CN216489822U - Mobile charging device capable of storing human body kinetic energy - Google Patents

Abstract

The utility model provides a mobile charging device capable of storing human body kinetic energy, which is used for solving the problems that the existing charging equipment is large and heavy, is not easy to carry and is not beneficial to emergency charging. The fluctuation kinetic energy of back step when utilizing the human body to march generates electricity, make full use of the energy, do not need extra knapsack and pocket dress area, can carry battery charging outfit, possess the emergent function of charging in short-term.

Description

Mobile charging device capable of storing human body kinetic energy

Technical Field

The utility model relates to the technical field of energy conservation and emission reduction, in particular to a mobile charging device which promotes environmental protection and energy utilization and utilizes human body kinetic energy to store electricity.

Background

Along with the popularization and use of electronic equipment such as mobile phones, smart phones and the like, people pay most attention to the battery endurance problem of the electronic equipment, and the problems can be solved to a certain extent by the appearance of the charge pal, but the common charge pal is large and heavy, the storage of the self electric quantity of the charge pal also needs a charger and a plug wire, and people are not willing to carry the charge pal outside, so that the personal electronic equipment (such as a mobile phone) cannot be timely and effectively supplemented in an emergency when the personal electronic equipment has no electric quantity; traditional power storage equipment (such as a power bank) can not produce electric quantity, needs to rely on external power supply, aggravates the use and the waste of the energy, also indirectly deepens the emission of carbon in the air simultaneously, is unfavorable for energy saving and emission reduction and environmental protection, deviates from with carbon neutralization, the environmental protection planning that carbon reaches the peak, consequently, need develop and apply a removal charging device that can be with human kinetic energy electric power storage urgently at present.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mobile charging device capable of storing human body kinetic energy, which solves the problems that storage charging equipment in the prior art is inconvenient to carry and emergency charging is inconvenient.

The technical scheme of the utility model is realized as follows:

the utility model provides a can be with removal charging device of human kinetic energy electric power storage, including vamp and sole, be equipped with the arrangement groove on the sole, be equipped with detachable electric power storage charging device in the arrangement groove, electric power storage charging device includes the body, be equipped with resettable clamp plate on the body, be equipped with the rack inlet on the body, the stiff end and the clamp plate of slip rack are connected, the free end of slip rack stretches into this internally through the rack inlet, this internal rotation is connected with the pinion, pinion and slip rack meshing, this internal rotation is connected with round magnet, be connected with gear mechanism between round magnet and the pinion, install the stationary coil who matches with round magnet on the body, the battery is equipped with on the body, be connected with electric power input unit between battery and the stationary coil, it has electric power output unit to connect on the battery.

Preferably, the gear structure comprises two spur gears and a one-way two gear, the two spur gears are coaxially connected with the pinion, the one-way two gear is coaxially connected with the circular magnet, and the two spur gears are meshed with the one-way two gear.

Preferably, the pitch circle diameter of the unidirectional duplicate gear is smaller than that of a duplicate spur gear.

Preferably, a shaft with a torsion spring is fixed between the body and the pressure plate.

Preferably, the body and the pressure plate are connected via a plurality of linear springs.

Preferably, the pressing plate is fixed with a pressing plate buckle, and the body is provided with a pressing plate buckle inlet hole and a pressing plate buckle lock which are matched with the pressing plate buckle.

Preferably, the electric power storage charging device is detachably clamped with the placing groove.

Preferably, the battery material is a lithium polymer pouch.

Preferably, the power input unit includes a charge control device, and the charge control device is connected to the storage battery and the stationary coil through circuits, respectively.

Preferably, the power output unit comprises a power output USB universal interface and a boost control device which are mounted on the body, and the storage battery, the boost control device and the power output USB universal interface are sequentially connected through a circuit.

Compared with the prior art, the beneficial effect that this technical scheme produced lies in:

the electric power storage charging equipment can supply power to the outside without charging, is placed at the bottom of a shoe with a placing position without an additional backpack or a pocket belt, is convenient to take out if needed after running and walking for a period of time, and has a short-time emergency charging function for mobile phones and the like; the electric power storage charging device provided by the utility model can be arranged in a sole, and can be used for storing electric power by pressing by a user at ordinary times, so that the electric power storage charging device is used as an emergency charging treasure; the electric power storage charging device can generate power without pollution, reduces the use of non-renewable energy and the emission of carbon dioxide, realizes the efficient utilization of energy, is beneficial to the protection of ecological environment and green life, and promotes the realization of the carbon neutralization target.

Meanwhile, when the two spur gears transmit power to the one-way two spur gears, the speed increasing effect is achieved, the induced current is increased, and the energy storage effect is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a side view of the sole of the present invention.

Figure 2 is a front view of the sole of the present invention.

Fig. 3 is a schematic perspective view of an electric storage charging device according to the present invention.

The attached drawings are marked as follows: 1-shoe body, 2-sole, 3-shaft with spring, 4-pressing plate, 5-pressing plate buckle, 6-sliding gear rack, 7-gear rack inlet, 8-pressing plate buckle inlet, 9-pressing plate buckle lock, 10-power output USB universal interface, 11-circuit, 12-lithium polymer soft package, 13-duplex spur gear, 14-unidirectional duplex gear, 15-circular magnet, 16-charging control device, 17-fixed coil, 18-boosting control device, 19-electric storage charging device, 20-body and 21-pinion.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

Embodiment 1, as shown in fig. 1 and 2, the present invention provides a mobile charging device capable of storing human body kinetic energy, including a shoe upper 1 and a shoe sole 2, wherein a placement groove is formed on the upper surface of the shoe sole 2, as shown in fig. 3, a detachable electric storage charging device 19 is arranged in the placement groove, the electric storage charging device 19 includes a body 20, a resettable pressing plate 4 is arranged on the body 20, a rack entry hole 7 is formed on the body 20, a fixed end of a sliding rack 6 is connected with the pressing plate 4, a free end of the sliding rack 6 extends into the body 20 through the rack entry hole 7, a pinion 21 is rotatably connected to the body 20, the pinion 21 is engaged with the sliding rack 6, a circular magnet 15 is rotatably connected to the body 20, a gear mechanism is connected between the circular magnet 15 and the pinion 21, a fixed coil 17 matched with the circular magnet 15 is arranged on the body 20, and a storage battery is arranged on the body 20, and a power input unit is connected between the storage battery and the fixed coil 17, and a power output unit is connected to the storage battery.

When the electric storage charging function is not used, the electric storage charging device 19 can be taken out, the homogeneous filler in the sole 2 is filled in the placing groove, so that the shoes can be normally used, when a user uses the functions, the homogeneous filler in the placing groove of the sole 2 is removed, the homogeneous filler is placed in the electric storage charging device 19, the foot is normally placed in the shoes, when the user walks, along with the lifting and pressing of the rear part of the foot, the pressing plate 4 drives the sliding gear strip 6 to move up and down in the gear strip feeding hole 7, the sliding gear strip 6 drives the pinion 21 to rotate, the pinion 21 drives the gear mechanism to rotate, the gear mechanism drives the circular magnet 15 to rapidly rotate, the circular magnet 15 cuts the fixed coil 17 to generate current (generator principle), and the stored energy of the storage battery is completed through the transmission of the electric power input unit, the utility model utilizes the inherent law of the up and down fluctuation of the rear part of the foot when the user travels, and converts the kinetic energy into electric energy through the transmission of mechanical parts, the human body kinetic energy and electric power storage is realized, and the characteristic of full utilization of energy is reflected; the electric power storage charging device 19 is small in design, does not need an additional backpack or a pocket belt, and is convenient to carry; after running and walking for a period of time, if the mobile phone is needed to be used, the mobile phone is convenient to take out, and has a short-time emergency charging function for electronic equipment such as a mobile phone; meanwhile, the power storage charging device 19 can be taken out, and the hand pressing plate 4 can be used for power storage to serve as an emergency charging treasure.

Embodiment 2, a can be with the mobile charging device of human kinetic energy storage, on the basis of embodiment 1, the gear structure includes two spur gears 13 and one-way two gears 14, two spur gears 13 and pinion 21 coaxial coupling, one-way two gears 14 and round magnet 15 coaxial coupling, two spur gears 13 and one-way two gears 14 mesh, pinion 21 rotates and drives two spur gears 13 and rotate, two spur gears 13 drive one-way two gears 14 and rotate, one-way two gears 14 drive round magnet 15 and rotate, round magnet 15 cuts fixed coil 17 and produces the electric current.

Embodiment 3, a can be with mobile charging device of human kinetic energy electric power storage, on the basis of embodiment 2, the reference circle diameter of one-way duplicate gear 14 is less than the reference circle diameter of duplicate spur gear 13, sets up like this and makes the rotation angular velocity of one-way duplicate gear 14 be greater than the rotation angular velocity of duplicate spur gear 13, has reached the effect of acceleration rate, has increased induced-current, has promoted the energy storage effect.

Embodiment 4, a mobile charging device capable of storing human body kinetic energy, in embodiment 1, a shaft 3 with a torsion spring is fixed between one end of a pressing plate 4 and a body 20, and gives an elastic force for resetting the pressing plate 4, and an included angle between the pressing plate 4 and the body 20 is 20 degrees in normal use.

Embodiment 5, a mobile charging device capable of storing human body kinetic energy, in addition to embodiment 1, the body 20 and the pressing plate 4 are connected through a plurality of vertical linear springs, and the elastic force for resetting the pressing plate 4 is provided, so that the effect that the pressing plate 4 can be reset is realized.

Embodiment 6, a mobile charging device capable of storing human body kinetic energy, in which, based on embodiment 4, a pressing plate buckle 5 is fixed at a free end of a pressing plate 4, a pressing plate buckle inlet hole 8 matched with the pressing plate buckle 5 is formed at a side of a body 20, a pressing plate buckle lock 9 is arranged at the middle part of the pressing plate buckle inlet hole 8, and the pressing plate buckle lock 9 is matched with the pressing plate buckle 5; in a normal state, the pressing plate 4 is attached to the body 20, the pressing plate buckle 5 enters the pressing plate buckle inlet hole 8 and is locked by the pressing plate buckle lock 9, when the device is used, the pressing plate buckle lock 9 on the side of the body 20 is pushed open, the pressing plate buckle 5 is loosened and lifted from the pressing plate buckle inlet hole 8, the pressing plate buckle lock 9 and the pressing plate buckle inlet hole 8 form a locking part of the pressing plate buckle 5, when the power storage charging device 19 is not used, the pressing plate buckle 5 is locked into the pressing plate buckle inlet hole 8, the pressing plate 4 is attached to the body 20, the occupied space of the device is reduced, and the pressing plate 5 is prevented from being scratched and rubbed with other objects during transportation and taking, so that mechanical damage is caused or the reset force of the pressing plate 5 is lost.

Embodiment 7, a can be with the removal charging device of human kinetic energy electric power storage, on the basis of embodiment 1, be detachable buckle connection between electric power storage charging device 19 and the resettlement groove, connect firmly, it is convenient to dismantle.

Embodiment 8 is a mobile charging device capable of storing human body kinetic energy, in addition to embodiment 1, the storage battery is a lithium polymer soft package 12.

Embodiment 9, a mobile charging device capable of storing human body kinetic energy, in addition to embodiment 1, the power input unit comprises a charging control device 16 installed on the body 20, the charging control device 16 is connected with the storage battery and the fixed coil 17 through the circuit 11, respectively, current enters the charging control device 16 through the circuit 11 to input electric energy to the storage battery, and when the storage battery is fully charged, the charging control device 16 will disconnect the circuit 11.

Embodiment 10, a portable charging device that can store human body kinetic energy, on the basis of embodiment 1, the power output unit includes power output USB universal interface 10 and boost control device 18 installed on the body 20, the storage battery, the boost control device 18, and the power output USB universal interface 10 are connected through circuit 11 in sequence, when the user uses the portable phone to charge in emergency, the storage charging device 19 is taken out from the sole 2, the portable phone charges through the power output USB universal interface 10, and the storage battery outputs electric energy to the power output USB universal interface 10 through the boost control device 18.

Embodiment 11, a mobile charging device capable of storing human body kinetic energy, comprising a shoe upper 1 and a shoe sole 2, wherein a placement groove is formed on the shoe sole 2, a detachable electric storage charging device 19 is disposed in the placement groove, the electric storage charging device 19 comprises a body 20, a resettable pressing plate 4 is disposed on the body 20, a rack entry hole 7 is formed in the body 20, a fixed end of a sliding rack 6 is connected with the pressing plate 4, a free end of the sliding rack 6 extends into the body 20 through the rack entry hole 7, a pinion 21 is rotatably connected to the body 20, the pinion 21 is engaged with the sliding rack 6, a circular magnet 15 is rotatably connected to the body 20, a gear mechanism is connected between the circular magnet 15 and the pinion 21, a stationary coil 17 matched with the circular magnet 15 is mounted on the body 20, a storage battery is mounted on the body 20, and an electric power input unit is connected between the storage battery and the stationary coil 17, the storage battery is connected with a power output unit.

The utility model adopts a human body kinetic energy power storage mode, and the electric shoes are placed at the bottoms of the shoes such as the sports air cushions, the treading belt of the feet drives the internal machinery when the shoes move, the kinetic energy is converted into the electric energy, the electric energy is stored into chemical energy (lithium polymer) and then is output into the electric energy, and the novel emergency charging mode is formed; the charging device is small and exquisite in setting, can be used as required after running and walking for a period of time, is convenient to take out, and has a short-time emergency charging function for equipment such as mobile phones. The utility model provides a novel electric power storage mode by utilizing human body kinetic energy, relates to the field of converting mechanical energy into electric energy, is energy-saving and environment-friendly, and has the functions of small size, portability, and suitability for installation and emergency charging.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A movable charging device capable of storing human body kinetic energy comprises a vamp (1) and a sole (2), and is characterized in that a placement groove is formed in the sole (2), a detachable electric storage charging device (19) is arranged in the placement groove, the electric storage charging device (19) comprises a body (20), a pressing plate (4) capable of being reset is arranged on the body (20), a gear strip inlet hole (7) is formed in the body (20), the fixed end of a sliding gear strip (6) is connected with the pressing plate (4), the free end of the sliding gear strip (6) extends into the body (20) through the gear strip inlet hole (7), a pinion (21) is rotatably connected to the body (20), the pinion (21) is meshed with the sliding gear strip (6), a circular magnet (15) is rotatably connected to the body (20), a gear mechanism is connected between the circular magnet (15) and the pinion (21), and a fixed coil (17) matched with the circular magnet (15) is arranged on the body (20), the body (20) is provided with a storage battery, an electric power input unit is connected between the storage battery and the fixed coil (17), and the storage battery is connected with an electric power output unit.

2. The mobile charging device capable of storing human body kinetic energy according to claim 1, wherein the gear structure comprises a dual spur gear (13) and a unidirectional dual gear (14), the dual spur gear (13) is coaxially connected with the pinion (21), the unidirectional dual gear (14) is coaxially connected with the circular magnet (15), and the dual spur gear (13) is meshed with the unidirectional dual gear (14).

3. The mobile charging device capable of storing human body kinetic energy according to claim 2, wherein the pitch circle diameter of the unidirectional duplicate gear (14) is smaller than that of the duplicate spur gear (13).

4. The mobile charging device capable of storing human body kinetic energy according to claim 1, characterized in that a shaft (3) with a torsion spring is fixed between the body (20) and the pressure plate (4).

5. The mobile charging device capable of storing human body kinetic energy according to claim 1, wherein the body (20) and the pressure plate (4) are connected via a plurality of linear springs.

6. The mobile charging device capable of storing the kinetic energy of the human body according to any one of the claims 1, 4 or 5, wherein the pressing plate (4) is fixed with a pressing plate fastener (5), the body (20) is provided with a pressing plate fastening hole (8) matched with the pressing plate fastener (5), and the middle part of the pressing plate fastening hole (8) is provided with a pressing plate fastener (9).

7. The mobile charging device capable of storing the kinetic energy of the human body as claimed in claim 1, wherein the storage charging device (19) is detachably connected with the placing groove by a snap fit.

8. The mobile charging device capable of storing human body kinetic energy according to claim 1, characterized in that the storage battery is a soft package (12) of lithium polymer.

9. The mobile charging device capable of storing kinetic energy of human body according to claim 1, wherein the power input unit comprises a charging control device (16), and the charging control device (16) is connected with the storage battery and the fixed coil (17) through the circuit (11).

10. The mobile charging device capable of storing human body kinetic energy according to claim 1, wherein the power output unit comprises a power output USB universal interface (10) and a boost control device (18) which are arranged on the body (20), and the storage battery, the boost control device (18) and the power output USB universal interface (10) are sequentially connected through a circuit (11).

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