CN205757471U - Self-driven meter step Luminous shoe - Google Patents

Abstract

The utility model proposes a kind of self-driven meter step Luminous shoe, including: shoes body；The luminescent device being arranged on shoes body, with luminous when walking；At least one friction generator being arranged in shoes body, at least one friction generator is connected with luminescent device, when at least one friction generator occurs friction under walking effect, exports electric energy；The energy-storage module being arranged in shoes body, energy-storage module is connected with at least one friction generator, to store the electric energy coming from least one friction generator；The pedometer module being arranged on shoes body, pedometer module is connected with energy-storage module, and pedometer module carries out counting step when walking and obtains step number of walking.This self-driven meter step Luminous shoe can realize lighting function and step function simultaneously, and can independently, continuous service, it is not necessary to maintenance operation, there is the advantage such as simple in construction, easy to use, energy utilization rate is high, low cost and environmental protection.

Description

Self-driven meter step Luminous shoe

Technical field

This utility model relates to circuit engineering field, particularly to one self-driven meter step Luminous shoe.

Background technology

Meter step Luminous shoe can not only meet people take exercise by running health time step function, and can meet when running night send out Light function, it is often more important that can be found in time by vehicle driver, especially more limited in sight line, such as at dense fog environment Or night, reduce danger during trip, it is to avoid the generation of traffic accident.

But, existing pedometer shoes can only meet step function, and Luminous shoe can only meet lighting function, it is impossible to has simultaneously and sends out Light function and step function, and pedometer shoes or Luminous shoe all power by carrying with battery, if there is no good waterproof measure, Then battery easily leaks electricity, makes moist or damages.Additionally, due to battery storage is in shoe body, the replacing of battery also will result in footwear Difficulty in tool design, reduces convenience and practicality, it is often more important that old and useless battery can bring environmental pollution.

Utility model content

One of technical problem that this utility model is intended to solve in correlation technique the most to a certain extent.

To this end, the purpose of this utility model is to propose a kind of self-driven meter step Luminous shoe, this self-driven meter step Luminous shoe is permissible Realize lighting function and step function simultaneously, and can independently, continuous service.

For reaching above-mentioned purpose, the utility model proposes a kind of self-driven meter step Luminous shoe, including:

Shoes body；

It is arranged at the luminescent device on described shoes body, with luminous when walking；

At least one friction generator being arranged in described shoes body, at least one friction generator described and described luminous organ Part is connected, and when at least one friction generator described occurs friction under walking effect, exports electric energy；

Being arranged at the energy-storage module in described shoes body, described energy-storage module is connected with at least one friction generator described, with The electric energy coming from least one friction generator described is stored；And

Being arranged at the pedometer module on described shoes body, described pedometer module is connected with described energy-storage module, described pedometer module Carry out counting step when walking and obtain step number of walking.

Further, described self-driven meter step Luminous shoe also includes:

First diode, the anode of described first diode is connected with the outfan of at least one friction generator described, described The negative electrode of the first diode is connected with described luminescent device；

Second diode, the negative electrode of described second diode is connected with the outfan of at least one friction generator described, described The anode of the second diode is connected with described energy-storage module.

Further, described energy-storage module includes:

Filter circuit, the input of described filter circuit is connected with the outfan of described second diode；

Mu balanced circuit, the input of described mu balanced circuit is connected with the outfan of described filter circuit；

Transforming circuit, the input of described transforming circuit is connected with the outfan of described mu balanced circuit；And

Energy-storage travelling wave tube, the input of described energy-storage travelling wave tube is connected with the outfan of described transforming circuit, described energy-storage travelling wave tube defeated Go out end to be connected with described pedometer module.

Further, described pedometer module includes:

Acquisition Circuit, the input of described Acquisition Circuit is connected with the outfan of described energy-storage travelling wave tube, to gather paces signal；

A/D change-over circuit, the input of described A/D change-over circuit is connected with the outfan of described Acquisition Circuit；

Digit counter, the input of described digit counter is connected with the outfan of described A/D change-over circuit, with according to mould Paces signal after number conversion calculates umber of pulse, and then obtains described walking step number；And

First display device, the input of described first display device is connected with the outfan of described digit counter, with display Described walking step number.

Further, described pedometer module includes:

On-off circuit, the input of described on-off circuit is connected with the outfan of described energy-storage travelling wave tube, described energy storage detected When the electric energy of storage is more than or equal to predetermined threshold value in element, export electric energy；

Processing circuit, the input of described process circuit is connected with the outfan of described on-off circuit, by defeated for described on-off circuit Go out the number of times of electric energy as meter step data；

Second display part, the input of described second display part is connected with the outfan of described process circuit, to show State walking step number.

It addition, described self-driven meter step Luminous shoe also includes:

Wireless communication module, described wireless communication module is connected with described pedometer module, to send described walking step number to intelligence Client.

Further, it is provided with cavity between positive pole friction material layer and the negative pole friction material layer of described friction generator, institute Stating and be filled with multiple friction material granule in cavity, wherein, the possessive volume of the plurality of friction material granule is less than described sky The receiving volume in chamber.The machine that this self-driven meter step Luminous shoe can be collected by perpendicular contact separate type based on above-mentioned friction generator Tool can be motion time sole land produce mechanical energy, transverse sliding collect sole swing time mechanical energy, improve Collecting mechanical energy, improves energy utilization rate, reduces cost.

Alternatively, described positive pole friction material layer is selected from PET (Polyethylene terephthalate, poly terephthalic acid second two Alcohol ester), aluminum, nylon；Described negative pole friction material layer selected from for PTFE (Polytetrafluoroethylene, politef), PDMS (Polydimethylsiloxane), polydimethylsiloxane)；Described friction material granule is selected from PET, aluminum, nylon.

Further, the particle diameter of described friction material granule is less than the bump pitch in described cavity, described friction material granule Between can not reunite.

Further, the type of described friction generator include three-decker friction generator, four-layer structure friction generator or One or more in five-layer structure friction generator；Described friction generator includes at least two surfaces constituting frictional interface, And described friction generator at least has two electrodes constituting signal output part；Two surfaces of described composition frictional interface In at least one surface be provided with micro-nano structure.

According to the self-driven meter step Luminous shoe that the utility model proposes, after accessing two parallel connection diodes in opposite direction, Rubbed when walking generation electric energy by friction generator, thus powers for luminescent device and pedometer module, and then can be simultaneously Realize lighting function and step function, and by the triboelectricity combined based on perpendicular contact separate type and transverse sliding Machine, it is achieved comprehensive collecting mechanical energy, thus can independently, continuous service, it is not necessary to maintenance operation, there is simple in construction, make By advantages such as convenient, energy utilization rate height, low cost and environmental protection.

Aspect and advantage that this utility model is additional will part be given in the following description, and part will become from the following description Obtain substantially, or recognized by practice of the present utility model.

Accompanying drawing explanation

This utility model above-mentioned and/or that add aspect and advantage will become bright from the following description of the accompanying drawings of embodiments Aobvious and easy to understand, wherein:

Fig. 1 is the structural representation of the self-driven meter step Luminous shoe according to one embodiment one of this utility model；

Fig. 2 is the structural representation of another the self-driven meter step Luminous shoe according to one embodiment one of this utility model；

Fig. 3 is the structural representation of the energy-storage module according to one embodiment one of this utility model；

Fig. 4 is the structural representation of the pedometer module according to one embodiment one of this utility model；

Fig. 5 is the structural representation of the pedometer module according to another embodiment one of this utility model；

Fig. 6 be the sole according to one embodiment one of this utility model when travelling forward friction material granule contact with primer View；

When Fig. 7 is the sole rearward movement according to one embodiment one of this utility model, friction material granule contacts with primer View；

Fig. 8 is friction material granule and the primer contact condition when landing of the sole according to one embodiment one of this utility model Schematic diagram；

Fig. 9 is the structural representation of the self-driven meter step Luminous shoe according to one embodiment two of this utility model.

Detailed description of the invention

Of the present utility model embodiment is described below in detail, and the example of described embodiment is shown in the drawings, the most from start to finish Same or similar label represents same or similar element or has the element of same or like function.Below with reference to attached The embodiment that figure describes is exemplary, it is intended to be used for explaining this utility model, and it is not intended that to limit of the present utility model System.

The self-driven meter step Luminous shoe proposed according to this utility model embodiment is described with reference to the accompanying drawings.According to Fig. 1 The structural representation of the self-driven meter step Luminous shoe of this utility model embodiment one.This self-driven meter step Luminous shoe includes: Shoes body 10, luminescent device 20, at least one friction generator 30, energy-storage module 40 and pedometer module 50.

Wherein, as it is shown in figure 1, luminescent device 20 is arranged on shoes body 10, with luminous when walking.At least one Individual friction generator 30 is arranged in shoes body 10, and at least one friction generator 30 is connected with luminescent device 20, When at least one friction generator 30 occurs friction under walking effect, export electric energy.Energy-storage module 40 is arranged at footwear In body 10, energy-storage module 40 is connected with at least one friction generator 30, with to coming from least one friction The electric energy of motor 30 stores.Pedometer module 50 is arranged on shoes body 10, pedometer module 50 and energy-storage module 40 are connected, and pedometer module 50 carries out counting step when walking and obtains step number of walking.The self-driven meter of this utility model embodiment Step Luminous shoe can realize lighting function and step function simultaneously, thus meter step, lighting function are combined in footwear, and knot Structure is simple, low price, Environmental Safety, and can independently, continuous service, it is not necessary to maintenance operation.

Alternatively, in an embodiment of the present utility model, the positive pole friction material layer of friction generator rubs with negative pole Wipe and be provided with cavity between material layer, cavity is filled with multiple friction material granule, wherein, multiple friction materials The possessive volume of grain is less than the receiving volume of cavity.Specifically, friction generator can be arranged on the sole of shoes body 10 In, wherein, the mode of operation of friction generator includes perpendicular contact separate type mode of operation and transverse sliding Working mould Formula, positive pole friction material layer can be selected from one or more in PET, aluminum, nylon；Negative pole friction material layer is permissible It is selected from as one or more in PTFE, PDMS；Friction material granule can be selected from PET, aluminum, nylon Plant or multiple, and the particle diameter of friction material granule is less than the bump pitch in cavity, can not roll into a ball between friction material granule Poly-.

For example, being currently applied to the friction generator of pedometer shoes or Luminous shoe, mode of operation is divided based on perpendicular contact From formula, when the mechanical energy of collection is motion, sole lands the mechanical energy produced, it is impossible to when effectively collecting motion before and after sole Mechanical energy during swing.But, the friction generator mode of operation of this utility model embodiment is to divide based on perpendicular contact Combine from formula and transverse sliding, when when the mechanical energy i.e. collected by perpendicular contact separate type is motion, sole lands The mechanical energy produced, the mechanical energy produced during sole swing when the mechanical energy that transverse sliding is collected is motion, receive Collect the in hgher efficiency of mechanical energy, improve energy utilization rate, reduce cost.

In embodiment of the present utility model, friction generator is a kind of new green environment protection energy conversion device, based on Triboelectrification and electrostatic induction coupling can collect the mechanical energy in surrounding, and are converted to electric energy, have service life Long, preparation technology simple, low cost, is easy to the feature such as scale of mass production, environmental protection.This utility model embodiment Set up a kind of self actuating system based on friction generator, by based on step Luminous shoe, meter step, lighting function can be realized simultaneously, Power without battery, so can independently, continuous service, it is not necessary to maintenance operation.

Further, in an embodiment of the present utility model, as in figure 2 it is shown, self-driven meter step Luminous shoe also wraps Include: the first diode 60 and the second diode 70.Wherein, the anode of the first diode 60 is sent out with at least one friction The outfan of motor 30 is connected, and the negative electrode of the first diode 60 is connected with luminescent device 20；Second diode 70 Negative electrode is connected with the outfan of at least one friction generator 30, the anode of the second diode 70 and energy-storage module 40 phase Even.

It should be noted that the outgoing management circuit that Fig. 2 is friction generator, what friction generator produced is alternating current, Two parallel diodes are accessed, such as the first diode 60 and the second diode 70 in friction generator outgoing management circuit Shown in, in opposite direction, a part give the power supply such as luminescent device 20 (such as LED or light bar) realize lighting function, A part powers to energy-storage module 40, and then powers for pedometer module 50, it is achieved step function, and then can be the most real Now meter step lighting function, and the electric energy that can effectively simplify, utilize triboelectricity to produce.

Wherein, in an embodiment of the present utility model, luminescent device 20 can be arranged on the sole of shoes body 10 And/or on vamp.Such as, when luminescent device 20 is arranged on sole, luminescent device 20 can be arranged on the side of sole, When luminescent device 20 is arranged on vamp, vamp can include that top layer and nexine, luminescent device 20 can be arranged on top layer And between nexine.Alternatively, luminescent device 20 can be LED, as included multiple adopting surface mounted LED, The most multiple adopting surface mounted LEDs can be arranged into mark shape of man's shape, phonetic shape, shoes etc., at this not Make concrete restriction.

Further, in an embodiment of the present utility model, as it is shown on figure 3, energy-storage module 40 can be arranged on On the sole of shoes body 10 and/or vamp, energy-storage module 40 includes: filter circuit 41, mu balanced circuit 42, transformation electricity Road 43 and energy-storage travelling wave tube 44.Wherein, the input of filter circuit 41 and the outfan of the second diode 70 are connected.Surely The input of volt circuit 42 is connected with the outfan of filter circuit 41.The input of transforming circuit 43 and mu balanced circuit 42 Outfan be connected.The input of energy-storage travelling wave tube 44 is connected with the outfan of transforming circuit 43, energy-storage travelling wave tube 44 defeated Go out end to be connected with pedometer module 50.

Specifically, energy-storage module 40 includes filter circuit 41, mu balanced circuit 42, transforming circuit 43 and energy-storage travelling wave tube 44. Wherein, filter circuit 41 is connected with the outfan of reverse diode (the i.e. second diode 70), with will be through reverse two poles The unidirectional current of the single-phase pulsation of pipe output is filtered processing；Mu balanced circuit 42 is connected with filter circuit 41, filtering Unidirectional current after the filtering clutter interference of wave circuit 41 output carries out voltage stabilizing；Transforming circuit 43 is connected with mu balanced circuit 42, Transformation is carried out with the unidirectional current exported by mu balanced circuit 42；Energy-storage travelling wave tube 44 is connected with transforming circuit 43, with by transformation The unidirectional current of circuit 43 output stores, and energy-storage travelling wave tube 44 can be lithium battery, Ni-MH battery, super capacitor etc. Energy-storage travelling wave tube.

Further, in an embodiment of the present utility model, as shown in Figure 4, pedometer module 50 can be arranged on On the sole of shoes body 10 and/or vamp, pedometer module 50 includes: Acquisition Circuit 51, A/D change-over circuit 52, number Word counter 53 and the first display device 54.Wherein, the input of Acquisition Circuit 51 and the outfan of energy-storage travelling wave tube 44 It is connected, to gather paces signal.The input of A/D change-over circuit 52 is connected with the outfan of Acquisition Circuit 51.Number The input of word counter 53 is connected with the outfan of A/D change-over circuit 52, to believe according to the paces after analog digital conversion Number calculate umber of pulse, and then obtain walk step number.The input of the first display device 54 is defeated with digit counter 53 Go out end to be connected, walk step number with display line.

Wherein, specifically, A/D change-over circuit 52 turns for the paces signal of Acquisition Circuit 51 output is carried out modulus Change；Digit counter 53 is used for calculating umber of pulse, obtains step number of walking；First display device 54 is used for showing walking Step number.

Further, in another embodiment of the present utility model, as it is shown in figure 5, pedometer module 50 includes: open Close circuit 51, process circuit 52 and second display part 53.Wherein, the input of on-off circuit 51 and energy-storage travelling wave tube The outfan of 44 is connected, when in energy-storage travelling wave tube 44 being detected, the electric energy of storage is more than or equal to predetermined threshold value, and output electricity Energy；The input processing circuit 52 is connected with the outfan of on-off circuit 51, and on-off circuit 51 exports the secondary of electric energy Number is as meter step data；The input of second display part 53 is connected with the outfan processing circuit 52, with display line Walk step number.

It is to say, the mode of meter step can have a variety of, such as, realize meter step according to the electricity of energy-storage module 40 storage, Or the detection signal according to sensor realizes meter step etc., is not specifically limited at this.For example, triboelectricity Machine can as sensor, and then Acquisition Circuit 51 to may be used for gathering the umber of pulse that sends of friction generator capable to generate Paces signal during walking, such as friction generator has performed a perpendicular contact separate type mode of operation and has laterally slided Dynamic formula mode of operation, and respectively with the form output pulse of alternating-current pulse electricity, be designated as a step, paces signal can be generated, And then meter step can be realized according to the detection signal of sensor, i.e. obtain, according to paces signal, step number of walking, or adopt Collector 51 may be used for gathering the electricity of energy-storage module 40 storage and generates the paces signal in walking process, such as, store up Energy module 40 often exports an electric energy by on-off circuit 51 and is designated as a step, and then can also realize meter step, and passes through Display device display line walks step number.

Wherein, in an embodiment of the present utility model, the type of friction generator includes three-decker triboelectricity One or more in machine, four-layer structure friction generator or five-layer structure friction generator, friction generator is at least wrapped Containing two surfaces of composition frictional interface, and friction generator at least has two electrodes constituting signal output part. Alternatively, at least one surface constituted in two surfaces of frictional interface is provided with micro-nano structure.This utility model is real Execute example this is not especially limited, be illustrated below:

As an example, three-decker friction generator includes: the first electrode layer being cascading, and first is high Molecularly Imprinted Polymer insulating barrier and friction electrode layer.Wherein, the first high molecular polymer insulating barrier and friction electrode layer phase To two surfaces constitute frictional interfaces；First electrode layer and friction electrode layer are the outfan of friction generator；Optional Arrange at least one face in two faces that ground, the first high molecular polymer insulating barrier and friction electrode layer are oppositely arranged There is micro-nano structure.

As an example, the friction generator of four-layer structure includes: the first electrode layer of being cascading, first High molecular polymer insulating barrier, the second high molecular polymer insulating barrier and the second electrode lay.Wherein, the first macromolecule Two surfaces composition frictional interfaces that polymer insulation layer is relative with the second high molecular polymer insulating barrier；First electrode layer It is the outfan of friction generator with the second electrode lay.Alternatively, the first high molecular polymer insulating barrier and the second high score It is provided with micro-nano structure at least one face in two faces that sub-polymer insulation layer is oppositely arranged.

As an example, the friction generator of five-layer structure includes: the first electrode layer of being cascading, first High molecular polymer insulating barrier, between two parties thin layer, the second high molecular polymer insulating barrier and the second electrode lay.Wherein, First high molecular polymer insulating barrier and thin layer between two parties and/or the second high molecular polymer insulating barrier and thin layer phase between two parties To two surfaces constitute frictional interfaces.Alternatively, the first high molecular polymer insulating barrier and thin layer between two parties and/or the It is provided with micro-at least one face in two surfaces that two high molecular polymer insulating barriers and thin layer between two parties are oppositely arranged Micro-nano structure.

As another example, the friction generator of five-layer structure includes: the first electrode layer of being cascading, One high molecular polymer insulating barrier, intervening electrode layer, the second high molecular polymer insulating barrier and the second electrode lay.Its In, the first high molecular polymer insulating barrier and intervening electrode layer and/or the second high molecular polymer insulating barrier and intervening electrode Two surfaces that layer is relative constitute frictional interface.Alternatively, the first high molecular polymer insulating barrier and intervening electrode layer and/ Or arrange at least one face that second in two surface being oppositely arranged of high molecular polymer insulating barrier and intervening electrode layer There is micro-nano structure.

The operation principle below self-driven meter of embodiment one being walked Luminous shoe combines friction generator and is described in detail.

The positive electrode of preparation friction generator can be PET, aluminum, nylon, and negative material is PTFE, PDMS. Positive and negative friction material interlayer is free chamber, can pass through salient point, spring, arch, air bag etc. and form cavity.Preferably salient point knot The cavity being configured to, thus be beneficial to improve CONTACT WITH FRICTION area.Such as: what PDMS with PET of band salient point assembled rubs Wiping electromotor, wherein, the PDMS of band salient point is placed on lower floor.

Further, the friction material granule of filling can be the spherical granules of micro-nano mixing, material and bottom friction Material charging property is contrary, and filling thickness at least wants to cover whole bottom, but can not fill up the sky that friction generator is formed Chamber, to prevent the granule can not be freely-movable.Such as: the friction generator that PDMS Yu PET of band salient point assembles, rub Wipe material granule and should select PET, aluminum, nylon etc., and preferably spheroidal, about optional 3 μm of particle diameter, can be less, But can not reunite between granule, it is possible to bigger, but be less than bump pitch, to prevent granule from can not flow freely.It addition, Filler particles thickness is advisable with the half of bump height.

Shown in Fig. 6 and Fig. 7, when sole moves forwards or backwards, friction material granule can be sent out with primer Raw sliding friction, produces electric energy；As shown in Figure 8, when sole land, liftoff time, health body weight can apply vertically to connect Touch and separate friction, produce electric energy.Bump structure can not only accelerate the interlayer separating rate that rubs, and can effectively improve Friction material granule and the CONTACT WITH FRICTION area of primer, it is achieved the purpose of comprehensive collecting mechanical energy, improve machinery Electric energy efficiency can be converted to.

Fig. 9 is the structural representation of the self-driven meter step Luminous shoe according to one embodiment two of this utility model.Such as Fig. 9 Shown in, the self-driven meter step Luminous shoe difference from embodiment one of this utility model embodiment is, also includes: nothing Line communication module 80.Wherein, wireless communication module 80 is connected with pedometer module 50, and wireless communication module 80 can set Put on the sole and/or vamp of shoes body 10, to send walking step number to SmartClient.

In embodiment of the present utility model, the self-driven meter step Luminous shoe of this utility model embodiment can also will be walked Actual step count information walk step number at once and be sent to SmartClient, such as flat board and mobile phone, consequently facilitating user reads, Simple and convenient.It addition, the shoes body 10 of this utility model embodiment, luminescent device 20, at least one friction generator 30, energy-storage module 40 is identical with embodiment one with function with the set-up mode of pedometer module 50, for reducing redundancy, this Place repeats no more.

According to the self-driven meter step Luminous shoe that the utility model proposes, access two parallel connections diodes in opposite direction it After, rubbed when walking generation electric energy by friction generator, thus powers for luminescent device and pedometer module, and then Lighting function and step function can be realized simultaneously, and by tying mutually with transverse sliding based on perpendicular contact separate type Close friction generator, it is achieved comprehensive collecting mechanical energy, thus can independently, continuous service, it is not necessary to maintenance operation, There is simple in construction, the advantage such as easy to use, energy utilization rate is high, low cost and environmental protection.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance or The implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or hidden At least one this feature is included containing ground.In description of the present utility model, " multiple " are meant that at least two, such as two, Three etc., unless otherwise expressly limited specifically.

In this utility model, unless otherwise clearly defined and limited, term " install ", " being connected ", " connection ", " fixing " Should be interpreted broadly Deng term, connect for example, it may be fixing, it is also possible to be to removably connect, or integral；Can be It is mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be two The connection of individual element internal or the interaction relationship of two elements, unless otherwise clear and definite restriction.Common for this area For technical staff, above-mentioned term concrete meaning in this utility model can be understood as the case may be.

In this utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can Being that the first and second features directly contact, or the first and second features are by intermediary mediate contact.And, the One feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, Or it is merely representative of fisrt feature level height higher than second feature.Fisrt feature second feature " under ", " lower section " and " under Face " can be fisrt feature immediately below second feature or obliquely downward, or be merely representative of fisrt feature level height less than the Two features.

In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " concrete example ", Or specific features, structure, material or the feature bag that the description of " some examples " etc. means to combine this embodiment or example describes It is contained at least one embodiment of the present utility model or example.In this manual, to the schematic representation of above-mentioned term not Identical embodiment or example must be directed to.And, the specific features of description, structure, material or feature can be Any one or multiple embodiment or example combine in an appropriate manner.Additionally, in the case of the most conflicting, this area Technical staff the feature of the different embodiments described in this specification or example and different embodiment or example can be carried out In conjunction with and combination.

Although above it has been shown and described that embodiment of the present utility model, it is to be understood that above-described embodiment is example Property, it is impossible to being interpreted as restriction of the present utility model, those of ordinary skill in the art can in the range of this utility model Above-described embodiment be changed, revise, to replace and modification.

Claims (10)

1. a self-driven meter step Luminous shoe, it is characterised in that including:

Shoes body；

It is arranged at the luminescent device on described shoes body, with luminous when walking；

At least one friction generator being arranged in described shoes body, at least one friction generator described and described luminous organ Part is connected, and when at least one friction generator described occurs friction under walking effect, exports electric energy；

Being arranged at the energy-storage module in described shoes body, described energy-storage module is connected with at least one friction generator described, with The electric energy coming from least one friction generator described is stored；And

Being arranged at the pedometer module on described shoes body, described pedometer module is connected with described energy-storage module, described pedometer module Carry out counting step when walking and obtain step number of walking.

Self-driven meter step Luminous shoe the most according to claim 1, it is characterised in that also include:

First diode, the anode of described first diode is connected with the outfan of at least one friction generator described, described The negative electrode of the first diode is connected with described luminescent device；

Second diode, the negative electrode of described second diode is connected with the outfan of at least one friction generator described, described The anode of the second diode is connected with described energy-storage module.

Self-driven meter step Luminous shoe the most according to claim 2, it is characterised in that described energy-storage module includes:

Filter circuit, the input of described filter circuit is connected with the outfan of described second diode；

Mu balanced circuit, the input of described mu balanced circuit is connected with the outfan of described filter circuit；

Transforming circuit, the input of described transforming circuit is connected with the outfan of described mu balanced circuit；And

Energy-storage travelling wave tube, the input of described energy-storage travelling wave tube is connected with the outfan of described transforming circuit, described energy-storage travelling wave tube defeated Go out end to be connected with described pedometer module.

Self-driven meter step Luminous shoe the most according to claim 3, it is characterised in that described pedometer module includes:

Acquisition Circuit, the input of described Acquisition Circuit is connected with the outfan of described energy-storage travelling wave tube, to gather paces signal；

A/D change-over circuit, the input of described A/D change-over circuit is connected with the outfan of described Acquisition Circuit；

Digit counter, the input of described digit counter is connected with the outfan of described A/D change-over circuit, with according to mould Paces signal after number conversion calculates umber of pulse, and then obtains described walking step number；And

First display device, the input of described first display device is connected with the outfan of described digit counter, with display Described walking step number.

Self-driven meter step Luminous shoe the most according to claim 3, it is characterised in that described pedometer module includes:

On-off circuit, the input of described on-off circuit is connected with the outfan of described energy-storage travelling wave tube, described energy storage detected When the electric energy of storage is more than or equal to predetermined threshold value in element, export electric energy；

Processing circuit, the input of described process circuit is connected with the outfan of described on-off circuit, by defeated for described on-off circuit Go out the number of times of electric energy as meter step data；And

Second display part, the input of described second display part is connected with the outfan of described process circuit, to show State walking step number.

Self-driven meter step Luminous shoe the most according to claim 1, it is characterised in that also include:

Wireless communication module, described wireless communication module is connected with described pedometer module, to send described walking step number to intelligence Client.

Self-driven meter step Luminous shoe the most according to claim 1, it is characterised in that the positive pole of described friction generator rubs Wipe and be provided with cavity between material layer and negative pole friction material layer, described cavity is filled with multiple friction material granule, wherein, The possessive volume of the plurality of friction material granule is less than the receiving volume of described cavity.

Self-driven meter step Luminous shoe the most according to claim 7, it is characterised in that described positive pole friction material layer is selected from PET, aluminum, nylon；Described negative pole friction material layer is selected from PTFE, PDMS；Described friction material granule selected from PET, Aluminum, nylon.

Self-driven meter step Luminous shoe the most according to claim 7, it is characterised in that the particle diameter of described friction material granule Less than the bump pitch in described cavity, can not reunite between described friction material granule.

Self-driven meter step Luminous shoe the most according to claim 7, it is characterised in that the type of described friction generator Including one or more in three-decker friction generator, four-layer structure friction generator or five-layer structure friction generator； Described friction generator is including at least two surfaces of composition frictional interface, and described friction generator at least has composition letter Two electrodes of number outfan；At least one surface in two surfaces of described composition frictional interface is provided with micro-nano structure.