, plays antiskid wear-resisting and prevents playing the effect of hitting.

The EVA materials of soft elasticity are adopted between the front part of the sole body 1 and the transverse edge 2, in the middle of the triangular frame-shaped structure, on the outer sides of the first bevel edge 3 and the second bevel edge 4, so that the comfortable cushioning effect is achieved.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments. Even if various changes are made to the present invention, it is still within the scope of the present invention if they fall within the scope of the claims of the present invention and their equivalents.

Claims (6)

1. A shoe sole with stability and gait modification, comprising:

a sole body;

the triangular frame-shaped structure is arranged in the middle of the sole body and comprises a transverse edge, a first bevel edge and a second bevel edge which are connected end to end; the transverse edges are arranged along the width direction of the sole body and are correspondingly positioned at 1/3 positions in front of the soles, and the transverse edges are provided with a plurality of transverse strip-shaped grains which are uniformly arranged at intervals; the first bevel edge and the second bevel edge are respectively arranged on two sides of the sole body, the first bevel edge is correspondingly positioned at the inner side longitudinal arch position of the foot, and the second bevel edge is correspondingly positioned at the outer side longitudinal arch position of the foot;

the annular structure is arranged at the rear part of the sole body and is correspondingly positioned at the position of a heel, and the annular structure is connected with one ends of the first inclined edge and the second inclined edge, which are far away from the transverse edge, into a whole;

the buffer structure also comprises at least one of a first circular buffer structure, a second circular buffer structure and a third circular buffer structure;

the first circular buffer structure is arranged at the junction of the transverse edge and the first inclined edge and is correspondingly positioned at the first metatarsal head of the sole of a foot; the second circular buffer structure is arranged at the junction of the transverse edge and the second oblique edge and is correspondingly positioned at the fifth metatarsal head of the sole; the third circular buffer structure is arranged in the middle of the circular ring structure and is correspondingly positioned at the center of the heel;

the material hardness of the triangular frame-shaped structure and the circular ring-shaped structure is greater than that of the first circular buffer structure, the second circular buffer structure and the third circular buffer structure.

2. The sole for stability and gait adjustment according to claim 1, wherein the first oblique edge has a greater width at an end remote from the lateral edge than at an end adjacent to the lateral edge.

3. The sole for stability and gait adjustment according to claim 1, wherein the first beveled edge has chevrons at an end adjacent the lateral edge and the second beveled edge.

4. The shoe sole of claim 1, wherein an end of said first beveled edge distal to said lateral edge is provided with a dotted striation.

5. The sole for stability and gait adjustment according to claim 1, wherein the material of the first rounded cushioning structure, the second rounded cushioning structure and the third rounded cushioning structure is EVA.

6. The sole for stabilization and gait adjustment according to claim 1, characterized in that the material of the triangular frame-shaped structure and the circular ring-shaped structure is rubber.

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