CN216315938U - Cool and refreshing damping leisure shoes - Google Patents

Abstract

The utility model discloses a pair of cool and shock-absorbing leisure shoes, which belongs to the field of shoe materials and comprises a vamp and a sole, the convex block is connected with a push block which is connected with the sole in a sliding way, the push block is connected with a compression piece in a pushing way, a cavity which is used for accommodating the compression piece and the push block and is filled with liquid is arranged in the sole, the end of the cavity is communicated with a drainage channel for containing liquid flow, the sole is provided with a water storage bag communicated with the drainage channel at the sole, the utility model can remove the plug on the sole when a user wears the product to inject ice water into the cavity, when walking and treading the sole, the push block pushes the compression piece to compress the cavity, ice water in the cavity is pushed to flow into the water storage bag along the drainage channel, and the ice water flows into the return pipe from the water outlet and flows back to the cavity when lifting feet, therefore, the walking can repeatedly tread on the sole to enable ice water to circularly flow on the sole, so that the temperatures of the water storage bag and the sole are mutually transmitted, and the effect of cooling and radiating the inside of the shoe is continuously achieved.

Description

Cool and refreshing damping leisure shoes

Technical Field

The utility model discloses a shoe material, and particularly relates to a pair of cool and shock-absorbing leisure shoes.

Background

The leisure shoes are one kind of shoes, and the main characteristic is to satisfy the wearing demand of people in daily life with a simple and comfortable design idea. The concept, connotation and function of the casual shoe are closely related to the ideal and style of this new life. People can decorate and show themselves by means of the shape, the brand and the connotation of the leisure shoes, and obtain an aesthetic pleasure and symbolic spirit from the decoration and the exhibition of themselves.

When current playshoes used in summer, because of the weather is hot and walk or need wear shoes for a long time, because of shoes wrap up the inside sultry with the foot, and current meeting offer with the bleeder vent from this let the circulation of air reach heat dissipation ventilation effect at the sole, but in summer because of external gas also is hot all ventilative heat dissipations then the effect is lower, consequently proposes a new solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide a pair of cool and shock-absorbing leisure shoes.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a cool shock attenuation playshoes, includes vamp and sole, the sole is located heel department and is equipped with the compression piece, fixedly connected with lug under the compression piece, the lug butt joint have with sole sliding connection's ejector pad, the ejector pad butt joint has the compression piece, be equipped with the cavity that holds compression piece and ejector pad embedding and fill liquid in the sole, the conduction has the drainage channel who holds liquid flow on the cavity end, the sole is located sole department and is equipped with the water storage bag that switches on with drainage channel, the cavity articulates with the drainage channel junction has the first baffle of separation liquid backward flow, be equipped with the backward flow mechanism of liquid backward flow in the guide water storage bag in the sole.

By adopting the technical scheme, when a user wears the product to walk, the heel touches the ground firstly, the treading force belongs to instantaneous force, the compression block of the sole moves downwards and drives the lug on the compression block to move downwards and pushes the butted push block to push the push block to move along the sole, the push block pushes the compression piece to move towards two sides when the lug pushes the push block to move towards two sides, the compression piece pushes the compression piece to move towards the cavity in the sole, ice water rushes upwards to the top of the cavity due to the pushing of the compression piece filled with the ice water in the cavity, the compression piece continuously compresses to push the ice water to open the first baffle hinged with the sole, at the moment, the liquid enters the communicated drainage channel, the ice water flows into the water storage bag at the front sole of the sole along the drainage channel, and the baffle can only be opened along one end when the baffle is unidirectionally hinged and larger than the size of the connection part of the cavity and the drainage channel, when the front sole of the sole touches the ground, the water storage bag can be prevented from compressing ice water and flowing back into the cavity along the drainage channel, so that the ice water enters the water storage bag and contacts with the front sole, the heat at the front sole of the sole can be mutually transferred with the water storage bag, the sole can feel cool and can also have the effects of cooling and radiating, and when the sole continues to walk, the water in the cavity can continuously enter the water storage bag to achieve the effect of cooling the sole.

Preferably, the backflow mechanism comprises a water outlet communicated with the water storage bag and a backflow pipe communicated with the water outlet and used for containing liquid to flow, the backflow pipe is communicated with the cavity, and a second baffle for blocking liquid from entering the backflow pipe is hinged to the communication position of the backflow pipe and the cavity.

By adopting the technical scheme, when the shoe sole is walking, the heel of the shoe sole is firstly grounded, then the toe of the shoe sole is grounded, the water storage bag is inclined towards the toe when the shoe sole is lifted, ice water in the water storage bag flows into the return pipe along the water outlet hole at the toe of the foot and flows into the cavity along the return pipe, the ice water pushes the hinged second baffle plate to rotate towards the cavity, and the ice water flows into the cavity at the moment, so that the effect of enabling the ice water to circularly flow at the shoe sole can be continuously cooled in the shoe, and the second baffle plate is tightly attached to the return pipe under the condition of water pressure when the compression piece pushes the ice water in the cavity, so that the situation that the ice water cannot enter the drainage channel due to the fact that the ice water enters along the return pipe can be avoided.

Preferably, the side surface of the sole and the return pipe are provided with a plurality of radiating fins in a staggered manner.

By adopting the technical scheme, the temperature of the water storage bag at the sole and the temperature of the interior of the sole are mutually transferred, so that the ice water can be slowly heated, and when the ice water flows into the cavity along the return pipe, a plurality of radiating fins are arranged at the upper end of the return pipe and the return pipe in a staggered manner, so that gas can enter the return pipe to cool and radiate the ice water.

Preferably, the surfaces of the convex block, which are abutted against the push block, are all inclined surfaces.

Through adopting above-mentioned technical scheme, when the compression piece moves down and promotes lug and ejector pad butt when trampling the sole, because the face of mutual butt is that the lug can promote the ejector pad and make the ejector pad move to sole both sides along the inclined plane of ejector pad when the butt.

Preferably, springs are arranged between the compression block and the compression piece and between the compression piece and the sole.

Through adopting above-mentioned technical scheme, and move down at the compression piece then with the spring compression between compression piece and the sole can play the absorbing effect when the walking is beated from this, and also with the spring compression between compression piece and the sole when the compression piece moves to the cavity, and the spring then promotes the compression piece and resets with the compression piece when the pressure of trampling the sole disappears when lifting the foot, plays the circumstances that promotes the compression piece and the compression piece resets from this.

Preferably, a plug is detachably connected to the position, located at the heel, outside the sole.

By adopting the technical scheme, the plug of the sole positioned at the heel of the shoe is detached and the water in the cavity is not poured out after the temperature of the ice water in the sole slowly rises and the effect of heat dissipation and cooling of the sole is improved, so that the ice water can be poured into the sole again to continue cooling and cooling the sole.

Preferably, the contact surface of the water storage bag and the sole is made of rubber, and the sole is made of EVA material.

Through adopting above-mentioned technical scheme, rubber makes the sole soft when trampling, still can make the heat in the sole and the ice-cold stable mutual effectual transmission in the water storage bag, and the sole comprises synthetic EVA material, and synthetic EVA material has characteristics soft, that elasticity is good and resistant chemical attack for when improving the playshoes shock attenuation, can increase the life-span of sole.

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

when a user wears the product, the plug on the sole can be detached to inject ice water into the cavity, and when the user walks and treads the sole, the push block pushes the compression piece to compress the cavity, so that the ice water in the cavity is pushed to flow into the water storage bag along the drainage channel, and when the user lifts the foot, the ice water flows into the return pipe from the water outlet and flows back to the cavity, so that the ice water can circularly flow in the sole when the user walks and treads the sole repeatedly, the temperature of the water storage bag and the sole is mutually transferred, and the effect of temperature reduction and heat dissipation in the sole is continuously achieved.

Drawings

FIG. 1 is a schematic structural view of a cooling and shock-absorbing casual shoe;

FIG. 2 is a first cross-sectional view of a cooling, shock-absorbing casual shoe;

fig. 3 is a second sectional view of the cooling and shock-absorbing casual shoe.

Reference numerals: 1. a shoe upper; 2. a sole; 3. compressing the block; 4. a bump; 5. a push block; 6. a compression member; 7. a cavity; 8. a drainage channel; 9. a water storage bag; 10. a first baffle plate; 11. a water outlet hole; 12. a return pipe; 13. a second baffle; 14. a heat sink; 15. a spring; 16. and (4) a plug.

Detailed Description

In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "back", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only used for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the designated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A cooling and damping leisure shoe comprises a vamp 1 and a sole 2, wherein the sole 2 is provided with a compression block 3 at a heel, the compression block 3 is fixedly connected with a lug 4, the lug 4 is abutted with a push block 5 which is in sliding connection with the sole 2, the push block 5 is abutted with a compression piece 6, a cavity 7 which is used for accommodating the compression piece 6 and the push block 5 and is embedded and filled with liquid is arranged in the sole 2, a drainage channel 8 which is used for accommodating liquid to flow is communicated at the tail end of the cavity 7, a water storage bag 9 which is communicated with the drainage channel 8 is arranged at a sole position of the sole 2, a first baffle 10 which is used for blocking liquid backflow is hinged at the joint of the cavity 7 and the drainage channel 8, a backflow mechanism which is used for guiding the liquid in the water storage bag 9 to flow back is arranged in the sole 2, when a user wears the product to walk, the heel firstly lands due to the pedaling force, the compression block 3 of the sole 2 drives the lug 4 on the compression block 3 to move downwards and pushes the abutted push the push block 5 against the push block 5 to push downwards The pushing block 5 moves along the sole 2, when the pushing block 5 is pushed by the bump 4 to move towards two sides, the pushing block 5 pushes the compression piece 6 to move towards the cavity 7 in the sole 2, ice water rushes upwards to the top of the cavity 7 due to the pushing of the compression piece 6 filled with ice water in the cavity 7, at the moment, the compression piece 6 is continuously compressed, the ice water pushes the first baffle 10 hinged with the sole 2 to open, at the moment, liquid enters the communicated drainage channel 8, the ice water flows to the water storage bag 9 at the front sole of the sole 2 along the drainage channel 8, the baffle can only open along one end due to the one-way hinge and is larger than the size of the connection part of the cavity 7 and the drainage channel 8, and when the front sole of the sole 2 lands, the water storage bag 9 is prevented from compressing the ice water to flow back into the cavity 7 along the drainage channel 8, so that the ice water enters the water storage bag 9 to contact with the front sole, and heat at the front sole of the sole 2 can be mutually transferred with the water storage bag 9, at the moment, the sole feels cool and has the effects of cooling and radiating, and when the user continues to walk, the water in the cavity 7 can continuously enter the water storage bag 9 to achieve the effect of cooling the sole 2.

The backflow mechanism comprises a water outlet hole 11 communicated with the water storage bag 9 and a backflow pipe 12 communicated with the water outlet hole 11 and used for containing liquid to flow, the backflow pipe 12 is communicated with the cavity 7, a second baffle 13 for preventing the liquid from entering the backflow pipe 12 is hinged at the position where the backflow pipe 12 is communicated with the cavity 7, when the sole 2 is in walking, the heel is firstly landed, the tiptoe is immediately landed, the water storage bag 9 is also inclined towards the tiptoe when the sole 2 is lifted, ice water in the water storage bag 9 flows into the backflow pipe 12 along the water outlet hole 11 at the tiptoe, the ice water flows into the cavity 7 along the backflow pipe 12, when the ice water flows to the cavity 7 along the backflow pipe 12, the ice water pushes the hinged second baffle 13 to rotate towards the cavity 7, the ice water flows into the cavity 7, therefore, the effect of enabling the ice water to circularly flow in the sole 2 can be achieved, the temperature of the shoe can be continuously reduced, and when the compression piece 6 pushes the ice water in the cavity 7 is larger than the size of the backflow pipe 12, at this time, the second baffle 13 is attached to the return pipe 12 under the condition of water pressure, so that the condition that ice water enters along the return pipe 12 and cannot enter the drainage access can be avoided.

The side surface of the sole 2 and the return pipe 12 are provided with a plurality of radiating fins 14 in a staggered manner, ice water can be slowly heated due to mutual transmission of the temperatures in the water storage bag 9 of the sole 2 and the sole 2, and when the ice water flows along the return pipe 12 and enters the cavity 7, gas can enter the ice water to cool and radiate the ice water when the upper end of the return pipe 12 and the return pipe 12 are provided with the plurality of radiating fins 14 in a staggered manner.

The surfaces of the lug 4 and the push block 5 which are abutted to each other are inclined surfaces, when the sole 2 is trampled, the compression block 3 moves downwards and pushes the lug 4 and the push block 5 to abut to each other, and the surfaces abutted to each other are inclined surfaces, so that the lug 4 can push the push block 5 along the inclined surfaces of the push block 5 and the push block 5 can move towards the two sides of the sole 2 when abutting to each other.

Springs 15 are arranged between the compression block 3 and the compression piece 6 and the sole 2, the compression block 3 moves downwards, the springs 15 between the compression block 3 and the sole 2 are compressed, so that a shock absorption effect can be achieved during walking jumping, the springs 15 between the compression piece 6 and the sole 2 are compressed when the compression piece 6 moves towards the cavity 7, the springs 15 push the compression block 3 and the compression piece 6 to reset when the pressure of stepping on the sole 2 disappears during foot lifting, and therefore the situation that the compression block 3 and the compression piece 6 are pushed to reset is achieved.

The plug 16 is detachably connected to the position, located at the heel, outside the sole 2, and after the temperature of ice water in the sole 2 slowly rises, the plug 16, located at the heel, of the sole 2 can be detached and water in the cavity 7 is poured out when the heat dissipation and cooling effects of the sole 2 are improved, so that the ice water can be poured into the sole 2 again to continue cooling and cooling.

The water storage bag 9 is made of rubber with the sole contact surface, the sole 2 is made of EVA materials, the rubber enables the sole to be soft when being trampled, heat in the sole 2 and ice-cold in the water storage bag 9 can be stably and effectively transferred mutually, the sole 2 is made of synthetic EVA materials, and the synthetic EVA materials have the characteristics of softness, good elasticity and chemical corrosion resistance, so that the service life of the sole 2 can be prolonged while the damping of the leisure shoes is improved.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a cool shock attenuation playshoes, includes vamp (1) and sole (2), its characterized in that: the sole (2) is located heel department and is equipped with compression piece (3), fixedly connected with lug (4) under compression piece (3), lug (4) butt joint have with sole (2) sliding connection's ejector pad (5), ejector pad (5) butt joint have compression piece (6), be equipped with in sole (2) and hold compression piece (6) and ejector pad (5) embedding and fill cavity (7) of liquid, the conduction has drainage channel (8) that hold liquid flow on cavity (7) end, sole (2) are located sole department and are equipped with water storage bag (9) that switch on with drainage channel (8), cavity (7) and drainage channel (8) junction articulate has first baffle (10) of separation liquid backward flow, be equipped with the backward flow mechanism of guide liquid backward flow in the water storage bag (9) in sole (2).

2. A cooling, shock-absorbing casual shoe as defined in claim 1, wherein: the backflow mechanism comprises a water outlet (11) communicated with the water storage bag (9) and a backflow pipe (12) communicated with the water outlet (11) and used for accommodating liquid to flow, the backflow pipe (12) is communicated with the cavity (7), and a second baffle (13) for blocking liquid from entering the backflow pipe (12) is hinged to the communication position of the backflow pipe (12) and the cavity (7).

3. A cooling, shock-absorbing casual shoe as defined in claim 2, wherein: the side surface of the sole (2) and the return pipe (12) are provided with a plurality of radiating fins (14) in a staggered manner.

4. A cooling and shock-absorbing casual shoe as set forth in claim 3, wherein: the surfaces of the convex block (4) and the push block (5) which are abutted are all inclined surfaces.

5. A cooling and shock-absorbing casual shoe as set forth in claim 4, wherein: springs (15) are arranged between the compression block (3) and the compression piece (6) and the sole (2).

6. A cooling, shock-absorbing casual shoe as defined in claim 1, wherein: a plug (16) is detachably connected to the position, outside the sole (2), of the heel.

7. A cooling, shock-absorbing casual shoe as defined in claim 1, wherein: the contact surface of the water storage bag (9) and the sole is made of rubber, and the sole (2) is made of EVA material.

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