CN109038999B - Human body wearable power generation system - Google Patents

Abstract

The invention discloses a human body wearable power generation system, which comprises a fabric power generation module, a walking power generation module, a power generation ring power generation module, an intelligent waistband and an intelligent mobile phone, wherein the fabric power generation module is connected with the walking power generation module; the fabric power generation module is used for collecting sunlight electric energy generated by solar energy and weak mechanical electric energy in a movement process, and the fabric power generation module is used for transmitting the sunlight electric energy and the weak mechanical electric energy to the intelligent waistband module. The invention has the advantages that the kinetic energy generated by the movement of the human body can be collected and converted into electric energy through the power generation device for storage through the arrangement of the plurality of power generation modules, the exercise interesting experience of people can be promoted to a certain extent, the exercise enthusiasm is increased, and the obtained electric energy can be reused; meanwhile, the generated electric energy data can analyze the motion data of the human body, and people can be guided to reasonably move according to the data.

Description

Human body wearable power generation system

Technical Field

The invention belongs to the field of power generation systems, relates to a human body wearable technology, and particularly relates to a human body wearable power generation system.

Background

People do a great deal of exercise every day, and how to collect the exercise energy is an interesting topic. And lack a set of wearable and effectual power generation system of human body at present, can realize the electric energy of the synthetic collection of collection central unit intelligence waistband and realize functions such as storage discharge through bracelet foot ring, the clothes that can generate electricity fabric constitutes, shoes that can generate electricity respectively, simultaneously the data logging transmits for smart mobile phone, realizes human motion energy consumption analysis, gives reasonable body-building motion suggestion etc..

With the development of science and technology, each unit in the system can be gradually upgraded and miniaturized, and the interference to the normal human body movement is avoided. To achieve the above concept, a solution is now provided.

Disclosure of Invention

The invention aims to provide a human body wearable power generation system.

The purpose of the invention can be realized by the following technical scheme:

a human body wearable power generation system comprises a fabric power generation module, a walking power generation module, a power generation ring power generation module, an intelligent waistband and an intelligent mobile phone;

the fabric power generation module is used for collecting sunlight electric energy generated by solar energy and weak mechanical electric energy in the motion process, and the fabric power generation module is used for transmitting the sunlight electric energy and the weak mechanical electric energy to the intelligent belt module; the intelligent belt module is used for receiving sunlight electric energy and weak mechanical electric energy and storing the sunlight electric energy and the weak mechanical electric energy;

the walking power generation module is used for collecting walking electric energy generated in the walking process of a person and transmitting the walking electric energy to the intelligent belt module, and the intelligent belt module receives the walking electric energy transmitted by the walking power generation module and stores the walking electric energy; the walking power generation module is a pair of power generation shoes, each power generation shoe is used for collecting electric energy of a shoe part, each power generation shoe is used for transmitting the electric energy of the shoe part to the intelligent waistband, and the intelligent waistband is used for receiving and storing the electric energy of the shoe part;

the power generation ring power generation module comprises a bracelet power generation unit and a foot ring power generation unit; the bracelet power generation unit is used for collecting bracelet power generated during hand movement and transmitting the bracelet power to the intelligent belt, and the foot ring power generation unit is used for collecting foot ring power generated during foot movement and transmitting the foot ring power to the intelligent belt; the intelligent waistband receives bracelet electric energy transmitted by the bracelet power generation unit and stores the bracelet electric energy, and the intelligent waistband receives foot ring electric energy transmitted by the foot ring power generation unit and stores the foot ring electric energy.

Further, the fabric power generation module comprises a power generation garment woven by a power generation fabric, wherein the power generation fabric uses polyester fibers with small mass as raw materials, a metal layer is plated on the surface of the fibers, and a semiconductor coating material is plated on the metal layer and mainly comprises semiconductor crystalline silicon; the metal layer forms a solar cell power generation module for collecting light energy;

the second block of the power generation module formed by the power generation fabric further comprises an internal friction power generation module, the internal friction power generation module comprises a silver coating coated on the surface layer of the cloth, the silver coating is made of silver-plated fiber materials, a nano layer is arranged at the lower end of the silver coating and made of zinc oxide nano materials plated with polydimethylsiloxane, a gap exists between the silver coating and the nano layer, the L ED lamp can be directly lighted by electric energy generated when the silver coating and the nano layer are rubbed with each other, a contact layer is arranged at the lower end of the nano layer and is a surface of the fabric, which is in contact with the skin, and the contact layer is made of insulating substances.

Further, the power generation shoe comprises a pressure power generation device and a swinging power generation device;

the pressure power generation device comprises an interlayer arranged at the bottom of the shoe, and a plurality of first permanent magnets and first buffer springs which are arranged side by side at intervals are arranged in the interlayer; a first coil is wound on the first buffer spring; the first buffer spring is compressed by utilizing the pressure of a person on the sole when walking, so that a magnetic field generated by the first permanent magnet at the center is cut, and an induced current is generated; two ends of the first coil are also electrically connected with external leads, and the generated electric energy is transmitted out by using the external leads;

the swing power generation device comprises a second coil fixed on the side surface of the shoe, an insulation sleeve is fixed in the second coil, a second permanent magnet is sleeved in the insulation sleeve, and the second permanent magnet can reciprocate in the insulation sleeve along the central line of the second coil; when a human body moves, the human body can move back and forth along with the moving footsteps of the human body, and at the moment, the motion of the footsteps can drive the second permanent magnet to swing back and forth in the second coil to generate induced current in the second coil.

Further, the power generation ring power generation module comprises a bracelet power generation unit and a foot ring power generation unit; the bracelet power generation unit comprises a bracelet, and the foot ring power generation unit comprises a foot ring;

the power generation device comprises a first magnetic pole, a connecting rod is fixedly connected to the upper end of the first magnetic pole, a rotating section is further formed in the middle of the connecting rod, a second magnetic pole is further fixedly connected to the upper end of the connecting rod, a pointer is further sleeved in the middle of the rotating section, a connecting through hole is formed in the middle of the pointer, and the connecting through hole is matched with the rotating section;

the negative pole of the first magnetic pole faces upwards, the positive pole of the second magnetic pole faces downwards, and the negative pole of the first magnetic pole and the positive pole of the second magnetic pole are oppositely arranged; the first magnetic pole and the second magnetic pole form a magnetic field, the pointers are arranged in the bracelet and the foot ring, and the pointers are driven to rotate due to the motion of a human body, cut the magnetic induction lines to generate electromotive force, and at the moment, the battery is charged by the closed loop; still be connected with the wire on pointer and the bracelet respectively, the wire other end is connected respectively on the positive and negative pole of battery.

Furthermore, three input ends are arranged on the intelligent belt, and the fabric power generation module is electrically connected with the input end of the intelligent belt through a lead; the power-generating shoes are electrically connected with the fabric power generation module through wires, the power-generating shoes are indirectly electrically connected with the input end of the intelligent waistband through the fabric power generation module, and the bracelet power generation unit and the foot ring power generation unit transmit electric energy to the input end of the intelligent waistband in a wireless sensing mode;

the intelligent waistband is also provided with an output end which is used for transmitting the electric energy to an external electricity utilization module;

the intelligent waistband is connected with an intelligent mobile phone through a wireless network, the intelligent waistband is used for transmitting the received electric energy data to the intelligent mobile phone, and the intelligent mobile phone is used for analyzing the electric energy data to obtain human body movement and energy consumption;

the electric energy data comprises sunlight electric energy, weak mechanical electric energy, walking electric energy, shoe part electric energy, bracelet electric energy and foot ring electric energy.

The invention has the beneficial effects that: the invention has the advantages that the kinetic energy generated by the movement of the human body can be collected and converted into electric energy through the power generation device for storage through the arrangement of the plurality of power generation modules, the exercise interesting experience of people can be promoted to a certain extent, the exercise enthusiasm is increased, and the obtained electric energy can be reused; meanwhile, the generated electric energy data can analyze the motion data of the human body, so that people can be guided to reasonably move according to the data; the invention has simple structure and is easy to be used.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a block diagram of the system of the present invention;

FIG. 2 is a schematic structural diagram of a power generation device according to the present invention;

FIG. 3 is an exploded view of FIG. 2;

FIG. 4 is a schematic structural diagram of a fabric power generation module;

FIG. 5 is a schematic structural view of a pressure power generation device;

FIG. 6 is a schematic structural view of a swing power generation device;

FIG. 7 is a schematic cross-sectional view of the swing power generation apparatus;

fig. 8 is a schematic diagram of the power generation structure of various parts of the human body.

Detailed Description

As shown in fig. 1 and 8, a human body wearable power generation system includes a fabric power generation module, a walking power generation module, a power generation ring power generation module, a smart belt and a smart phone;

the fabric power generation module is used for collecting sunlight electric energy generated by solar energy and weak mechanical electric energy in the motion process, and the fabric power generation module is used for transmitting the sunlight electric energy and the weak mechanical electric energy to the intelligent belt module; the intelligent belt module is used for receiving sunlight electric energy and weak mechanical electric energy and storing the sunlight electric energy and the weak mechanical electric energy;

the walking power generation module is used for collecting walking electric energy generated in the walking process of a person and transmitting the walking electric energy to the intelligent belt module, and the intelligent belt module receives the walking electric energy transmitted by the walking power generation module and stores the walking electric energy; the walking power generation module is a pair of power generation shoes, each power generation shoe is used for collecting electric energy of a shoe part, each power generation shoe is used for transmitting the electric energy of the shoe part to the intelligent waistband, and the intelligent waistband is used for receiving and storing the electric energy of the shoe part;

the power generation ring power generation module comprises a bracelet power generation unit and a foot ring power generation unit; the bracelet power generation unit is used for collecting bracelet power generated during hand movement and transmitting the bracelet power to the intelligent belt, and the foot ring power generation unit is used for collecting foot ring power generated during foot movement and transmitting the foot ring power to the intelligent belt; the intelligent belt receives bracelet electric energy transmitted by the bracelet power generation unit and stores the bracelet electric energy, and the intelligent belt receives foot ring electric energy transmitted by the foot ring power generation unit and stores the foot ring electric energy;

further, as shown in fig. 4, the fabric power generation module comprises a power generation garment woven by a power generation fabric, wherein the power generation fabric uses polyester fibers with small mass as raw materials, the surfaces of the fibers are plated with a metal layer 5, the metal layer is plated with a semiconductor coating material, and the semiconductor coating material is mainly semiconductor crystal silicon; the metal layer 5 forms a solar cell power generation module for collecting light energy;

the second block of the power generation module formed by the power generation fabric further comprises an internal friction power generation module, wherein the internal friction power generation module comprises a silver coating 501 coated on the surface layer of the cloth, the silver coating 501 is made of silver-plated fiber materials, a nano layer 6 is arranged at the lower end of the silver coating, the nano layer 6 is made of zinc oxide nano materials plated with polydimethylsiloxane, a gap exists between the silver coating 501 and the nano layer 6, an L ED lamp can be directly lightened by electric energy generated when the silver coating 501 and the nano layer 6 are rubbed with each other, a contact layer 601 is arranged at the lower end of the nano layer 6, the contact layer 601 is a surface of the fabric in contact with the skin, and the contact layer 601 is made of insulating substances;

further, the power generation shoe comprises a pressure power generation device and a swinging power generation device;

as shown in fig. 5, the pressure power generation device includes an interlayer disposed at the bottom of the shoe, and a plurality of first permanent magnets 7 and first buffer springs 701 are disposed in the interlayer at intervals side by side; a first coil is wound on the first buffer spring 701; the first buffer spring 701 is compressed by using the pressure of the person on the sole when walking, so that the magnetic field generated by the first permanent magnet 7 cut at the center is achieved, and an induced current is generated; the two ends of the first coil are also electrically connected with external leads 702, the generated electric energy is transmitted out by using the external leads 702, and meanwhile, due to the coexistence of a plurality of same devices, when a person treads on the first coil and then contacts the permanent magnet, discomfort does not occur to the feet;

as shown in fig. 6-7, the swing power generation device includes a second coil 8 fixed on a side surface of a shoe, an insulating sleeve 801 is fixed inside the second coil 8, a second permanent magnet 802 is sleeved inside the insulating sleeve 801, and the second permanent magnet 802 can reciprocate along a center line of the second coil 8 in the insulating sleeve 801; when a human body moves, the human body moves back and forth along with the moving footsteps of the human body, and at the moment, the motion of the footsteps drives the second permanent magnet 802 to swing back and forth in the second coil 8 to generate induction current in the second coil 8;

further, the power generation ring power generation module comprises a bracelet power generation unit and a foot ring power generation unit; bracelet electricity generation unit includes the bracelet, foot ring electricity generation unit includes the foot ring, and the electricity generation principle is as follows:

as shown in fig. 2-3: the power generation device comprises a first magnetic pole 1, a connecting rod 2 is fixedly connected to the upper end of the first magnetic pole 1, a rotating section 201 is further arranged in the middle of the connecting rod 2, a second magnetic pole 3 is further fixedly connected to the upper end of the connecting rod 2, a pointer 4 is further sleeved in the middle of the rotating section 201, a connecting through hole 401 is formed in the middle of the pointer 4, and the connecting through hole 401 is matched with the rotating section 201;

the negative pole of the first magnetic pole 1 faces upwards, the positive pole of the second magnetic pole 3 faces downwards, and the negative pole of the first magnetic pole 1 and the positive pole of the second magnetic pole 3 are oppositely arranged; the first magnetic pole 1 and the second magnetic pole 3 form a magnetic field, the pointer 4 arranged in the bracelet and the foot ring drives the pointer 4 to rotate due to the movement of a human body, the magnetic induction wire is cut to generate electromotive force, and at the moment, the battery is charged by a closed loop; the pointer and the bracelet are respectively connected with a lead, and the other end of the lead is respectively connected to the positive electrode and the negative electrode of the battery;

furthermore, three input ends are arranged on the intelligent belt, and the fabric power generation module is electrically connected with the input end of the intelligent belt through a lead; the power-generating shoes are electrically connected with the fabric power generation module through wires, the power-generating shoes are indirectly electrically connected with the input end of the intelligent waistband through the fabric power generation module, and the bracelet power generation unit and the foot ring power generation unit transmit electric energy to the input end of the intelligent waistband in a wireless sensing mode;

the intelligent waistband is also provided with an output end which is used for transmitting the electric energy to an external electricity utilization module;

the intelligent waistband is connected with an intelligent mobile phone through a wireless network, the intelligent waistband is used for transmitting the received electric energy data to the intelligent mobile phone, and the intelligent mobile phone is used for analyzing the electric energy data to obtain human body movement and energy consumption;

the electric energy data comprises sunlight electric energy, weak mechanical electric energy, walking electric energy, shoe part electric energy, bracelet electric energy and foot ring electric energy.

The working principle of the invention is as follows: when people walk or run, the arms and the legs can move continuously, and according to the point, the power generation rings can be worn on the hands and the feet, and the power generation rings are actually electromagnetic power generation devices. Can convert kinetic energy into electric energy. In addition, the clothes made of the fibers capable of generating electricity can be manufactured, and heat energy is converted into kinetic energy. Meanwhile, when people walk, pressure is generated on the ground, and the feet swing back and forth to generate kinetic energy. By utilizing the properties, the power generation shoe can be manufactured. And finally, the three parts are transmitted to a core unit of the system, namely an intelligent belt, so that the collection, storage and utilization of electric energy are realized, the collected electric quantity is subjected to data recording, the data can be transmitted to a smart phone, an APP (application) for designing the smart phone can receive the data, the energy consumption of each part of a human body is analyzed, and the analysis and suggestion of healthy movement are given.

The invention has the advantages that the kinetic energy generated by the movement of the human body can be collected and converted into electric energy through the power generation device for storage through the arrangement of the plurality of power generation modules, the exercise interesting experience of people can be promoted to a certain extent, the exercise enthusiasm is increased, and the obtained electric energy can be reused; meanwhile, the generated electric energy data can analyze the motion data of the human body, so that people can be guided to reasonably move according to the data; the invention has simple structure and is easy to be used.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (1)

1. A human body wearable power generation system is characterized by comprising a fabric power generation module, a walking power generation module, a power generation ring power generation module, an intelligent waistband and an intelligent mobile phone;

the fabric power generation module is used for collecting sunlight electric energy generated by solar energy and weak mechanical electric energy in the motion process, and the fabric power generation module is used for transmitting the sunlight electric energy and the weak mechanical electric energy to the intelligent belt module; the intelligent belt module is used for receiving sunlight electric energy and weak mechanical electric energy and storing the sunlight electric energy and the weak mechanical electric energy;

the walking power generation module is used for collecting walking electric energy generated in the walking process of a person and transmitting the walking electric energy to the intelligent belt module, and the intelligent belt module receives the walking electric energy transmitted by the walking power generation module and stores the walking electric energy; the walking power generation module is a pair of power generation shoes, each power generation shoe is used for collecting electric energy of a shoe part, each power generation shoe is used for transmitting the electric energy of the shoe part to the intelligent waistband, and the intelligent waistband is used for receiving and storing the electric energy of the shoe part;

the power generation ring power generation module comprises a bracelet power generation unit and a foot ring power generation unit; the bracelet power generation unit is used for collecting bracelet power generated during hand movement and transmitting the bracelet power to the intelligent belt, and the foot ring power generation unit is used for collecting foot ring power generated during foot movement and transmitting the foot ring power to the intelligent belt; the intelligent belt receives bracelet electric energy transmitted by the bracelet power generation unit and stores the bracelet electric energy, and the intelligent belt receives foot ring electric energy transmitted by the foot ring power generation unit and stores the foot ring electric energy;

the fabric power generation module comprises a power generation garment woven by a power generation fabric, wherein the power generation fabric uses polyester fibers with small mass as raw materials, the surface of the fibers is plated with a metal layer (5), the metal layer is plated with a semiconductor coating material, and the semiconductor coating material is mainly semiconductor crystalline silicon; the metal layer (5) forms a solar cell power generation module for collecting light energy;

the second block of the power generation module formed by the power generation fabric further comprises an internal friction power generation module, wherein the internal friction power generation module comprises a silver coating (501) coated on the surface layer of the cloth, the silver coating (501) is made of silver-plated fiber materials, a nano layer (6) is arranged at the lower end of the silver coating, the nano layer (6) is made of zinc oxide nano materials plated with polydimethylsiloxane, a gap exists between the silver coating (501) and the nano layer (6), the L ED lamp can be directly lighted by electric energy generated when the silver coating (501) and the nano layer (6) are rubbed with each other, a contact layer (601) is arranged at the lower end of the nano layer (6), the contact layer (601) is a surface of the fabric in contact with the skin, and the contact layer (601) is made of insulating substances;

the power-generating shoes comprise a pressure power generation device and a swinging power generation device;

the pressure power generation device comprises an interlayer arranged at the bottom of the shoe, and a plurality of first permanent magnets (7) and first buffer springs (701) which are arranged side by side at intervals are arranged in the interlayer; a first coil is wound on the first buffer spring (701); the first buffer spring (701) is compressed by the pressure of a person on the sole when walking, so that a magnetic field generated by the first permanent magnet (7) cutting at the center is achieved, and induced current is generated; two ends of the first coil are also electrically connected with an external lead (702), and the generated electric energy is transmitted out by using the external lead (702);

the swing power generation device comprises a second coil (8) fixed on the side face of the shoe, an insulating sleeve (801) is fixed inside the second coil (8), a second permanent magnet (802) is sleeved in the insulating sleeve (801), and the second permanent magnet (802) can reciprocate in the insulating sleeve (801) along the central line of the second coil (8); when a human body moves, the human body moves back and forth along with the moving footsteps of the human body, and the motion of the footsteps drives the second permanent magnet (802) to swing back and forth in the second coil (8) to generate induction current in the second coil (8);

the power generation ring power generation module comprises a bracelet power generation unit and a foot ring power generation unit; the bracelet power generation unit comprises a bracelet, and the foot ring power generation unit comprises a foot ring;

the power generation device comprises a first magnetic pole (1), a connecting rod (2) is fixedly connected to the upper end of the first magnetic pole (1), a rotating section (201) is further formed in the middle of the connecting rod (2), a second magnetic pole (3) is further fixedly connected to the upper end of the connecting rod (2), a pointer (4) is further sleeved in the middle of the rotating section (201), a connecting through hole (401) is formed in the middle of the pointer (4), and the connecting through hole (401) is matched with the rotating section (201);

the negative pole of the first magnetic pole (1) faces upwards, the positive pole of the second magnetic pole (3) faces downwards, and the negative pole of the first magnetic pole (1) and the positive pole of the second magnetic pole (3) are oppositely arranged; the first magnetic pole (1) and the second magnetic pole (3) form a magnetic field, the pointer (4) is arranged in the bracelet and the foot ring, the pointer (4) is driven to rotate by the motion of a human body, the magnetic induction wire is cut to generate electromotive force, and at the moment, the battery is charged by a closed loop; the pointer (4) and the hand ring are respectively connected with a lead, and the other end of the lead is respectively connected to the positive electrode and the negative electrode of the battery;

the intelligent waistband is provided with three input ends, and the fabric power generation module is electrically connected with the input end of the intelligent waistband through a lead; the power-generating shoes are electrically connected with the fabric power generation module through wires, the power-generating shoes are indirectly electrically connected with the input end of the intelligent waistband through the fabric power generation module, and the bracelet power generation unit and the foot ring power generation unit transmit electric energy to the input end of the intelligent waistband in a wireless sensing mode;

the intelligent waistband is also provided with an output end which is used for transmitting the electric energy to an external electricity utilization module; the intelligent waistband is connected with an intelligent mobile phone through a wireless network, the intelligent waistband is used for transmitting the received electric energy data to the intelligent mobile phone, and the intelligent mobile phone is used for analyzing the electric energy data to obtain human body movement and energy consumption;

the electric energy data comprises sunlight electric energy, weak mechanical electric energy, walking electric energy, shoe part electric energy, bracelet electric energy and foot ring electric energy.

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