CN108887801A - Nano friction power generation insole - Google Patents

Abstract

Nano friction power generation insole of the invention, its protective graid is made of nano generator braiding, insole is set to have the function of independent power generation to be internal circuit board power supply, processing module on circuit board is after receiving the push button signalling of key, controllable sterilizing module is sterilized to shoes sterilization, to maintain shoe wearer health.

Description

Nano friction power generation insole

Technical field

The invention belongs to the fields of dressing, and in particular to a kind of nano friction power generation insole.

Background technique

With the raising and the accelerating rhythm of life of living standards of the people, more and more people wish shoes, insole How intelligent, functionalization, solve the above problems, improve the human health of the whole people, had been to be concerned by more and more people.

Summary of the invention

It generates electricity insole technical problem to be solved by the invention is to provide a kind of nano friction, there is spontaneous electrical function and can Sterilizing is carried out to shoes.

The technical solution that the present invention solves above-mentioned technical problem is as follows：

A kind of nano friction generates electricity insole, including insole body, protective graid, key, is formed in the insole body Cavity is installed, the installation cavity is equipped with circuit board, and the protective graid is overlying on above the insole body；The protective graid It weaves to obtain by threadiness the and stretchable nano generator produced electricl energy, constitutes nano friction electricity generation module；The circuit board Including processing module, power module, sterilizing module, control module；The nano friction electricity generation module passes through conducting wire and institute Power module connection is stated, and is charged for the power module；The power module is respectively the processing module, sterilizing mould Block power supply；The processing module is keyed with sterilizing module and described press respectively, and it is concurrent that the key receives push button signalling It gives the processing module and carries out signal processing, the sterilizing module receives the disinfection signal of the processing module and carries out Sterilizing.

Further, the circuit board further includes wireless communication module, and the wireless communication module and the processing module connect It connects, connect with terminal wireless communication, carry out the wireless control signal of self terminal and be sent to the processing module to carry out for receiving Signal processing.

Further, the circuit board further includes locating module, is connect respectively with the power module and the processing module, The locating module for positioning current location and being sent to the processing module, the processing module to current location at It manages and the terminal is sent to by the wireless communication module.

Further, the circuit board further includes electrothermal module, the electrothermal module respectively with the processing module and described Power module connection, the electric heating for receiving the processing module controls signal, and is electrically heated.

Further, the nano friction generator is radially followed successively by from inside to outside：Fibrous base layer, internal electrode layer, One frictional electricity layer, the second frictional electricity layer, outer electrode layer, encapsulated layer；The first frictional electricity layer and the second frictional electricity Layer is made of the different material of dielectric constant, and friction circle is formed between the first frictional electricity layer and the second frictional electricity layer Face is in contact or separates under external force and produces electricl energy；The internal electrode layer and the outer electrode layer pass through respectively leads Line draws the insole.

Further, the distance of the frictional interface is 1-200 μm.

Further, the first frictional electricity layer and/or the second frictional electricity layer are made of high molecular material.

Further, it the surface portion towards the second frictional electricity layer of the first frictional electricity layer or all receives Rice structure, and/or, the surface portion or all nanometers towards the first frictional electricity layer of the second frictional electricity layer Structure.

Further, it is additionally provided with friction member above the protective graid, is additionally provided with down and rubs below the protective graid Wipe part；The upper friction member includes upper electrode layer and upper frictional electricity layer, and the upper frictional electricity layer connects with the protective graid Touching connection；The lower friction member includes lower electrode layer and lower frictional electricity layer, the lower frictional electricity layer and the protective graid It connects；The protective graid is equipped with several through-holes, and the upper frictional electricity layer and the lower frictional electricity layer are in outer masterpiece It contacts or separates in the through hole under and produce electricl energy.

Further, the upper frictional electricity layer and the lower frictional electricity layer are made of the different material of dielectric constant.

The beneficial effects of the invention are as follows：Nano friction power generation insole provided by the invention, including insole body, plaiting table Layer, key, installation cavity is formed in the insole body, and the installation cavity is overlying on equipped with circuit board, the protective graid Above the insole body；The protective graid is woven to obtain by threadiness the and stretchable nano generator produced electricl energy, structure At nano friction electricity generation module；The circuit board includes processing module, power module, sterilizing module, control module；It is described Nano friction electricity generation module is connect by conducting wire with the power module, and is charged for the power module；The power module The respectively described processing module, sterilizing module for power supply；The processing module respectively with sterilizing module and the key Connection, the key, which receives push button signalling and is sent to the processing module, carries out signal processing, and the sterilizing module connects It receives the disinfection signal of the processing module and carries out sterilizing.Nano friction of the invention generates electricity insole, protective graid by Nano generator braiding is constituted, the place for making insole have the function of independent power generation to be internal circuit board power supply, on circuit board Module is managed after receiving the push button signalling of key, can control sterilizing module to sterilize to shoes sterilization, to maintain shoes Wearer's body health.

Detailed description of the invention

It, below will be to specific in order to illustrate more clearly of the specific embodiment of the invention or technical solution in the prior art Embodiment or attached drawing needed to be used in the description of the prior art are briefly described.In all the appended drawings, similar element Or part is generally identified by similar appended drawing reference.In attached drawing, each element or part might not be drawn according to actual ratio.

Fig. 1 is the structural block diagram of the circuit board of nano friction power generation insole of the invention；

Fig. 2 is the schematic cross-section one of nano friction power generation insole of the invention；

Fig. 3 is the schematic cross-section of nano generator of the invention；

Fig. 4 is the schematic cross-section two of nano friction power generation insole of the invention；

Fig. 5 is the circuit diagram of wireless communication module of the invention；

Fig. 6 is the circuit diagram of power module of the invention；

Fig. 7 is the circuit diagram of locating module of the invention.

Appended drawing reference：

10- insole body, 20-protective graids, 21-fibrous base layers, 22- internal electrode layer, the first frictional electricity of 23- Layer, 24- the second frictional electricity layer, 25- outer electrode layer, 26- encapsulated layer, 27- through-hole, the upper friction member of 30-, 31- upper electrode layer, The upper frictional electricity layer of 32-, frictional electricity layer under 41-, 42- lower electrode layer；50- key, 60- circuit board, 61- processing module, 62- Power module, 63- sterilizing module, 64- wireless communication module, 65- locating module, 66- electrothermal module, 70- terminal.

Specific embodiment

It is described in detail below in conjunction with embodiment of the attached drawing to technical solution of the present invention.Following embodiment is only used for Clearly illustrate technical solution of the present invention, therefore be only used as example, and cannot be used as a limitation and limit protection model of the invention It encloses.

The insole as shown in Figure 1, nano friction provided by the invention generates electricity, including insole body 10, protective graid 20, key 50, installation cavity is formed in insole body 10, installation cavity is equipped with circuit board 60, and protective graid 20 is overlying on insole body 10 Side；Protective graid 20 is woven to obtain by threadiness the and stretchable nano generator produced electricl energy, constitutes nano friction power generation mould Block；Circuit board 60 includes processing module 61, power module 62, sterilizing module 63, control module；Nano friction electricity generation module It is connect by conducting wire with power module 62, and charged for power module 62；Power module 62 respectively processing module 61, sterilization disappear Malicious module 63 is powered；Processing module 61 is connect with sterilizing module 63 and key 50 respectively, and key 50 receives push button signalling simultaneously It is sent to processing module 61 and carries out signal processing, the disinfection signal of 63 receiving processing module 61 of sterilizing module is simultaneously sterilized Disinfection.

Nano friction power generation insole of the invention, protective graid 20 are made of nano generator braiding, have insole Independent power generation function to power for internal circuit board 60, processing module 61 on circuit board 60 receive key 50 by After key signals, sterilizing module 63 can control to sterilize to shoes sterilization, to maintain shoe wearer health.

More preferably, sterilizing module includes light source unit, and light source unit can produce ultraviolet light, to make of the invention receive The ultraviolet light that rice triboelectricity insole generates can destroy the DNA of bacterium, virus, play disinfection tool.

Further, circuit board 60 further includes wireless communication module 64, wireless communication module 64 connect with processing module 61, with The wireless communication connection of terminal 70 carries out signal for receiving to carry out the wireless control signal of self terminal 70 and be sent to processing module 61 Processing.

Specifically, wireless communication module 64 be 3G/4G module, WIFI module, infrared remote control module, bluetooth module, ZigBee module or NFC module.

In the present embodiment, as shown in figure 5, wireless communication module 64 uses the bluetooth main control chip of model CSR1000 The 7th pin RF of U3, bluetooth main control chip U3 are connected reception with radio-frequency antenna ANT from terminal 70 by 2.4G radio frequency chip U5 Control signal, and the feedback signal of processing module 61 is sent to terminal 70.In addition, the 1st of bluetooth main control chip U3 the draws Foot is VDD_BAT, is connected for the feeder ear VDD with voltage regulator circuit and receives input power.

For example, installing insole in terminal 70 controls client, in client input to the control command of insole, terminal 70 is logical The wireless communication module 64 that control command is sent to insole by bluetooth is crossed, processing module 61 is then transferred to and carries out signal processing, And control command is sent to corresponding other modules to execute control command.

Further, circuit board 60 further includes locating module 65, is connect respectively with power module 62 and processing module 61, positioning For positioning current location and being sent to processing module 61, processing module 61 handles current location and passes through nothing module 65 Line communication module 64 is sent to terminal 70.

Specifically, as shown in fig. 7, locating module 65 includes：Positioning chip U4 positions resistance RD1, positions resistance RD2, fixed Position capacitor CD1, positioning lamp LED；One foot of positioning chip connects power supply, and two foot of positioning chip, three feet connect processing module 61, positioning chip Five feet ground connection, for six foot of positioning chip by positioning resistance RD2 ground connection, six foot of positioning chip is that resetting pin passes through positioning capacitor CD1 Connect power supply；Positioning resistance RD1 and positioning lamp LED is connected in series between one foot of positioning chip and five feet；When positioning chip is fixed When during position, positioning lamp LED flash for prompting.

Current location information can be sent to processing module 61 by locating module 65, and processing module 61 carries out signal processing Afterwards, module 64 is sent to terminal 70 by wireless communication, and terminal 70 can search the current position of insole at any time.Except insole wearer People in addition can also search the current location of insole wearer, to find its wearer by terminal 70.

Further, circuit board 60 further includes electrothermal module 66, electrothermal module 66 respectively with processing module 61 and power module 62 connections, the electric heating for receiving processing module 61 controls signal, and is electrically heated.

When weather is colder, the ice-cold people of some tricks can be sent push button signalling by key 50 or pass through 70 nothing of terminal Line sends a signal to processing module 61, and call for heat can be transmitted to electrothermal module 66 to be electrically heated in processing module 61, thus Warm using the shoes of the insole, wearer will not be frozen.

Further, as shown in Figure 2,3, nano friction generator is radially followed successively by from inside to outside：It is fibrous base layer 21, interior Electrode layer 22, the first frictional electricity layer 23, the second frictional electricity layer 24, outer electrode layer 25, encapsulated layer 26；First frictional electricity layer 23 are made of with the second frictional electricity layer 24 the different material of dielectric constant, and the first frictional electricity layer 23 and the second frictional electricity Frictional interface is formed between layer 24, is in contact or separates under external force and produce electricl energy；Internal electrode layer 22 and external electrode Layer 25 draws insole by conducting wire respectively.

Nano friction generator is connect by conducting wire with power module 62, can be used for charging for rechargeable battery, can also be simultaneously Power supply is provided for processing module 61, sterilizing module 63, locating module 65, wireless communication module 64, electrothermal module 66.

Specifically, the power module 62 of the application, for being processing module 61, sterilizing module 63, radio communication mold Block 64, locating module 65, electrothermal module 66 provide power supply.Specifically, as shown in fig. 6, power module 62 includes rechargeable battery BAT, battery charge control circuit U1, power switch SW1；The input phase of nano friction generator and battery charge control circuit U1 Connection, the output of battery charge control circuit U1 are connected to the anode of rechargeable battery BAT, voltage regulator circuit by power switch SW1 The input of U2 is connected to the anode of rechargeable battery by power switch SW1, and the output of voltage regulator circuit U2 constitutes feeder ear VDD and is used for Control is processing module 61, sterilizing module 63, wireless communication module 64, locating module 65, the power supply of electrothermal module 66.It needs When charging, power switch SW1 is pressed, nano friction generator can charge to rechargeable battery BAT；When needing to power, Power switch SW1 is pressed, feeder ear VDD is processing module 61, sterilizing module 63, wireless communication module 64, locating module 65, electrothermal module 66 is powered.Further, diode D102 is common cathode diode, can meet rechargeable battery charging, power supply together Shi Jinhang.

Further, the distance of frictional interface is 1-200 μm.

Further, the first frictional electricity layer 23 and/or the second frictional electricity layer 24 are made of high molecular material.

Further, the surface portion or whole towards the second frictional electricity layer 24 of the first frictional electricity layer 23 For nanostructure, and/or, the surface portion or complete towards the first frictional electricity layer 23 of the second frictional electricity layer 24 Portion is nanostructure.

Further, the top of protective graid 20 is additionally provided with friction member 30, and the lower section of protective graid 20 is additionally provided with lower friction Part；Upper friction member 30 includes upper electrode layer 31 and upper frictional electricity layer 32, upper frictional electricity layer 32 and 20 company of contact of protective graid It connects；Lower friction member includes lower electrode layer 42 and lower frictional electricity layer 41, and lower frictional electricity layer 41 is connected with protective graid 20； Protective graid 20 is equipped with several through-holes 27, and upper frictional electricity layer 32 and lower frictional electricity layer 41 are under external force at through-hole 27 Contact is separated and is produced electricl energy.

Further, upper frictional electricity layer 32 and lower frictional electricity layer 41 are made of the different material of dielectric constant.

As shown in figure 4, upper friction member 30 and lower friction member 40 is respectively set in the upper and lower surface in protective graid 20, hair is utilized Protective graid 20 is designed with several through-holes 27 by the stretchable characteristic of threadiness of motor.Under external force, upper friction member 30 upper frictional electricity layer 32 contacts or is divided at the through-hole 27 of protective graid 20 with the lower frictional electricity layer 41 of lower friction member 40 From, it to generate potential difference between upper electrode layer 31 and lower electrode layer 42, can produce electric energy, increase the self power generation ability of insole, Sufficient electric energy is provided for circuit board 60.

Finally it should be noted that：The above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；To the greatest extent Present invention has been described in detail with reference to the aforementioned embodiments for pipe, those skilled in the art should understand that：Its according to So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into Row equivalent replacement；And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution The range of scheme should all cover within the scope of the claims and the description of the invention.

Claims (10)

1. The insole 1. a kind of nano friction generates electricity, which is characterized in that including insole body, protective graid, key, the insole body It is inside formed with installation cavity, the installation cavity is equipped with circuit board, and the protective graid is overlying on above the insole body；

   The protective graid is woven to obtain by threadiness the and stretchable nano generator produced electricl energy, constitutes nano friction power generation Module；

   The circuit board includes processing module, power module, sterilizing module；

   The nano friction electricity generation module is connect by conducting wire with the power module, and is charged for the power module；

   The power module is respectively the processing module, sterilizing module for power supply；

   The processing module is keyed with sterilizing module and described press respectively, and the key receives push button signalling and is simultaneously sent to The processing module carries out signal processing, and the sterilizing module receives the disinfection signal of the processing module and sterilized Disinfection.
2. The insole 2. nano friction according to claim 1 generates electricity, which is characterized in that the circuit board further includes wireless communication Module, the wireless communication module connect with the processing module, connect with terminal wireless communication, carry out self terminal for receiving Wireless control signal is simultaneously sent to the processing module progress signal processing.
3. The insole 3. nano friction according to claim 2 generates electricity, which is characterized in that the circuit board further includes positioning mould Block is connect with the power module and the processing module respectively, and the locating module is for positioning current location and being sent to The processing module, the processing module handle to current location and are sent to the end by the wireless communication module End.
4. The insole 4. nano friction according to claim 1 generates electricity, which is characterized in that the circuit board further includes electric heating mould Block, the electrothermal module are connect with the processing module and the power module respectively, for receiving the electricity of the processing module Thermal control signal, and be electrically heated.
5. The insole 5. nano friction according to any one of claims 1 to 4 generates electricity, which is characterized in that

   The nano friction generator is radially followed successively by from inside to outside：Fibrous base layer, internal electrode layer, the first frictional electricity Layer, the second frictional electricity layer, outer electrode layer, encapsulated layer；

   The first frictional electricity layer and the second frictional electricity layer are made of the different material of dielectric constant, and first friction Frictional interface is formed between charge generating layer and the second frictional electricity layer, is in contact or separates under external force and produce electricl energy；

   The internal electrode layer and the outer electrode layer pass through conducting wire respectively and draw the insole.
6. The insole 6. nano friction according to claim 5 generates electricity, which is characterized in that the distance of the frictional interface is 1- 200μm。
7. The insole 7. nano friction according to claim 5 generates electricity, which is characterized in that the first frictional electricity layer and/or Second frictional electricity layer is made of high molecular material.
8. The insole 8. nano friction according to claim 5 generates electricity, which is characterized in that the first frictional electricity layer towards The surface portion or all nanostructures of the second frictional electricity layer, and/or, the second frictional electricity layer towards institute State the surface portion or all nanostructures of the first frictional electricity layer.
9. The insole 9. nano friction according to claim 5 generates electricity, which is characterized in that be additionally provided with above the protective graid Upper friction member is additionally provided with lower friction member below the protective graid；

   The upper friction member includes upper electrode layer and upper frictional electricity layer, and the upper frictional electricity layer is contacted with the protective graid Connection；

   The lower friction member includes lower electrode layer and lower frictional electricity layer, and the lower frictional electricity layer is contacted with the protective graid Connection；

   The protective graid is equipped with several through-holes, and the upper frictional electricity layer and the lower frictional electricity layer exist under external force The through hole contact is separated and is produced electricl energy.
10. The insole 10. nano friction according to claim 9 generates electricity, which is characterized in that the upper frictional electricity layer and described Lower frictional electricity layer is made of the different material of dielectric constant.