CN220442043U - Shock-absorbing casual shoes - Google Patents

Abstract

The utility model relates to the field of leisure shoes, and provides a shock-absorbing leisure shoe, which comprises a midsole and an outsole, wherein the outsole is connected with the midsole, and a plurality of shock-absorbing blocks are arranged on the surface of the midsole facing the outsole; the outsole is provided with a plurality of penetrating holes in a penetrating mode, the penetrating holes correspond to the shock absorption blocks one by one, the penetrating holes are used for the shock absorption blocks to penetrate through, the side walls of the shock absorption blocks are abutted to the hole walls of the penetrating holes, and the length of the shock absorption blocks is larger than that of the penetrating holes; the damping block is made of EVA material, and the outsole is made of rubber. The leisure shoes have the effect that the leisure shoes have certain protection effect on the knee joints and the ankle joints of the wearer.

Description

Shock-absorbing casual shoes

Technical Field

The application relates to the field of casual shoes, in particular to a shock-absorbing casual shoe.

Background

Functional casual shoes are generally classified into shock-absorbing casual shoes and supporting casual shoes, the shock-absorbing casual shoes relieving impact force from the ground to the knee joint and focusing on protecting the knee joint; the support type leisure shoes have a certain supporting effect on the ankle and focus on protecting the ankle joint.

However, the sole of the shock-absorbing leisure shoes is generally softer, and the sole is thicker, which is insufficient in supporting performance, so that the leisure shoes are required to have certain protection effect on the knee joint and the ankle joint of the wearer while taking shock absorption and support into consideration.

Disclosure of Invention

In order to enable the casual shoes to have certain protection effects on knee joints and ankle joints of a wearer, the application provides the shock-absorbing casual shoes.

The utility model provides a shock attenuation playshoes adopts following technical scheme:

the shock-absorbing leisure shoe comprises a midsole and an outsole, wherein the outsole is connected with the midsole, and a plurality of shock-absorbing blocks are arranged on the surface of the midsole, which faces the outsole; the outsole is provided with a plurality of penetrating holes in a penetrating mode, the penetrating holes correspond to the shock absorption blocks one by one, the penetrating holes are used for the shock absorption blocks to penetrate through, the side walls of the shock absorption blocks are abutted to the hole walls of the penetrating holes, and the length of the shock absorption blocks is larger than that of the penetrating holes; the damping block is made of EVA material, and the outsole is made of rubber.

By adopting the technical scheme, when the sole of a wearer generates pressure to the ground in the walking or running process, the shock-absorbing block is firstly contacted with the ground and then compressed, the end part of the compressed shock-absorbing block moves towards the direction close to the midsole, friction is generated between the shock-absorbing block and the wall of the through hole in the moving process of the shock-absorbing block, and meanwhile, the shock-absorbing performance of the casual shoe is ensured in two aspects of mechanical shock absorption and material shock absorption by matching with EVA materials; in addition, after the snubber block is located the hole of wearing completely, the outsole of rubber material and ground contact play good supporting effect to compromise the shock-absorbing capacity and the supporting performance of playshoes, make the playshoes all have certain guard action to the knee joint and the ankle joint of wearer.

Optionally, the midsole is made of EVA material, and the shock absorption block and the midsole are integrally formed.

Through adopting above-mentioned technical scheme, the manufacturing of insole and snubber block of being convenient for on the one hand, on the other hand utilizes the insole to form good connection between a plurality of snubber blocks, and makes the insole have good shock-absorbing capacity, transmits the unit shock attenuation of snubber block to the whole shock attenuation of insole, further improves the shock-absorbing capacity of playshoes.

Optionally, the shock-absorbing blocks are respectively arranged in a front sole area and a rear sole area of the midsole.

Through adopting above-mentioned technical scheme, the front sole district and the back sole district of sole are sole and the main contact area on ground, only set up the snubber block in the front sole district and the back sole district of insole to compromise the manufacturing cost of sole and the integrality of big end.

Optionally, the snubber block for the midsole slope sets up, the snubber block with have the contained angle between the midsole, the contained angle orientation the arch of foot position department of midsole.

When the wearer walks, the rear sole falls to the ground, followed by the front sole. When the rear sole falls to the ground, the component force of the pressure of the ground against the rear sole of the sole is rearward, and when the front sole falls to the ground, the component force of the pressure of the ground against the front sole of the sole is forward. By adopting the technical scheme, the stability of the damping block sliding relative to the penetrating hole is improved, and the abrasion of the damping block is delayed.

Optionally, the midsole includes a first sole and a second sole, the first sole is used for being abutted by a front sole of a human body, and the second sole is used for being abutted by a rear sole of the human body; the end of the first bottom is abutted against the end of the second bottom.

Through adopting above-mentioned technical scheme, under the different circumstances of snubber block slope setting and inclination, divide into first end and second end with the insole, when connecting insole and outsole, connect first end and second end respectively in the outsole to make things convenient for the connection of insole and outsole.

Optionally, the snubber block is kept away from the tip of midsole is provided with the guard sheet, the snubber block is located the guard sheet is followed the projection of midsole thickness direction.

By adopting the technical scheme, on one hand, the contact area between the damping block and the ground is increased by using the protective sheet, so that the stability of the casual shoe is improved; on the other hand, the protection piece is utilized to play a certain shielding role on the gap between the damping block and the penetrating hole, so that the risk of entering the gap by external dust and the like is reduced.

Optionally, the distance between the lateral wall of protection piece with the axis of snubber block is from keeping away from the one end of midsole is to the other end increase gradually, the lateral wall of protection piece be used for with the big end butt.

Through adopting above-mentioned technical scheme, when the snubber block is compressed, the lateral wall of protection piece butt in the big end gradually, later along with the deformation of snubber block, the protection piece is towards the surface of big end butt in the big end gradually and with the friction production of big end to make the snubber block further improve the shock-absorbing capacity of playshoes when playing the guard action.

Optionally, an outer sidewall of the protective sheet is connected to the outsole.

Through adopting above-mentioned technical scheme, utilize the guard sheet to seal the snubber block with wear to establish the clearance between the hole, further reduce the risk that impurity such as dust got into the clearance, also avoid the rainwater to get into between big end and the midsole through the clearance simultaneously.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the damping block is arranged on the midsole, the penetrating hole which is used for the damping block to penetrate is formed in the outsole and has the length smaller than that of the damping block, the EVA material is used for manufacturing the damping block, and the rubber is used for manufacturing the outsole, so that the leisure shoes have good damping performance and supporting performance, and a certain protection effect is achieved on knee joints and ankle joints of a wearer;

2. the damping blocks and the midsole are integrally formed, so that the production of the midsole is facilitated, and the damping performance of the casual shoe is further improved;

3. through setting up the guard sheet in the one end that the shock-absorbing block kept away from the midsole, utilize the guard sheet to shelter from the clearance between shock-absorbing block and the wearing hole, reduce impurity such as dust and get into the risk in clearance.

Drawings

Fig. 1 is a schematic overall structure of embodiment 1 of the present application.

Fig. 2 is a schematic diagram for showing the structure of the damper block in embodiment 1.

Fig. 3 is a schematic structural view of embodiment 2 of the present application.

FIG. 4 is a schematic structural view of embodiment 3 of the present application

Reference numerals illustrate: 1. an upper; 2. a midsole; 21. a damper block; 22. a first base; 23. a second base; 24. a protective sheet; 3. a outsole; 31. and a hole is penetrated.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a shock-absorbing leisure shoe.

Example 1

Referring to fig. 1 and 2, a shock-absorbing leisure shoe includes an upper 1, a midsole 2, and an outsole 3, the midsole 2 is connected to the upper 1, the outsole 3 is connected to the midsole 2, and a plurality of shock-absorbing blocks 21 are provided on a surface of the midsole 2 facing the outsole 3. The outsole 3 is penetrated and is provided with a plurality of penetrating holes 31, the plurality of penetrating holes 31 are in one-to-one correspondence with the plurality of damping blocks 21, the penetrating holes 31 are used for the damping blocks 21 to penetrate, the side walls of the damping blocks 21 are abutted to the wall of the penetrating holes 31, and the length of the damping blocks 21 is larger than that of the penetrating holes 31. The shock-absorbing block 21 is made of EVA material, and the outsole 3 is made of rubber. When the foot of a wearer lands, the shock-absorbing block 21 made of EVA is compressed, the end part of the shock-absorbing block 21 far away from the midsole 2 moves towards the direction close to the midsole 2, and the side wall of the shock-absorbing block 21 rubs with the midsole 2, so that the casual shoe has good shock-absorbing performance; after the shock-absorbing block 21 is completely compressed to the penetrating hole 31, the outsole 3 made of rubber is in contact with the ground, so that a good supporting effect is achieved, shock-absorbing performance and supporting performance of the casual shoe are considered, and the casual shoe has a certain protection effect on knee joints and ankle joints.

The midsole 2 and the upper 1 may be connected by adhesion or sewing. The outsole 3 and the midsole 2 are connected in an adhesive manner.

The shock-absorbing block 21 and the midsole 2 may be connected by adhesion or integrally formed. In this embodiment, the midsole 2 is also made of EVA material, and the shock-absorbing block 21 is integrally formed with the midsole 2 to facilitate molding of the midsole 2; in addition, the midsole 2 establishes relatively stable connection among the plurality of shock-absorbing blocks 21, so that the unit shock absorption of the shock-absorbing blocks 21 is transmitted to the midsole 2 to form integral shock absorption, and the shock absorption performance of the midsole 2 is improved.

The damper block 21 is of a columnar structure, the cross-sectional shape of the damper block 21 is not limited in this application, and the damper block 21 in this embodiment is of a columnar structure, so that when a wearer performs actions such as turning, the damper block 21 can rotate, and is further smoothly compressed into the through hole 31.

Further, in order to achieve both the manufacturing cost and the integrity of the outsole 3, the plurality of shock-absorbing blocks 21 are provided separately in the front sole region and the rear sole region of the midsole 2.

Further, referring to fig. 2, the shock-absorbing block 21 is disposed obliquely with respect to the midsole 2, and an angle between the shock-absorbing block 21 and the midsole 2 is directed toward an arch position of the midsole 2. That is, in the forefoot region of midsole 2, the included angle is toward the rear sole region of midsole 2, and in the rear sole region of midsole 2, the included angle is toward the front sole region of midsole 2. In the process of falling the foot of the wearer, the rear sole falls on the ground firstly, and then the front sole is arranged. When the rear sole falls to the ground, the pressure of the ground against the sole has a backward component, and when the front sole falls to the ground, the pressure of the ground against the sole has a forward component, and the shock-absorbing block 21 is extended and arranged in the stress direction of the sole in the walking process, so that the shock-absorbing block 21 can be smoothly compressed into the penetrating hole 31.

Further, referring to fig. 2, the midsole 2 includes a first sole 22 and a second sole 23, the first sole 22 is used for abutting against a front sole of a human body, and the second sole 23 is used for abutting against a rear sole of the human body. The plurality of damper blocks 21 are provided separately on the first bottom 22 and the second bottom 23. That is, before the midsole 2 is coupled to the outsole 3, the first and second soles 22 and 23 are in an un-coupled state, so that the first and second soles 22 and 23 are coupled to the outsole 3, respectively, during the assembly process, so that the coupling of the midsole 2 to the outsole 3 is completed in a state in which the shock-absorbing block 21 is inclined.

When the first bottom 22 and the second bottom 23 are connected to the outsole 3, the end portions of the first bottom 22 and the second bottom 23 abut against each other. It will be appreciated that in other embodiments, other entities may be disposed between the midsole 2 and the outsole 3, and when the first sole 22 and the second sole 23 are both connected to the outsole 3, the ends of the first sole 22 and the second sole 23 respectively abut against the two ends of the entities.

The implementation principle of the embodiment 1 is as follows: when the casual shoes are manufactured, the first sole 22 and the second sole 23 are respectively adhered and fixed on the front sole area and the rear sole area of the outsole 3, and in the adhering process, the damping blocks 21 are aligned with the penetrating holes 31, so that the damping blocks 21 penetrate through the penetrating holes 31, and meanwhile, glue is not required to flow to the wall of the penetrating holes 31. Finally, the midsole 2 and the outsole 3 which are connected to the upper 1.

When the wearer walks with the casual shoes, the shock-absorbing blocks 21 are brought into contact with the ground at first and compressed into the through holes 31 by the pressure of the ground. During the process that the end part of the shock absorption block 21 far away from the midsole 2 moves towards the midsole 2, friction is generated between the shock absorption block 21 and the wall of the through hole 31, so that the casual shoe has good shock absorption performance. Meanwhile, when the shock-absorbing block 21 is completely compressed into the penetration hole 31, the outsole 3 made of rubber forms a good support for the wearer, so that the leisure shoes have a certain protection effect on both the knee joint and the ankle joint of the wearer.

Example 2

Referring to fig. 3, this embodiment is different from embodiment 1 in that the end of the damper block 21 remote from the midsole 2 is provided with a protection sheet 24, and the damper block 21 is located in the projection of the protection sheet 24 in the thickness direction of the midsole 2. That is, when the shock-absorbing block 21 is fully compressed into the through hole 31, the guard piece 24 abuts against the surface of the outsole 3 facing away from the midsole 2. Therefore, the gap between the damping block 21 and the wall of the through hole 31 is covered to a certain extent by the protective sheet 24, and the accumulation of foreign matters such as external dust and the like and the wind direction in the gap are reduced.

Further, the distance between the outer side wall of the guard piece 24 and the central axis of the damper block 21 gradually increases from one end away from the midsole 2 to the other end. When a wearer walks, the protection sheet 24 is firstly contacted with the ground, and is compressed along with the damping block 21, the surface of the protection sheet 24 facing the outsole 3 is abutted against the outsole 3 to generate friction with the outsole 3, so that the protection sheet 24 plays a protection role and simultaneously further improves the damping effect.

To ensure the wear resistance of the shield 24, the shield 24 is made of rubber.

Example 3

Referring to fig. 4, the difference between this embodiment and embodiment 2 is that the outer side wall of the protection sheet 24 is connected to the outsole 3, and the protection sheet 24 is fixed to the outsole 3 by bonding, so that the protection sheet 24 has a certain sealing effect on the gap between the damper block 21 and the hole wall of the through hole 31, and the risk that external dust, rainwater and the like enter between the midsole 2 and the outsole 3 through the gap is reduced.

In this embodiment, the protective sheet 24 is made of latex with good elasticity.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a shock attenuation playshoes which characterized in that: the novel shoe comprises a midsole (2) and an outsole (3), wherein the outsole (3) is connected to the midsole (2), and a plurality of shock absorption blocks (21) are arranged on the surface of the midsole (2) facing the outsole (3); the outsole (3) is provided with a plurality of penetrating holes (31) in a penetrating mode, the penetrating holes (31) are in one-to-one correspondence with the damping blocks (21), the penetrating holes (31) are used for enabling the damping blocks (21) to penetrate, the side walls of the damping blocks (21) are abutted to the hole walls of the penetrating holes (31), and the length of the damping blocks (21) is larger than that of the penetrating holes (31); the damping block (21) is made of EVA material, and the outsole (3) is made of rubber.

2. A shock absorbing leisure shoe as claimed in claim 1, wherein: the midsole (2) is made of EVA materials, and the shock absorption block (21) and the midsole (2) are integrally formed.

3. A shock absorbing leisure shoe as claimed in claim 2 wherein: the damping blocks (21) are respectively arranged in the front sole area and the rear sole area of the midsole (2).

4. A shock absorbing leisure shoe as claimed in claim 3 wherein: the shock-absorbing block (21) is obliquely arranged relative to the midsole (2), an included angle is formed between the shock-absorbing block (21) and the midsole (2), and the included angle faces to the arch position of the midsole (2).

5. The shock absorbing leisure shoe according to claim 4, wherein: the midsole (2) comprises a first sole (22) and a second sole (23), wherein the first sole (22) is used for being abutted by the front sole of a human body, and the second sole (23) is used for being abutted by the rear sole of the human body; the plurality of shock-absorbing blocks (21) are respectively arranged on the first bottom (22) and the second bottom (23).

6. A shock absorbing leisure shoe as claimed in claim 1, wherein: the end part of the shock absorption block (21) far away from the midsole (2) is provided with a protection sheet (24), and the shock absorption block (21) is positioned in the projection of the protection sheet (24) along the thickness direction of the midsole (2).

7. The shock absorbing leisure shoe according to claim 6, wherein: the distance between the outer side wall of the protective sheet (24) and the central axis of the shock absorption block (21) gradually increases from one end far away from the midsole (2) to the other end, and the outer side wall of the protective sheet (24) is used for being abutted with the outsole (3).

8. The shock absorbing leisure shoe according to claim 6, wherein: the outer side wall of the protective sheet (24) is connected with the outsole (3).