CN205432341U - A intelligent health shoes for moving time temperature regulation - Google Patents

Abstract

The utility model discloses an intelligent health shoes for moving time temperature regulation, intelligence health shoes includes the health shoes body, the health shoes body includes the sole, the sole includes that temperature control layer and electric energy acquire the layer, temperature control layer set up in the electric energy acquires the top on layer, be provided with temperature control device in the temperature control layer, the electric energy acquires the in situ and is provided with the piezoelectricity device, temperature control device with piezoelectricity device electricity is connected, the piezoelectricity device is used for putting on as the user motion of intelligence health shoes and extrusion produce the electric quantity during piezoelectricity device, and it is right the temperature control device power supply, temperature control device is used for producing heat energy or cold energy and adjusts this internal temperature of health shoes. The utility model discloses can continuously do the temperature control device power supply for temperature control device can continued work when the user moves, has guaranteed the temperature control effect in the intelligence health shoes when user moves, is favorable to user's foot healthy.

Description

The Intelligent health shoes of temperature is regulated during for moving

Technical field

This utility model relates to health care field, particularly relate to a kind of for moving time regulation temperature Intelligent health shoes.

Background technology

One of shoes necessary equipment having become as people's daily life, either climbs the mountain, takes a walk, runs, plays ball, the various motions such as roller-skating, all be unable to do without shoes that a pair of fits, that meet various difference in functionality or other footwear thing.Along with using environment and the change of user's request, the functional of shoes itself is also constantly being expanded and is being promoted.Such as, all kinds of different use environment such as cross-country climbing boot, snow boot, jogging shoes, shuttlecock special purpose shoes, basketball special purpose shoes, the shoes of difference in functionality demand are gradually developed, to meet the demand of people.

But, in summer, when in training or commonly jogging, often in-shoe environment is damp and hot, easily causes fungus to grow, and affects step cleaning, if do not noted for a long time, it will produce the foot disease being difficult to radical cure, such as: tinea pedis.In winter, foot needs warming, in order to avoid cold injury, and when going back home and take off shoes, owing to easily producing steam inside toe cap so that the most moist inside footwear, the microorganisms such as fungus can be grown.

For above-mentioned situation, attemperating unit often it is provided with (such as in existing smart temp controlling shoes, Peltier), such as, during summer, by attemperating unit to shoes internal refrigeration storage to reduce the temperature within shoes, during winter, by attemperating unit, shoes inside is heated the temperature improved within shoes.But, existing smart temp controlling shoes often uses the mode of battery to be that described attemperating unit is powered, and the electricity of battery is limited, it is impossible to is continuously attemperating unit and powers.

Utility model content

Main purpose of the present utility model be to provide a kind of for moving time regulation temperature Intelligent health shoes, it is intended to solve existing smart temp controlling shoes and cannot be continuously the product problem that described attemperating unit is powered.

For achieving the above object, this utility model provide a kind of for moving time regulation temperature Intelligent health shoes, described Intelligent health shoes includes health promoting shoe body, described health promoting shoe body includes sole, described sole includes that temperature control layer and electric energy acquisition layer, described temperature control layer are arranged at the top of described electric energy acquisition layer；

Being provided with attemperating unit in described temperature control layer, be provided with piezo-electric device in described electric energy acquisition layer, described attemperating unit electrically connects with described piezo-electric device；

Described piezo-electric device is for producing electricity when user puts on when described Intelligent health shoes moves and extrudes described piezo-electric device, and powers described attemperating unit；And

Described attemperating unit is used for producing heat energy or cold energy and regulating the intrinsic temperature of described health promoting shoe.

Preferably, described sole includes being arranged at the insole layer above temperature control layer, for absorbing the sweat stain of user foot.

Preferably, described sole includes the heat dissipating layer being arranged between temperature control layer and electric energy acquisition layer, the heat spreader produced in time freezing described attemperating unit.

Preferably, described sole includes being arranged at the outer bottom below described electric energy acquisition layer, is used for supporting described electric energy acquisition layer.

Preferably, being additionally provided with power collecting device in described electric energy acquisition layer, this power collecting device includes that electric capacity, described electric capacity all electrically connect with piezo-electric device and attemperating unit, is used for collecting electricity produced by described piezo-electric device and powers described attemperating unit.

Preferably, described power collecting device also includes voltage monitoring unit, and voltage monitoring unit is arranged in parallel in the two ends of described electric capacity, and described voltage monitoring unit is for monitoring the voltage at described electric capacity two ends.

Preferably, described power collecting device also includes the switch being connected with attemperating unit, this switch and described capacitances in series, and described switch is for when the voltage at described electric capacity two ends reaches predeterminated voltage, with described attemperating unit circuit communication so that described attemperating unit is powered by described electric capacity.

Preferably, described piezo-electric device includes piezoquartz, and described piezo-electric device produces electricity by described piezoquartz.

Preferably, described piezo-electric device includes that covering part, the front of described covering part arrange an opening, and described piezoquartz is fixed on described opening and leaks outside in described opening.

Preferably, described piezo-electric device also includes that press section, described press section are arranged at the position that the upper front of described covering part is corresponding with described piezoquartz.

Compared to prior art, described in the utility model for moving time regulation temperature Intelligent health shoes use technique scheme, reach following technique effect: just can produce electricity when user puts on when described Intelligent health shoes moves and extrudes described piezo-electric device, produced electricity can be continuously described attemperating unit and power, make the attemperating unit can continuous firing when user movement, the foot health of the temperature control effect in Intelligent health shoes, beneficially user when ensure that user movement.

Accompanying drawing explanation

Fig. 1 be this utility model for moving time regulation temperature the structural representation of Intelligent health shoes preferred embodiment；

Fig. 2 be this utility model for moving time regulation temperature Intelligent health shoes in the structural representation of preferred embodiment of sole；

Fig. 3 be this utility model for moving time regulation temperature Intelligent health shoes in the attachment structure schematic diagram of preferred embodiment that is connected with attemperating unit of piezo-electric device, power collecting device；

Fig. 4 be this utility model for moving time regulation temperature Intelligent health shoes in the structural representation of piezo-electric device preferred embodiment；

Fig. 5 be this utility model for moving time regulation temperature Intelligent health shoes in the electrical block diagram of preferred embodiment that is connected with attemperating unit of piezo-electric device, power collecting device.

The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.

Detailed description of the invention

By further illustrating the technological means and effect that this utility model taked by reaching above-mentioned purpose, below in conjunction with accompanying drawing and preferred embodiment, detailed description of the invention of the present utility model, structure, feature and effect thereof are described in detail.Should be appreciated that specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.

This utility model provide a kind of for moving time regulation temperature Intelligent health shoes (hereinafter referred to as " Intelligent health shoes "), move (such as when user puts on described Intelligent health shoes, run, walk) time, the inside of described Intelligent health shoes can be carried out temperature regulation.

With reference to shown in Fig. 1, Fig. 1 be this utility model for moving time regulation temperature the structural representation of Intelligent health shoes preferred embodiment.In the present embodiment, described Intelligent health shoes 100 includes health promoting shoe body 50.Described health promoting shoe body 50 includes sole 52, is provided with attemperating unit 30 and piezo-electric device 40 in described sole 52, and described attemperating unit 30 electrically connects with described piezo-electric device 40.Described piezo-electric device 40 is used for producing electricity, and powers described attemperating unit 30.Described attemperating unit 30 is for producing heat energy or cold energy and regulating the temperature in described health promoting shoe body 50.In the present embodiment, described attemperating unit 30 is to have refrigeration and the Peltier of heat-production functions.

Specifically, when described piezo-electric device 40 is in squeezed state (such as, user put on described Intelligent health shoes 100 and by foot apply body weight pressure give described piezo-electric device 40 time) time produce electric current, and produce electric current from squeezed state to when returning to original state (i.e. during user's foot-up, being applied to the distress resolves of described piezo-electric device 40).Applying pressure to described piezo-electric device 40 for the ease of user, described piezo-electric device 40 is arranged at the position of the heel of a shoe of described health promoting shoe body 50.

With reference to shown in Fig. 2, Fig. 2 be this utility model for moving time regulation temperature Intelligent health shoes in the structural representation of preferred embodiment of sole.

Described sole 52 is divided into five layers, respectively insole layer 1, temperature control layer 2, heat dissipating layer 3, electric energy acquisition layer 4 and outer bottom 5.Described insole layer 1, temperature control layer 2, heat dissipating layer 3, electric energy acquisition layer 4 and bottom layer 5 are sequentially overlapped formation sole 52.It is to say, described insole layer 1 is arranged at the top of temperature control layer 2, temperature control layer 2 is arranged at the top of heat dissipating layer 3, and described heat dissipating layer 3 is arranged at the top of described electric energy acquisition layer 4, and described electric energy acquisition layer 4 is arranged at the top of described bottom layer 5.

When user puts on described Intelligent health shoes 100, the foot of user contacts with described insole layer 1.Described insole layer 1 is for absorbing the sweat stain of user foot.It should be noted that described insole layer 1 is Demountable, in view of health considers, user can change insole layer 1 in described Intelligent health shoes 100.In other embodiments, described insole layer 1 can omit.

Being provided with attemperating unit 30 in described temperature control layer 2, described temperature control layer 2 regulates the temperature in health promoting shoe body 50 by described attemperating unit 30.It is internal, to regulate the temperature in health promoting shoe body 50 that the heat energy produced when described attemperating unit 30 works or cold energy are transferred to health promoting shoe body 50 by described insole layer 1.

Described attemperating unit 30, for when described attemperating unit 30 freezes, is dispelled the heat, it is to avoid affect the refrigeration of described attemperating unit 30 by described heat dissipating layer 3.In other embodiments, described heat dissipating layer 3 can omit.In this case, described temperature control layer 2 is arranged on described electric energy acquisition layer 4.

Being provided with piezo-electric device 40 in described electric energy acquisition layer 4, described electric energy acquisition layer 4 is for producing electric energy by described piezo-electric device 40, and powers described attemperating unit 30 so that described attemperating unit 30 regulates the temperature in health promoting shoe body 50.

It should be noted that due to the spread of voltage of piezo-electric device 40, the described attemperating unit 30 effect when freezing or heating can be affected.In order to described attemperating unit 30 being provided stable voltage, as shown in Figure 3, being additionally provided with power collecting device 42 in described electric energy acquisition layer 4, this power collecting device 42 includes that electric capacity 400, described piezo-electric device 40 and described attemperating unit 30 are electrically connected to the electric capacity 400 of power collecting device 42.Described electric capacity 400 is for collecting the electric energy that described piezo-electric device 40 produces, and provides stable voltage to described attemperating unit 30.

Specifically, when user put on described Intelligent health shoes 100 move time, piezo-electric device 40 in electric energy acquisition layer 4 in foot's extruding sole 50 of user, described piezo-electric device 40 is made to produce electric current, in described electric current input extremely described electric capacity 400, described electric capacity 400 collects the electricity that described electric current produces, and when the voltage in electric capacity 400 reaches predeterminated voltage, powers described attemperating unit 30.

Further, described power collecting device 42 also includes switching 420 and voltage monitoring unit 440, and wherein, described electric capacity 400 is connected with described switch 420, and the two ends of described electric capacity 400 have been arranged in parallel described voltage monitoring unit 440.This voltage monitoring unit 440 is for monitoring the voltage at described electric capacity 400 two ends and controlling described switch 420.Specifically, if the voltage that described voltage monitoring unit 440 monitors reaches predeterminated voltage, controlling described switch 420 and described attemperating unit 30 circuit communication, described attemperating unit 30 is powered by described electric capacity 400.

Described outer bottom 5 is used for supporting described electric energy acquisition layer 4.When user put on described Intelligent health shoes 100 move time, described outer bottom 5 contacts with ground.Described outer bottom 5 possesses after wear-resisting, water-fast, oil resistant, heat-resisting, pressure, impact resistance, good springiness, sizing the not characteristic such as flexible type.

It should be noted that in other embodiments, described insole layer 1 is properly termed as shoe pad, and described temperature control layer 2, heat dissipating layer 3 and electric energy acquisition layer 4 are properly termed as inner sole, and described outer bottom 5 is properly termed as the footwear big end.

Further, refering to shown in Fig. 4, Fig. 4 be this utility model for moving time regulation temperature Intelligent health shoes in the structural representation of piezo-electric device preferred embodiment.Wherein, Fig. 4 (a) is the front view of piezo-electric device 40, and Fig. 4 (b) is the right perspective view of piezo-electric device 40, and Fig. 4 (c) is the perspective view of facing upward of piezo-electric device 40, and Fig. 4 (d) is the axonometric chart of piezo-electric device 40.

Described piezo-electric device 40 includes positive wire 6, press section 7, multiple diode 8, lobe 9, piezoquartz 10, cathode conductor 11 and covering part 12.

Wherein, it is provided with described piezoquartz 10 in described covering part 12.The front of described covering part 12 arranges an opening, described piezoquartz 10 is fixed on described opening and stretches out from described opening, described press section 7 is arranged at the position that the upper front of described covering part 12 is corresponding with described piezoquartz 10, and described press section 7 is elastic deformation structure.

When described press section 7 is produced elastic deformation by ambient pressure (such as, the foot of human body tramples in the surface of described press section 7) and extrudes described piezoquartz 10, described piezoquartz 10 is squeezed and produces the first electric current.

When the ambient pressure being subject to when described press section 7 disappears, rebounding and restore to the original state in described press section 7, described piezoquartz 10 returns to original state and produces the second electric current.

It should be noted that described first electric current and the second electric current from described piezoquartz 10 export in opposite direction, say, that what described piezoquartz 10 produced is alternating current.Further, in the present embodiment, the material of described press section 7 may be, but not limited to, the material of other elastic deformation structures such as copper alloy sheet, rustless steel thin slice.

The plurality of diode 8 is arranged in described covering part 12, and the plurality of diode 8 is connected with described piezoquartz 10, for the alternating current that described piezoquartz 10 produces is transformed into unidirectional current.The plurality of diode 8 will be described in detail in Figure 5 with the annexation of described piezoquartz 10.

Described positive wire 6 and cathode conductor 11 pass the inside of described covering part 12.

The upper surface of described press section 7 is additionally provided with described lobe 9.When described lobe 9 is by ambient pressure, described lobe 9 extrudes described press section 7 so that described press section 7 produces elastic deformation and touches described piezoquartz 10, and described piezoquartz 10 is squeezed and produces the first electric current.Upper surface in described press section 7 is provided with described lobe 9, so that the ambient pressure putting on press section 7 is more concentrated, and makes the elastic deformation of described press section 7 become apparent from.

It should be noted that the effect of described covering part 12 is fixing described piezoquartz 10, the effect of described press section 7 and lobe 9 is so that the extraneous pressure applied focuses more on described piezoquartz 10.But, in other embodiments, described press section 7, lobe 9 and covering part 12 all can also be omitted, and user can directly apply pressure and extrude described piezoquartz 10 so that described piezoquartz 10 produces electric current.

With reference to shown in Fig. 5, Fig. 5 be this utility model for moving time regulation temperature Intelligent health shoes in piezo-electric device, the electrical block diagram of preferred embodiment between power collecting device and attemperating unit.

Described piezo-electric device 40 includes four diodes 8, the respectively first diode D1, the second diode D2, the 3rd diode D3 and the 3rd diode D4.

Wherein, described first diode D1 and the 3rd diode D3 all electrically connects with positive wire 6, described second diode D2 and the 4th diode D4 all electrically connects with cathode conductor 11, and described first diode D1, described second diode D2, the 3rd diode D3 and the 4th diode D4 all electrically connect with described piezoquartz 10.The electric current transmission direction of described first diode D1 and the 3rd diode D3 is directed to positive wire, and the electric current transmission direction of described second diode D2 and the 4th diode D4 is directed to described piezoquartz 10.

Described positive wire 6 is connected with the positive pole of described electric capacity 400, and described cathode conductor 11 is connected with the negative pole of described electric capacity 400.

When described piezoquartz 10 is squeezed and produces the first electric current, described piezoquartz the 10, first diode D1, positive wire 6, electric capacity 400, cathode conductor 11 and the 4th diode D4 form the first loop.It is to say, described first electric current is inputted to positive wire 6 by the first diode D1, and being inputted the positive pole to electric capacity 400 by positive wire 6, the most a small amount of described first electric current is back to piezoquartz 10 by negative pole and the 4th diode D4 of electric capacity 400.

When described piezoquartz 10 restores to the original state and produces the second electric current, described piezoquartz the 10, the 3rd diode D3, positive wire 6, electric capacity 400, cathode conductor 11 and the second diode D2 form second servo loop.It is to say, described second electric current is inputted to positive wire 6 by the 3rd diode D3, and being inputted the positive pole to electric capacity 400 by positive wire 6, the most a small amount of described second electric current is back to piezoquartz 10 by negative pole and the second diode D2 of electric capacity 400.

Knowable to the direction that above-mentioned first electric current and the second electric current input, although the first electric current and the second electric current from described piezoquartz 10 export in opposite direction, described first electric current and the second electric current are all to input the positive pole to described electric capacity 400 from described positive wire 6, and are back to described piezoquartz 10 from described cathode conductor 11.It is to say, by described first diode D1, the second diode D2, the 3rd diode D3 and the 3rd diode D4, so that the alternating current that piezoquartz 10 produces is transformed into unidirectional current.

In other embodiments, described positive wire 6 is connected with the positive pole of described attemperating unit 30, and described cathode conductor 11 is connected with the negative pole of described attemperating unit 30.Described attemperating unit 30 is directly powered by described piezo-electric device 40.

Specifically, when described piezoquartz 10 is squeezed and produces the first electric current, described piezoquartz the 10, first diode D1, positive wire 6, attemperating unit 30, cathode conductor 11 and the 4th diode D4 form the first loop.That is, described first electric current is inputted to positive wire 6 by the first diode D1, and being inputted the positive pole to attemperating unit 30 by positive wire 6, the most a small amount of described first electric current is back to piezoquartz 10 by negative pole and the 4th diode D4 of attemperating unit 30.

When described piezoquartz 10 restores to the original state and produces the second electric current, described piezoquartz the 10, the 3rd diode D3, positive wire 6, attemperating unit 30, cathode conductor 11 and the second diode D2 form second servo loop.That is, described second electric current is inputted to positive wire 6 by the 3rd diode D3, and being inputted the positive pole to attemperating unit 30 by positive wire 6, the most a small amount of described second electric current is back to piezoquartz 10 by negative pole and the second diode D2 of attemperating unit 30.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description and accompanying drawing content to be made or equivalent function conversion; or directly or indirectly it is used in other relevant technical fields, the most in like manner it is included in scope of patent protection of the present utility model.

Claims (10)

1. the Intelligent health shoes of regulation temperature in time moving, described Intelligent health shoes includes that health promoting shoe body, described health promoting shoe body include sole, it is characterised in that, described sole includes that temperature control layer and electric energy acquisition layer, described temperature control layer are arranged at the top of described electric energy acquisition layer；

Being provided with attemperating unit in described temperature control layer, be provided with piezo-electric device in described electric energy acquisition layer, described attemperating unit electrically connects with described piezo-electric device；

Described piezo-electric device is for producing electricity when user puts on when described Intelligent health shoes moves and extrudes described piezo-electric device, and powers described attemperating unit；And

Described attemperating unit is used for producing heat energy or cold energy and regulating the intrinsic temperature of described health promoting shoe.

2. the Intelligent health shoes of regulation temperature in time moving as claimed in claim 1, it is characterised in that described sole includes being arranged at the insole layer above temperature control layer, for absorbing the sweat stain of user foot.

3. the Intelligent health shoes of regulation temperature in time moving as claimed in claim 1, it is characterised in that described sole includes the heat dissipating layer being arranged between temperature control layer and electric energy acquisition layer, the heat spreader produced in time freezing described attemperating unit.

4. the Intelligent health shoes of regulation temperature in time moving as claimed in claim 1, it is characterised in that described sole includes being arranged at the outer bottom below described electric energy acquisition layer, is used for supporting described electric energy acquisition layer.

5. the Intelligent health shoes of regulation temperature in time moving as claimed in claim 1, it is characterized in that, it is additionally provided with power collecting device in described electric energy acquisition layer, this power collecting device includes electric capacity, described electric capacity all electrically connects with piezo-electric device and attemperating unit, is used for collecting electricity produced by described piezo-electric device and powers described attemperating unit.

6. the Intelligent health shoes of regulation temperature in time moving as claimed in claim 5, it is characterized in that, described power collecting device also includes voltage monitoring unit, and voltage monitoring unit is arranged in parallel in the two ends of described electric capacity, and described voltage monitoring unit is for monitoring the voltage at described electric capacity two ends.

7. the Intelligent health shoes of regulation temperature in time moving as claimed in claim 6, it is characterized in that, described power collecting device also includes the switch being connected with attemperating unit, this switch and described capacitances in series, described switch is for when the voltage at described electric capacity two ends reaches predeterminated voltage, with described attemperating unit circuit communication so that described attemperating unit is powered by described electric capacity.

8. the Intelligent health shoes of regulation temperature in time moving as described in any one of claim 1 to 7, it is characterised in that described piezo-electric device includes piezoquartz, and described piezo-electric device produces electricity by described piezoquartz.

9. the Intelligent health shoes of regulation temperature in time moving as claimed in claim 8, it is characterised in that described piezo-electric device includes that covering part, the front of described covering part arrange an opening, and described piezoquartz is fixed on described opening and leaks outside in described opening.

10. the Intelligent health shoes of regulation temperature in time moving as claimed in claim 9, it is characterised in that described piezo-electric device also includes that press section, described press section are arranged at the position that the upper front of described covering part is corresponding with described piezoquartz.