CN217407977U

CN217407977U - Efficient energy-absorbing shock-absorbing insole

Info

Publication number: CN217407977U
Application number: CN202220312682.XU
Authority: CN
Inventors: 李越梨
Original assignee: Sichuan Haina Advanced Materials Technology Co ltd
Current assignee: Sichuan Haina Advanced Materials Technology Co ltd
Priority date: 2022-02-16
Filing date: 2022-02-16
Publication date: 2022-09-13
Anticipated expiration: 2032-02-16

Abstract

The utility model provides a high-efficient energy-absorbing shock attenuation shoe-pad applies to shoe-pad technical field and includes: the damping cushion comprises a main body, a high-molecular damping protective cushion and a damping protective cushion; the main body comprises an upper protection pad and a lower protection pad, a first groove and a second groove are formed in the lower surface of the lower protection pad, the first groove and the second groove are both inlaid and attached with the shock absorption protection pad, the upper surface of the lower protection pad is tightly attached to one surface of a high-molecular shock absorption protection pad, and the other surface of the high-molecular shock absorption protection pad is tightly attached to the upper protection pad; the polymer shock absorption and protection pad comprises an organic silicon modified polymer material and solvent-free nanometer intelligent energy absorption gel; the organic silicon modified high polymer material is mixed and connected with the solvent-free nanometer intelligent energy-absorbing gel; the macromolecule shock absorption protective pad enables most external force to be converted into heat through the movement of a molecular chain which is specially designed when impact external force acts on the macromolecule shock absorption protective pad, and partial external force is converted into heat through a micro-phase area and a two-phase interface, more than 90% of energy of the impact external force is converted and diffused into the environment, and people or objects are protected from being damaged.

Description

Efficient energy-absorbing shock-absorbing insole

Technical Field

The utility model relates to an insole technical field, in particular to are a high-efficient energy-absorbing shock attenuation shoe-pad.

Background

Along with the continuous improvement of the living standard of people, the pursuit of people on the comfort, the aesthetic property and the practicability of living necessities is more and more obvious, wherein, the requirements of people on the comfort and the practicability of the insoles are particularly strict. The insole has a large influence on the comfort of the shoe, when people walk or do sports, the impact force of the ground to the foot can reach 3-8 times of the weight, the existing solution is to place the insole inside the shoe, when people walk by wearing the shoe, the insole is positioned between the foot and the sole, the comfort of the foot can be increased, and meanwhile, the impact force of the ground to the foot is reduced. However, the existing insoles have poor elasticity and shock absorption capacity, and have poor buffering and supporting effects when in use, thus not playing a good role in buffering, shock absorption and protection. To wearing the poor shoe-pad of shock attenuation performance and wear-resisting for a long time, especially the personnel of frequent motion, it is great to the healthy influence of foot, and long-time walking causes the musculoskeletal injury of foot easily, also causes the wearing and tearing of shoe-pad easily, consequently, the shoe-pad not only needs to have functions such as better perspire and breathing freely, still needs to have fungi-proofing, shock attenuation, wear-resisting function, and the shock attenuation shoe-pad that has good shock attenuation effect is the problem that needs to solve urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the background art provided, a high-efficient energy-absorbing shock attenuation shoe-pad is provided.

The utility model discloses a solve technical problem and adopt following technical means:

by adopting the macromolecule shock absorption protective pad, when an impact external force acts on the macromolecule shock absorption protective pad, most of the external force can be converted into heat through the motion of a molecular chain which is specially designed, and part of the external force is converted into heat through a micro-phase area and a two-phase interface, more than 90% of energy of the impact external force is converted and diffused into the environment, so that people or objects are protected from being damaged;

the skin-friendly memory sponge is combined with the human engineering design, so that the sole of a user can be instantly attached after being worn, the overall comfort level and balance feeling are increased, and the articular cartilage and other body tissues can be effectively protected;

the antibacterial and sweat-resistant breathable mesh cloth is adopted, so that the mesh cloth can keep dry and comfortable while absorbing sweat, prevents peculiar smell and can effectively resist bacteria.

The utility model provides a high-efficient energy-absorbing shock attenuation shoe-pad, include: the damping cushion comprises a main body, a high-molecular damping protective cushion and a damping protective cushion; the main body comprises an upper protection pad and a lower protection pad, a first groove is formed in a sole region in front of the lower surface of the lower protection pad, a second groove is formed in a sole region behind the lower surface of the lower protection pad, the first groove and the second groove are both inlaid and attached with a shock absorption protection pad, the upper surface of the lower protection pad is tightly attached to one surface of a high-molecular shock absorption protection pad, and the other surface of the high-molecular shock absorption protection pad is tightly attached to the lower surface of the upper protection pad;

the high-efficiency energy-absorbing shock-absorbing insole also comprises a skin-friendly memory sponge cushion; the lower surface of the skin-friendly memory sponge mat is tightly attached to the upper surface of the upper protection mat;

the efficient energy-absorbing shock-absorbing insole also comprises an antibacterial sweat-resistant breathable mesh fabric; the antibacterial sweat-resistant breathable mesh cloth is tightly attached to the upper surface of the skin-friendly memory sponge pad;

the lower surface of the lower protection pad is provided with a plurality of small bosses which are polygonal.

Furthermore, the end face of the shock absorption protection pad embedded in the first groove and the second groove is flush with the end face of the small boss of the lower protection pad.

Furthermore, the efficient energy-absorbing and shock-absorbing insole is characterized in that the front sole area and the rear sole area of the lower protection pad are respectively provided with a plurality of through holes which are sequentially arranged.

Furthermore, the outer surface of the shock absorption protection pad is provided with wave stripes.

Furthermore, the thickness of the high-efficiency energy-absorbing shock-absorbing insole gradually increases along the direction from the front sole area to the rear sole area.

The utility model provides a high-efficient energy-absorbing shock attenuation shoe-pad has following beneficial effect: by adopting the macromolecule damping protective pad, when impact external force acts on the macromolecule damping protective pad, most external force can be converted into heat through the motion of a specially designed molecular chain, and part of external force is converted into heat through a micro-phase area and a two-phase interface, so that more than 90% of energy of the impact external force is converted and diffused into the environment, and people or objects are protected from being damaged;

the antibacterial and sweat-resistant breathable mesh cloth is adopted, so that the breathable mesh cloth can keep dry and comfortable while absorbing sweat, prevent peculiar smell and effectively resist bacteria.

Drawings

FIG. 1 is an overall structure diagram of the high-efficiency energy-absorbing shock-absorbing insole of the utility model;

FIG. 2 is an overall structure view of the high-efficiency energy-absorbing shock-absorbing insole of the utility model;

FIG. 3 is a partial structure view of the high-efficiency energy-absorbing shock-absorbing insole of the present invention;

FIG. 4 is a sectional view of the structure of the high-efficiency energy-absorbing shock-absorbing insole;

in the figure: the main part 1, the protection pad 2 of polymer shock attenuation, shock attenuation protection pad 3, close skin memory foam pad 4, antibiotic anti-sweat ventilative screen cloth 5, go up protection pad 101, lower protection pad 102, through-hole 1021, little boss 1022, wave stripe 301.

The purpose of the present invention is to provide a method for realizing the functions of the present invention.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

Referring to the attached drawings 1-4, the overall structure and the structural section of the high-efficiency energy-absorbing shock-absorbing insole in an embodiment of the present invention are shown.

An efficient energy-absorbing shock-absorbing insole comprising: the damping protection pad comprises a main body 1, a polymer damping protection pad 2 and a damping protection pad 3; the main body 1 comprises an upper protection pad 101 and a lower protection pad 102, a first groove is formed in the front sole area of the lower surface of the lower protection pad 102, a second groove is formed in the rear sole area of the lower surface of the lower protection pad 102, the first groove and the second groove are both inlaid and attached with a shock absorption protection pad 3, the upper surface of the lower protection pad 102 is tightly attached to one surface of a polymer shock absorption protection pad 2, and the other surface of the polymer shock absorption protection pad 2 is tightly attached to the lower surface of the upper protection pad 101;

the polymer shock absorption and protection pad 2 comprises an organic silicon modified polymer material and solvent-free nanometer intelligent energy absorption gel; the organic silicon modified high polymer material is mixed and connected with the solvent-free nanometer intelligent energy-absorbing gel;

wherein: the first groove and the second groove are both embedded and jointed with a shock absorption protection pad 3, the shock absorption protection pad 3 has the shock absorption function in the first step, the upper surface of the lower protection pad 102 is closely jointed with one surface of the macromolecule shock absorption protection pad 2, and the other surface of the macromolecule shock absorption protection pad 2 is closely jointed with the lower surface of the upper protection pad 101;

the polymer damping and protecting pad 2 comprises organic silicon modified polymer material and solvent-free nanometer intelligent energy-absorbing gel; the organic silicon modified high polymer material is mixed and connected with the solvent-free nanometer intelligent energy absorption gel, and the high polymer shock absorption protective pad 2 plays a role in converting impact force into internal energy;

the high-efficiency energy-absorbing shock-absorbing insole also comprises a skin-friendly memory sponge cushion 4; the lower surface of the skin-friendly memory spongy cushion 4 is closely attached to the upper surface of the upper protection pad 101, and the skin-friendly memory spongy cushion 4 has the functions of memorizing and adjusting the shape by combining the design of human engineering;

the high-efficiency energy-absorbing shock-absorbing insole also comprises an antibacterial sweat-resistant breathable mesh fabric 5; the antibacterial and sweat-resistant breathable mesh fabric 5 is tightly attached to the upper surface of the skin-friendly memory sponge pad 4, and the antibacterial and sweat-resistant breathable mesh fabric 5 plays a role in preventing peculiar smell and resisting bacteria;

the lower surface of the lower protection pad 102 is provided with a plurality of small bosses 1022, the small bosses 1022 are polygonal, the outer surface of the shock absorption protection pad 3 is provided with the wave stripes 301, and the small bosses 1022 and the wave stripes 301 play a role in increasing friction force; the end surfaces of the shock absorption protection pad 3 embedded in the first groove and the second groove are flush with the end surface of the small boss 1022 of the lower protection pad 102, the shock absorption protection pad 3 is flush with the end surface of the small boss 1022 of the lower protection pad 102, foot discomfort cannot be caused after the use of the insole, a plurality of through holes 1021 are sequentially arranged in the front sole area and the rear sole area of the lower protection pad 102, and the through holes 1021 play a role in heat dissipation and ventilation; the thickness of the high-efficiency energy-absorbing shock-absorbing insole is gradually increased along the direction from the front sole area to the rear sole area.

When the efficient energy-absorbing shock-absorbing insole is put on a user, the insole can be instantly attached to the sole of the user according to the bending amplitude of the sole of the user through the memory and shape adjusting functions of the skin-friendly memory sponge, when the wearer walks, the center of gravity falls on the shock-absorbing protection pad 3 at the front sole and the rear sole, the end surfaces of the shock-absorbing protection pad 3 embedded in the first groove and the second groove are flush with the end surface of the small boss 1022 of the lower protection pad 102, and therefore the wearer cannot feel uncomfortable at the sole of the foot when using the efficient energy-absorbing shock-absorbing insole and cannot have primary shock-absorbing effect when walking or moving; when an impact external force acts on the polymer shock absorption protection pad 2, the multi-layer material structure of the polymer shock absorption protection pad 2 enables the material to well dissipate impact energy in a molecule chain segment, a micro-phase region and a two-phase interface, most of the external force is converted into heat through the motion of a specially designed molecular chain, part of the external force is converted into heat through the micro-phase region and the two-phase interface, more than 90% of the energy of the impact external force is converted and diffused to the foot worn by an external environment machine, the ESPRO polymer material has the properties of damping, energy absorption and shock absorption functions, the effects of protecting soft tissues, bones and other body tissues are achieved, and meanwhile the polymer shock absorption protection pad 2 can play a warm-keeping effect by converting the external impact force into the heat; the through holes 1021 make the heat dissipation and ventilation effect of the insole better; the small bosses 1022 on the lower surface of the lower protection pad 102 and the wave stripes 301 on the outer surface of the shock absorption protection pad 3 can increase the friction force between the high-efficiency energy-absorbing shock-absorbing insole and the shoes, so that the high-efficiency energy-absorbing shock-absorbing insole is prevented from sliding relatively after being placed in the shoes; the antibacterial and sweat-resistant breathable mesh fabric 5 can keep dry and comfortable while absorbing sweat, prevent peculiar smell and effectively resist bacteria.

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

Claims

1. An efficient energy-absorbing and shock-absorbing insole, comprising: the damping cushion comprises a main body, a high-molecular damping protective cushion and a damping protective cushion; the main body comprises an upper protection pad and a lower protection pad, a first groove is formed in a sole region in front of the lower surface of the lower protection pad, a second groove is formed in a sole region behind the lower surface of the lower protection pad, the first groove and the second groove are both embedded and attached with a shock absorption protection pad, the upper surface of the lower protection pad is tightly attached to one surface of a high-molecular shock absorption protection pad, and the other surface of the high-molecular shock absorption protection pad is tightly attached to the lower surface of the upper protection pad;

the high-efficiency energy-absorbing shock-absorbing insole also comprises a skin-friendly memory sponge cushion; the lower surface of the skin-friendly memory sponge pad is tightly attached to the upper surface of the upper protection pad;

2. The insole of claim 1, wherein the shock absorbing pad has an end surface that is flush with the end surface of the small projection of the lower pad after being embedded in the first and second grooves.

3. The insole of claim 1, wherein the front sole region and the rear sole region of the lower pad are provided with a plurality of through holes arranged in sequence.

4. The insole of claim 1, wherein the outer surface of said pad is provided with wave stripes.

5. The insole of claim 1, wherein the insole has a thickness that increases gradually from the front sole region to the rear sole region.