CN221355956U - Sole helping hand protection system - Google Patents

Abstract

The utility model belongs to the technical field of shoe industry, and particularly discloses a sole boosting protection system which comprises an outsole, a heel midsole, a heel TPU, a half sole midsole and an arch part TPU, wherein the heel midsole comprises a heel lower midsole and a heel upper midsole; the heel TPU is arranged on the middle sole of the heel upper layer, the bottom TPU is arranged on one side of the heel TPU, the foot arch part TPU is arranged on one side of the bottom TPU, the heel TPU is wrapped on the middle sole of the heel upper layer, and the embedded TPU is arranged below the middle sole of the heel lower layer; the insole of the upper layer of the shoe heel, the insole of the lower layer of the shoe heel and the insole of the half sole can effectively increase the support and rebound resilience performance of feet, ensure comfort of foot feeling and stable support, and the set embedded TPU is placed between the outsole of the shoe and the insole of the lower layer of the shoe sole to provide support for the insole of the lower layer of the shoe sole, prevent deformation, simultaneously interact with the TPU of the arch part of the shoe to generate repulsive force and promote energy feedback of the whole system.

Description

Sole helping hand protection system

Technical Field

The utility model relates to the technical field of shoe industry, in particular to a sole power-assisted protection system.

Background

In the life today, people increasingly pay attention to physical health, the requirements on shoes are not only comfortable, practical and beautiful, but more, the soles of the shoes are the key whether the shoes are comfortable to wear, and various soles are appeared on the market to meet the above-mentioned use needs of consumers, but the shoes in the existing market have the following disadvantages:

The sole of shoes in the existing market is single in overall structural design, and usually only the midsole is attached with a local rubber sheet or a whole palm rubber sheet, for example, when in outdoor travel or activities, the structural design is insufficient for protecting ankle joints and knee joints, particularly for high-strength outdoor exercises, and joints are easy to damage.

The shoe part is added with products of TPU structures, most of the products are decorative, the design and the structure are simple, and no substantial protection effect is brought to the feet.

The insole structure and the material of the shoe are single, the middle core supporting material is generally an ABS material which is arranged on the upper layer of the insole and is rectangular, joint protection and physical energy saving of complex environments such as mountain lands, rugged roads, slopes and the like can not be met, outdoor activities are different from urban activities, extremely high requirements are provided for joint protection and physical energy consumption, and whether the sole can provide effective protection and improvement of athletic performance and physical energy saving for users in complex outdoor environments is particularly heavy.

Disclosure of utility model

The utility model aims to provide a sole power-assisted protection system which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the sole boosting protection system comprises an outsole, a heel midsole, a heel TPU, a half sole and an arch part TPU, wherein the heel midsole and the half sole are arranged above the outsole, the heel midsole comprises a heel lower midsole and a heel upper midsole, and the heel upper midsole is positioned above the heel lower midsole; the heel is characterized in that a heel TPU is arranged on the middle sole of the heel upper layer, a bottom TPU is arranged on one side of the heel TPU, an arch part TPU is arranged on one side of the bottom TPU, the heel TPU is wrapped on the middle sole of the heel upper layer, the middle sole of the heel lower layer and the middle sole of the half sole are connected to the outsole through glue, the arch part TPU is positioned between the middle sole of the half sole and the middle sole of the heel upper layer and is attached to the middle sole of the half sole, and an embedded TPU is arranged below the middle sole of the heel lower layer; the sole in the upper layer of the shoe heel, the sole in the lower layer of the shoe heel and the sole in the half sole can effectively increase the support and rebound resilience performance of the foot, ensure the comfort level of foot feeling, ensure stable support, the sole TPU and the half-wrapped sole TPU are mainly used for protecting the stability and support of the foot, the sole is matched to promote the cushioning performance, the whole sole structure is energized, the rebound resilience performance of the sole is promoted, the set embedded TPU is placed between the outsole and the sole in the lower layer of the shoe sole, the sole in the lower layer of the shoe sole is supported, deformation is prevented, interaction is carried out with the sole TPU at the arch part, repulsive force is generated, and the energy feedback of the whole system is promoted.

Preferably, the outsole is made of rubber materials, and outsole external teeth are arranged on the outer side of the outsole, so that the grip and the anti-slip performance of the outsole are improved.

Preferably, the heel upper midsole, the heel lower midsole and the half sole are all made of EVA materials, wherein the heel lower midsole and the heel upper midsole are made of high-density EVA materials, and the half sole is made of low-density EVA.

Preferably, a hollow cavity is arranged between the TPU at the arch part and the midsole at the lower layer of the heel, the cavity is arc-shaped, the arranged cavity can ensure the air circulation inside the sole, and the acting force formed between the arc-shaped elastic bodies is utilized to ensure that the foot can quickly obtain energy feedback in the landing and pedaling stage, so that the energy consumption is saved.

Preferably, the tail part of the heel TPU is provided with a tail part TPU, and the tail part TPU can provide partial supporting force.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, the sole TPU at the tail part and the sole TPU at the bottom part of the shoe ensure stable support and are matched with the hollow cavity design, so that the foot can store and release energy rapidly in running mode, the physical energy consumption of a user is effectively saved, meanwhile, in order to relieve uncomfortable feeling caused by TPU materials, the cushioning effect is increased by designing the sole at the front sole, the comfort is improved, meanwhile, the support and rebound resilience performance for the foot are increased by adding the sole at the lower layer of the sole and the sole at the upper layer of the sole, the designed foot arch embedded TPU interacts with the foot arch TPU to generate repulsive force, and the energy feedback of the whole system is improved.

Drawings

FIG. 1 is a schematic side view of the present utility model;

FIG. 2 is a schematic side cross-sectional view of the present utility model;

FIG. 3 is a schematic cross-sectional view of a heel in accordance with the present utility model;

fig. 4 is a schematic diagram of an explosive structure according to the present utility model.

In the figure: 1. an outsole; 2. a midsole at the lower layer of the heel; 3. a heel upper midsole; 4. a footware TPU; 5. heel TPU; 6. a front sole midsole; 7. a cavity; 8. outer teeth of the outsole; 9. an arch portion TPU; 10. embedding TPU; 11. a bottom TPU.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the azimuth or positional relationship indicated by the terms "vertical", "upper", "lower", "horizontal", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1-4, the present utility model provides a technical solution: a sole boosting protection system comprises an outsole 1, a heel midsole, a heel TPU5, a half sole 6 and an arch TPU9, wherein the heel midsole and the half sole 6 are arranged above the outsole 1, the heel midsole comprises a heel lower midsole 2 and a heel upper midsole 3, and the heel upper midsole 3 is arranged above the heel lower midsole 2; the heel TPU5 is arranged on the heel upper layer midsole 3, the bottom TPU11 is arranged on one side of the heel TPU5, the foot arch part TPU9 is arranged on one side of the bottom TPU11, the heel TPU5 is wrapped on the heel upper layer midsole 3, the heel lower layer midsole 2 and the half sole 6 are connected to the outsole 1 through glue, the foot arch part TPU9 is positioned between the half sole 6 and the heel upper layer midsole 3 and is attached to the half sole 6, and the embedded TPU10 is arranged below the heel lower layer midsole 2; the sole 3 in the upper layer of the shoe heel, the sole 2 in the lower layer of the shoe heel and the sole 6 in the front sole can effectively increase the supporting and rebound performances of feet, ensure the comfort level of feet, ensure stable supporting, the sole TPU5, the sole TPU4 and the semi-wrapped sole TPU11 are mainly used for protecting the stability and supporting feet, the sole 6 is matched for improving the cushioning performance, the whole sole structure is energized, the rebound performances of the sole are improved, the set embedded TPU10 is placed between the sole 1 and the sole 2 in the lower layer of the shoe heel, the sole 2 in the lower layer of the shoe heel is prevented from deformation, and meanwhile, the sole TPU9 interacts to generate repulsive force, so that the energy feedback of the whole system is improved.

Further, the outsole 1 is made of rubber material, and the outer side of the outsole 1 is provided with outer teeth 8, so that the grip and the anti-slip performance of the outsole are improved.

Further, the heel upper layer midsole 3, the heel lower layer midsole 2 and the half sole midsole 6 are made of EVA materials, wherein the heel lower layer midsole 2 and the heel upper layer midsole 3 are made of high-density EVA materials, and the half sole midsole 6 is made of low-density EVA.

Further, a hollowed cavity 7 is arranged between the arch TPU9 and the middle sole 2 of the lower layer of the heel, the cavity 7 is arc-shaped, the cavity 7 can ensure the air circulation in the sole, and the acting force formed between the arc-shaped elastic bodies is utilized to enable the foot to quickly obtain energy feedback in the stage of landing and pedaling, so that energy consumption is saved.

Further, the tail part of the heel TPU5 is provided with a tail part TPU4, and the tail part TPU4 can provide partial supporting force.

Working principle: when the sole is used, the design of the outer teeth 8 of the outer sole of the outsole 1 increases the grip and the anti-slip performance of the outsole, so that the grip and the anti-slip performance of the outsole against wet and crushed stone pavement in an outdoor environment are improved, and the sole is composed of the sole 2 in the lower layer of the heel, the sole 3 in the upper layer of the heel and the sole 6 in the front sole, so that the support and rebound resilience performance of the sole to the foot can be effectively increased, and the comfort and the cushioning effect of the foot feel are ensured. The bottom TPU11, the heel TPU5 and the shoe tail TPU4 are arranged to protect the stability and the support of feet, the hollow cavity 7 is designed below the arch TPU9, the force formed between the arch elastomers is utilized to enable the feet to quickly obtain energy feedback in the landing and pedaling stage, the energy consumption of the feet, the leg muscles and bones is saved, the sole 3 at the upper layer of the heel, the sole 2 at the lower layer of the heel and the sole 6 at the front sole are matched to ensure stable support, so that the cushioning performance is improved, the whole midsole structure is energized, the rebound performance of the midsole is improved, the risk of ankle joint and knee joint injury is effectively reduced, meanwhile, the user has the feeling of stepping on a spring, and the sole is easier in outdoor activities and running. In order to cope with long-time long-distance running, the sole deformation caused by high-frequency compression of the foot arch TPU9 can be prevented by adding the design of the embedded TPU10, the outsole deformation caused by strong exercise can be prevented, the repulsive force can be generated by interaction with the foot arch TPU9, and the energy feedback of the whole system is improved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A sole helping hand protection system, its characterized in that: the novel sole comprises an outsole (1), a heel midsole, a heel TPU (5), a half sole (6) and an arch TPU (9), wherein the heel midsole and the half sole (6) are arranged above the outsole (1), the heel midsole comprises a heel lower midsole (2) and a heel upper midsole (3), and the heel upper midsole (3) is positioned above the heel lower midsole (2);

The novel shoe comprises a sole body and is characterized in that a sole TPU (5) is arranged on the sole (3) on the upper layer of the sole, a bottom TPU (11) is arranged on one side of the sole TPU (5), an arch part TPU (9) is arranged on one side of the bottom TPU (11), the sole TPU (5) is wrapped on the sole (3) on the upper layer of the sole, the sole (2) and the sole (6) on the lower layer of the sole are connected onto the sole (1) through glue, and the arch part TPU (9) is located between the sole (6) and the sole (3) on the upper layer of the sole and is attached to the sole (6), and an embedded TPU (10) is arranged below the sole (2) on the lower layer of the sole.

2.A sole assist guard system as claimed in claim 1, wherein: the outsole (1) is made of rubber material, and the outer side of the outsole (1) is provided with outer outsole teeth (8).

3. A sole assist guard system as claimed in claim 1, wherein: the heel upper midsole (3), the heel lower midsole (2) and the half sole (6) are made of EVA materials.

4. A sole assist guard system as claimed in claim 1, wherein: a hollow cavity (7) is arranged between the foot arch TPU (9) and the middle sole (2) at the lower layer of the heel, and the cavity (7) is arc-shaped.

5. A sole assist guard system as claimed in claim 1, wherein: the tail part of the heel TPU (5) is provided with a tail part TPU (4).