CN100581616C - Electromagnetic wave therapeutic equipment - Google Patents

Abstract

The invention relates to a electromagnetic wave therapeutic equipment, comprising head cap and controllable device. Said head cap includes cap body, magnetic chip, heating disk, temperature sensor; and said controllable device comprises outer shell, board and control circuit board. It is characterized in that: said control circuit board comprises MCU main control circuit, power input circuit, keyboard input circuit, electric pin instruction circuit, temperature indication circuit, temperature control circuit, time show circuit, high pressure production circuit and electric pin output circuit; said MCU main control circuit receives temperature signal from temperature sensor in the head cap and control signal from keyboard input circuit, sends out control signal to electric pin indication circuit, temperature indication circuit, temperature control circuit, time show circuit, high pressure production circuit and electric pin output circuit. The invention is characterized by simple circuit, low cost, more reliable and accurate control because of the application of single chip microcomputer and improved therapeutic effect because of application of electric pin.

Description

Electromagnetic wave curing instrument

Technical field

The present invention relates to armarium, be specifically related to electromagnetic wave curing instrument.

Background technology

Existing electromagnetic wave curing instrument designs not enough hommization, operation control function singleness, and not directly perceived, user's option is less; Product structure design is unreasonable, and transformator, switchboard and housing connect as one, give the user use, carry and bring inconvenience.In the process of actual therapeutic, fail auxiliary treatment means such as acupoint stimulation are incorporated wherein, the user adopts means such as acupuncture to strengthen stimulation to the acupuncture point in order to promote, consolidate curative effect, this supplementary means operability is not strong, must be undertaken by specialist, and the thorn of acupuncture needle joins and brings misery to the patient, and the patient has the danger of infecting infectious disease in the not good environment of sanitary condition simultaneously.

Summary of the invention

At the defective that above-mentioned prior art exists, it is a kind of by monolithic processor controlled electromagnetic wave curing instrument that technical problem to be solved by this invention is to provide.

In order to solve the problems of the technologies described above, according to a technical scheme of the present invention, a kind of electromagnetic wave curing instrument is made of head cap, controller, described head cap comprises medicated cap body, magnetic chip, heat-generating disc, temperature sensor, and described controller is made of shell, panel, control circuit board;

Described control circuit board is made of MCU governor circuit, power supply input circuit, keyboard input circuit, acusector indicating circuit, temperature indicator circuit, temperature-control circuit, display circuit, high-pressure generating circuit, acusector output circuit;

Described MCU governor circuit receives the temperature signal of the temperature sensor output that is installed on the head cap and the control signal of keyboard input circuit output, exports control signal respectively and gives acusector indicating circuit, temperature indicator circuit, temperature-control circuit, display circuit, high-pressure generating circuit and acusector output circuit;

Described acusector indicating circuit receives the control signal of MCU governor circuit output, and the power of acusector signal is shown;

Described temperature-control circuit receives the temperature control signals of MCU governor circuit output, and described temperature-control circuit output signal control is installed in the heat-generating disc work on the head cap;

The data input pin of described display circuit receives the segment encode data of MCU governor circuit output and these data is shown with LED;

The control signal that described high-pressure generating circuit receives the output of MCU governor circuit produces high-voltage signal;

Described acusector output circuit receives the high-voltage signal of described high-pressure generating circuit output and the control signal of MCU governor circuit output, and moment outputs signal to the electric shock sheet;

The time that is equipped with on the described panel is provided with button, temperature control button, acusector gear selecting button, acusector strength-enhanced button, acusector strength reduction button, the strong and weak display lamp of acusector, temperature gear display lamp HIGH, temperature gear display lamp MDL, temperature gear display lamp LOW, charactron, and be electrically connected with control circuit board, the sheet that shocked by electricity in the outside simultaneously is electrically connected with control circuit board by jack, and the heat-generating disc on the head cap, temperature sensor are electrically connected with control circuit board by jack.

Another preferred version according to electromagnetic wave curing instrument of the present invention, described MCU governor circuit comprises single-chip microcomputer, described single-chip microcomputer is the single-chip microcomputer with real-time clock/register and memorizer, data input pin P55, P54, P62, P63, effective when P64 is low level in single-chip microcomputer IC1 connect the keyboard input circuit; The 3rd, 4 feet of single-chip microcomputer IC1 connect power supply; Data output end P50, P56, P57 are mounted on temperature gear display lamp HIGH, temperature gear display lamp MDL, the temperature gear display lamp LOW on the panel respectively among the single-chip microcomputer IC1, data output end P51 connects high-pressure generating circuit among the single-chip microcomputer IC1, and single-chip microcomputer IC1 adopts interrupt mode control high-pressure generating circuit to produce high-voltage signal; The control input end P52 of single-chip microcomputer IC1 connects the data output pin of temperature sensor; The outfan P53 of single-chip microcomputer IC1 connects the acusector indicating circuit, outfan P60 connects temperature-control circuit among the single-chip microcomputer IC1, clock OSC1 end is connected crystal oscillating circuit with the OSC2 end among the single-chip microcomputer IC1, reset terminal MCLR end connects reset circuit among the single-chip microcomputer IC1, outfan P77 connects the control end of acusector output circuit among the single-chip microcomputer IC1, data output end P70 holds to P76 end and P66, P67 end connection display circuit among the single-chip microcomputer IC1, and outfan P65 connects buzzer SP among the single-chip microcomputer IC1.

Another preferred version according to electromagnetic wave curing instrument of the present invention, described keyboard input circuit is provided with button by the time, temperature control button, acusector gear selecting button, acusector strength-enhanced button, acusector strength reduction button and input resistance R15, R14, R18, R17, R16 constitutes, the described time is provided with button, temperature control, acusector gear selecting button, acusector strength-enhanced button, one end ground connection of acusector strength reduction button, the other end respectively with input resistance R15, R14, R18, R17, R16 is connected in series, and the described time is provided with the connected node of button and input resistance R15, the connected node of described temperature control button and input resistance R14, the connected node of described acusector gear selecting button and input resistance R18, the connected node of described acusector strength-enhanced button and input resistance R17, the connected node of described acusector strength reduction button and input resistance R16 respectively with the input port P54 of single-chip microcomputer IC1, P55, P62, P63, P64 connects, described input resistance R15, R14, R18, R17, another termination dc source voltage of R16.

Another preferred version according to electromagnetic wave curing instrument of the present invention, described temperature-control circuit is made of diode D12, resistance R 5, R6, controllable silicon SCR 1, the anode of described diode D12 connects the P60 end of single-chip microcomputer IC1, the negative electrode of diode D12 connects the control utmost point of controllable silicon SCR 1 by resistance R 5, the control utmost point of controllable silicon SCR 1 is by resistance R 6 ground connection simultaneously, the anode of controllable silicon SCR 1 connects the power supply positive voltage, and the negative electrode of controllable silicon SCR 1 connects heat-generating disc.

Another preferred version according to electromagnetic wave curing instrument of the present invention, described display circuit is made of charactron LED3, the data input pin of described charactron LED3 is held to P76 end and P66, P67 end with wherein 9 delivery outlet P70 of single-chip microcomputer IC1 respectively and is linked to each other, receives the segment encode data of single-chip microcomputer IC1 output and segment encode data that single-chip microcomputer IC1 is exported show with LED.

The beneficial effect of electromagnetic wave curing instrument of the present invention is that set medication, magnetic therapy, specific electromagnetic wave, far infrared, energy waves five are imitated unification and acted on human body head and local affected part, high energy magnetic field can vessel softening, blood fat reducing, anti-inflammatory analgetic, trace element balance in the trace element ion flow control agent, energy waves is got through meridians, is activated brain cell, improve blood circulation, various head diseases, cardiovascular and cerebrovascular disease there are obvious curative effects, arthritis, diabetes, coronary heart disease are also had auxiliary curative effect; Owing to adopt Single-chip Controlling, make circuit simpler, cost is low, control more reliable, more accurate, button is set on controller panel if having time, temperature control button, acusector gear selecting button, acusector strength-enhanced button, acusector strength reduction button and display lamp, and data show, user is come into plain view, select to configure the treatment procedure that needs by button, adopt the acusector technology to stimulate relevant acupuncture point that therapeutic effect is further promoted, carry out auxiliary treatment by the acusector technology, further promote the therapeutic effect of product, acusector can be effective, the relevant acupuncture point of the stimulation of safety, product structure design is reasonable simultaneously, be easy to carry, easy to use.

Description of drawings

Fig. 1 is the theory diagram of electromagnetic wave curing instrument of the present invention.

Fig. 2 is the panel construction sketch map of electromagnetic wave curing instrument of the present invention.

Fig. 3 is the schematic diagram of electromagnetic wave curing instrument of the present invention.

Fig. 4 is the program flow chart of single-chip computer control system in the electromagnetic wave curing instrument of the present invention.

The specific embodiment

Below in conjunction with accompanying drawing the present invention is elaborated.

Referring to Fig. 1, a kind of electromagnetic wave curing instrument is made of head cap, controller, and described head cap comprises medicated cap body, magnetic chip, heat-generating disc 1, temperature sensor 3, and described controller is made of shell, panel 2, control circuit board 13; Described control circuit board 13 is made of MCU governor circuit 4, power supply input circuit 5, keyboard input circuit 6, acusector indicating circuit 7, temperature indicator circuit 8, temperature-control circuit 9, display circuit 10, high-pressure generating circuit 11, acusector output circuit 12; Wherein, power supply input circuit 5 provides DC voltage for each circuit unit, the input of described MCU governor circuit 4 connects the data input pin of temperature sensor 3 and the outfan of keyboard input circuit 6 respectively, reception is installed in the temperature signal of temperature sensor 3 outputs on the head cap and the control signal of keyboard input circuit 6 outputs, the outfan of MCU governor circuit 4 connects acusector indicating circuit 7 respectively, temperature indicator circuit 8, temperature-control circuit 9, display circuit 10, the control end of the input of high-pressure generating circuit 11 and acusector output circuit 12, MCU governor circuit 4 are exported control signal respectively and are given acusector indicating circuit 7, temperature indicator circuit 8, temperature-control circuit 9, display circuit 10, high-pressure generating circuit 11 and MCU governor circuit 4; Described acusector indicating circuit 7 receives the control signal of MCU governor circuits 4 outputs, and the power of acusector signal is shown; Described temperature-control circuit 9 receives the temperature control signals of MCU governor circuit 4 outputs, and output signal control is installed in heat-generating disc 1 work on the head cap; The data input pin of described display circuit 10 receives the segment encode data of MCU governor circuit 4 outputs and these data is shown with LED, the control signal that described high-pressure generating circuit 11 receives 4 outputs of MCU governor circuit produces high-voltage signal, described acusector output circuit 12 receives the high-voltage signal of described high-pressure generating circuit 11 outputs and the control signal of MCU governor circuit 4 outputs, and moment outputs signal to electric shock sheet 14.

Fig. 2 is the panel construction sketch map of electromagnetic wave curing instrument of the present invention, referring to Fig. 2, button S1 will be set the time, temperature control button S2, acusector gear selecting button S3, acusector strength-enhanced button S4, acusector strength reduction button S5, the strong and weak indication of acusector LED 2, charactron LED3, temperature gear display lamp MDL, HIGH, LOW, power supply indicator 15 is installed on the panel 2, and be electrically connected with control circuit board 13, the sheet 14 that shocked by electricity in the outside simultaneously is electrically connected the heat-generating disc 1 on the head cap with control circuit board 13 by jack, temperature sensor 3 is electrically connected with control circuit board 13 by jack.

Fig. 3 has provided concrete a kind of circuit structure of electromagnetic wave curing instrument of the present invention, in Fig. 3, MCU governor circuit 4 is made up of single-chip microcomputer IC1 and its peripheral circuit, single-chip microcomputer IC1 selects the single-chip microcomputer with real-time clock/register and memorizer for use, as EM78P series, PIC16 series, AT89 series, LG97 series, specifically can select EM78P447, peripheral circuit is by resistance R 3, R4, capacitor C 3, C4, C5, C6, and diode D11, crystal oscillator QZ constitute; Data input pin P55, P54, P62, P63, effective when P64 is low level in single-chip microcomputer IC1 connect keyboard input circuit 6; The 3rd, 4 feet of single-chip microcomputer IC1 connect power supply; Data output end P50, P56, P57 connect light emitting diode HIGH, MDL, LOW in the temperature indicator circuit 8 among the single-chip microcomputer IC1, data output end P51 connects an end of resistance R 10 in the high-pressure generating circuit 11 among the single-chip microcomputer IC1, and single-chip microcomputer IC1 adopts interrupt mode control high-pressure generating circuit to produce high-voltage signal; The control input end P52 of single-chip microcomputer IC1 connects the data output pin of temperature sensor 3 by jack RL; The outfan P53 of single-chip microcomputer IC1 connects the resistance R 2 in the acusector indicating circuit 7, outfan P60 connects the anode of the diode D12 in the temperature-control circuit 9 among the single-chip microcomputer IC1, clock OSC1 end is connected crystal oscillating circuit with the OSC2 end among the single-chip microcomputer IC1, reset terminal MCLR end connects reset circuit among the single-chip microcomputer IC1, outfan P77 connects the control end resistance R 1 of acusector output circuit 12 among the single-chip microcomputer IC1, data output end P70 holds to P76 end and P66 among the single-chip microcomputer IC1, the P67 end connects the charactron LED3 in the display circuit 10, outfan P65 connects buzzer SP among the single-chip microcomputer IC1, the program shown in Figure 4 of packing in single-chip microcomputer EM78P447 simultaneously.

Referring to Fig. 2 and Fig. 3, described keyboard input circuit 6 is provided with button S1 by the time, temperature control button S2, acusector gear selecting button S3, acusector strength-enhanced button S4, acusector strength reduction button S5 and input resistance R15, R14, R18, R17, R16 constitutes, the described time is provided with button S1, temperature control S2, acusector gear selecting button S3, acusector strength-enhanced button S4, the end ground connection of acusector strength reduction button S5, the other end respectively with input resistance R15, R14, R18, R17, R16 is connected in series, and the described time is provided with the connected node of button S1 and input resistance R15, the connected node of described temperature control button S2 and input resistance R14, the connected node of described acusector gear selecting button S 3 and input resistance R18, the connected node of described acusector strength-enhanced button S4 and input resistance R17, the connected node of described acusector strength reduction button S5 and input resistance R16 respectively with the input port P54 of single-chip microcomputer IC1, P55, P62, P63, P64 connects, described input resistance R15, R14, R18, R17, another termination dc source voltage of R16.

Described temperature-control circuit 9 is made of diode D12, resistance R 5, R6, controllable silicon SCR 1, the anode of described diode D12 connects the P60 end of single-chip microcomputer IC1, the negative electrode of diode D12 connects the control utmost point of controllable silicon SCR 1 by resistance R 5, the control utmost point of controllable silicon SCR 1 is by resistance R 6 ground connection simultaneously, the anode of controllable silicon SCR 1 connects the power supply positive voltage, and the negative electrode of controllable silicon SCR 1 connects heat-generating disc 1.

Described display circuit 10 is made of charactron LED3, the data input pin of described charactron LED3 is held to P76 end and P66, P67 end with wherein 9 delivery outlet P70 of single-chip microcomputer IC1 respectively and is linked to each other, receives the segment encode data of single-chip microcomputer IC1 output and segment encode data that single-chip microcomputer IC1 is exported show with LED.

Temperature indicator circuit 8 is made up of temperature gear display lamp HIGH, MDL, LOW and resistance R 30; Wherein temperature gear display lamp can adopt light emitting diode, the negative electrode of light emitting diode HIGH, MDL, LOW connects P50, P56 among the single-chip microcomputer IC1, P57 end respectively, the anode utmost point of light emitting diode HIGH, MDL, LOW connects an end of resistance R 30 simultaneously, and the other end of resistance R 30 connects the power supply positive voltage.

Described high-pressure generating circuit 11 is made up of resistance R 8, R9, R10, inductance I1, electric capacity E3, E4, diode D10, audion N3, described resistance R 9, inductance I1, diode D10 are connected in series, one termination dc source voltage of resistance R 9, the negative electrode of described diode D10 connects the anode of electric capacity E4, the negativing ending grounding of electric capacity E4, the base stage of described audion N3 controls high-pressure generating circuit with the interrupt mode of single-chip microcomputer and produces high-voltage signal by the interrupt signal outfan P51 of resistance R 10 connection single-chip microcomputer IC1; The grounded emitter of described audion N3, the colelctor electrode of audion N3 connects the contact that is connected of inductance I1 and diode D10, single-chip microcomputer IC1 exports square-wave signal on resistance R 10, constantly open and close audion N3, constantly to inductance I1 storage power, the energy of inductance I1 stores electric capacity E4 into by diode D10, reaches the high pressure about 140V on electric capacity E4.

Described acusector output circuit 12 is by resistance R 12, R13, R1, R7, audion P1, N4 forms, one end of described resistance R 12 connects the anode of the electric capacity E4 in the high-pressure generating circuit 11, the emitter stage of another termination audion P1 of resistance R 12, one end of described resistance R 1 connects the P77 end of single-chip microcomputer IC1, the other end of resistance R 1 connects the base stage of audion N4, the grounded emitter of audion N4, the colelctor electrode of audion N4 connects the base stage of audion P1 by resistance R 7, the base stage of audion P1 connects the emitter stage of audion P1 by resistance R 13 simultaneously, the colelctor electrode of the colelctor electrode of audion P1 and audion N4 is the acusector signal output part, be connected with outside electric shock sheet 14 by jack, to shock by electricity sheet 14 cards in the health acupuncture point, carry out auxiliary treatment by the acusector technology, further promote the therapeutic effect of product, acusector can be effective, the relevant acupuncture point of the stimulation of safety avoids the patient to select the corresponding drawback of acupuncture and moxibustion therapy.

Described acusector indicating circuit 7 is composed in series by resistance R 2 and LED 2, the wherein minus earth of LED 2, and an end of resistance R 2 connects P53 end among the single-chip microcomputer IC1.

Described power supply input circuit 5 adopts 220V to exchange after the transformator blood pressure lowering, is the 12V DC voltage through diode D1～D4 rectification, through three terminal regulator IC3 12V voltage is reduced to 5V voltage again and uses for single-chip microcomputer and other circuit units.

The operation principle of the described electromagnetic wave curing instrument of the embodiment of the invention is:

Behind the energized plug, power supply indicator 15 on the panel is lighted, when single-chip microcomputer IC1 detects acusector gear selecting button S3 when effective, single-chip microcomputer IC1 moment is opened acusector output circuit 12, opens signal and through resistance R 1 audion P1, N4 is opened, close again after exporting corresponding acusector intensity, promptly export acusector, and provide the acusector indication simultaneously, indicate LED 2 to light acusector, acusector is exported once, and the LED 2 of acusector indication is lighted once; When pressing acusector strength-enhanced button S4, acusector output is strengthened a bit, presses acusector strength reduction button S5, and acusector output weakens a bit.Set in the present embodiment, click acusector gear selecting button S3, acusector carries out 2 weeks of per second, 15 weeks, and 100 weeks, 5-50 kind Thursday formula Automatic Cycle, every kind of mode work 6 seconds stopped 1 second; Repeat again by acusector gear selecting button S3, can select above four kinds of modes to work independently respectively, after four kinds of modes have been selected, acusector key again, acusector stops, and presses acusector gear selecting button S3 by circulating with upper type; After acusector work, press acusector strength-enhanced button S4, acusector output is strengthened a bit, repeats by acusector strength-enhanced button S4 15 times, and acusector output is the strongest, press acusector strength reduction button S5, acusector output weakens a bit, repeats by acusector strength reduction button S5 key 15 times, and acusector is output as 0 state, each acusector starts, all since 0.

When single-chip microcomputer detects temperature control button S2 when effective, the P60 end output control signal of single-chip microcomputer IC1 triggers controllable silicon SCR 1 conducting through diode D12 and resistance R 5, and supply voltage is through 1 power supply of 1 pair of heat-generating disc of controllable silicon SCR; The P60 end output control signal that stops adstante febre single-chip microcomputer IC1 when needs is closed controllable silicon SCR 1, and power supply stops the power supply of heating head; In to the heat-generating disc power supply, the P50 of single-chip microcomputer IC1, P56, P57 end output temperature index signal indicate light emitting diode HIGH, MDL, LOW to light temperature, when the light emitting diode that stops to the simultaneous temperature of heat-generating disc power supply is indicated extinguishes.Described light emitting diode HIGH, MDL, LOW are exactly the high, medium and low display lamp on the panel shown in Figure 2; High, medium and low temperature is to realize control in real time by the temperature on the real-time detected temperatures pick off 3, be to set four temperature shelves in the single-chip microcomputer internal processes shown in Figure 4 in the present embodiment, it is 57 degree that the high temperature shelves are set, middle temperature shelves are 52 degree, and the low temperature shelves are 47 degree, neutral gear (being that heat-generating disc stops to heat), when the user controls button S2 by temperature, can select any a grade in above four shelves, when the user selected the high temperature shelves, light emitting diode HIGH was bright; During the temperature shelves, light emitting diode MDL is bright in the user selects; When the user selected the low temperature shelves, light emitting diode LOW was bright; When the user selected neutral gear, three light emitting diodes did not all work.

Program setting in the present embodiment, display circuit adopt dynamic scan mode scanning digital pipe, scan period 10mS, and behind the energized plug, charactron shows " 00 " printed words; In the program that single-chip microcomputer IC1 packs into, be provided with bay when a plurality of, it is 30 minutes, 45 minutes, 60 minutes, when button S1 being set selecting above three in the bay any one grade by the time, the time of pressing is provided with button S1, charactron LED3 shows 5 seconds of " 30 " printed words, represent regularly 30 minutes, begin simultaneously to clocking; By the time button S1 is set again in 5 seconds that show " 30 " printed words, charactron LED3 shows " 45 ", again by being " 60 ", get back to " 00 " by charactron LED3 again, cut the end power supply simultaneously, so circulation, 4, after 5 seconds, charactron LED3 shows the actual temperature of current heat-generating disc; After button S1 being set, being defaulted as high temperature 57 degree, and being in the condition of high temperature by the time; Click temperature control button S2, warm 52 degree states in entering; Click temperature control button S2 again, enter low temperature 47 degree states; Click temperature control button S2 again, temperature indicator extinguishes, and power is output as zero (temperature pass); Click temperature control button S2 again, temperature indicator Chang Liang gets back to high temperature 57 degree states again, and S2 circulates by above 5 kinds of modes by temperature control button.

Claims (5)

1, a kind of electromagnetic wave curing instrument is made of head cap, controller, and described head cap comprises medicated cap body, magnetic chip, heat-generating disc (1), temperature sensor (3), and described controller is made of shell, panel (2), control circuit board (13);

It is characterized in that: described control circuit board (13) is made of MCU governor circuit (4), power supply input circuit (5), keyboard input circuit (6), acusector indicating circuit (7), temperature indicator circuit (8), temperature-control circuit (9), display circuit (10), high-pressure generating circuit (11) and acusector output circuit (12);

Described MCU governor circuit (4) receives the temperature signal of temperature sensor (3) output that is installed on the head cap and the control signal of keyboard input circuit (6) output, exports control signal respectively and gives acusector indicating circuit (7), temperature indicator circuit (8), temperature-control circuit (9), display circuit (10), high-pressure generating circuit (11) and acusector output circuit (12);

Described acusector indicating circuit (7) receives the control signal of MCU governor circuit (4) output, and the power of acusector signal is shown;

Described temperature-control circuit (9) receives the temperature control signals of MCU governor circuit (4) output, and the control of described temperature-control circuit (9) output signal is installed in heat-generating disc (1) work on the head cap;

The data input pin of described display circuit (10) receives the segment encode data of MCU governor circuit (4) output and these data is shown with LED;

The control signal that described high-pressure generating circuit (11) receives MCU governor circuit (4) output produces high-voltage signal;

Described acusector output circuit (12) receives the high-voltage signal of described high-pressure generating circuit (11) output and the control signal of MCU governor circuit (4) output, and moment outputs signal to electric shock sheet (14);

The time that is equipped with on the described panel (2) is provided with button (S1), temperature control button (S2), acusector gear selecting button (S3), acusector strength-enhanced button (S4), acusector strength reduction button (S5), the strong and weak display lamp (LED2) of acusector, temperature gear display lamp HIGH, temperature gear display lamp MDL, temperature gear display lamp LOW, charactron (LED3), and be electrically connected with control circuit board (13), the sheet (14) that shocked by electricity in the outside simultaneously is electrically connected the heat-generating disc on the head cap (1) with control circuit board (13) by jack, temperature sensor (3) is electrically connected with control circuit board (13) by jack.

2, electromagnetic wave curing instrument according to claim 1, it is characterized in that: described MCU governor circuit (4) comprises single-chip microcomputer IC1, described single-chip microcomputer IC1 is the single-chip microcomputer with real-time clock/register and memorizer, data input pin P55, P54, P62, P63, effective when P64 is low level in single-chip microcomputer IC1 connect keyboard input circuit (6); The 3rd, 4 feet of single-chip microcomputer IC1 connect power supply; Data output end P50, P56, P57 are mounted on temperature gear display lamp HIGH, temperature gear display lamp MDL, the temperature gear display lamp LOW on the panel respectively among the single-chip microcomputer IC1, data output end P51 connects high-pressure generating circuit (11) among the single-chip microcomputer IC1, and single-chip microcomputer IC1 adopts interrupt mode control high-pressure generating circuit to produce high-voltage signal; The control input end P52 of single-chip microcomputer IC1 connects the data output pin of temperature sensor (3); The outfan P53 of single-chip microcomputer IC1 connects acusector indicating circuit (7), outfan P60 connects temperature-control circuit (9) among the single-chip microcomputer IC1, clock OSC1 end is connected crystal oscillating circuit with the OSC2 end among the single-chip microcomputer IC1, reset terminal MCLR end connects reset circuit among the single-chip microcomputer IC1, outfan P77 connects the control end of acusector output circuit (12) among the single-chip microcomputer IC1, data output end P70 holds to P76 end and P66, P67 end connection display circuit (10) among the single-chip microcomputer IC1, and outfan P65 connects buzzer SP among the single-chip microcomputer IC1.

3, electromagnetic wave curing instrument according to claim 2, it is characterized in that: described keyboard input circuit (6) is provided with button (S1) by the time, temperature control button (S2), acusector gear selecting button (S3), acusector strength-enhanced button (S4), acusector strength reduction button (S5) and input resistance R15, R14, R18, R17, R16 constitutes, the described time is provided with button (S1), temperature control button (S2), acusector gear selecting button (S3), acusector strength-enhanced button (S4), one end ground connection of acusector strength reduction button (S5), the other end respectively with input resistance R15, R14, R18, R17, R16 is connected in series, and the described time is provided with the connected node of button (S1) and input resistance R15, the connected node of described temperature control button (S2) and input resistance R14, the connected node of described acusector gear selecting button (S3) and input resistance R18, the connected node of described acusector strength-enhanced button (S4) and input resistance R17, the connected node of described acusector strength reduction button (S5) and input resistance R16 respectively with the input port P54 of single-chip microcomputer IC1, P55, P62, P63, P64 connects, described input resistance R15, R14, R18, R17, another termination dc source voltage of R16.

4, according to claim 2 or 3 described electromagnetic wave curing instruments, it is characterized in that: described temperature-control circuit (9) is made of diode D12, resistance R 5, R6, controllable silicon SCR 1, the anode of described diode D12 connects the P60 end of single-chip microcomputer IC1, the negative electrode of diode D12 connects the control utmost point of controllable silicon SCR 1 by resistance R 5, the control utmost point of controllable silicon SCR 1 is by resistance R 6 ground connection simultaneously, the anode of controllable silicon SCR 1 connects the power supply positive voltage, and the negative electrode of controllable silicon SCR 1 connects heat-generating disc (1).

5, electromagnetic wave curing instrument according to claim 4, it is characterized in that: described display circuit (10) is made of charactron (LED3), the data input pin of described charactron (LED3) is held to P76 end and P66, P67 end with wherein 9 delivery outlet P70 of single-chip microcomputer IC1 respectively and is linked to each other, receives the segment encode data of single-chip microcomputer IC1 output and segment encode data that single-chip microcomputer IC1 is exported show with LED.

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