CN203608900U - Luminous shoes - Google Patents

Abstract

The utility model discloses a pair of luminous shoes, which are used for solving the problems of requirements on a battery for power supply, undiversified light-emitting form and luminous pattern forming incapability of luminous shoes in the prior art. Each luminous shoe comprises a sole, a vamp, at least one friction generator arranged at the bottom of the sole and at least one luminous device electrically connected with the output end of the friction generator, wherein the luminous devices are arranged on the soles and/or the vamps.

Description

Luminous shoe

Technical field

The utility model relates to circuit field, particularly a kind of Luminous shoe.

Background technology

Along with scientific and technological development, Luminous shoe has been come into people's life gradually as the very strong high-tech product of a kind of interest.The appearance of especially a lot of luminous shoes for childrens, not only for they have brought very strong interest, and Luminous shoe can, at night for children lead the way, make children find in time the variation of surrounding enviroment, thereby on one's own initiative dangerous situation be made to strick precaution; Meanwhile, in the dark, Luminous shoe can be found in time by vehicle driver, thereby avoids the generation of traffic accident.

Although Luminous shoe has a lot of advantages,, the Luminous shoe of most generally adopts battery to power, and battery just can not continue after being finished luminous, and the lasting fluorescent lifetime of Luminous shoe has been caused to very large restriction, and, change battery not only time-consuming but also bother.

In addition, existing Luminous shoe is all generally to adopt spot light (for example LED lamp) next luminous, and luminous form is single, and cannot form luminous pattern, causes the visual effect of Luminous shoe not good enough.

Utility model content

The utility model provides a kind of Luminous shoe, needs battery-poweredly in order to solve Luminous shoe of the prior art, and luminous form is single, the problem that cannot form luminous pattern.

A kind of Luminous shoe, comprise sole and vamp, also comprise: be arranged at least one triboelectricity machine of described sole site, and at least one luminescent device being electrically connected with the output of described at least one triboelectricity machine, wherein, described luminescent device is arranged on sole and/or vamp.

Alternatively, described vamp comprises top layer and nexine, and described luminescent device is arranged between described top layer and nexine.

Alternatively, described luminescent device further comprises: illuminator and luminescent fibre, wherein, the first end of described illuminator is electrically connected with the output of at least one triboelectricity machine, is in contact with one another and is fixedly connected with by the fixed part of shading between the second end of described illuminator and described luminescent fibre.

Alternatively, described luminescent device further comprises: illuminator and luminescent fibre, wherein, the first end of described illuminator is electrically connected with the output of at least one triboelectricity machine, between the second end of described illuminator and described luminescent fibre, do not contact and the second end and the described luminescent fibre of described illuminator between interval be less than predeterminable range.

Alternatively, between the second end of described illuminator and described luminescent fibre, cover by light-blocking member.

Alternatively, described luminescent device is the one in following device: electrogenerated luminous wire, electro luminescence line, EL sheet and electroluminescent powder.

Alternatively, in the time that described luminescent device is electrogenerated luminous wire or electro luminescence line, the mark shape that is shaped as Chinese character shape, phonetic shape or described Luminous shoe of described electrogenerated luminous wire or electro luminescence line.

Alternatively, in the time that described luminescent device is EL sheet or electroluminescent powder, described Luminous shoe further comprises: hide the diffuser in described luminescent device outside, on described diffuser, be further provided with transmittance section, wherein, the mark shape that is shaped as Chinese character shape, phonetic shape or described Luminous shoe of described transmittance section.In the utility model embodiment, by triboelectricity machine by walk time produce mechanical energy be converted to electric energy, by the luminescent device on these electric energy driven light emission footwear, to reach luminous effect.In the utility model embodiment, the mechanical energy producing when walking has been carried out rational utilization, and, do not need to arrange battery, save battery electric quantity and exhausted and cause the luminescent device cannot be luminous, then change the worry of battery.In addition, the luminescent device in the utility model can show various luminous patterns, to improve user's visual effect.

Accompanying drawing explanation

Fig. 1 shows the overall structure schematic diagram of the Luminous shoe that the utility model embodiment provides;

Fig. 2 a to Fig. 2 c shows the schematic appearance of the Luminous shoe of the LOGO forming with the luminescent fibre of various patterns;

Fig. 3 shows the schematic diagram in the time that the vamp of the Luminous shoe in the utility model embodiment is double-decker;

The internal circuit diagram when Luminous shoe that Fig. 4 shows the utility model embodiment to be provided comprises electrical storage device;

Fig. 5 shows the structural representation increasing on the basis of Luminous shoe that the utility model embodiment the provides circuit structure in Fig. 4 after gauge tap;

The structural representation when Luminous shoe that Fig. 6 shows the utility model embodiment to be provided arranges three triboelectricity machines at sole position;

Fig. 7 a and Fig. 7 b show respectively perspective view and the cross-sectional view of the first structure of triboelectricity machine;

Fig. 8 a and Fig. 8 b show respectively perspective view and the cross-sectional view of the second structure of triboelectricity machine;

Fig. 9 a and Fig. 9 b show respectively perspective view and the cross-sectional view of the third structure of triboelectricity machine;

Figure 10 a and Figure 10 b show respectively perspective view and the cross-sectional view of the 4th kind of structure of triboelectricity machine.

The specific embodiment

For fully understanding object, feature and effect of the utility model, by following concrete embodiment, the utility model is elaborated, but the utility model is not restricted to this.

The utility model provides a kind of Luminous shoe, the problem that needs the frequent mechanical energy of changing battery and do not produce walking to be used in order to solve Luminous shoe of the prior art.

Fig. 1 shows the overall structure schematic diagram of the Luminous shoe that the utility model embodiment provides.As shown in Figure 1, this Luminous shoe is except comprising sole 2 and vamp 3, further comprise: be arranged at least one triboelectricity machine (Fig. 1 is not shown) at sole 2 positions, and at least one luminescent device (Fig. 1 is not shown) being electrically connected with the output of at least one triboelectricity machine.Wherein, this luminescent device is arranged on sole and/or vamp.

In said structure, because triboelectricity machine relates to multiple implementation, and triboelectricity machine is the core component in Luminous shoe, therefore, will give separately in the back detailed introduction.First introduce two kinds of possible implementations of the luminescent device in said structure below.

In the first implementation of luminescent device, luminescent device comprises illuminator and luminescent fibre:

Wherein, the first end of illuminator is electrically connected with the output of triboelectricity machine, thereby can be luminous under "on" position, uses mainly as light source.This illuminator can be realized by multiple devices such as LED light emitting diodes.Take LED light emitting diode as example, can select as required again various types of diodes.For example, according to the brightness of LED light emitting diode, can select common LED light emitting diode, high-brightness LED light emitting diode or ultra-high brightness LED light emitting diode etc.; According to the packing forms of LED light emitting diode, can select direct insertion LED light emitting diode or adopting surface mounted LED light emitting diode etc.Above-described various forms of illuminator both can use separately, also can be combined with.

Luminescent fibre, in the time being subject to the irradiation of light or radioactive ray, can send according to penetrating the visible ray that optical wavelength is longer.Therefore,, after the electric energy that above-mentioned illuminator is produced by triboelectricity machine is lighted, luminescent fibre is luminous because being subject to the irradiation of illuminator.Can further improve by luminescent fibre the bright visual effect that illuminator produces, make light can be shown as various self-defining words and/or pattern.Wherein, the material of luminescent fibre can be selected flexibly, and the utility model is not construed as limiting this.For example, the material of luminescent fibre can be the luminescent material such as light-storing and emitting material zinc sulphide, rare earth aluminate series.Preferably, luminescent fibre is selected flexible material, so that need to carry out bending, folding according to design, thus form self-defining word and/or pattern.For example, luminescent fibre can be " SPORT " word printed words shown in Fig. 1, or, the mark shape that can be also this Luminous shoe (is the logo mark of Luminous shoe, the logo pattern of for example certain brand footwear etc.), like this, can make the logo mark of footwear body more outstanding, especially at night, contribute to improve the popularity of brand.Fig. 2 a to Fig. 2 c shows the schematic appearance with the Luminous shoe of the luminescent fibre 4 of various patterns.In addition, the shape of luminescent fibre can also be any one in following shape: the shape of the shape of Chinese character shape, phonetic shape, animal pattern, the shape of plant pattern or building pattern.And the shape of luminescent fibre is not limited to the shape of foregoing description, those skilled in the art can also select the luminescent fibre of other various shapes flexibly, to meet the different demands of all types of user.

Introduce the position relationship between illuminator and luminescent fibre below.Just can be luminous as long as be subject to the irradiation of illuminator due to luminescent fibre, therefore, can directly luminescent fibre be arranged in the range of exposures of illuminator (that is: the interval and between the second end of illuminator is less than predeterminable range), now, between luminescent fibre and illuminator, do not contact each other, if mutually close, now, owing to can thering is certain distance between luminescent fibre and illuminator, thereby can be more versatile and flexible arrange the position of luminescent fibre on footwear body time.Certainly, in order to improve the brightness of luminescent fibre, also can make between luminescent fibre and illuminator close as much as possible, for example, can make to be in contact with one another between the second end of luminescent fibre and illuminator, to improve luminous brightness, now, in order to fix better luminescent fibre, with the stability that guarantees that luminescent fibre is luminous, can will between the second end of illuminator and luminescent fibre, interfix by a fixed part.Wherein, above-mentioned fixed part can be realized by various ways such as retainer ring or fixed covers, and those skilled in the art can also fix by other means luminescent fibre is set, and the utility model is not construed as limiting this.

Preferably, the light sending for fear of illuminator leaks and causes the brightness of luminescent fibre to reduce, light-blocking member can also be further set between illuminator and luminescent fibre, with guarantee light that illuminator sends can full illumination to luminescent fibre, to improve the brightness of luminescent fibre, improve user's visual effect.Introduce the concrete set-up mode of light-blocking member below in conjunction with the position relationship between illuminator and luminescent fibre: at the illuminator of above-mentioned introduction and luminescent fibre each other in discontiguous situation, can directly adopt a monoblock light screening material (such as gobo or anti-dazzling screen etc.) to cover in the second end of illuminator and the luminescent fibre part near illuminator, with the bright full illumination of guaranteeing illuminator to luminescent fibre, in addition, except the mode of direct covering, also can enwind the second end of illuminator and the luminescent fibre part near illuminator with the light screening material from coil to coil of strip, the mode of this winding more can be guaranteed the tightness of shading.In addition, above-mentioned introduction fix illuminator and luminescent fibre by fixed part time, a light-blocking member both can be additionally set on the basis of aforesaid way again, also can directly fixed part be made as to shading, to realize the double effects of fixing and shading simultaneously.

In the second implementation of luminescent device, luminescent device can be directly realized by any one in following device: electrogenerated luminous wire, electro luminescence line, EL sheet and electroluminescent powder.Wherein, EL sheet is compared LED light source, and luminous more even, illumination effect is better, and power consumption reduces greatly, and power saving effect is obvious.

Wherein, in the time that luminescent device is electrogenerated luminous wire or electro luminescence line, because the shape of luminous filament or isolychn can arrange arbitrarily, therefore, the shape of electrogenerated luminous wire or electro luminescence line can be designed to the mark shape of Chinese character shape, phonetic shape, Luminous shoe, shape, the shape of plant pattern or the shape of building pattern of animal pattern, thereby improve the visual effect of Luminous shoe.And the shape of electrogenerated luminous wire or electro luminescence line is not limited to the shape of foregoing description, those skilled in the art can also select electrogenerated luminous wire or the electro luminescence line of other various shapes flexibly, to meet the different demands of all types of user.

In the time that luminescent device is EL sheet or electroluminescent powder, because the shape of EL sheet or electroluminescent powder is difficult for changing, therefore, the diffuser hiding in this EL sheet or electroluminescent powder outside can be further set on this Luminous shoe, change bright shape by diffuser.For example, can be on diffuser transmittance section that further setting can printing opacity, this transmittance section both can see through the hole of hollow out and realize, and also can realize by the material of printing opacity.Preferably, the mark shape that is shaped as Chinese character shape, phonetic shape, Luminous shoe of this transmittance section, the shape of animal pattern, the shape of plant pattern or the shape of building pattern, like this, can make the light that sends consistent with the shape of transmittance section, thereby improve the visual effect of Luminous shoe.And the shape of transmittance section is not limited to the shape of foregoing description, those skilled in the art can also select the transmittance section of other various shapes flexibly, to meet the different demands of all types of user.

Above-mentioned two kinds of implementations of luminescent device both can be used separately, also can be combined with, and in addition, those skilled in the art can also adopt alternate manner to realize luminescent device flexibly, and the utility model is not construed as limiting this.

Flexible design can be carried out as required in the position of above-mentioned luminescent device, for example, luminescent device can be arranged on to sole outside, the upper side of Luminous shoe, shoes front end or rear end etc.The quantity of luminescent device can be one or more, when luminescent device is while being multiple, between multiple luminescent devices, can connect also can be in parallel, and the circuit being connected in series is fairly simple, can ensure by the constancy of the electric current of LED, thereby make the brightness ratio of LED more unified; The circuit reliability being connected in parallel is higher, when specific design, can select as required suitable connected mode.In addition, in order to arrange conveniently, vamp can be made as double-deckly, as shown in Figure 3, vamp comprises and is positioned at outside top layer 61, and is positioned at the nexine 62 of inner side.Then, triboelectricity machine 1, illuminator 8, luminescent fibre 4 and retainer ring 5 are arranged on to (wherein, triboelectricity machine 1 and illuminator 8 also can be arranged on other positions, for example, in sole) in the interlayer between top layer 61 and nexine 62.Wherein, in Fig. 3, be provided with two illuminators 8, two retainer rings 5 and Duo Gen luminescent fibres 4, this kind of set-up mode can increase the luminosity of luminescent fibre 4, improve display effect, certainly, an illuminator 8, retainer ring 5 and a Duo Gen luminescent fibre 4 also can be only set, and the present invention is not construed as limiting the quantity of all parts.Preferably, in order to prevent that top layer 61 from stopping the light that luminescent fibre 4 sends, can utilize light transmissive material to make top layer 61, so that the light that human eye sends from visual observation to luminescent device.Above-mentioned luminescent device is arranged on to the mode in the interlayer between top layer and nexine, neither can affects the comfort level of footwear body itself, also can not affect the aesthetics of footwear body, also effectively prevented that the phenomenon that luminescent device is worn from occurring.

In addition, in the utility model, the electric current that triboelectricity machine sends is alternating current, in the time that the frequency of this ac signal is lower, goes out, thereby occur scintillation when bright conventionally can cause illuminator time.At some in particular cases, the scintillation of illuminator can meet user's demand just, and for example, when interesting in the time that this Luminous shoe is mainly used in increasing children and walks, the flicker effect of illuminator can reach amusement object just.Or, thereby can be more easily in the time that this Luminous shoe is mainly used in making pedestrian to walk outside at night be distinguished out that by vehicle driver while avoiding traffic accident, the flicker effect of illuminator can reach eye-catching function just.For example, but under other certain situation,, when Luminous shoe is mainly used in throwing light on, the scintillation of illuminator may have influence on illuminating effect.To this, can rectification circuit be set in illuminator inside, to reach the object of AC-DC conversion, thereby realize the lasting illumination of illuminator.Or, an electrical storage device that comprises AC/DC changeover switch also can be additionally set in Luminous shoe inside, thereby realize on the one hand the object of AC-DC conversion, the electric energy that can also produce triboelectricity machine is on the other hand stored.

Fig. 4 shows the internal circuit diagram in the time that Luminous shoe comprises electrical storage device.As shown in Figure 4, the input of electrical storage device 9 is connected with the output of triboelectricity machine 1, and the output of electrical storage device 9 for example, is connected with luminescent device (illuminator 8 and luminescent fibre 4).Wherein, electrical storage device 9 further comprises: AC/DC changeover switch 91, for the ac signal of triboelectricity machine output is converted to DC signal; And the energy-storage travelling wave tube 92 being connected with AC/DC changeover switch 91, store for the constant signal of telecommunication that AC/DC changeover switch 91 is exported.Alternatively, above-mentioned AC/DC changeover switch 91 further comprises: the rectifier 911 being connected with triboelectricity machine, the ac signal of described triboelectricity machine output is carried out to rectification; The wave filter 912 that in the direct current signal of unidirectional pulsation that be connected with described rectifier 911, that described rectifier is exported, remaining AC compounent is carried out filtering; The direct current signal of unidirectional pulsation that be connected with described wave filter 912, that described wave filter 912 is exported carries out voltage stabilizing processing and obtains the voltage-stablizer 913 of the constant signal of telecommunication.Wherein, the wave filter 912 and the voltage-stablizer 913 that in AC/DC changeover switch 91, comprise are not essential, its role is to filtering clutter and voltage stabilizing processing, and therefore, wave filter 912 and voltage-stablizer 913 are the preferred components in AC/DC changeover switch 91.If AC/DC changeover switch 91 does not comprise wave filter 912 and voltage-stablizer 913, and only comprise rectifier 911 and also can realize the object of AC-DC conversion.Alternatively, above-mentioned energy-storage travelling wave tube 92 can be selected all kinds of energy-storage travelling wave tubes such as lithium battery, Ni-MH battery, super capacitor.

In the time that Luminous shoe adopts the foregoing circuit structure shown in Fig. 4 to realize, owing to having increased AC/DC changeover switch, the alternating current that triboelectricity machine can be produced is converted into direct current, and store by energy-storage travelling wave tube, thereby the electric energy that triboelectricity machine is produced has obtained utilizing more efficiently, and avoid the signal of telecommunication frequency producing because of triboelectricity machine compared with the low illuminator scintillation causing, realize the lasting illumination within a period of time of illuminator and luminescent fibre, improved the illuminating effect at night.For example, can be by energy-storage travelling wave tube be arranged, it only after reaching predetermined threshold value, the energy storing is just powered to luminescent device, brightness and the duration that can improve like this luminescent device, improve user's visual effect.

Although the circuit structure shown in Fig. 4 can be realized the effect of the lasting illumination of luminescent device within a period of time, and avoid the scintillation of luminescent device.But, in the circuit structure shown in Fig. 4, cannot control luminescent device, for example: if while not wishing luminescent device illumination in user's some formal occasions by day, cannot close on one's own initiative luminescent device, as long as user one will light luminescent device on foot, thereby bring inconvenience for user.

In order to address the above problem, as shown in Figure 5, a gauge tap 90 can be set in electrical storage device inside, its input and output are electrically connected with energy-storage travelling wave tube and illuminator respectively, in order to control the supply of electric energy.Alternatively, gauge tap can select the switch elements such as snap switch, press button, vibration switch or audio-switch to realize.

In the time that Luminous shoe adopts the circuit structure shown in Fig. 5 to realize, owing to having increased energy-storage travelling wave tube and gauge tap, therefore, the electric energy that can produce triboelectricity machine is stored, like this, the electric energy of storing in also can be by energy-storage travelling wave tube in the time that user does not walk about is realized the power supply to luminescent device, has met the illumination needs (for example can observe road conditions) of user in static situation.In addition, gauge tap can be controlled the light on and off of luminescent device, makes user can close luminescent device in the situation that not wishing that luminescent device is luminous.Therefore,, in the time that Luminous shoe adopts the circuit structure shown in Fig. 5 to realize, can fully meet user's various demands, for user provides great convenience.

For the ease of placing above-mentioned electrical storage device and triboelectricity machine, can one or more cavitys be set in sole inside, triboelectricity machine and electrical storage device are put into cavity.Preferably, can place respectively two place's triboelectricity machines at the sole of sole and sole position, due in the time walking, sole is more abundant with contacting of ground with sole position, and therefore, such set-up mode can improve the generating efficiency of triboelectricity machine.In addition, electrical storage device can be arranged on to the arch of the foot position of sole, due to the existence of arch of foot, cause often having between arch of the foot position and ground a little space, therefore, electrical storage device is arranged on to arch of the foot position, can in the time walking, electrical storage device is dropped to minimum on wearer's impact.

In addition, in order to improve generating efficiency, the quantity of the triboelectricity machine in this Luminous shoe can be multiple, and multiple triboelectricity machines connect by serial or parallel connection mode, to increase the curtage of output.Particularly, when the quantity of triboelectricity machine is while being multiple, multiple triboelectricity machines can arrange by tiling mode, also can arrange by overlapped way.In the time that multiple triboelectricity machines arrange by tiling mode, the shared Area comparison of each triboelectricity machine in multiple triboelectricity machines is little, thereby can in same level, in tiling mode, multiple triboelectricity machines be set, for example, as shown in Figure 6, three triboelectricity machines 1 can be set at sole position, and these three triboelectricity machines 1 are connected with illuminator 8.While adopting tiling mode to arrange, because multiple triboelectricity machines are all located in the same horizontal plane, can significantly not increase the thickness of sole, therefore, thickness and the city shoe of Luminous shoe are more or less the same, and are more applicable to general user's demand.In the time that multiple triboelectricity machines arrange by overlapped way, the shared area of each triboelectricity machine in multiple triboelectricity machines is identical.And the shared area of each triboelectricity machine is conventionally larger, and the stacked setting of each triboelectricity machine, the triboelectricity machine of different layers is positioned on same vertical direction, but respectively in different horizontal planes.While adopting overlapped way to arrange, because multiple triboelectricity machines are all positioned on same vertical direction, can significantly increase the thickness of sole, therefore, the thickness of Luminous shoe is conventionally thicker compared with city shoe, is suitable for the demand of special user's (for example liking wearing the user of pantshoes).In addition, in the time that multiple triboelectricity machines arrange by overlapped way, between each generator, influence each other, the insulation support layer that can play a supporting role can also be set between two-layer generator.

Finally, introduce in detail the concrete structure of the core component triboelectricity machine in the Luminous shoe that the utility model embodiment provides.To introduce respectively the possible structure of above-mentioned triboelectricity machine by four embodiment below:

Embodiment mono-,

The first structure of triboelectricity machine is as shown in Fig. 7 a and Fig. 7 b.Fig. 7 a and Fig. 7 b show respectively perspective view and the cross-sectional view of the first structure of triboelectricity machine.This triboelectricity machine comprises: the first electrode 111, the first high molecular polymer insulating barriers 112 that are cascading, and the second electrode 113.Particularly, described the first electrode 111 is arranged on the first side surface of the first high molecular polymer insulating barrier 112; And the second side surface of described the first high molecular polymer insulating barrier 112 and the second electrode 113 are oppositely arranged.In said structure, relative fixing between the first side surface of the first high molecular polymer insulating barrier 112 and the first electrode, contact friction induce electric charge at the second electrode and the first electrode place in the time being subject to pressing between the second side surface of the first high molecular polymer insulating barrier 112 and the second electrode.Therefore, in the present embodiment, two faces that the first high molecular polymer insulating barrier and the second electrode are oppositely arranged are as the frictional interface of triboelectricity machine, and the first above-mentioned electrode and the second electrode are respectively as two outputs of triboelectricity machine.

In order to improve the generating capacity of triboelectricity machine, at second side surface (being on the face of relative the second electrode 113) of the first high molecular polymer insulating barrier 112, micro-nano structure 120 can be further set.Therefore, in the time that triboelectricity machine is squeezed, apparent surface's contact friction better of described the first high molecular polymer insulating barrier 112 and the second electrode 113, and induce more electric charge at the first electrode 111 and the second electrode 113 places.Because the second above-mentioned electrode is mainly used in and the first high molecular polymer insulating barrier friction, therefore, the second electrode also can be referred to as the electrode that rubs.

Above-mentioned micro-nano structure 120 specifically can be taked following two kinds of possible implementations: first kind of way is that this micro-nano structure is micron order or nano level very little concaveconvex structure.This concaveconvex structure can increase frictional resistance, improves generating efficiency.Described concaveconvex structure can directly form in the time of film preparation, also can make the surface of the first high molecular polymer insulating barrier form irregular concaveconvex structure by the method for polishing.Particularly, this concaveconvex structure can be the concaveconvex structure of semicircle, striated, cubic type, rectangular pyramid or the shape such as cylindrical.The second way is, this micro-nano structure is the poroid structure of nanoscale, now the first high molecular polymer insulating barrier material therefor is preferably Kynoar (PVDF), and its thickness is the preferred 1.0mm of 0.5-1.2mm(), and the face of its relative the second electrode is provided with multiple nano-pores.Wherein, the size of each nano-pore, i.e. width and the degree of depth, can select according to the needs of application, and preferred nano-pore is of a size of: width is that 10-100nm and the degree of depth are 4-50 μ m.The quantity of nano-pore can output current value and magnitude of voltage as required be adjusted, and preferably these nano-pores are that pitch of holes is being uniformly distributed of 2-30 μ m, and preferred average pitch of holes is being uniformly distributed of 9 μ m.

Lower mask body is introduced the operation principle of above-mentioned triboelectricity machine.In the time that this triboelectricity machine is subject to pressing, each layer of this triboelectricity machine is squeezed, cause the second electrode in triboelectricity machine to produce electrostatic charge with the first high molecular polymer surface of insulating layer phase mutual friction, the generation of electrostatic charge can make the electric capacity between the first electrode and the second electrode change, thereby causes occurring electrical potential difference between the first electrode and the second electrode.Because the first electrode is connected with energy storage device as the output of triboelectricity machine with the second electrode, energy storage device forms the external circuit of triboelectricity machine, between two outputs of triboelectricity machine, is equivalent to be communicated with by external circuit.In the time that each layer of this triboelectricity machine returns to original state, the built-in potential being at this moment formed between the first electrode and the second electrode disappears, and now between Balanced the first electrode and the second electrode, will again produce reverse electrical potential difference.By repeatedly rubbing and recovering, just can in external circuit, form the periodic alternating-current pulse signal of telecommunication.

Lower mask body is introduced the material of the generator in embodiment mono-.Wherein, described the first high molecular polymer insulating barrier is for being selected from Kapton, aniline-formaldehyde resin film, polyformaldehyde film, ethyl cellulose film, polyamide film, melamino-formaldehyde film, polyethylene glycol succinate film, cellophane, cellulose acetate film, polyethylene glycol adipate film, polydiallyl phthalate film, fiber (regeneration) sponge film, elastic polyurethane body thin film, styrene-acrylonitrile copolymer copolymer film, styrene-butadiene-copolymer film, staple fibre film, poly-methyl film, methacrylic acid ester film, polyvinyl alcohol film, polyvinyl alcohol film, polyester film, polyisobutene film, polyurethane flexible sponge film, pet film, polyvinyl butyral film, formaldehyde phenol film, neoprene film, butadiene-propylene copolymer film, natural rubber film, polyacrylonitrile film, any in acrylonitrile vinyl chloride film and polyethylene the third diphenol carbonate thin film.

Wherein, described the first electrode material therefor is indium tin oxide, Graphene, nano silver wire film, metal or alloy; Wherein, metal is Au Ag Pt Pd, aluminium, nickel, copper, titanium, chromium, selenium, iron, manganese, molybdenum, tungsten or vanadium; Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper alloy, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

Wherein, described the second electrode material therefor is metal or alloy; Wherein, metal is Au Ag Pt Pd, aluminium, nickel, copper, titanium, chromium, selenium, iron, manganese, molybdenum, tungsten or vanadium; Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper alloy, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

Find according to inventor's research, metal and high molecular polymer friction, the more volatile de-electromation of metal, therefore adopts metal electrode and high molecular polymer friction also can improve energy output.Therefore, above-mentioned triboelectricity owner will produce the signal of telecommunication by the friction between metal (the second electrode lay) and polymer (the first high molecular polymer insulating barrier), mainly utilize metal easily to lose the characteristic of electronics, make to form induction field between the second electrode and the first high molecular polymer insulating barrier, thereby produce voltage or electric current.

Embodiment bis-,

The second structure of triboelectricity machine is as shown in Fig. 8 a and Fig. 8 b.Fig. 8 a and Fig. 8 b show respectively perspective view and the cross-sectional view of the second structure of triboelectricity machine.This triboelectricity machine comprises: the first electrode 211, the first high molecular polymer insulating barrier 212, the second high molecular polymer insulating barriers 214 and the second electrodes 213 that are cascading.Particularly, the first electrode 211 is arranged on the first side surface of the first high molecular polymer insulating barrier 212; Described the second electrode 213 is arranged on the first side surface of the second high molecular polymer insulating barrier 214; Wherein, the second side surface of the second side surface of described the first high molecular polymer insulating barrier 212 and the second high molecular polymer insulating barrier 214 contact friction induce electric charge at the first electrode and the second electrode place in the time being subject to pressing.Therefore, in the present embodiment, two faces that the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier are oppositely arranged are as the frictional interface of triboelectricity machine.Wherein, the first electrode and the second electrode are respectively as two outputs of triboelectricity machine.

In order to improve the generating capacity of triboelectricity machine, at least one face in two faces that described the first high molecular polymer insulating barrier 212 and the second high molecular polymer insulating barrier 214 are oppositely arranged is provided with micro-nano structure 220.Therefore, in the time that triboelectricity machine is squeezed, apparent surface's contact friction better of described the first high molecular polymer insulating barrier 212 and the second high molecular polymer insulating barrier 214, and induce more electric charge at the first electrode 211 and the second electrode 213 places.Above-mentioned micro-nano structure can, with reference to description above, repeat no more herein.

The operation principle of the triboelectricity machine shown in the operation principle of the triboelectricity machine shown in Fig. 8 a and Fig. 8 b and Fig. 7 a and Fig. 7 b is similar.Difference is only, in the time that each layer of the triboelectricity machine shown in Fig. 8 a and Fig. 8 b is squeezed, is to produce electrostatic charge by the first high molecular polymer insulating barrier and the surperficial phase mutual friction of the second high molecular polymer insulating barrier.Therefore, repeat no more about the operation principle of the triboelectricity machine shown in Fig. 8 a and Fig. 8 b herein.

Triboelectricity owner shown in Fig. 8 a and Fig. 8 b will produce the signal of telecommunication by the friction between polymer (the first high molecular polymer insulating barrier) and polymer (the second high molecular polymer insulating barrier).

Lower mask body is introduced the material of the generator in embodiment bis-.Wherein, described the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier are respectively and are selected from Kapton, aniline-formaldehyde resin film, polyformaldehyde film, ethyl cellulose film, polyamide film, melamino-formaldehyde film, polyethylene glycol succinate film, cellophane, cellulose acetate film, polyethylene glycol adipate film, polydiallyl phthalate film, fiber (regeneration) sponge film, elastic polyurethane body thin film, styrene-acrylonitrile copolymer copolymer film, styrene-butadiene-copolymer film, staple fibre film, poly-methyl film, methacrylic acid ester film, polyvinyl alcohol film, polyvinyl alcohol film, polyester film, polyisobutene film, polyurethane flexible sponge film, pet film, polyvinyl butyral film, formaldehyde phenol film, neoprene film, butadiene-propylene copolymer film, natural rubber film, polyacrylonitrile film, any in acrylonitrile vinyl chloride film and polyethylene the third diphenol carbonate thin film.Wherein, the material of described the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier can be identical, also can be different.If the material of two-layer high molecular polymer insulating barrier is all identical, can cause the quantity of electric charge of triboelectrification very little.Preferably, described the first high molecular polymer insulating barrier is different from described the second high molecular polymer insulating barrier material.

Wherein, described the first electrode and the second electrode material therefor are indium tin oxide, Graphene, nano silver wire film, metal or alloy; Wherein, metal is Au Ag Pt Pd, aluminium, nickel, copper, titanium, chromium, selenium, iron, manganese, molybdenum, tungsten or vanadium; Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper alloy, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

Embodiment tri-,

Except above-mentioned two kinds of structures, triboelectricity machine can also adopt the third structure to realize, as shown in Fig. 9 a and Fig. 9 b.Fig. 9 a and Fig. 9 b show respectively perspective view and the cross-sectional view of the third structure of triboelectricity machine.As can be seen from the figure, the third structure has increased a thin layer between two parties on the basis of the second structure, that is: the triboelectricity machine of the third structure comprises the first electrode 311 of being cascading, the first high molecular polymer insulating barrier 312, thin layer 310, the second high molecular polymer insulating barrier 314 and the second electrode 313 between two parties.Particularly, described the first electrode is arranged on the first side surface of the first high molecular polymer insulating barrier; Described the second electrode is arranged on the first side surface of the second high molecular polymer insulating barrier, and thin layer is arranged between the second side surface of the first high molecular polymer insulating barrier and the second side surface of the second high molecular polymer insulating barrier between two parties.Alternatively, in order to improve friction effect, at least one face in two faces that described thin layer between two parties and the first high molecular polymer insulating barrier are oppositely arranged is provided with micro-nano structure 320, and/or at least one face in two faces being oppositely arranged of described thin layer between two parties and the second high molecular polymer insulating barrier is provided with micro-nano structure 320, concrete set-up mode about micro-nano structure can, with reference to above describing, repeat no more herein.

In the present embodiment, thin layer is polymer between two parties between two parties, it can be set directly between the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier, and it is not and fixing between the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier, at this moment, between thin layer and the first high molecular polymer insulating barrier, form a frictional interface between two parties, between thin layer and the second high molecular polymer insulating barrier, form another frictional interface between two parties.

Or thin layer also can be relative fixing with in the first high molecular polymer insulating barrier or the second high molecular polymer insulating barrier between two parties, and with another contact friction.For example, the first side surface of thin layer is fixed on the second side surface of the second high molecular polymer insulating barrier between two parties, and the second side surface of thin layer contacts with the second side surface of the first high molecular polymer insulating barrier between two parties.Now, because thin layer is relative fixing with the second high molecular polymer insulating barrier between two parties, therefore, in the time that this triboelectricity machine is squeezed, the second side surface contact friction of the second side surface of described the first high molecular polymer insulating barrier and between two parties thin layer also induces electric charge at the first electrode and the second electrode place.

In the triboelectricity machine shown in Fig. 9 a and Fig. 9 b, the first side surface of thin layer 310 (not being provided with a side of micro-nano structure) is to be fixed on the second side surface of the second high molecular polymer insulating barrier 314 between two parties, fixing method can be as tack coat with the thin uncured high molecular polymer insulating barrier of one deck, after overcuring, thin layer 310 will be fixed on the second high molecular polymer insulating barrier 314 firmly between two parties.The side that thin layer 310 is provided with micro-nano structure between two parties contacts with the second side surface of the first high molecular polymer insulating barrier 312.

In embodiment tri-, described the first high molecular polymer insulating barrier, the second high molecular polymer insulating barrier, thin layer is respectively and is selected from Kapton between two parties, aniline-formaldehyde resin film, polyformaldehyde film, ethyl cellulose film, polyamide film, melamino-formaldehyde film, polyethylene glycol succinate film, cellophane, cellulose acetate film, polyethylene glycol adipate film, polydiallyl phthalate film, fiber (regeneration) sponge film, elastic polyurethane body thin film, styrene-acrylonitrile copolymer copolymer film, styrene-butadiene-copolymer film, staple fibre film, poly-methyl film, methacrylic acid ester film, polyvinyl alcohol film, polyvinyl alcohol film, polyester film, polyisobutene film, polyurethane flexible sponge film, pet film, polyvinyl butyral film, formaldehyde phenol film, neoprene film, butadiene-propylene copolymer film, natural rubber film, polyacrylonitrile film, any in acrylonitrile vinyl chloride film and polyethylene the third diphenol carbonate thin film.

Wherein, described the first high molecular polymer insulating barrier, the second high molecular polymer insulating barrier and the material of thin layer can be identical between two parties, also can be different.If the material of above-mentioned three layers is all identical, can cause the quantity of electric charge of triboelectrification very little.Preferably, described the first high molecular polymer insulating barrier is different from the described material of thin layer between two parties.The first high molecular polymer insulating barrier is preferably identical with the second high molecular polymer insulating barrier, can reduce material category like this, makes making of the present utility model convenient.

Wherein, described the first electrode and described the second electrode material therefor are indium tin oxide, Graphene, nano silver wire film, metal or alloy; Wherein, metal is Au Ag Pt Pd, aluminium, nickel, copper, titanium, chromium, selenium, iron, manganese, molybdenum, tungsten or vanadium; Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper alloy, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

Embodiment tetra-,

In addition, triboelectricity machine can also adopt the 4th kind of structure to realize, as shown in Figure 10 a and Figure 10 b, comprise: the first electrode 411 being cascading, the first high molecular polymer insulating barrier 412, between two parties electrode layer 410, the second high molecular polymer insulating barriers 414 and the second electrode 413; Wherein, the first electrode 411 is arranged on the first side surface of the first high molecular polymer insulating barrier 412; The second electrode 413 is arranged on the first side surface of the second high molecular polymer insulating barrier 414, and described electrode layer between two parties 410 is arranged between the second side surface of the first high molecular polymer insulating barrier 412 and the second side surface of the second high molecular polymer insulating barrier 414.Alternatively, in order to improve friction effect, the first high molecular polymer insulating barrier 412 is provided with micro-nano structure (not shown) at least one face in the face of the face of electrode layers 410 and relative the first high molecular polymer insulating barrier 412 of electrode layer 410 between two parties relatively between two parties; The second high molecular polymer insulating barrier 414 is provided with micro-nano structure (not shown) at least one face in the face of the face of electrode layers 410 and relative the second high molecular polymer insulating barrier 414 of electrode layer 410 between two parties relatively between two parties.Concrete set-up mode about micro-nano structure can, with reference to above describing, repeat no more herein.In this mode, produce electrostatic charge by the friction between electrode layer 410 and the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier between two parties, thus will be between two parties produce electrical potential difference between electrode layer 410 and the first electrode and the second electrode.In the present embodiment, electrode layer 410 is to be made by the material that can make electrode between two parties.Wherein, the output that the first electrode and the series connection of the second electrode are triboelectricity machine; Electrode layer is as another output of triboelectricity machine between two parties.

In embodiment tetra-, described the first high molecular polymer insulating barrier, the second high molecular polymer insulating barrier is respectively and is selected from Kapton, aniline-formaldehyde resin film, polyformaldehyde film, ethyl cellulose film, polyamide film, melamino-formaldehyde film, polyethylene glycol succinate film, cellophane, cellulose acetate film, polyethylene glycol adipate film, polydiallyl phthalate film, fiber (regeneration) sponge film, elastic polyurethane body thin film, styrene-acrylonitrile copolymer copolymer film, styrene-butadiene-copolymer film, staple fibre film, poly-methyl film, methacrylic acid ester film, polyvinyl alcohol film, polyvinyl alcohol film, polyester film, polyisobutene film, polyurethane flexible sponge film, pet film, polyvinyl butyral film, formaldehyde phenol film, neoprene film, butadiene-propylene copolymer film, natural rubber film, polyacrylonitrile film, any in acrylonitrile vinyl chloride film and polyethylene the third diphenol carbonate thin film.

Wherein, described the first high molecular polymer insulating barrier and described the second high molecular polymer insulating barrier material can be identical, also can be different.Preferably, the first high molecular polymer insulating barrier is identical with the second high molecular polymer insulating barrier, can reduce material category, makes making of the present invention convenient.

Wherein, described the first electrode and described the second electrode material therefor are indium tin oxide, Graphene, nano silver wire film, metal or alloy; Wherein, metal is Au Ag Pt Pd, aluminium, nickel, copper, titanium, chromium, selenium, iron, manganese, molybdenum, tungsten or vanadium; Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper alloy, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.Wherein, electrode layer material therefor is metal or alloy between two parties; Wherein, metal is Au Ag Pt Pd, aluminium, nickel, copper, titanium, chromium, selenium, iron, manganese, molybdenum, tungsten or vanadium; Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper alloy, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

The Luminous shoe that the utility model provides adopts above-mentioned triboelectricity machine to power, and just can produce electric weight also for the illuminator on power-generating shoe is powered as long as wearer jams on friction.Thus, not only save dead battery and changed the trouble that battery brings afterwards, and solved the problem that cannot power after battery electric quantity is finished.So the power-generating shoe that the utility model provides can be realized self-powered function, substitute existing powered battery mode, thereby greatly saved resource.

And, in the utility model, luminescent device in Luminous shoe can adopt luminescent fibre, electrogenerated luminous wire, electro luminescence line, EL sheet and electroluminescent powder or other forms to show the LOGO mark of footwear body, make the LOGO mark of footwear body more outstanding, especially at night, contribute to improve the popularity of brand.Except luminescent device being made as the mode of footwear body LOGO, luminescent device can also be designed to various self-defining shapes or pattern, thereby can play the effect that beautifies footwear body.In addition, in the utility model embodiment, by the combination of triboelectricity machine and electrical storage device, can in the situation that there is no battery, guarantee the sustainable supply of electric weight, LOGO mark or other patterns that luminescent device forms can be presented on footwear body constantly, thereby under the prerequisite of green non-pollution, realize the lasting highlighted demonstration of LOGO mark, improved user's visual effect.

Although it will be understood by those skilled in the art that in above-mentioned explanation, for ease of understanding, the step of method is adopted to succession description, it should be pointed out that for the order of above-mentioned steps and do not do strict restriction.

One of ordinary skill in the art will appreciate that all or part of step realizing in above-described embodiment method is can carry out the hardware that instruction is relevant by program to complete, this program can be stored in a computer read/write memory medium, as: ROM/RAM, magnetic disc, CD etc.

Will also be appreciated that the apparatus structure shown in accompanying drawing or embodiment is only schematically, presentation logic structure.The module wherein showing as separating component may or may not be physically to separate, and the parts that show as module may be or may not be physical modules.

Obviously, those skilled in the art can carry out various changes and modification and not depart from spirit and scope of the present utility model the utility model.Like this, if within of the present utility model these are revised and modification belongs to the scope of the utility model claim and equivalent technologies thereof, the utility model is also intended to comprise these changes and modification interior.

Claims (20)

1. a Luminous shoe, comprise sole and vamp, it is characterized in that, also comprise: at least one the triboelectricity machine that is arranged on described sole site, and at least one luminescent device being electrically connected with the output of described at least one triboelectricity machine, wherein, described luminescent device is arranged on sole and/or vamp.

2. Luminous shoe as claimed in claim 1, is characterized in that, described vamp comprises top layer and nexine, and described luminescent device is arranged between described top layer and nexine.

3. Luminous shoe as claimed in claim 1, it is characterized in that, described luminescent device further comprises: illuminator and luminescent fibre, wherein, the first end of described illuminator is electrically connected with the output of at least one triboelectricity machine, is in contact with one another and is fixedly connected with by the fixed part of shading between the second end of described illuminator and described luminescent fibre.

4. Luminous shoe as claimed in claim 1, it is characterized in that, described luminescent device further comprises: illuminator and luminescent fibre, wherein, the first end of described illuminator is electrically connected with the output of at least one triboelectricity machine, between the second end of described illuminator and described luminescent fibre, do not contact and the second end and the described luminescent fibre of described illuminator between interval be less than predeterminable range.

5. Luminous shoe as claimed in claim 4, is characterized in that, between the second end of described illuminator and described luminescent fibre, covers by light-blocking member.

6. the Luminous shoe as described in as arbitrary in claim 3-5, is characterized in that, described illuminator comprises LED.

7. the Luminous shoe as described in as arbitrary in claim 3-5, is characterized in that the mark shape that is shaped as Chinese character shape, phonetic shape, Luminous shoe of described luminescent fibre, the shape of animal pattern, the shape of plant pattern or the shape of building pattern.

8. Luminous shoe as claimed in claim 1 or 2, is characterized in that, described luminescent device is the one in following device: electrogenerated luminous wire, electro luminescence line, EL sheet and electroluminescent powder.

9. Luminous shoe as claimed in claim 8, it is characterized in that, in the time that described luminescent device is electrogenerated luminous wire or electro luminescence line, the mark shape that is shaped as Chinese character shape, phonetic shape, Luminous shoe of described electrogenerated luminous wire or electro luminescence line, the shape of animal pattern, the shape of plant pattern or the shape of building pattern.

10. Luminous shoe as claimed in claim 8, it is characterized in that, in the time that described luminescent device is EL sheet or electroluminescent powder, described Luminous shoe further comprises: hide the diffuser in described luminescent device outside, on described diffuser, be further provided with transmittance section, wherein, the shape of the mark shape that is shaped as Chinese character shape, phonetic shape, Luminous shoe of described transmittance section, animal pattern, the shape of plant pattern or the shape of building pattern.

11. Luminous shoes as claimed in claim 1, is characterized in that, described triboelectricity machine comprises: the first electrode being cascading, the first high molecular polymer insulating barrier, and the second electrode; Wherein, described the first electrode is arranged on the first side surface of described the first high molecular polymer insulating barrier; And the second side surface of described the first high molecular polymer insulating barrier and described the second electrode are oppositely arranged, wherein, between described the first high molecular polymer insulating barrier and described the second electrode, form frictional interface, described the first electrode and described the second electrode are as two outputs of described triboelectricity machine.

12. Luminous shoes as claimed in claim 1, is characterized in that, described triboelectricity machine comprises: the first electrode being cascading, the first high molecular polymer insulating barrier, the second high molecular polymer insulating barrier, and the second electrode, wherein, described the first electrode is arranged on the first side surface of described the first high molecular polymer insulating barrier, described the second electrode is arranged on the first side surface of described the second high molecular polymer insulating barrier, and the second side surface of the second side surface of described the first high molecular polymer insulating barrier and described the second high molecular polymer insulating barrier is oppositely arranged, wherein, between described the first high molecular polymer insulating barrier and described the second high molecular polymer insulating barrier, form frictional interface, described the first electrode and described the second electrode are as two outputs of described triboelectricity machine.

13. Luminous shoes as claimed in claim 1, is characterized in that, described triboelectricity machine comprises: the first electrode being cascading, the first high molecular polymer insulating barrier, thin layer between two parties, the second high molecular polymer insulating barrier, and the second electrode; Wherein, described the first electrode is arranged on the first side surface of described the first high molecular polymer insulating barrier, described the second electrode is arranged on the first side surface of described the second high molecular polymer insulating barrier, and described thin layer is between two parties arranged between the second side surface of described the first high molecular polymer insulating barrier and the second side surface of described the second high molecular polymer insulating barrier;

Wherein, described the first high molecular polymer insulating barrier and the described frictional interface that forms between thin layer between two parties, and/or, described the second high molecular polymer insulating barrier and the described frictional interface that forms between thin layer between two parties, described the first electrode and described the second electrode are as two outputs of described triboelectricity machine.

14. Luminous shoes as claimed in claim 1, is characterized in that, described triboelectricity machine comprises: the first electrode being cascading, the first high molecular polymer insulating barrier, electrode layer between two parties, the second high molecular polymer insulating barrier, and the second electrode; Wherein, described the first electrode is arranged on the first side surface of described the first high molecular polymer insulating barrier, described the second electrode is arranged on the first side surface of described the second high molecular polymer insulating barrier, and described electrode layer is between two parties arranged between the second side surface of described the first high molecular polymer insulating barrier and the second side surface of described the second high molecular polymer insulating barrier;

Wherein, described the first high molecular polymer insulating barrier and the described frictional interface that forms between electrode layer between two parties, and/or, described the second high molecular polymer insulating barrier and the described frictional interface that forms between electrode layer between two parties; The output that described the first electrode and the series connection of the second electrode are described triboelectricity machine, another output that described electrode layer is between two parties described triboelectricity machine.

15. Luminous shoes as described in as arbitrary in claim 11-14, is characterized in that, at least one face forming in two faces of frictional interface is provided with micro-nano structure.

16. Luminous shoes as claimed in claim 1, is characterized in that, further comprise: electrical storage device, and the input of described electrical storage device is connected with the output of described triboelectricity machine, and the output of described electrical storage device is connected with described luminescent device.

17. Luminous shoes as claimed in claim 16, is characterized in that, described electrical storage device further comprises: AC/DC changeover switch and the energy-storage travelling wave tube being connected with described AC/DC changeover switch, wherein, described AC/DC changeover switch further comprises: rectifier.

18. Luminous shoes as claimed in claim 17, is characterized in that, described AC/DC changeover switch further comprises: the wave filter being connected with described rectifier, and the voltage-stablizer being connected with described wave filter.

19. Luminous shoes as claimed in claim 17, it is characterized in that, described electrical storage device further comprises: be connected to the gauge tap between described energy-storage travelling wave tube and described luminescent device, wherein, described gauge tap is the one in following switch: snap switch, press button, vibration switch and audio-switch.

20. Luminous shoes as claimed in claim 1, it is characterized in that, the quantity of described triboelectricity machine is multiple, and multiple triboelectricity machines are arranged on described sole inside with overlapped way or tiling mode, and connects by series connection and/or parallel way between multiple triboelectricity machine.

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