CN205814889U - A kind of intelligence Far infrared warm-moxibustion physical therapy device - Google Patents
A kind of intelligence Far infrared warm-moxibustion physical therapy device Download PDFInfo
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- CN205814889U CN205814889U CN201620479758.2U CN201620479758U CN205814889U CN 205814889 U CN205814889 U CN 205814889U CN 201620479758 U CN201620479758 U CN 201620479758U CN 205814889 U CN205814889 U CN 205814889U
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Abstract
This utility model is applicable to field of physical therapy, a kind of intelligence Far infrared warm-moxibustion physical therapy device is provided, by using Graphene heating plate, booster circuit, key control circuit, LED indicating circuit, electrocardio and heart rate Acquisition Circuit and Bluetooth control circuit, described intelligence Far infrared warm-moxibustion physical therapy device is made to have many gear heating and temperature control functions, many gears heating-up temperature and electric quantity display function, electrocardiogram (ECG) data detection function and wireless blue tooth control function, allow users to as required heating-up temperature is adjusted and according to electrocardiogram (ECG) data, the condition of self is carried out the medical judgment of specialty.
Description
Technical field
This utility model belongs to field of physical therapy, particularly relates to a kind of intelligence Far infrared warm-moxibustion physical therapy device.
Background technology
Along with growth in the living standard, people increasingly pay attention to the healthy of self, and various mild moxibustion physiotherapy device layers go out
The poorest.
But, existing mild moxibustion physiotherapy device only has heart rate data detection function, it is impossible to realize electrocardiogram (ECG) data detection, because of
And from the angle of more specialty, the condition of user cannot be carried out medical judgment.
Utility model content
The purpose of this utility model is to provide a kind of intelligence Far infrared warm-moxibustion physical therapy device, it is intended to solve existing Moxa
Physical therapy device only has heart rate data detection function, it is impossible to realize electrocardiogram (ECG) data detection, thus cannot be from the angle of more specialty
The problem that the condition of user is carried out medical judgment.
This utility model is achieved in that a kind of intelligence Far infrared warm-moxibustion physical therapy device, including far-infrared heating film, its
Being characterised by, described far-infrared heating film is Graphene heating plate, and described intelligence Far infrared warm-moxibustion physical therapy device also includes:
Usb circuit;
It is connected with described usb circuit, is connected the charging circuit of external power source by described usb circuit;
It is connected with described charging circuit, the battery circuit being charged by described charging circuit input electric energy;
It is connected with described charging circuit, described battery circuit and described far-infrared heating film respectively, by changing output electricity
Pressure carries out the booster circuit of computer heating control to described far-infrared heating film;
It is connected with described battery circuit, the break-make of described battery circuit is controlled and passes through described battery circuit to institute
The voltage stating booster circuit is controlled, with the heating-up temperature to described far-infrared heating film carry out many shift controls by keying
Circuit processed;
It is connected with described booster circuit, to the gear of the heating-up temperature of described far-infrared heating film and described battery circuit
Electricity carries out the LED indicating circuit indicated;
It is connected with described usb circuit and described battery circuit respectively, by the described usb circuit external electrocardio heart
Rate detection probe is to gather the electrocardio and heart rate Acquisition Circuit of human body electrocardio heart rate data;
Respectively with described charging circuit, described battery circuit, described booster circuit, described key control circuit, described LED
Indicating circuit and described electrocardio and heart rate Acquisition Circuit connect, and each circuit carries out the Bluetooth control circuit of controlled in wireless.
Preferably, the stone that described intelligence Far infrared warm-moxibustion physical therapy device generally upper surface is protruding, lower surface is smooth
Shape or button shape, its cross section is half elliptic for circular, longitudinal section, and described Graphene heating plate is arranged on described intelligence
Inside the lower surface of Far infrared warm-moxibustion physical therapy device, the area of the lower surface of described intelligence Far infrared warm-moxibustion physical therapy device and human body
Acupuncture point area is suitable.
Preferably, the power positive end of described usb circuit connects the power input of described charging circuit, and described USB connects
The power supply negative terminal ground connection of mouthful circuit, three FPDPs of described usb circuit respectively with described electrocardio and heart rate Acquisition Circuit
Three data collection terminals connect one to one, with when needs carry out electrocardio and heart rate data acquisition, by described USB interface even
Connect three outside electrocardio and heart rate detection probes;
The power output end of described charging circuit connects the power input of described booster circuit, the battery of described charging circuit
Charging terminates the charging end of described battery circuit, the charging of the charging controlled termination described Bluetooth control circuit of described charging circuit
Control end, the charging Enable Pin of described charging circuit and the power output end of described battery circuit, the enable of described booster circuit
The reset terminal of end, the positive voltage terminal of described electrocardio and heart rate Acquisition Circuit and described Bluetooth control circuit is connected to described electrocardio and heart rate altogether
The power input of Acquisition Circuit;
The button described key control circuit of controlled termination of described battery circuit by key control end, described battery circuit
Power supply enables the power supply of controlled termination described Bluetooth control circuit and enables and control end, the battery controlled termination institute of described battery circuit
The battery stating Bluetooth control circuit controls end;
The external key switch of button controlled end of described key control circuit, the button of described key control circuit triggers end
The button connecing described Bluetooth control circuit triggers end;
The voltage output end of described booster circuit connects the voltage input end of described LED indicating circuit;
The LED of the controlled termination of the LED described Bluetooth control chip of described LED indicating circuit controls end;
The electrocardiogram (ECG) data output of described electrocardio and heart rate Acquisition Circuit terminates the electrocardiogram (ECG) data input of described Bluetooth control chip
End, the first timing output of described electrocardio and heart rate Acquisition Circuit terminates the first timing acquiring end of described Bluetooth control chip, institute
The second timing output stating electrocardio and heart rate Acquisition Circuit terminates the second timing acquiring end of described Bluetooth control chip, described electrocardio
The timing acquiring of the controlled termination of the timing acquiring described Bluetooth control chip of heart rate Acquisition Circuit controls end.
Preferably, described charging circuit include charging chip U1, resistance R1~R4, for be charged instruction luminescence two
Pole pipe OD1, electric capacity C1 and diode D1;
Described charging chip U1 charging controlled end and one end of resistance R1, one end of resistance R2 and light emitting diode OD1
Negative pole connects altogether, and the other end of resistance R1 constitutes the charging controlled end of described charging circuit, fills described in the other end composition of resistance R2
The charging Enable Pin of electricity circuit;
The earth terminal ground connection of described charging chip U1;
The battery charging terminal that battery charging terminal is described charging circuit of described charging chip U1;
The power input of described charging chip U1 is described charging circuit power input, the electricity of described charging chip U1
Input also positive pole with one end of described resistance R3, the positive pole of described electric capacity C1 and described diode D1 in source connects altogether, described electricity
The positive pole of the described light emitting diode OD1 of another termination of resistance R3, the minus earth of described electric capacity C1, the negative pole of described diode D1
Constitute the power output end of described charging circuit;
The programming pulse input of described charging chip U1 passes through resistance R4 ground connection.
Preferably, described battery circuit include voltage stabilizing chip U2, resistance R5~R10, electric capacity C2~C4, field effect transistor Q1,
Audion Q2 and battery BAT;
The voltage input end of voltage stabilizing chip U2 is total to the drain electrode of one end of resistance R5, the positive pole of electric capacity C2 and field effect transistor Q1
Connect, the earth terminal ground connection of voltage stabilizing chip U2, the other end of the Enable Pin connecting resistance R5 of voltage stabilizing chip U2, the voltage of voltage stabilizing chip U2
Outfan meets the power output end constituting described battery circuit, the minus earth of electric capacity C2, electric capacity C3 altogether with the positive pole of electric capacity C3
Minus earth;
The grid of field effect transistor Q1 connects the described battery circuit of composition altogether with the colelctor electrode of audion Q2 and one end of resistance R6
Button controlled end, the source electrode of field effect transistor Q1 and the other end of resistance R6, one end of resistance R7, the positive pole of battery BAT and electricity
The positive pole holding C4 connects the charging end constituting described battery circuit, the minus earth of electric capacity C4, the minus earth of battery BAT altogether;
The base stage of audion Q2 connects altogether with one end of resistance R8 and one end of resistance R9, and the other end of resistance R8 constitutes described
The power supply of battery circuit enables controlled end, and the emitter stage of audion Q2 connects altogether with the other end and the ground of resistance R9;
The other end of resistance R7 meets the battery controlled end constituting described battery circuit, resistance R10 altogether with one end of resistance R10
Other end ground connection.
Preferably, described key control circuit includes by diode D2, diode D3 with for the two of external key switch
Needle interface CON1;
The positive pole of diode D2 constitutes the button of described key control circuit and triggers end, the negative pole of diode D2 and diode
The negative pole of D3 and one end of described two needle interface CON1 connect altogether, the other end ground connection of two needle interface CON1;
The positive pole of diode D3 constitute described key control circuit by key control end.
Preferably, described booster circuit includes boost chip U3, inductance L1, diode D4, resistance R11~R12 and electric capacity
C5~C9;
The switch control terminal of boost chip U3 connects altogether with one end, the positive pole of diode D4 of inductance L1;
The earth terminal ground connection of boost chip U3;
The dividing potential drop modulated terminal of boost chip U3 is total to the positive pole of one end of resistance R11, one end of resistance R12 and electric capacity C5
Connect, the other end ground connection of resistance R12;
The Enable Pin of boost chip U3 constitutes the Enable Pin of described booster circuit;
The overvoltage protection end of boost chip U3 and the negative pole of diode D4, the other end of resistance R11, the negative pole of electric capacity C5,
The positive pole of electric capacity C6 and the positive pole of electric capacity C7 connect the power output end constituting described booster circuit, the negative pole of electric capacity C6 and electric capacity altogether
The minus earth of C7;
The power input of boost chip U3 connects altogether with the positive pole of the other end, the positive pole of electric capacity C8 and the electric capacity C9 of inductance L1
Constitute the power input of described booster circuit, the negative pole of electric capacity C8 and the minus earth of electric capacity C9.
Preferably, described LED indicating circuit can be to the heating-up temperature of described far-infrared heating film and described battery circuit
Electricity carries out three gear instructions, and correspondence, described LED indicating circuit includes three LED controlled ends and the mutually same gear of circuit theory
LED indicating circuit, two gear LED indicating circuits and three gear LED indicating circuits;
The voltage input end of a described gear LED indicating circuit, two gear LED indicating circuits and three gear LED indicating circuits connects altogether
Constituting the voltage input end of described LED indicating circuit, three LED controlled ends of described LED indicating circuit include a described gear LED
The LED controlled end of indicating circuit, the LED controlled end of described two gear LED indicating circuits and the LED of described three gear LED indicating circuits
Controlled end;
A described gear LED indicating circuit includes audion Q3, field effect transistor Q4, resistance R13~R17, light emitting diode OD2
With diode D5;The base stage of audion Q3 connects altogether with one end of resistance R13 and one end of resistance R14, the other end structure of resistance R13
Become the LED controlled end of a described gear LED indicating circuit, the colelctor electrode of audion Q3 and the grid of field effect transistor Q4 and resistance R15
One end connect altogether, the other end of the emitter stage of audion Q3 and resistance R15 is connected to ground, the source electrode of field effect transistor Q4 and resistance altogether
The other end of R15 meets the voltage input end constituting a described gear LED indicating circuit, the drain electrode connecting resistance R16 of field effect transistor Q4 altogether
One end, the other end of resistance R16 connects altogether with the positive pole of light emitting diode OD2 and the positive pole of diode D5, light emitting diode OD2
Negative pole by resistance R17 ground connection, the minus earth of diode D5;
Described two gear LED indicating circuits include audion Q5, field effect transistor Q6, resistance R18~R22, light emitting diode OD3
With diode D6;The base stage of audion Q5 connects altogether with one end of resistance R18 and one end of resistance R19, the other end structure of resistance R18
Become the LED controlled end of described two gear LED indicating circuits, the colelctor electrode of audion Q5 and the grid of field effect transistor Q6 and resistance R20
One end connect altogether, the other end of the emitter stage of audion Q5 and resistance R20 is connected to ground, the source electrode of field effect transistor Q6 and resistance altogether
The other end of R20 meets the voltage input end constituting described two gear LED indicating circuits, the drain electrode connecting resistance R21 of field effect transistor Q6 altogether
One end, the other end of resistance R21 connects altogether with the positive pole of light emitting diode OD3 and the positive pole of diode D6, light emitting diode
The negative pole of OD3 passes through resistance R22 ground connection, the minus earth of diode D6;
Described three gear LED indicating circuits include audion Q7, field effect transistor Q8, resistance R23~R27, light emitting diode OD4
With diode D7;The base stage of audion Q7 connects altogether with one end of resistance R23 and one end of resistance R24, the other end structure of resistance R23
Become the LED controlled end of described two gear LED indicating circuits, the colelctor electrode of audion Q7 and the grid of field effect transistor Q8 and resistance R25
One end connect altogether, the other end of the emitter stage of audion Q7 and resistance R25 is connected to ground, the source electrode of field effect transistor Q8 and resistance altogether
The other end of R25 meets the voltage input end constituting described three gear LED indicating circuits, the drain electrode connecting resistance R26 of field effect transistor Q8 altogether
One end, the other end of resistance R26 connects altogether with the positive pole of light emitting diode OD4 and the positive pole of diode D7, light emitting diode OD4
Negative pole by resistance R27 ground connection, the minus earth of diode D7.
Preferably, described electrocardio and heart rate Acquisition Circuit include electrocardiogram acquisition chip U4, voltage stabilizing chip U5, resistance R28~
R31, TVS pipe TVS1~TVS3 and electric capacity C10~C13;
First timing output of electrocardiogram acquisition chip U4 and the second timing output respectively constitute described electrocardio and heart rate and adopt
First timing output of collector and the second timing output;
The earth terminal of electrocardiogram acquisition chip U4 and the negative pole of electric capacity C10 are connected to ground altogether;
The power end of electrocardiogram acquisition chip U4 and the positive pole of electric capacity C10 connect the electricity constituting described electrocardio and heart rate Acquisition Circuit altogether
Source input;
The positive pole of analog power input termination capacitor C11 of electrocardiogram acquisition chip U4;
The switch terminals of electrocardiogram acquisition chip U4 and the negative pole of electric capacity C11 are connected to ground altogether;
The starting end of electrocardiogram acquisition chip U4 constitutes the timing acquiring controlled end of described electrocardio and heart rate Acquisition Circuit;
The first data acquisition end of electrocardiogram acquisition chip U4 connects the described electrocardio and heart rate of composition altogether and adopts with one end of TVS pipe TVS1
First data collection terminal of collector;
The second data acquisition end of electrocardiogram acquisition chip U4 connects the described electrocardio and heart rate of composition altogether and adopts with one end of TVS pipe TVS2
Second data collection terminal of collector, the other end of TVS pipe TVS1 and TVS2 is connected to ground altogether;
The negative pole of data feedback termination capacitor C12 of electrocardiogram acquisition chip U4;
The 3rd data acquisition end of electrocardiogram acquisition chip U4 connects altogether with the positive pole of electric capacity C12 and one end of resistance R28, electricity
The other end of resistance R28 and one end of TVS pipe TVS3 meet the 3rd the data collection terminal constituting electrocardio and heart rate Acquisition Circuit, TVS altogether
The other end ground connection of pipe TVS3;
The preposition amplification end of electrocardiogram acquisition chip U4 connects low-pass filtering end by electric capacity C13;
One end of one end of the outfan connecting resistance R29 of electrocardiogram acquisition chip U4, the other end of resistance R29 and resistance R30
It is connected to the positive input terminal of voltage stabilizing chip U5 altogether, the other end ground connection of resistance R30;
The outfan of voltage stabilizing chip U5 and one end of resistance R31 connect the electrocardio number constituting described electrocardio and heart rate Acquisition Circuit altogether
According to outfan, the negative voltage side ground connection of voltage stabilizing chip U5, the other end of the negative input end connecting resistance R31 of voltage stabilizing chip U5, voltage stabilizing
The positive voltage terminal of chip U5 constitutes the positive voltage terminal of described electrocardio and heart rate Acquisition Circuit.
Preferably, described Bluetooth control circuit includes low-power consumption Bluetooth chip U6, crystal oscillator chip U7, crystal oscillator X1, electric capacity C14
~C33, resistance R32, inductance L2~L6 and antenna output interface CON2;
The annexation of each port of low-power consumption Bluetooth chip U6 is as follows:
First crystal oscillator end connects altogether with the positive pole of electric capacity C14 and one end of crystal oscillator X1, the minus earth of electric capacity C14;
Reset terminal connects altogether with one end of resistance R32 and the positive pole of electric capacity C15, and the other end of resistance R32 constitutes described bluetooth
The reset terminal of control circuit;
Memorizer voltage end, running voltage end, trigger voltage end, depositor voltage end and analog voltage end pass through respectively
Electric capacity C16~C20 ground connection;
Radio-frequency head connects altogether with one end of inductance L2 and one end of inductance L3, the other end ground connection of inductance L3;
Antenna output end connects altogether with the positive pole of electric capacity C22 and one end of inductance L4, and the negative pole of electric capacity C22 is another with inductance L2's
The positive pole of one end, one end of inductance L5 and electric capacity C23 connects altogether, the minus earth of electric capacity C23, the other end of inductance L5 and inductance L6
One end and the positive pole of electric capacity C24 connect altogether, the minus earth of electric capacity C24, the positive pole of the other end of inductance L6 and electric capacity C25 and sky
One end of line output interface CON2 connects altogether, the minus earth of electric capacity C25, the other end ground connection of antenna output interface CON2, described
Two ports of the interface CON2 of antenna output are also connected with antenna;
Power end connects altogether with the positive pole of electric capacity C26~C28 and the other end of inductance L4, and the negative pole of electric capacity C26~C28 is equal
Ground connection;
Coprocessor end passes through electric capacity C29 ground connection;
The input of crystal oscillator output termination crystal oscillator chip U7;
The outfan of crystal oscillator input termination crystal oscillator chip U7, two earth terminal ground connection of crystal oscillator chip U7;
Program voltage end passes through electric capacity C30 ground connection;
Radio frequency electrical pressure side is respectively by electric capacity C31 and C32 ground connection;
The output of serial clock terminal, main frame/from machine input and main frame input/respectively constitute described bluetooth control from machine outfan
Three LED of circuit processed control end;
First interrupt timing end constitutes the power supply of described Bluetooth control circuit and enables control end;
Second interrupt timing end constitutes the timing acquiring of described Bluetooth control circuit and controls end;
Interrupt signal end constitutes the button of described Bluetooth control circuit and triggers end;
Asynchronous input terminals constitutes the battery of described Bluetooth control circuit and controls end;
It is output asynchronously end and constitutes the charging control end of described Bluetooth control circuit;
Interrupt data terminal and constitute the electrocardiogram (ECG) data input of described Bluetooth control circuit;
First interrupt timing end constitutes the first timing acquiring end of described Bluetooth control circuit;
Second interrupt timing end constitutes the second timing acquiring end of described Bluetooth control circuit;
Second crystal oscillator end connects altogether with the other end of crystal oscillator X1 and the positive pole of electric capacity C33, the minus earth of electric capacity C33.
Compared with prior art, it has the beneficial effects that this utility model:
By using Graphene heating plate, booster circuit, key control circuit, LED indicating circuit, electrocardio and heart rate to gather electricity
Road and Bluetooth control circuit, make described intelligence Far infrared warm-moxibustion physical therapy device have many gear heating and temperature control function, many gears
Heating-up temperature and electric quantity display function, electrocardiogram (ECG) data detection function and wireless blue tooth control function, allow users to as required
Heating-up temperature is adjusted and carries out the condition of self according to electrocardiogram (ECG) data the medical judgment of specialty.
Accompanying drawing explanation
Fig. 1 is the basic structure block diagram of the intelligent Far infrared warm-moxibustion physical therapy device that this utility model embodiment provides;
Fig. 2 is the basic connection of the internal circuit of the intelligent Far infrared warm-moxibustion physical therapy device that this utility model embodiment provides
Graph of a relation;
Fig. 3 is the circuit theory diagrams of the usb circuit that this utility model embodiment provides;
Fig. 4 is the circuit theory diagrams of the charging circuit that this utility model embodiment provides;
Fig. 5 is battery circuit and the circuit theory diagrams of key control circuit of this utility model embodiment offer;
Fig. 6 is the circuit theory diagrams of the booster circuit that this utility model embodiment provides;
Fig. 7 is the circuit theory diagrams of the electrocardio and heart rate Acquisition Circuit that this utility model embodiment provides;
Fig. 8 is the circuit theory diagrams of the LED indicating circuit that this utility model embodiment provides;
Fig. 9 is the circuit theory diagrams of the Bluetooth control circuit that this utility model embodiment provides.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing and enforcement
Example, is further elaborated to this utility model.Should be appreciated that specific embodiment described herein is only in order to explain this
Utility model, is not used to limit this utility model.
As it is shown in figure 1, the intelligent Far infrared warm-moxibustion physical therapy device that the present embodiment provides, including far-infrared heating film, the reddest
Additional backing is the Graphene heating plate using four layer graphene volume production technology to manufacture, and also includes usb circuit 10, charged electrical
Road 20, battery circuit 30, booster circuit 40, key control circuit 50, LED indicating circuit 60, electrocardio and heart rate Acquisition Circuit 70, indigo plant
Tooth control circuit 80.
In the present embodiment, usb circuit 10 includes 5 pin USB interface, specifically can beyond microUSB interface.Its
In, two power pins of USB interface are used for connecing external power source, for connection, three data-interfaces include that three electrocardio and heart rates are visited
The electrocardio and heart rate detection data line of head, for detection human body left hand, the right hand and the electrocardio and heart rate data of heart respectively.
Charging circuit 20 is connected with usb circuit 10, connects external power source by usb 10.
Battery circuit 30 is connected with charging circuit 20, inputs electric energy by charging circuit 20 and is charged.
Booster circuit 40 is connected with charging circuit 20, battery circuit 30 and far-infrared heating film respectively, is exported by change
Voltage carries out computer heating control to far-infrared heating film.
In a particular application, the output voltage range of booster circuit 40 is 3.7V~5.2V, is adjustably controlled far infrared and adds
The heating temperature range of backing is 40 DEG C~90 DEG C.
Key control circuit 50 is connected with battery circuit 30, is controlled the break-make of battery circuit 30 and passes through battery electricity
The voltage of booster circuit 40 is controlled by road 30, carries out many shift controls with the heating-up temperature to far-infrared heating film.
In a particular application, key control circuit 50 also can carry out switching on and shutting down to described intelligence Far infrared warm-moxibustion physical therapy device
Control.
LED indicating circuit 60 is connected with booster circuit 40, gear and the battery electricity to the heating-up temperature of far-infrared heating film
The electricity on road 30 indicates.
In a particular application, LED indicating circuit 60 can also be to the on-off state of intelligence Far infrared warm-moxibustion physical therapy device
Indicate.
Electrocardio and heart rate Acquisition Circuit 70 is connected with usb circuit 10 and battery circuit 30 respectively, passes through usb circuit
10 external electrocardio and heart rate detection probes are to gather human body electrocardio heart rate data.
Bluetooth control circuit 80 respectively with charging circuit 20, battery circuit 30, booster circuit 40, key control circuit 50,
LED indicating circuit 60 and electrocardio and heart rate Acquisition Circuit 70 connect, for each circuit is carried out controlled in wireless.
In a particular application, the control of intelligent terminal such as the external smart mobile phone of Bluetooth control circuit 80, panel computer or PC end,
To realize the intelligence switching on and shutting down of Far infrared warm-moxibustion physical therapy device, the function such as heating-up temperature regulation wireless of far-infrared heating film
Control.
In a preferred embodiment, described intelligence Far infrared warm-moxibustion physical therapy device generally upper surface is protruding, lower surface is flat
Sliding stone shape or button shape, its cross section is half elliptic for circular, longitudinal section, and Graphene heating plate is arranged on intelligence
Inside the lower surface of energy Far infrared warm-moxibustion physical therapy device, the area of the lower surface of intelligence Far infrared warm-moxibustion physical therapy device and human body cave
Plane is long-pending quite.
As in figure 2 it is shown, the present embodiment provide intelligent Far infrared warm-moxibustion physical therapy device internal circuit specifically connect pass
System is:
The power positive end of usb circuit 10 connects the power input of charging circuit 20, and the power supply of usb circuit 10 is born
End ground connection, three FPDPs of usb circuit 10 respectively with three data collection terminals one of electrocardio and heart rate Acquisition Circuit 70
One corresponding connection, with when needs carry out electrocardio and heart rate data acquisition, connects three outside electrocardio and heart rates by USB interface and detects
Probe;
The power output end of charging circuit 20 connects the power input of booster circuit 40, the battery charging terminal of charging circuit 20
Connecing the charging end of battery circuit 30, the charging of the controlled termination Bluetooth control circuit 80 that charges of charging circuit 20 controls end, charging
The charging Enable Pin of circuit 20 gathers electricity with the power output end of battery circuit 30, the Enable Pin of booster circuit 40, electrocardio and heart rate
The positive voltage terminal on road 70 and the reset terminal of Bluetooth control circuit 80 are connected to the power input of electrocardio and heart rate Acquisition Circuit 70 altogether;
The button controlled termination key control circuit 50 of battery circuit 30 by key control end, the power supply of battery circuit 30 makes
The power supply of the controlled termination Bluetooth control circuit 80 of energy enables and controls end, the battery controlled termination Bluetooth control circuit of battery circuit 30
The battery of 80 controls end;
The external key switch of button controlled end of key control circuit 50, the button of key control circuit 50 triggers termination indigo plant
The button of tooth control circuit 80 triggers end;
The voltage output end of booster circuit 40 connects the voltage input end of LED indicating circuit 60;
The LED of the LED controlled termination Bluetooth control chip of LED indicating circuit 60 controls end;
The electrocardiogram (ECG) data input of the electrocardiogram (ECG) data output termination Bluetooth control chip of electrocardio and heart rate Acquisition Circuit 70, electrocardio
First timing acquiring end of the first timing output termination Bluetooth control chip of heart rate Acquisition Circuit 70, electrocardio and heart rate Acquisition Circuit
Second timing acquiring end of the second timing output termination Bluetooth control chip of 70, the timing acquiring of electrocardio and heart rate Acquisition Circuit 70
The timing acquiring of controlled termination Bluetooth control chip controls end.
As it is shown on figure 3, in the present embodiment, usb circuit 10 includes 5 pin USB interface, the 1~5 of this USB interface
The annexation of number pin is as follows:
No. 1 pin constitutes the power output end of usb circuit 10, connects the power input of charging circuit 20;
2~No. 4 pins constitute three FPDPs of usb circuit 10, respectively with electrocardio and heart rate Acquisition Circuit 70
Three data collection terminals connect one to one;
No. 5 pins constitute the power supply negative terminal ground connection of usb circuit 10.
As shown in Figure 4, in the present embodiment, charging circuit 20 include charging chip U1, resistance R1~R4, for filling
Light emitting diode OD1, electric capacity C1 and the diode D1 of electricity instruction.
Charging chip U1 selects LT4054 type charging chip, and the annexation of its each pin is as follows:
No. 1 pin CHRG (charging controlled end) is negative with one end of resistance R1, one end of resistance R2 and light emitting diode OD1's
Connecing the most altogether, the other end of resistance R1 constitutes the charging controlled end of charging circuit 20, and the other end of resistance R2 constitutes charging circuit 20
Charging Enable Pin VDD2VB;
No. 2 pin GND (earth terminal) ground connection;
No. 3 pin BAT (battery charging terminal) are the battery charging terminal BAT_CHRG_1 of charging circuit 20;
No. 4 pin VCC (power input) are charging circuit 20 power input USB5V, and No. 4 pins are also with resistance R3's
The positive pole of one end, the positive pole of electric capacity C1 and diode D1 connects altogether, the positive pole of the other end sending and receiving optical diode OD1 of resistance R3, electricity
Holding the minus earth of C1, the negative pole of diode D1 constitutes the power output end USB_POWER of charging circuit 20;
No. 5 pin PROG (programming pulse input) are by resistance R4 ground connection.
As it is shown in figure 5, in the present embodiment, battery circuit 30 include voltage stabilizing chip U2, resistance R5~R10, electric capacity C2~
C4, field effect transistor Q1, audion Q2 and battery BAT.
The annexation of each pin of voltage stabilizing chip U2 is as follows:
The drain electrode of No. 1 pin VIN (voltage input end) and one end of resistance R5, the positive pole of electric capacity C2 and field effect transistor Q1 is altogether
Connect;
No. 2 pin VSS (earth terminal) ground connection;
The other end of No. 3 pin CE (Enable Pin) connecting resistance R5;
No. 4 pin NC are empty;
The positive pole of No. 5 pin VOUT (voltage output end) and electric capacity C3 connects the power output end constituting battery circuit 30 altogether
VDD2VB, the minus earth of electric capacity C2, the minus earth of electric capacity C3;
The grid of field effect transistor Q1 connects altogether constitute battery circuit 30 with the colelctor electrode of audion Q2 and one end of resistance R6
Button controlled end, the source electrode of field effect transistor Q1 and the other end of resistance R6, one end of resistance R7, the positive pole of battery BAT and electric capacity
The positive pole of C4 connects the charging end VBAT constituting battery circuit 30, the minus earth of electric capacity C4, the minus earth of battery BAT altogether;
The base stage of audion Q2 connects altogether with one end of resistance R8 and one end of resistance R9, and the other end of resistance R8 constitutes battery
The power supply of circuit 30 enables controlled end POWER_EN, and the emitter stage of audion Q2 connects altogether with the other end and the ground of resistance R9;
One end of the other end of resistance R7 and resistance R10 connects the battery controlled end BAT_AD constituting battery circuit 30, electricity altogether
The other end ground connection of resistance R10.
As it is shown in figure 5, the key control circuit 50 that the present embodiment provides includes by diode D2, diode D3 with for outward
Meet two needle interface CON1 of key switch;
The positive pole of diode D2 constitutes the button of key control circuit 50 and triggers end POWERKEY, the negative pole of diode D2 with
The negative pole of diode D3 and one end of two needle interface CON1 connect altogether, the other end ground connection of two needle interface CON1;
The positive pole of diode D3 constitute key control circuit 50 by key control end.
As shown in Figure 6, the booster circuit 40 that the present embodiment provides includes boost chip U3, inductance L1, diode D4, resistance
R11~R12 and electric capacity C5~C9.
The annexation of each pin of boost chip U3 is as follows:
No. 1 pin LX (switch control terminal) connects altogether with one end, the positive pole of diode D4 of inductance L1;
No. 2 pin GND (earth terminal) ground connection;
No. 3 pin FB (dividing potential drop modulated terminal) connect altogether with the positive pole of one end, one end of resistance R12 and the electric capacity C5 of resistance R11,
The other end ground connection of resistance R12;
No. 4 pin CE (Enable Pin) constitute Enable Pin VDD2VB of booster circuit 40;
No. 5 pin OVP (overvoltage protection end) and the negative pole of diode D4, the other end of resistance R11, the negative pole of electric capacity C5,
The positive pole of electric capacity C6 and the positive pole of electric capacity C7 altogether connect constitute booster circuit 40 power output end VCC_5V, the negative pole of electric capacity C6 and
The minus earth of electric capacity C7;
No. 6 pin VIN (power input) connect altogether with the positive pole of the other end, the positive pole of electric capacity C8 and the electric capacity C9 of inductance L1
Constitute negative pole and the minus earth of electric capacity C9 of the power input USB_POWER, electric capacity C8 of booster circuit 40.
As it is shown in fig. 7, the LED indicating circuit 60 that the present embodiment provides can be to the heating-up temperature of far-infrared heating film and battery
The electricity of circuit 30 carries out three gear instructions, and correspondence, LED indicating circuit 60 includes three LED controlled ends and circuit theory phase
Same gear LED indicating circuit 61, two gear LED indicating circuit 62 and three gear LED indicating circuits 63;
One gear LED indicating circuit 61, two gear LED indicating circuit 62 and the voltage input end of three gear LED indicating circuits 63
VCC_5V connects the voltage input end constituting LED indicating circuit 60 altogether, and three LED controlled ends of LED indicating circuit 60 include a gear
The LED controlled end LED_EN1 of LED indicating circuit 61, LED controlled end LED_EN2 and the three gear LED of two gear LED indicating circuits 62
The LED controlled end LED_EN3 of indicating circuit 63;
One gear LED indicating circuit 61 include audion Q3, field effect transistor Q4, resistance R13~R17, light emitting diode OD2 and
Diode D5;The base stage of audion Q3 connects altogether with one end of resistance R13 and one end of resistance R14, and the other end of resistance R13 is constituted
The LED controlled end LEN_EN1 of one gear LED indicating circuit 60, the colelctor electrode of audion Q3 and the grid of field effect transistor Q4 and resistance
One end of R15 connects altogether, and the emitter stage of audion Q3 is connected to ground, the source electrode of field effect transistor Q4 and electricity altogether with the other end of resistance R15
The other end of resistance R15 meets the voltage input end VCC_5V constituting a gear LED indicating circuit 61 altogether, and the drain electrode of field effect transistor Q4 connects electricity
One end of resistance R16, the other end of resistance R16 connects altogether with the positive pole of light emitting diode OD2 and the positive pole of diode D5, light-emitting diodes
The negative pole of pipe OD2 passes through resistance R17 ground connection, the minus earth of diode D5;
Two gear LED indicating circuits 62 include audion Q5, field effect transistor Q6, resistance R18~R22, light emitting diode OD3 and
Diode D6;The base stage of audion Q5 connects altogether with one end of resistance R18 and one end of resistance R19, and the other end of resistance R18 is constituted
The LED controlled end LEN_EN2 of two gear LED indicating circuits 62, the colelctor electrode of audion Q5 and the grid of field effect transistor Q6 and resistance
One end of R20 connects altogether, and the emitter stage of audion Q5 is connected to ground, the source electrode of field effect transistor Q6 and electricity altogether with the other end of resistance R20
The other end of resistance R20 meets the voltage input end VCC_5V constituting two gear LED indicating circuits 60 altogether, and the drain electrode of field effect transistor Q6 connects electricity
One end of resistance R21, the other end of resistance R21 connects altogether with the positive pole of light emitting diode OD3 and the positive pole of diode D6, and luminous two
The negative pole of pole pipe OD3 passes through resistance R22 ground connection, the minus earth of diode D6;
Three gear LED indicating circuits 60 include audion Q7, field effect transistor Q8, resistance R23~R27, light emitting diode OD4 and
Diode D7;The base stage of audion Q7 connects altogether with one end of resistance R23 and one end of resistance R24, and the other end of resistance R23 is constituted
The LED controlled end LED_EN3 of two gear LED indicating circuits 60, the colelctor electrode of audion Q7 and the grid of field effect transistor Q8 and resistance
One end of R25 connects altogether, and the emitter stage of audion Q7 is connected to ground, the source electrode of field effect transistor Q8 and electricity altogether with the other end of resistance R25
The other end of resistance R25 meets the voltage input end VCC_5V constituting three gear LED indicating circuits 60 altogether, and the drain electrode of field effect transistor Q8 connects electricity
One end of resistance R26, the other end of resistance R26 connects altogether with the positive pole of light emitting diode OD4 and the positive pole of diode D7, light-emitting diodes
The negative pole of pipe OD4 passes through resistance R27 ground connection, the minus earth of diode D7.
As shown in Figure 8, the electrocardio and heart rate Acquisition Circuit 70 that the present embodiment provides includes electrocardiogram acquisition chip U4, voltage stabilizing chip
U5, resistance R28~R31, TVS pipe TVS1~TVS3 and electric capacity C10~C13;
In the present embodiment, electrocardiogram acquisition chip U4 is BL1860 type electrocardiogram acquisition chip, and electrocardiogram acquisition chip U4 respectively holds
The annexation of mouth is as follows:
No. 1 pin PDN (the first timing output) and No. 2 pin FR (the second timing output) respectively constitute electrocardio and heart rate
The first timing output P3_5 and the second timing output P3_4 of Acquisition Circuit 70;
The negative pole of No. 3 pin VSS (earth terminal) and electric capacity C10 is connected to ground altogether;
The positive pole of No. 4 pin VDD (power end) and electric capacity C10 connects the power supply input constituting electrocardio and heart rate Acquisition Circuit 70 altogether
End VDD2VB;
No. 5 pin VDDA (analog power input) connect the positive pole of electric capacity C11;
The negative pole of No. 6 pin LEAD_SW (switch terminals) and electric capacity C11 is connected to ground altogether;
No. 7 pin LEADOFF (starting end) constitute the timing acquiring controlled end P1_1 of electrocardio and heart rate Acquisition Circuit 70;
One end of No. 8 pin LA (the first data acquisition end) and TVS pipe TVS1 connects composition electrocardio and heart rate Acquisition Circuit 70 altogether
First data collection terminal LA;
One end of No. 9 pin RA (the second data acquisition end) and TVS pipe TVS2 connects composition electrocardio and heart rate Acquisition Circuit 70 altogether
Second data collection terminal RA, the other end of TVS pipe TVS1 and TVS2 is connected to ground altogether;
No. 10 pin RLDFB (data feedback end) connect the negative pole of electric capacity C12;
No. 11 pin RLD (the 3rd data acquisition end) connect altogether with the positive pole of electric capacity C12 and one end of resistance R28, resistance R28
One end of the other end and TVS pipe TVS3 meet the 3rd the data collection terminal RLD, TVS constituting electrocardio and heart rate Acquisition Circuit 70 altogether
The other end ground connection of pipe TVS3;
No. 12 pin PRE (preposition amplification end) meet No. 13 pin LP (low-pass filtering end) by electric capacity C13;
One end of No. 14 pin OUT (outfan) connecting resistance R29, the other end of resistance R29 connects altogether with one end of resistance R30
In No. 3 pin+IN (positive input terminal) of voltage stabilizing chip U5, the other end ground connection of resistance R30;
In the present embodiment, voltage stabilizing chip U5 uses SOT23-5 type voltage stabilizing chip, and the annexation of its each pin is as follows:
One end of No. 1 pin OUT (outfan) and resistance R31 connects the electrocardiogram (ECG) data constituting electrocardio and heart rate Acquisition Circuit 70 altogether
Outfan P3_3;
No. 2 pin-V (negative voltage side) ground connection;
The other end of No. 4 pin-IN (negative input end) connecting resistance R31;
No. 5 pin+VS (positive voltage terminal) constitute the positive voltage terminal VDD2VB of electrocardio and heart rate Acquisition Circuit 70.
As it is shown in figure 9, in the present embodiment, Bluetooth control circuit 80 include low-power consumption Bluetooth chip U6, crystal oscillator chip U7,
Crystal oscillator X1, electric capacity C14~C33, resistance R32, inductance L2~L6 and antenna output interface CON2;
In the present embodiment, preferably less than power consumption Bluetooth chip U6 is sheng, a reed pipe wind instrument section A8105 type Bluetooth chip, and the connection of its each port is closed
It is as follows:
No. 1 pin P3_7 (the first crystal oscillator end) connects altogether with the positive pole of electric capacity C14 and one end of crystal oscillator X1, and electric capacity C14's is negative
Pole ground connection;
No. 2 pin VPP (peak electricity pressure side) ground connection;
No. 3 pin RESTE (reset terminal) connect altogether with one end of resistance R32 and the positive pole of electric capacity C15, another of resistance R32
End constitutes the reset terminal VDD2VB of Bluetooth control circuit 80;
No. 4 pin VDD_S (memorizer voltage end), No. 5 pin VDD_D (running voltage end), No. 6 pin BP_BG (trigger
Device voltage end), No. 7 pin VDD_R (depositor voltage end) and No. 8 pin VDD_A (analog voltage end) are respectively by electric capacity C16
~C20 ground connection;
No. 9 pin RFI (radio-frequency head) connect altogether with one end of inductance L2 and one end of inductance L3, another termination of inductance L3
Ground;
No. 10 pin RFO (antenna output end) connect altogether with the positive pole of electric capacity C22 and one end of inductance L4, and electric capacity C22's is negative
Pole connects altogether with the positive pole of the other end, one end of inductance L5 and the electric capacity C23 of inductance L2, the minus earth of electric capacity C23, inductance L5's
The other end connects altogether with one end of inductance L6 and the positive pole of electric capacity C24, the minus earth of electric capacity C24, the other end of inductance L6 and electricity
One end of the positive pole and antenna output interface CON2 that hold C25 connects altogether, the minus earth of electric capacity C25, antenna output interface CON2's
Other end ground connection, two ports of the interface CON2 of antenna output are also connected with antenna;
No. 11 pin VDD (power end) connect altogether with the positive pole of electric capacity C26~C28 and the other end of inductance L4, electric capacity C26~
The equal ground connection of negative pole of C28;
No. 12 pin CP (coprocessor end) are by electric capacity C29 ground connection;
No. 13 pin XI (crystal oscillator outfan) connect the input of crystal oscillator chip U7;
No. 14 pin XO (crystal oscillator input) connect the outfan of crystal oscillator chip U7, two ground connection terminations of crystal oscillator chip U7
Ground;
No. 15 pin VDD_P (program voltage end) are by electric capacity C30 ground connection;
No. 16 pin REGI (radio frequency electrical pressure side) are respectively by electric capacity C31 and C32 ground connection;
No. 17 pin P0_0 (serial clock terminal), No. 18 pin P0_1 (main frame output/from machine input) and No. 19 pins
P0_2 (main frame input/from machine outfan) respectively constitutes three LED of Bluetooth control circuit 80 and controls end LED_EN1, LED_EN2
And LED_EN3;
No. 20 pin GND (earth terminal) ground connection;
No. 21 pin P0_3 are empty;
No. 22 pin P0_4 are debugging port;
No. 23 pin P0_5, No. 24 pin P0_6, No. 25 pin P0_7 are all empty;
No. 26 pin P1_0 (the first interrupt timing end) constitute the power supply enable control end POWER_ of Bluetooth control circuit 80
EN;
No. 27 pin P1_1 (the second interrupt timing end) constitute the timing acquiring control end P1_1 of Bluetooth control circuit 80;
No. 28 pin P1_2 (interrupt signal end) constitute the button triggering end POWERKEY of Bluetooth control circuit 80;
No. 29 pin P1_3 are empty;
No. 30 pin P1_4 and No. 31 pin P1_5 are debugging port;
No. 32 pin P1_6 and No. 33 pin P1_7 are empty;
No. 34 pin P3_0 (asynchronous input terminals) constitute the battery control end P1_3 of Bluetooth control circuit 80;
No. 35 pin P3_1 (being output asynchronously end) constitute the charging control end BAT_CHRG_1 of Bluetooth control circuit 80;
No. 36 pin P3_2 are empty;
No. 37 pin P3_3 (interruption data terminal) constitute the electrocardiogram (ECG) data input P3_3 of Bluetooth control circuit 80;
No. 38 pin P3_4 (the first interrupt timing end) constitute the first timing acquiring end P3_4 of Bluetooth control circuit 80;
No. 39 pin P3_5 (the second interrupt timing end) constitute the second timing acquiring end P3_5 of Bluetooth control circuit 80;
No. 40 pin P3_6 (the second crystal oscillator end) connect altogether with the other end of crystal oscillator X1 and the positive pole of electric capacity C33, electric capacity C33's
Minus earth.
These are only preferred embodiment of the present utility model, not in order to limit this utility model, all in this practicality
Any amendment, equivalent and the improvement etc. made within novel spirit and principle, should be included in guarantor of the present utility model
Within the scope of protecting.
Claims (10)
1. an intelligent Far infrared warm-moxibustion physical therapy device, including far-infrared heating film, it is characterised in that described far-infrared heating film
For Graphene heating plate, described intelligence Far infrared warm-moxibustion physical therapy device also includes:
Usb circuit;
It is connected with described usb circuit, is connected the charging circuit of external power source by described usb circuit;
It is connected with described charging circuit, the battery circuit being charged by described charging circuit input electric energy;
It is connected with described charging circuit, described battery circuit and described far-infrared heating film respectively, by changing output voltage pair
Described far-infrared heating film carries out the booster circuit of computer heating control;
It is connected with described battery circuit, the break-make of described battery circuit is controlled and passes through described battery circuit to described liter
The voltage of volt circuit is controlled, and carries out the electric by key control of many shift controls with the heating-up temperature to described far-infrared heating film
Road;
It is connected with described booster circuit, gear and the electricity of described battery circuit to the heating-up temperature of described far-infrared heating film
Carry out the LED indicating circuit indicated;
It is connected with described usb circuit and described battery circuit respectively, is visited by the external electrocardio and heart rate of described usb circuit
Probing head is to gather the electrocardio and heart rate Acquisition Circuit of human body electrocardio heart rate data;
Respectively with described charging circuit, described battery circuit, described booster circuit, described key control circuit, described LED instruction
Circuit and described electrocardio and heart rate Acquisition Circuit connect, and each circuit carries out the Bluetooth control circuit of controlled in wireless.
2. intelligence Far infrared warm-moxibustion physical therapy device as claimed in claim 1, it is characterised in that described intelligence Far infrared warm-moxibustion reason
Treating device generally upper surface is protruding, lower surface is smooth stone shape or button shape, its cross section is circular, longitudinal section
For half elliptic, described Graphene heating plate is arranged on inside the lower surface of described intelligence Far infrared warm-moxibustion physical therapy device, described
The area of the lower surface of intelligence Far infrared warm-moxibustion physical therapy device is suitable with human acupoint area.
3. intelligence Far infrared warm-moxibustion physical therapy device as claimed in claim 1, it is characterised in that the electricity of described usb circuit
Source is just terminating the power input of described charging circuit, the power supply negative terminal ground connection of described usb circuit, described USB interface electricity
Three FPDPs on road three data collection terminals with described electrocardio and heart rate Acquisition Circuit respectively connect one to one, to need
During electrocardio and heart rate data acquisition to be carried out, connect three outside electrocardio and heart rate detection probes by described USB interface;
The power output end of described charging circuit connects the power input of described booster circuit, the battery charging of described charging circuit
Terminating the charging end of described battery circuit, the charging of the charging controlled termination described Bluetooth control circuit of described charging circuit controls
End, the charging Enable Pin of described charging circuit and the power output end of described battery circuit, the Enable Pin of described booster circuit, institute
The reset terminal of the positive voltage terminal and described Bluetooth control circuit of stating electrocardio and heart rate Acquisition Circuit is connected to described electrocardio and heart rate collection altogether
The power input of circuit;
The button described key control circuit of controlled termination of described battery circuit by key control end, the power supply of described battery circuit
The power supply enabling controlled termination described Bluetooth control circuit enables control end, the battery described indigo plant of controlled termination of described battery circuit
The battery of tooth control circuit controls end;
The external key switch of button controlled end of described key control circuit, the button of described key control circuit triggers termination institute
The button stating Bluetooth control circuit triggers end;
The voltage output end of described booster circuit connects the voltage input end of described LED indicating circuit;
The LED of the controlled termination of the LED described Bluetooth control chip of described LED indicating circuit controls end;
The electrocardiogram (ECG) data output of described electrocardio and heart rate Acquisition Circuit terminates the electrocardiogram (ECG) data input of described Bluetooth control chip, institute
The first timing output stating electrocardio and heart rate Acquisition Circuit terminates the first timing acquiring end of described Bluetooth control chip, described electrocardio
Second timing output of heart rate Acquisition Circuit terminates the second timing acquiring end of described Bluetooth control chip, and described electrocardio and heart rate is adopted
The timing acquiring of the controlled termination of the timing acquiring described Bluetooth control chip of collector controls end.
4. intelligence Far infrared warm-moxibustion physical therapy device as claimed in claim 3, it is characterised in that described charging circuit includes charging
Chip U1, resistance R1~R4, for be charged instruction light emitting diode OD1, electric capacity C1 and diode D1;
Described charging chip U1 charging controlled end and one end of resistance R1, one end of resistance R2 and the negative pole of light emitting diode OD1
Connecing altogether, the other end of resistance R1 constitutes the charging controlled end of described charging circuit, and the other end of resistance R2 constitutes described charged electrical
The charging Enable Pin on road;
The earth terminal ground connection of described charging chip U1;
The battery charging terminal that battery charging terminal is described charging circuit of described charging chip U1;
The power input of described charging chip U1 is described charging circuit power input, and the power supply of described charging chip U1 is defeated
Enter the end positive pole also with one end of described resistance R3, the positive pole of described electric capacity C1 and described diode D1 to connect altogether, described resistance R3
Another terminate the positive pole of described light emitting diode OD1, the minus earth of described electric capacity C1, the negative pole of described diode D1 is constituted
The power output end of described charging circuit;
The programming pulse input of described charging chip U1 passes through resistance R4 ground connection.
5. intelligence Far infrared warm-moxibustion physical therapy device as claimed in claim 3, it is characterised in that described battery circuit includes voltage stabilizing
Chip U2, resistance R5~R10, electric capacity C2~C4, field effect transistor Q1, audion Q2 and battery BAT;
The voltage input end of voltage stabilizing chip U2 connects altogether with the drain electrode of one end of resistance R5, the positive pole of electric capacity C2 and field effect transistor Q1,
The earth terminal ground connection of voltage stabilizing chip U2, the other end of the Enable Pin connecting resistance R5 of voltage stabilizing chip U2, the voltage of voltage stabilizing chip U2 is defeated
Go out end and the positive pole of electric capacity C3 and connect the power output end constituting described battery circuit altogether, the minus earth of electric capacity C2, electric capacity C3's
Minus earth;
The colelctor electrode of the grid of field effect transistor Q1 and audion Q2 and one end of resistance R6 connect altogether constitute described battery circuit by
Key controlled end, the source electrode of field effect transistor Q1 and the other end of resistance R6, one end of resistance R7, the positive pole of battery BAT and electric capacity C4
Positive pole connect the charging end constituting described battery circuit, the minus earth of electric capacity C4, the minus earth of battery BAT altogether;
The base stage of audion Q2 connects altogether with one end of resistance R8 and one end of resistance R9, and the other end of resistance R8 constitutes described battery
The power supply of circuit enables controlled end, and the emitter stage of audion Q2 connects altogether with the other end and the ground of resistance R9;
The other end of resistance R7 connects, with one end of resistance R10, the battery controlled end constituting described battery circuit altogether, and resistance R10's is another
One end ground connection.
6. intelligence Far infrared warm-moxibustion physical therapy device as claimed in claim 3, it is characterised in that described key control circuit includes
By diode D2, diode D3 and the two needle interface CON1 being used for external key switch;
The positive pole of diode D2 constitutes the button of described key control circuit and triggers end, the negative pole of diode D2 and diode D3
Negative pole and one end of described two needle interface CON1 connect altogether, the other end ground connection of two needle interface CON1;
The positive pole of diode D3 constitute described key control circuit by key control end.
7. intelligence Far infrared warm-moxibustion physical therapy device as claimed in claim 3, it is characterised in that described booster circuit includes boosting
Chip U3, inductance L1, diode D4, resistance R11~R12 and electric capacity C5~C9;
The switch control terminal of boost chip U3 connects altogether with one end, the positive pole of diode D4 of inductance L1;
The earth terminal ground connection of boost chip U3;
The dividing potential drop modulated terminal of boost chip U3 connects altogether with the positive pole of one end of resistance R11, one end of resistance R12 and electric capacity C5, electricity
The other end ground connection of resistance R12;
The Enable Pin of boost chip U3 constitutes the Enable Pin of described booster circuit;
The overvoltage protection end of boost chip U3 and the negative pole of diode D4, the other end of resistance R11, the negative pole of electric capacity C5, electric capacity
The positive pole of C6 and the positive pole of electric capacity C7 connect the power output end constituting described booster circuit altogether, the negative pole of electric capacity C6 and electric capacity C7's
Minus earth;
The power input of boost chip U3 connects composition altogether with the positive pole of the other end of inductance L1, the positive pole of electric capacity C8 and electric capacity C9
The power input of described booster circuit, the negative pole of electric capacity C8 and the minus earth of electric capacity C9.
8. intelligence Far infrared warm-moxibustion physical therapy device as claimed in claim 3, it is characterised in that described LED indicating circuit can be right
The heating-up temperature of described far-infrared heating film and the electricity of described battery circuit carry out three gear instructions, correspondence, and described LED indicates
Circuit includes three LED controlled ends and circuit theory mutually same gear LED indicating circuit, two gear LED indicating circuits and three gear LED
Indicating circuit;
The voltage input end of a described gear LED indicating circuit, two gear LED indicating circuits and three gear LED indicating circuits connects composition altogether
The voltage input end of described LED indicating circuit, three LED controlled ends of described LED indicating circuit include a described gear LED instruction
The LED of the LED controlled end of circuit, the LED controlled end of described two gear LED indicating circuits and described three gear LED indicating circuits is controlled
End;
A described gear LED indicating circuit includes audion Q3, field effect transistor Q4, resistance R13~R17, light emitting diode OD2 and two
Pole pipe D5;The base stage of audion Q3 connects altogether with one end of resistance R13 and one end of resistance R14, and the other end of resistance R13 is constituted
The LED controlled end of a described gear LED indicating circuit, the colelctor electrode of audion Q3 and the grid of field effect transistor Q4 and resistance R15's
One end connects altogether, and the emitter stage of audion Q3 is connected to ground, the source electrode of field effect transistor Q4 and resistance R15 altogether with the other end of resistance R15
The other end altogether connect constitute described one gear LED indicating circuit voltage input end, the one of the drain electrode connecting resistance R16 of field effect transistor Q4
End, the other end of resistance R16 connects altogether with the positive pole of light emitting diode OD2 and the positive pole of diode D5, and light emitting diode OD2's is negative
Resistance R17 ground connection, the minus earth of diode D5 are passed through in pole;
Described two gear LED indicating circuits include audion Q5, field effect transistor Q6, resistance R18~R22, light emitting diode OD3 and two
Pole pipe D6;The base stage of audion Q5 connects altogether with one end of resistance R18 and one end of resistance R19, and the other end of resistance R18 constitutes institute
State the LED controlled end of two gear LED indicating circuits, the colelctor electrode of audion Q5 and the grid of field effect transistor Q6 and the one of resistance R20
End connects altogether, and the emitter stage of audion Q5 is connected to ground altogether with the other end of resistance R20, and the source electrode of field effect transistor Q6 is with resistance R20's
The other end meets the voltage input end constituting described two gear LED indicating circuits, the one of the drain electrode connecting resistance R21 of field effect transistor Q6 altogether
End, the other end of resistance R21 connects altogether with the positive pole of light emitting diode OD3 and the positive pole of diode D6, and light emitting diode OD3's is negative
Resistance R22 ground connection, the minus earth of diode D6 are passed through in pole;
Described three gear LED indicating circuits include audion Q7, field effect transistor Q8, resistance R23~R27, light emitting diode OD4 and two
Pole pipe D7;The base stage of audion Q7 connects altogether with one end of resistance R23 and one end of resistance R24, and the other end of resistance R23 constitutes institute
State the LED controlled end of two gear LED indicating circuits, the colelctor electrode of audion Q7 and the grid of field effect transistor Q8 and the one of resistance R25
End connects altogether, and the emitter stage of audion Q7 is connected to ground altogether with the other end of resistance R25, and the source electrode of field effect transistor Q8 is with resistance R25's
The other end meets the voltage input end constituting described three gear LED indicating circuits, the one of the drain electrode connecting resistance R26 of field effect transistor Q8 altogether
End, the other end of resistance R26 connects altogether with the positive pole of light emitting diode OD4 and the positive pole of diode D7, and light emitting diode OD4's is negative
Resistance R27 ground connection, the minus earth of diode D7 are passed through in pole.
9. intelligence Far infrared warm-moxibustion physical therapy device as claimed in claim 3, it is characterised in that described electrocardio and heart rate Acquisition Circuit
Including electrocardiogram acquisition chip U4, voltage stabilizing chip U5, resistance R28~R31, TVS pipe TVS1~TVS3 and electric capacity C10~C13;
First timing output of electrocardiogram acquisition chip U4 and the second timing output respectively constitute described electrocardio and heart rate and gather electricity
First timing output on road and the second timing output;
The earth terminal of electrocardiogram acquisition chip U4 and the negative pole of electric capacity C10 are connected to ground altogether;
The power end of electrocardiogram acquisition chip U4 connects altogether with the positive pole of electric capacity C10 that to constitute the power supply of described electrocardio and heart rate Acquisition Circuit defeated
Enter end;
The positive pole of analog power input termination capacitor C11 of electrocardiogram acquisition chip U4;
The switch terminals of electrocardiogram acquisition chip U4 and the negative pole of electric capacity C11 are connected to ground altogether;
The starting end of electrocardiogram acquisition chip U4 constitutes the timing acquiring controlled end of described electrocardio and heart rate Acquisition Circuit;
The first data acquisition end of electrocardiogram acquisition chip U4 connects the described electrocardio and heart rate of composition altogether and gathers electricity with one end of TVS pipe TVS1
First data collection terminal on road;
The second data acquisition end of electrocardiogram acquisition chip U4 connects the described electrocardio and heart rate of composition altogether and gathers electricity with one end of TVS pipe TVS2
Second data collection terminal on road, the other end of TVS pipe TVS1 and TVS2 is connected to ground altogether;
The negative pole of data feedback termination capacitor C12 of electrocardiogram acquisition chip U4;
The 3rd data acquisition end of electrocardiogram acquisition chip U4 connects altogether with the positive pole of electric capacity C12 and one end of resistance R28, resistance R28
One end of the other end and TVS pipe TVS3 connect the 3rd the data collection terminal constituting electrocardio and heart rate Acquisition Circuit, TVS pipe TVS3 altogether
Other end ground connection;
The preposition amplification end of electrocardiogram acquisition chip U4 connects low-pass filtering end by electric capacity C13;
One end of the outfan connecting resistance R29 of electrocardiogram acquisition chip U4, the other end of resistance R29 connects altogether with one end of resistance R30
In the positive input terminal of voltage stabilizing chip U5, the other end ground connection of resistance R30;
The outfan of voltage stabilizing chip U5 connects altogether with one end of resistance R31 that to constitute the electrocardiogram (ECG) data of described electrocardio and heart rate Acquisition Circuit defeated
Go out end, the negative voltage side ground connection of voltage stabilizing chip U5, the other end of the negative input end connecting resistance R31 of voltage stabilizing chip U5, voltage stabilizing chip
The positive voltage terminal of U5 constitutes the positive voltage terminal of described electrocardio and heart rate Acquisition Circuit.
10. intelligence Far infrared warm-moxibustion physical therapy device as claimed in claim 3, it is characterised in that described Bluetooth control circuit bag
Include low-power consumption Bluetooth chip U6, crystal oscillator chip U7, crystal oscillator X1, electric capacity C14~C33, resistance R32, inductance L2~L6 and antenna defeated
Outgoing interface CON2;
The annexation of each port of low-power consumption Bluetooth chip U6 is as follows:
First crystal oscillator end connects altogether with the positive pole of electric capacity C14 and one end of crystal oscillator X1, the minus earth of electric capacity C14;
Reset terminal connects altogether with one end of resistance R32 and the positive pole of electric capacity C15, and the other end of resistance R32 constitutes described Bluetooth control
The reset terminal of circuit;
Memorizer voltage end, running voltage end, trigger voltage end, depositor voltage end and analog voltage end pass through electric capacity respectively
C16~C20 ground connection;
Radio-frequency head connects altogether with one end of inductance L2 and one end of inductance L3, the other end ground connection of inductance L3;
Antenna output end connects altogether with the positive pole of electric capacity C22 and one end of inductance L4, another of the negative pole of electric capacity C22 and inductance L2
The positive pole of end, one end of inductance L5 and electric capacity C23 connects altogether, the minus earth of electric capacity C23, and the other end of inductance L5 is with inductance L6's
The positive pole of one end and electric capacity C24 connects altogether, the minus earth of electric capacity C24, the other end of inductance L6 and the positive pole of electric capacity C25 and antenna
One end of output interface CON2 connects altogether, the minus earth of electric capacity C25, the other end ground connection of antenna output interface CON2, described sky
Two ports of the interface CON2 of line output are also connected with antenna;
Power end connects altogether with the positive pole of electric capacity C26~C28 and the other end of inductance L4, the equal ground connection of negative pole of electric capacity C26~C28;
Coprocessor end passes through electric capacity C29 ground connection;
The input of crystal oscillator output termination crystal oscillator chip U7;
The outfan of crystal oscillator input termination crystal oscillator chip U7, two earth terminal ground connection of crystal oscillator chip U7;
Program voltage end passes through electric capacity C30 ground connection;
Radio frequency electrical pressure side is respectively by electric capacity C31 and C32 ground connection;
The output of serial clock terminal, main frame/from machine input and main frame input/respectively constitute described Bluetooth control electricity from machine outfan
Three LED on road control end;
First interrupt timing end constitutes the power supply of described Bluetooth control circuit and enables control end;
Second interrupt timing end constitutes the timing acquiring of described Bluetooth control circuit and controls end;
Interrupt signal end constitutes the button of described Bluetooth control circuit and triggers end;
Asynchronous input terminals constitutes the battery of described Bluetooth control circuit and controls end;
It is output asynchronously end and constitutes the charging control end of described Bluetooth control circuit;
Interrupt data terminal and constitute the electrocardiogram (ECG) data input of described Bluetooth control circuit;
First interrupt timing end constitutes the first timing acquiring end of described Bluetooth control circuit;
Second interrupt timing end constitutes the second timing acquiring end of described Bluetooth control circuit;
Second crystal oscillator end connects altogether with the other end of crystal oscillator X1 and the positive pole of electric capacity C33, the minus earth of electric capacity C33.
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