CN213804506U - Voice-controlled dry cleaning machine - Google Patents

Abstract

The utility model discloses a voice control dry cleaning machine, a voice control module is arranged in the dry cleaning machine, the voice control module is electrically connected with a power supply module, an air drying module, a sterilization module, an indicator light module, a voice acquisition module, a voice prompt module and a temperature rise module, the voice control module is used for controlling the whole dry cleaning machine, the power supply module is used for supplying power to the whole equipment, the air drying module is used for air drying clothes, the sterilization module is used for sterilizing the clothes, the indicator light module is used for indicating whether the dry cleaning machine is in a working state or not, the voice acquisition module is used for acquiring voice control signals of a user, the voice prompt module reminds the user through voice, the temperature rise module is matched with the air drying module to accelerate the drying of the clothes, compared with the prior art, the voice control function is achieved, the human-computer interaction mode is good in experience, low in learning cost and convenient to use.

Description

Voice-controlled dry cleaning machine

Technical Field

The utility model relates to a dry cleaning machine, in particular to a voice control dry cleaning machine.

Background

The traditional dry cleaning machine is manually controlled, the man-machine interaction experience is poor, if the use mode of the dry cleaning machine is not familiar, certain learning cost is needed, and especially for young children and the elderly.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a voice control dry cleaning machine with convenient use.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a speech control dry cleaner, this dry cleaner embeds voice control module, voice control module electric connection has power module, air-dries module, sterilization module, pilot lamp module, pronunciation collection module, voice prompt module and intensification module.

The voice control module comprises a voice control chip U7, a capacitor C4, a capacitor C20, a resistor R2, a resistor R6, a resistor R11 and a multifunctional driving chip U2, wherein the model of the voice control chip U7 is YY142, the model of the multifunctional driving chip U2 is ULN2001, the capacitor C4 and the capacitor C20 are connected in parallel to form a filter capacitor group, a pin 1 of the voice control chip U7 is divided into two paths, one path is connected with +5V direct current, the other path is connected with one end of the filter capacitor group, the other end of the filter capacitor group is grounded, a pin 2 and a pin 3 of the voice control chip U7 are grounded after being connected together, a pin 7 of the voice control chip U7 is grounded, a pin 18 of the voice control chip U7 is grounded, a pin 14 of the voice control chip U7 is connected with a pin 1 of the multifunctional driving chip U2 through the resistor R2, a pin 10 of the voice control chip U7 is connected with a pin 2 of the multifunctional driving chip U2 5 through the resistor R6, the 11 pin of the voice control chip U7 is connected with the 3 pin of the multifunctional driving chip U2 through the resistor R11, and the 4 pin of the multifunctional driving chip U2 is grounded.

The power supply module comprises a voltage transformation module and a voltage reduction module; the transformation module comprises a live wire terminal ACL, a zero line terminal N, a fuse F1, a fuse F2, a thermistor NPTC, a thermistor NTC1, a piezoresistor VR1, a capacitor CX1, a common mode inductor LF1, a rectifier bridge BD1, a capacitor EC1, a capacitor EC2, an inductor L1, an inductor L2, a resistor R10, a safety capacitor CY1, a high-voltage ceramic capacitor C1, a diode D1, a diode D2, a resistor R4, a resistor R3, a resistor R1, an electrolytic capacitor EC3A, a capacitor EC3, a singlechip U1, a resistor R5, a resistor R7, a capacitor C2, a transformer T1, a diode EC1, a resistor R1 and a diode D1, wherein the type of the transformer U1 is ATC9307 1, the type EE of the transformer T1 is a singlechip 1310, one end of the fuse F1 and one end of the fuse F1 are connected with the other end of the fuse F1, and the common mode of the fuse F1, and the other end of the fuse F1 are connected with the fuse F1, and the fuse F1 of the fuse F1, and the common mode of the fuse F1, one way connects live wire L, another way connects the node between the other end of fuse F1 and common mode inductance LF 1's 3 pins, zero line binding post N passes through thermistor NTC1 connects 4 pins of common mode inductance LF1, 1 pin and 2 pins of thermistor NPTC connect the back together and connect the node between zero line binding post N and thermistor NTC1, one end and the termination of electric capacity CX1 of piezo-resistor VR1 the node between the other end of fuse F1 and common mode inductance LF 1's 3 pins, the other end of piezo-resistor VR1 and the other termination of electric capacity CX1 the node between 4 pins of thermistor NTC1 and common mode inductance LF1, 1 pin of common mode inductance LF1 connects an input of rectifier bridge BD1, 2 pin of common mode inductance LF1 connects another input of rectifier bridge BD1, the positive pole output terminal branch three ways of rectifier bridge BD1, the first path is connected with one end of the capacitor EC1, the second path is connected with one end of the resistor R10, the third path is connected with one end of the inductor L1, the negative electrode output end of the rectifier bridge BD1 is divided into three paths, the first path is connected with the other end of the capacitor EC1, the second path is grounded, the third path is connected with one end of the inductor L2, the other end of the inductor L2 is divided into two paths, one path is grounded, the other path is connected with the 5 pin of the transformer T1 through the capacitor EC2, the other end of the inductor L1 and the other end of the resistor R10 are connected with a node between the 5 pin of the transformer T1 and the capacitor EC2, the 5 pin, the 6 pin, the 7 pin and the 8 pin of the singlechip U1 are connected together and then divided into two paths, one path is connected with the anode of the diode D1, the other path is connected with the 4 pin of the transformer T1, one end of the resistor R3 is connected with a node between the 5 pin of the transformer T1 and the capacitor EC2, the other end of the resistor R3 is divided into two paths, one path is connected with a node between a 5 pin of the transformer T1 and a capacitor EC2 through the capacitor C1, the other path is connected with the cathode of the diode D1 through the resistor R4, 1 pin of the singlechip U1 is divided into two paths, one path is connected with a node between a 5 pin of the transformer T1 and a capacitor EC2 through the resistor R1, the other path is connected with the cathode of the diode D2, the anode of the diode D2 is divided into two paths, one path is connected with the 1 pin of the transformer T1, the other path is connected with a 3 pin of the singlechip U1 through the resistor R8, one end of the capacitor EC3, one end of the resistor R7 and one end of the capacitor C2 are all grounded, the other end of the resistor R7 and the other end of the capacitor C2 are connected with a node between the resistor R8 and the 3 pin of the U1, the cathode of the other end of the capacitor EC3 and a node between the cathode of the diode D2 and the resistor R1, a 4 pin of the single chip microcomputer U1 is grounded through the resistor R5, a 2 pin of the single chip microcomputer U1 is divided into two paths, one path is grounded, the other path is connected with a node between the resistor R1 and the cathode of the diode D2 through the capacitor EC3A, one end of the safety capacitor CY1 is connected with a node between the capacitor EC2 and the 5 pin of the transformer T1, the other end of the safety capacitor CY1 is divided into two paths, one path is grounded, the other path is connected with one end of the capacitor EC4, one end of the resistor R9 is connected with a node between the other end of the safety capacitor CY1 and one end of the capacitor EC4, the cathode of the diode D3, the other end of the resistor R9 and the other end of the capacitor EC4 are connected together and then output +12V direct current, and the anode of the diode D3 is suspended;

the voltage reduction module comprises a voltage reduction chip U10, a capacitor C27, a capacitor C31, a capacitor C30, a capacitor C35, a resistor R12, a resistor R13 and a resistor R14, wherein the model of the voltage reduction chip U10 is CJ7805, a capacitor C27 and a capacitor C31 are connected in parallel to form a second capacitor filter, a capacitor C30 and a capacitor C35 are connected in parallel to form a third capacitor filter, a pin 1 of the voltage reduction chip U10 is divided into two paths, one path is connected with +12V direct current output by the voltage transformation module, the other path is connected with one end of the second capacitor filter, a pin 2 of the voltage reduction chip U10, the other end of the second capacitor filter and one end of the third capacitor filter are grounded, a pin 2 of the voltage reduction chip U10 is divided into two paths, the other path is connected with the other end of the third capacitor filter, and the other path is connected with the pin 1 of the voice control chip U7 sequentially through the resistor R13, the resistor R12 and the resistor R14.

The air drying module comprises a blower J22, wherein a pin 1 of the blower J22 is connected with +12V direct current output by the voltage transformation module, a pin 2 of the blower J22 is connected with a pin 8 of the multifunctional driving chip U2, and a pin 3 and a pin 4 of the blower J22 are connected together and then grounded.

The sterilization module comprises an ultraviolet emitter J11, wherein pin 1 of the ultraviolet emitter J11 is connected with pin 7 of the multifunctional driving chip U2, pin 2 of the ultraviolet emitter J11 is connected with +12V direct current output by the voltage transformation module, and pin 3 and pin 4 of the ultraviolet emitter J11 are connected together and then grounded.

The indicating lamp module comprises a resistor R40 and an indicating lamp LED, the cathode of the indicating lamp LED is grounded, and the anode of the indicating lamp LED is connected with the 16 pins of the voice control chip U7 through the resistor R40.

The voice acquisition module comprises a microphone J3 and an electrostatic diode ESD3, one end of the electrostatic diode ESD3 is grounded, the other end of the electrostatic diode ESD3 is divided into two paths, one path is connected with a pin 1 of the microphone J3, the other path is connected with a pin 19 of the voice control chip U7, a pin 2 of the microphone J3 is grounded, and a pin 3 and a pin 4 of the microphone J3 are grounded after being connected together.

The voice prompt module comprises a loudspeaker SP, an electrostatic diode ESD1 and an electrostatic diode ESD2, one end of the electrostatic diode ESD1 and one end of the electrostatic diode ESD2 are connected together and then grounded, the other end of the electrostatic diode ESD1 is divided into two paths, one path is connected with a pin 1 of the loudspeaker SP, the other path is connected with a pin 9 of the voice control chip U7, the other end of the electrostatic diode ESD2 is divided into two paths, one path is connected with a pin 2 of the loudspeaker SP, the other path is connected with a pin 8 of the voice control chip U7, and a pin 3 and a pin 4 of the loudspeaker SP are connected together and then grounded.

The temperature-raising module comprises a relay K5 and a heating resistance wire LPTC, wherein a pin 1 and a pin 2 of the heating resistance wire LPTC are connected together and then connected with a pin 2 of the relay K5, a pin 3 of the relay K5 is connected with a live wire L, a pin 4 of the relay K5 is connected with a pin 6 of the multifunctional driving chip U2, and a pin 5 of the relay K5 is connected with +12V direct current output by the voltage transformation module.

The utility model has the advantages that: the utility model discloses a voice control module is used for controlling whole dry cleaner, and power module is used for supplying power for whole equipment, and air-dries the module and is used for air-drying the clothing, and the module of disinfecting is used for disinfecting to the clothing, and the pilot lamp module is used for showing whether dry cleaner is in operating condition, and pronunciation collection module is used for gathering user's voice control signal to cooperation voice control module realizes the voice control function, and the voice prompt module reminds the user through pronunciation, and the module cooperation air-dries the module, and the drying of clothing is compared with prior art with higher speed, the utility model discloses possess the voice control function, this kind of human-computer interaction mode not only experiences, and the study cost is low moreover, convenient to use.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a block diagram of the system of the present invention;

fig. 2 is one of the circuit diagrams of the present invention;

fig. 3 is a second circuit diagram of the present invention;

fig. 4 is a third circuit diagram of the present invention;

fig. 5 is a fourth circuit diagram of the present invention.

Detailed Description

Referring to fig. 1 to 5, a voice control dry cleaning machine is internally provided with a voice control module, and the voice control module is electrically connected with a power supply module, an air drying module, a sterilization module, an indicator lamp module, a voice acquisition module, a voice prompt module and a heating module.

The voice control module is used for controlling the whole dry cleaning machine, and power module is used for supplying power for whole equipment, and air-dry the module and be used for air-drying the clothing, and the module of disinfecting is used for disinfecting to the clothing, and the pilot lamp module is used for showing whether the dry cleaning machine is in operating condition, and pronunciation collection module is used for gathering user's voice control signal to cooperation voice control module realizes the voice control function, and voice prompt module reminds the user through pronunciation, and the module is air-dried in the cooperation of intensification module, and the drying of clothing is with higher speed, compares with prior art, the utility model discloses possess the voice control function, this kind of human-computer interaction mode not only experiences, and the learning cost is low moreover, convenient to use.

The structure of the dry cleaning machine of the technical proposal is the same as that of the prior dry cleaning machine.

The voice control module comprises a voice control chip U7, a capacitor C4, a capacitor C20, a resistor R2, a resistor R6, a resistor R11 and a multifunctional driving chip U2, wherein the model of the voice control chip U7 is YY142, the model of the multifunctional driving chip U2 is ULN2001, the capacitor C4 and the capacitor C20 are connected in parallel to form a filter capacitor group, a pin 1 of the voice control chip U7 is divided into two paths, one path is connected with +5V direct current, the other path is connected with one end of the filter capacitor group, the other end of the filter capacitor group is grounded, a pin 2 and a pin 3 of the voice control chip U7 are grounded after being connected together, a pin 7 of the voice control chip U7 is grounded, a pin 18 of the voice control chip U7 is grounded, a pin 14 of the voice control chip U7 is connected with a pin 1 of the multifunctional driving chip U2 through the resistor R2, a pin 10 of the voice control chip U7 is connected with a pin 2 of the multifunctional driving chip U2 5 through the resistor R6, the 11 pin of the voice control chip U7 is connected with the 3 pin of the multifunctional driving chip U2 through the resistor R11, and the 4 pin of the multifunctional driving chip U2 is grounded.

The power supply module comprises a voltage transformation module and a voltage reduction module; the transformation module comprises a live wire terminal ACL, a zero line terminal N, a fuse F1, a fuse F2, a thermistor NPTC, a thermistor NTC1, a piezoresistor VR1, a capacitor CX1, a common mode inductor LF1, a rectifier bridge BD1, a capacitor EC1, a capacitor EC2, an inductor L1, an inductor L2, a resistor R10, a safety capacitor CY1, a high-voltage ceramic capacitor C1, a diode D1, a diode D2, a resistor R4, a resistor R3, a resistor R1, an electrolytic capacitor EC3A, a capacitor EC3, a singlechip U1, a resistor R5, a resistor R7, a capacitor C2, a transformer T1, a diode EC1, a resistor R1 and a diode D1, wherein the type of the transformer U1 is ATC9307 1, the type EE of the transformer T1 is a singlechip 1310, one end of the fuse F1 and one end of the fuse F1 are connected with the other end of the fuse F1, and the common mode of the fuse F1, and the other end of the fuse F1 are connected with the fuse F1, and the fuse F1 of the fuse F1, and the common mode of the fuse F1, one way connects live wire L, another way connects the node between the other end of fuse F1 and common mode inductance LF 1's 3 pins, zero line binding post N passes through thermistor NTC1 connects 4 pins of common mode inductance LF1, 1 pin and 2 pins of thermistor NPTC connect the back together and connect the node between zero line binding post N and thermistor NTC1, one end and the termination of electric capacity CX1 of piezo-resistor VR1 the node between the other end of fuse F1 and common mode inductance LF 1's 3 pins, the other end of piezo-resistor VR1 and the other termination of electric capacity CX1 the node between 4 pins of thermistor NTC1 and common mode inductance LF1, 1 pin of common mode inductance LF1 connects an input of rectifier bridge BD1, 2 pin of common mode inductance LF1 connects another input of rectifier bridge BD1, the positive pole output terminal branch three ways of rectifier bridge BD1, the first path is connected with one end of the capacitor EC1, the second path is connected with one end of the resistor R10, the third path is connected with one end of the inductor L1, the negative electrode output end of the rectifier bridge BD1 is divided into three paths, the first path is connected with the other end of the capacitor EC1, the second path is grounded, the third path is connected with one end of the inductor L2, the other end of the inductor L2 is divided into two paths, one path is grounded, the other path is connected with the 5 pin of the transformer T1 through the capacitor EC2, the other end of the inductor L1 and the other end of the resistor R10 are connected with a node between the 5 pin of the transformer T1 and the capacitor EC2, the 5 pin, the 6 pin, the 7 pin and the 8 pin of the singlechip U1 are connected together and then divided into two paths, one path is connected with the anode of the diode D1, the other path is connected with the 4 pin of the transformer T1, one end of the resistor R3 is connected with a node between the 5 pin of the transformer T1 and the capacitor EC2, the other end of the resistor R3 is divided into two paths, one path is connected with a node between a 5 pin of the transformer T1 and a capacitor EC2 through the capacitor C1, the other path is connected with the cathode of the diode D1 through the resistor R4, 1 pin of the singlechip U1 is divided into two paths, one path is connected with a node between a 5 pin of the transformer T1 and a capacitor EC2 through the resistor R1, the other path is connected with the cathode of the diode D2, the anode of the diode D2 is divided into two paths, one path is connected with the 1 pin of the transformer T1, the other path is connected with a 3 pin of the singlechip U1 through the resistor R8, one end of the capacitor EC3, one end of the resistor R7 and one end of the capacitor C2 are all grounded, the other end of the resistor R7 and the other end of the capacitor C2 are connected with a node between the resistor R8 and the 3 pin of the U1, the cathode of the other end of the capacitor EC3 and a node between the cathode of the diode D2 and the resistor R1, a 4 pin of the single chip microcomputer U1 is grounded through the resistor R5, a 2 pin of the single chip microcomputer U1 is divided into two paths, one path is grounded, the other path is connected with a node between the resistor R1 and the cathode of the diode D2 through the capacitor EC3A, one end of the safety capacitor CY1 is connected with a node between the capacitor EC2 and the 5 pin of the transformer T1, the other end of the safety capacitor CY1 is divided into two paths, one path is grounded, the other path is connected with one end of the capacitor EC4, one end of the resistor R9 is connected with a node between the other end of the safety capacitor CY1 and one end of the capacitor EC4, the cathode of the diode D3, the other end of the resistor R9 and the other end of the capacitor EC4 are connected together and then output +12V direct current, and the anode of the diode D3 is suspended;

the voltage reduction module comprises a voltage reduction chip U10, a capacitor C27, a capacitor C31, a capacitor C30, a capacitor C35, a resistor R12, a resistor R13 and a resistor R14, wherein the model of the voltage reduction chip U10 is CJ7805, a capacitor C27 and a capacitor C31 are connected in parallel to form a second capacitor filter, a capacitor C30 and a capacitor C35 are connected in parallel to form a third capacitor filter, a pin 1 of the voltage reduction chip U10 is divided into two paths, one path is connected with +12V direct current output by the voltage transformation module, the other path is connected with one end of the second capacitor filter, a pin 2 of the voltage reduction chip U10, the other end of the second capacitor filter and one end of the third capacitor filter are grounded, a pin 2 of the voltage reduction chip U10 is divided into two paths, the other path is connected with the other end of the third capacitor filter, and the other path is connected with the pin 1 of the voice control chip U7 sequentially through the resistor R13, the resistor R12 and the resistor R14.

The voltage transformation module reduces the commercial power to +12V output, the voltage transformation module outputs +12V direct current, and the voltage reduction module reduces the +12V direct current to +5V direct current output, thereby meeting the power supply requirement of the whole equipment.

The air drying module comprises a blower J22, wherein a pin 1 of the blower J22 is connected with +12V direct current output by the voltage transformation module, a pin 2 of the blower J22 is connected with a pin 8 of the multifunctional driving chip U2, and a pin 3 and a pin 4 of the blower J22 are connected together and then grounded.

The sterilization module comprises an ultraviolet emitter J11, wherein pin 1 of the ultraviolet emitter J11 is connected with pin 7 of the multifunctional driving chip U2, pin 2 of the ultraviolet emitter J11 is connected with +12V direct current output by the voltage transformation module, and pin 3 and pin 4 of the ultraviolet emitter J11 are connected together and then grounded.

The indicating lamp module comprises a resistor R40 and an indicating lamp LED, the cathode of the indicating lamp LED is grounded, and the anode of the indicating lamp LED is connected with the 16 pins of the voice control chip U7 through the resistor R40.

If the indicator light LED is always flashing, the dry cleaning machine is in a standby state, and when the indicator light LED displays red, the dry cleaning machine is working.

The voice acquisition module comprises a microphone J3 and an electrostatic diode ESD3, one end of the electrostatic diode ESD3 is grounded, the other end of the electrostatic diode ESD3 is divided into two paths, one path is connected with a pin 1 of the microphone J3, the other path is connected with a pin 19 of the voice control chip U7, a pin 2 of the microphone J3 is grounded, and a pin 3 and a pin 4 of the microphone J3 are grounded after being connected together.

The voice prompt module comprises a loudspeaker SP, an electrostatic diode ESD1 and an electrostatic diode ESD2, one end of the electrostatic diode ESD1 and one end of the electrostatic diode ESD2 are connected together and then grounded, the other end of the electrostatic diode ESD1 is divided into two paths, one path is connected with a pin 1 of the loudspeaker SP, the other path is connected with a pin 9 of the voice control chip U7, the other end of the electrostatic diode ESD2 is divided into two paths, one path is connected with a pin 2 of the loudspeaker SP, the other path is connected with a pin 8 of the voice control chip U7, and a pin 3 and a pin 4 of the loudspeaker SP are connected together and then grounded.

Loudspeaker SP

The temperature-raising module comprises a relay K5 and a heating resistance wire LPTC, wherein a pin 1 and a pin 2 of the heating resistance wire LPTC are connected together and then connected with a pin 2 of the relay K5, a pin 3 of the relay K5 is connected with a live wire L, a pin 4 of the relay K5 is connected with a pin 6 of the multifunctional driving chip U2, and a pin 5 of the relay K5 is connected with +12V direct current output by the voltage transformation module.

The voice control chip U7 is also electrically connected with a program updating interface DOW, wherein pin 1 of the program updating interface DOW is connected with +5V direct current, pin 2 of the program updating interface DOW is grounded, pin 3 of the program updating interface DOW is connected with pin 4 of the voice control chip U7, and pin 4 of the program updating interface DOW is connected with pin 5 of the voice control chip U7.

The program update interface DOW is used to update the control program of the dry cleaning machine.

The above embodiments do not limit the scope of the present invention, and those skilled in the art can make equivalent modifications and variations without departing from the overall concept of the present invention.

Claims (9)

1. The utility model provides a speech control dry cleaner which characterized in that this dry cleaner embeds has speech control module, speech control module electric connection has power module, air-dries module, sterilization module, pilot lamp module, pronunciation collection module, voice prompt module and intensification module.

2. The voice-controlled dry cleaning machine according to claim 1, wherein the voice control module comprises a voice control chip U7, a capacitor C4, a capacitor C20, a resistor R2, a resistor R6, a resistor R11 and a multifunctional driving chip U2, the model of the voice control chip U7 is YY142, the model of the multifunctional driving chip U2 is ULN2001, the capacitor C4 and the capacitor C20 are connected in parallel to form a filter capacitor bank, a pin 1 of the voice control chip U7 is divided into two paths, one path is connected with +5V direct current, the other path is connected with one end of the filter capacitor bank, the other end of the filter capacitor bank is grounded, a pin 2 and a pin 3 of the voice control chip U7 are connected together and then grounded, a pin 7 of the voice control chip U7 is grounded, a pin 18 of the voice control chip U7 is grounded, a pin 14 of the voice control chip U7 is connected with a pin 1 of the multifunctional driving chip U2 through the resistor R2, the 10 pins of the voice control chip U7 are connected with the 2 pins of the multifunctional driving chip U2 through the resistor R6, the 11 pins of the voice control chip U7 are connected with the 3 pins of the multifunctional driving chip U2 through the resistor R11, and the 4 pins of the multifunctional driving chip U2 are grounded.

3. The voice-controlled dry cleaning machine according to claim 2, wherein the power supply module comprises a voltage transformation module and a voltage reduction module; the transformation module comprises a live wire terminal ACL, a zero line terminal N, a fuse F1, a fuse F2, a thermistor NPTC, a thermistor NTC1, a piezoresistor VR1, a capacitor CX1, a common mode inductor LF1, a rectifier bridge BD1, a capacitor EC1, a capacitor EC2, an inductor L1, an inductor L2, a resistor R10, a safety capacitor CY1, a high-voltage ceramic capacitor C1, a diode D1, a diode D2, a resistor R4, a resistor R3, a resistor R1, an electrolytic capacitor EC3A, a capacitor EC3, a singlechip U1, a resistor R5, a resistor R7, a capacitor C2, a transformer T1, a diode EC1, a resistor R1 and a diode D1, wherein the type of the transformer U1 is ATC9307 1, the type EE of the transformer T1 is a singlechip 1310, one end of the fuse F1 and one end of the fuse F1 are connected with the other end of the fuse F1, and the common mode of the fuse F1, and the other end of the fuse F1 are connected with the fuse F1, and the fuse F1 of the fuse F1, and the common mode of the fuse F1, one way connects live wire L, another way connects the node between the other end of fuse F1 and common mode inductance LF 1's 3 pins, zero line binding post N passes through thermistor NTC1 connects 4 pins of common mode inductance LF1, 1 pin and 2 pins of thermistor NPTC connect the back together and connect the node between zero line binding post N and thermistor NTC1, one end and the termination of electric capacity CX1 of piezo-resistor VR1 the node between the other end of fuse F1 and common mode inductance LF 1's 3 pins, the other end of piezo-resistor VR1 and the other termination of electric capacity CX1 the node between 4 pins of thermistor NTC1 and common mode inductance LF1, 1 pin of common mode inductance LF1 connects an input of rectifier bridge BD1, 2 pin of common mode inductance LF1 connects another input of rectifier bridge BD1, the positive pole output terminal branch three ways of rectifier bridge BD1, the first path is connected with one end of the capacitor EC1, the second path is connected with one end of the resistor R10, the third path is connected with one end of the inductor L1, the negative electrode output end of the rectifier bridge BD1 is divided into three paths, the first path is connected with the other end of the capacitor EC1, the second path is grounded, the third path is connected with one end of the inductor L2, the other end of the inductor L2 is divided into two paths, one path is grounded, the other path is connected with the 5 pin of the transformer T1 through the capacitor EC2, the other end of the inductor L1 and the other end of the resistor R10 are connected with a node between the 5 pin of the transformer T1 and the capacitor EC2, the 5 pin, the 6 pin, the 7 pin and the 8 pin of the singlechip U1 are connected together and then divided into two paths, one path is connected with the anode of the diode D1, the other path is connected with the 4 pin of the transformer T1, one end of the resistor R3 is connected with a node between the 5 pin of the transformer T1 and the capacitor EC2, the other end of the resistor R3 is divided into two paths, one path is connected with a node between a 5 pin of the transformer T1 and a capacitor EC2 through the capacitor C1, the other path is connected with the cathode of the diode D1 through the resistor R4, 1 pin of the singlechip U1 is divided into two paths, one path is connected with a node between a 5 pin of the transformer T1 and a capacitor EC2 through the resistor R1, the other path is connected with the cathode of the diode D2, the anode of the diode D2 is divided into two paths, one path is connected with the 1 pin of the transformer T1, the other path is connected with a 3 pin of the singlechip U1 through the resistor R8, one end of the capacitor EC3, one end of the resistor R7 and one end of the capacitor C2 are all grounded, the other end of the resistor R7 and the other end of the capacitor C2 are connected with a node between the resistor R8 and the 3 pin of the U1, the cathode of the other end of the capacitor EC3 and a node between the cathode of the diode D2 and the resistor R1, a 4 pin of the single chip microcomputer U1 is grounded through the resistor R5, a 2 pin of the single chip microcomputer U1 is divided into two paths, one path is grounded, the other path is connected with a node between the resistor R1 and the cathode of the diode D2 through the capacitor EC3A, one end of the safety capacitor CY1 is connected with a node between the capacitor EC2 and the 5 pin of the transformer T1, the other end of the safety capacitor CY1 is divided into two paths, one path is grounded, the other path is connected with one end of the capacitor EC4, one end of the resistor R9 is connected with a node between the other end of the safety capacitor CY1 and one end of the capacitor EC4, the cathode of the diode D3, the other end of the resistor R9 and the other end of the capacitor EC4 are connected together and then output +12V direct current, and the anode of the diode D3 is suspended;

the voltage reduction module comprises a voltage reduction chip U10, a capacitor C27, a capacitor C31, a capacitor C30, a capacitor C35, a resistor R12, a resistor R13 and a resistor R14, wherein the model of the voltage reduction chip U10 is CJ7805, a capacitor C27 and a capacitor C31 are connected in parallel to form a second capacitor filter, a capacitor C30 and a capacitor C35 are connected in parallel to form a third capacitor filter, a pin 1 of the voltage reduction chip U10 is divided into two paths, one path is connected with +12V direct current output by the voltage transformation module, the other path is connected with one end of the second capacitor filter, a pin 2 of the voltage reduction chip U10, the other end of the second capacitor filter and one end of the third capacitor filter are grounded, a pin 2 of the voltage reduction chip U10 is divided into two paths, the other path is connected with the other end of the third capacitor filter, and the other path is connected with the pin 1 of the voice control chip U7 sequentially through the resistor R13, the resistor R12 and the resistor R14.

4. The voice-controlled dry cleaning machine according to claim 3, wherein the drying module comprises a blower J22, wherein pin 1 of the blower J22 is connected to +12V DC power outputted from the voltage transformation module, pin 2 of the blower J22 is connected to pin 8 of the multifunctional driver chip U2, and pin 3 and pin 4 of the blower J22 are connected together and then grounded.

5. The voice-controlled dry cleaning machine according to claim 4, wherein the sterilizing module comprises an ultraviolet emitter J11, wherein pin 1 of the ultraviolet emitter J11 is connected to pin 7 of the multifunctional driver chip U2, pin 2 of the ultraviolet emitter J11 is connected to +12V DC power outputted from the voltage transforming module, and pin 3 and pin 4 of the ultraviolet emitter J11 are connected together and then grounded.

6. The voice-controlled dry cleaning machine according to claim 5, wherein the indicator light module comprises a resistor R40 and an indicator light LED, the cathode of the indicator light LED is grounded, and the anode of the indicator light LED is connected to the 16 pins of the voice control chip U7 through the resistor R40.

7. The voice-controlled dry cleaning machine according to claim 6, wherein the voice collecting module comprises a microphone J3 and an electrostatic diode ESD3, one end of the electrostatic diode ESD3 is grounded, the other end of the electrostatic diode ESD3 is divided into two paths, one path is connected with the 1 pin of the microphone J3, the other path is connected with the 19 pin of the voice control chip U7, the 2 pin of the microphone J3 is grounded, and the 3 pin and the 4 pin of the microphone J3 are grounded after being connected together.

8. The voice-controlled dry cleaning machine according to claim 7, wherein the voice prompt module comprises a speaker SP, an ESD diode ESD1 and an ESD diode ESD2, one end of the ESD diode ESD1 and one end of the ESD diode ESD2 are connected together and then grounded, the other end of the ESD diode ESD1 is divided into two paths, one path is connected with pin 1 of the speaker SP, the other path is connected with pin 9 of the voice control chip U7, the other end of the ESD diode ESD2 is divided into two paths, one path is connected with pin 2 of the speaker SP, the other path is connected with pin 8 of the voice control chip U7, and pin 3 and pin 4 of the speaker SP are connected together and then grounded.

9. The voice-controlled dry cleaning machine according to claim 8, wherein the heating module comprises a relay K5 and a heating resistance wire LPTC, wherein pins 1 and 2 of the heating resistance wire LPTC are connected together and then connected with pin 2 of the relay K5, pin 3 of the relay K5 is connected with a live wire L, pin 4 of the relay K5 is connected with pin 6 of the multifunctional driving chip U2, and pin 5 of the relay K5 is connected with the +12V direct current output by the voltage transformation module.

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