CN203762384U - Massage shoe, massage insole and foot bottom massage device - Google Patents

Abstract

The utility model discloses a massage shoe, a massage insole and a foot bottom massage device. The massage shoe comprises a shoe sole, a friction electricity generator arranged inside the shoe sole and an insole layer. A plurality of stimulation points are arranged on the upper surface of the insole layer. Each stimulation point comprises a conducting part directly making contact with the foot bottom, wherein the conducting part is connected with the output electrode of the friction electricity generator through an electrode lead. By the adoption of the friction electricity generator technology, the mechanical energy generated when a user walks is converted into electric energy, the massage shoe is self-powered, the electricity generation pulse width and the electric signal frequency generated when the user walks meet electric signal requirements of electric stimulation acupuncture points, the user does not need to replace a battery or carry a power supply, the problem that power cannot be supplied in time after the power supply runs out is avoided, and meanwhile, the massage shoe is simple in structure and portable.

Description

Massage shoes, massage insole and foot-massaging device

Technical field

The utility model relates to massage appliance, particularly a kind of massage shoes, massage insole and foot-massaging device.

Background technology

Electro photoluminescence can change the histological characteristic of muscle and strengthen muscular strength, and can prevent and treat multiple pathology.If electro photoluminescence massage can be combined with footwear, just can utilize in the process of walking electro photoluminescence Pelma acupuncture points, this can eliminate tired and very convenient effectively.

At present, common electro photoluminescence massage shoes adopts external power source conventionally, for example, and chargeable, detachable battery etc.Once battery is used up, cannot realize electro photoluminescence massage functions.The dismounting of battery and charging are also comparatively loaded down with trivial details time-consuming.

Also the footwear that have some to there is spontaneous electrical function in prior art, but be to adopt magnetic-type generating mostly, cost is very high, generating efficiency is low.When sole generation moderate finite deformation, easily produce sense of discomfort.In addition, the signal of telecommunication size that this generation mode produces, the requirement that frequency does not generally meet human body electro photoluminescence, may also need extra circuit unit, and complex structure, while being arranged in footwear, seems very heavy.

Utility model content

Goal of the invention of the present utility model is the defect for prior art, proposes a kind of electro photoluminescence massage shoes, massage insole and foot-massaging device, can not rely on external power source, realize self-powered, produce the signal of telecommunication that meets human body electro photoluminescence requirement, and very light.

According to an aspect of the present utility model, a kind of massage shoes is provided, comprise sole, be arranged on the triboelectricity machine of sole inside; Insole layer, the upper surface of insole layer is provided with multiple stimulation points, and stimulation point comprises the current-carrying part directly contacting with vola, and current-carrying part is connected with the output electrode of triboelectricity machine by contact conductor.

Alternatively, sole inside has the cavity that holds triboelectricity machine, and triboelectricity machine is arranged in cavity.

Alternatively, sole can also comprise air cushion structure, and two film layer structure that form the frictional interface of triboelectricity machine adhere to respectively the inner surface up and down of air cushion structure.

Alternatively, insole layer is provided with entire body perforation in the corresponding position of stimulation point, and contact conductor is bored a hole and is connected with the current-carrying part of stimulation point by entire body.

Alternatively, described stimulation point is arranged on the position that described insole layer upper surface is corresponding with Pelma acupuncture points; Contact conductor is many, and the contact conductor of different attribute connects the stimulation point that different Pelma acupuncture points are corresponding.

Alternatively, stimulation point is arranged on the massage protrusions on insole layer upper surface, and the part that the top of massage protrusions contacts with vola is made up of conductive material; And/or stimulation point is the patch electrode that sticks on insole layer upper surface.

Alternatively, the quantity of triboelectricity machine is multiple, and multiple triboelectricity machines are arranged on sole inside with overlapped way; And/or multiple triboelectricity machines are laid in sole inside along sole gradient trend.

Alternatively, triboelectricity machine is three-decker, four-layer structure or five-layer structure, and triboelectricity machine at least comprises two surfaces that form frictional interface.

Alternatively, at least one surface in two surfaces of formation frictional interface is provided with micro-nano structure.

Alternatively, outwards arching upward in two surfaces of triboelectricity machine frictional interface, between two surfaces, forms domes.

Alternatively, triboelectricity machine also comprises the supporting construction that supports described domes, and supporting construction is formed by flexible plastic or rubber.

According to another aspect of the present utility model, a kind of massage insole is provided, comprise: upper interlayer and lower interlayer, between upper interlayer and lower interlayer, be provided with triboelectricity machine, the outer surface of upper interlayer arranges stimulation point, stimulation point comprises the current-carrying part directly contacting with vola, and current-carrying part is connected with the output electrode of triboelectricity machine by contact conductor.

According to another aspect of the present utility model, a kind of foot-massaging device is provided, comprise above-mentioned massage shoes or massage insole, and massage socks, on the position corresponding to massage shoes or massage insole stimulation point on massage socks, be sewed with conductive fiber; And/or, on the position corresponding to stimulation point on massage socks, hollow out through hole.

Massage shoes, massage insole and foot-massaging device that the utility model provides, by conjunction with triboelectricity machine technology, mechanical energy when user is walked is converted into electric energy, has realized self-powered, and produces the satisfactory signal of telecommunication.User is without changing battery or carrying power supply, the problem that can not power in time after having avoided power supply to exhaust.Simultaneously simple in structure, light.

Brief description of the drawings

Fig. 1 shows the cross-sectional view of the massage shoes that the utility model provides;

Fig. 2 a and Fig. 2 b show respectively perspective view and the cross-sectional view of the first structure of triboelectricity machine;

Fig. 3 a and Fig. 3 b show respectively perspective view and the cross-sectional view of the second structure of triboelectricity machine;

Fig. 4 a and Fig. 4 b show respectively perspective view and the cross-sectional view of the third structure of triboelectricity machine;

Fig. 5 a and Fig. 5 b show respectively perspective view and the cross-sectional view of the 4th kind of structure of triboelectricity machine.

Detailed description of the invention

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.

Fig. 1 shows the cross-sectional view of the massage shoes that the utility model provides, and as shown in Figure 1, this massage shoes comprises: sole 21, is arranged on the triboelectricity machine 22 of sole 21 inside; Insole layer 23, the upper surface of insole layer 23 is provided with multiple massage protrusions 24, as the stimulation point to vola.Massage protrusions 25 comprises the conductive tip 25 directly contacting with vola, is made up of conductive material, and the contact conductor 26 being connected with the output electrode of triboelectricity machine 22 is connected with the conductive tip 25 of massage protrusions 24 through insole layer 23.

The course of work of above-mentioned massage shoes is as follows: in the time that user is wearing this massage shoes walking or motion, the triboelectricity machine 22 that is arranged on sole 21 is trampled and deformation is occurred, frictional interface is in contact with one another, rubs and produces electric charge, and the mechanical energy of motion is converted into electric energy.Correspondingly, in output electrode, produce charge inducing, by contact conductor 26, charge inducing is conducted to vola skin by the current-carrying part on massage protrusions 24 stimulation points such as grade.The signal of telecommunication frequency that the pulsewidth that triboelectricity machine 22 generates electricity and walking produce meets the signal of telecommunication requirement of electric stimulate of point, can be directly applied for human body.

Triboelectricity machine 22 can be as shown in Figure 1 at the set-up mode of sole, is arranged between sole 21 and insole layer 23.In reality, for the ease of placing triboelectricity machine, can one or more cavitys be set in sole inside, triboelectricity machine is put into cavity.The combination of triboelectricity machine and sole cavity can complete in the manufacturing process of sole, for example, utilizes mould in sole injection moulding process, to form one or more cavitys, fixes therein after triboelectricity machine plastic packaging cavity.In the massage shoes shown in Fig. 1, can make cavity and place triboelectricity machine 22 at sole and the sole position of sole 21 respectively, due in the time walking, sole be more abundant with contacting of ground with sole position, therefore, this setup can improve the generating efficiency of triboelectricity machine.For the footwear with air cushion structure, triboelectricity machine can be set to one with air cushion, and two film layer structure that form the frictional interface of triboelectricity machine adhere to respectively the inner surface up and down of air cushion structure.

In order to improve generating efficiency, the quantity of the triboelectricity machine in massage shoes 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 move towards, in tiling mode, multiple triboelectricity machines are set along the gradient of massage shoes sole, for example, nine triboelectricity machines are set in sole site, and these nine triboelectricity machines are divided into three row three row and arrange.While adopting tiling mode to arrange, because multiple triboelectricity machines all directly contact with sole, can significantly not increase the thickness of sole, therefore, thickness and the city shoe of massage shoes 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 can be set identical.And compared with the set-up mode of tiling, 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 massage shoes 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 supporting layer that can play a supporting role can also be set between two-layer generator.

Or, adopt the mode of tiling and stacked combination to arrange, for example, adopt the mode of tiling at sole position, and in s heel portion, because its thickness is larger, can adopt the mode of tiling to arrange.

Preferably, on insole layer, the position of stimulation point is corresponding with Pelma acupuncture points.Contact conductor is many, and the contact conductor of different attribute connects the stimulation point that different Pelma acupuncture points are corresponding, can reach better massage effect.

Stimulation point in Fig. 1 is arranged on the massage protrusions 24 on insole layer upper surface, is shaped as hemispherical, half elliptic or any dome-shaped projection.The conductive tip 25 of massage protrusions is conductive material, such as electric silica gel etc.The upside of this conductive material part directly contacts vola, and downside is connected with the contact conductor 26 in triboelectricity machine 22 output electrodes, and the electrical signal transfer that triboelectricity machine 22 is produced is to human body.In reality, the size of massage protrusions, density, distribution can arrange with reference to mechanical massage footwear of the prior art.Massage protrusions, except when walking gives, foot shock massage, also can exert pressure to sole in the time of standing state, has the effect of mechanical massage, is conducive to reduce tired.

Also can use the patch electrode of the small size that sticks on insole layer upper surface to replace above-mentioned massage protrusions.Patch electrode is made up of conductive material, for example, use flexible conducting material or can be made into flexible patch material make patch electrode, can fully contact with sole.Or adopt the mode of the two combination, for example, on sole and position corresponding to heel, adopt the patch electrode of small size, have the position in a little space to adopt massage protrusions at arch of foot etc. with sole.Insole layer is provided with entire body perforation in massage protrusions or the corresponding position of patch electrode, and contact conductor is bored a hole and is connected with top conductive material or the patch electrode of massage protrusions by entire body.

Certainly, as shown in Figure 1, insole layer 23 may have space or interlayer, contact conductor 26 can extend in insole layer 23, at this moment, can through hole be set respectively in the upper and lower of insole layer 23, contact conductor 26 be connected to corresponding massage protrusions 24 or patch electrode in the space of insole layer 23.This is favourable in some cases, for example, for arch of foot position, tramples insufficiently with contacting of sole, the contact conductor of the triboelectricity machine at sole position can be drawn to massage protrusions or the patch electrode to arch of foot position.Stimulation point, contact conductor and triboelectricity machine needn't be corresponding one by one, the intensity of electric stimulus that different Pelma acupuncture points needs also may be different, some massage protrusions or patch electrode may need the stack of the triboelectricity machine output electrical signals of multiple parallel connections, can only go between at the electrode extraction electrode at two ends at the triboelectricity machine of multiple parallel connections, or the triboelectricity machine of multiple series connection only, at the electrode extraction electrode lead-in wire at two ends, is connected to massage protrusions or patch electrode.

The utility model also provides a kind of massage insole, comprise interlayer and lower interlayer, between upper interlayer and lower interlayer, be provided with triboelectricity machine, the outer surface of upper interlayer is provided with stimulation point, stimulation point comprises the current-carrying part directly contacting with vola, and current-carrying part is connected with the output electrode of described triboelectricity machine by contact conductor.

With above-described massage shoes similarly, the stimulation point in this massage insole is arranged on the massage protrusions on interlayer outer surface, the part that massage protrusions contacts with vola is made up of conductive material; And/or stimulation point is the patch electrode sticking on described upper interlayer outer surface.Massage protrusions or patch electrode are preferably arranged on and the corresponding position of Pelma acupuncture points.Contact conductor is connected to massage protrusions or patch electrode by the through hole on upper interlayer.In order to improve generating efficiency, the quantity of the triboelectricity machine in massage insole can be multiple, and multiple triboelectricity machines connect by serial or parallel connection mode, to increase the curtage of output.Consider that the blocked up or uneven thickness of shoe-pad may affect user's comfortableness, the triboelectricity machine in massage insole fluctuate interlayer can be laid in the surface of fluctuate interlayer equably.

Be with the difference of massage shoes, this massage insole can separate with footwear body, uses in different footwear bodies, in city shoe body, also can play effect of electro photoluminescence massage, thereby have more flexibility.

Above-mentioned massage shoes and massage insole in use, require user's vola directly to contact with stimulation point, just can reach the effect of electro photoluminescence massage, and user needs to wear footwear body barefoot conventionally, and this may reduce user's comfort level.For this reason, the utility model also provides a kind of foot-massaging device, comprises above-mentioned massage shoes, or massage insole, and massage socks.For making on insole layer upper surface or massage insole the stimulation point such as massage protrusions on interlayer outer surface can be directly and vola skin contact, can, on massage socks on the position corresponding to stimulation point, on the position corresponding to Pelma acupuncture points, hollow out through hole.Or on massage socks correspondence position, sew up conductive fiber, for example metallic fiber, conducting polymer fibres, carbon fiber etc.By conductive fiber, the electric current on massage protrusions or patch electrode is conducted to vola skin, acupuncture point.Or the mode that adopts conductive fiber to be combined with through hole.

In above-mentioned foot-massaging device, massage socks is combined with massage shoes or massage insole, and user needn't wear footwear barefoot, also can play effect of therapeutic massage.Massage socks also can play the effects such as absorbing sweat, the impact of perspire on massage shoes or shoe-pad while avoiding moving, the service life of prolongation massage shoes or massage insole.In certain situation, for example, in summer, this also can play modification, effect attractive in appearance.

Can be applied to three-decker, four-layer structure and the five-layer structure of the triboelectricity machine in the utility model the various embodiments described above below by four concrete example introductions.The triboelectricity machine of each layer of structure at least comprises two surfaces that form frictional interface, and at least one surface in two surfaces of formation frictional interface is provided with micro-nano structure.

Example one

The first structure of triboelectricity machine as shown in Figure 2 a and 2 b.Fig. 2 a and Fig. 2 b show respectively perspective view and the cross-sectional view of the first structure of triboelectricity machine.As shown in Fig. 2 a and 2b, this triboelectricity machine is three-decker, comprising: the first electrode layer 11, the first high molecular polymer insulating barriers 12 that are cascading, and the second electrode lay 13; Wherein, the first electrode layer 11 is arranged on the first side surface of the first high molecular polymer insulating barrier 12; The second side surface of the first high molecular polymer insulating barrier 12 arranges towards the second electrode lay 13, between the first high molecular polymer insulating barrier 12 and the second electrode lay 13, form frictional interface, the first electrode layer 11 and the second electrode lay 13 form the output of triboelectricity machine.

In the time that this triboelectricity machine is under pressure, the second electrode lay 13 produces electrostatic charge with the surperficial phase mutual friction of the first high molecular polymer insulating barrier 12, thereby causes occurring electrical potential difference between the first electrode layer 11 and the second electrode lay 13.Due to the existence of electrical potential difference between the first electrode layer 11 and the second electrode lay 13, electrostatic charge by by external circuit by the low effluent of electromotive force to the high side of electromotive force.When the pressure being subject to when this triboelectricity machine reduces or disappears, at this moment the built-in potential being formed between the first electrode layer 11 and the second electrode lay 13 reduces or disappears, and now between Balanced the first electrode layer 11 and the second electrode lay 13, will again produce reverse electrical potential difference.

For the triboelectricity machine of example one, the first high molecular polymer insulating barrier 12 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, cellulose sponge film, renewable 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 one in acrylonitrile vinyl chloride film and polyethylene the third diphenol carbonate thin film.

The first electrode layer 11 material therefors are indium tin oxide, Graphene, nano silver wire film, metal or alloy; Wherein, metal is Au Ag Pt Pd, aluminium, nickel, copper, titanium, chromium, tin, 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 second electrode lay 13 material therefors are metal or alloy; Wherein, wherein, the concrete material of metal or alloy can be selected with reference to the material of the metal or alloy in the first electrode layer, repeats no more herein.Alternatively, at least one surface in two surfaces of formation frictional interface is provided with micro-nano structure.As shown in Figure 2 b, the second side surface of the first high molecular polymer insulating barrier 12 is provided with micro-nano structure 19.In the time that triboelectricity machine is squeezed, micro-nano structure 19 can make apparent surface's contact friction better of the first high molecular polymer insulating barrier 12 and the second electrode lay 13, and induces more electric charge at the first electrode layer 11 and the second electrode lay 13 places.Above-mentioned micro-nano structure 19 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), its thickness is 0.5-1.2mm (preferably 1.0mm), 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.

Example two

The second structure of triboelectricity machine as shown in Figure 3 a and Figure 3 b shows.Fig. 3 a and Fig. 3 b show respectively perspective view and the cross-sectional view of the second structure of triboelectricity machine.As shown in Fig. 3 a and 3b, this triboelectricity machine is four-layer structure, comprising: the first electrode layer 11, the first high molecular polymer insulating barrier 12, the second high molecular polymer insulating barriers 14 and the second electrode lays 13 that are cascading; Wherein, the first electrode layer 11 is arranged on the first side surface of the first high molecular polymer insulating barrier 12; The second electrode lay 13 is arranged on the first side surface of the second high molecular polymer insulating barrier 14; The second side surface of the second side surface of the first high molecular polymer insulating barrier 12 and the second high molecular polymer insulating barrier 14 is oppositely arranged, between the first high molecular polymer insulating barrier 12 and the second high molecular polymer insulating barrier 14, form frictional interface, the first electrode layer 11 and the second electrode lay 13 form the output of triboelectricity machine.

The operation principle of the triboelectricity machine shown in the operation principle of the triboelectricity machine shown in Fig. 3 a and Fig. 3 b and Fig. 2 a and Fig. 2 b is similar.Difference is only, in the time that each layer of the triboelectricity machine shown in Fig. 3 a and Fig. 3 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. 3 a and Fig. 3 b herein.

Triboelectricity owner shown in Fig. 3 a and Fig. 3 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).

For the triboelectricity machine of example two, the material of the first high molecular polymer insulating barrier 12 and the second high molecular polymer insulating barrier 14 all can be selected in the cited material of the first high molecular polymer insulating barrier of example one, repeats no more herein.The material of the first high molecular polymer insulating barrier 12 and the second high molecular polymer insulating barrier 14 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, the first high molecular polymer insulating barrier 12 is different from the material of the second high molecular polymer insulating barrier 14.

The first electrode layer 11 and the second electrode lay 13 material therefors all can be selected with reference to the material of the first a kind of electrode layer of example, repeat no more herein.Alternatively, at least one surface in two surfaces of formation frictional interface is provided with micro-nano structure.As shown in Figure 3 b, the second side surface of the first high molecular polymer insulating barrier 12 is provided with micro-nano structure 19.In the time that triboelectricity machine is squeezed, micro-nano structure 19 can make apparent surface's contact friction better of the first high molecular polymer insulating barrier 12 and the second high molecular polymer insulating barrier 14, and induces more electric charge at the first electrode layer 11 and the second electrode lay 13 places.Above-mentioned micro-nano structure can, with reference to description above, repeat no more herein.

Example three

The third structure of triboelectricity machine is as shown in Fig. 4 a and Fig. 4 b.Fig. 4 a and Fig. 4 b show respectively perspective view and the cross-sectional view of the third structure of triboelectricity machine.As shown in Figs. 4a and 4b, this triboelectricity machine is five-layer structure, comprising: the first electrode layer 11, the first high molecular polymer insulating barriers 12 that are cascading, thin layer 15, the second high molecular polymer insulating barriers 14 and the second electrode lay 13 between two parties; Wherein, the first electrode layer 11 is arranged on the first side surface of the first high molecular polymer insulating barrier 12; The second electrode lay 13 is arranged on the first side surface of the second high molecular polymer insulating barrier 14; Thin layer 15 is polymer film layer between two parties, be arranged between the second side surface of the first high molecular polymer insulating barrier 12 and the second side surface of the second high molecular polymer insulating barrier 14, the first high molecular polymer insulating barrier 12 and form frictional interface between thin layer 15 between two parties, and/or, the second high molecular polymer insulating barrier 14 and form frictional interface between thin layer 15 between two parties, the first electrode layer 11 and the second electrode lay 13 form the output of triboelectricity machine.

Wherein, at least one face in two faces that thin layer 15 and the first high molecular polymer insulating barrier 12 are oppositely arranged is between two parties provided with micro-nano structure (not shown), and/or at least one face in two faces that thin layer 15 and the second high molecular polymer insulating barrier 14 are oppositely arranged is between two parties provided with micro-nano structure 19, concrete set-up mode about micro-nano structure can, with reference to above describing, repeat no more herein.

In the implementation shown in Fig. 4 a and 4b, thin layer 15 is one layer of polymeric films between two parties, therefore similar with the implementation shown in Fig. 3 a and Fig. 3 b in fact, remain and generate electricity by the friction between polymer (thin layer 15 between two parties) and polymer (the first high molecular polymer insulating barrier 12) and/or polymer (thin layer 15 between two parties) and polymer (the second high molecular polymer insulating barrier 14).Therefore, repeat no more about the operation principle of the triboelectricity machine shown in Fig. 4 a and 4b herein.

For the triboelectricity machine in example three, described the first high molecular polymer insulating barrier 12, the second high molecular polymer insulating barrier 14 and the between two parties material of thin layer 15 all can be selected in the cited material of the first high molecular polymer insulating barrier of example one, repeat no more herein.The first high molecular polymer insulating barrier 12, the second high molecular polymer insulating barrier 14 and the material of thin layer 15 can be identical between two parties, also can be different.If the material of three floor height Molecularly Imprinted Polymer insulating barriers is all identical, can cause the quantity of electric charge of triboelectrification very little.Preferably, the first high molecular polymer insulating barrier 12 is different from the material of thin layer 15 between two parties.The first high molecular polymer insulating barrier 12 is preferably identical with the second high molecular polymer insulating barrier 14, can reduce material category, makes making of the present invention convenient.

Wherein, described the first electrode layer 11 and the second electrode lay 13 material therefors can be selected with reference to example two, repeat no more herein.

Example four

The 4th kind of structure of triboelectricity machine is as shown in Fig. 5 a and Fig. 5 b.Fig. 5 a and Fig. 5 b show respectively perspective view and the cross-sectional view of the 4th kind of structure of triboelectricity machine.As shown in Fig. 5 a and 5b, this triboelectricity machine is also five-layer structure, comprising: the first electrode layer 11, the first high molecular polymer insulating barriers 12 that are cascading, electrode layer 16, the second high molecular polymer insulating barriers 14 and the second electrode lay 13 between two parties; Wherein, the first electrode layer 11 is arranged on the first side surface of the first high molecular polymer insulating barrier 12; The second electrode lay 13 is arranged on the first side surface of the second high molecular polymer insulating barrier 14; Electrode layer 16 is arranged between the second side surface of the first high molecular polymer insulating barrier 12 and the second side surface of the second high molecular polymer insulating barrier 14 between two parties, the first high molecular polymer insulating barrier 12 and form frictional interface between electrode layer 16 between two parties, and/or, the second high molecular polymer insulating barrier 14 and form frictional interface between electrode layer 16 between two parties, any both or the three in electrode layer 16, the first electrode layer 11 and the second electrode lay 13 forms the output of triboelectricity machine between two parties.

Wherein, the first high molecular polymer insulating barrier 12 relatively between two parties the face of electrode layers 16 and be provided with the face of micro-nano structure (not shown) and/or the second high molecular polymer insulating barrier 14 relative electrode layers 16 between two parties between two parties at least one face in the face of relative the first high molecular polymer insulating barrier 12 of electrode layer 16 and the face of relative the second high molecular polymer insulating barrier 14 of electrode layer 16 between two parties at least one face on be provided with micro-nano structure (not shown).Concrete set-up mode about micro-nano structure can, with reference to above describing, repeat no more herein.

The operation principle of the triboelectricity machine shown in operation principle and Fig. 4 a and the 4b of the triboelectricity machine shown in Fig. 5 a and 5b is similar.Difference is only, when each layer of the triboelectricity machine shown in Fig. 5 a and 5b is under pressure and when deformation, be to produce electrostatic charge by electrode layer 16 between two parties and the first high molecular polymer insulating barrier 12 and/or the surperficial phase mutual friction of electrode layer 16 and the second high molecular polymer insulating barrier 14 between two parties.Therefore, repeat no more about the operation principle of the triboelectricity machine shown in Fig. 8 a and 8b herein.

For the triboelectricity machine of example four, the material of described the first high molecular polymer insulating barrier 12 and the second high molecular polymer insulating barrier 14 all can be selected in the cited material of the first high molecular polymer insulating barrier of example one.The material of the first high molecular polymer insulating barrier 12 and the second high molecular polymer insulating barrier 14 can be identical, also can be different.Preferably, the first high molecular polymer insulating barrier 12 is identical with the material of the second high molecular polymer insulating barrier 14, can reduce material category, makes making of the present invention convenient.

The first electrode layer 11 and the second electrode lay 13 material therefors can be selected with reference to example two, repeat no more herein.Wherein, electrode layer 16 material used is metal or alloy between two parties; Wherein, the concrete material of metal or alloy can be selected with reference to the material of the metal or alloy in the first electrode of example one, repeats no more herein.

According to the operation principle of triboelectricity machine, in the process of generator work, two frictional interfaces need continuous contact frictions and separate, and always in the time of contact condition or released state, generator can not have good output performance.Therefore, in order to produce the generator of excellent performance, can also improve the structure of above-mentioned triboelectricity machine, outwards arched upward in two surfaces that form frictional interface, for example, for the triboelectricity machine in example one, the second electrode lay outwards arches upward, correspondingly, the first electrode layer and the first high polymer layer are also done as a whole relative to the opposite side formation convex surface that arches upward, so just, at frictional interface, the second electrode lay and the first high molecular polymerization layer form gap, and two frictional interfaces can automatically be upspring in the situation that not stressing.For the triboelectricity machine in example two, three, four, structure is similar, repeats no more herein.

In the gap of above-mentioned arch triboelectricity machine two frictional interfaces, can also supporting construction be further set, for example, the elastic support member being formed by flexible plastic or rubber.

Massage shoes, massage insole and foot-massaging device that the utility model provides, by in conjunction with triboelectricity machine technology, the mechanical energy producing in the motion processes such as user's walking or running is converted into electric energy, realize self-powered, and produce the signal of telecommunication that meets human body electro photoluminescence requirement, Pelma acupuncture points is stimulated to massage.User is without changing battery or carrying power supply, the problem that can not power in time after having avoided power supply to exhaust.Simultaneously simple in structure, light.

It should be appreciated by those skilled in the art 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 utility model.Like this, if these amendments of the present utility model and within 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 massage shoes, comprises sole, it is characterized in that, also comprises:

Be arranged on the triboelectricity machine of described sole inside;

Insole layer, the upper surface of described insole layer is provided with multiple stimulation points, and described stimulation point comprises the current-carrying part directly contacting with vola, and described current-carrying part is connected with the output electrode of described triboelectricity machine by contact conductor.

2. massage shoes according to claim 1, is characterized in that, described sole inside has the cavity that holds described triboelectricity machine, and described triboelectricity machine is arranged in described cavity.

3. massage shoes according to claim 1, is characterized in that, described sole also comprises air cushion structure, and two film layer structure that form the frictional interface of described triboelectricity machine adhere to respectively the inner surface up and down of described air cushion structure.

4. according to the massage shoes described in claim 1-3 any one, it is characterized in that, described insole layer is provided with entire body perforation in the corresponding position of stimulation point, and described contact conductor is connected with the current-carrying part of described stimulation point by described entire body perforation.

5. massage shoes according to claim 4, is characterized in that, described stimulation point is arranged on the position that described insole layer upper surface is corresponding with Pelma acupuncture points.

6. massage shoes according to claim 5, is characterized in that, described contact conductor is many, and the contact conductor of different attribute connects the stimulation point that different Pelma acupuncture points are corresponding.

7. massage shoes according to claim 1, is characterized in that, described stimulation point is arranged on the massage protrusions on insole layer upper surface, and the part that the top of described massage protrusions contacts with vola is made up of conductive material; And/or described stimulation point is the patch electrode that sticks on described insole layer upper surface.

8. massage shoes according to claim 1, 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; And/or described multiple triboelectricity machines are laid in described sole inside along described sole gradient trend.

9. massage shoes according to claim 1, is characterized in that, described triboelectricity machine is three-decker, four-layer structure or five-layer structure, and described triboelectricity machine at least comprises two surfaces that form frictional interface.

10. massage shoes according to claim 9, is characterized in that, at least one surface forming in two surfaces of described frictional interface is provided with micro-nano structure.

11. according to the massage shoes described in claim 9 or 10, it is characterized in that, outwards arching upward in two surfaces of described triboelectricity machine frictional interface, between described two surfaces, forms domes.

12. massage shoes according to claim 11, is characterized in that, described triboelectricity machine also comprises the supporting construction that supports described domes, and described supporting construction is formed by flexible plastic or rubber.

13. 1 kinds of massage insoles, comprise interlayer and lower interlayer, it is characterized in that, between interlayer and lower interlayer, be provided with triboelectricity machine on described, the outer surface of described upper interlayer arranges stimulation point, described stimulation point comprises the current-carrying part directly contacting with vola, and described current-carrying part is connected with the output electrode of described triboelectricity machine by contact conductor.

14. massage insoles according to claim 13, is characterized in that, described stimulation point is arranged on the massage protrusions on described upper interlayer outer surface, and the part that described massage protrusions contacts with vola is made up of conductive material; And/or described stimulation point is the patch electrode sticking on described upper interlayer outer surface.

15. according to the massage insole described in claim 13 or 14, it is characterized in that, described stimulation point is arranged on the position that described upper interlayer outer surface is corresponding with Pelma acupuncture points.

16. massage insoles according to claim 13, is characterized in that, described contact conductor is many, and the contact conductor of different attribute connects the stimulation point that different Pelma acupuncture points are corresponding.

17. massage insoles according to claim 13, is characterized in that, described triboelectricity machine is three-decker, four-layer structure or five-layer structure, and described triboelectricity machine at least comprises two surfaces that form frictional interface.

18. massage insoles as claimed in claim 17, is characterized in that, at least one surface forming in two surfaces of described frictional interface is provided with micro-nano structure.

19. according to the massage insole described in claim 17 or 18, it is characterized in that, outwards arching upward in two surfaces of described triboelectricity machine frictional interface, between described two surfaces, forms domes; Described triboelectricity machine also comprises the supporting construction that supports described domes, and described supporting construction is formed by flexible plastic or rubber.

20. 1 kinds of foot-massaging devices, is characterized in that, comprising:

Massage shoes described in claim 1-12 any one; Or massage insole described in claim 13-19 any one; And

Massage socks, is sewed with conductive fiber on the position corresponding to stimulation point on described massage socks; And/or, on the position corresponding to stimulation point on described massage socks, be provided with through hole.