CN104475394A - Internet-based variable-parameter ozone ultrasonic cleaner and working method - Google Patents

Abstract

The invention relates to an internet-based variable-parameter ozone ultrasonic cleaner and a working method. The internet-based variable-parameter ozone ultrasonic cleaner comprises a control module and a communication module, wherein the control module is used for forming corresponding cleaning schemes according to cleaning parameters set by a user; the communication module is connected with the control module and used for uploading the cleaning schemes to the internet sharing and/or downloading cleaning schemes shared by other users. The cleansing schemes are built according to the cleaning parameters of the user, and a corresponding cleaning scheme database is built, and the cleaning schemes are uploaded to the network through the communication module, so that other users or manufacturers carry out scheme sharing and analysis conveniently, and manufacturers can further optimize the cleaning schemes, operational programs are updated, namely, the ozone ultrasonic cleaner has the online updating function through the communication module. The users can obtain the optimal use experience in the use process.

Description

Based on ozone ultrasonic cleaning machine and the method for work of the changeable parameters of internet

Technical field

The present invention relates to Ultrasonic Cleaning field, particularly a kind of ozone ultrasonic cleaning machine of the changeable parameters based on Internet technology and method of work.

Background technology

Hyperacoustic cavitation, acceleration effect and direct flow effect are residual to medicine, the cleaning performance of dirt is obvious, and washing the dishes, the cleaning field such as toothwash is widely used.

Experiment proves, supersonic wave cooperating with ozone is better to residual treatment effects of medicine such as process glyphosates.But, the supersonic wave cooperating with ozone cleaning device that frequency and power are fixed, cleaning performance can only be adjusted by the control time, cannot realize all reaching good cleaning performance to various different cleaned material, and in actual life, many application scenarios need to clean multiple object.For the multiple cleaning object under different occasion, need the ultrasonic frequency by regulating supersonic wave cooperating with ozone cleaning device, ultrasonic power, ozone amount and working time, finding optimum cleaning program, desirable cleaning performance could be reached when cleaning different cleaning objects.

And conventional ultrasonic wave synergy ozone cleaning device lacks network function, namely cannot accessing Internet, between the user causing cleaning device, be difficult between user and manufacturer link up, hinder the optimization of ultrasonic cleaning equipment.In addition, conventional ultrasonic wave synergy ozone cleaning device also cannot detect the actual cleaning performance to multiple cleaning object.

Summary of the invention

The object of this invention is to provide a kind of ozone ultrasonic cleaning machine, to realize accessing Internet with feedback, shared cleaning program.

In order to solve the problems of the technologies described above, the invention provides a kind of ozone ultrasonic cleaning machine, comprising:

Control module, the cleaning parameters for user being set forms corresponding cleaning program.

Communication module, be connected with described control module for each cleaning solution is uploaded to network share and/or download other users the cleaning program shared.

Preferably, in order to solve the technical problem of pulse density modulated, described ozone ultrasonic cleaning machine also comprises: ultrasonic wave regulation and control module, and this ultrasonic wave regulation and control module comprises: frequency generator and pulse density modulated circuit; Described control module controlled frequency generator produces the contrary high-frequency PWM in two-way direction, and the low frequency generating circuit simultaneously gone back in control impuls density modulation circuit produces the contrary low-frequency square-wave in two-way direction; In described pulse density modulated circuit by two AND circuits respectively by the high-frequency PWM of equidirectional, low-frequency square-wave phase with export square wave to obtain two-way, namely pass through the impulse density of duty cycle adjustment high-frequency PWM of control low-frequency square-wave.

Preferably, in order to obtain the contrary middle low-frequency square-wave of two-way, described low frequency generating circuit comprises: the CPLD controller for generation of an initial low frequency square wave be connected with described control module, this original square wave inputs to d type flip flop through an amplifier, this d type flip flop is used for original square wave to be converted to the contrary middle low-frequency square-wave in two-way direction, and in the middle of described two-way, square wave exports low-frequency square-wave described in two-way by corresponding output amplifier.

Preferably, AND circuit is achieved by two diodes and resistance, namely the first input end of described AND circuit is connected with a road high-frequency PWM, and its second input is connected with a road low-frequency square-wave, and first, second input described is made up of the anode of the first diode and the second diode respectively; The negative electrode of first, second diode described to be connected with high level by a resistance and as the output of described AND circuit; Described two-way exports square wave and is merged into single channel square wave through a full-bridge circuit.It is simple that this AND circuit has structure, the advantage of good reliability.

Preferably, described ultrasonic wave regulation and control module also comprises: inside establish the isolation amplification of switching tube and inverter circuit, matching transformer and phase-detection and resonance matching circuit; Described switching tube be used for convert single channel square wave to high-voltage pulse signal, this high-voltage pulse signal by matching transformer be coupled laggard applying aspect detect and resonance matching circuit, the output of this phase-detection and resonance matching circuit is connected with ultrasonic transducer; Described phase-detection and resonance matching electricity routing module control control, to adjust the resonant frequency of ultrasonic transducer.

Preferably, in order to regulate the resonant frequency of ultrasonic transducer, described phase-detection and resonance matching circuit comprise: for accessing the tuning coil of the rear high-voltage pulse signal of coupling, for gathering the sample circuit of the voltage and current of tuning coil, the voltage and current of acquisition is inputed to a phase discriminator to obtain the phase difference of voltage and current by this sample circuit respectively, and this phase difference is inputed to described control module and be used for regulating the stepper motor of tuning coil air gap to rotate to control one, to change the inductance value of this tuning coil, obtain tuned frequency.

Preferably, realize ultrasonic wave and ozone cooperative work further, described ozone ultrasonic cleaning machine also comprises: ozone generating-device, this ozone generating-device comprises: arrange with described cleaning the second CPLD circuit that control module is connected, the power amplification circuit be connected with this second CPLD circuit, the step-up transformer be connected with this power amplification circuit, and the ozonation aerated head be connected with this step-up transformer.

Preferably, in order to detect cleaning performance, described ozone ultrasonic cleaning machine also comprises: the residual checkout gear of medicine, by the residual checkout gear of this medicine to obtain the cleaning performance corresponding with cleaning program; Described control module is suitable for setting up cleaning program database according to each cleaning program and corresponding wash result, and by communication module be uploaded to manufacturer, other users share, and/or downloaded the refresh routine of ozone ultrasonic cleaning machine by described communication module, to realize upgrading control program in ozone ultrasonic cleaning machine.

Another aspect, shares to solve ozone ultrasonic cleaning machine and upgrades the technical problem of cleaning program.

Present invention also offers a kind of method of work of ozone ultrasonic cleaning machine, comprising:

The cleaning parameters that user sets is formed corresponding cleaning program, and each cleaning solution is uploaded to network share and/or download other users the cleaning program shared.

Preferably, in order to make control program in ozone ultrasonic cleaning machine upgrade in time, described method of work also comprises: the refresh routine being downloaded ozone ultrasonic cleaning machine by communication module, to realize upgrading control program in ozone ultrasonic cleaning machine.

The invention has the beneficial effects as follows, the present invention builds cleaning program according to the cleaning parameters of user, and set up corresponding cleaning program database, and be uploaded to network by communication module, share so that other users or manufacturer carry out scheme, analyze, manufacturer can be optimized by cleaning program further, renewal rewards theory program, is namely that ozone ultrasonic cleaning machine possesses online updating function by communication module; User can obtain best experience in use.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 shows the structural representation of ozone ultrasonic cleaning machine;

Fig. 2 shows the circuit theory diagrams of ultrasonic wave regulation and control module;

Fig. 3 shows the theory diagram of phase-detection and resonance matching circuit;

Fig. 4 shows the theory diagram of ozone generating-device.

In figure: control module 1, ozonation aerated 2, 3, discharge outlet 4, first ultrasonic transducer 5, second ultrasonic transducer 6, 3rd ultrasonic transducer 7, 4th ultrasonic transducer 8, ozone generating-device 9, phase detecting circuit and resonance matching circuit 10, matching transformer 11, isolation is amplified and inverter circuit 12, pulse density modulated circuit 13, frequency generator 14, human-computer interaction interface 15, communication module 16, the residual checkout gear 17 of medicine, tank 18, one CPLD controller U1, d type flip flop U4, integrated transporting discharging U2A, U2B, U3A, first diode D1, D4, second diode D2, D3, resistance R7, R8.

Detailed description of the invention

In conjunction with the accompanying drawings, the present invention is further detailed explanation.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present invention are described in a schematic way, and therefore it only shows the formation relevant with the present invention.

The cleaning program database of increasing income set up by this ozone ultrasonic cleaning machine, shares optimum cleaning program, meets difference by the cleaning requirement of cleaning object by arranging of variable element; And, also by the quick detection of drugs residue of the residual checkout gear of medicine, for judging cleaning performance, and as passing judgment on the reference frame of the residual cleaning optimal case of medicine, set up simultaneously, share cleaning program database, to be correlated with use information to feed back manufacturer, to be convenient to make corresponding improvement to this ozone ultrasonic cleaning machine.

Embodiment 1

Fig. 1 shows the structural representation of ozone ultrasonic cleaning machine.

As shown in Figure 1, a kind of ozone ultrasonic cleaning machine of the present invention, comprising:

Control module 1, the cleaning parameters for user being set forms corresponding cleaning program.

Communication module 16, be connected with described control module for each cleaning solution is uploaded to network share and/or download other users the cleaning program shared.

Described cleaning parameters is such as but not limited to comprising: the ozone amount produced in ultrasonic frequency, ultrasonic power, unit interval, working time.Concrete, the empirical value that this cleaning solution often can be arranged according to user's routine use obtains, and by the residual checkout gear of described medicine to obtain the cleaning performance corresponding with cleaning program, can set up cleaning program database.Meanwhile, this cleaning program database is uploaded to network and shares, manufacturer also can obtain the cleaning program database uploaded of user, to optimize the programming of oneself further.

Described communication module 16 includes but not limited to: WIFI module, NFC module and bluetooth module.The source encoding and decoding of cleaning program adopts five sections of fixed length code compositions, represents respectively in ultrasonic frequency, ultrasonic power, unit interval and produces ozone amount, working time and cleaning performance, adopt zero_failure data.

Optionally, described control module 1 adopts ARM chip S3C6410, linux system.

Optionally, described ozone ultrasonic cleaning machine also comprises: for the tank 18 of splendid attire water for cleaning, is positioned at the discharge outlet 4 of bottom of gullet center; Namely described trough-like shapes is upper level cross section is rectangle, angle, four, bottom is fillet, bottom centre arranges discharge outlet 4, and discharge outlet 4 both sides are embedded with two ozonation aerated 2,3, underlying four ultrasonic transducers 5,6,7,8 of tank, tank material is stainless steel, to avoid corrosion.

Described ozone ultrasonic cleaning machine also comprises: human-computer interaction interface 15; Optionally, human-computer interaction interface 15 adopts 8 cun of liquid crystal touch screens, and its interface adopts QtCreator design.

Optionally, described two ozonation aerated 2,3 models are identical, all adopt rubber diaphragm micro-pore aeration type, are embedded in bottom of gullet.

Fig. 2 shows the circuit theory diagrams of ultrasonic wave regulation and control module.

As shown in Figure 2, described ozone ultrasonic cleaning machine also comprises: ultrasonic wave regulation and control module, and it comprises: frequency generator 14 and pulse density modulated circuit 13; Described control module 1 controlled frequency generator 14 produces the contrary high-frequency PWM in two-way direction (see PWM1, PWM2 in Fig. 2), and the low frequency generating circuit simultaneously gone back in control impuls density modulation circuit 13 produces the contrary low-frequency square-wave in two-way direction; In described pulse density modulated circuit 13 by two AND circuits respectively by the high-frequency PWM (PWM1, PWM2) of equidirectional, low-frequency square-wave phase and export square wave (exporting see OUT1 and OUT2) to obtain two-way; Namely by controlling the impulse density of the duty cycle adjustment high-frequency PWM of low-frequency square-wave.

Concrete, frequency generator 14 adopts chip TL494 to produce ultrasound drive signals, and its frequency is adjustable at 1kHz to 300kHz, and built-in power transistor can provide the driving force of maximum 500mA, and 7V to 40V wide-range voltage is powered, working stability.Chip TL494 produces the contrary high-frequency PWM (PWM1, PWM2) in two-way direction, after pulse density modulated circuit 13, becomes two-way impulse density variable, and peak-to-peak value is that the two-way of 12V exports square wave.Two-way exports square wave and drives full-bridge circuit, and the described isolation of square-wave signal access producing a road stable is amplified and inverter circuit 12.Wherein the variable-frequency solutions of frequency generator 14 is, determine that the resistance of the electric resistance array of frequency changes the centre frequency of swept signal generator by changing in access TL494 typical circuit, core control circuit control step electric machine rotation, drive metallic rod moves up and down, the contact position of metallic rod and sheet metal changes with the movement of metallic rod, different contact position, the resistance of the electric resistance array in access TL494 circuit is different.The similar slide rheostat of principle, makes circuit more stable like this, and affects by parasitic parameter less.

Described low frequency generating circuit comprises: the CPLD controller U1 for generation of an initial low frequency square wave be connected with described control module 1, this original square wave inputs to d type flip flop through an amplifier, this d type flip flop is used for original square wave to be converted to the contrary middle low-frequency square-wave in two-way direction, and in the middle of described two-way, square wave exports low-frequency square-wave described in two-way by corresponding output amplifier.Described amplifier adopts integrated transporting discharging U2A to form, and two output amplifiers adopt integrated transporting discharging U2B and U3A to form respectively; Wherein, integrated transporting discharging U2A, U2B, U3A realizes such as but not limited to employing LM358.That is, each integrated transporting discharging is operated in open loop situations respectively, and export to obtain corresponding saturation voltage, realize enlarging function, the output voltage of this enlarging function is constant.D type flip flop is such as but not limited to employing 74LS74.

The technical scheme being obtained the impulse density of the duty cycle adjustment high-frequency PWM by controlling low-frequency square-wave by AND circuit is comprised: a road high-frequency PWM is connected with the first input end of described AND circuit, second input of one road low-frequency square-wave AND circuit is connected, and first, second input of described AND circuit is made up of the anode of the first diode D1 and the second diode D2 respectively; The negative electrode of described first, second diode D1, D2 to be connected with high level by a resistance R7 and as the output of described AND circuit; The circuit structure of two-way is identical, repeats no more here.Described two-way exports square wave and is merged into single channel square wave through a full-bridge circuit.

By controlling the detailed description of the invention of the impulse density of the duty cycle adjustment high-frequency PWM of low-frequency square-wave, as follows:

As shown in Figure 2, adopt the control module of chip S3C6410 by DP0 to DP7 parallel output one group of data to a CPLD controller U1, a CPLD controller U1 produces the 20kHz original square wave (this square wave frequency is not limited to 20KHZ in practice) of different duty; This original square wave amplifies through LM358, and the supply voltage of LM358 is 5V, and the peak-to-peak value of square wave becomes 5V; Square wave, through d type flip flop 74LS74, becomes the middle low-frequency square-wave that two-way direction is contrary, then is the integrated transporting discharging LM358 of 12V through supply voltage, and namely become two-way and export square wave, its peak-to-peak value becomes 12V; Two-way 20kHz, peak-to-peak value are that two-way high-frequency signal PWM1, PWM2 that the output square wave of 12V produces with TL494 respectively accesses the input of AND circuit, the high and low frequency signal phase of carrying out equidirectional with; Thus realize the impulse density being regulated high-frequency signal by low frequency signal.

Described ultrasonic wave regulation and control module also comprises: inside establish the isolation amplification of switching tube and inverter circuit 12, matching transformer 11 and phase-detection and resonance matching circuit 10; Described switching tube is used for converting single channel square wave to high-voltage pulse signal, this high-voltage pulse signal by matching transformer 11 be coupled laggard applying aspect detect and resonance matching circuit 10, the output of this phase-detection and resonance matching circuit 10 is connected with ultrasonic transducer 5,6,7,8; Described phase-detection and resonance matching circuit 10 are controlled by described control module 1, to adjust the resonant frequency of ultrasonic transducer 5,6,7,8.Preferably, described switching tube adopts metal-oxide-semiconductor to realize.Concrete, described isolation is amplified and the embodiment of inverter circuit 12 comprises: isolation is amplified and inverter circuit 12 adopts transformer to carry out isolation amplification, mainly play isolation effect, square wave peak-to-peak value after isolation amplification becomes 15V, High AC voltage is produced through semi-bridge inversion, the metal-oxide-semiconductor that inverter circuit adopts is N channel, FET type, power MOS pipe amplify ultrasound drive signals, and model is IRFP460, breakdown voltage V _dSSfor 500V, grid source conduction voltage V _gSmaximum withstand voltage for positive and negative 30V, representative value be 3V, maximum drain-source electrode current I _dfor 20A, conducting resistance R _{dS (ON)}be less than or equal to 0.27 ohm, functional, working stability, is industrially widely used.After filtering, the frequency after full-wave rectification is 100Hz to civil power, and peak-to-peak value is the voltage of about 300V is that half-bridge inversion circuit is powered.

Fig. 3 shows the theory diagram of phase-detection and resonance matching circuit.

As shown in Figure 3, described phase-detection and resonance matching circuit 10 comprise: for accessing the tuning coil of described high-voltage pulse signal, for gathering the voltage of tuning coil, the sample circuit of electric current, the voltage and current of acquisition is inputed to a phase discriminator to obtain the phase difference of voltage and current by this sample circuit respectively, and this phase difference is inputed to described control module and be used for regulating the stepper motor of tuning coil air gap to rotate to control one, thus change the inductance value of this tuning coil, to obtain tuned frequency.That is, go out the phase difference of electric current and voltage according to detection tuning coil, the corresponding control step motor of control module, the model of stepper motor is 42BYGH801, and step angle is 1.8 degree, and phase voltage is 12V, and phase current is 0.4A.By control step motor, the air gap mating inductance is changed, thus change the inductance value of coupling inductance, according to formula of impedance resonance equation known, capacitor value is constant, can make circuit resonance matching by changing inductance value.Further, matching transformer 11 adopts EE type magnetic core, and the turn ratio is 1:1, for impedance matching.Described sample circuit comprises: current sampling circuit, the first filtering shaping circuit be connected with this current sampling circuit; And voltage sampling circuit, the second filtering shaping circuit be connected with this voltage sampling circuit; The output of first, second filtering shaping circuit described is connected with two inputs of phase discriminator respectively.

Fig. 4 shows the theory diagram of ozone generating-device.

As shown in Figure 4, described ozone ultrasonic cleaning machine also comprises: ozone generating-device 9, it comprises: arrange with described cleaning the second CPLD circuit that control module is connected, the power amplification circuit be connected with this second CPLD circuit, the step-up transformer be connected with this power amplification circuit, and ozonation aerated 2,3 that is connected with this step-up transformer.Described ozone generating-device 9 is air electrion type, principle as shown in Figure 4, pulse density modulated is adopted to change the power of ozone generator thus the ozone amount of change ozone generating-device 9, the method of pulse density modulated is control the 2nd CPLD controller by control module to export the drive singal after frequency division, drive singal drives the power amplification circuit of semi-bridge inversion structure, then makes ozonation aerated 2,3 to produce ozone through boosting.

Described ozone ultrasonic cleaning machine also comprises: the residual checkout gear 17 of medicine, by the residual checkout gear of this medicine 17 to obtain the cleaning performance corresponding with cleaning program; Described control module 1 is suitable for setting up cleaning program database according to each cleaning program and corresponding wash result, and by communication module 16 be uploaded to manufacturer, other users share, and/or downloaded the refresh routine of ozone ultrasonic cleaning machine by described communication module, to realize upgrading control program in ozone ultrasonic cleaning machine.

As one preferred embodiment, the residual checkout gear 17 of medicine, based on acetylcholine ester enzyme sensor, electrode fixes acetylcholinesterase, and two electrodes insert in solution, apply constant voltage, the magnitude of current flow through in detecting electrode between electrode.Current value and the residual cleaning performance index of process after-current value conversion medicine before control module 1 will process.The residual checkout gear of medicine carries LOAD CELLS, convenient sampling.

Embodiment 2

The method of work of a kind of ozone ultrasonic cleaning machine on embodiment 1 basis, comprising:

The cleaning parameters that user sets is formed corresponding cleaning program, and each cleaning solution is uploaded to network share and/or download other users the cleaning program shared.

The frequency of described ultrasonic transducer takes different center frequency according to different application scenarios, here for family expenses, described cleaning program includes but not limited to that the centre frequency of the first ultrasonic transducer 5 is 28kHz, the centre frequency of the second ultrasonic transducer 6 is 50kHz, the centre frequency of the 3rd ultrasonic transducer 7 is 80kHz, and the centre frequency of the 4th ultrasonic transducer 8 is 160kHz.The bandwidth of ultrasonic transducer is as far as possible wide.

Concrete, user selects article-cleaning kind by human-computer interaction interface 15, article-cleaning kind respective code is transferred to control module 1 by human-computer interaction interface 15, control module circuit 1 is according to the controling parameters in code call SD card, controling parameters is decoded, obtain frequency parameter, power parameter, ozone amount parameter, time parameter, according to frequency parameter controlled frequency generator 14, according to power parameter control impuls density modulation circuit 13, according to ozone generator 9, according to the time of time parameter control work.The system call interception well isolation of control module 1 startup afterwards amplifies and inverter circuit, makes, in the supply voltage place in circuit of about the 300V of half-bridge inversion circuit, to be started working in rear end; Phase-detection and resonance matching circuit 10 are by detecting electric current and voltage, through phase discriminator, by the phase information input control module 1 of electric current and voltage, the corresponding adjustment stepper motor of control module 1, change inductance air gap thus change inductance value, inductance is mated, and ultrasonic transducer produces the ultrasonic wave of corresponding frequencies and power.Control module 1 output ozone amount parameter gives the 2nd CPLD controller, and the 2nd CPLD controller changes impulse density, and ozone amount is changed.User also can after selection article-cleaning kind oneself parameters, if cleaning performance is good, cleaning program database can be set up to each parameter and wash result (this wash result is obtained by the residual checkout gear of medicine) by control module 1, and this cleaning program database is encoded, scheme is uploaded to internet by communication module 16, for other user comments and download, and feed back to manufacturer and be optimized setting.

As the another kind of preferred technical scheme of the present embodiment.Namely described method of work also comprises: the refresh routine being downloaded ozone ultrasonic cleaning machine by communication module, to realize upgrading control program in ozone ultrasonic cleaning machine.Concrete, the cleaning program database that manufacturer can upload according to user, analysis frequency parameter (ultrasonic frequency), power parameter (ultrasonic power), ozone amount parameter (unit interval in produce ozone amount), corresponding relation between time parameter (working time) and wash result, to optimize control program in ozone ultrasonic cleaning machine, user can carry out program updates by communication module, keeps this ozone ultrasonic cleaning machine control program to be in optimum state further.

With above-mentioned according to desirable embodiment of the present invention for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this invention technological thought, can carry out various change and amendment completely.The technical scope of this invention is not limited to the content on description, must determine its technical scope according to right.

Claims (10)

1. an ozone ultrasonic cleaning machine, is characterized in that, comprising:

Control module, the cleaning parameters for user being set forms corresponding cleaning program;

Communication module, be connected with described control module for each cleaning solution is uploaded to network share and/or download other users the cleaning program shared.

2. ozone ultrasonic cleaning machine as claimed in claim 1, it is characterized in that, described ozone ultrasonic cleaning machine also comprises: ultrasonic wave regulation and control module, and this ultrasonic wave regulation and control module comprises: frequency generator and pulse density modulated circuit;

Described control module controlled frequency generator produces the contrary high-frequency PWM in two-way direction, and the low frequency generating circuit simultaneously gone back in control impuls density modulation circuit produces the contrary low-frequency square-wave in two-way direction;

In described pulse density modulated circuit by two AND circuits respectively by the high-frequency PWM of equidirectional, low-frequency square-wave phase with export square wave to obtain two-way, namely pass through the impulse density of duty cycle adjustment high-frequency PWM of control low-frequency square-wave.

3. ozone ultrasonic cleaning machine as claimed in claim 2, it is characterized in that, described low frequency generating circuit comprises: the CPLD controller for generation of an initial low frequency square wave be connected with described control module, this original square wave inputs to d type flip flop through an amplifier, this d type flip flop is used for original square wave to be converted to the contrary middle low-frequency square-wave in two-way direction, and in the middle of described two-way, square wave exports low-frequency square-wave described in two-way by corresponding output amplifier.

4. ozone ultrasonic cleaning machine as claimed in claim 3, it is characterized in that, the first input end of described AND circuit is connected with a road high-frequency PWM, its second input is connected with a road low-frequency square-wave, and first, second input described is made up of the anode of the first diode and the second diode respectively;

The negative electrode of first, second diode described to be connected with high level by a resistance and as the output of described AND circuit;

Described two-way exports square wave and is merged into single channel square wave through a full-bridge circuit.

5. ozone ultrasonic cleaning machine as claimed in claim 4, is characterized in that, described ultrasonic wave regulation and control module also comprises: inside establish the isolation amplification of switching tube and inverter circuit, matching transformer and phase-detection and resonance matching circuit;

Described switching tube be used for convert single channel square wave to high-voltage pulse signal, this high-voltage pulse signal by matching transformer be coupled laggard applying aspect detect and resonance matching circuit, the output of this phase-detection and resonance matching circuit is connected with ultrasonic transducer;

Described phase-detection and resonance matching electricity routing module control control, to adjust the resonant frequency of ultrasonic transducer.

6. ozone ultrasonic cleaning machine as claimed in claim 5, it is characterized in that, described phase-detection and resonance matching circuit comprise: for accessing the tuning coil of the rear high-voltage pulse signal of coupling, for gathering the sample circuit of the voltage and current of tuning coil, the voltage and current of acquisition is inputed to a phase discriminator to obtain the phase difference of voltage and current by this sample circuit respectively, and this phase difference is inputed to described control module and be used for regulating the stepper motor of tuning coil air gap to rotate to control one, to change the inductance value of this tuning coil, obtain tuned frequency.

7. ozone ultrasonic cleaning machine as claimed in claim 6, it is characterized in that, described ozone ultrasonic cleaning machine also comprises: ozone generating-device, this ozone generating-device comprises: arrange with described cleaning the second CPLD circuit that control module is connected, the power amplification circuit be connected with this second CPLD circuit, the step-up transformer be connected with this power amplification circuit, and the ozonation aerated head be connected with this step-up transformer.

8. ozone ultrasonic cleaning machine as claimed in claim 1, it is characterized in that, described ozone ultrasonic cleaning machine also comprises: the residual checkout gear of medicine, by the residual checkout gear of this medicine to obtain the cleaning performance corresponding with cleaning program;

Described control module is suitable for setting up cleaning program database according to each cleaning program and corresponding wash result, and by communication module be uploaded to manufacturer, other users share, and/or

The refresh routine of ozone ultrasonic cleaning machine is downloaded, to realize upgrading control program in ozone ultrasonic cleaning machine by described communication module.

9. a method of work for ozone ultrasonic cleaning machine, comprising:

The cleaning parameters that user sets is formed corresponding cleaning program, and

Each cleaning solution is uploaded to network share and/or download other users the cleaning program shared.

10. method of work according to claim 9, is characterized in that, described method of work also comprises: the refresh routine being downloaded ozone ultrasonic cleaning machine by communication module, to realize upgrading control program in ozone ultrasonic cleaning machine.