CN209331247U - Insole - Google Patents

Abstract

The utility model provides a kind of insole, is equipped with graphene heating film, battery and control circuit in the insole；The input terminal of the control circuit is connect with the battery, and the output end of the control circuit is connect with the graphene heating film；Electric energy needed for the control circuit is used to provide the graphene heating film fever according to the inputing power from the battery, the graphene heating film are used to be generated heat according to the electric energy.Insole provided by the utility model is able to extend the fever time of insole.

Description

Insole

Technical field

The utility model relates to insole manufacturing technology field more particularly to a kind of insoles.

Background technique

Heat generating insole is a kind of improved insole, including rechargeable battery and electric conversion device, obtain it is electric after electric heating After switching device fever can be the foot portion warm keeping of user, and thermostimulation is carried out to acupuncture point, play to the health-care effect of user and Welcome by consumer.

Since user needs to wear, shoes are outgoing, and electrothermal transducer needs to generate heat by the electric energy of battery in outgoing process, However, the fever time of heat generating insole in the prior art is shorter, often just stops fever after outgoing a period of time, there is guarantor Short problem of warm time.

Utility model content

The utility model provides a kind of insole, to solve the problems, such as that existing heat generating insole fever time is short.

The utility model provides a kind of insole, is equipped with graphene heating film, battery and control circuit in the insole；

The input terminal of the control circuit is connect with the battery, and the output end of the control circuit and the graphene are sent out Hotting mask connection；

The control circuit is used to provide graphene heating film fever institute according to the inputing power from the battery The electric energy needed, the graphene heating film are used to be generated heat according to the electric energy.

Optionally, the control circuit is specifically used for being converted to the inputing power being provided to the graphene heating film Output electric energy, the graphene heating film be specifically used for according to the output electric energy fever.

It optionally, further include controlling terminal, the control circuit includes that signal receives sub-circuit and power output sub-circuit, Wherein,

The controlling terminal is for exporting open signal or shutdown signal；The open signal includes gear selection letter Number；

The signal receives sub-circuit and connect with the controlling terminal, for after receiving the open signal, to institute It states power output sub-circuit and sends the gear selection subsignal, be also used to after receiving the shutdown signal, to the electricity Sub-circuit can be exported and send shutdown control signal；

The power output sub-circuit receives sub-circuit, the battery and the graphene heating film with the signal respectively Connection obtains selecting with the gear for converting the inputing power after receiving the gear selection subsignal The corresponding output electric energy of subsignal is selected, and the output electric energy is provided to the graphene heating film；It is also used to receiving After the shutdown control signal, stop providing electric energy to the graphene heating film.

Optionally, the controlling terminal is remote terminal, and the remote terminal includes signal transmitting sub-circuit and triggering Circuit, the signal transmitting sub-circuit and the signal receive sub-circuit communication connection.

Optionally, the triggering sub-circuit include startup switch, shutdown switch, the first driving switch, the second driving switch, First controller, first capacitor and first resistor；

The first end of the startup switch, it is described shutdown switch first end, the first end of first driving switch and The first end of second driving switch is connect with ground terminal, and the of the second end of the startup switch, the shutdown switch The second end at two ends, the second end of first driving switch and second driving switch is believed with four of the first controller The connection of number input terminal；

The power end of first controller and the anode of battery connect, and the first capacitor is series at first control Between the ground terminal of device and the anode of the power supply, the signal output end of first controller and one end of the first resistor Connection, the other end ground connection of the first resistor.

Optionally, the signal transmitting sub-circuit includes transmitting antenna, the second capacitor, third capacitor, the 4th capacitor, the 5th Capacitor, the 6th capacitor, the 7th capacitor, the 8th capacitor, the 9th capacitor, the first inductance, the second inductance, third inductance, second resistance, 3rd resistor, the 4th resistance, the first crystal oscillator and transmitting chip；

One end of first crystal oscillator is connect with the transmitting chip, the other end ground connection of first crystal oscillator；

The signal input part of the transmitting chip connects through the signal output end of the second resistance and first controller It connects, the signal input part of the transmitting chip is also grounded through the 3rd resistor；

The first end of second capacitor and the first end of the third capacitor connect with the power end of the transmitting chip It connects, the second end of the second end of second capacitor and the third capacitor is grounded；

The first end of 4th resistance is connect with the power end of the transmitting chip, the second end point of the 4th resistance It is not connect with the first end of the 4th capacitor, the first end of the 5th capacitor and the first end of the 6th capacitor, it is described The second end of the second end of 4th capacitor, the second end of the 5th capacitor and the 6th capacitor is grounded；

The first end of first inductance is connect with the second end of the 4th resistance, one end of the 7th capacitor and institute The second end connection of the first inductance is stated, the other end of the 7th capacitor connect with the first end of second inductance, and described the The first end of three inductance is connect with the second end of second inductance, and the second end of the third inductance and the transmitting antenna connect It connects；

One end of 8th capacitor is connect with the first end of the third inductance, another termination of the 8th capacitor The one end on ground, the 9th capacitor is connect with the second end of the third inductance, the other end ground connection of the 9th capacitor.

Optionally, it includes receiving antenna, the 4th inductance, the 5th inductance, the 6th inductance, the tenth that the signal, which receives sub-circuit, Capacitor, the 11st capacitor, the 12nd capacitor, the 13rd capacitor, the second crystal oscillator and reception chip；

One end of second crystal oscillator is connect with the reception chip, the other end ground connection of second crystal oscillator；

The first end of 4th inductance is connect with the receiving antenna, the second end ground connection of the 4th inductance, described One end of tenth capacitor is connect with the first end of the 4th inductance, the other end ground connection of the tenth capacitor, and the described 11st One end of capacitor is connect with the first end of the 4th inductance, the other end of the 11st capacitor and the first end of the 5th inductance Connection, one end of the 12nd capacitor connect with the second end of the 5th inductance, the other end of the 12nd capacitor and The signal input part connection for receiving chip, one end of the 6th inductance and the signal input part for receiving chip connect It connects, the other end ground connection of the 6th inductance；

One end of 13rd capacitor is connect with the ground terminal for receiving chip, the other end of the 13rd capacitor It is connect with the power end for receiving chip.

Optionally, the power output sub-circuit includes second controller, memory, the 5th resistance and charge-discharge protector；

First signal input part of the second controller is connect with the signal output end for receiving chip, and described second The second signal input terminal of controller is connect with the signal output end of the memory；

The electrical energy inputs of the charge-discharge protector are connect with the electric energy output interface of the second controller, the electric discharge The electric energy output end of protector is connect with the cathode of the graphene heating film；Anode and the electricity of the graphene heating film The connection of pond anode；

One end of 5th resistance is connect with the signal input part of the charge-discharge protector, the 5th resistance it is another End ground connection.

Optionally, the battery and the graphene heating film are respectively positioned on insole internal layer, are equipped with shell in the insole internal layer Body, the shell include accommodating chamber, and the battery and the control circuit are contained in the accommodating chamber.

Optionally, the graphene heating film includes heater and insulator, and the heater is located in the insulator Portion, the heater are connect with the power output sub-circuit；

The power output sub-circuit is specifically used for after receiving the gear selection subsignal, to the inputing power It is converted, obtains output electric energy corresponding with the gear selection subsignal, and the output electric energy is provided to the hair Hot body；It is also used to after receiving the shutdown control signal, stops providing electric energy to the heater.

The utility model embodiment provides a kind of insole, and graphene heating film, battery and control electricity are equipped in the insole Road；The input terminal of the control circuit is connect with the battery, the output end of the control circuit and the graphene heating film Connection；The control circuit is used to be provided needed for the graphene heating film fever according to the inputing power from the battery Electric energy, the graphene heating film be used for according to the electric energy generate heat.The graphene material conduct high by heating efficiency as a result, The heater of insole reduces electric energy spent by unit time internal heat generation, and then is able to extend the fever time of insole.

Detailed description of the invention

In order to illustrate more clearly of the technical solution of the utility model embodiment, the utility model embodiment will be retouched below Attached drawing needed in stating is briefly described, it should be apparent that, the accompanying drawings in the following description is only the utility model Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is the top view for the insole that an embodiment of the present invention provides；

Fig. 2 is the side view for the insole that an embodiment of the present invention provides；

Fig. 3 is the structural schematic diagram that sub-circuit is triggered in the remote terminal for the insole that an embodiment of the present invention provides；

Fig. 4 is the structural representation that signal emits sub-circuit in the remote terminal for the insole that an embodiment of the present invention provides Figure；

Fig. 5 is the structural representation that signal receives sub-circuit in the control circuit for the insole that an embodiment of the present invention provides Figure；

Fig. 6 is the structural representation of power output sub-circuit in the control circuit for the insole that an embodiment of the present invention provides Figure；

Fig. 7 is the structural schematic diagram of pressure stabilizing sub-circuit in the control circuit for the insole that an embodiment of the present invention provides.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model It clearly and completely describes, it is clear that the embodiments are a part of the embodiments of the present invention, rather than whole implementation Example.Based on the embodiments of the present invention, those of ordinary skill in the art are obtained without creative efforts The every other embodiment obtained, fall within the protection scope of the utility model.

The utility model embodiment provides a kind of insole, is equipped with graphene heating film, battery and control in the insole Circuit；

The input terminal of the control circuit is connect with the battery, and the output end of the control circuit and the graphene are sent out Hotting mask connection；

The control circuit is used to provide graphene heating film fever institute according to the inputing power from the battery The electric energy needed, the graphene heating film are used to be generated heat according to the electric energy.

In an optional specific embodiment, the control circuit is specifically used for receiving the input electricity from the battery Can, and the inputing power is provided to the graphene heating film, the graphene heating film is specifically used for according to the input Electric energy fever.

In another optional specific embodiment, the control circuit is specifically used for being converted to the inputing power mentioning It is supplied to the output electric energy of the graphene heating film, the graphene heating film is specifically used for generating heat according to the output electric energy.

Insole provided by the embodiment of the utility model, the fever by the high graphene material of heating efficiency as insole Body reduces electric energy spent by unit time internal heat generation, and then is able to extend the fever time of insole.

Please refer to Fig. 1 and Fig. 2, the utility model embodiment provides a kind of insole 100, is equipped in the insole 100 Graphene heating film 110, battery 120 and control circuit 130；

The input terminal of the control circuit 130 is connect with the battery 120, the output end of the control circuit 130 and institute State the connection of graphene heating film 110；

The control circuit 130 is used to provide the graphene heating film according to the inputing power from the battery 120 Electric energy needed for 110 fevers, the graphene heating film 110 are used to be generated heat according to the electric energy.

Graphene heating film 110, battery 120 and control circuit 130 can be co-located at the internal layer of insole 100, wherein stone Black alkene heating film 110 can be located at the half sole region (as shown in Figure 1) of insole 100, centre of the palm region and after slap region, in graphene In the case that the quantity of heating film 110 is multiple, multiple graphene heating films 110 can be located at half sole region, centre of the palm area Domain and rear palm region.

Graphene heating film 110 is due to the characteristic of itself material, and the electric energy spent by unit time internal heat generation is low, in phase The time of fever is able to extend in the case where with electric energy.In addition, graphene heating film 110 generates heat uniformly, to make user will not There is the feeling that single-point is scorching hot, promotes the comfort level of user.

Wherein, in an optional specific embodiment, the control circuit 130, which is specifically used for receiving, comes from the battery 120 inputing power, and the inputing power is provided to the graphene heating film 110, the graphene heating film 110 is specific For being generated heat according to the inputing power；Graphene heating film 110 can be after receiving inputing power with constant fever function Rate is generated heat.

Wherein, the graphene heating film 110 includes heater (not shown) and insulator (not shown), the heater Inside the insulator, the heater is connect with the control sub-circuit；

The control sub-circuit is specifically used for after receiving the conductivity control signal, and the battery 120 and institute is connected State the connection between heater；After receiving the shutdown control signal, disconnect between the battery 120 and the heater Connection.

By fever volume surrounding be arranged insulating layer so that rainy day shoes drenched or user's foot perspire when, Moisture will not contact heating body, avoid heater from meeting water and cause short circuit, promote the reliability that graphene heating film 110 generates heat, prolong The service life of graphene heating film 110 is grown.

In another optional specific embodiment, the control circuit 130 is specifically used for converting the inputing power For the output electric energy for being provided to the graphene heating film 110, the graphene heating film 110 is specifically used for according to the output Electric energy fever.Graphene heating film 110 can also be sent out after the electric energy for receiving different capacity with different heating powers Heat receives inputing power by control circuit 130 in this case, after converting to it not by the output of control circuit 130 With the output electric energy of power, graphene heating film 110 is carried out after the output electric energy for receiving different capacity with different power Fever.

Insole provided by the embodiment of the utility model, the fever by the high graphene material of heating efficiency as insole Body reduces electric energy spent by unit time internal heat generation, and then is able to extend the fever time of insole.Specifically, graphene is sent out Hotting mask 110 can generate heat under the conditions of extremely low voltage and current, and temperature can achieve 60 DEG C or more, and insole temperature is made to reach 50 ℃.In addition, graphene heating film 110 can continuous high temperature generate heat 5 more than hour, it is more than hour to generate heat 8 for consecutive low temperature, full The heating demands of sufficient user one day outside.

Optionally, it is specifically used for being converted to the inputing power in control circuit 130 and is provided to the graphene fever The output electric energy of film 110, it is described in the case that the graphene heating film 110 is specifically used for according to output electric energy fever Insole further includes controlling terminal (not shown), and the control circuit includes that signal receives sub-circuit and power output sub-circuit, In,

The controlling terminal is for exporting open signal or shutdown signal；The open signal includes gear selection letter Number；

The signal receives sub-circuit and connect with the controlling terminal, for after receiving the open signal, to institute It states power output sub-circuit and sends the gear selection subsignal, be also used to after receiving the shutdown signal, to the electricity Sub-circuit can be exported and send shutdown control signal；

The power output sub-circuit receives sub-circuit, the battery and the graphene heating film with the signal respectively Connection obtains selecting with the gear for converting the inputing power after receiving the gear selection subsignal The corresponding output electric energy of subsignal is selected, and the output electric energy is provided to the graphene heating film；It is also used to receiving After the shutdown control signal, stop providing electric energy to the graphene heating film.

Above-mentioned controlling terminal, which can be, is arranged in insole bottom, and user can extract insole out and control, be also possible to The remote terminal separated with insole, controlling terminal are arranged at insole bottom, and controlling terminal receives sub-circuit by leading with signal Line connection, when controlling terminal is the remote terminal separated with insole, controlling terminal and signal receive sub-circuit communication connection.

In the present embodiment, controlling terminal is used to export open signal or shutdown signal under user's operation, wherein opens letter Number include gear selection subsignal；Graphene heating film 110 is after the electric energy for receiving different capacity with different heating powers It generates heat.

Under user's opening operation, controlling terminal exports open signal, and signal receives sub-circuit and receives the unlatching letter After number, Xiang Suoshu power output sub-circuit sends the gear selection subsignal for including in the open signal, the power output Sub-circuit converts the inputing power after receiving the gear selection subsignal, obtains and the gear selection The corresponding output electric energy of subsignal, and the output electric energy is provided to graphene heating film 110, graphene heating film 110 The heat of corresponding power is issued according to output electric energy.

For the working method of power output sub-circuit, for example: for insole there are three the gear that generates heat, first grade is corresponding The heat that output electric energy can make the sending of graphene heating film 110 reach 40 DEG C, the corresponding output electric energy of second gear can make stone The black sending of alkene heating film 110 reaches 50 DEG C of heat, and the corresponding output electric energy of third gear can be such that graphene heating film 110 issues Reach 60 DEG C of heat.Power output sub-circuit is after receiving the gear selection subsignal for indicating second gear, to constant defeated Enter electric energy to be converted, obtain output electric energy corresponding with second gear, the sending of graphene heating film 110 can be allowed to reach 50 DEG C The output electric energy of heat.

Under user's shutoff operation, controlling terminal exports shutdown signal, and signal receives sub-circuit and receives the closing letter After number, Xiang Suoshu power output sub-circuit sends the shutdown and controls signal, and the power output sub-circuit is described in receive After shutdown control signal, stop providing electric energy to graphene heating film, graphene heating film 110 stops fever.

In the present embodiment, user can adjust the heating temperature of insole, in different external environments according to itself demand It is adjusted, further promotes the comfort level of user.

Further, the graphene heating film 110 includes heater and insulator, and the heater is located at the insulation Internal portion, the heater are connect with the power output sub-circuit；

The power output sub-circuit is specifically used for after receiving the gear selection subsignal, to the inputing power It is converted, obtains output electric energy corresponding with the gear selection subsignal, and the output electric energy is provided to the hair Hot body；It is also used to after receiving the shutdown control signal, stops providing electric energy to the heater.

By fever volume surrounding be arranged insulating layer so that rainy day shoes drenched or user's foot perspire when, Moisture will not contact heating body, avoid heater from meeting water and cause short circuit, promote the reliability that graphene heating film 110 generates heat, prolong The service life of graphene heating film 110 is grown.

Above-mentioned controlling terminal can be remote terminal, and remote terminal includes signal transmitting sub-circuit and triggering sub-circuit, institute It states signal transmitting sub-circuit and the signal receives sub-circuit communication connection.

As shown in figure 3, the triggering sub-circuit may include startup switch K1, shutdown switch K2, the first driving switch K3, Second driving switch K4, the first controller, first capacitor C1 and first resistor R1；

The first end of the startup switch K1, the shutdown first end of switch K2, the first driving switch K3 the The first end of one end and the second driving switch K4 are connect with ground terminal, the second end of the startup switch K1, the pass The second end of the second end of machine switch K2, the second end of the first driving switch K3 and the second driving switch K4 is with Four signal input parts of one controller connect；

The power end of first controller and the anode of battery connect, and the first capacitor C1 is series at first control Between the ground terminal of device processed and the anode of the power supply, the signal output end of first controller is with the first resistor R1's One end connection, the other end ground connection of the first resistor R1.

Trigger startup switch K1 in sub-circuit, shutdown switch K2, the first driving switch K3 and the second driving switch K4 by User triggers in operation panel, defeated by signal after the corresponding signal input part of the first controller receives trigger signal Outlet sends the trigger signal to signal transmitting sub-circuit.

In addition, triggering sub-circuit can also include the first light-emitting diodes in order to allow users to understand current switch states The anode of pipe LED1, first light emitting diode are connect through first resistor R1 with the signal output end of the first controller, the first hair The minus earth of optical diode.First Light-emitting diode LED 1 can be set on the control panel of remote terminal, for showing Switch state.

Further, as shown in figure 4, signal transmitting sub-circuit may include transmitting antenna ANTENNA1, the second electricity Hold C2, third capacitor C3, the 4th capacitor C4, the 5th capacitor C5, the 6th capacitor C6, the 7th capacitor C7, the 8th capacitor C8, the 9th electricity Hold C9, the first inductance L1, the second inductance L2, third inductance L3, second resistance R2,3rd resistor R3, the 4th resistance R4, the first crystalline substance Shake X1 and transmitting chip；

One end of the first crystal oscillator X1 is connect with the transmitting chip, the other end ground connection of the first crystal oscillator X1；

Signal output end of the signal input part of the transmitting chip through the second resistance R2 Yu first controller Connection, the signal input part of the transmitting chip are also grounded through the 3rd resistor R3；

The power supply of the first end of the second capacitor C2 and the first end of the third capacitor C3 with the transmitting chip The second end of end connection, the second end of the second capacitor C2 and the third capacitor C3 are grounded；

The first end of the 4th resistance R4 is connect with the power end of the transmitting chip, and the second of the 4th resistance R4 End respectively with the first end, the first end of the 5th capacitor C5 and the first end of the 6th capacitor C6 of the 4th capacitor C4 Connection, second end, the second end of the 5th capacitor C5 and the second end of the 6th capacitor C6 of the 4th capacitor C4 are grounded；

The first end of the first inductance L1 is connect with the second end of the 4th resistance R4, and the one of the 7th capacitor C7 End is connect with the second end of the first inductance L1, the first end of the other end of the 7th capacitor C7 and the second inductance L2 Connection, the first end of the third inductance L3 are connect with the second end of the second inductance L2, and the second of the third inductance L3 End is connect with the transmitting antenna；

One end of the 8th capacitor C8 is connect with the first end of the third inductance L3, and the 8th capacitor C8's is another End ground connection, one end of the 9th capacitor C9 are connect with the second end of the third inductance L3, and the 9th capacitor C9's is another End ground connection.

It should be noted that signal, which emits sub-circuit, to be Fig. 4 institute in the case where triggering sub-circuit is situation shown in Fig. 3 The structure shown, or other circuit structures realize the transmitting of trigger signal, and the utility model does not limit this.

After the signal input part of transmitting chip receives the trigger signal that triggering sub-circuit is sent, through the 7th capacitor C7, the Sub-circuit, which is received, to signal from transmitting antenna ANTENNA1 after two inductance L2 and third inductance L3 sends the triggering command.

Optionally, as shown in figure 5, it includes receiving antenna ANTENNA2, the 4th inductance L4, that the signal, which receives sub-circuit, Five inductance L5, the 6th inductance L6, the tenth capacitor C10, the 11st capacitor C11, the 12nd capacitor C12, the 13rd capacitor C13, Two crystal oscillator XTAL2 and reception chip；

One end of the second crystal oscillator XTAL2 is connect with the reception chip, another termination of the second crystal oscillator XTAL2 Ground；

The first end of the 4th inductance L4 is connect with the receiving antenna, the second end ground connection of the 4th inductance L4, One end of the tenth capacitor C10 is connect with the first end of the 4th inductance L4, another termination of the tenth capacitor C10 The one end on ground, the 11st capacitor C11 is connect with the first end of the 4th inductance L4, and the 11st capacitor C11's is another One end is connect with the first end of the 5th inductance L5, one end of the 12nd capacitor C12 and the second end of the 5th inductance L5 Connection, the other end of the 12nd capacitor C12 are connect with the signal input part for receiving chip, the 6th inductance L6's One end is connect with the signal input part for receiving chip, the other end ground connection of the 6th inductance L6；

One end of the 13rd capacitor C13 with it is described receive chip ground terminal connect, the 13rd capacitor it is another One end is connect with the power end for receiving chip.

Signal receives sub-circuit and receives the trigger signal that signal emits sub-circuit sending by receiving antenna ANTENNA2 Afterwards, the trigger signal is sent to power output sub-circuit by receiving the signal output end of chip.

Optionally, as shown in fig. 6, the power output sub-circuit includes second controller, memory, the 5th resistance and puts Non-electricity protector；

First signal input part of the second controller is connect with the signal output end for receiving chip, and described second The second signal input terminal of controller is connect with the signal output end of the memory；

The electrical energy inputs of the charge-discharge protector are connect with the electric energy output interface of the second controller, the electric discharge The electric energy output end of protector is connect with the cathode of the graphene heating film；Anode and the electricity of the graphene heating film The connection of pond anode；

One end of the 5th resistance R5 is connect with the signal input part of the charge-discharge protector, the 5th resistance it is another One end ground connection.

Prestore the corresponding multiple trigger signals of each power output gear in memory, second controller is by by signal It receives the trigger signal that sub-circuit is sent to be compared with the trigger signal stored in memory, that is, can determine that user is selected Power output gear, and electric energy corresponding with gear is exported in power output port.The electric energy inputs after charge-discharge protector The anode of the cathode of graphene heating film, graphene heating film is connect with anode, controls stone by cathode in the present embodiment The work energy of black alkene heating film passes through cathode control since the electronic component of side of the positive electrode is few compared with the electronic component model of negative side The work energy of graphene heating film processed can be avoided the situation of electronic component shortage of goods, and the substitutability of electronic component is high, be convenient for The volume production of insole.

In addition, as shown in fig. 6, the second Light-emitting diode LED 2, third Light-emitting diode LED 3 and the 4th can also be added Light-emitting diode LED 4 is connect with three signal output ends of second controller respectively, as display insole work at present gear Indicator light.

The 5th switch K5 can also be added, the 5th switch K5 is manual switch, in the insufficient situation of electric power manually Control the output of electric energy.

It should be noted that the structure of power output sub-circuit can in the case where signal receives sub-circuit as situation shown in fig. 5 With as shown in fig. 6, can also realize the output of electric energy using other circuits, the utility model is not limited this.

Further, as shown in fig. 7, control circuit can also include pressure stabilizing sub-circuit, pressure stabilizing sub-circuit in the present embodiment Including voltage-stablizer, the 14th capacitor and the 15th capacitor, one end of the 14th capacitor is connect with the voltage input end of the voltage-stablizer, The other end of 14th capacitor is grounded, and one end of the 15th capacitor is connect with the voltage output end of the voltage-stablizer, the 15th capacitor Other end ground connection, the voltage input end of the voltage-stablizer connect with anode, the voltage output end and reception core of the voltage-stablizer The power end of piece is connected with second controller, for for receive chip and second controller pressure stabilizing and power supply.

Optionally, as shown in Fig. 2, the battery 120 and the graphene heating film 110 are respectively positioned on 100 internal layer of insole, institute It states in 100 internal layer of insole and is equipped with shell (not shown), the shell includes accommodating chamber, the battery 120 and the control circuit 130 are contained in the accommodating chamber.

Insole 100 is trampled by user for a long time, is easily damaged the battery 120 and control circuit 130 of 100 internal layer of insole, is passed through Battery 120 and control circuit 130 are accommodated in the intracorporal accommodating chamber of shell, the power that user tramples is born by shell, plays protection The effect of battery 120 and control circuit 130.The material of shell can select stainless steel, can between shell and user in insole 100 To increase soft materials, shell is avoided to cause discomfort to user.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be wanted with right Subject to the protection scope asked.

Claims (10)

1. a kind of insole, which is characterized in that be equipped with graphene heating film, battery and control circuit in the insole；

The input terminal of the control circuit is connect with the battery, the output end of the control circuit and the graphene heating film Connection；

The control circuit is used to be provided needed for the graphene heating film fever according to the inputing power from the battery Electric energy, the graphene heating film are used to be generated heat according to the electric energy.

2. insole according to claim 1, which is characterized in that the control circuit is specifically used for turning the inputing power It is changed to the output electric energy for being provided to the graphene heating film, the graphene heating film is specifically used for according to the output electric energy Fever.

3. insole according to claim 2, which is characterized in that further include controlling terminal, the control circuit includes signal Receive sub-circuit and power output sub-circuit, wherein

The controlling terminal is for exporting open signal or shutdown signal；The open signal includes gear selection subsignal；

The signal receives sub-circuit and connect with the controlling terminal, for after receiving the open signal, to the electricity Sub-circuit can be exported and send the gear selection subsignal, be also used to after receiving the shutdown signal, Xiang Suoshu electric energy is defeated Sub-circuit sends shutdown control signal out；

The power output sub-circuit receives sub-circuit, the battery and the graphene heating film with the signal respectively and connects It connects, for being converted to the inputing power after receiving the gear selection subsignal, obtains and the gear selection The corresponding output electric energy of subsignal, and the output electric energy is provided to the graphene heating film；It is also used to receiving After stating shutdown control signal, stop providing electric energy to the graphene heating film.

4. insole according to claim 3, which is characterized in that the controlling terminal is remote terminal, the remote terminal Including signal transmitting sub-circuit and triggering sub-circuit, the signal transmitting sub-circuit and the signal receive sub-circuit communication link It connects.

5. insole according to claim 4, which is characterized in that the triggering sub-circuit include startup switch, shutdown switch, First driving switch, the second driving switch, the first controller, first capacitor and first resistor；

First end, the first end of first driving switch and described of the first end of the startup switch, the shutdown switch The first end of second driving switch is connect with ground terminal, the second end of the startup switch, it is described shutdown switch second end, The second end of first driving switch and the second end of second driving switch are believed with four of first controller The connection of number input terminal；

The power end of first controller and the anode of battery connect, and the first capacitor is series at first controller Between ground terminal and the anode of the power supply, the signal output end of first controller and one end of the first resistor connect It connects, the other end ground connection of the first resistor.

6. insole according to claim 5, which is characterized in that the signal transmitting sub-circuit includes transmitting antenna, second Capacitor, third capacitor, the 4th capacitor, the 5th capacitor, the 6th capacitor, the 7th capacitor, the 8th capacitor, the 9th capacitor, the first inductance, Second inductance, third inductance, second resistance, 3rd resistor, the 4th resistance, the first crystal oscillator and transmitting chip；

One end of first crystal oscillator is connect with the transmitting chip, the other end ground connection of first crystal oscillator；

The signal input part of the transmitting chip is connect through the second resistance with the signal output end of first controller, institute The signal input part for stating transmitting chip is also grounded through the 3rd resistor；

The first end of second capacitor and the first end of the third capacitor are connect with the power end of the transmitting chip, institute The second end of the second end and the third capacitor of stating the second capacitor is grounded；

The first end of 4th resistance is connect with the power end of the transmitting chip, the second end of the 4th resistance respectively with The first end of 4th capacitor, the first end of the 5th capacitor are connected with the first end of the 6th capacitor, and the described 4th The second end of the second end of capacitor, the second end of the 5th capacitor and the 6th capacitor is grounded；

The first end of first inductance is connect with the second end of the 4th resistance, one end of the 7th capacitor and described the The second end of one inductance connects, and the other end of the 7th capacitor is connect with the first end of second inductance, the third electricity The first end of sense is connect with the second end of second inductance, and the second end of the third inductance is connect with the transmitting antenna；

One end of 8th capacitor is connect with the first end of the third inductance, the other end ground connection of the 8th capacitor, institute The one end for stating the 9th capacitor is connect with the second end of the third inductance, the other end ground connection of the 9th capacitor.

7. insole according to claim 4, which is characterized in that it includes receiving antenna, the 4th that the signal, which receives sub-circuit, It inductance, the 5th inductance, the 6th inductance, the tenth capacitor, the 11st capacitor, the 12nd capacitor, the 13rd capacitor, the second crystal oscillator and connects Receive chip；

One end of second crystal oscillator is connect with the reception chip, the other end ground connection of second crystal oscillator；

The first end of 4th inductance is connect with the receiving antenna, the second end ground connection of the 4th inductance, and the described tenth One end of capacitor is connect with the first end of the 4th inductance, the other end ground connection of the tenth capacitor, the 11st capacitor One end connect with the first end of the 4th inductance, the first end of the other end of the 11st capacitor and the 5th inductance connects It connects, one end of the 12nd capacitor is connect with the second end of the 5th inductance, the other end of the 12nd capacitor and institute The signal input part connection for receiving chip is stated, one end of the 6th inductance is connect with the signal input part for receiving chip, The other end of 6th inductance is grounded；

One end of 13rd capacitor is connect with the ground terminal for receiving chip, the other end of the 13rd capacitor and institute State the power end connection for receiving chip.

8. insole according to claim 7, which is characterized in that the power output sub-circuit includes second controller, deposits Reservoir, the 5th resistance and charge-discharge protector；

First signal input part of the second controller is connect with the signal output end for receiving chip, second control The second signal input terminal of device is connect with the signal output end of the memory；

The electrical energy inputs of the charge-discharge protector are connect with the electric energy output interface of the second controller, the discharge prevention The electric energy output end of device is connect with the cathode of the graphene heating film；The anode of the graphene heating film and the battery are just Pole connection；

One end of 5th resistance is connect with the signal input part of the charge-discharge protector, another termination of the 5th resistance Ground.

9. according to claim 1 to insole described in any claim in 3, which is characterized in that the battery and the graphite Alkene heating film is respectively positioned on insole internal layer, is equipped with shell in the insole internal layer, the shell includes accommodating chamber, the battery and institute Control circuit is stated to be contained in the accommodating chamber.

10. insole according to claim 3, which is characterized in that the graphene heating film includes heater and insulator, The heater is located inside the insulator, and the heater is connect with the power output sub-circuit；

The power output sub-circuit is specifically used for after receiving the gear selection subsignal, carries out to the inputing power Conversion, obtains output electric energy corresponding with the gear selection subsignal, and the output electric energy is provided to the heater； It is also used to after receiving the shutdown control signal, stops providing electric energy to the heater.