CN204752679U - Old processing apparatus is urged to heating, magnetic field, ultrasonic wave - Google Patents

Abstract

The utility model belongs to the technical field of the ageing of liquid article, concretely relates to old processing apparatus is urged to heating, magnetic field, ultrasonic wave, the device comprises treater and controller, and treater and controller link to each other, its characterized in that: the treater, by the box, the feed liquor pipe, the drain pipe, the feed liquor valve, go out the liquid valve, the pump body, the holder, load coil, an ultrasonic transducer, heating system constitutes, box side upper portion installation feed liquor pipe, installation feed liquor valve above the feed liquor pipe, other side lower part installation drain pipes of box, install out the liquid valve above the drain pipe, install out the pump body above the drain pipe, an ultrasonic transducer is installed at least at box side middle part, an ultrasonic transducer is installed at least to installation ultrasonic transducer opposite flank, the bottom at the box is fixed to holder one end, cable winding a plurality of casts on it becomes load coil, the heating pipe is installed with the side inner wall to the bottom half.

Description

Heating, magnetic field, ultrasonic wave urge old treatment unit

Technical field

The utility model belongs to the ageing technical field of liquid article, is specifically related to a kind of heating, magnetic field, ultrasonic wave urge old treatment unit.

Background technology

White wine is Chinese distinctive traditional wine kind, is also world-famous liquor, and be one of large liquor in the world seven, with the history that it is long, consummate technique, unique style, has won the love and esteem of numerous people.The wine newly distilled is general pepperyyer, not alcohol and, not soft yet, containing volatile matter such as hydrogen sulfide, mercaptan, thioethers, and the assorted taste material such as a small amount of propenal, crotonaldehyde, free ammonia.These materials and the close material of other boiling points form new wine and to mix the main body of taste, if these materials reduce, new vinosity, assorted taste are just few, generally impel lower boiling stink substance to volatilize in a large number by storage, reduce the different assorted taste in wine.So new wine pungent, cruelly rush, irritant stronger alcohol smell, poor taste, mud taste, bitter taste and other strange taste, need to store through certain hour, assorted taste just can be made to disappear, and the soft fragrance of wine body increases, wine body alcohol and soft, taste is coordinated more, and this change is commonly referred to as aging, also cries ageing.

In liquor aging process, period of storage is often longer, occupies a large amount of plant and equipment, has overstock a large amount of funds, and the seepage loss of wine is also comparatively large, has a strong impact on the turnover of production capital, increases cost, be not suitable with the requirement of modern Economy Development.Therefore, a kind of artificial aging technology of novel highly effective is expected always by brewery, the basis ensureing the identical mouthfeel quality of white wine and style rolls up output and enhances productivity.For this reason, the aging of white wine is accelerated in research, raises the efficiency, becomes the vital important subject of liquor industry already.

Correct aging method should be take the built-up type of science to urge old process, but almost do not had by the equipment of market study this respect and technology, the purpose of this utility model is to overcome the defect that prior art uses electromagnetic field or ultrasonic wave monotechnics, adopt heating method and Composite Field to process liquid, improve and urge old treatment effect.

Summary of the invention

The purpose of this utility model is the defect overcoming prior art, invent the utility model device: a kind of heating, magnetic field, ultrasonic wave urges old treatment unit, be made up of treater 10 and principal controller 30, treater 10 is connected with controller 30, it is characterized in that: described treater 10, by casing 11, liquid-inlet pipe 12, drain pipe 13, liquid feed valve 14, liquid-outlet valve 15, the pump housing 16, retainer 17, load coil 18, ultrasonic transducer 19, heating system 90 forms, casing 11 side surface upper part installs liquid-inlet pipe 12, liquid-inlet pipe 12 installs liquid feed valve 14 above, other side lower of casing 11 install drain pipe 13, drain pipe 13 installs liquid-outlet valve 15 above, drain pipe 13 installs out the pump housing 16 above, a ultrasonic transducer 19 is at least installed in the middle part of casing 11 side, ultrasonic transducer 19 opposite flank is installed a ultrasonic transducer 19 is at least installed, retainer 17 one end is fixed on the bottom of casing 11, cable winds forms load coil 18 at some circle above, bottom half and sidewall are provided with heating tube 21.

Further, described principal controller 30 is by magnetic field generator controller 40, ultrasonic wave generator controller 60, solenoid valve controller 80, heating controller 90 forms, and magnetic field generator controller 40, ultrasonic wave generator controller 60, solenoid valve controller 80, heating controller 90 are put into casing and formed principal controller 30.

Further, magnetic field generator controller 40, by micro-processor interface circuit unit E41, key circuit unit E42, display circuit unit E43, PWM photoelectric isolating circuit unit EA44, PWM drive circuit unit EA45, PWM power amplifier unit EA46, PWM power amplifier output terminal EA47, PWM photoelectric isolating circuit unit EB48, PWM drive circuit unit EB49, PWM power amplifier unit EB50, PWM power amplifier output terminal EB51, amplifier power supply circuit unit E52, power circuit unit E53 forms, microcontroller circuit unit E41 respectively with key circuit unit E42, display circuit unit E43, PWM photoelectric isolating circuit unit EA44, PWM photoelectric isolating circuit unit EB48 is connected,

Parameter needed for key circuit unit E42 and display circuit unit E43 inputs, microcontroller circuit unit E41 is according to input parameter, pass through computed in software, micro-processor interface circuit unit E41 output pwm signal is to PWM photoelectric isolating circuit unit EA44, to PWM drive circuit unit EA45, carry out power magnification to PWM power amplifier unit EA46 again, amplifier power supply circuit unit E52, suitable voltage of supply is provided, by suitable pwm signal, by PWM power amplifier output terminal EA47, by wire, electrical signal is delivered to again to load coil A18, pulse alternation variable frequency magnetic field is produced in load coil A18, thus say that alternating electromagnetic field acts on by ageing liquid,

Micro-processor interface circuit unit E41 output pwm signal is to PWM photoelectric isolating circuit unit EA48, to PWM drive circuit unit EA49, carry out power magnification to PWM power amplifier unit EA50 again, amplifier power supply circuit unit E52, provides suitable voltage of supply, by suitable pwm signal, by PWM power amplifier output terminal EA51, by wire, electrical signal is delivered to again to load coil B18, in load coil B18, produce pulse alternation variable frequency magnetic field, thus say that alternating electromagnetic field acts on by ageing liquid.

Further, possibility, above-mentioned magnetic field generator controller 40 can be reduced to a road and export or increase to the output of some roads, and respective load coil 18 does respective change.

Further, ultrasonic wave generator controller 60, by micro-processor interface circuit unit U61, key circuit unit U62, display circuit unit U63, PWM photoelectric isolating circuit unit UA64, PWM drive circuit unit UA65, PWM power amplifier unit UA66, PWM power amplifier output terminal UA67, PWM photoelectric isolating circuit unit UB68, PWM drive circuit unit UB69, PWM power amplifier unit UB70, PWM power amplifier output terminal UB71, amplifier power supply circuit unit U72, power circuit unit U73 forms, micro-processor interface circuit unit U61 respectively with key circuit unit U62, display circuit unit U63, PWM photoelectric isolating circuit unit UA64, PWM photoelectric isolating circuit unit UB68, power circuit unit U73 is connected,

Parameter needed for key circuit unit U62 and display circuit unit U63 inputs, microcontroller circuit unit U61 is according to input parameter, pass through computed in software, micro-processor interface circuit unit U61 output pwm signal is to PWM photoelectric isolating circuit unit UA64, to PWM drive circuit unit UA65, carry out power magnification to PWM power amplifier unit UA66 again, amplifier power supply circuit unit U72, suitable voltage of supply is provided, by suitable pwm signal, by PWM power amplifier output terminal UA67, by wire, electrical signal is delivered to again to ultrasonic transducer A19, by ultrasonic transducer A19, ultrasonic wave is reached by ageing liquid,

Micro-processor interface circuit unit U61 output pwm signal is to PWM photoelectric isolating circuit unit UB68, to PWM drive circuit unit UB69, carry out power magnification to PWM power amplifier unit UB70 again, amplifier power supply circuit unit U72, there is provided suitable voltage of supply, by suitable pwm signal, by PWM power amplifier output terminal UB71, by wire, electrical signal is delivered to again to ultrasonic transducer B19, by ultrasonic transducer B19, ultrasonic wave is reached by ageing liquid.

Further, possibility, above-mentioned ultrasonic wave generator controller 60 can be reduced to a road and export or increase to the output of some roads, and corresponding ultrasonic transducer 18 does respective change.

Further, described solenoid valve controller 80, micro-processor interface circuit unit 81, key circuit unit 82, LCD display circuit unit 83, liquid feed valve driving circuit 84, liquid-outlet valve driving circuit 85, liquor pump Drive and Control Circuit 86 forms, and micro-processor interface circuit unit 81 is connected with key circuit unit 82, LCD display circuit unit 83, liquid feed valve driving circuit 84, liquid-outlet valve driving circuit 85, liquor pump Drive and Control Circuit 86 respectively.

Further, described heating system, by Electromagnetic Heating source 91, recycle pump 92, water pipe 93, temperature sensor 94, heating tube 21 and heating controller 95 form, Electromagnetic Heating source 91 is connected with recycle pump 92 by water pipe 93, and recycle pump 92 is connected with heating tube 21 by water pipe, and heating tube 21 is connected with Electromagnetic Heating source 91 by water pipe, form a closed loop system, there is water centre, and on water pipe 21, perforate is provided with temperature sensor 94, and recycle pump 92 is connected with heating controller 95 respectively with temperature sensor 94.

Further, heating controller 95, micro-processor interface circuit unit H96, key circuit unit H97, display circuit unit H98, sensor input circuit 99, recycle pump output circuit 100, electromagnetic heater 101, power-supply system 102 forms, micro-processor interface circuit unit H96 respectively with key circuit unit H97, display circuit unit H98, sensor input circuit 99, recycle pump output circuit 100, electromagnetic heater 101, heating system power supply 102 is connected.

Compared with prior art, tool has the following advantages the utility model:

1, heating, hertzian wave, ultrasonic wave acting in conjunction are accelerated to be urged the ageing of old liquid,

2, adopt modular design, extension circuit is convenient, breaks down and easily repairs,

3, ultrasonic wave can fill multiple transverter, uses different frequencies to carry out ageing, better effects if.

Accompanying drawing explanation

Accompanying drawing 1 is heating, magnetic field, ultrasonic wave urge old treatment unit fundamental diagram

Accompanying drawing 2 is magnetic field generator controller fundamental diagrams

Accompanying drawing 3 is ultrasonic wave generator controller fundamental diagrams

Accompanying drawing 4 is solenoid valve controller fundamental diagrams

Accompanying drawing 5 is heating system fundamental diagrams

Accompanying drawing 6 is heating-system-controller schematic diagrams

Description of reference numerals:

Reference numeral

10-treater, 11-casing, 12-liquid-inlet pipe, 13-drain pipe, 14-liquid feed valve, 15-liquid-outlet valve, 16-liquor pump, 17-retainer, 18-load coil, 19-ultrasonic transducer, 20-treatment solution,

21-heating tube, 30-principal controller, 40-magnetic field generator controller 41-micro-processor interface circuit unit E, 42-key circuit unit E, 43-display circuit unit E, 44-PWM photoelectric isolating circuit unit EA, 45-PWM drive circuit unit EA, 46-PWM power amplifier unit EA, 47-PWM power amplifier output terminal EA

48-PWM photoelectric isolating circuit unit EB, 49-PWM drive circuit unit EB, 50-PWM power amplifier unit EB, 51-PWM power amplifier output terminal EB, 52-amplifier power supply circuit unit E, 53-power circuit unit E,

60-ultrasonic wave generator controller, 61-micro-processor interface circuit unit U, 62-key circuit unit U, 63-LCD display circuit unit U, 64-SPWM photoelectric isolating circuit unit UA, 65-SPWM drive circuit unit UA, 66-SPWM power amplifier unit UA, 67-SPWM power amplifier output terminal UA, 68-SPWM photoelectric isolating circuit unit UB, 69-SPWM drive circuit unit UB, 70-SPWM power amplifier unit UB, 71-SPWM power amplifier output terminal UB, 72-amplifier power supply circuit unit U, 73-power circuit unit U

80-solenoid valve controller, 81-micro-processor interface circuit unit, 82-key circuit unit, 83-LCD display circuit unit, 84-liquid feed valve driving circuit, 85-liquid-outlet valve driving circuit, 86-liquor pump Drive and Control Circuit,

90-heating system, 91-Electromagnetic Heating source, 92-recycle pump, 93-water pipe, 94-temperature sensor, 95-heating controller,

96-micro-processor interface circuit unit H, 97-key circuit unit H, 98-display circuit unit H, 99-sensor input circuit, 100-recycle pump output circuit, 101-electromagnetic heater, 102-heating system power supply.

Specific embodiment

Below in conjunction with the drawings and specific embodiments, content of the present utility model is described in further details.

1 be described by reference to the accompanying drawings, this device is made up of treater 10 and principal controller 30, treater 10 is connected with controller 30, described treater 10, by casing 11, liquid-inlet pipe 12, drain pipe 13, liquid feed valve 14, liquid-outlet valve 15, the pump housing 16, retainer 17, load coil 18, ultrasonic transducer 19, heating system 90 forms, casing 11 side surface upper part installs liquid-inlet pipe 12, liquid-inlet pipe 12 installs liquid feed valve 14 above, other side lower of casing 11 install drain pipe 13, drain pipe 13 installs liquid-outlet valve 15 above, drain pipe 13 installs out the pump housing 16 above, a ultrasonic transducer 19 is at least installed in the middle part of casing 11 side, ultrasonic transducer 19 opposite flank is installed a ultrasonic transducer 19 is at least installed, retainer 17 one end is fixed on the bottom of casing 11, cable winds forms load coil 18 at some circle above, bottom half and sidewall are provided with heating tube 21.

Further, described principal controller 30 is by magnetic field generator controller 40, ultrasonic wave generator controller 60, solenoid valve controller 80, heating controller 90 forms, and magnetic field generator controller 40, ultrasonic wave generator controller 60, solenoid valve controller 80, heating controller 90 are put into casing and formed principal controller 30.

2 be described by reference to the accompanying drawings, magnetic field generator controller 40, by micro-processor interface circuit unit E41, key circuit unit E42, display circuit unit E43, PWM photoelectric isolating circuit unit EA44, PWM drive circuit unit EA45, PWM power amplifier unit EA46, PWM power amplifier output terminal EA47, PWM photoelectric isolating circuit unit EB48, PWM drive circuit unit EB49, PWM power amplifier unit EB50, PWM power amplifier output terminal EB51, amplifier power supply circuit unit E52, power circuit unit E53 forms, microcontroller circuit unit E41 respectively with key circuit unit E42, display circuit unit E43, PWM photoelectric isolating circuit unit EA44, PWM photoelectric isolating circuit unit EB48 is connected,

Parameter needed for key circuit unit E42 and display circuit unit E43 inputs, microcontroller circuit unit E41 is according to input parameter, pass through computed in software, micro-processor interface circuit unit E41 output pwm signal is to PWM photoelectric isolating circuit unit EA44, to PWM drive circuit unit EA45, carry out power magnification to PWM power amplifier unit EA46 again, amplifier power supply circuit unit E52, suitable voltage of supply is provided, by suitable pwm signal, by PWM power amplifier output terminal EA47, by wire, electrical signal is delivered to again to load coil A18, pulse alternation variable frequency magnetic field is produced in load coil A18, thus say that alternating electromagnetic field acts on by ageing liquid,

Micro-processor interface circuit unit E41 output pwm signal is to PWM photoelectric isolating circuit unit EA48, to PWM drive circuit unit EA49, carry out power magnification to PWM power amplifier unit EA50 again, amplifier power supply circuit unit E52, provides suitable voltage of supply, by suitable pwm signal, by PWM power amplifier output terminal EA51, by wire, electrical signal is delivered to again to load coil B18, in load coil B18, produce pulse alternation variable frequency magnetic field, thus say that alternating electromagnetic field acts on by ageing liquid.

Further, possibility, above-mentioned magnetic field generator controller 40 can be reduced to a road and export or increase to the output of some roads, and respective load coil 18 does respective change.

3 be described by reference to the accompanying drawings, ultrasonic wave generator controller 60, by micro-processor interface circuit unit U61, key circuit unit U62, display circuit unit U63, PWM photoelectric isolating circuit unit UA64, PWM drive circuit unit UA65, PWM power amplifier unit UA66, PWM power amplifier output terminal UA67, PWM photoelectric isolating circuit unit UB68, PWM drive circuit unit UB69, PWM power amplifier unit UB70, PWM power amplifier output terminal UB71, amplifier power supply circuit unit U72, power circuit unit U73 forms, micro-processor interface circuit unit U61 respectively with key circuit unit U62, display circuit unit U63, PWM photoelectric isolating circuit unit UA64, PWM photoelectric isolating circuit unit UB68, power circuit unit U73 is connected,

Parameter needed for key circuit unit U62 and display circuit unit U63 inputs, microcontroller circuit unit U61 is according to input parameter, pass through computed in software, micro-processor interface circuit unit U61 output pwm signal is to PWM photoelectric isolating circuit unit UA64, to PWM drive circuit unit UA65, carry out power magnification to PWM power amplifier unit UA66 again, amplifier power supply circuit unit U72, suitable voltage of supply is provided, by suitable pwm signal, by PWM power amplifier output terminal UA67, by wire, electrical signal is delivered to again to ultrasonic transducer A19, by ultrasonic transducer A19, ultrasonic wave is reached by ageing liquid,

Micro-processor interface circuit unit U61 output pwm signal is to PWM photoelectric isolating circuit unit UB68, to PWM drive circuit unit UB69, carry out power magnification to PWM power amplifier unit UB70 again, amplifier power supply circuit unit U72, there is provided suitable voltage of supply, by suitable pwm signal, by PWM power amplifier output terminal UB71, by wire, electrical signal is delivered to again to ultrasonic transducer B19, by ultrasonic transducer B19, ultrasonic wave is reached by ageing liquid.

Further, possibility, above-mentioned ultrasonic wave generator controller 60 can be reduced to a road and export or increase to the output of some roads, and corresponding ultrasonic transducer 18 does respective change.

4 be described by reference to the accompanying drawings: described solenoid valve controller 80, micro-processor interface circuit unit 81, key circuit unit 82, LCD display circuit unit 83, liquid feed valve driving circuit 84, liquid-outlet valve driving circuit 85, liquor pump Drive and Control Circuit 86 forms, and micro-processor interface circuit unit 81 is connected with key circuit unit 82, LCD display circuit unit 83, liquid feed valve driving circuit 84, liquid-outlet valve driving circuit 85, liquor pump Drive and Control Circuit 86 respectively.

By reference to the accompanying drawings 5, accompanying drawing 6 is described: described heating system, by Electromagnetic Heating source 91, recycle pump 92, water pipe 93, temperature sensor 94, heating tube 21 and heating controller 95 form, Electromagnetic Heating source 91 is connected with recycle pump 92 by water pipe 93, recycle pump 92 is connected with heating tube 21 by water pipe, heating tube 21 is connected with Electromagnetic Heating source 91 by water pipe, and form a closed loop system, there is water centre, on water pipe 21, perforate is provided with temperature sensor 94, and recycle pump 92 is connected with heating controller 95 respectively with temperature sensor 94.

Further, heating controller 95, micro-processor interface circuit unit H96, key circuit unit H97, display circuit unit H98, sensor input circuit 99, recycle pump output circuit 100, electromagnetic heater 101, power-supply system 102 forms, micro-processor interface circuit unit H96 respectively with key circuit unit H97, display circuit unit H98, sensor input circuit 99, recycle pump output circuit 100, electromagnetic heater 101, heating system power supply 102 is connected, and electromagnetic heater 101 is prior aries, does not describe in detail.

Above-listed detailed description is illustrating for the utility model possible embodiments, and this embodiment is also not used to limit the scope of the claims of the present utility model, does not allly depart from the equivalence that the utility model does and implements or change, and all should be contained in the scope of the claims of this case.

Claims (9)

1. a heating, magnetic field, ultrasonic wave urges old treatment unit, be made up of treater (10) and controller (30), treater (10) is connected with principal controller (30), it is characterized in that: described treater (10), by casing (11), liquid-inlet pipe (12), drain pipe (13), liquid feed valve (14), liquid-outlet valve (15), the pump housing (16), retainer (17), load coil (18), ultrasonic transducer (19), heating system (90) forms, casing (11) side surface upper part installs liquid-inlet pipe (12), liquid-inlet pipe (12) installs liquid feed valve (14) above, casing (11) other side lower install drain pipe (13), drain pipe (13) installs liquid-outlet valve (15) above, drain pipe (13) installs out the pump housing (16) above, a ultrasonic transducer (19) is at least installed in the middle part of casing (11) side, ultrasonic transducer (19) opposite flank is installed a ultrasonic transducer (19) is at least installed, retainer (17) one end is fixed on the bottom of casing (11), cable winds forms load coil (18) at some circle above, bottom half and side inwall are provided with heating tube (21).

2. heating according to claim 1, magnetic field, ultrasonic wave urge old treatment unit, it is characterized in that: described principal controller (30) is by magnetic field generator controller (40), ultrasonic wave generator controller (60), solenoid valve controller (80), heating controller (90) forms, and magnetic field generator controller (40), ultrasonic wave generator controller (60), solenoid valve controller (80), heating controller (90) are put into casing and formed principal controller (30).

3. heating according to claim 2, magnetic field, ultrasonic wave urges old treatment unit, it is characterized in that: described magnetic field generator controller (40), by micro-processor interface circuit unit E(41), key circuit unit E(42), display circuit unit E(43), PWM photoelectric isolating circuit unit EA(44), PWM drive circuit unit EA(45), PWM power amplifier unit EA(46), PWM power amplifier output terminal EA(47), PWM photoelectric isolating circuit unit EB(48), PWM drive circuit unit EB(49), PWM power amplifier unit EB(50), PWM power amplifier output terminal EB(51), amplifier power supply circuit unit E(52), power circuit unit E(53) composition, microcontroller circuit unit E(41) respectively with key circuit unit E(42), display circuit unit E(43), PWM photoelectric isolating circuit unit EA(44), PWM photoelectric isolating circuit unit EB(48) be connected,

Key circuit unit E(42) with display circuit unit E(43) input needed for parameter, microcontroller circuit unit E(41) according to input parameter, micro-processor interface circuit unit E(41) output pwm signal is to PWM photoelectric isolating circuit unit EA(44), to PWM drive circuit unit EA(45), again to PWM power amplifier unit EA(46) carry out power magnification, amplifier power supply circuit unit E(52), suitable voltage of supply is provided, by suitable pwm signal, by PWM power amplifier output terminal EA(47), by wire, electrical signal is delivered to again to load coil A(18), at load coil A(18) middle generation pulse alternation variable frequency magnetic field, thus say that alternating electromagnetic field acts on by ageing liquid,

Micro-processor interface circuit unit E(41) output pwm signal is to PWM photoelectric isolating circuit unit EA(48), to PWM drive circuit unit EA(49), again to PWM power amplifier unit EA(50) carry out power magnification, amplifier power supply circuit unit E(52), suitable voltage of supply is provided, by suitable pwm signal, by PWM power amplifier output terminal EA(51), by wire, electrical signal is delivered to again to load coil B(18), at load coil B(18) middle generation pulse alternation variable frequency magnetic field, thus say that alternating electromagnetic field acts on by ageing liquid; Micro-processor interface circuit unit E(41) output pwm signal is to PWM photoelectric isolating circuit unit EA(48), to PWM drive circuit unit EA(49), again to PWM power amplifier unit EA(50) carry out power magnification, amplifier power supply circuit unit E(52), suitable voltage of supply is provided, by suitable pwm signal, by PWM power amplifier output terminal EA(51), by wire, electrical signal is delivered to again to load coil B(18), at load coil B(18) middle generation pulse alternation variable frequency magnetic field, thus say that alternating electromagnetic field acts on by ageing liquid.

4. heating according to claim 3, magnetic field, ultrasonic wave urge old treatment unit, it is characterized in that: described magnetic field generator controller (40) can be reduced to a road and export or increase to the output of some roads, and respective load coil (18) does corresponding minimizing and increase.

5. heating according to claim 2, magnetic field, ultrasonic wave urges old treatment unit, it is characterized in that: described ultrasonic wave generator controller (60), by micro-processor interface circuit unit U(61), key circuit unit U(62), display circuit unit U(63), PWM photoelectric isolating circuit unit UA(64), PWM drive circuit unit UA(65), PWM power amplifier unit UA(66), PWM power amplifier output terminal UA(67), PWM photoelectric isolating circuit unit UB(68), PWM drive circuit unit UB(69), PWM power amplifier unit UB(70), PWM power amplifier output terminal UB(71), amplifier power supply circuit unit U(72), power circuit unit U(73) composition, micro-processor interface circuit unit U(61) respectively with key circuit unit U(62), display circuit unit U(63), PWM photoelectric isolating circuit unit UA(64), PWM photoelectric isolating circuit unit UB(68), power circuit unit U(73) be connected,

Key circuit unit U(62) with display circuit unit U(63) input needed for parameter, microcontroller circuit unit U(61) according to input parameter, micro-processor interface circuit unit U(61) output pwm signal is to PWM photoelectric isolating circuit unit UA(64), to PWM drive circuit unit UA(65), again to PWM power amplifier unit UA(66) carry out power magnification, amplifier power supply circuit unit U(72), suitable voltage of supply is provided, by suitable pwm signal, by PWM power amplifier output terminal UA(67), by wire, electrical signal is delivered to again to ultrasonic transducer A(19), by ultrasonic transducer A(19) ultrasonic wave is reached by ageing liquid,

Micro-processor interface circuit unit U(61) output pwm signal is to PWM photoelectric isolating circuit unit UB(68), to PWM drive circuit unit UB(69), again to PWM power amplifier unit UB(70) carry out power magnification, amplifier power supply circuit unit U(75), suitable voltage of supply is provided, by suitable pwm signal, by PWM power amplifier output terminal UB(71), by wire, electrical signal is delivered to again to ultrasonic transducer B(19), by ultrasonic transducer B(19) ultrasonic wave is reached by ageing liquid.

6. heating according to claim 5, magnetic field, ultrasonic wave urge old treatment unit, it is characterized in that: described ultrasonic wave generator controller (60) can be reduced to a road and export or increase to the output of some roads, and corresponding ultrasonic transducer (18) does and increases or reduce.

7. heating according to claim 2, magnetic field, ultrasonic wave urges old treatment unit, it is characterized in that: described solenoid valve controller (80), by micro-processor interface circuit unit (81), key circuit unit (82), LCD display circuit unit (83), liquid feed valve driving circuit (84), liquid-outlet valve driving circuit (85), liquor pump Drive and Control Circuit (86) forms, micro-processor interface circuit unit (81) respectively with key circuit unit (82), LCD display circuit unit (83), liquid feed valve driving circuit (84), liquid-outlet valve driving circuit (85), liquor pump Drive and Control Circuit (86) is connected.

8. heating according to claim 2, magnetic field, ultrasonic wave urges old treatment unit, it is characterized in that: described heating system (90), by Electromagnetic Heating source (91), recycle pump (92), water pipe (93), temperature sensor (94), heating tube (21) and heating controller (95) composition, Electromagnetic Heating source (91) is connected with recycle pump (92) by water pipe (93), recycle pump (92) is connected with heating tube (21) by water pipe, heating tube (21) is connected with Electromagnetic Heating source (91) by water pipe, form a closed loop system, there is water centre, the upper perforate of water pipe (21) is provided with temperature sensor (94), recycle pump (92) is connected with heating controller (95) respectively with temperature sensor (94), heating controller (95), micro-processor interface circuit unit H(96), key circuit unit H(97), display circuit unit H(98), sensor input circuit (99), recycle pump output circuit (100), electromagnetic heater (101), power-supply system (102) forms, micro-processor interface circuit unit H(96) respectively with key circuit unit H(97), display circuit unit H(98), sensor input circuit (99), recycle pump output circuit (100), electromagnetic heater (101), heating system power supply (102) is connected.

9. heating according to claim 2, magnetic field, ultrasonic wave urges old treatment unit, it is characterized in that: described solenoid valve controller (80), micro-processor interface circuit unit (81), key circuit unit (82), LCD display circuit unit (83), liquid feed valve driving circuit (84), liquid-outlet valve driving circuit (85), liquor pump Drive and Control Circuit (86) forms, micro-processor interface circuit unit (81) respectively with key circuit unit (82), LCD display circuit unit (83), liquid feed valve driving circuit (84), liquid-outlet valve driving circuit (85), liquor pump Drive and Control Circuit (86) is connected.