CN212678502U - Honeycomb decompression type sole - Google Patents

Abstract

The utility model relates to a sole technical field, concretely relates to sole of honeycomb decompression type, its characterized in that: including the insole, outsole and bradyseism plug-in components, the outsole up end is equipped with the upper cavity, the insole inlays and locates in the upper cavity, the terminal surface is equipped with down the cavity under the outsole, bradyseism plug-in components inlay and locate down in the cavity, insole upper surface equipartition has a plurality of buffer blocks that are honeycomb structure, be equipped with a plurality of main stress areas just to sole atress position on the insole, all the other regions of insole are inferior stress area, buffer block up end in the main stress area is inwards sunken and is formed with main buffering hole, buffer block up end in the inferior stress area is inwards sunken and is formed with inferior buffering hole, the degree of depth in main buffering hole is shallow in the degree of depth in inferior buffering hole. The utility model has the advantages that the whole structure is novel, and this sole can form a plurality of adequate positions, alleviates the impact force that the walking in-process brought for the foot, and better protection ankle lets the walking become more comfortable, wholly has good resilience force, and comfortable not tired foot is light whole day.

Description

Honeycomb decompression type sole

Technical Field

The utility model relates to a sole technical field, specificly relate to a sole of honeycomb decompression type.

Background

Leather shoes are formed by sewing, gluing or injection molding by using natural leather as a vamp and leather or rubber, plastic, PU foaming, PVC and the like as a sole. The leather shoes are breathable, moisture-absorbing and have good sanitary performance, and are the highest-grade shoes in various shoes and boots.

Leather shoes are used as important polite and even hard-regulated wearing articles necessary for business work, many business personnel often need to wear the leather shoes all day long and need to walk frequently, however, the existing leather shoes are uncomfortable and tired when being worn for a long time due to the fact that the soles of the existing leather shoes are large, large and hard and the wearing comfort is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an overall structure is novel, and this sole can form a plurality of adequate positions, alleviates the impact force that the walking in-process brought for the foot, and better protection ankle lets the walking become more comfortable, wholly has good resilience force, and comfortable not tired the foot, the sole of a honeycomb decompression type of light whole day.

In order to solve the technical problem, the utility model discloses a technical scheme as follows: the utility model provides a sole of honeycomb decompression type, including the insole, outsole and bradyseism plug-in components, the outsole up end is inwards sunken and is formed with the upper chamber, the insole is fixed to be inlayed and is located in the upper chamber, the terminal surface is inwards sunken and is formed with cavity down in rear side foot heel department under the outsole, bradyseism plug-in components are fixed to be inlayed and are located in the cavity down, insole upper surface equipartition has a plurality of buffer blocks that are honeycomb structure, be equipped with a plurality of main stress areas just to sole stress position on the insole, all the other regions of insole are inferior stress area, buffer block up end in the main stress area is inwards sunken and is formed with main buffering hole, buffer block up end in the inferior stress area is inwards sunken and is formed with inferior buffering hole, the degree of depth in main buffering hole is shallow in the degree of depth of inferior buffering hole.

Further, the aperture of the main buffer hole is smaller than that of the sub buffer hole.

Furthermore, the midsole, the outsole and the cushioning insert are integrally formed.

Further, the shock absorbing inserts are arcuate in shape.

Furthermore, the lower end surface of the outer bottom is uniformly provided with water ripple-shaped stopping chutes.

Furthermore, a plurality of bending grooves penetrating along the width direction of the outsole are formed in the lower end face of the outsole, and the bending grooves are sequentially arranged at intervals along the length direction of the outsole.

Further, the number of the bending grooves is 4.

Furthermore, the lower end surface of the outsole is provided with a main water guiding groove and a secondary water guiding groove which extend along the length direction of the outsole, the secondary water guiding grooves are multiple and are respectively arranged on two sides of the main water guiding groove, and the secondary water guiding grooves are positioned in the front sole area of the outsole.

Furthermore, a plurality of strip-shaped grooves are formed in the surfaces of the two sides of the outer sole along the length direction of the outer sole at intervals, and the strip-shaped grooves are arranged in a forward and upward inclined mode.

Furthermore, the front end of the outsole is in a wide round head shape.

According to the above description, the utility model provides a honeycomb decompression type sole overall structure is novel, through set up main buffer hole and secondary buffer hole in the insole, wholly be unique unsettled decompression insole design, formed sufficient buffering space in the insole inside, according to ergonomic, form a plurality of adequate positions, alleviate the impact force that brings for the foot in the walking process, better protection ankle, it is more comfortable to walk, wholly have good resilience force, comfortable not tired foot, light whole day; the degree of depth through the degree of depth with main cushion hole and the degree of depth of time cushion hole set to the different degree of depth, make the insole locate hard a bit relatively in main stress zone, and locate soft a bit relatively in time stress zone, thereby make the holistic hardness of insole be inconsistent, according to the distribution at sole atress position, carry out corresponding adjustment to the hardness in each region at the middle bottom, thereby provide better feel, make and put on the leather shoes back that has used this sole, this sole is after the pressurized, make this sole up end personally submit the wavy, can be better laminate mutually with the sole face, make feel smooth, whole soft and not collapse, play and not amazing, it is soft and the bullet all is just exactly, thereby give extremely to send comfortable wearing experience.

Drawings

Fig. 1 is a top view of a honeycomb pressure-reducing type sole of the present invention.

Fig. 2 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a schematic cross-sectional view taken along the direction B-B in fig. 1.

Fig. 4 is a left side view of the honeycomb pressure reducing type sole of the present invention.

Fig. 5 is a partially enlarged schematic view of C in fig. 3.

Fig. 6 is a bottom view of the honeycomb pressure reducing type sole of the present invention.

FIG. 7 is a schematic view of the structure of the outsole.

Fig. 8 is a schematic view of the compression state of the insole after the honeycomb pressure-reducing type sole is worn.

In the figure: 1-middle sole; 11-a buffer block; 12-a primary stress zone; 13-secondary stress zone; 14-a main buffer hole; 15-secondary buffer holes; 2-an outsole; 21-upper cavity; 22-lower cavity; 23-stopping the sliding groove; 24-bending grooves; 25-main water guiding tank; 26-secondary flume; 27-a strip-shaped groove; 3-a bradyseism insert; 4-placing the cavity.

Detailed Description

The present invention will be further described with reference to the following detailed description.

As shown in fig. 1 to 8, the honeycomb pressure reducing type shoe sole of the present invention comprises a middle sole 1, an outer sole 2 and a shock absorbing insert 3, wherein the upper end surface of the outer sole 2 is inwardly recessed and formed with an upper cavity 21, the middle sole 1 is fixedly embedded in the upper cavity 21, the lower end surface of the outer sole 2 is inwardly recessed at the rear heel and formed with a lower cavity 22, the shock absorbing insert 3 is fixedly embedded in the lower cavity 22, a plurality of buffer blocks 11 having a honeycomb structure are uniformly distributed on the upper surface of the middle sole 1, a plurality of main force bearing areas 12 facing the force bearing portion of the sole are arranged on the middle sole 1, the rest areas of the middle sole 1 are secondary force bearing areas 13, the upper end surfaces of the buffer blocks 11 in the main force bearing areas 12 are inwardly recessed and formed with main buffer holes 14, the upper end surfaces of the buffer blocks 11 in the secondary force bearing areas 13 are inwardly recessed and formed with secondary buffer holes 15, the depth of the primary buffer hole 14 is shallower than the depth of the secondary buffer hole 15.

The sole stress parts are respectively a rear heel part, a front sole part and a thumb part, namely, a plurality of main stress areas 12 respectively face the rear heel part, the front sole part and the thumb part.

Through be in 1 in the insole set up main buffer hole 14 with inferior buffer hole 15 wholly is the design of unique unsettled decompression insole 1, has formed sufficient buffering space in 1 inside in the insole, according to ergonomic, forms a plurality of adequate positions, alleviates the impact force that the walking in-process brought for the foot, and better protection ankle lets the walking become more comfortable, wholly has good resilience force, and is comfortable not tired the foot, light whole day.

The depth of the main buffer holes 14 and the depth of the secondary buffer holes 15 are set to be different depths, so that the whole hardness of the insole 1 is not consistent, the hardness of each region of the insole 1 is correspondingly adjusted according to the distribution of the stress parts of the sole, so that better foot feeling is provided, after a shoe using the sole is worn, as shown in figure 8, the direction from the front sole to the rear heel of the sole is from left to right, after the sole is pressed, the insole 1 is wavy and can be better attached to the sole surface, so that the foot feeling is smooth, the whole insole is soft without collapse, the sole is elastic without stimulation, the softness and the elasticity are just rigid, so that an extremely comfortable wearing experience is provided, in addition, the hardness of the sole can reach 35-39C, good softness and comfort can be achieved.

Preferably, the depth of the main buffer hole 14 is 1-2mm, and the depth of the sub buffer hole 15 is 2-4 mm.

Preferably, the aperture of the main cushion hole 14 is smaller than the aperture of the sub cushion hole 15, and the adjustment of the aperture of the main cushion hole 14 and the aperture of the sub cushion hole 15 can be matched to further adjust the hardness of each region of the midsole 1, of course, in other embodiments, the aperture of the main cushion hole 14 can also be set to be consistent with the aperture of the sub cushion hole 15, and preferably, the aperture of the main cushion hole 14 and the aperture of the sub cushion hole 15 are 4-6 mm.

As shown in fig. 3, insole 1 outsole 2 with bradyseism plug-in components 3 forms for integrated into one piece preparation, through insole 1 outsole 2 the three-layer bradyseism design of bradyseism plug-in components 3 effectively ensures soft, comfortable effect, and it is not tired to stand for a long time, in addition, shaping EVA, rubber or TPU can be chooseed for use to outsole 2 material, rubber can be chooseed for use to bradyseism plug-in components 3's material, insole 1 can adopt the material that has good resilience ability, makes the soft comfortable sole, and the bradyseism is kick-backed, provides comfortable feel, like high-elastic basofu.

As shown in fig. 3, the cushioning insert 3 is arch-shaped, and the cushioning insert 3 is skillfully combined with the outsole 2, so as to bring stronger shock absorption and cushioning performance and provide comfortable protection for the heel of a user, and in addition, the cushioning insert 3 can also serve as a function mark, and a trademark mark can be arranged on the lower end surface of the cushioning insert 3.

As shown in fig. 6, the lower end surface of the outsole 2 is uniformly provided with water-ripple-shaped anti-slip grooves 23, and the water-ripple sole design can effectively play a role in guiding water and preventing slip, so that the user can walk on the road with water and oil without worrying about the slipping of the sole and falling down carelessly.

As shown in fig. 6, the lower end surface of the outsole 2 is provided with a plurality of bending grooves 24 penetrating in the width direction thereof, the plurality of bending grooves 24 are sequentially arranged at intervals in the length direction of the outsole 2, preferably, the number of the bending grooves 24 is 4, and the lower end surface of the outsole 2 can be divided into 5 large structures by arranging the 4 bending grooves 24, so that the bending degree of the sole during walking can be better adapted, the bending is facilitated, the whole sole is more flexible, the comfort during walking is greatly improved, and the walking is free, furthermore, two bending grooves 24 are arranged at the front sole region of the outsole 2, the bending grooves 24 at the region are of a V-shaped structure, so that water can be conveniently discharged from the front side of the sole during water guiding, one bending groove 24 is arranged at the rear heel region of the outsole 2, and the bending groove 24 at the region is of an inverted V-shaped structure, when water is guided, water can be conveniently discharged from the rear side of the sole, one bending groove 24 is arranged in the area between the front sole and the rear heel of the outsole 2, and the bending groove 24 in the area is of a straight-line structure, so that water can be conveniently discharged from the two sides of the sole when water is guided.

As shown in fig. 6, the lower end surface of the outsole 2 is provided with a main water guiding groove 25 and a secondary water guiding groove 26 extending along the length direction thereof, the secondary water guiding grooves 26 are provided in a plurality and respectively provided at both sides of the main water guiding groove 25, the secondary water guiding grooves 26 are located at the front sole region of the outsole 2, and through the arrangement of the main water guiding groove 25 and the secondary water guiding grooves 26, when water is encountered, a rapid water guiding effect can be achieved, so that water is rapidly discharged from the lower end surface of the sole, and the anti-slip effect of the sole is further improved, preferably, the number of the secondary water guiding grooves 26 is 2, in addition, both ends of the secondary water guiding grooves 26 can respectively communicate with the corresponding bending grooves 24, the water guiding grooves 25 can communicate with 4 main bending grooves 24, the rear end of the main water guiding groove 25 can also communicate with the lower cavity 22, so that water can be guided by the bending grooves 24, further ensuring the rapid water guide effect.

As shown in fig. 4, a plurality of strip-shaped grooves 27 are arranged on the two side surfaces of the outsole 2 at intervals along the length direction of the outsole, the strip-shaped grooves 27 are arranged forwards and upwards in an inclined mode, and by adopting the structure, the flexibility of the sole is further improved, the sole is beneficial to bending, and walking is more free.

As shown in figure 1, in addition, the outsole 2 front end is wide button head form, through adopting this structure for the tip of this sole widens, and is loose round head structural design, and it does not influence the version type, can solve crowded foot problem simultaneously, does not hold back the foot, adaptable multiple foot type, including square foot type, greek foot type, roman foot type and Egypt foot type etc..

As shown in fig. 3, a placing cavity 4 for accommodating a shoe pad is further formed in the outsole 2 at the upper end of the midsole 1, so that the shoe pad can be conveniently placed, and the shoe pad can be more stably and tightly combined with the sole.

The aforesaid is only a plurality of concrete implementation manners of the utility model, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (10)

1. The utility model provides a sole of honeycomb decompression type which characterized in that: including insole, outsole and bradyseism plug-in components, the outsole up end is inwards sunken and is formed with the upper chamber, the insole is fixed to be inlayed and is located in the upper chamber, outer below terminal surface is inwards sunken and is formed with lower cavity with the department in rear side foot, bradyseism plug-in components are fixed to be inlayed and are located in the lower cavity, insole upper surface equipartition has a plurality of buffer blocks that are honeycomb structure, be equipped with a plurality of just main stress zones to sole atress position on the insole, all the other regions of insole are inferior stress zone, in the main stress zone the buffer block up end is inwards sunken and is formed with main buffering hole, in inferior stress zone the buffer block up end is inwards sunken and is formed with inferior buffering hole, the degree of depth in main buffering hole shallow in the degree of depth of inferior buffering hole.

2. A cellular, reduced-pressure shoe sole as claimed in claim 1, wherein: the aperture of the main buffer hole is smaller than that of the secondary buffer hole.

3. A cellular, reduced-pressure shoe sole as claimed in claim 1, wherein: the insole, the outsole and the cushioning insert are integrally formed.

4. A cellular, reduced-pressure shoe sole as claimed in claim 1, wherein: the cushioning insert is arch-shaped.

5. A cellular, reduced-pressure shoe sole as claimed in claim 1, wherein: the lower end surface of the outer bottom is uniformly provided with water ripple-shaped stopping chutes.

6. A cellular, reduced-pressure shoe sole as claimed in claim 1, wherein: the bottom end face of the outer sole is provided with a plurality of bending grooves penetrating along the width direction of the outer sole, and the bending grooves are sequentially arranged at intervals along the length direction of the outer sole.

7. A cellular decompression type sole according to claim 6, wherein: the number of the bending grooves is 4.

8. A cellular, reduced-pressure shoe sole as claimed in claim 1, wherein: the lower end face of the outsole is provided with a main water guiding groove and a plurality of secondary water guiding grooves, the main water guiding groove and the secondary water guiding grooves extend along the length direction of the outsole, the secondary water guiding grooves are arranged on two sides of the main water guiding groove respectively, and the secondary water guiding grooves are located in a front sole area of the outsole.

9. A cellular, reduced-pressure shoe sole as claimed in claim 1, wherein: the outsole is characterized in that a plurality of strip-shaped grooves are formed in the two side surfaces of the outsole at intervals along the length direction of the outsole, and the strip-shaped grooves are arranged forwards and obliquely upwards.

10. A cellular, reduced-pressure shoe sole as claimed in claim 1, wherein: the front end of the outsole is in a wide round head shape.

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