CN211035350U

CN211035350U - Ultrasonic scale prevention electrolytic water treatment equipment

Info

Publication number: CN211035350U
Application number: CN202021068304.9U
Authority: CN
Inventors: 张萍萍
Original assignee: Dongying Meineng Environmental Protection Technology Co ltd
Current assignee: Dongying Meineng Environmental Protection Technology Co ltd
Priority date: 2020-06-11
Filing date: 2020-06-11
Publication date: 2020-07-17
Anticipated expiration: 2030-06-11

Abstract

The utility model relates to a circulating water electrochemical treatment equipment field just discloses an supersound scale control electrolysis water treatment facilities, including controlling means and electrode body, controlling means includes power supply circuit, P L C controller, oscillation circuit drive circuit, and power supply circuit connects P L C controller, oscillation circuit and third drive circuit power end, and the drive circuit input is connected to the oscillation circuit output, and the electrode body's first positive electrode, ultrasonic transducer and second positive electrode are connected respectively to the drive circuit output, the utility model relates to a rationally, simple structure, easy preparation, its alternating electrochemical reaction through barrel and two electrodes realizes getting rid of circulating water scale deposit material and microorganism, has the chemical water treatment medicament of not throwing, does not produce secondary pollution, investment and running cost are low, advantage such as water conservation, energy-conservation, ultrasonic transducer can clear up the adsorbate on electrode surface simultaneously, has made things convenient for the clearance to equipment, ensures the steady operation of electrolysis.

Description

Ultrasonic scale prevention electrolytic water treatment equipment

Technical Field

The utility model relates to a circulating water electrochemical treatment equipment field, concretely relates to supersound scale control electrolysis water treatment facilities.

Background

The circulating cooling water is a large item of water in multiple industries, and the treatment effect of the circulating water is closely related to the water saving and emission reduction efficiency of enterprises. During the operation of the circulating water, due to the processes of ionic reaction, dissolved oxygen, microorganism breeding and the like in water, the problems of scaling, corrosion, microorganisms, slime and the like can be caused, and the normal operation of the system is influenced. The traditional chemical treatment method is to reduce the influence of scaling corrosion by adding certain scale inhibitor, corrosion inhibitor and bactericide, and the method needs to consume a large amount of chemical agents, thereby increasing the operation cost; the treatment effect is limited, so that the concentration rate of circulating water is low, and the consumption of supplemented water is high; the sewage discharge amount is large, the added chemical agents are contained in the sewage, the serious pollution to the water body is caused, and the operating cost of subsequent sewage treatment facilities is increased.

In recent years, with the prominent environmental protection problem and the enhanced environmental protection consciousness, the national requirements for water saving and emission reduction are more and more strict, and a high-efficiency circulating water treatment device with low chemical dosage, less pollution discharge and lower cost is urgently needed to be developed so as to meet the development requirements of enterprises.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an ultrasonic antiscale electrolytic water treatment device aiming at the defects in the prior art.

The technical scheme includes that the ultrasonic anti-scaling electrolyzed water treatment equipment comprises a control device and an electrode body, wherein the control device comprises a power supply circuit, a P L C controller, an oscillating circuit and a driving circuit, the input end of the power supply circuit is connected with a power supply terminal, the positive electrode output end of the power supply circuit is connected with the positive power supply end of the P L C controller, the output end of the P L C controller is respectively connected with the positive power supply ends of a first oscillating circuit and a first driving circuit, the control end of the first oscillating circuit, the positive power supply ends of a second oscillating circuit and a second driving circuit, the control end of the second oscillating circuit, the positive power supply ends of the third oscillating circuit and a third driving circuit, the output end of the first oscillating circuit is connected with the input end of the first driving circuit, the output end of the second oscillating circuit is connected with the input end of the second driving circuit, the output end of the third oscillating circuit is connected with the input end of the third driving circuit, the output end of the first driving circuit is connected with the first positive electrode of the electrode body, the output end of the second oscillating circuit, the electrode body of the ultrasonic transducer, the electrode body, the driving circuit is connected with the negative electrode body, the output end of the power supply circuit, the negative electrode body of the second oscillating circuit, the negative electrode body of the driving circuit and the negative electrode body of the driving circuit are connected with the control end of the power supply ends of the power supply circuit L.

The electrode body comprises an end cover, a cylinder body, a first electrode and a second electrode, the cylinder body is of a cylinder structure made of corrosion-resistant conductive metal, the negative electrode of the electrode body is arranged on the cylinder structure, the upper end of the cylinder body is fixedly connected with the end cover, the end cover is made of corrosion-resistant insulating material, an ultrasonic transducer is embedded in the cylinder structure, the first electrode and the second electrode are both of flat plate structures made of corrosion-resistant conductive metal, the first electrode and the second electrode are arranged at intervals and are respectively fixed on the lower sides of the end cover, and the first electrode and the second electrode are respectively a first positive electrode and a second positive electrode of the electrode body.

The P L C controller is a P L C controller with a touch screen.

The first oscillating circuit and the third oscillating circuit are both pulse generators with frequency control ends and duty ratio control ends.

The second oscillating circuit is an ultrasonic generator with a frequency control end.

Compared with the prior art, the utility model, following beneficial effect has: the device has the advantages of reasonable design, simple structure and easy manufacture, realizes the removal of circulating water scaling substances and microorganisms through the alternate electrochemical reaction of the cylinder and the two electrodes, has the advantages of no addition of chemical water treatment agents, no secondary pollution, low investment and operation cost, water saving, energy saving and the like, and is beneficial to realizing the near zero emission of wastewater; meanwhile, the ultrasonic transducer is added on the upper part of the electrode, so that adsorbates on the surface of the electrode can be cleaned, the cleaning of equipment is facilitated, and the stable operation of electrolysis is guaranteed.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

in the figure, the touch screen comprises a control device 1, an electrode body 2, a power supply terminal 3, a power supply circuit 11, a controller 12, a P L C, a first oscillating circuit 13, a first driving circuit 14, a second oscillating circuit 15, a second driving circuit 16, a third oscillating circuit 17, a third driving circuit 18, a third driving circuit 20, an end cover 21, a first electrode 22, a second electrode 23, an ultrasonic transducer 24, a cylinder body 121 and a touch screen.

Detailed Description

Referring to fig. 1, an ultrasonic anti-scaling electrolyzed water treatment device comprises a control device 1 and an electrode body 2, wherein the control device 1 comprises a power supply circuit 11, a P L C controller 12, an oscillating circuit and a driving circuit, the input end of the power supply circuit 11 is connected with a power supply terminal 3, the positive electrode output end of the power supply circuit 11 is connected with the positive power supply terminal of the P L C controller 12, the output end of the P L C controller 12 is respectively connected with the positive power supply terminals of a first oscillating circuit 13 and a first driving circuit 14, the control terminal of the first oscillating circuit 13, the positive power supply terminals of a second oscillating circuit 15 and a second driving circuit 16, the control terminal of the second oscillating circuit 15, the control terminal of the third oscillating circuit 17 and a third driving circuit 18, the positive power supply terminal of the third oscillating circuit 18 and the control terminal of the third oscillating circuit 17, the output end of the first oscillating circuit 13 is connected with the input end of the first driving circuit 14, the output end of the second oscillating circuit 15 is connected with the input end of the second driving circuit 16, the output end of the third oscillating circuit 17 is connected with the input end of the third driving circuit 18, the output end of the power supply circuit 14 is connected with the negative electrode of the power supply circuit 18, the negative electrode of the power supply circuit of the first oscillating circuit 14, the driving circuit 16 of the negative electrode body of the driving circuit 16 is connected with the negative electrode body of the driving circuit 23, the driving circuit of the second oscillating circuit 16, the driving circuit of the negative electrode of the second oscillating circuit 16 and the driving circuit of the driving circuit 16, the negative electrode of the driving circuit of the electrode body of the driving.

The electrode body 2 comprises an end cover 20, a cylinder body 24, a first electrode 21 and a second electrode 22, the cylinder body 24 is a cylinder structure made of corrosion-resistant conductive metal, the cylinder structure is a negative electrode of the electrode body, the end cover 20 is fixedly connected to the upper end of the cylinder body 24, the end cover 20 is made of corrosion-resistant insulating material, an ultrasonic transducer 23 is embedded in the cylinder structure, the first electrode 21 and the second electrode 22 are both flat plate structures made of corrosion-resistant conductive metal, the first electrode 21 and the second electrode 22 are arranged at intervals and are respectively fixed on the lower side of the end cover 20, the first electrode 21 and the second electrode 22 are respectively a first positive electrode and a second positive electrode of the electrode body, the P L C controller 12 is a P L C controller with a touch screen 121, the first oscillating circuit 13 and the third oscillating circuit 17 are both pulse generators with a frequency control end and a duty ratio control end, and the second oscillating circuit 15 is an ultrasonic generator with a frequency control end.

When the power supply circuit is operated, the P L C controller 12 is firstly set to control the first oscillating circuit 13, the first driving circuit 14, the third oscillating circuit 17 and the third driving circuit 18 to alternately operate at intervals of 1-60 minutes, the output ends of the first oscillating circuit 13 and the third oscillating circuit 17 can automatically output signals with duty ratios of 0% -100% -0% to reciprocate, the P L C controller 12 is set to control the output frequencies of the first oscillating circuit 13 and the third oscillating circuit 17 to be 23-28 Khz, the P L C controller 12 is set to control the output frequency of the second oscillating circuit 15 to be 23-28 Khz, the input voltage of the power supply circuit 11 is universal between 220V and 380V, and the output voltage is direct-current voltage between 12V and 36V.

Under the control of the P L C controller 12, the frequency generated by the first oscillating circuit 13 and the third oscillating circuit 17 is 23-28 KHz, the duty ratio is 0% -100% -0%, and the signals are amplified by the first driving circuit 14 and the third driving circuit 18 and then transmitted to the first electrode 21 and the second electrode 22 to alternately operate at intervals of 1-60 minutes, so that circulating water generates a changed pulse electric field, the intensity of the pulse electric field is periodically changed according to a certain rule, the changed frequency can cover all the dirt frequencies, and therefore the purpose of descaling is achieved.

In the working process, the P L C controller 12 controls the second oscillating circuit 15 to work at an interval of 1-7 days, the output signal of the second oscillating circuit 15 is amplified by the second driving circuit 16 and then is transmitted to the ultrasonic transducer 23, and the vibration of the ultrasonic transducer 23 cleans the adsorbate on the surface of the electrode.

The utility model discloses in power supply circuit 11, P L C controller 12, first oscillating circuit 13, second oscillating circuit 15, third oscillating circuit 17, first drive circuit 14, second drive circuit 16, third drive circuit 18 all belong to the mature circuit of prior art or product, its concrete structural component and theory of operation are not described here again.

The utility model has the advantages of reasonable design, simple structure and easy manufacture, realizes the removal of circulating water scaling substances and microorganisms through the alternative electrochemical reaction of the cylinder body and the two electrodes, has the advantages of no addition of chemical water treatment agent, no secondary pollution, low investment and operation cost, water saving, energy saving and the like, and is beneficial to realizing the near zero emission of wastewater; meanwhile, the ultrasonic transducer is added on the upper part of the electrode, so that adsorbates on the surface of the electrode can be cleaned, the cleaning of equipment is facilitated, and the stable operation of electrolysis is guaranteed.

Claims

1. An ultrasonic antiscale electrolyzed water treatment device comprises a control device and an electrode body, wherein the control device comprises a power supply circuit, a P L C controller, an oscillation circuit and a driving circuit, the input end of the power supply circuit is connected with a power supply terminal, the control device is characterized in that the positive electrode output end of the power supply circuit is connected with the positive power supply terminal of the P L C controller, the output end of the P L C controller is respectively connected with the positive power supply terminals of a first oscillation circuit and a first driving circuit, the control terminal of the first oscillation circuit, the positive power supply terminals of a second oscillation circuit and a second driving circuit, the control terminal of the second oscillation circuit, the positive power supply terminals of a third oscillation circuit and a third driving circuit and the control terminal of the third oscillation circuit, the output end of the first oscillation circuit is connected with the input end of the first driving circuit, the output end of the second driving circuit is connected with the input end of the second driving circuit, the output end of the third oscillation circuit is connected with the input end of the third driving circuit, the output end of the first driving circuit is connected with the positive electrode of the electrode body, the output end of the second driving circuit is connected with an ultrasonic transducer, the output end of the electrode body of the third driving circuit, the negative electrode body of the power supply circuit is connected with the negative electrode body, the negative electrode body of the power supply circuit is connected with the negative electrode L, the negative electrode body of the power supply circuit, and the negative electrode.

2. The ultrasonic scale prevention electrolytic water treatment apparatus according to claim 1, characterized in that: the electrode body comprises an end cover, a cylinder body, a first electrode and a second electrode, the cylinder body is of a cylinder structure made of corrosion-resistant conductive metal, the negative electrode of the electrode body is arranged on the cylinder structure, the upper end of the cylinder body is fixedly connected with the end cover, the end cover is made of corrosion-resistant insulating material, an ultrasonic transducer is embedded in the cylinder structure, the first electrode and the second electrode are both of flat plate structures made of corrosion-resistant conductive metal, the first electrode and the second electrode are arranged at intervals and are respectively fixed on the lower sides of the end cover, and the first electrode and the second electrode are respectively a first positive electrode and a second positive electrode of the electrode body.

3. The ultrasonic scale prevention electrolytic water treatment equipment according to claim 1, wherein the P L C controller is a P L C controller with a touch screen.

4. The ultrasonic scale prevention electrolytic water treatment apparatus according to claim 1, characterized in that: the first oscillating circuit and the third oscillating circuit are both pulse generators with frequency control ends and duty ratio control ends.

5. The ultrasonic scale prevention electrolytic water treatment apparatus according to claim 4, characterized in that: the second oscillating circuit is an ultrasonic generator with a frequency control end.