CN104426418B - Generating air bag device and air bag generating shoes applying same - Google Patents

Abstract

The invention discloses a generating air bag device, which comprises at least one double-layer air bag component; the at least one double-layer air bag component comprises an inner layer air bag and an outer layer air bag; an airtight first space is formed between the outer layer air bag and the inner layer air bag; an airtight second space is formed in the inner layer air bag; a friction generator is arranged in the inner layer air bag; the friction generator comprises a first substrate and a second substrate, wherein the second side surface of the first substrate is provided with a first electrode layer, and the second side surface of the second substrate is provided with a second electrode layer; the first electrode layer is further provided with a first high-molecular polymer insulating layer, and/or, the second electrode layer is further provided with a second high-molecular polymer insulating layer; the first electrode layer and the second electrode layer serve as the electric energy output end of the friction generator; the invention also discloses a pair of air bag generating shoes applying the generating air bag device; the generating air bag device is arranged in a sole of each air bag generating shoe, or is arranged on an insole of each air bag generating shoe.

Description

Generating airbag apparatus and the air bag power-generating shoe using the generating airbag apparatus

Technical field

The present invention relates to circuit field, more particularly to a kind of generating airbag apparatus and the air bag using the generating airbag apparatus Power-generating shoe.

Background technology

At present, common power-generating shoe is generated electricity using magnetic-type, is generated electricity equivalent to a small-sized magnetic-type is installed in sole Machine, not only complex structure, high cost, easily go wrong, and generating efficiency is low, and sole occurs moderate finite deformation, when on foot Easily produce sense of discomfort.

And, at ordinary times during walking, sole produces pressure by shoes road pavement, so as to produce mechanical energy.One Individual adult is considerable by the mechanical energy produced by shoes during walking（For example, 60 watts of energy can be produced Amount）But, current power-generating shoe can not use this some mechanical so as to waste.

In addition, generator of the prior art is easily damaged when by larger pressure or vibrations by external force, shadow Ring service life.

The content of the invention

The invention provides a kind of generating airbag apparatus and the air bag power-generating shoe using the generating airbag apparatus, to solve Generator of the prior art easily sustains damage when by larger pressure or vibrations, affects service life, and generates electricity Footwear structure is complicated, generating efficiency is low, it is uncomfortable to wear and does not have the problem being used to the mechanical energy for producing of walking.

A kind of generating airbag apparatus, including：At least one double-layer air bag part, the double-layer air bag part includes internal layer gas Capsule and the balloon outer being wrapped in outside the inner bladder, wherein, formed between the balloon outer and the inner bladder The first closed space；The inner bladder is internally formed closed second space；Wherein, the inner bladder inside is further At least one friction generator is provided with, the friction generator includes：First substrate, the first side surface of first substrate Laminating is fixed on the inner surface of the inner bladder upper wall, and on the second side surface of first substrate first electrode is provided with Layer；Second substrate, the first side surface laminating of second substrate is fixed on the inner surface of the inner bladder lower wall, described The second electrode lay is provided with second side surface of the second substrate；Wherein, it is further provided with first in the first electrode layer High molecular polymer insulating barrier, and/or, the second high molecular polymer insulating barrier is further provided with the second electrode lay, The electric energy output end of the first electrode layer and the second electrode lay as the friction generator.One kind applies above-mentioned generating The air bag power-generating shoe of airbag apparatus, the generating airbag apparatus are arranged in the sole of the air bag power-generating shoe, or described Electrically bag apparatus pad is on the shoe-pad of the air bag power-generating shoe.

A kind of air bag power-generating shoe, including above-mentioned generating airbag apparatus.

In the embodiment of the present invention, without the need for arranging small-sized magnetic-type generator, only need to by friction generator will on foot when produce Mechanical energy be converted to the purpose that electric energy just can be realized generating electricity, thus the mechanical energy produced during to walking has carried out rational profit With.The generating airbag apparatus and air bag power-generating shoe simple structure, cost are relatively low, and friction generator is unlike in common power-generating shoe The such tree material is hard of small-sized magnetic-type generator in portion, so also improving the comfort level of user.

In addition, in the present invention, double-layer air bag part particularly is provided with, can be effectively prevented due to jumping by the part The friction generator for causing inside Deng strenuous exercise sustains damage, moreover, it is also possible to prevent generator from making moist, so as to generating electricity Machine plays sufficient protective effect, to extend the service life of generator.

Description of the drawings

Fig. 1 shows the structural representation of generating airbag apparatus provided in an embodiment of the present invention；

Fig. 2 shows the structural representation of a preferred embodiment of generating airbag apparatus provided in an embodiment of the present invention；

In the first situation that Fig. 3 a show shown in Fig. 2 between the first connect band, the second connect band and intermediate connecting layer Top view；

In second situation that Fig. 3 b show shown in Fig. 2 between the first connect band, the second connect band and intermediate connecting layer Top view；

Fig. 4 to Fig. 6 respectively illustrates whole sole position, hind paw position and the forefoot of generating airbag apparatus Schematic diagram.

Specific embodiment

To be fully understood by purpose, feature and effect of the present invention, by following specific embodiments, the present invention is done in detail Describe in detail bright, but the present invention is not restricted to this.

The invention provides a kind of generating airbag apparatus and air bag power-generating shoe, exist to solve generator of the prior art By easily being damaged by external force when larger pressure or vibrations, service life, and power-generating shoe complex structure, generating are affected Efficiency is low, it is uncomfortable to wear and does not have the problem being used to the mechanical energy for producing of walking.

Fig. 1 shows the structural representation of generating airbag apparatus provided in an embodiment of the present invention.As shown in figure 1, the generating Airbag apparatus include：At least one double-layer air bag part, the double-layer air bag part includes inner bladder 11 and is wrapped in described Balloon outer 12 outside inner bladder 11, wherein, form closed between the balloon outer 12 and the inner bladder 11 First space 100；The inner bladder 11 is internally formed closed second space 200.

Wherein, at least one friction generator, the friction generator are further provided with inside the inner bladder 11 Including：First substrate 21, the first side surface laminating of first substrate 21 is fixed on the inner surface of the inner bladder upper wall On, it is provided with first electrode layer 22 on the second side surface of first substrate 21；Second substrate 23, second substrate 23 The laminating of first side surface is fixed on the inner surface of the inner bladder lower wall, is set on the second side surface of second substrate 23 It is equipped with the second electrode lay 24.Further, the insulation of the first high molecular polymer is further provided with the first electrode layer 22 Layer 25, and, the second high molecular polymer insulating barrier 26, the first electrode are further provided with the second electrode lay 24 Layer 22 and the second electrode lay 24 as the friction generator electric energy output end.

In the construction shown in fig. 1, it is provided with high molecular polymer simultaneously in first electrode layer and the second electrode lay exhausted Edge layer.In fact, only the first high molecular polymer insulating barrier can also be arranged in first electrode layer, and save the second macromolecule Polymer insulation layer；Or, only the second high molecular polymer insulating barrier is set on the second electrode layer, and save the first macromolecule Polymer insulation layer, can equally realize the purpose of triboelectricity.

In embodiments of the present invention, double-layer air bag part particularly is provided with, can be effectively prevented due to jumping by the part Tiao Deng strenuous exercises and cause the friction generator of inside to sustain damage, moreover, it is also possible to prevent generator from making moist, so as to sending out Motor plays sufficient protective effect, to extend the service life of generator.

The concrete structure of above-mentioned double-layer air bag part is discussed in detail first below.Double-deck gas is can be seen that with reference to Fig. 1 Capsule part is made up of inner bladder 11 and balloon outer 12.Wherein, inner bladder 11 is internally formed closed second space 200, the second space 200 is mainly used in accommodating friction generator, and prevents friction generator from making moist or being damaged；Balloon outer 12 The outside of inner bladder 11 is wrapped in, because balloon outer 12 is also in itself closed, therefore in balloon outer 12 and internal layer gas Define the first closed space 100 between capsule 11, first space 100 is mainly used in being wrapped in and accommodates friction generator The outside of second space 200, to play cushioning effect when walking and jumping, thus prevents inner bladder whole because making after compression Individual air cushion loses buffering and damping effect.

When implementing, the particular location relation between inner bladder and balloon outer can have various designs.Example Such as, inner bladder can directly be suspended in the inside of balloon outer, i.e.,：When acting on without external force, inner bladder and balloon outer Between be not in contact with each other.Or, it is also possible to make inner bladder and the privileged site of balloon outer be bonded together so that inner bladder There is contact site between balloon outer, for example, the outside of the top of supply line of inner bladder and the top of balloon outer can be made End is mutually glued on the inside of position；Or, make the outside of the bottom part of inner bladder and the bottom of balloon outer The inner side of position is mutually glued；Or, the outside of the middle part of inner bladder and the centre of balloon outer can also be made It is mutually glued on the inside of position.In a word, the present invention to the particular location relation between inner bladder and balloon outer not Limit, those skilled in the art can flexibly be selected as needed.

The possible position relationship between inner bladder and balloon outer is exemplified below：

With further reference to Fig. 2, Fig. 2 further illustrates between inner bladder and balloon outer on the basis of Fig. 1 Plant the schematic diagram of optimum position relation.As shown in Fig. 2 balloon outer 12 is made up of upper wall and lower wall two parts, and balloon outer 12 upper wall and lower wall mutually glue and are incorporated in the first connect band 120 of bonding place formation.When implementing, certain note can be passed through Modeling releasing process produces respectively similar hemispheric upper wall and lower wall, then, will be bonded after upper wall and lower wall alignment（Example Such as with hot melting way bonding）.By such mode, it is possible to produce the balloon outer of spheroidal, and, in this side In formula, the first connect band 120 that the bonding place of the upper lower wall of balloon outer is formed is circle（Fig. 2 is profile, so only seeing To a point, can see that the first connect band 120 is circular if the corresponding top views of Fig. 2 are drawn out）, and positioned at the ball The middle part of shape air bag, by 12 points of balloon outer is upper and lower two parts by first connect band 120.Similar, internal layer gas Capsule 11 is equally made up of upper wall and lower wall two parts, and the upper wall and lower wall of inner bladder 11 also mutually glues and be incorporated in bonding place shape Into the second connect band 110.Further, an intermediate connecting layer is passed through between the first connect band 120 and the second connect band 110 130 are mutually glued.Wherein, intermediate connecting layer 130 can be taken and the material identical material for making air bag（Such as rubber Glue）To make, at this moment directly the intermediate connecting layer can be made using integrally formed mode when making, it is also possible to take it His material（Such as jelly etc.）To make the intermediate connecting layer.

In manufacturing process, operate for convenience, can then make intermediate connecting layer according to inner bladder is first made, Finally make the order operation of balloon outer.Specifically, first, the upper wall and lower wall of inner bladder are mutually glued and is incorporated in bonding Place forms the second connect band 110；Then, by the second connect band 110 by intermediate connecting layer 130 and the upper wall of balloon outer, outer The lower wall of layer air bag is mutually bonded, and forms the first connect band 120 in bonding place.In the present invention, to intermediate connecting layer 130 Material is not limited, as long as can play a part of to be connected.In addition, the thickness of intermediate connecting layer 130 can also root According to needing to be set, for example, in some cases it may which the thickness of intermediate connecting layer 130 is arranged thicker, and another Under certain situation, it is also possible to which arranging the thickness of intermediate connecting layer must be than relatively thin.

Height of the height sum of the upper lower wall of the balloon outer for being formed by the way more than the upper lower wall of inner bladder Degree sum, to make balloon outer be wrapped in outside inner bladder, and the circumference external diameter of the second connect band of inner bladder is smaller In the circumference internal diameter of the first connect band of balloon outer, so that can between the balloon outer of outside and the inner bladder of inside To be fixed by the intermediate connecting layer between the first connect band and the second connect band.

By above description it can also be seen that in the position relationship shown in Fig. 2, between balloon outer and inner bladder The first space 100 for being formed further includes：Above the first connect band, intermediate connecting layer and the second connect band first is sub Space, and the second subspace below the first connect band, intermediate connecting layer and the second connect band.

Specifically, according to the concrete form of intermediate connecting layer 130, again can be by the inner bladder shown in Fig. 2 and outer layer gas The position relationship of capsule is further subdivided into the following two kinds situation：

In the first case, it is further provided with pore space structure on intermediate connecting layer 130.Due to intermediate connecting layer 130 For connecting the first connect band of balloon outer and the second connect band of inner bladder, therefore, when setting on intermediate connecting layer 130 During hole structure, the first subspace and the second subspace in the first space 100 is interconnected by the pore space structure.Cause This, in the first case, the first subspace and the second subspace communicate with each other, and the air-flow in two sub-spaces can mutually flow It is dynamic, therefore, when whole double-layer air bag part is under pressure effect, the air pressure in two sub-spaces is basically identical.

In addition, in the first above-mentioned situation, the effect of the pore space structure being arranged on intermediate connecting layer 130 mainly exists In making the first subspace connect with the second subspace, therefore, the pore space structure not only includes the structures such as common circular hole, square hole, Moreover, it is also possible to including the larger hole of area, for example, with reference to the first connect band shown in Fig. 3 a, the second connect band and centre Top view between articulamentum, in fig. 3 a, above-mentioned intermediate connecting layer 130 is set to it is interrupted, i.e.,：Only circular the First circular arc position of one connect band 120 and the second connect band 110（Top）, the second circular arc position（Left）, three-arc portion Position（Lower section）With the 4th circular arc position（Right）Place is provided with intermediate connecting layer 130, and in the first connect band and the second connect band Other circular arc positions be then not provided with intermediate connecting layer, as a result, the first subspace and the second subspace can be by not setting Put the position of intermediate connecting layer and be interconnected.

Further, when pore space structure is provided with intermediate connecting layer 130, in order to prevent pore space structure from sending out because of extruding Raw deformation, can be with enterprising positioned at the intermediate connecting layer between the first connect band and the second connect band so as to hinder airflow One step arranges at least one connecting conduit.Preferably, the connecting conduit is made using harder material, to prevent hole from deforming, And guarantee the smooth circulation of air-flow.

In the first case, due to further to arrange pore space structure on intermediate connecting layer, therefore, it can first Articulamentum arranges thicker, in order to arrange.

In second situation, pore space structure is not provided with intermediate connecting layer 130, now, first in the first space 100 Subspace does not connect each other with the second subspace because being intercepted by the intermediate connecting layer.Therefore, in second situation, due to One subspace does not connect each other with the second subspace, causes the air-flow in two sub-spaces mutually to flow, therefore, when whole Double-layer air bag part is under pressure when acting on, and the air pressure in two sub-spaces is independent of each other.

In addition, in second above-mentioned situation, the effect that pore space structure is not provided with intermediate connecting layer 130 is essentially consisted in The first subspace is set not connect with the second subspace, therefore, generally continuously, i.e., above-mentioned intermediate connecting layer 130 is set to： Intermediate connecting layer 130 is both provided with the whole circular place of circular the first connect band and the second connect band.Referring specifically to Fig. 3 b The first connect band 120, the top view between the second connect band 110 and intermediate connecting layer 130 for illustrating.

In second situation, due to without the need for arranging pore space structure on intermediate connecting layer, therefore, it can the first connection Layer arranges relatively thin.

All it is equal with inner bladder and balloon outer in the Description of Drawings of superincumbent word description and Fig. 3 a and Fig. 3 b For spherical shape, correspondingly, the first connect band and the second connect band are also what is be described as a example by circle.However, in actual feelings In condition, it can also be provided that other are variously-shaped, such as cuboid etc. correspondingly, works as internal layer for inner bladder and balloon outer When air bag and balloon outer are cuboid, the first connect band and the second connect band are also rectangle.

In addition, in the present invention, the first valve further can also be set on balloon outer, for into the first space A certain amount of gas is filled with, can be a certain amount of for being filled with into second space to arrange the second valve in inner bladder Gas.By the volume for adjusting insufflation gas, the first space and the air pressure size in second space can be further adjusted.It is preferred that Ground, the air pressure in the first space is more than or equal to the air pressure in second space.Such to be advantageous in that, in the first space air pressure It is higher, damping effect can be preferably played, so as to protect friction generator without prejudice；Air pressure in second space is relatively low, Friction generator can be enable effectively to contact friction, so as to produce electric energy.Air pressure when implementing, in the first space And/or the pressure limit value of the air pressure in second space is related to the pressure size that the strength of materials of air bag and air bag bear. Preferably, the air pressure range in second space include 1psi～10psi, the air pressure range in the first space include 5psi～ 30psi, the air pressure range can preferably play buffering effect.

Above-mentioned double-layer air bag part generally can be formed by tough and tensile synthetic rubber casting, it would however also be possible to employ other are similar to Material makes.

After having introduced the structure of double-layer air bag part, the primary structure of friction generator is next discussed in detail again And electricity generating principle.

With continued reference to Fig. 1, friction generator mainly includes two parts, and a part is arranged on the interior table of the upper wall of inner bladder On face, another part is arranged on the inner surface of the lower wall of inner bladder.Wherein, it is arranged on inner bladder upper wall inner surface This part includes successively from top to bottom the first substrate 21, the high molecular polymer insulating barrier 25 of first electrode layer 22 and first；Arrange This part on inner bladder lower wall inner surface includes successively that from bottom to up the second substrate 23, the second electrode lay 24 and second are high Molecularly Imprinted Polymer insulating barrier 26.

As can be seen here, the first substrate 21 and the second substrate 23 are located at the outermost of whole friction generator, prop up for playing Support and fixed effect, therefore, the first substrate 21 and the second substrate 23 can adopt the material with certain degree of hardness, toughness and elasticity Expect to make.And, in order to adapt to the shape of the upper lower wall of inner bladder, the first substrate 21 and the second substrate 23 can make For arcuate structure, for example, the first substrate is the arcuate structure for raising up, and the second substrate is the arcuate structure to lower recess, phase Ying Di, the electrode and high molecular polymer on each substrate is also corresponding structure.The design of arcuate structure not only can The shape of inner bladder is adapted to, but also two parts of friction generator can be promoted to be separated from each other after distress resolves, so as to Improve generating effect.Above-mentioned the first high molecular polymer insulating barrier 25 and the second high molecular polymer insulating barrier 26 sets relatively Put, when depressed, the first high molecular polymer insulating barrier 25 and the second high molecular polymer insulating barrier 26 then can phase mutual connections Touch and rub, thus induce electric charge in first electrode layer 22 and the second electrode lay 24, therefore, the He of first electrode layer 22 The second electrode lay 24 as friction generator electric energy output end, so as to realize generating purpose.

In order to improve the generating capacity of friction generator, in the first high molecular polymer insulating barrier 25 and/or the second high score Micro-nano structure can be further set in sub- polymer insulation layer 26.Therefore, when friction generator is squeezed, described first The apparent surface of high molecular polymer insulating barrier and the second high molecular polymer insulating barrier can better contact with friction, and More electric charge is induced at one electrode and second electrode.Above-mentioned micro-nano structure can specifically take the possible reality of the following two kinds Existing mode：First kind of way is that the micro-nano structure is micron order or nano level very little concaveconvex structure.The concaveconvex structure energy Enough increase frictional resistance, improve generating efficiency.The concaveconvex structure can directly be formed in film preparation, it is also possible to polishing Method make the surface of the first high molecular polymer insulating barrier form irregular concaveconvex structure.Specifically, the concaveconvex structure can Being the concaveconvex structure of the shapes such as semicircle, striated, cubic type, rectangular pyramid or cylinder.The second way is to be somebody's turn to do Micro-nano structure is nanoscale cavernous structure, and now the first high molecular polymer insulating barrier material therefor is preferably Kynoar （PVDF）, its thickness is 0.5-1.2mm（It is preferred that 1.0mm）, and the face of its relative second electrode is provided with multiple nano-pores.Its In, the size of each nano-pore, i.e. width and depth can be selected, the chi of preferred nano-pore according to the needs of application It is very little to be：Width is 10-100nm and depth is 4-50 μm.The quantity of nano-pore can be as needed output current value and electricity Pressure value is adjusted, and preferred these nano-pores are pitchs of holes to be uniformly distributed for 2-30 μm, and preferred average pitch of holes is 9 μm be uniformly distributed.

Lower mask body introduces the operation principle of above-mentioned friction generator.When the friction generator is squeezed, Cause the first high molecular polymer insulating barrier in friction generator and the second high molecular polymer surface of insulating layer phase mutual friction Electrostatic charge is produced, the generation of electrostatic charge can make the electric capacity between first electrode and second electrode change, so as to cause first Occurs electrical potential difference between electrode and second electrode.Because first electrode and second electrode are used as the electric energy output end of friction generator It is connected with external circuit, therefore, when each layer of the friction generator returns to original state, at this moment it is formed in first electrode and Built-in potential between two electrodes disappears, and now will again produce reverse potential between Balanced first electrode and second electrode Difference.By rubbing repeatedly and recovering, it is possible to form periodic alternating-current pulse electric signal in external circuit.Specific to the present invention In, when the air bag TRT is squeezed, the friction generator in air bag is due to being squeezed so that two parts phase mutual connection Touch and rubbed, when distress resolves, because the compression energy in air bag discharges, cause two of the friction generator in air bag Divide nature to rebound and repeat this process in released state, motion process.

In addition to the structure of the friction generator shown in Fig. 1, the first above-mentioned high molecular polymer is may be omitted with exhausted Edge layer saves the second above-mentioned high molecular polymer insulating barrier, make the high molecular polymer insulating barrier of reservation directly with it is relative Electrode rubbed, equally can realize generate electricity purpose.

In addition, on the architecture basics of the friction generator shown in Fig. 1, can also further in the first high molecular polymer Film layer between two parties is set on insulating barrier or on the second high molecular polymer insulating barrier, this between two parties film layer be thin polymer film Layer.Preferably, it is also possible to film layer and/or be not provided with arranging micro- on the high molecular polymer insulating barrier of film layer between two parties between two parties Micro-nano structure, to improve friction effect.

Above-mentioned first electrode layer and the second electrode lay material therefor can be indium tin oxide, Graphene, nano silver wire Film, metal or alloy, wherein metal can be Au Ag Pt Pd, aluminium, nickel, copper, titanium, chromium, selenium, iron, manganese, molybdenum, tungsten or vanadium；Close Gold can be aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper alloy, kirsite, manganese alloy, nickel alloy, metal, tin conjunction Gold, cadmium alloy, bismuth alloy, indium alloy, gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.The first above-mentioned macromolecule Polymer insulation layer, the second high molecular polymer insulating barrier and between two parties film layer can be respectively selected from the PTFE of wear-resistant pressure-resistant, poly- Ester fiber, cellulose, hemicellulosic materials, or selected from dimethyl silicone polymer, Kynoar, polytetrafluoroethylene (PTFE), polychlorostyrene Ethene, fluorinated ethylene propylene copolymer, polytrifluorochloroethylene, Kapton, aniline-formaldehyde resin film, polyformaldehyde are thin Film, ethyl cellulose film, polyamide film, melamino-formaldehyde film, polyethylene glycol succinate film, cellulose are thin Film, cellulose acetate film, polyethylene glycol adipate film, polydiallyl phthalate film, fiber（Regeneration） Sponge films, elastic polyurethane body thin film, styrene-acrylonitrile copolymer copolymer film, styrene-butadiene-copolymer film, artificial fibre Dimension film, poly- methyl film, methacrylic acid ester film, polyvinyl alcohol film, polyvinyl alcohol film, polyester film, poly- isobutyl Alkene film, polyurethane flexible sponge films, pet film, polyvinyl butyral film, formaldehyde benzene Phenol film, neoprene film, butadiene-propylene copolymer film, natural rubber films, polyacrylonitrile film, acrylonitrile chloroethene One kind in alkene film and polyethylene the third diphenol carbonate thin film.Wherein, in the structure without film layer between two parties, in principle The material of one high molecular polymer insulating barrier and the second high molecular polymer insulating barrier can be with identical, it is also possible to different.But, such as The material of fruit two-layer high molecular polymer insulating barrier is all identical, can cause the quantity of electric charge very little of triboelectrification.It is preferred that the One high molecular polymer insulating barrier is different from the material of the second high molecular polymer insulating barrier.In the structure for having film layer between two parties In, in order to improve friction effect, it is preferable that between two parties the material of film layer is different from the first high molecular polymer insulating barrier and second High molecular polymer insulating barrier, and the first high molecular polymer insulating barrier is then excellent with the material of the second high molecular polymer insulating barrier Phase selection is same, so, can reduce material category, makes the making of the present invention convenient.

Alternatively, in order to be used to the electric energy for producing, the generating airbag apparatus in the present invention can also be wrapped further Include：The circuit devcie electrically connected with the electric energy output end of friction generator, the circuit devcie is usually located at double-layer air bag part Outside, also, the circuit devcie includes one or more in following device：Illumination component, display element, energy-storage travelling wave tube and send out Emitter.Widely, present invention can also apply to illuminate, energy storage and charging, display, false proof, unlimited transmitting, wireless identification tag, The various fields such as identification, human body signal collection, tracking.

The embodiment of the present invention additionally provides a kind of air bag power-generating shoe, and the air bag power-generating shoe is retouched including any of the above-described embodiment The generating airbag apparatus stated.

Alternatively, above-mentioned generating airbag apparatus are located in the sole of the air bag power-generating shoe, or, above-mentioned generating air bag Device pad is on the shoe-pad of the air bag power-generating shoe.Specifically, when the generating airbag apparatus in the air bag power-generating shoe are further included During above-mentioned circuit devcie, the circuit devcie can be arranged on the outside of double-layer air bag part, only by wire and it is internal Friction generator is connected, and now, the double-layer air bag part in the generating airbag apparatus can be arranged at the footwear of the air bag power-generating shoe In bottom, so, can both prevent double-layer air bag part to be damaged outside because of exposure, the thickness of sole can also have been increased, with Meet the demand of colony of certain customers；Or, the double-layer air bag part in the generating airbag apparatus can also be padded to be sent out in the air bag On the shoe-pad of electric footwear, used with serving as shoe-pad, also, the characteristic inflated due to it, can also increase comfortable when user wears Degree；In addition, the circuit devcie in generating airbag apparatus can be arranged in the sole of the air bag power-generating shoe（For example when the circuit device When part is energy-storage travelling wave tube or transmitter）, or, the circuit devcie can also be arranged on the vamp of the air bag power-generating shoe（For example When the circuit devcie is illumination component or display element）.

In addition, the double-layer air bag part in the power-generating shoe of the present invention can be one or more, when it is one, both may be used To be arranged on the forefoot of shoes, it is also possible to be arranged on hind paw position, or whole sole position can also be arranged on On；When it is multiple, multiple double-layer air bag parts can be separately positioned on forefoot or the hind paw position of shoes. Fig. 4 to Fig. 6 respectively illustrates the schematic diagram of whole sole position, hind paw position and the forefoot of shoes.Each is double-deck Multiple friction generators can also be further set in airbag components, so as to improve generating efficiency.In each double-layer air bag part Multiple friction generators between can by series connection and/or parallel way connection.

Air bag power-generating shoe provided in an embodiment of the present invention need not arrange small-sized magnetic-type generator, only need to pass through friction generator By on foot when the mechanical energy that produces be converted to the purpose that electric energy just can be realized generating electricity, thus the mechanical energy produced during to walking is entered Rational utilization is gone.The generating airbag apparatus and power-generating shoe simple structure, cost are relatively low, and friction generator is unlike common The such tree material is hard of small-sized magnetic-type generator inside power-generating shoe, so also improving the comfort level of user.

Although it will be understood by those skilled in the art that in described above, for ease of understanding, employing the step of to method suitable Sequence is described, it should be understood that for the order of above-mentioned steps does not make strict restriction.

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

It will also be appreciated that the apparatus structure shown in accompanying drawing or embodiment is only schematic, logic knot is represented Structure.The module for wherein showing as separating component is probably or may not be physically separate, used as the portion that module shows Part is probably or may not be physical module.

Obviously, those skilled in the art can carry out the essence of various changes and modification without deviating from the present invention to the present invention God and scope.So, if these modifications of the present invention and modification belong to the scope of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to comprising these changes and modification.

Claims (15)

1. a kind of generating airbag apparatus, it is characterised in that include：

At least one double-layer air bag part, the double-layer air bag part includes inner bladder and is wrapped in outside the inner bladder Balloon outer, wherein, the first closed space is formed between the balloon outer and the inner bladder；The inner bladder It is internally formed closed second space；Wherein, the air pressure in first space is more than the air pressure in the second space；

Wherein, at least one friction generator is further provided with inside the inner bladder, the friction generator includes：

First substrate, the first side surface laminating of first substrate is fixed on the inner surface of the inner bladder upper wall, institute State and be provided with first electrode layer on the second side surface of the first substrate；

Second substrate, the first side surface laminating of second substrate is fixed on the inner surface of the inner bladder lower wall, institute State and be provided with the second electrode lay on the second side surface of the second substrate；

Wherein, the first high molecular polymer insulating barrier is further provided with the first electrode layer, and/or, described second is electric The second high molecular polymer insulating barrier is further provided with the layer of pole, the first electrode layer and the second electrode lay are used as institute State the electric energy output end of friction generator.

2. generating airbag apparatus as claimed in claim 1, it is characterised in that the upper wall of the balloon outer and the outer layer gas The lower wall of capsule mutually glues and is incorporated in the first connect band of bonding place formation, under the upper wall of the inner bladder and the inner bladder Wall mutually glues and is incorporated in the second connect band of bonding place formation, by centre between first connect band and second connect band Articulamentum is mutually bonded, and is provided with pore space structure on the intermediate connecting layer,

Then first space further includes：In first connect band, intermediate connecting layer and second connect band First subspace of side, and below first connect band, intermediate connecting layer and second connect band second is sub Space, wherein, first subspace and second subspace communicate with each other.

3. generating airbag apparatus as claimed in claim 2, it is characterised in that further include：Positioned at first connect band With at least one connecting conduit on the intermediate connecting layer between second connect band.

4. generating airbag apparatus as claimed in claim 1, it is characterised in that the upper wall of the balloon outer and the outer layer gas The lower wall of capsule mutually glues and is incorporated in the first connect band of bonding place formation, under the upper wall of the inner bladder and the inner bladder Wall mutually glues and is incorporated in the second connect band of bonding place formation, by centre between first connect band and second connect band Articulamentum is mutually bonded, and is not provided with pore space structure on the intermediate connecting layer,

Then first space further includes：The first son above first connect band and second connect band is empty Between, and the second subspace below first connect band and second connect band；Wherein, first subspace Do not connect each other with second subspace.

5. generating airbag apparatus as described in claim 1-4 is arbitrary, it is characterised in that the airbag apparatus are further included： The first valve being arranged on the balloon outer, and the second valve being arranged in the inner bladder.

6. generating airbag apparatus as claimed in claim 1, it is characterised in that the air pressure range in the second space is 1psi ～10psi, the air pressure range in first space is 5psi～30psi.

7. generating airbag apparatus as claimed in claim 1, it is characterised in that the first high molecular polymer insulating barrier and/ Or the second high molecular polymer insulating barrier is provided with micro-nano structure.

8. generating airbag apparatus as claimed in claim 1, it is characterised in that when being further provided with the first electrode layer First high molecular polymer insulating barrier, and the second high molecular polymer insulating barrier is further provided with the second electrode lay When, further include：It is arranged on the first high molecular polymer insulating barrier or is arranged on second high molecular polymerization Film layer between two parties on thing insulating barrier, wherein, the film layer between two parties is polymer film layer.

9. generating airbag apparatus as claimed in claim 8, it is characterised in that the film layer between two parties and/or be not provided between two parties The high molecular polymer insulating barrier of film layer is provided with micro-nano structure.

10. generating airbag apparatus as claimed in claim 1, it is characterised in that first substrate and the first electrode are The arcuate structure for raising up, second substrate and the second electrode are the arcuate structure to lower recess.

11. generating airbag apparatus as claimed in claim 1, it is characterised in that further include：Positioned at the double-layer air bag portion The outside of part and the circuit devcie electrically connected with the electric energy output end of the friction generator, the circuit devcie includes following One or more in device：Illumination component, display element, energy-storage travelling wave tube and transmitter.

12. a kind of air bag power-generating shoes, it is characterised in that including the generating described in any claim of the claims 1 to 10 Airbag apparatus.

13. air bag power-generating shoes as claimed in claim 12, it is characterised in that the generating airbag apparatus are arranged at the air bag In the sole of power-generating shoe, or the generating airbag apparatus pad is on the shoe-pad of the air bag power-generating shoe.

14. a kind of air bag power-generating shoes, it is characterised in that including the generating airbag apparatus described in the claims 11.

15. air bag power-generating shoes as claimed in claim 14, it is characterised in that the double-layer air bag portion in the generating airbag apparatus Part is arranged in the sole of the air bag power-generating shoe, or the double-layer air bag part pad in the generating airbag apparatus is in the gas On the shoe-pad of capsule power-generating shoe；Circuit devcie in the generating airbag apparatus is arranged in the sole of the air bag power-generating shoe or footwear On face.