CN214047775U - Waterproof ventilative type carbon fiber sole - Google Patents

Abstract

The utility model discloses a waterproof ventilative type carbon fiber sole, including anti-skidding structure, connection structure and shoe-pad basic unit, multiunit connection structure is installed at anti-skidding structure's top, shoe-pad basic unit is installed at connection structure's top, and connection structure's top extends the inside that gets into shoe-pad basic unit, shockproof structure is installed at shoe-pad basic unit's top, ventilative layer is installed at shockproof structure's top, top layer shoe-pad is installed at ventilative layer's top. The utility model discloses an anti-skidding structure of installation can increase the roughness of sole, then can be so that the shoes that use this sole possess certain anti-skidding function, connection structure can be with the bottom anti-skidding structure demountable installation of sole to the inside of sole, can conveniently change wearing and tearing excessive anti-skidding structure, then can prolong the life of shoes to a certain extent, shockproof structure can reduce the vibrations sense that produces when the shoes that adopt this sole walk, then the whole travelling comfort of multiplicable shoes.

Description

Waterproof ventilative type carbon fiber sole

Technical Field

The utility model relates to a sole technical field belongs to a waterproof ventilative type carbon fiber sole.

Background

The carbon fiber is high-strength modulus fiber containing more than 90%, has the characteristics of high temperature resistance, friction resistance, electric conduction, heat conduction, corrosion resistance and the like, is fibrous in appearance, can be processed into various fabrics, can be used in the sole, can ensure the flexibility of the sole, can increase the support and stability of the sole, can not be excessively twisted when a user performs actions such as turning, jumping, running and the like to a greater degree, and can improve the protection of feet.

The existing device has the defects that:

1. most of the anti-skid layers arranged at the bottoms of the existing carbon fiber soles cannot be replaced, and some users can cause the soles to be worn too fast due to walking postures, so that the shoes can not be used any more, and the shoes are wasted;

2. most of the existing carbon fiber soles are not provided with shockproof structures or adopt uniform shockproof materials, the pressure borne by the soles from the soles is not even, the pressure borne by the bottoms of the heels is generally higher, and if the uniform shockproof structures are adopted in the whole soles, the shockproof effect is reduced after the soles are used for a period of time.

SUMMERY OF THE UTILITY MODEL

The purpose of the utility model is to provide a waterproof ventilative type carbon fiber sole to solve the problem mentioned in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a waterproof ventilative type carbon fiber sole, includes anti-skidding structure, connection structure and shoe-pad basic unit, multiunit connection structure is installed at anti-skidding structure's top, shoe-pad basic unit is installed at connection structure's top, and connection structure's top extends the inside that gets into shoe-pad basic unit, shockproof structure is installed at shoe-pad basic unit's top, ventilative layer is installed at shockproof structure's top, top layer shoe-pad is installed at ventilative layer's top.

Preferably, the anti-skid structure is internally provided with an anti-skid pad, the bottom of the anti-skid pad is provided with a plurality of large anti-skid parts, the bottom of the anti-skid pad is provided with a plurality of small anti-skid blocks, the mounting positions of the large anti-skid parts correspond to the heel and the thumb of the sole, and the mounting positions of the small anti-skid blocks correspond to other positions of the sole.

Preferably, the connecting structure is internally provided with a bottom block, two groups of vertical rubber blocks are arranged at the top of the bottom block, the top of each vertical rubber block is provided with an embedded block, the back of one group of embedded blocks is provided with a spring, and the back of the spring is attached to the front of the other group of embedded blocks.

Preferably, the shockproof structure is internally provided with a shockproof pad, the bottom of the shockproof pad is provided with a shockproof element, the bottom of the shockproof pad is provided with an elastic buffer bag, the installation position of the elastic buffer bag corresponds to the heel of the sole portion, the installation position of the shockproof element corresponds to other positions of the sole portion, and the front side and the rear side of the elastic buffer bag are provided with the embedded pieces.

Preferably, the inside of shoe-pad basic unit is provided with a plurality of semi-through grooves, and outer bordure is installed to the outer wall of shoe-pad basic unit.

Preferably, the internally mounted of ventilative layer has ventilative pad, and the inside of ventilative pad is provided with the circulation inner chamber, and a plurality of permeability cells are installed to the inner wall of circulation inner chamber, and the tail end of permeability cell runs through the inside of borduring outward, and the check valve is installed to the inner wall of permeability cell.

Preferably, the internally mounted of top layer shoe-pad has the screen cloth layer, and the carbon fiber layer is installed to the bottom on screen cloth layer, and the cotton-flax layer is installed to the bottom on carbon fiber layer, and the top on carbon fiber layer is provided with the gas pocket, and the inside on cotton-flax layer is run through to the bottom of gas pocket.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the anti-skid structure can increase the roughness of the sole through the anti-skid line part arranged in the anti-skid structure, so that the shoes using the sole have certain anti-skid function, when walking on snowy days or smoother roads, the sole is not easy to slip, can bring safety and more perfect experience to users, and the anti-skid structure can be detached from the whole inner part of the sole, some users can cause the bottom of the shoe to rub excessively when the shoe is used for a long time due to the walking posture, the shoe sole is uneven, so that the shoe can not be used any more, the device can detachably mount the anti-skid structure at the bottommost layer of the shoe sole to the inside of the shoe sole through the connecting structure, the anti-skid structure which is excessively worn can be conveniently replaced, and the service life of the shoe can be prolonged to a certain extent;

2. the utility model discloses an installation can reduce the vibrations that produce when the shoes that adopt this sole walk through shockproof structure and feel, then the whole travelling comfort of multiplicable shoes to this structure is used for the shockproof part of sole to step on the difference of stress point on the sole face according to the sole, and the shockproof part that sets up is also different, makes when the shoes that use this device walk, and each local can both have the shockproof part corresponding with it of sole, has increased the travelling comfort of whole shoes.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the anti-slip structure of the present invention;

fig. 3 is a schematic structural view of the connection structure of the present invention;

fig. 4 is a schematic view of the installation structure of the anti-slip structure and the connection structure of the present invention;

FIG. 5 is a schematic view of the installation structure of the ventilating layer and the top layer insole of the present invention;

fig. 6 is a schematic structural view of the top insole of the present invention.

In the figure: 1. an anti-slip structure; 101. a non-slip mat; 102. a small anti-skid block; 103. a large anti-slip member; 2. A connecting structure; 201. a bottom block; 202. a rubber vertical block; 203. a fitting block; 204. a spring; 3. a shoe pad base layer; 301. a semi-through slot; 302. wrapping the edges; 4. a shockproof structure; 401. a crash pad; 402. a shock-proof element; 403. an elastic buffer bag; 404. an engaging member; 5. a breathable layer; 501. a breathable cushion; 502. a flow-through lumen; 503. a gas permeable pipe; 6. a top layer insole; 601. a mesh layer; 602. a carbon fiber layer; 603. a cotton layer; 604. and (4) air holes.

Detailed Description

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides an embodiment: a waterproof and breathable carbon fiber sole comprises an anti-skid structure 1, a connecting structure 2 and an insole base layer 3, wherein a plurality of groups of connecting structures 2 are arranged at the top of the anti-skid structure 1, the anti-skid structure 1 can increase the roughness of the sole through anti-skid line parts arranged in the anti-skid structure 1, so that shoes using the sole have a certain anti-skid function, when the shoes are used in snowy days or on smooth road surfaces, the sole is not easy to slip, safety and more perfect experience can be brought to users, the anti-skid structure 1 can be detached from the inside of the whole sole, the bottom of the shoes can be excessively rubbed due to walking postures of some users when the shoes are used for a long time, the soles are uneven, and the shoes can not be used any more, the device can detachably install the anti-skid structure 1 at the bottom of the sole into the inside of the sole through the connecting structure 2, the anti-skidding structure 1 which is worn excessively can be replaced conveniently, the service life of a shoe can be prolonged to a certain extent, the insole base layer 3 is installed at the top of the connecting structure 2, the top of the connecting structure 2 extends into the insole base layer 3, the insole base layer 3 is the most basic part of the whole sole, other parts of the sole can be connected together through the insole base layer 3, the integrity of the device is ensured, the shockproof structure 4 is installed at the top of the insole base layer 3, the shock feeling generated when the shoe adopting the sole walks can be reduced through the shockproof structure 4, the whole comfort of the shoe can be increased, the shockproof parts of the sole used in the structure are different according to the stress points of the sole on the sole surface, the shockproof parts are different, and when the shoe using the device walks, the shockproof parts corresponding to the sole can be arranged at all places, increased the travelling comfort of whole shoes, ventilative layer 5 is installed at shockproof structure 4's top, top layer shoe-pad 6 is installed at ventilative layer 5's top, ventilative layer 5 is connected with the top layer shoe-pad 6 at top, step on when the top at top layer shoe-pad 6 when user's foot, the inside gas pocket 604 that sets up of accessible is to shoes inside gas that looses, make the inside of the gas admission ventilative layer 5 of scattering, then the inside permeability cell 503 that sets up of accessible is with gaseous toward discharging outward, then can accomplish the inside ventilative operation of sole, and ventilative layer 5 inside is provided with the check valve, when using this sole rainy day, can prevent that the rainwater from getting into shoes inside along permeability cell 503, then can realize waterproof function on ventilative basis.

Furthermore, the anti-skid structure 1 is internally provided with an anti-skid pad 101, the bottom of the anti-skid pad 101 is provided with a plurality of large anti-skid parts 103, the bottom of the anti-skid pad 101 is provided with a plurality of small anti-skid blocks 102, the mounting positions of the large anti-skid parts 103 correspond to the heel and the thumb of the sole, the mounting positions of the small anti-skid blocks 102 correspond to other positions of the sole, the anti-skid pad 101 enables the large anti-skid parts 103 and the small anti-skid blocks 102 to have mounting positions, the anti-skid structure 1 can be connected with the connecting structure 2 through the anti-skid structure, the anti-skid structure 1 can be conveniently mounted in the sole through the connecting structure 2, the large anti-skid parts 103 correspond to the positions with larger gravity on the thumb and the heel of the sole, the anti-skid parts are made of wear-resistant materials, the wear degree of the positions with larger gravity can be reduced, and the wear speed of the small anti-skid blocks 102 can be equal, so that the antiskid structure 1 can be used for a longer time, and the antiskid structure 1 cannot be used continuously due to the irregularity of the antiskid lines at the bottom of the antiskid structure.

Further, the connecting structure 2 is internally provided with a bottom block 201, the top of the bottom block 201 is provided with two groups of vertical rubber blocks 202, the top of each vertical rubber block 202 is provided with an embedded block 203, the back of one group of embedded blocks 203 is provided with a spring 204, the back of the spring 204 is attached to the front of the other group of embedded blocks 203, when the anti-skid structure 1 needs to be replaced, the two groups of vertical rubber blocks 202 can be clamped by external force, so that the two embedded blocks 203 entering the insole base layer 3 can be pressed and attached together, then the connecting structure 2 and the anti-skid structure 1 are pulled downwards by external force, so that the connecting structure 2 can be disconnected with the insole base layer 3, then a new connecting structure 2 and an anti-skid structure 1 can be replaced, the two embedded blocks 203 are extruded into the semi-through groove 301 by external force, the two embedded blocks 203 can be pushed towards opposite directions by the expansion force of the spring 204, so that the fitting blocks 203 are fitted to the inside of the through grooves 301, and the whole connecting structure 2 is not easily dropped from the bottom of the insole base layer 3.

Further, a shockproof pad 401 is arranged in the shockproof structure 4, a shockproof element 402 is arranged at the bottom of the shockproof pad 401, an elastic buffer bag 403 is arranged at the bottom of the shockproof pad 401, the installation position of the elastic buffer bag 403 corresponds to the heel of the sole, the installation position of the shockproof element 402 corresponds to other positions of the sole, embedding pieces 404 are arranged at the front side and the rear side of the elastic buffer bag 403, the shockproof pad 401 can connect other parts of the shockproof structure 4 together to form a complete structure, the shockproof element corresponds to a position with lower stress, the elastic buffer bag 403 corresponds to a position with larger stress of the insole, different shockproof parts can be adopted according to different stress sizes of the insole through the use of different shock absorption parts, the shockproof of the sole can be increased and more refined, the sole is more comfortable, the embedding pieces 404 can extend into the inner part of the outer wrapping edge 302, so that the two sides of the elastic buffer bag 403 are limited, and the elastic buffer bag cannot swing towards the two sides under the action of gravity, thereby affecting the shockproof effect.

Further, the inside of shoe-pad basic unit 3 is provided with a plurality of semi-through grooves 301, and outer bordure 302 is installed to the outer wall of shoe-pad basic unit 3, and the setting of semi-through groove 301 has made things convenient for connection structure 2's installation, and outer bordure 302 can wrap up other parts of shoe-pad for it can form the combination together, ensures the integrality of shoe-pad then.

Further, the internally mounted of ventilative layer 5 has ventilative pad 501, ventilative pad 501's inside is provided with circulation inner chamber 502, a plurality of permeability cells 503 are installed to the inner wall of circulation inner chamber 502, the tail end of permeability cell 503 runs through the inside of borduring 302 outward, the check valve is installed to the inner wall of permeability cell 503, ventilative pad 501 has made things convenient for the installation of other parts of this structure, and can set up circulation inner chamber 502 when the suppression of top atress in its inside, can let ventilative pad 501's top and the bottom laminating of cotton-flax layer 603, then can arrange the inside of circulation inner chamber 502 with the gas in the shoes through the inside gas pocket 604 that sets up of top layer shoe-pad 6, then accessible permeability cell 503 discharges gas toward the outside of sole, then can realize the ventilation function of sole.

Further, the internally mounted of top layer shoe-pad 6 has the guipure 601, carbon fiber layer 602 is installed to the bottom of guipure 601, cotton-flax layer 603 is installed to carbon fiber layer 602's bottom, carbon fiber layer 602's top is provided with gas pocket 604, and the inside of cotton-flax layer 603 is run through to the bottom of gas pocket 604, guipure 601 has increased the roughness of whole sole face, can prevent that the foot from gluing on the sole, and it itself has the gas permeability, can transmit gas to its bottom, carbon fiber layer 602 adopts is a one-way carbon fiber reinforced cloth product, it can be used to the reinforcement of structure, make the sole more compact durable, what cotton-flax layer 603 adopted is that cotton-flax cloth combination forms can effectually prevent the production of static, and have corrosion protection and bacterinertness, gas hole 604 can be to the inside gas that looses of shoes, make the gas that looses get into ventilative layer 5's inside.

The working principle is as follows: when a user uses the device, the roughness of the sole can be increased through the anti-skid line part arranged inside the anti-skid structure 1, so that the shoe using the sole has a certain anti-skid function, the safety and more perfect experience can be brought to the user, the anti-skid structure 1 can be detached from the inside of the whole sole, the device can detachably install the anti-skid structure 1 at the bottommost layer of the sole into the sole through the connecting structure 2, the anti-skid structure 1 which is worn excessively can be conveniently replaced, the service life of the shoe can be prolonged to a certain extent, when the user steps on the top of the top insole 6, the top of the circulation inner cavity 502 can be stressed and pressed, the top of the breathable pad 501 can be attached to the bottom of the cotton layer 603, and then the gas in the shoe can be discharged into the circulation inner cavity 502 through the gas hole 604 arranged inside the top insole 6, then accessible permeability cell 503 discharges gas toward the outside of sole, can realize the ventilation function of sole then, then can reduce the vibrations sense that produces when the shoes that adopt this sole walk through shockproof structure 4, then the whole travelling comfort of multiplicable shoes, and this structure is used for the shockproof part of sole to step on the difference of stress point on the sole face according to the sole, the shockproof part that sets up is also different, when making the shoes that use this device walk, each place of sole can both have the shockproof part corresponding with it, whole shoes's travelling comfort has been increased.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a waterproof ventilative type carbon fiber sole, includes antiskid structure (1), connection structure (2) and shoe-pad basic unit (3), its characterized in that: the anti-skidding shoe-pad is characterized in that a plurality of groups of connecting structures (2) are installed at the top of the anti-skidding structure (1), a shoe-pad base layer (3) is installed at the top of the connecting structures (2), the top of the connecting structures (2) extends into the inner portion of the shoe-pad base layer (3), a shockproof structure (4) is installed at the top of the shoe-pad base layer (3), a breathable layer (5) is installed at the top of the shockproof structure (4), and a top-layer shoe-pad (6) is installed at the top of the breathable layer (5).

2. The waterproof breathable carbon fiber shoe sole according to claim 1, wherein: the anti-skidding structure is characterized in that an anti-skidding pad (101) is arranged inside the anti-skidding structure (1), a plurality of large anti-skidding parts (103) are arranged at the bottom of the anti-skidding pad (101), a plurality of small anti-skidding blocks (102) are arranged at the bottom of the anti-skidding pad (101), the installation positions of the large anti-skidding parts (103) correspond to the heel and the thumb of the sole of a foot, and the installation positions of the small anti-skidding blocks (102) correspond to other positions of the sole of the foot.

3. The waterproof breathable carbon fiber shoe sole according to claim 1, wherein: the connecting structure is characterized in that a bottom block (201) is arranged inside the connecting structure (2), two groups of rubber vertical blocks (202) are arranged at the top of the bottom block (201), embedded blocks (203) are arranged at the top of the rubber vertical blocks (202), a spring (204) is arranged on the back surface of one group of embedded blocks (203), and the back surface of the spring (204) is attached to the front surface of the other group of embedded blocks (203).

4. The waterproof breathable carbon fiber shoe sole according to claim 1, wherein: the shock-proof structure (4) is internally provided with a shock-proof pad (401), the bottom of the shock-proof pad (401) is provided with a shock-proof element (402), the bottom of the shock-proof pad (401) is provided with an elastic buffer bag (403), the installation position of the elastic buffer bag (403) corresponds to the heel of the sole part, the installation position of the shock-proof element (402) corresponds to other positions of the sole part, and the front side and the rear side of the elastic buffer bag (403) are provided with embedded pieces (404).

5. The waterproof breathable carbon fiber shoe sole according to claim 1, wherein: the insole is characterized in that a plurality of semi-through grooves (301) are formed in the insole base layer (3), and outer wrapping edges (302) are arranged on the outer wall of the insole base layer (3).

6. The waterproof breathable carbon fiber shoe sole according to claim 1, wherein: the breathable floor is characterized in that a breathable pad (501) is arranged inside the breathable layer (5), a circulation inner cavity (502) is arranged inside the breathable pad (501), a plurality of breathable pipes (503) are arranged on the inner wall of the circulation inner cavity (502), the tail ends of the breathable pipes (503) penetrate through the inner part of the outer wrapping edge (302), and one-way valves are arranged on the inner wall of the breathable pipes (503).

7. The waterproof breathable carbon fiber shoe sole according to claim 1, wherein: the inside mounting of top layer shoe-pad (6) has tennis layer (601), and carbon fiber layer (602) are installed to the bottom of tennis layer (601), and cotton-flax layer (603) are installed to the bottom of carbon fiber layer (602), and the top of carbon fiber layer (602) is provided with gas pocket (604), and the inside on cotton-flax layer (603) is run through to the bottom of gas pocket (604).

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