CN216824751U - Wireless charging electric shoe and wireless charging electric shoe system - Google Patents

Abstract

The utility model discloses a wireless electronic shoes and wireless electronic shoes system that charges that charge, including shoes main part, gyro wheel, motor, power module, the wireless receiving module that charges. The roller is rotatably arranged at the bottom of the shoe main body; the motor is arranged in the shoe main body and is in transmission connection with the roller, and the motor drives the roller to rotate. The power supply module is arranged in the shoe main body and electrically connected with the motor, and the power supply module supplies power to the motor. The wireless charging receiving module is arranged in the shoe main body, is electrically connected with the power supply module and is used for charging the power supply module. The utility model discloses an electronic shoes adopts wireless receiving module that charges to charge for electronic shoes, need not set up the exerted wired interface that charges, and the convenience of charging also does not have the problem through debris such as the interface that charges intake or dust simultaneously, and electronic shoes are difficult to damage, and the function of charging is reliable.

Description

Wireless charging electric shoe and wireless charging electric shoe system

Technical Field

The utility model relates to an electronic shoes technical field especially relates to a wireless electronic shoes and the wireless electronic shoes system that charges that charge.

Background

Electric shoes are an emerging type of footwear. The electric shoes are driven by electric power to carry a wearer to move, so that the wearer can avoid walking. The electric shoes can replace the walking of the wearer, save the physical strength of the wearer and are particularly suitable for being worn in long-distance trekking and walking.

The current electric shoes are charged through a charging interface. Electric shoes are generally worn more in outdoor walking, and are inconvenient to charge through a wired charging interface. And the wired charging interface is exposed, so that the electric shoes are easily damaged after water or dust enters, and the charging function is disabled. Even if the charging interface is sealed by the waterproof rubber cover, the charging interface is not good in sealing effect after being worn and used outdoors for a long time, water or dust and the like are still easy to enter, and the charging function is still easy to lose efficacy.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a wireless electronic shoes and the wireless electronic shoes system that charges that charge, the convenience of charging, electronic shoes are difficult to damage, and the function of charging is reliable.

The utility model discloses a wireless electronic shoes that charge, including shoes main part, gyro wheel, motor, power module, wireless receiving module that charges. The roller is rotatably arranged at the bottom of the shoe main body; the motor is arranged in the shoe main body and is in transmission connection with the roller, and the motor drives the roller to rotate. The power supply module is arranged in the shoe main body and electrically connected with the motor, and the power supply module supplies power to the motor. The wireless charging receiving module is arranged in the shoe main body, is electrically connected with the power supply module and is used for charging the power supply module.

Optionally, the wireless charging receiving module is a magnetic resonance charging receiver; the magnetic resonance charging receiver is used for receiving the electric energy transmitted by the magnetic resonance charging transmitter.

Optionally, the electric shoe comprises a shock-absorbing component, and the roller and the shoe main body are elastically connected through the shock-absorbing component.

Optionally, the shock-absorbing assembly comprises a movable telescopic rod and a shock-absorbing spring, the roller is connected with the shoe main body through the movable telescopic rod, and the shock-absorbing spring is sleeved on the movable telescopic rod.

Optionally, the magnetic resonance charging receiver is disposed at a shoe rear portion of the shoe main body.

Optionally, the power supply module and the motor are located at a heel position of the shoe main body.

Optionally, the electric shoe comprises a wired charging interface, and the wired charging interface is arranged on the shoe main body.

The utility model also discloses a wireless charging electric shoe system, which comprises a wireless charging emission module and the electric shoe; the wireless charging transmitting module is used for transmitting electric energy to the wireless charging receiving module.

Optionally, the electric shoe system comprises a bag; the wireless charging transmitting module is arranged on the bag.

Optionally, the wireless charging transmitting module is a magnetic resonance charging transmitter.

The utility model discloses an electronic shoes adopts wireless receiving module that charges to charge for electronic shoes, need not set up the exerted interface that charges, and the convenience of charging also does not have the problem through debris such as the interface that charges intake or dust simultaneously, and electronic shoes are difficult to damage.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive faculty. In the drawings:

FIG. 1 is a schematic view of an electric shoe according to an embodiment of the present invention;

fig. 2 is another schematic view of the electric shoe according to the embodiment of the present invention.

100, a shoe main body; 110. a rear shoe portion; 120. a bottom; 130. a heel; 140. a shoe upper; 200. a roller; 300. a motor; 400. a power supply module; 500. and the wireless charging receiving module.

Detailed Description

It is to be understood that the terminology, the specific structural and functional details disclosed herein are for the purpose of describing particular embodiments only, and are intended to be representative, but that the present invention may be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

The invention will be described in detail below with reference to the drawings and alternative embodiments.

As shown in fig. 1, as an embodiment of the present invention, a wireless charging electric shoe is disclosed, which comprises a shoe main body 100, a roller 200, a motor 300, a power supply module 400, and a wireless charging receiving module 500. The roller 200 is rotatably installed at the bottom 120 of the shoe main body 100; the motor 300 is disposed in the shoe main body 100 and is in transmission connection with the roller 200, and the motor 300 drives the roller 200 to rotate. The power supply module 400 is disposed in the shoe main body 100 and electrically connected to the motor 300, and the power supply module 400 supplies power to the motor 300. The wireless charging receiving module 500 is disposed in the shoe main body 100, electrically connected to the power supply module 400, and configured to charge the power supply module 400.

The utility model discloses an electronic shoes charges for power module 400 through wireless receiving module 500 that charges, and power module 400 electric power storage supplies power and for motor 300, and motor 300 drives gyro wheel 200 and rotates. The utility model discloses an electronic shoes adopts wireless receiving module 500 that charges to charge for electronic shoes, need not set up the exerted wired interface that charges, and the convenience of charging also does not have the problem through debris such as the interface that charges intake or dust simultaneously, and electronic shoes are difficult to damage, and the function of charging is reliable.

Specifically, the wireless charging receiving module 500 is a magnetic resonance charging receiver; the magnetic resonance charging receiver is used for receiving the electric energy transmitted by the magnetic resonance charging transmitter. Magnetic resonance charging, also known as near-field resonance charging, consists of an energy transmitter and an energy receiver. When the transmitter and receiver are tuned to the same frequency, or resonate at a particular frequency, they can exchange energy with each other, in the same principle as the resonance of sound, and coils of the same frequency of vibration, arranged in a magnetic field, can be powered from one to the other. The magnetic resonance charging method has the advantages of large charging distance and large charging area.

More specifically, the motorized shoe includes a magnetic resonance charging transmitter for transmitting electrical energy to the magnetic resonance charging receiver.

More specifically, the magnetic resonance charging transmitter is separated from the shoe main body 100 and is independently arranged, so that the magnetic resonance charging transmitter is convenient to carry and can be used at any time, and the magnetic resonance charging receiver transmits electric energy. In another embodiment, the magnetic resonance charging transmitter is disposed on a backpack. For example, the magnetic resonance charging transmitter is arranged on a backpack. The backpack is the most frequently carried bag when going out.

For the specific implementation form of wireless charging, in other embodiments, electromagnetic induction wireless charging, radio wave charging, and the like can also be adopted.

The magnetic resonance charging receiver is disposed at the shoe rear portion 110 of the shoe main body 100. When the electric shoes are used, the shoes are in a wearing and walking exercise state, and the electric shoes are electric and have high speed. The shoe rear part 110 of the shoe main body 100 is a position where collision is not easy to occur in the wearing and walking process, and in the scheme, the magnetic resonance charging receiver is arranged at the shoe rear part 110 of the shoe main body 100, so that the magnetic resonance charging receiver can be prevented from colliding with and damaging the magnetic resonance charging receiver in the wearing and walking process, and normal use of the electric shoe is influenced. Meanwhile, the magnetic resonance charging receiver located at the shoe rear part 110 of the shoe main body 100 is also conveniently butted with the magnetic resonance charging receiver.

Specifically, the power supply module 400 is disposed at the bottom 120 of the shoe main body 100, and the motor 300 is disposed at the bottom 120 of the shoe main body 100. The area of the bottom 120 of the shoe main body 100 is large, the position is flat, and the arrangement of the motor 300 and the power supply module 400 is convenient. Specifically, the power supply module 400 is a rechargeable battery or the like.

In other embodiments, as shown in fig. 2, the power supply module 400 may be disposed in the upper 140 of the shoe body 100. Compared to the bottom 120 of the shoe body 100, the upper 140 is not pressed by the weight of the wearer in the wearing state, and the power supply module 400 is easy to install, is less stressed, and is not easily damaged. It should be added that, if the power supply module 400 is disposed at the bottom 120 of the shoe main body 100, the power supply module 400 may be disposed in a cavity by disposing a structure such as a cavity, so as to prevent the pressure of the weight of the wearer from directly acting on the power supply module 400, but the structure is complicated.

As further shown in fig. 1, the power module 400 and the motor 300 are located at the heel 130 of the shoe body 100. In this embodiment, the power supply module 400 and the motor 300 are located at the heel 130 of the shoe body 100, so that the weight of the power supply module 400 and the motor 300 can be concentrated at the position, and the power supply module and the motor are more labor-saving when the wearer lifts the foot compared with the case where the weight of the power supply module and the motor is concentrated at the tip and the middle of the sole.

On the other hand, the electric shoe includes a shock-absorbing member (not shown), and the roller 200 and the shoe main body 100 are elastically connected by the shock-absorbing member. Specifically, the shock-absorbing assembly includes a movable telescopic rod (not shown) and a shock-absorbing spring (not shown), the roller 200 is connected to the shoe main body 100 through the movable telescopic rod, and the shock-absorbing spring is sleeved on the movable telescopic rod. When the road surface is uneven, the damping spring can play a damping role.

The electric shoe comprises a wired charging interface, and the wired charging interface is arranged on the shoe main body. The wired charging interface is used for wired charging, so that the electric shoes can be charged wirelessly and also can be charged in a wired mode.

The utility model also discloses a wireless charging electric shoe system, which comprises a wireless charging emission module and the electric shoe; the wireless charging transmitting module is used for transmitting electric energy to the wireless charging receiving module.

Specifically, the electric shoe system includes a bag; the wireless charging transmitting module is arranged on the bag. The bag can be a backpack or the like, and the wireless charging transmitting module is arranged on the bag and is independent of the electric shoes. Specifically, the wireless charging transmitting module is a magnetic resonance charging transmitter.

The foregoing is a more detailed description of the present invention, taken in conjunction with specific alternative embodiments, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. A wireless electronic shoes that charge, its characterized in that includes:

a shoe main body;

the roller is rotatably arranged at the bottom of the shoe main body;

the motor is arranged in the shoe main body and is in transmission connection with the roller;

the power supply module is arranged in the shoe main body and is electrically connected with the motor;

and the wireless charging receiving module is arranged in the shoe main body, is electrically connected with the power supply module and is used for charging the power supply module.

2. The motorized shoe of claim 1, wherein the wireless charging receiving module is a magnetic resonance charging receiver; the magnetic resonance charging receiver is used for receiving the electric energy transmitted by the magnetic resonance charging transmitter.

3. The electric shoe as claimed in claim 1, wherein the electric shoe includes a shock absorbing member, and the roller and the shoe main body are elastically connected by the shock absorbing member.

4. The electric shoe as claimed in claim 3, wherein said shock-absorbing assembly comprises a movable telescopic rod and a shock-absorbing spring, said roller is connected to said shoe main body through said movable telescopic rod, and said shock-absorbing spring is sleeved on said movable telescopic rod.

5. The motorized shoe of claim 2, wherein the magnetic resonance charging receiver is disposed at a rearfoot portion of the shoe body.

6. The motorized shoe of claim 1, wherein the power module and the motor are located at a heel position of the shoe body.

7. The electric shoe of claim 1, comprising a wired charging interface disposed on the shoe body.

8. A wireless charging electric shoe system, comprising a wireless charging transmitting module, an electric shoe according to any one of claims 1 to 7; the wireless charging transmitting module is used for transmitting electric energy to the wireless charging receiving module.

9. The wireless charging electric shoe system according to claim 8, wherein the electric shoe system comprises a bag; the wireless charging transmitting module is arranged on the bag.

10. The wireless charging electric shoe system according to claim 8 or 9, wherein the wireless charging transmitting module is a magnetic resonance charging transmitter.

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