CN204824371U - Electromagnetic field and ultrasonic wave be anti fouling device in coordination - Google Patents
Electromagnetic field and ultrasonic wave be anti fouling device in coordination Download PDFInfo
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- CN204824371U CN204824371U CN201520427828.5U CN201520427828U CN204824371U CN 204824371 U CN204824371 U CN 204824371U CN 201520427828 U CN201520427828 U CN 201520427828U CN 204824371 U CN204824371 U CN 204824371U
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Abstract
The utility model relates to a circulating water electromagnetism anti fouling device technique especially relates to an electromagnetic field and ultrasonic wave be anti fouling device in coordination, and the device mainly comprises treater 10, controller 20, and electromagnetic field input 14 links to each other through electromagnetic field output lead 51 with controller output end 225, and ultrasonic wave input 15 links to each other with controller output end 229, its characterized in that: the treater comprises flange 11, pipe 12, protective housing 13, electromagnetic field input terminal 14, ultrasonic wave input terminal 15, ultrasonic transducer 16, load coil 17, and the welding of pipe both ends has two flanges 11, and 12 outsides on pipe middle part forms load coil 17 with cable ringing, and ultrasonic transducer 16 passes through pipe middle part trompil and installs ultrasonic transducer 16 on the pipe. The utility model discloses an use electromagnetism and ultrasonic wave scale control in coordination, improved scale control scale removal efficiency with single use electromagnetism scale control or ultrasonic wave scale control.
Description
Technical field
The utility model relates to a kind of recirculated water electromagnetism preventing fouling, particularly relates to a kind of electromagnetic field and ultrasonic synergistic scale prevention device.
Background technology
Single physical field is less on the impact of the physicochemical property of water, and it is the developing direction of physical field antiscale, scale removal that the mixing of physical field is worked in coordination with, and finding one can generally be suitable for, and controls and uses simple physical field mixing preventing fouling to be necessary.Ultrasonic antiscaling technology and electromagnetic field preventing fouling are as two kinds in the physical field preventing fouling used the earliest, its antiscaling effect is remarkable, technical development relative maturity, although antiscale mechanism is not also very thorough, be widely applied in fields such as petrochemical complex, mine metallurgy, medical science and agriculturals as the advanced theoretical exemplary of application.
But by market survey, the equipment that ultrasonic wave and electromagnetic field technology work in coordination with antiscale is not almost had manufacturer production, and the technology of this respect is almost blank.
For above technology and market problem, ultrasonic wave and electromagnetic field are worked in coordination with antiscale, by the combination of two kinds of physical fields, strengthen physical field to process to water mitigation power, raising descaling and antiscaling effect.Summary of the invention
The utility model is for above technical problem, and concrete summary of the invention is as follows:
This device is primarily of treater 10, controller 20 forms, electromagnetic field input terminus 14 is connected by electromagnetic field output lead 51 with controller output end 225, ultrasonic wave input terminus 19 is connected with controller output end 229, it is characterized in that: treater is by flange 11, pipe 12, protective shell 13, electromagnetic field input terminal 14, ultrasonic wave input terminal 19, ultrasonic transducer 18, load coil 17 forms, pipe two ends are welded with two flanges 11, pipe 12 outer Middle face electricity consumption cable is wound load coil 17, ultrasonic transducer 18 is arranged on pipe by perforate in the middle part of pipe by ultrasonic transducer 18, load coil 17 and ultrasonic transducer 18, be with drum-shaped protective shell 13 outward, protective shell there are respectively electromagnetic field input terminus 14 and ultrasonic wave input terminal 19, load coil 17 is connected to electromagnetic field input terminus 14, ultrasonic transducer 18 is connected to ultrasonic wave input terminal 19, electromagnetic field input terminus 14 and ultrasonic wave input terminal 15 are positioned at protective shell 13 side.
Further, described controller forms by host system 21 with from system 22, and host system 21 is connected by communicating circuit unit 216 with from system 22.
Further, the host system 21 of controller is made up of key circuit unit 211, LCD display circuit unit 212, master microprocessor circuit unit 213, communicating circuit unit 216, key circuit unit 211, LCD display circuit unit 212, communicating circuit unit 216, be connected with master microprocessor circuit unit 211 respectively.
Further, from system 22, be by from micro-processor interface circuit unit 221,
PWM photoelectric isolating circuit unit 222, PWM drive circuit unit 223, PWM power amplifier unit 224, PWM power amplifier output terminal 225,
SPWM photoelectric isolating circuit unit 226, SPWM drive circuit unit 227, SPWM power amplifier unit 228, SPWM power amplifier output terminal 229, amplifier power supply circuit unit 2211 form.
Further, the host system 21 of controller 20, required parameter is inputted by key circuit unit 211 and LCD display circuit unit 212, master microprocessor circuit unit 213 is according to input parameter, pass through computed in software, output control signals to communicating circuit unit 216, again to from system 22 from micro-processor interface circuit unit 221, from micro-processor interface circuit unit 221 output pwm signal to PWM photoelectric isolating circuit unit 222, to PWM drive circuit unit 223, carry out power magnification to PWM power amplifier unit 224 again, amplifier power supply circuit unit 2220, suitable voltage of supply is provided, by suitable pwm signal, by hertzian wave output lead 51 signal to be delivered to the hertzian wave input terminus 14 on treater 10 by PWM power amplifier output terminal 225, delivering to load coil 17, alternation variable frequency magnetic field is produced in load coil 17, acted in water body by pipe 12.
Further, the host system 21 of controller 20, required parameter is inputted by key circuit unit 211 and LCD display circuit unit 212, master microprocessor circuit unit 213 is according to input parameter, pass through computed in software, output control signals to communicating circuit unit 216, again to from system 22 from micro-processor interface circuit unit 221, SPWM signal is exported to SPWM photoelectric isolating circuit cell S 226 from micro-processor interface circuit unit 221, to SPWM drive circuit unit B227, carry out power magnification to SPWM power amplifier unit 228 again, amplifier power supply circuit unit 2220, suitable voltage of supply is provided, by suitable SPWM signal, by ultrasonic wave output lead 52 signal to be delivered to the ultrasonic wave input terminus 15 on treater 10 by SPWM power amplifier output terminal 229, delivering to ultrasonic transducer 16, by ul-trasonic irradiation in water body.
Further, the operating frequency of described load coil 17 is 5kHz-25kHz.
Further, the operating frequency of described ultrasonic transducer 16 is 15kHz-35kHz.
Technique effect:
The advantage of this utility model:
1. this utility model uses electromagnetism and ultrasonic synergistic antiscale, improves antiscaling, descaling efficiency with the antiscale of single use electromagnetism or ultrasonic scale prevention.
2. this device in use can not only scale removal and can molten dirt, substantially increases antiscale, descale effect, and employs Dual System Design, improve the reliability of system.
3. this plant automation degree high, install and use more convenient.
4. this utility model uses electromagnetism and ultrasonic synergistic antiscale, belongs to physics and puts dirty technical energy saving environmental protection.
Accompanying drawing explanation
Accompanying drawing 1 is electromagnetic field and ultrasonic synergistic scale prevention device schematic diagram
Accompanying drawing 2 is electromagnetic field and ultrasonic synergistic scale prevention device controller fundamental diagram
Description of reference numerals:
10-treater, 11-flange, 12-pipe, 13-protective shell, 14-electromagnetic field input terminus, 17-load coil, 18-ultrasonic transducer 19-ultrasonic wave input terminus;
20-controller,
21-host system, 211-key circuit unit, 212-LCD display circuit unit, 213-master microprocessor circuit unit, 216-communicating circuit unit.
22-from system, 221-from micro-processor interface circuit unit,
222-PWM photoelectric isolating circuit unit, 223-PWM drive circuit unit, 224-PWM power amplifier unit, 225-PWM power amplifier output terminal,
226-SPWM photoelectric isolating circuit unit, 227-SPWM drive circuit unit, 228-SPWM power amplifier unit, 229-SPWM power amplifier output terminal,
2220-amplifier power supply circuit unit,
41-master slave system power circuit unit,
51-electromagnetic field output cable wire, 52-ultrasonic wave output cable wire.
Embodiment
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
1 be described by reference to the accompanying drawings, electromagnetic field and ultrasonic synergistic scale prevention device are primarily of treater 10, controller 20 forms, electromagnetic field input terminus 14 is connected by electromagnetic field output lead 51 with controller output end 225, ultrasonic wave input terminus 15 is connected with controller output end 229, treater is by flange 11, pipe 12, protective shell 13, electromagnetic field input terminal 14, ultrasonic wave input terminal 15, ultrasonic transducer 16, load coil 17 forms, pipe two ends are welded with two flanges 11, pipe 12 outer Middle face electricity consumption cable is wound load coil 17, ultrasonic transducer 16 is arranged on pipe by perforate in the middle part of pipe by ultrasonic transducer 16, load coil 17 and the outer of ultrasonic transducer 16 are with drum-shaped protective shell 13, protective shell there are respectively electromagnetic field input terminus 14 and ultrasonic wave input terminal 15, load coil 17 is connected to electromagnetic field input terminus 14, ultrasonic transducer 16 is connected to ultrasonic wave input terminal 15, electromagnetic field input terminus 14 and ultrasonic wave input terminal 15 are positioned at protective shell 13 side.
The making processes of above-mentioned load coil is as follows: by the paired cable line of 1.5 square millimeters, is wound on pipe 11 outer wall, and 10 to 150 circles, form load coil 17, load coil 17 two ends are connected to electromagnetic field input terminus 14 on protective shell.
2 be described by reference to the accompanying drawings, above-mentioned controller forms by host system 21 with from system 22, and host system 21 is connected by communicating circuit unit 216 with from system 22.
Further, the host system 21 of controller is made up of key circuit unit 211, LCD display circuit unit 212, master microprocessor circuit unit 213, communicating circuit unit 216, key circuit unit 211, LCD display circuit unit 212, communicating circuit unit 216, be connected with master microprocessor circuit unit 211 respectively.
Further, from system 22, be by from micro-processor interface circuit unit 221,
PWM photoelectric isolating circuit unit 222, PWM drive circuit unit 223, PWM power amplifier unit 224, PWM power amplifier output terminal 225,
SPWM photoelectric isolating circuit unit 226, SPWM drive circuit unit 227, SPWM power amplifier unit 228, SPWM power amplifier output terminal 229, amplifier power supply circuit unit 2211 forms.
Further, the host system 21 of controller 20, required parameter is inputted by key circuit unit 211 and LCD display circuit unit 212, master microprocessor circuit unit 213 is according to input parameter, pass through computed in software, output control signals to communicating circuit unit 216, again to from system 22 from micro-processor interface circuit unit 221, from micro-processor interface circuit unit 221 output pwm signal to PWM photoelectric isolating circuit unit 222, to PWM drive circuit unit 223, carry out power magnification to PWM power amplifier unit 224 again, amplifier power supply circuit unit 2220, suitable voltage of supply is provided, by suitable pwm signal, by hertzian wave output lead 51 signal to be delivered to the hertzian wave input terminus 14 on treater 10 by PWM power amplifier output terminal 225, delivering to load coil 17, alternation variable frequency magnetic field is produced in load coil 17, acted in water body by pipe 12.
Further, the host system 21 of controller 20, required parameter is inputted by key circuit unit 211 and LCD display circuit unit 212, master microprocessor circuit unit 213 is according to input parameter, pass through computed in software, output control signals to communicating circuit unit 216, again to from system 22 from micro-processor interface circuit unit 221, SPWM signal is exported to SPWM photoelectric isolating circuit cell S 226 from micro-processor interface circuit unit 221, to SPWM drive circuit unit B227, carry out power magnification to SPWM power amplifier unit 228 again, amplifier power supply circuit unit 2220, suitable voltage of supply is provided, by suitable SPWM signal, by ultrasonic wave output lead 52 signal to be delivered to the ultrasonic wave input terminus 15 on treater 10 by SPWM power amplifier output terminal 229, delivering to ultrasonic transducer 16, by ul-trasonic irradiation in water body.
Further, the operating frequency of described load coil 17 is 5kHz-25kHz.
Further, the operating frequency of described ultrasonic transducer 16 is 15kHz-35kHz.
Claims (6)
1. an electromagnetic field and ultrasonic synergistic scale prevention device, this device is primarily of treater, controller forms, electromagnetic field input terminus 14 is connected by electromagnetic field output lead with controller output end, ultrasonic wave input terminus is connected with controller output end, it is characterized in that: described treater is by flange, pipe, protective shell, electromagnetic field input terminal, ultrasonic wave input terminal, ultrasonic transducer, load coil forms, pipe two ends are welded with two flanges, load coil is wound with cable in the middle part of outer tube, ultrasonic transducer is arranged on pipe by perforate in the middle part of pipe by ultrasonic transducer, load coil and the outer of ultrasonic transducer are with drum-shaped protective shell, protective shell there are respectively electromagnetic field input terminus and ultrasonic wave input terminal, load coil is connected to electromagnetic field input terminus, ultrasonic transducer is connected to ultrasonic wave input terminal, electromagnetic field input terminus and ultrasonic wave input terminal are positioned at protective shell side.
2. electromagnetic field according to claim 1 and ultrasonic synergistic scale prevention device, it is characterized in that: described controller forms by host system with from system, host system is connected by communicating circuit unit with from system.
3. electromagnetic field according to claim 1 and 2 and ultrasonic synergistic scale prevention device, it is characterized in that, the host system of described controller is made up of key circuit unit, LCD display circuit unit, master microprocessor circuit unit, communicating circuit unit, key circuit unit, LCD display circuit unit, communicating circuit unit, be connected with master microprocessor circuit unit respectively.
4. electromagnetic field according to claim 1 and 2 and ultrasonic synergistic scale prevention device, it is characterized in that: described controller from system, be by from micro-processor interface circuit unit, PWM photoelectric isolating circuit unit, PWM drive circuit unit, PWM power amplifier unit, PWM power amplifier output terminal;
SPWM photoelectric isolating circuit unit, SPWM drive circuit unit, SPWM power amplifier unit, SPWM power amplifier output terminal, amplifier power supply circuit unit form;
The host system of described controller, parameter needed for being inputted by key circuit unit and LCD display circuit unit, master microprocessor circuit unit is according to input parameter, output control signals to communicating circuit unit, again to from system from micro-processor interface circuit unit, from micro-processor interface circuit unit output pwm signal to PWM photoelectric isolating circuit unit, to PWM drive circuit unit, carry out power magnification to PWM power amplifier unit again, amplifier power supply circuit unit, suitable voltage of supply is provided, by suitable pwm signal, by hertzian wave output lead signal to be delivered to the hertzian wave input terminus on treater by PWM power amplifier output terminal, delivering to load coil, alternation variable frequency magnetic field is produced in load coil,
The host system of described controller, parameter needed for being inputted by key circuit unit and LCD display circuit unit, master microprocessor circuit unit is according to input parameter, output control signals to communicating circuit unit, again to from system from micro-processor interface circuit unit, SPWM signal is exported to SPWM photoelectric isolating circuit unit from micro-processor interface circuit unit, to SPWM drive circuit unit, carry out power magnification to SPWM power amplifier unit again, amplifier power supply circuit unit, suitable voltage of supply is provided, by suitable SPWM signal, by ultrasonic wave output lead signal to be delivered to the ultrasonic wave input terminus on treater by SPWM power amplifier output terminal 229, delivering to ultrasonic transducer.
5. electromagnetic field according to claim 1 and ultrasonic synergistic scale prevention device, is characterized in that: the operating frequency of described load coil is 5kHz-25kHz.
6. electromagnetic field according to claim 1 and ultrasonic synergistic scale prevention device, is characterized in that: the operating frequency of described ultrasonic transducer is 15kHz-35kHz.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520427828.5U CN204824371U (en) | 2015-06-20 | 2015-06-20 | Electromagnetic field and ultrasonic wave be anti fouling device in coordination |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520427828.5U CN204824371U (en) | 2015-06-20 | 2015-06-20 | Electromagnetic field and ultrasonic wave be anti fouling device in coordination |
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| Publication Number | Publication Date |
|---|---|
| CN204824371U true CN204824371U (en) | 2015-12-02 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201520427828.5U Expired - Fee Related CN204824371U (en) | 2015-06-20 | 2015-06-20 | Electromagnetic field and ultrasonic wave be anti fouling device in coordination |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106322114A (en) * | 2016-10-17 | 2017-01-11 | 广汉市思科信达科技有限公司 | Viscosity-reduction anti-scaling device for oil pipeline |
| CN106838620A (en) * | 2016-12-26 | 2017-06-13 | 广汉市思科信达科技有限公司 | A kind of petroleum pipeline viscosity reduction scale prevention device |
| CN116081828A (en) * | 2023-02-22 | 2023-05-09 | 华能济宁运河发电有限公司 | Ion form stable descaling and scale preventing device and method for industrial circulating water of power plant |
-
2015
- 2015-06-20 CN CN201520427828.5U patent/CN204824371U/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106322114A (en) * | 2016-10-17 | 2017-01-11 | 广汉市思科信达科技有限公司 | Viscosity-reduction anti-scaling device for oil pipeline |
| CN106838620A (en) * | 2016-12-26 | 2017-06-13 | 广汉市思科信达科技有限公司 | A kind of petroleum pipeline viscosity reduction scale prevention device |
| CN116081828A (en) * | 2023-02-22 | 2023-05-09 | 华能济宁运河发电有限公司 | Ion form stable descaling and scale preventing device and method for industrial circulating water of power plant |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20151202 Termination date: 20160620 |