CN216493750U - Soft sports shoes of graphite alkene macromolecular composite - Google Patents

Abstract

The utility model relates to the technical field of shoes, in particular to a graphene polymer composite soft sports shoe which comprises a sole and a vamp, wherein the sole is sequentially provided with an inner bottom, an insole and an outsole from top to bottom, the edge of the outsole is provided with a supporting lug, a first anti-skidding lug and a second anti-skidding lug, a drain hole is formed in the inner bottom, a drain groove is formed in the insole, the drain groove and the drain hole are connected through a T-shaped channel, the channel in the horizontal direction of the T-shaped channel is communicated with the drain hole, the side wall of the channel in the vertical direction of the T-shaped channel is communicated with the drain groove, a check block for opening or closing the drain groove is arranged in the T-shaped channel, a reset spring is arranged at the bottom of the check block, and the reset spring is fixed at the bottom of the T-shaped channel. When having ponding in the shoes, can discharge ponding through the wash port, set up the dog at T type passageway, the sealed pad is established to the cover on the dog, prevents that the outside water of shoes from getting into in the shoes, and first non-slip convex block and second non-slip convex block can prevent to sideslip.

Description

Soft sports shoes of graphite alkene macromolecular composite

Technical Field

The utility model relates to the technical field of shoes, in particular to a graphene polymer composite soft sports shoe.

Background

The shoes are necessary for people to live, and are various in types and styles. The sole is as the part of direct and ground contact on the shoes, its comfort level that can direct influence people's walking, in outdoor activities, often can touch like rainy day such bad weather, the drainage performance of current shoes is relatively poor, the drainage effect is not ideal enough, cause easy ponding in the shoes, present shoes can't discharge ponding to the external world fast, not only can cause the harm to shoes itself, can reduce the life of shoes widely, and can lead to the people to wear very uncomfortable moreover. Therefore, innovative improvements are needed to address the above problems. Inside the back of intaking of shoes, need take off shoes and fall water, it is inconvenient inadequately, secondly, the antiskid after the meeting of sole is wet and the support nature and the comfort level of shoes dress are especially important, traditional shoes sole of wading water is for ordinary sole to the antiskid and support the promotion in the aspect of, but the effect of promotion is still not ideal, simultaneously, the sole is not soft enough, the comfort level of dress is not good, exists the modified space.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical defect of poor drainage performance in the prior art, the utility model provides a graphene polymer composite soft sneaker, which comprises a sole, the sole is sequentially provided with an inner sole, an inner sole and an outer sole from top to bottom, the edge of the outer sole is provided with a supporting lug, a first anti-skid lug corresponding to the sole position and a second anti-skid lug corresponding to the heel position, the inner sole is provided with a drain hole, the inner sole is provided with a drain groove, the drain groove and the drain hole are connected through a T-shaped channel, the channel in the horizontal direction of the T-shaped channel is communicated with the drain hole, the side wall of the channel in the vertical direction of the T-shaped channel is communicated with the drain groove, the T-shaped channel is internally provided with a stop block for opening or closing the drainage channel, the bottom of the stop block is provided with a return spring, and the other end of the return spring is fixed at the bottom of the channel in the vertical direction of the T-shaped channel.

Furthermore, the outsole is made of a graphene composite material.

Furthermore, the insole is made of a polyurethane composite material.

Furthermore, the dog is cylindrical structure, the side cover of dog is equipped with sealed the pad, sealed pad and the inner wall laminating of T type passageway.

Furthermore, the number of the supporting convex blocks is multiple, the supporting convex blocks surround to form an annular structure, and a groove is formed between every two adjacent supporting convex blocks.

Furthermore, the supporting lug is provided with a blind hole.

Furthermore, second anti-skidding lug is sunken backward type structure, second anti-skidding lug includes supporting part and antiskid, the height of supporting part is the same with the supporting lug, the quantity of second anti-skidding lug is a plurality of and align to grid in the position that the heel corresponds.

Furthermore, the size of the second anti-skid bump is increased from front to back in sequence.

Furthermore, the first anti-skid lugs are of a concave-forward character type structure, and the shape of the first anti-skid lugs is the same as that of the second anti-skid lugs.

Furthermore, the size of the first anti-skid bump is sequentially increased and then decreased from front to back.

In conclusion, the beneficial effects of the utility model are as follows: when water is accumulated in the shoes, the accumulated water can be discharged through the drain holes, the stop block is arranged on the T-shaped channel, and the sealing gasket is sleeved on the stop block, so that the water outside the shoes can be prevented from entering the shoes. The inner bottom is made of a polyurethane composite material, and the polyurethane composite material is low in density, soft in texture, comfortable and light to wear and good in foot feel. Set up the first anti-skidding lug and the second anti-skidding lug of type of calligraphy structure in the bottom surface of outsole, increased the non-skid property of sole, prevent that shoes from sideslipping, the outsole adopts graphite alkene combined material, has increased the wear resistance of sole, and then has improved the life of sole.

Drawings

Fig. 1 is a schematic structural diagram of a graphene polymer composite flexible sports shoe of the present invention.

Fig. 2 is a schematic structural diagram of a sole of a soft sneaker made of graphene polymer composite material according to the present invention.

Fig. 3 is a bottom view of the graphene polymer composite flexible sports shoe of the present invention.

Fig. 4 is a sectional view of the sole of the soft sneaker made of graphene polymer composite material according to the present invention.

Description of reference numerals:

1. an insole; 101. a drain hole; 2. a middle sole; 201. a water discharge tank; 202. a T-shaped channel; 203. a stopper; 204. a return spring; 205. a gasket; 3. a outsole; 301. supporting the projection; 302. blind holes; 303. a groove; 304. a first anti-skid bump; 305. a second anti-skid bump; 3051. a support portion; 3052. an anti-slip portion; 4. an upper.

Detailed Description

The utility model will be further described with reference to the accompanying drawings in which:

in the present invention, the direction extending from the heel to the toe of the sole is the forward direction, and the opposite direction is the rearward direction.

As shown in fig. 1 to 4, the utility model provides a graphene polymer composite soft sports shoe, which comprises a sole, wherein the sole is sequentially provided with an insole 1, a midsole 2 and an outsole 3 from top to bottom, the insole 1 is in contact with a foot, the outsole 3 is in contact with the ground, and a vamp 4 is fixed on the edge of the insole 1.

In this embodiment, the insole is made of a polyurethane composite material. The polyurethane composite material has low density, soft texture, comfortable and light wearing and good foot feel. The insole 1 is provided with a drain hole 101 for draining accumulated water inside the shoe.

In this embodiment, a drainage groove 201 is disposed on the midsole 2, the drainage groove 201 is connected to the drainage hole 101 through a T-shaped channel 202, a channel in the horizontal direction of the T-shaped channel 202 is communicated with the drainage hole 101, a side wall of the channel in the vertical direction of the T-shaped channel 202 is communicated with the drainage groove 201, a stopper 203 for opening or closing the drainage groove 201 is disposed in the T-shaped channel 202, the stopper 203 is of a cylindrical structure, a sealing gasket 205 is sleeved on a side edge of the stopper 203, the sealing gasket 205 is attached to an inner wall of the T-shaped channel 202, a return spring 204 is disposed at the bottom of the stopper 203, and the other end of the return spring 204 is fixed at the bottom of the channel in the vertical direction of the T-shaped channel 202. The stop block 203 is in a balanced state under the action of gravity and the return spring 204, when water is accumulated above the stop block 203, the stop block 203 moves downwards to open the drainage groove 201, the accumulated water edge can be drained from the drainage groove 201, and then the stop block 203 returns to the initial position under the action of the return spring 204 to prevent water outside the shoe from entering the shoe.

In this embodiment, the outsole 3 is made of a graphene composite material, and the bottom surface of the outsole 3 is provided with a supporting bump 301, a first anti-slip bump 304, and a second anti-slip bump 305. The number of the supporting lugs 301 is multiple, the supporting lugs 301 are surrounded into an annular structure and play a main supporting role, a groove 303 is arranged between every two adjacent supporting lugs 301, the ground gripping force of the sole can be increased, the anti-skid function is achieved, and the shock absorption effect of the supporting lugs 301 can be increased due to the fact that the blind holes 302 are formed in the supporting lugs 301; the second anti-skid bumps 305 correspond to the heel in position, the second anti-skid bumps 305 are of a concave-backward-concave structure, each second anti-skid bump 305 comprises a support part 3051 and an anti-skid part 3052, the height of each support part 3051 is the same as that of each support bump 301, the two second anti-skid bumps 305 are uniformly arranged at the positions corresponding to the heels, and the sizes of the second anti-skid bumps 305 are sequentially increased from front to back; the first anti-slip bumps 304 correspond to the sole of a foot, the first anti-slip bumps 304 are of a concave-forward structure, the shape of the first anti-slip bumps 304 is the same as that of the second anti-slip bumps 305, the number of the first anti-slip bumps 304 is six, the first anti-slip bumps 304 are uniformly arranged at the corresponding positions of the sole of the foot, in other embodiments, the number of the first anti-slip bumps 304 and the number of the second anti-slip bumps 305 are set as required, and the size of the first anti-slip bumps 304 is sequentially increased from front to back and then decreased. The first anti-slip projection 304 and the second anti-slip projection 305 are provided on the bottom surface of the outsole 3, and not only can be anti-slip in the front-rear direction, but also can be prevented from sliding sideways.

In the above embodiment, the insole is made of a polyurethane composite material. The polyurethane composite material has low density, soft texture, comfortable and light wearing and good foot feel. Be equipped with wash port 101 on insole 1, when having ponding in the shoes, under the effect of ponding gravity, the dog 203 moves down and opens water drainage tank 201, and the ponding limit can be followed water drainage tank 201 and discharged, and dog 203 resumes initial position again under the effect of reset spring 204 after that, prevents that the outside water of shoes from getting into in the shoes. The first anti-slip bumps 304 and the second anti-slip bumps 305 of the concave-character-shaped structures are arranged on the bottom surface of the outsole 3, so that the anti-slip performance of the sole is improved, and the outsole 3 is made of graphene composite materials, so that the service life of the sole is prolonged.

While the foregoing embodiments have shown and described the fundamental principles and principal features of the utility model and its advantages, it will be understood by those skilled in the art that the utility model is not limited thereto, and that the foregoing embodiments and descriptions are provided only for the purpose of illustrating the principles of the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides a gentle soft sports shoes of graphite alkene macromolecular composite, includes the sole, its characterized in that, the sole is from last insole, insole and the big end down in proper order, the edge of big end is equipped with the support lug, the first anti-skidding lug that corresponds with the sole position and the second anti-skidding lug that corresponds with the heel position, be equipped with the wash port on the insole, be equipped with water drainage tank on the insole, water drainage tank and wash port pass through T type access connection, the passageway and the wash port intercommunication of the horizontal direction of T type passageway, the lateral wall and the water drainage tank intercommunication of the passageway of the vertical direction of T type passageway, be equipped with the dog that is used for opening or closed water drainage tank in the T type passageway, the dog bottom is equipped with reset spring, reset spring's the other end is fixed in the bottom of the passageway of the vertical direction of T type passageway.

2. The graphene polymer composite flexible sports shoe according to claim 1, wherein the outsole is made of graphene composite.

3. The graphene polymer composite flexible sports shoe according to claim 1, wherein the insole is made of a polyurethane composite material.

4. The graphene polymer composite flexible sports shoe according to claim 1, wherein the stopper is of a cylindrical structure, a sealing gasket is sleeved on a side edge of the stopper, and the sealing gasket is attached to the inner wall of the T-shaped channel.

5. The graphene polymer composite flexible sports shoe according to claim 1, wherein the number of the supporting protrusions is multiple, the supporting protrusions form a ring structure, and a groove is formed between two adjacent supporting protrusions.

6. The graphene polymer composite flexible sports shoe according to claim 1, wherein the support protrusion is provided with a blind hole.

7. The graphene polymer composite flexible sports shoe according to claim 1, wherein the second anti-slip bumps are of a concave-backward-concave structure, each second anti-slip bump comprises a supporting portion and an anti-slip portion, the height of each supporting portion is the same as that of each supporting bump, and the second anti-slip bumps are arranged at positions corresponding to heels uniformly.

8. The graphene polymer composite flexible sports shoe according to claim 7, wherein the size of the second anti-slip bump increases from front to back.

9. The graphene polymer composite flexible sports shoe according to claim 1, wherein the first anti-slip bumps are of a concave-forward structure, and the shape of the first anti-slip bumps is the same as that of the second anti-slip bumps.

10. The graphene polymer composite flexible sports shoe according to claim 9, wherein the first anti-slip bumps are sequentially increased and then decreased in size from front to back.

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