CN114229965A - Remote control system and method for electrolyzed oxidizing water generator - Google Patents

Abstract

The invention discloses a remote control system and a remote control method for an acidic oxidation potential water generator, and relates to the technical field of potential water generators. The remote control system and the method of the electrolyzed oxidizing water generator can perform online monitoring work on the soft water output, the brine concentration and the current value of an electrolytic tank, adopt a PLC as a control element, adopt a frequency converter, a rotation speed regulator and a phase-shifting trigger as execution elements, can perform good control work on the soft water flow, the brine concentration and the electrolytic voltage, and realize the automation of acid water preparation.

Description

Remote control system and method for electrolyzed oxidizing water generator

Technical Field

The invention relates to the technical field of electrolyzed water generators, in particular to a remote control system and a remote control method for an acidic oxidation electrolyzed water generator.

Background

The electrolyzed oxidizing water is firstly used in the field of medicine because of the obvious sterilization effect on MRSA (methicillin-resistant staphylococcus aureus called super pathogen), and through years of research and practice, the electrolyzed oxidizing water has the advantages of high sterilization efficiency, no residual toxicity after sterilization, no harm to human bodies, no pollution to the environment, environmental protection and the like, and is gradually accepted by people.

However, in the current electrolyzed oxidizing water generator, the inlet and outlet amount of the soft water, the brine concentration and the current of the electrolytic cell are changed in real time, and when the inlet and outlet amount of the soft water, the brine concentration and the current of the electrolytic cell are abnormal, the online control is inconvenient, manual operation control is needed, and the labor intensity of workers is increased.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a remote control system and a remote control method for an electrolyzed oxidizing water generator, which solve the problems that the inlet and outlet amount of soft water, the brine concentration and the current of an electrolytic tank are changed in real time in the whole working process of the conventional electrolyzed oxidizing water generator, when the inlet and outlet amount of the soft water, the brine concentration and the current of the electrolytic tank are abnormal, the soft water generator is inconvenient to control on line, manual operation and control are needed, and the labor intensity of workers is increased.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a remote control system of electrolyzed oxidizing water generator, includes central processing unit and monitoring system, processing system, early warning system and backstage terminal, processing system is used for monitoring soft water and salt solution concentration business turn over state, and monitoring back central processing unit makes processing system control unusual data state, and early warning system sends early warning work simultaneously.

Monitoring system sets up module and data acquisition module including flow sensor and conductivity head, amplifier, AD converter, data comparison module, threshold value, flow sensor is used for monitoring the business turn over water volume of soft water, the conductivity head is used for monitoring the concentration of salt water, the amplifier is used for monitoring the current value at electrolysis trough both ends, the AD converter is used for converting the digital information of flow sensor and conductivity head and amplifier monitoring into analog information, and the data comparison module compares the information of monitoring with the threshold value information in the threshold value setting module after the conversion, judges that the soft water goes into the volume of output and the voltage at salt water concentration and electrolysis trough both ends and whether takes place unusually, and later data acquisition module is gathered the information after judging.

Preferably, the central processing unit is in bidirectional connection with the monitoring system through network communication, the central processing unit is in network communication connection with the processing system, and the processing system is in network communication connection with the early warning system and the background terminal respectively.

Preferably, the threshold values in the threshold value setting module are respectively set as a normal range value of the soft water inlet and outlet amount, a normal range value of the brine concentration and a normal range value of the current at two ends of the electrolytic cell.

Preferably, the processing system comprises a data receiving module, a PLC (programmable logic controller), a D/A converter, a frequency converter, a rotating speed regulator, a phase-shifting trigger, a magnetic pump, a salt pump and a silicon controlled rectifier.

Preferably, the data receiving module is used for receiving the collected information, after receiving, the PLC controller sets the threshold value in the module according to the threshold value, operation processing is carried out, then the D/A converter converts the analog signal of operation into digital signal and respectively transmits the digital signal to the frequency converter, the rotating speed regulator and the phase-shifting trigger, the frequency converter controls the magnetic pump to work, the soft water inlet and outlet amount is adjusted, the rotating speed regulator controls the salt pump to work, the rotating speed of the salt pump is adjusted, the concentration of the salt water is further adjusted, the phase-shifting trigger controls the silicon controlled to work, the current values at two ends of the electrolytic cell are adjusted, the information of PLC controller operation processing is enabled, and the soft water inlet and outlet amount, the salt water concentration and the current values at two ends of the electrolytic cell are enabled to be restored to normal values.

Preferably, the early warning system is including equipment monitoring module and early warning processing module, early warning classification module, controllable early warning module, uncontrollable early warning module and power control module, equipment monitoring module is used for carrying out on-line monitoring to the operating condition of equipment, and when the current value of soft water input and output and salt water concentration and electrolysis trough both ends takes place unusually, early warning processing module makes early warning classification module classify early warning state, makes it divide into controllable early warning module and uncontrollable early warning module.

Preferably, controllable early warning module is used for sending controllable early warning information, shows that soft water input and output and salt water concentration and electrolysis trough both ends electric current take place when unusual, is controllable within range, uncontrollable early warning module is used for sending uncontrollable early warning information, shows that soft water input and output and salt water concentration and electrolysis trough both ends electric current take place when unusual, all is uncontrollable within range, and at this moment uncontrollable early warning module control and its corresponding power supply's operating condition cut off unusual equipment and uncontrollable equipment power, make the timely maintenance of looking over of user.

Preferably, the remote control system of the electrolyzed oxidizing water generator comprises the following steps:

s1, a flow sensor monitors the water inflow and outflow amount of soft water, a conductivity head monitors the concentration of brine, an amplifier monitors the current value at two ends of an electrolytic tank, an A/D converter converts digital information monitored by the flow sensor, the conductivity head and the amplifier into analog information, a data comparison module after conversion compares the monitored information with threshold information in a threshold setting module, judges whether the water inflow and outflow amount, the concentration of the brine and the voltage at two ends of the electrolytic tank are abnormal or not, and a data acquisition module acquires the judged information;

s2, the data receiving module receives the collected information, after receiving, the PLC carries out operation processing according to the threshold value in the threshold value setting module, then the D/A converter converts the analog signal of the operation into digital signals and respectively transmits the digital signals to the frequency converter, the rotating speed regulator and the phase-shifting trigger, the frequency converter controls the magnetic pump to work and adjusts the soft water inlet and outlet amount, the rotating speed regulator controls the salt pump to work and adjusts the rotating speed of the salt pump, further the salt water concentration is adjusted, the phase-shifting trigger controls the silicon controlled to work and adjusts the current values at two ends of the electrolytic cell, so that the information processed by the PLC operation is recovered to normal values by the soft water inlet and outlet amount, the salt water concentration and the current values at two ends of the electrolytic cell;

s3, the equipment monitoring module carries out on-line monitoring to the operating condition of equipment, when the soft water output and the brine concentration and the current value at two ends of the electrolytic cell are abnormal, the early warning processing module makes the early warning classification module classify the early warning condition, and makes the early warning classification module divide into a controllable early warning module and an uncontrollable early warning module, the controllable early warning module sends out controllable early warning information, when the current at two ends of the electrolytic cell is abnormal, the soft water output and the brine concentration are both in a controllable range, the uncontrollable early warning module sends out uncontrollable early warning information, when the current at two ends of the electrolytic cell is abnormal, the soft water output and the brine concentration are both in an uncontrollable range, at the moment, the uncontrollable early warning module controls the operating condition of the power supply equipment corresponding to the uncontrollable early warning module, the abnormal equipment and the uncontrollable equipment power supply are cut off, and the user can check and repair the equipment in time.

Advantageous effects

The invention provides a remote control system and a remote control method for an electrolyzed oxidizing water generator, which have the following beneficial effects compared with the prior art:

1. the remote control system and the remote control method for the electrolyzed oxidizing water generator can perform online monitoring work on the soft water output, the brine concentration and the current value of an electrolytic cell, adopt a PLC as a control element, adopt a frequency converter, a rotating speed regulator and a phase-shifting trigger as execution elements, can perform good control work on the soft water flow, the brine concentration and the electrolytic voltage, realize the automation of acid water preparation, and ensure that the whole design system has the advantages of simple operation, reliable operation, high efficiency and good disinfection effect.

2. According to the remote control system and method for the electrolyzed oxidizing water generator, when the soft water flow, the brine concentration and the electrolytic voltage are abnormal, early warning can be timely sent out, meanwhile, the early warning is divided into controllable early warning and uncontrollable early warning, a user can conveniently manage the system, and the labor intensity of workers is reduced.

Drawings

FIG. 1 is a schematic frame diagram of the present invention;

FIG. 2 is a schematic block diagram of the monitoring system of the present invention;

FIG. 3 is a schematic block diagram of a processing system of the present invention;

FIG. 4 is a schematic block diagram of the early warning system of the present invention;

FIG. 5 is a control flow framework of the present invention.

In the figure: 1. a central processing unit; 2. a monitoring system; 21. a flow sensor; 22. a conductivity head; 23. an amplifier; 24. an A/D converter; 25. a data comparison module; 26. a threshold setting module; 27. a data acquisition module; 3. a processing system; 31. a data receiving module; 32. a PLC controller; 33. a D/A converter; 34. a frequency converter; 35. a rotational speed regulator; 36. a phase shift flip-flop; 37. a magnetic pump; 38. a salt pump; 39. silicon controlled rectifier; 4. an early warning system; 41. a device monitoring module; 42. an early warning processing module; 43. an early warning classification module; 44. a controllable early warning module; 45. an uncontrollable early warning module; 46. a power supply control module; 5. and (6) background terminal.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution, a remote control system for electrolyzed oxidizing water generator, including a central processing unit 1, a monitoring system 2, a processing system 3, an early warning system 4 and a background terminal 5, wherein the processing system 3 is used for monitoring the in-out state of soft water and brine concentration, the central processing unit 1 controls the processing system 3 to abnormal data state after monitoring, and the early warning system 4 gives out early warning work, the central processing unit 1 and the monitoring system 2 are bidirectionally connected through network communication, the central processing unit 1 and the processing system 3 are connected through network communication, and the processing system 3 is respectively connected with the early warning system 4 and the background terminal 5 through network communication.

Referring to fig. 2, in the embodiment of the present invention, the monitoring system 2 includes a flow sensor 21 and a conductivity head 22, an amplifier 23, an a/D converter 24, a data comparing module 25, a threshold setting module 26, and a data collecting module 27, where the flow sensor 21 is configured to monitor the inflow and outflow amount of soft water, the conductivity head 22 is configured to monitor the concentration of brine, the amplifier 23 is configured to monitor the current value at two ends of the electrolytic cell, the a/D converter 24 is configured to convert digital information monitored by the flow sensor 21, the conductivity head 22, and the amplifier 23 into analog information, the data comparing module 25 compares the monitored information with threshold information in the threshold setting module 26 after conversion, determines whether the inflow amount of soft water, the concentration of brine, and the voltage at two ends of the electrolytic cell are abnormal, the data collecting module 27 collects the determined information, and the thresholds in the threshold setting module 26 are respectively set as the normal range value of the inflow amount of soft water and the concentration of brine Normal range values and normal range values of the current across the cell.

Referring to fig. 3, in the embodiment of the present invention, the processing system 3 includes a data receiving module 31, a PLC controller 32, a D/a converter 33, a frequency converter 34, a rotation speed regulator 35, a phase shift trigger 36, a magnetic pump 37, a salt pump 38, and a silicon controlled rectifier 39, the data receiving module 31 is configured to receive the collected information, after receiving the information, the PLC controller 32 performs an operation process according to a threshold value in the threshold setting module 26, and then the D/a converter 33 converts an analog signal of the operation into a digital signal and transmits the digital signal to the frequency converter 34, the rotation speed regulator 35, and the phase shift trigger 36, respectively, the frequency converter 34 controls the magnetic pump 37 to operate to adjust the amount of soft water that enters and exits, the rotation speed regulator 35 controls the salt pump 38 to operate to adjust the rotation speed thereof, thereby adjusting the concentration of brine, the phase shift trigger 36 controls the silicon controlled rectifier 39 to operate to adjust the current values at two ends of the electrolytic cell, the PLC 32 calculates the processed information to restore the inlet and outlet amount of the soft water, the concentration of the salt water and the current value of the two ends of the electrolytic bath to normal values.

Referring to fig. 4, in the embodiment of the present invention, the early warning system 4 includes an equipment monitoring module 41, an early warning processing module 42, an early warning classification module 43, a controllable early warning module 44, an uncontrollable early warning module 45 and a power control module 46, the equipment monitoring module 41 is configured to perform online monitoring on the working state of the equipment, when the soft water inflow and the brine concentration and the current values at the two ends of the electrolyzer are abnormal, the early warning processing module 42 classifies the early warning state by the early warning classification module 43 into the controllable early warning module 44 and the uncontrollable early warning module 45, the controllable early warning module 44 is configured to send out controllable early warning information, which indicates that the soft water inflow and the brine concentration and the currents at the two ends of the electrolyzer are in a controllable range, the uncontrollable early warning module 45 is configured to send out uncontrollable early warning information, which indicates that the soft water inflow and the brine concentrations and the currents at the two ends of the electrolyzer are abnormal, all in uncontrollable within range, at this moment uncontrollable early warning module 45 control rather than corresponding power supply unit's operating condition, cut off unusual equipment and uncontrollable equipment power, make the timely maintenance of looking over of user.

Further, referring to fig. 5, in an embodiment of the present invention, a remote control system for electrolyzed oxidizing water generator includes the following steps:

s1, the flow sensor 21 monitors the water inlet and outlet amount of soft water, the conductivity head 22 monitors the concentration of brine, the amplifier 23 monitors the current values at two ends of the electrolytic cell, the A/D converter 24 converts the digital information monitored by the flow sensor 21, the conductivity head 22 and the amplifier 23 into analog information, the data comparison module 25 after conversion compares the monitored information with the threshold value information in the threshold value setting module 26 to judge whether the soft water inlet and outlet amount, the brine concentration and the voltage at two ends of the electrolytic cell are abnormal or not, and then the data acquisition module 27 acquires the judged information;

s2, the data receiving module 31 receives the collected information, after receiving, the PLC 32 performs operation processing according to the threshold value in the threshold value setting module 26, then the D/A converter 33 converts the analog signal of the operation into digital signal and transmits the digital signal to the frequency converter 34, the rotating speed regulator 35 and the phase-shifting trigger 36 respectively, the frequency converter 34 controls the magnetic pump 37 to work and adjust the input and output amount of the soft water, the rotating speed regulator 35 controls the salt pump 38 to work and adjust the rotating speed thereof, and further adjusts the concentration of the saline water, the phase-shifting trigger 36 controls the silicon controlled rectifier 39 to work and adjusts the current value at the two ends of the electrolytic cell, so that the information of the operation processing of the PLC 32 can be recovered to the normal value by the input and output amount of the soft water, the concentration of the saline water and the current value at the two ends of the electrolytic cell;

s3, the equipment monitoring module 41 carries out on-line monitoring to the working state of the equipment, when the soft water input and output, the brine concentration and the current value at the two ends of the electrolytic tank are abnormal, the early warning processing module 42 makes the early warning classification module 43 classify the early warning states into a controllable early warning module 44 and an uncontrollable early warning module 45, the controllable early warning module 44 sends out controllable early warning information, when the soft water output and the brine concentration and the current at the two ends of the electrolytic cell are abnormal, all the water is in a controllable range, the uncontrollable early warning module 45 sends out uncontrollable early warning information which indicates that the soft water output and the brine concentration as well as the current at the two ends of the electrolytic cell are in uncontrollable ranges when the current is abnormal, at this time, the uncontrollable early warning module 45 controls the working state of the power supply device corresponding to the uncontrollable early warning module, and cuts off the abnormal device and the uncontrollable device power supply, so that the user can check and repair the abnormal device and the uncontrollable device power supply in time.

And those not described in detail in this specification are well within the skill of those in the art.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims (8)

1. A remote control system for electrolyzed oxidizing water generator, characterized in that: the system comprises a central processing unit (1), a monitoring system (2), a processing system (3), an early warning system (4) and a background terminal (5), wherein the processing system (3) is used for monitoring the inlet and outlet states of the concentration of soft water and brine, the central processing unit (1) controls the processing system (3) to abnormal data states after monitoring, and the early warning system (4) gives out early warning work;

the monitoring system (2) comprises a flow sensor (21), a conductivity head (22), an amplifier (23), an A/D converter (24), a data comparison module (25), a threshold setting module (26) and a data acquisition module (27), wherein the flow sensor (21) is used for monitoring the water inflow and outflow of soft water, the conductivity head (22) is used for monitoring the concentration of brine, the amplifier (23) is used for monitoring the current values at two ends of an electrolytic cell, the A/D converter (24) is used for converting the digital information monitored by the flow sensor (21), the conductivity head (22) and the amplifier (23) into analog information, the converted data comparison module (25) compares the monitored information with the threshold information in the threshold setting module (26) and judges whether the water inflow and outflow of the brine concentration and the voltage at two ends of the electrolytic cell are abnormal or not, and then the data acquisition module (27) acquires the judged information.

2. A remote control system for electrolyzed oxidizing water generator according to claim 1, characterized in that: the monitoring system is characterized in that the central processing unit (1) is in bidirectional connection with the monitoring system (2) through network communication, the central processing unit (1) is in network communication connection with the processing system (3), and the processing system (3) is in network communication connection with the early warning system (4) and the background terminal (5) respectively.

3. A remote control system for electrolyzed oxidizing water generator according to claim 1, characterized in that: the threshold value in the threshold value setting module (26) is respectively set as a normal range value of the soft water inlet and outlet amount, a normal range value of the brine concentration and a normal range value of the current at two ends of the electrolytic cell.

4. A remote control system for electrolyzed oxidizing water generator according to claim 1, characterized in that: the processing system (3) comprises a data receiving module (31), a PLC (programmable logic controller) controller (32), a D/A converter (33), a frequency converter (34), a rotating speed regulator (35), a phase-shifting trigger (36), a magnetic pump (37), a salt pump (38) and a silicon controlled rectifier (39).

5. The remote control system of electrolyzed oxidizing water generator according to claim 4, wherein: the data receiving module (31) is used for receiving the collected information, after receiving, the PLC controller (32) performs operation processing according to a threshold value in the threshold value setting module (26), then the D/A converter (33) converts an operated analog signal into a digital signal and respectively transmits the digital signal to the frequency converter (34), the rotating speed regulator (35) and the phase-shifting trigger (36), the frequency converter (34) controls the magnetic pump (37) to work and regulates the input amount of soft water, the rotating speed regulator (35) controls the salt pump (38) to work and regulates the rotating speed of the salt pump, and then the concentration of the salt water is adjusted, the phase-shift trigger (36) controls the silicon controlled rectifier (39) to work, the current value of the two ends of the electrolytic tank is adjusted, the PLC (32) calculates the processed information, and the inlet and outlet amount of the soft water, the concentration of the salt water and the current value of the two ends of the electrolytic tank are recovered to normal values.

6. A remote control system for electrolyzed oxidizing water generator according to claim 1, characterized in that: early warning system (4) are including equipment monitoring module (41) and early warning processing module (42), early warning classification module (43), controllable early warning module (44), uncontrollable early warning module (45) and power control module (46), equipment monitoring module (41) are used for carrying out on-line monitoring to the operating condition of equipment, and when the current value of soft water input and salt water concentration and electrolysis trough both ends takes place unusually, early warning processing module (42) make early warning classification module (43) classify to the early warning state, make it divide into controllable early warning module (44) and uncontrollable early warning module (45).

7. The remote control system of electrolyzed oxidizing water generator according to claim 6, wherein: controllable early warning module (44) are used for sending controllable early warning information, when showing that soft water input and salt water concentration and electrolysis trough both ends electric current take place unusually, are controllable within range, uncontrollable early warning module (45) are used for sending uncontrollable early warning information, when showing that soft water input and salt water concentration and electrolysis trough both ends electric current take place unusually, all are in uncontrollable within range, at this moment uncontrollable early warning module (45) control rather than corresponding power supply unit's operating condition, cut off unusual equipment and uncontrollable device power, make the timely maintenance of looking over of user.

8. A remote control system for electrolyzed oxidizing water generator according to any of claims 1 to 7, characterized in that the control method comprises the following steps:

s1, a flow sensor (21) monitors the water inflow and outflow amount of soft water, a conductivity head (22) monitors the concentration of brine, an amplifier (23) monitors the current value at two ends of an electrolytic tank, an A/D converter (24) converts digital information monitored by the flow sensor (21), the conductivity head (22) and the amplifier (23) into analog information, a data comparison module (25) after conversion compares the monitored information with threshold information in a threshold setting module (26) to judge whether the soft water inflow and outflow amount, the brine concentration and the voltage at two ends of the electrolytic tank are abnormal or not, and a data acquisition module (27) acquires the judged information;

s2, the data receiving module (31) receives the collected information, after the information is received, the PLC (32) performs operation processing according to the threshold value in the threshold value setting module (26), then the D/A converter (33) converts the operated analog signal into a digital signal and respectively transmits the digital signal to the frequency converter (34), the rotating speed regulator (35) and the phase-shifting trigger (36), the frequency converter (34) controls the magnetic pump (37) to work and adjust the input amount of the soft water, the rotating speed regulator (35) controls the salt pump (38) to work and adjust the rotating speed of the salt pump, the concentration of the salt water is further adjusted, the phase-shifting trigger (36) controls the silicon controlled rectifier (39) to work and adjust the current values at the two ends of the electrolytic tank, so that the information processed by the PLC (32) in the operation process can make the input amount of the soft water, the concentration of the salt water and the current values at the two ends of the electrolytic tank return to normal values;

s3, the equipment monitoring module (41) carries out on-line monitoring to the working state of the equipment, when the soft water input and output, the salt water concentration and the current values at the two ends of the electrolytic tank are abnormal, the early warning processing module (42) enables the early warning classification module (43) to classify the early warning state and divide the early warning state into a controllable early warning module (44) and an uncontrollable early warning module (45), the controllable early warning module (44) sends out controllable early warning information which indicates that the soft water input and output, the salt water concentration and the currents at the two ends of the electrolytic tank are abnormal and are both in a controllable range, the uncontrollable early warning module (45) sends out uncontrollable early warning information which indicates that the soft water input and output, the salt water concentration and the currents at the two ends of the electrolytic tank are both in an uncontrollable range, at the moment, the uncontrollable early warning module (45) controls the working state of the power supply equipment corresponding to cut off the abnormal equipment and the uncontrollable power supply, the user can check and overhaul in time.

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