CN216315896U - Power-assisted shoe - Google Patents

Abstract

The application discloses power-assisted shoes, including shoes body and sole, the one side and the shoes body of sole are fixed, the sole one side to shoes body dorsad is fixed with the gasbag, the gasbag is close to the heel department of sole, the gasbag intercommunication has intake pipe and blast pipe, the intake pipe intercommunication has the solenoid valve that admits air that is used for switching on or closing the intake pipe, the blast pipe intercommunication has the exhaust solenoid valve that is used for switching on or closing the blast pipe, the common electric connection of solenoid valve and exhaust solenoid valve that admits air has the controller that is used for controlling solenoid valve and the solenoid valve that admits air to open and close, the intake pipe is used for connecting the air supply. The power-assisted walking and jumping device has the advantages that when a human body walks or runs and jumps, better power support can be provided for the human body, and the walking and jumping capacity of the human body is enhanced.

Description

Power-assisted shoe

Technical Field

The utility model relates to the field of sports shoes, in particular to a pair of power-assisted shoes.

Background

The sole of the sports shoe is different from the sole of the common leather shoe and rubber shoe, is soft and elastic generally, and can play a certain role in buffering.

The existing sports shoes are generally air cushion shoes, and have the damping function by arranging a cavity for storing air at the soles.

Aiming at the technical scheme, the air cushion shoes mainly play a role in shock absorption, do not have a power assisting function, cannot provide better power support for a human body when the human body walks or runs and jumps, and have poor power assisting capability, so the improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to provide better power support for a human body and enhance the walking and running and jumping capabilities of the human body when the human body walks or runs and jumps, the application provides the power-assisted shoe.

A power-assisted shoe adopts the following technical scheme:

the utility model provides a power-assisted shoe, includes shoes body and sole, the one side and the shoes body of sole are fixed, the sole is fixed with the gasbag to the one side of shoes body dorsad, the gasbag is close to the heel department of sole, the gasbag intercommunication has intake pipe and blast pipe, the intake pipe intercommunication has the air inlet solenoid valve that is used for switching on or closing the intake pipe, the blast pipe intercommunication has the exhaust solenoid valve that is used for switching on or closing the blast pipe, the common electric connection of air inlet solenoid valve and exhaust solenoid valve has the controller that is used for controlling air inlet solenoid valve and exhaust solenoid valve to open and close, the intake pipe is used for connecting the air supply.

By adopting the technical scheme, in the process of walking or jumping of a human body, when the human body treads the ground and the heel is ready to be lifted, the controller controls the air inlet solenoid valve to be opened and controls the air source to deliver quantitative compressed air to the air inlet pipe, the compressed air enters the air bag through the air inlet solenoid valve and the air inlet pipe, the air outlet solenoid valve is in a closed state at the moment, the air bag is in collision and expansion due to elasticity, the expanded air bag exerts acting force on the ground, further the air bag generates thrust on the heel part of the sole after being subjected to the reaction force of the ground, the human heel is subjected to the thrust of the heel part, the whole human body is subjected to the thrust in the advancing direction, when the foot subjected to the thrust is completely lifted, the controller controls the air outlet solenoid valve to be opened and the air inlet solenoid valve to be closed, the compressed air in the air bag is discharged from the air outlet pipe, the air bag returns to the normal state and the solenoid valve is closed again, the air inlet electromagnetic valve on the other foot is opened, the air outlet electromagnetic valve is closed, and compressed air is input into an air bag on the power-assisted shoe worn by the foot by an air source; therefore, the air source is controlled to supply air to the air bag through the air inlet electromagnetic valve at the proper time, and the exhaust electromagnetic valve is controlled to open through the controller to exhaust air, so that the compressed air generates assistance to the walking or jumping of the human body, and the walking and jumping capacity of the human body is enhanced.

Preferably, a supporting shell is arranged on the periphery of the air bag, an opening in the top of the supporting shell is arranged, an air inlet hole into which an air inlet pipe extends and an air exhaust hole from which an air exhaust pipe extends are formed in the supporting shell, the bottom of the supporting shell is used for being in contact with the ground, one end, far away from the sole, of the air bag is fixedly connected with the inner bottom wall of the supporting shell, when the air bag is in a normal state, the top of the supporting shell is abutted against the sole, and when the air bag is in an expansion state, the supporting shell is unfolded towards a direction far away from the sole.

By adopting the technical scheme, when a human body steps on the ground, the air bag is made of flexible materials, the air bag is easy to deform to enable the human body to lose balance and to cause the foot to be sprained when the human body steps on the ground, the supporting shell is arranged to enable the top of the supporting shell to be abutted against the sole when the air bag is in a normal state, and the supporting shell plays a rigid supporting role in the sole, so that the human body is not easy to sprained due to losing balance.

Preferably, the support shell is wrapped by an elastic band, one end of the elastic band in the axial direction is fixed with the sole, and the inner side wall of the elastic band is fixedly connected with the outer side wall of the support shell.

By adopting the technical scheme, the elastic belts are arranged, so that when the air bag is in a normal state or after the air bag leaks air, the top of the supporting shell is tightly propped against the sole under the action of the tensile force of the elastic belts, the supporting shell is not easy to be in a loose state, and the walking effect of the power-assisted shoe is better.

Preferably, the top and the bottom of the air bag are both horizontally arranged.

Adopt above-mentioned technical scheme, the top and the equal level in bottom of gasbag set up for the top of gasbag is abundant with the sole laminating, and the bottom of gasbag is abundant with the interior diapire of support housing fully laminates, and consequently support housing and sole receive the effort of gasbag all relatively for even, and the transmission effect of power is better.

Preferably, the top edge of the support shell is adjacent to an edge of the sole.

By adopting the technical scheme, the top edge of the supporting shell is close to the edge of the sole, so that the supporting range of the supporting shell to the sole is enlarged, and the supporting effect of the supporting shell to the sole is better.

Preferably, the end face of one end, close to the support shell, of the sole is provided with a circle of limiting baffles which are connected end to end in a protruding mode, and the outer wall of each limiting baffle is abutted to the inner side wall of the support shell.

By adopting the technical scheme, the limiting baffle plate is arranged to play a role in limiting the supporting shell in the horizontal direction, so that the supporting shell is not easy to have small deviation in the horizontal direction to cause the human body to lose balance when the human body walks or runs and jumps, and the stability of walking and running and jumping of the human body is better due to the arrangement of the limiting baffle plate.

Preferably, the lateral wall integrated into one piece of support housing has the guide block that admits air, the guide block that admits air has seted up the inlet guide hole along vertical direction, the top of the guide block that admits air is run through to the one end of inlet guide hole, the top of exhaust guide block is run through to the one end of exhaust guide hole, the bottom and the inlet port intercommunication of inlet guide hole, the bottom and the exhaust hole intercommunication of exhaust guide hole.

Through adopting above-mentioned technical scheme, through the guiding hole that admits air of seting up vertical setting on the guide block that admits air, communicate with the gasbag after passing the guiding hole that admits air with the intake pipe, through the exhaust guiding hole of seting up vertical setting on the guide block that exhausts, communicate with the gasbag after passing the exhaust guiding hole, when the direction motion of keeping away from the sole of support casing, the guiding action is played to the intake pipe to the guiding hole that admits air, the guiding action is played to the blast pipe to the exhaust guiding hole, make the intake pipe, the direction of blast pipe and support casing relative motion all is located the same axis, the intake pipe, the junction of blast pipe and gasbag is difficult for being torn apart, the installation of intake pipe and blast pipe is comparatively stable.

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

1. the air source is controlled to supply air to the air bag through the air inlet electromagnetic valve at the proper time, and the exhaust electromagnetic valve is controlled to open through the controller to exhaust air, so that the compressed air generates assistance to the walking or jumping of the human body, and the walking and jumping capacity of the human body is enhanced;

2. the supporting shell is arranged, so that the top of the supporting shell is abutted against the sole in a normal state of the air bag, the supporting shell plays a rigid supporting role for the sole, and the human body is not easy to bend feet due to unbalance;

3. the top edge of the support shell is close to the edge of the sole, so that the support range of the support shell to the sole is enlarged, and the support effect of the support shell to the sole is good.

Drawings

FIG. 1 is a schematic overall structure diagram of an embodiment of the present application;

fig. 2 is a schematic diagram of an internal structure of an embodiment of the present application.

In the figure: 1. a shoe body; 2. a sole; 3. an air bag; 4. a support housing; 5. an air inlet pipe; 6. an exhaust pipe; 7. an elastic band; 81. an air inlet solenoid valve; 82. an exhaust solenoid valve; 9. a limit baffle; 10. an air intake guide block; 101. an air intake guide hole; 11. an exhaust guide block; 111. and an exhaust guide hole.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to fig. 1-2 in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any creative effort belong to the protection scope of the embodiments.

Referring to fig. 1 and 2, the utility model provides a pair of power-assisted shoes, each power-assisted shoe comprises a sole 2 and a shoe body 1, one surface of each sole 2 is fixed with the shoe body 1, one surface of each sole 2, which faces away from the shoe body 1, is fixed with an hourglass-shaped airbag 3, the airbags are located at the heels of the soles 2, the tops and the bottoms of the airbags 3 are horizontally arranged, the tops of the airbags 3 are fixed with the soles 2, the bottoms of the airbags 3 are fixed with supporting shells, the supporting shells are located at the heels of the soles 2, the top openings of the supporting shells 4 are arranged, one ends, far away from the soles 2, of the airbags 3 are fixedly connected with the inner bottom walls of the supporting shells 4, the outer sole walls of the supporting shells 4 are used for contacting with the ground, and the top edges of the supporting shells are arranged close to the edges of the soles 2.

Support housing 4 parcel elastic webbing 7, elastic webbing 7 is fixed with sole 2 along axial one end, and the inside wall of elastic webbing 7 and the lateral wall fixed connection of support housing 4. The elastic band 7 is arranged, so that when the air bag 3 is in a normal state or after the air bag 3 loses air, the top of the supporting shell 4 is tightly propped against the sole 2 under the action of the tensile force of the elastic band 7, the supporting shell 4 is not easy to be in a loose state, and the walking effect of the power-assisted shoe is good.

The protruding limit baffle 9 that has round end to end that has of sole 2 is close to the one end terminal surface of supporting shell 4, the outer wall of spacing ring baffle and the inside wall butt of supporting shell 4. The setting of limit baffle 9 plays the ascending limiting displacement of horizontal direction to support casing 4 for human walking or running jump in-process, support casing 4 is difficult for appearing the small skew in the horizontal direction and leads to human unbalance.

The side wall of the air bag 3 is communicated with an air inlet pipe 5 and an air outlet pipe 6, the communicated parts of the air bag 3, the air inlet pipe 5 and the air outlet pipe 6 are close to the inner bottom wall of the supporting shell 4, and the side wall of the supporting shell 4 is provided with an air inlet hole (not shown) for the air inlet pipe 5 to extend into and an air outlet hole (not shown) for the air outlet pipe 6 to extend out; when the airbag 3 is in a normal state, the top of the support case 4 abuts against the sole 2, and when the airbag 3 is in an inflated state, the support case 4 is expanded in a direction away from the sole 2.

Supporting housing 4's lateral wall integrated into one piece has air intake guide block 10, air intake guide block 101 has been seted up along vertical direction to air intake guide block 10, the top of air intake guide block 10 is run through to air intake guide hole 101's one end, the top of exhaust guide block 11 is run through to exhaust guide hole 111's one end, air intake guide hole 101's bottom and inlet port intercommunication, exhaust guide hole 111's bottom and exhaust hole intercommunication, intake pipe 5 passes the inlet port in proper order and advances air guide hole 101 and stretch out from air intake guide block 10's top, intake pipe 5 passes exhaust hole and exhaust guide hole 111 in proper order and stretches out from exhaust guide block 11's top.

The end of the air inlet pipe 5 far away from the air bag 3 is communicated with an air source, and in the embodiment, the air source is a small pump body which can generate compressed air and input quantitative compressed air into the air inlet pipe 5.

The air inlet pipe 5 is fixed and communicated with an air inlet electromagnetic valve 81 for conducting or closing the air inlet pipe 5, the exhaust pipe 6 is fixed and communicated with an exhaust electromagnetic valve 82 for conducting or closing the exhaust pipe 6, the air inlet electromagnetic valve 81 and the exhaust electromagnetic valve 82 are jointly and electrically connected with a controller (not shown in the figure) for controlling the opening and closing of the air inlet electromagnetic valve 81 and the exhaust electromagnetic valve 82, the controller is used for controlling the closing of the exhaust electromagnetic valve 82 when the air inlet electromagnetic valve 81 is opened, and at the same time, controls the exhaust solenoid valve 82 to be opened when the intake solenoid valve 81 is closed, and, in the present embodiment, the controller is used for detecting the swinging action of the legs and the stress condition of the air bags 3 in the walking and jumping processes of the human body so as to determine each walking state of the human body, for example, when stepping on the ground, the whole foot surface applies pressure to the sole 2, only the heel and the toe apply pressure to the sole 2, or the whole foot applies pressure to the sole 2.

The application principle of a helping hand shoes does:

in the process of walking or jumping, when a human body treads on the ground, the toes apply pressure on the ground to enable the heels to be ready to lift, the controller controls the air inlet solenoid valve 81 to be opened and controls the air source to deliver quantitative compressed air to the air inlet pipe 5, the compressed air enters the air bag 3 through the air inlet pipe 5, the air outlet solenoid valve 8 is in a closed state at the moment, the air bag 3 is in collision and expansion due to elasticity, the expanded air bag 3 generates acting force on the supporting shell 4, the supporting shell 4 is opened towards the direction far away from the sole 2, further the supporting shell 4 generates acting force on the ground, after the supporting shell 4 receives the reacting force of the ground, the air bag 3 generates thrust on the heel part of the sole 2, after the heels of the human body receive the thrust of the heel part, the whole human body receives the thrust in the advancing direction, after the feet receiving the thrust are completely lifted forwards, the controller controls the air outlet solenoid valve 82 to be opened and the air inlet solenoid valve 81 to be closed, the compressed air in the air bag 3 is exhausted from the exhaust pipe 6, the air bag 3 returns to the normal state, at the moment, the elastic belt 7 pulls the support shell 4 to approach towards the direction of the sole 2, the exhaust electromagnetic valve 82 is closed again, and meanwhile, the air source on the other foot inputs the compressed air to the air bag 3 on the power-assisted shoe worn by the foot through the air inlet electromagnetic valve 81; also when the heel is ready to be raised, the bladder 3 exerts a thrust on the sole 2.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a power-assisted shoe, includes shoes body (1) and sole (2), the one side and the shoes body (1) of sole (2) are fixed, sole (2) one side of shoes body (1) dorsad is fixed with gasbag (3), the heel department that sole (2) are close to in gasbag (3), gasbag (3) intercommunication has intake pipe (5) and blast pipe (6), intake pipe (5) intercommunication has air inlet solenoid valve (81) that are used for switching on or close intake pipe (5), exhaust solenoid valve (82) that are used for switching on or close blast pipe (6) are installed to blast pipe (6), air inlet solenoid valve (81) and exhaust solenoid valve (82) common electric connection have the controller that is used for controlling air inlet solenoid valve (81) and exhaust solenoid valve (82) and opens and close, intake pipe (5) are used for connecting the air supply.

2. A power assisted shoe as claimed in claim 1 wherein: the periphery of gasbag (3) is provided with support housing (4), support housing (4) open-top sets up, support housing (4) are seted up and are supplied air inlet that intake pipe (5) stretched into and the exhaust hole that blast pipe (6) stretched out, supply the bottom of support housing (4) is used for contacting with ground, the one end that sole (2) were kept away from in gasbag (3) and the interior diapire fixed connection of support housing (4), work as when gasbag (3) are in the normality, the top and the sole (2) butt of support housing (4), work as when gasbag (3) are in the inflation state, support housing (4) are opened towards the direction of keeping away from sole (2).

3. A power assisted shoe as claimed in claim 2 wherein: support casing (4) parcel elastic band (7), elastic band (7) are fixed with sole (2) along axial one end, the inside wall of elastic band (7) and the lateral wall fixed connection of support casing (4).

4. A power assisted shoe as claimed in claim 1 wherein: the top and the bottom of the air bag (3) are both horizontally arranged.

5. A power assisted shoe as claimed in claim 2 wherein: the top edge of the support shell (4) is close to the edge of the sole (2).

6. A power assisted shoe as claimed in claim 2 wherein: the sole (2) are close to the protruding limit baffle (9) that have round end to end of the one end terminal surface of supporting shell (4), the outer wall of spacing ring baffle and the inside wall butt of supporting shell (4).

7. A power assisted shoe as claimed in claim 2 wherein: the lateral wall integrated into one piece of support housing (4) has air intake guide block (10), air intake guide hole (101) have been seted up along vertical direction in air intake guide block (10), the top of air intake guide block (10) is run through to the one end of air intake guide hole (101), the top of exhaust guide block (11) is run through to the one end of exhaust guide hole (111), the bottom and the inlet port intercommunication of air intake guide hole (101), the bottom and the exhaust hole intercommunication of exhaust guide hole (111).

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