CN203303505U

CN203303505U - Control circuit of spermatorrhea therapeutic instrument

Info

Publication number: CN203303505U
Application number: CN2013202880558U
Authority: CN
Inventors: 张愚
Original assignee: Shenzhen Shangshitang Biological Science & Technology Co Ltd
Current assignee: Shenzhen Shangshitang Biological Science & Technology Co Ltd
Priority date: 2013-05-23
Filing date: 2013-05-23
Publication date: 2013-11-27
Anticipated expiration: 2023-05-23

Abstract

The utility model discloses a control circuit of a spermatorrhea therapeutic instrument. The control circuit comprises a penis signal collection device which is used for collecting voltage analog signals indicating changes in the size of a penis, an analog-to-digital conversion module which is connected with the penis signal collection device and is used for converting the voltage analog signals to digital signals, an instruction input module which is used for inputting operational instructions, a one-chip microcomputer control module which is connected with the instruction input module and the analog-to-digital conversion module and is used for outputting electric pulse control signals in dependence on the operational instructions and the digital signals, a pulse emitting module which is connected with the one-chip microcomputer control module and is used for boosting and amplifying the electric pulse control signals, an electrode therapeutic sheet which is connected with the pulse emitting module and is used for releasing electric pulses to acupoints of a human body, and a power module which is connected with other modules and is used for providing a direct-current power supply to other modules. The control circuit can adjust sensitivity, select therapeutic output modes, correctly identify penis erection and timely carry out acupuncture or massage treatment, and has advantages of a simple circuit structure, reliable performances and convenient operations.

Description

A kind of control circuit of curing emission instrument

Technical field

This utility model relates to control circuit, relates in particular to a kind of control circuit of curing emission instrument.

Background technology

The present age is the too early contact products of teenager, sex service website a lot; Teenager cannot stand the frequent masturbation of temptation health is produced to huge injury; The prostatitis patient in China every year also sharply increases; In addition, adolescent nutrition surplus instantly, sexual precosity is comparatively general.These factors, the age of sending out the survivor of causing passing out semen is more and more less, the frequent patient of seminal emission is more and more.The man and wife that seminal emission excessively can affect the student of examination, busy working clan and step into the marriage palace.The method for the treatment of seminal emission at present is mainly the treatment by Chinese herbs method, and the problem that it exists is that treatment cycle long (more than one month), weak effect, inappropriate medication even can aggravate seminal emission.So research and develop a kind of control circuit that adopts the physical therapy mode to prevent and treat the therapeutic instrument of seminal emission, it is the current technical problem of needing solution badly.

The utility model content

This utility model is the problems referred to above that will solve prior art, proposes a kind of control circuit of curing emission instrument.

For solving the problems of the technologies described above, the technical scheme the utility model proposes is the control circuit of a kind of curing emission instrument of design, and it comprises: the penis signal pickup assembly characterizes in order to gather the voltage analog signal that penile sizes changes; Analog-to-digital conversion module, connect the penis signal pickup assembly, in order to voltage analog signal is converted to digital signal; Instruction input module, in order to the input operation instruction; Single chip control module, link order input module and analog-to-digital conversion module, according to operational order and digital signal output electric pulse control signal; Module is sent in pulse, connects single chip control module, by the amplification of boosting of described electric pulse control signal; Electrode treatment sheet, connect pulse and send module, and human acupoint is discharged to electric pulse; Power module, connect each module, in order to each module, to provide DC source.

Described penis signal pickup assembly comprises resistance strain gage, built-in first to fourth strain resistor of resistance strain gage, an end of the first strain resistor and the second strain resistor analog-to-digital conversion module that is of coupled connections again after interconnecting wherein, ground connection again after one end of the 3rd strain resistor and the 4th strain resistor interconnects, the analog-to-digital conversion module that is of coupled connections again after the other end of the first strain resistor and the 3rd strain resistor interconnects, analog-to-digital conversion module again is of coupled connections after the other end of the second strain resistor and the 4th strain resistor interconnects.

Described analog-to-digital conversion module comprises the 8th audion and modulus conversion chip, its model is HX711, its tripod connects an end of described the first strain resistor and the second strain resistor, its the 7th foot connects the other end of the second strain resistor and the 4th resistance strain gage by the 23 resistance, its octal connects the other end of the first strain resistor and the 3rd strain resistor by the 22 resistance, between its 7th foot and octal, connect the 7th electric capacity, its the 6th foot is by the 9th capacity earth, its the 4th foot connects the 26 resistance and the 27 resistance one end, its crus secunda connects the 8th transistor base by the 28 resistance, its the 12 foot is sent described digital signal, the 8th transistor collector is by the 8th capacity earth, the 8th transistor emitter connects DC source, the 26 resistance other end ground connection, the 27 another termination of resistance the 8th transistor collector.

Described instruction input module comprises the reset switch that the first resistance of being connected between single chip control module and ground and reset for the control single chip computer control module; Described instruction input module also comprises sensitivity selecting switch, this switch comprises a static contact and first, second, third moving contact, static contact ground connection, the first moving contact connects an end of the 7th resistance and the 6th resistance, the second moving contact connects an end of the 8th resistance and the 4th resistance, the 3rd moving contact connects an end of the 9th resistance and the 5th resistance, and the other end of the 7th resistance, the 8th resistance and the 9th resistance also connects 3 volts of DC sources of rear connection; The other end of described the first, the 4th, the 5th, the 6th resistance connects single chip control module in order to input described operational order; Described single chip control module comprises singlechip chip, its model is STC12LE5204AD, its first foot connects its tenth foot by the 15 resistance, between its 4th foot and the 5th foot, be connected a crystal oscillating circuit, its the 6th foot connects the described first resistance other end, its the tenth tripod receives described digital signal, its octal connects the other end of described the 6th resistance, its the 9th foot connects the other end of described the 4th resistance, its the 11 foot connects the other end of described the 5th resistance, the described electric pulse control signal of its 16,18,19 foot output.

Described pulse is sent module and is comprised the first to the 7th audion, the first audion wherein, the 4th audion and the 7th audion are the NPN audion, the second audion, the 3rd audion, the 5th audion and the 6th audion are the PNP audion, the tenth resistance and the potentiometer of connecting between 16 feet of the base stage of the first audion and described singlechip chip, the tenth resistance two ends the first electric capacity in parallel, the grounded emitter of the first audion, the colelctor electrode of the first audion connects power end by the first inductance, the colelctor electrode of the first audion connects the anode of the first diode, the first diode cathode connects the anode of the second diode, the negative electrode of the second diode connects an end of the second electric capacity the 11 resistance the 14 resistance, and the emitter stage of second audion and the 3rd audion, the other end ground connection of the second electric capacity, the other end of the 11 resistance connects an end of the 12 resistance and the colelctor electrode of the 4th audion, the other end of the 14 resistance connects an end of the 13 resistance and the colelctor electrode of the 7th audion, the base stage of another termination the second audion of the 12 resistance, the base stage of another termination the 3rd audion of the 13 resistance, the 4th transistor emitter ground connection, the colelctor electrode of the 4th audion connects 19 feet of described singlechip chip by the 17 resistance, the 7th transistor emitter ground connection, the colelctor electrode of the 7th audion connects ten octals of described singlechip chip by the 20 resistance, the colelctor electrode of the second audion connects the emitter stage of the 5th audion, an and foot of electrode treatment sheet socket, the colelctor electrode of the 3rd audion connects the emitter stage of the 6th audion, and another foot of electrode treatment sheet socket, the described electrode treatment of electrode treatment sheet socket grafting sheet, the grounded collector of the 5th audion and the 6th audion, the base stage of the 5th audion connects the colelctor electrode of the 7th audion by the 18 resistance, the base stage of the 6th audion connects the colelctor electrode of the 4th audion by the 19 resistance.

Described instruction input module also comprises pause switch, one end ground connection, and the other end connects the singlechip chip tripod by the 29 resistance.

Described instruction input module also comprises the treatment mode selection switch, it has static contact, the first moving contact and the second moving contact, treatment mode selection switch static contact connects an end of the second resistance and the 3rd resistance, described singlechip chip seven feet of another termination of the second resistance, another termination DC source of the 3rd resistance, treatment mode selection switch the first moving contact ground connection, the second moving contact connect singlechip chip the 15 foot.

Tandem the 16 resistance and light emitting diode between described singlechip chip the 17 foot and power supply.

The sensitivity of this utility model scalable, selection treatment output mode, can accurately identify erection, implements in time acupuncture or massage treatment, has advantages of that simultaneously circuit structure is simple, dependable performance, easy and simple to handle.

The accompanying drawing explanation

Below in conjunction with drawings and Examples, this utility model is described in detail, wherein:

Fig. 1 is the theory diagram of this utility model preferred embodiment;

Fig. 2 is the circuit diagram of power module in this utility model preferred embodiment;

Fig. 3 is the circuit diagram of instruction input module in this utility model preferred embodiment;

Fig. 4 is the circuit diagram of analog-to-digital conversion module in this utility model preferred embodiment;

Fig. 5 is the circuit diagram that in this utility model preferred embodiment, module is sent in single chip control module and pulse.

The specific embodiment

This utility model has disclosed a kind of control circuit of curing emission instrument, and referring to Fig. 1, it comprises: the penis signal pickup assembly characterizes in order to gather the voltage analog signal that penile sizes changes; Analog-to-digital conversion module, connect the penis signal pickup assembly, in order to voltage analog signal is converted to digital signal; Instruction input module, in order to the input operation instruction; Single chip control module, link order input module and analog-to-digital conversion module, according to operational order and digital signal output electric pulse control signal; Module is sent in pulse, connects single chip control module, by the amplification of boosting of described electric pulse control signal; Electrode treatment sheet, connect pulse and send module, and human acupoint is discharged to electric pulse; Power module, connect each module, in order to each module DC source.Referring to the circuit diagram of the power module shown in Fig. 2, power module comprises the battery (BAT) of 3 volts, and battery is after the voltage stabilizing of DC voltage-stabilizing chip, to the chip power supply in analog-to-digital conversion module and single chip control module.

In preferred embodiment, the penis signal pickup assembly comprises resistance strain gage, built-in first to fourth strain resistor of resistance strain gage.Referring to Fig. 4, the end of the first strain resistor R21 and the second strain resistor R25 analog-to-digital conversion module that is of coupled connections again after interconnecting wherein, ground connection again after the end of the 3rd strain resistor R31 and the 4th strain resistor R24 interconnects, the analog-to-digital conversion module that is of coupled connections again after the other end of the first strain resistor and the 3rd strain resistor interconnects, analog-to-digital conversion module again is of coupled connections after the other end of the second strain resistor and the 4th strain resistor interconnects.During use, the penis signal pickup assembly is enclosed within on penis, first to fourth strain resistor forms a bridge-type bleeder circuit, resistance strain gage when penis swells in compressing penis signal pickup assembly, the resistance of strain resistor changes, the voltage difference at R22 and R23 two ends changes, and after the C7 decoupling is processed, analog voltage signal is inputted to modulus conversion chip.

In preferred embodiment, analog-to-digital conversion module comprises the 8th audion Q8 and modulus conversion chip U3.In the circuit diagram shown in Fig. 4, its model of modulus conversion chip is HX711, its tripod connects the end of described the first strain resistor R21 and the second strain resistor R25, its the 7th foot connects the other end of the second strain resistor R25 and the 4th strain resistor R24 by the 23 resistance R 23, its octal connects the other end of the first strain resistor and the 3rd strain resistor R31 by the 22 resistance R 22, between its 7th foot and octal, connect the 7th capacitor C 7, its the 6th foot is by the 9th capacitor C 9 ground connection, its the 4th foot connects the 26 resistance R 26 and the 27 resistance R 27 1 ends, its crus secunda connects the 8th transistor base by the 28 resistance R 28, its the 12 foot is sent described digital signal, the 8th transistor collector is by the 8th capacitor C 8 ground connection, the 8th transistor emitter connects 3 volts of DC sources, the 26 resistance other end ground connection, the 27 resistance R 27 another termination the 8th transistor collectors.Modulus conversion chip converts the voltage difference of foot seven and foot eight to digital signal, and is read for single chip control module by the 12 pin output.

Referring to Fig. 3, in preferred embodiment, instruction input module comprises the reset switch KEY1 that the first resistance R 1 of being connected between single chip control module and ground and reset for control single chip computer.When this switch closed, the current potential of the first resistance R 1 left end was dragged down, and the single chip control module be attached thereto obtains an electronegative potential, module recovery original state; Reset switch KEY1 makes single-chip microcomputer again read the signal of input, again gets initial value.Instruction input module also comprises sensitivity selecting switch KEY2, this switch comprises a static contact and first, second, third moving contact, its static contact ground connection, its first moving contact connects an end of the 7th resistance R 7 and the 6th resistance R 6, its second moving contact connects an end of the 8th resistance R 8 and the 4th resistance R 4, the 3rd moving contact connects an end of the 9th resistance R 9 and the 5th resistance R 5, the other end of the 7th resistance, the 8th resistance and the 9th resistance and connect after be connected the 3V DC source; The other end of described the first, the 4th, the 5th, the 6th resistance connects single chip control module in order to input described operational order; Referring to Fig. 5, described single chip control module comprises singlechip chip U1, its model is STC12LE5204AD, its first foot connects its tenth foot by the 15 resistance R 15, between its 4th foot and the 5th foot, be connected a crystal oscillating circuit, its the 6th foot connects described first resistance R 1 other end, its the tenth tripod receives described digital signal, its octal connects the other end of described the 6th resistance, its the 9th foot connects the other end of described the 4th resistance, its the 11 foot connects the other end of described the 5th resistance, the described electric pulse control signal of its 16,18,19 foot output.Crystal oscillating circuit provides for singlechip chip and analog-digital chip the clock shared, and 14 feet (PD-SCK) of U1 are connected with 11 feet (PD-SCK) of U3, in order to synchronised clock.Analog-digital chip is by the 12 pin output digit signals, singlechip chip receiving digital signals.But when the sensitivity level of by-pass cock KEY2 control single chip computer to erection identification.KEY2 beats and in the time of first grade, connects U1 the 8th foot, is the muting sensitivity shelves; As by-pass cock KEY2, connect U1 the 9th foot during at second gear, be the medium sensitivity shelves; As by-pass cock KEY2, connect U1 the 11st foot during in third gear, be the high sensitivity shelves.

Circuit diagram referring to the preferred embodiment shown in Fig. 5, described pulse is sent module and is comprised the first to the 7th audion, the first audion Q1 wherein, the 4th audion Q4 and the 7th audion Q7 are the NPN audion, the second audion Q2, the 3rd audion Q3, the 5th audion Q5 and the 6th audion Q6 are the PNP audion, the tenth resistance R 10 and potentiometer VR1 connect between 16 feet of the base stage of the first audion and described singlechip chip U1, the tenth resistance two ends the first capacitor C 1 in parallel, the grounded emitter of the first audion, the colelctor electrode of the first audion connects the 3V power supply by the first inductance (L1), the colelctor electrode of the first audion connects the anode of the first diode D1, the first diode cathode connects the anode of the second diode D2, the negative electrode of the second diode connects an end of the second capacitor C 2 the 11 resistance R 11 the 14 resistance R 14, and the emitter stage of second audion and the 3rd audion, the other end ground connection of the second electric capacity, the other end of the 11 resistance connects an end of the 12 resistance R 12 and the colelctor electrode of the 4th audion, the other end of the 14 resistance connects an end of the 13 resistance R 13 and the colelctor electrode of the 7th audion, the base stage of another termination the second audion of the 12 resistance, the base stage of another termination the 3rd audion of the 13 resistance, the 4th transistor emitter ground connection, the colelctor electrode of the 4th audion connects 19 feet of described singlechip chip by the 17 resistance R 17, the 7th transistor emitter ground connection, the colelctor electrode of the 7th audion connects ten octals of described singlechip chip by the 20 resistance R 20, the colelctor electrode of the second audion connects the emitter stage of the 5th audion, an and foot of electrode treatment sheet socket, the colelctor electrode of the 3rd audion connects the emitter stage of the 6th audion, and another foot of electrode treatment sheet socket, the described electrode treatment of electrode treatment sheet socket grafting sheet, the grounded collector of the 5th audion and the 6th audion, the base stage of the 5th audion connects the colelctor electrode of the 7th audion by the 18 resistance R 18, the base stage of the 6th audion connects the colelctor electrode of the 4th audion by the 19 resistance R 19.When digital signal change (during erection), the 16 pin output high potentials of U1, the Q1 conducting, the impulse circuit that makes high-frequency triode Q2, Q3, Q5, Q6 form enters Job readiness, U1 pin one 8,19 basis sets to Q4, Q7 provide voltage signal and make its conducting simultaneously, trigger Q2, Q3, Q5, Q6 conducting, and single-chip microcomputer has unlatching, shutoff Q4 and the Q7 of frequency, controlling the frequency that impulse circuit sends pulse, electric pulse passes to electrode treatment sheet by socket and treats.It may be noted that potentiometer VR1 can control the electrotherapy intensity, the size of the voltage of rotation VR1 scalable starting impulse circuit, the output that can reach while regulating instrument electrotherapy is felt strongly.

Instruction input module also comprises pause switch KEY3, one end ground connection, and the other end connects the singlechip chip tripod by the 29 resistance.The singlechip chip tripod is the TXD mouth, and when pressing Pause key, instrument can suspend treatment 5 minutes, then can automatically recover normal operation.

Described instruction input module also comprises treatment mode selection switch SW1, it has static contact, the first moving contact and the second moving contact, treatment mode selection switch static contact connects an end of the second resistance R 2 and the 3rd resistance R 3, described singlechip chip U1 seven feet of another termination of the second resistance, another termination DC source of the 3rd resistance, treatment mode selection switch the first moving contact ground connection, the second moving contact connect singlechip chip the 15 foot.When SW1 got to first grade, static contact (1 foot) and the first moving contact (2 foot) were communicated with, and selected massage mode, singlechip chip U1 output massage frequency; When SW1 got to second gear, static contact (1 foot) and the second moving contact (3 foot) were communicated with, and selected acupuncture mode, singlechip chip U1 output acupuncture frequency.

In preferred embodiment, tandem the 16 resistance R 16 and LED 1 between singlechip chip the 17 foot and power supply.Referring to Fig. 5, when singlechip chip U1 sent the electric pulse begin treatment, U1 the 17 foot was electronegative potential, and LED 1 forward conduction is luminous, and the indication treatment starts.

Above embodiment is only for illustrating, non-providing constraints.Anyly do not break away from the application's spirit and category, and, to its equivalent modifications of carrying out or change, all should be contained among the application's claim scope.

Claims

1. the control circuit of a curing emission instrument, is characterized in that, comprising:

The penis signal pickup assembly, characterize in order to gather the voltage analog signal that penile sizes changes;

Analog-to-digital conversion module, connect the penis signal pickup assembly, in order to voltage analog signal is converted to digital signal;

Instruction input module, in order to the input operation instruction;

Single chip control module, link order input module and analog-to-digital conversion module, according to operational order and digital signal output electric pulse control signal;

Module is sent in pulse, connects single chip control module, by the amplification of boosting of described electric pulse control signal;

Electrode treatment sheet, connect pulse and send module, and human acupoint is discharged to electric pulse;

Power module, connect each module, in order to each module, to provide DC source.

2. the control circuit of curing emission instrument as claimed in claim 1, it is characterized in that: described penis signal pickup assembly comprises resistance strain gage, built-in first to fourth strain resistor of resistance strain gage, an end of the first strain resistor (R21) and the second strain resistor (R25) analog-to-digital conversion module that is of coupled connections again after interconnecting wherein, ground connection again after one end of the 3rd strain resistor (R31) and the 4th strain resistor (R24) interconnects, analog-to-digital conversion module again is of coupled connections after the other end of the first strain resistor and the 3rd strain resistor interconnects, analog-to-digital conversion module again is of coupled connections after the other end of the second strain resistor and the 4th strain resistor interconnects.

3. the control circuit of curing emission instrument as claimed in claim 2, it is characterized in that: described analog-to-digital conversion module comprises the 8th audion (Q8) and modulus conversion chip (U3), its model is HX711, its tripod connects an end of described the first strain resistor (R21) and the second strain resistor (R25), its the 7th foot connects the other end of the second strain resistor (R25) and the 4th strain resistor (R24) by the 23 resistance (R23), its octal connects the other end of the first strain resistor and the 3rd strain resistor (R31) by the 22 resistance (R22), between its 7th foot and octal, connect the 7th electric capacity (C7), its the 6th foot is by the 9th electric capacity (C9) ground connection, its the 4th foot connects the 26 resistance (R26) and the 27 resistance (R27) end, its crus secunda connects the 8th transistor base by the 28 resistance (R28), its the 12 foot is sent described digital signal, the 8th transistor collector is by the 8th electric capacity (C8) ground connection, the 8th transistor emitter connects DC source, the 26 resistance other end ground connection, the 27 another termination of resistance (R27) the 8th transistor collector.

4. the control circuit of curing emission instrument as claimed in claim 3 is characterized in that:

Described instruction input module comprises the reset switch (KEY1) that the first resistance (R1) of being connected between single chip control module and ground and reset for the control single chip computer control module; Described instruction input module also comprises sensitivity selecting switch (KEY2), this switch comprises a static contact and first, second, third moving contact, its static contact ground connection, its first moving contact connects an end of the 7th resistance (R7) and the 6th resistance (R6), its second moving contact connects an end of the 8th resistance (R8) and the 4th resistance (R4), the 3rd moving contact connects an end of the 9th resistance (R9) and the 5th resistance (R5), and the other end of the 7th resistance, the 8th resistance and the 9th resistance also connects rear connection DC source; The other end of described the first, the 4th, the 5th, the 6th resistance connects single chip control module in order to input described operational order;

Described single chip control module comprises singlechip chip (U1), its model is STC12LE5204AD, its first foot connects its tenth foot by the 15 resistance (R15), between its 4th foot and the 5th foot, be connected a crystal oscillating circuit, its the 6th foot connects described the first resistance (R1) other end, its the tenth tripod receives described digital signal, its octal connects the other end of described the 6th resistance, its the 9th foot connects the other end of described the 4th resistance, its the 11 foot connects the other end of described the 5th resistance, the described electric pulse control signal of its 16,18,19 foot output.

5. the control circuit of curing emission instrument as claimed in claim 4, it is characterized in that: described pulse is sent module and is comprised the first to the 7th audion, the first audion (Q1) wherein, the 4th audion (Q4) and the 7th audion (Q7) are the NPN audion, the second audion (Q2), the 3rd audion (Q3), the 5th audion (Q5) and the 6th audion (Q6) are the PNP audion, between 16 feet of the base stage of the first audion and described singlechip chip (U1), connect the tenth resistance (R10) and potentiometer (VR1), the tenth resistance two ends the first electric capacity (C1) in parallel, the grounded emitter of the first audion, the colelctor electrode of the first audion connects DC source by the first inductance (L1), the colelctor electrode of the first audion connects the anode of the first diode (D1), the first diode cathode connects the anode of the second diode (D2), the negative electrode of the second diode connects an end of the second electric capacity (C2) the 11 resistance (R11) the 14 resistance (R14), and the emitter stage of second audion and the 3rd audion, the other end ground connection of the second electric capacity, the other end of the 11 resistance connects an end of the 12 resistance (R12) and the colelctor electrode of the 4th audion, the other end of the 14 resistance connects an end of the 13 resistance (R13) and the colelctor electrode of the 7th audion, the base stage of another termination the second audion of the 12 resistance, the base stage of another termination the 3rd audion of the 13 resistance, the 4th transistor emitter ground connection, the colelctor electrode of the 4th audion connects 19 feet of described singlechip chip by the 17 resistance (R17), the 7th transistor emitter ground connection, the colelctor electrode of the 7th audion connects ten octals of described singlechip chip by the 20 resistance (R20), the colelctor electrode of the second audion connects the emitter stage of the 5th audion, an and foot of electrode treatment sheet socket, the colelctor electrode of the 3rd audion connects the emitter stage of the 6th audion, and another foot of electrode treatment sheet socket, the described electrode treatment of electrode treatment sheet socket grafting sheet, the grounded collector of the 5th audion and the 6th audion, the base stage of the 5th audion connects the colelctor electrode of the 7th audion by the 18 resistance (R18), the base stage of the 6th audion connects the colelctor electrode of the 4th audion by the 19 resistance (R19).

6. the control circuit of curing emission instrument as claimed in claim 5, it is characterized in that: described instruction input module also comprises pause switch (KEY3), one end ground connection, the other end connects the singlechip chip tripod by the 29 resistance (R29).

7. the control circuit of curing emission instrument as claimed in claim 6, it is characterized in that: described instruction input module also comprises treatment mode selection switch (SW1), it has static contact, the first moving contact and the second moving contact, treatment mode selection switch static contact connects an end of the second resistance (R2) and the 3rd resistance (R3), the described singlechip chip of another termination (U1) seven feet of the second resistance, another termination DC source of the 3rd resistance, treatment mode selection switch the first moving contact ground connection, the second moving contact connect singlechip chip the 15 foot.

8. the control circuit of curing emission instrument as claimed in claim 7 is characterized in that: between described singlechip chip the 17 foot and power supply, connect the 16 resistance (R16) and light emitting diode (LED1).