阅读说明：本技术 一种磁环穿管式臭氧发生器以及具有臭氧处理的污水监测处理系统 (Magnet ring poling formula ozone generator and have ozone treatment's sewage monitoring processing system ) 是由 曹祚 曹恒 于 2019-10-31 设计创作，主要内容包括：本发明提供一种磁环穿管式臭氧发生器以及具有臭氧处理的污水监测处理系统,通过接收预设污水处理运行的预设时段,基于不同时段,污水的不同水质状态预设出磁环与磁环之间的间距,温度阈值以及压力阈值；将每个时段的污水处理数据进行阈值比较,以及将当前的污水处理数据与以往时段进行对比,当前污水处理数据超出预设污水处理阈值或者与往期污水处理数据比较波动超出阈值时,进行污水处理数据报警；将污水处理数据报警信息进行上传,统计。这样便于监控操作人员对污水处理数据的实时管理与跟踪,根据污水处理的需要实时对磁环与磁环之间的间距进行调节,并且能够根据实际需要配置相应数量的臭氧发生机构满足污水处理需求,提升污水处理的效果。(The invention provides a magnetic ring through pipe type ozone generator and a sewage monitoring and treating system with ozone treatment, wherein the distance between a magnetic ring and the magnetic ring, a temperature threshold value and a pressure threshold value are preset in different water quality states of sewage based on different time periods by receiving preset time periods of preset sewage treatment operation; comparing the sewage treatment data of each time interval with a threshold value, comparing the current sewage treatment data with the previous time intervals, and giving an alarm for the sewage treatment data when the current sewage treatment data exceeds a preset sewage treatment threshold value or the current sewage treatment data is compared with the current sewage treatment data and fluctuates to exceed the threshold value; and uploading the sewage treatment data alarm information, and counting. The monitoring operation personnel of being convenient for like this to the real-time management and the trail of sewage treatment data, adjust the interval between magnetic ring and the magnetic ring in real time according to sewage treatment's needs to can dispose the ozone generation mechanism of corresponding quantity according to actual need and satisfy the sewage treatment demand, promote sewage treatment's effect.)

1. A magnetic ring tube-through type ozone generator is characterized by comprising: ozone generation mechanism, ozone generation mechanism includes: the ozone generator comprises an ozone generating tube (2), wherein at least two magnetic rings (1) are sleeved on the ozone generating tube (2); a preset distance is kept between the magnetic ring (1) and the magnetic ring (1); the ozone generating tube (2) is connected with an ozone generating module (4); two ends of the ozone generating pipe (2) are provided with fixing mechanisms (3).

2. The magnetic ring poling ozone generator as claimed in claim 1,

further comprising: a fixed frame (8), at least two ozone generating mechanisms and a moving driving mechanism;

the ozone generating mechanism is arranged on the fixed frame (8) through the fixed mechanism (3);

the magnetic ring (1) is connected with the ozone generating tube (2) in a sliding way;

each ozone generating mechanism is provided with magnetic rings (1) with the same number;

the ozone generating pipes (2) are arranged side by side, and the magnetic rings (1) on each ozone generating mechanism correspond to each other one by one;

the mobile driving mechanism is provided with connecting rods (7) the number of which is the same as that of the magnetic rings (1), a transmission rod (5), a transmission connecting ring (9) and a driving motor (6);

one end of the connecting rod (7) is connected with the magnetic rings (1) arranged in the same row, and the other end of the connecting rod (7) is connected with the transmission connecting ring (9); the transmission connecting ring (9) is sleeved on the transmission rod (5), and the transmission connecting ring (9) is in threaded fit connection with the transmission rod (5);

the output end of the driving motor (6) is connected with the transmission rod (5), and the transmission rod (5) is driven to rotate to drive the magnetic ring (1) to slide on the ozone generating pipe (2).

3. The magnetic ring poling ozone generator as claimed in claim 1,

further comprising: a fixed frame (8), at least two ozone generating mechanisms and a single-action component;

the ozone generating mechanism is arranged on the fixed frame (8) through the fixed mechanism (3);

the magnetic ring (1) is connected with the ozone generating tube (2) in a sliding way;

the ozone generating pipes (2) are arranged side by side, and the magnetic rings (1) on each ozone generating mechanism correspond to each other one by one;

the single-action assembly comprises: the magnetic ring comprises a single-action rack (12), a limiting plate (13), single-action connecting rods (14) and single-action gears (11), wherein the number of the single-action connecting rods is the same as that of the magnetic rings (1);

one end of a single-action connecting rod (14) is connected with the magnetic rings (1) arranged in the same row, and the other end of the single-action connecting rod (14) is connected with a single-action gear (11);

each single-action gear (11) is respectively connected with a single-action rack (12);

each single-action gear (11) is provided with a driving mechanism;

the limit plate (13) is arranged in the space between the magnetic ring (1) and the magnetic ring (1).

4. The magnetic ring poling ozone generator as claimed in claim 1,

the ozone generation module (4) comprises: rectifier U1, resistor R1, resistor R2, resistor R3, resistor R4, resistor R5, capacitor C1, capacitor C2, capacitor C3, capacitor C4, transformer T1, diode D1, thyristor D2 and diode D3;

the input end of the rectifier U1 is connected with a power supply, the first output end of the rectifier U1 is respectively connected with the first end of the capacitor C1, the first end of the resistor R1 and the anode of the diode D1;

a second output end of the rectifier U1 is respectively connected with a second end of the capacitor C1, a second end of the capacitor C2, a second end of the capacitor C3, a second end of the resistor R5 and a cathode of the thyristor D2;

the cathode of the diode D1 is respectively connected with the first end of the resistor R3 and the first end of the capacitor C4;

a first end of the capacitor C3, a second end of the resistor R3 and a second end of the capacitor C4 are respectively connected with a first input end of the transformer T1;

the second end of the resistor R1 is connected with the first end of the resistor R2; a second end of the resistor R2 is respectively connected with a first end of the capacitor C2 and a first end of the diode D3; the sliding end of the resistor R2 is connected with the first end of the diode D3; a second end of the diode D3 is connected with a trigger end of the thyristor D2 and a first end of the resistor R5;

the anode of the thyristor D2 is connected with the second input end of the transformer T1; the output end of the transformer T1 is connected with an ozone generating tube (2);

when the thyristor D2 is not triggered, the ozone generating tube (2) does not generate ozone, and after the thyristor D2 is triggered, the ozone generating amount is controlled by adjusting the resistor R2;

the capacitor C1, the capacitor C2 and the capacitor C4 play a role in filtering;

the resistor R1, the resistor R3 and the resistor R4 play a role in limiting current.

5. A sewage monitoring and treatment system with ozone treatment is characterized by comprising: a sewage treatment tank and a control device (21);

the sewage treatment water tank is provided with the magnetic ring through pipe type ozone generator as claimed in any one of claims 1 to 4, a heater (22), a pressure pump (23), a liquid level meter (24), a pressure sensor (25), a temperature sensor (26), an ozone content sensor (27), a sewage inlet, a clean water outlet and a water quality detector (28);

the magnetic ring pipe-penetrating type ozone generator is fixedly arranged inside the sewage treatment water tank;

the device comprises a pressure sensor (25), a temperature sensor (26), an ozone content sensor (27), a booster pump (23), a heater (22), a liquid level meter (24), an ozone generation module (4) and a water quality detector (28), wherein the pressure sensor, the temperature sensor (26), the ozone content sensor (27), the booster pump (23), the heater (22), the liquid level meter (24), the ozone generation module and the water quality detector (28;

the control device (21) acquires water quality information inside the sewage treatment water tank through the water quality detector (28), and acquires the liquid level height through the liquid level meter (24); obtaining internal pressure information by a pressure sensor (25), internal temperature information by a temperature sensor (26), internal ozone content by an ozone content sensor (27),

the control device (21) controls the ozone generation amount of the magnetic ring through pipe type ozone generator according to the state information of the water quality in the sewage treatment water tank, heats the sewage in the sewage treatment water tank through the heater (22), and pressurizes the sewage in the sewage treatment water tank through the pressurizing pump (23) to achieve the preset sewage treatment condition.

6. The sewage monitoring and treatment system with ozone treatment of claim 5,

the control device (21) is also used for adjusting the distance between the magnetic ring (1) and the magnetic ring (1) by controlling the driving motor (6) or the driving mechanism according to the preset water quality treatment parameters and the ozone generation amount to generate the corresponding ozone generation amount.

7. The sewage monitoring and treatment system with ozone treatment of claim 5,

each magnetic ring through pipe type ozone generator is provided with a magnetic ring position sensor;

the control device (21) is also used for receiving data information sent by the magnetic ring position sensor, the pressure sensor (25), the temperature sensor (26), the ozone content sensor (27), the liquid level meter (24), the water quality detector (28) and the pH sensor in real time, storing the received sewage treatment data by adopting a sewage monitoring platform and making a sewage treatment data trend analysis state table in a preset time period;

the control device (21) presets the distance between the magnetic ring (1) and the magnetic ring (1), the temperature threshold and the pressure threshold according to different water quality states of sewage in different time periods by receiving preset time periods of preset sewage treatment operation;

the control device (21) compares the sewage treatment data of each time interval with a threshold value, compares the current sewage treatment data with the previous time interval, and gives an alarm for the sewage treatment data when the current sewage treatment data exceeds a preset sewage treatment threshold value or fluctuates with the current sewage treatment data to exceed the threshold value;

and uploading, counting and storing the sewage treatment data alarm information.

8. The sewage monitoring and treatment system with ozone treatment of claim 7,

the control device (21) receives a sewage treatment data request of the mobile terminal and sends the sewage treatment data to the corresponding mobile terminal through a network communication protocol;

the control device (21) also receives a magnetic ring movement control instruction sent by the mobile terminal, controls the corresponding magnetic ring to move according to the magnetic ring movement control instruction, and feeds back the movement position information of the magnetic ring through the magnetic ring position sensor.

9. The sewage monitoring and treatment system with ozone treatment of claim 7,

the control device (21) is also used for receiving a sewage treatment monitoring request sent by the mobile terminal by setting a wide area network request interface and returning a sewage treatment monitoring interface to the mobile terminal, and the sewage treatment monitoring end face displays sewage treatment data information and alarm information acquired by the control device (21) in real time;

the mobile terminal establishes a sewage treatment monitoring end face according to the sewage treatment data sent by the control device (21), receives the sewage treatment data sent by the control device (21) in real time, is provided with an html (hypertext markup language) connection port, receives an html connection port instruction, calls a connection control instruction and establishes communication connection with the control device (21);

the mobile terminal integrates and displays the information of the distance between each magnetic ring (1) and each magnetic ring (1) in each ozone generation mechanism, the ozone generation information of each ozone generation mechanism is configured on an online control interface, and the information of the distance between each magnetic ring (1) and each magnetic ring (1) in each ozone generation mechanism is controlled;

the status information of each ozone generating mechanism is displayed in the form of a line, a table, and a graph.

Technical Field

The invention relates to the technical field of ozone generators, in particular to a magnetic ring through pipe type ozone generator and a sewage monitoring and treating system with ozone treatment function.

Background

The concentration of ozone produced by the existing ozone generator is very low, generally not more than about 20%, and the ozone concentration of most of the ozone generators which are applied in a large scale in industry is about 10%. At present, many enterprises at home and abroad want to improve the ozone generation concentration of the ozone generator, but the effect is little. Ozone has been developed and enhanced over a long period of nearly a hundred years since it was discovered in 1870 in germany and electrolysis of dilute sulfuric acid in france to produce ozone and formally named ozone, but with little success. This level is reached only with the efforts of engineers in the world, and it is therefore conceivable that the difficulty of increasing the ozone concentration is very high.

The current method for producing ozone is mainly a sub-plasma method. That is, high voltage is applied to the two electrodes to ionize the gas passing between the two electrodes, and the ionized atoms collide with each other to generate ozone. Based on the principle of ozone synthesis, the method is not widely excavated, and the produced ozone is low, namely the ionization effect of oxygen is good, and the probability of generating ozone by the collision of ionized oxygen atoms is low. The ozone output concentration can not be improved all the time at present.

In some fields where ozone is used, a good treatment cannot be achieved when ozone is used because the concentration of ozone is not high. For example, in the sewage treatment process, because the ozone concentration generation efficiency is not high, a good treatment effect cannot be realized in the sewage treatment process.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a magnetic ring tube-penetrating type ozone generator, which comprises: ozone generation mechanism, ozone generation mechanism includes: the ozone generator comprises an ozone generating tube, wherein at least two magnetic rings are sleeved on the ozone generating tube; a preset distance is kept between the magnetic rings; the ozone generating tube is connected with the ozone generating module; two ends of the ozone generating tube are provided with fixing mechanisms.

Preferably, the method further comprises the following steps: the ozone generator comprises a fixed frame, at least two ozone generating mechanisms and a moving driving mechanism;

the ozone generating mechanism is arranged on the fixed frame through the fixed mechanism;

the magnetic ring is connected with the ozone generating tube in a sliding way;

each ozone generating mechanism is provided with magnetic rings with the same number;

the ozone generating pipes are arranged side by side, and the magnetic rings on each ozone generating mechanism correspond to one another;

the movable driving mechanism is provided with connecting rods, transmission connecting rings and driving motors, wherein the number of the connecting rods is the same as that of the magnetic rings;

one end of the connecting rod is connected with the magnetic rings arranged in the same row, and the other end of the connecting rod is connected with the transmission connecting ring; the transmission connecting ring is sleeved on the transmission rod and is in matched connection with the transmission rod through threads;

the output end of the driving motor is connected with the transmission rod, and the transmission rod is driven to rotate to drive the magnetic ring to slide on the ozone generating pipe.

Preferably, the method further comprises the following steps: the ozone generator comprises a fixed frame, at least two ozone generating mechanisms and a single-action component;

the ozone generating mechanism is arranged on the fixed frame through the fixed mechanism;

the magnetic ring is connected with the ozone generating tube in a sliding way;

the ozone generating pipes are arranged side by side, and the magnetic rings on each ozone generating mechanism correspond to one another;

the single-action assembly comprises: the single-action rack, the limiting plate, the single-action connecting rods and the single-action gears are the same as the magnetic rings in number;

one end of the single-action connecting rod is connected with the magnetic rings arranged in the same row, and the other end of the single-action connecting rod is connected with the single-action gear;

each single-action gear is respectively connected with a single-action rack;

each single-action gear is provided with a driving mechanism;

the spacing plate is arranged in the space between the magnetic rings.

The invention also provides a sewage monitoring and treating system with ozone treatment, comprising: a sewage treatment water tank and a control device;

the sewage treatment water tank is provided with the magnetic ring through pipe type ozone generator, a heater, a booster pump, a liquid level meter, a pressure sensor, a temperature sensor, an ozone content sensor, a sewage inlet, a clean water outlet and a water quality detector which are all arranged in any one of the claims;

the magnetic ring pipe-penetrating type ozone generator is fixedly arranged inside the sewage treatment water tank;

the pressure sensor, the temperature sensor, the ozone content sensor, the booster pump, the heater, the liquid level meter, the ozone generation module and the water quality detector are respectively in communication connection with the control device;

the control device acquires water quality information inside the sewage treatment water tank through the water quality detector, and acquires the liquid level height through the liquid level meter; obtaining internal pressure information through a pressure sensor, obtaining internal temperature information through a temperature sensor, obtaining internal ozone content through an ozone content sensor,

the control device controls the ozone generation amount of the magnetic ring through pipe type ozone generator according to the state information of the water quality in the sewage treatment water tank, heats the sewage in the sewage treatment water tank through the heater, and pressurizes the sewage in the sewage treatment water tank through the pressurizing pump to achieve the preset sewage treatment condition.

Preferably, the control device is further used for adjusting the distance between the magnetic rings by controlling the driving motor or the driving mechanism according to preset water quality treatment parameters and the ozone generation amount to generate corresponding ozone generation amount.

Preferably, each magnetic ring pipe-penetrating type ozone generator is provided with a magnetic ring position sensor;

the control device is also used for receiving data information sent by the magnetic ring position sensor, the pressure sensor, the temperature sensor, the ozone content sensor, the liquid level meter and the water quality detector in real time, storing the received sewage treatment data by adopting a sewage monitoring platform and making a sewage treatment data trend analysis state table in a preset time period;

the control device presets the distance between the magnetic rings, the temperature threshold and the pressure threshold according to different water quality states of sewage in different time periods by receiving preset time periods of preset sewage treatment operation;

the control device compares the sewage treatment data of each time period with a threshold value, compares the current sewage treatment data with the previous time period, and gives an alarm for the sewage treatment data when the current sewage treatment data exceeds a preset sewage treatment threshold value or the current sewage treatment data is compared with the current sewage treatment data and fluctuates beyond the threshold value;

and uploading, counting and storing the sewage treatment data alarm information.

Preferably, the control device receives a sewage treatment data request of the mobile terminal and sends the sewage treatment data to the corresponding mobile terminal through a network communication protocol;

the control device also receives a magnetic ring movement control instruction sent by the mobile terminal, controls the corresponding magnetic ring to move according to the magnetic ring movement control instruction, and feeds back the movement position information of the magnetic ring through the magnetic ring position sensor.

Preferably, the control device is further configured to receive a sewage treatment monitoring request sent by the mobile terminal by setting a wide area network request interface, and return a sewage treatment monitoring interface to the mobile terminal, and the sewage treatment monitoring end face displays sewage treatment data information and alarm information acquired by the control device in real time;

the mobile terminal establishes a sewage treatment monitoring end face according to the sewage treatment data sent by the control device, receives the sewage treatment data sent by the control device in real time, is provided with an html (hypertext markup language) connection port, receives an html connection port instruction, calls a connection control instruction and establishes communication connection with the control device;

the mobile terminal integrates and displays the information of the distance between each magnetic ring and each magnetic ring in each ozone generation mechanism, the ozone generation information of each ozone generation mechanism is configured on an online control interface, and the information of the distance between each magnetic ring and each magnetic ring in each ozone generation mechanism is controlled; the status information of each ozone generating mechanism is displayed in the form of a line, a table, and a graph.

According to the technical scheme, the invention has the following advantages:

the invention is characterized in that a plurality of magnetic rings are arranged at preset intervals in a penetrating way outside the ozone generating tube, thus forming a plurality of step-shaped transverse acting forces to enable the gas containing plasma state oxygen to move forwards like waves. The wave crest of the wave has the most molecular weight, the ion collision probability is the largest, and the ozone generating effect is improved.

According to the invention, the preset time period of the preset sewage treatment operation is received, and the distance between the magnetic rings, the temperature threshold and the pressure threshold are preset according to different water quality states of sewage in different time periods; comparing the sewage treatment data of each time interval with a threshold value, comparing the current sewage treatment data with the previous time intervals, and giving an alarm for the sewage treatment data when the current sewage treatment data exceeds a preset sewage treatment threshold value or the current sewage treatment data is compared with the current sewage treatment data and fluctuates to exceed the threshold value; and uploading, counting and storing the sewage treatment data alarm information. The monitoring operation personnel of being convenient for like this to the real-time management and the trail of sewage treatment data, adjust the interval between magnetic ring and the magnetic ring in real time according to sewage treatment's needs to can dispose the ozone generation mechanism of corresponding quantity according to actual need and satisfy the sewage treatment demand, promote sewage treatment's effect.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description will be briefly introduced, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of a magnetic ring tube-through type ozone generator

FIG. 2 is a schematic view of an embodiment of a magnetic ring tubular ozone generator;

FIG. 3 is a schematic view of an embodiment of a magnetic ring tubular ozone generator;

FIG. 4 is a circuit diagram of an ozone generating module;

FIG. 5 is a schematic view of an embodiment of a sewage monitoring and treatment system with ozone treatment.

Detailed Description

In the present invention, for the production of ozone in a weak plasma state, the plasma is an electric field action, and in the absence of a magnetic field, the plasma moves exactly in the direction of the electric field. In the presence of a magnetic field, the change occurs. Therefore, in order to prevent the plasma from being deviated, a demagnetization process, i.e., a demagnetization process of a metal material around the plasma is performed. For example, in many dc welding applications, arc canting often occurs as a result of external magnetic field interference. Ozone is generated by ionizing oxygen atoms in a weak plasma state and combining the oxygen ions with other atoms. When the atomic reactions are completed, several generation conditions exist, one is that ionization energy is insufficient, and a certain amount of energy is required to be accurately provided to ionize oxygen atoms; secondly, the higher the amount of the ionic oxygen, the higher the collision success rate, and the more chance the ionic oxygen has to collide with other ionic oxygen. In the state of weak plasma electric field, the oxygen atom in ion state is controlled by two or three parameters, one is ionization voltage, the other is physical force in gas pressure direction, and the other is driven by magnetic force, wherein the atom is subjected to two forces: the electric and magnetic forces are two forces perpendicular and the other force is the force in the direction of the fluid. These three forces are all perpendicular to each other. If the magnetic influence is removed, only the electric and fluid force influence remains. In order to increase the collision probability of oxygen ions, not only the oxygen ions are required to move in the fluid direction, but also the ions are required to move in the direction perpendicular to the fluid direction, so that the collision probability of the ions in two directions is increased, and the oxygen ions have more chances to collide into ozone molecules. An integral magnetic sleeve is sleeved outside the ozone generating pipe to increase the moving distance of the gas, which is equivalent to increasing the collision probability of the ozone,

the invention adopts magnetic rings, and ten magnetic rings are distributed at equal intervals, so that a plurality of step-shaped transverse acting forces are formed, and gas moves forwards like waves. The wave crest of the wave has the most molecular weight, the ion collision probability is the largest at the time, and the ozone generating effect is also larger.

The invention is based on the fact that the plasma is acted by three forces in total, one is electric field force, one is magnetic force, and the other is gas pressure. These three forces are all perpendicular to each other. The ozone generating pipe is sleeved with magnetic rings, and the ten magnetic rings are distributed at equal intervals, so that a plurality of step-shaped transverse acting forces are formed, and the gas containing plasma state oxygen moves forwards like waves. It is known that the molecular weight is most concentrated at the wave crest of the wave, and the ion collision probability is the largest, so that the ozone generating effect is larger.

Specifically, the invention relates to a magnetic ring through pipe type ozone generator, as shown in fig. 1, comprising: ozone generation mechanism, ozone generation mechanism includes: the ozone generating device comprises an ozone generating tube 2, wherein at least two magnetic rings 1 are sleeved on the ozone generating tube 2; a preset distance is kept between the magnetic ring 1 and the magnetic ring 1; the ozone generating tube 2 is connected with an ozone generating module 4; the two ends of the ozone generating tube 2 are provided with fixing mechanisms 3.

As a preferred embodiment, as shown in fig. 2, the magnetic ring tubular ozone generator further includes: a fixed frame 8, at least two ozone generating mechanisms and a moving driving mechanism;

the ozone generating mechanism is arranged on the fixed frame 8 through the fixed mechanism 3; the magnetic ring 1 is connected with the ozone generating tube 2 in a sliding way; each ozone generating mechanism is provided with magnetic rings 1 with the same number; the ozone generating pipes 2 are arranged side by side, and the magnetic rings 1 on each ozone generating mechanism correspond one to one; the mobile driving mechanism is provided with connecting rods 7, transmission rods 5, transmission connecting rings 9 and a driving motor 6, wherein the number of the connecting rods 7 is the same as that of the magnetic rings 1; one end of the connecting rod 7 is connected with the magnetic rings 1 arranged in the same row, and the other end of the connecting rod 7 is connected with the transmission connecting ring 9; the transmission connecting ring 9 is sleeved on the transmission rod 5, and the transmission connecting ring 9 is in matched connection with the transmission rod 5 through threads; the output end of the driving motor 6 is connected with the transmission rod 5 to drive the transmission rod 5 to rotate, and the magnetic ring 1 is driven to slide on the ozone generating pipe 2.

Thus, the magnetic ring 1 can be driven to move and adjust the position under the driving of the driving motor 6.

As another embodiment of the present invention, as shown in fig. 3, the present invention further includes: the ozone generator comprises a fixed frame 8, at least two ozone generating mechanisms and a single-action component; the ozone generating mechanism is arranged on the fixed frame 8 through the fixed mechanism 3; the magnetic ring 1 is connected with the ozone generating tube 2 in a sliding way; the ozone generating pipes 2 are arranged side by side, and the magnetic rings 1 on each ozone generating mechanism correspond one to one; the single-action assembly comprises: the magnetic ring comprises a single-acting rack 12, a limiting plate 13, single-acting connecting rods 14 and single-acting gears 11, wherein the number of the single-acting connecting rods is the same as that of the magnetic rings 1; one end of a single-action connecting rod 14 is connected with the magnetic rings 1 arranged in the same row, and the other end of the single-action connecting rod 14 is connected with a single-action gear 11; each single-action gear 11 is respectively connected with a single-action rack 12; each single-action gear 11 is provided with a driving mechanism; the spacing plate 13 is arranged in the space between the magnetic rings 1 and 1.

The position information of one or more magnetic rings 1 can be independently adjusted based on actual needs, so that the ozone generation of the magnetic ring through pipe type ozone generator meets the requirements.

As the ozone generation module 4 related to the present invention, an HY-002 ozone generator or a CD-YQ-20G ozone generator commonly used in the art can be used.

As shown in fig. 4, the preferred ozone generating module 4 of the present invention comprises: rectifier U1, resistor R1, resistor R2, resistor R3, resistor R4, resistor R5, capacitor C1, capacitor C2, capacitor C3, capacitor C4, transformer T1, diode D1, thyristor D2 and diode D3;

the input end of the rectifier U1 is connected with a power supply, the first output end of the rectifier U1 is respectively connected with the first end of the capacitor C1, the first end of the resistor R1 and the anode of the diode D1;

a second output end of the rectifier U1 is respectively connected with a second end of the capacitor C1, a second end of the capacitor C2, a second end of the capacitor C3, a second end of the resistor R5 and a cathode of the thyristor D2;

the cathode of the diode D1 is respectively connected with the first end of the resistor R3 and the first end of the capacitor C4;

a first end of the capacitor C3, a second end of the resistor R3 and a second end of the capacitor C4 are respectively connected with a first input end of the transformer T1; the second end of the resistor R1 is connected with the first end of the resistor R2; a second end of the resistor R2 is respectively connected with a first end of the capacitor C2 and a first end of the diode D3; the sliding end of the resistor R2 is connected with the first end of the diode D3; a second end of the diode D3 is connected with a trigger end of the thyristor D2 and a first end of the resistor R5; the anode of the thyristor D2 is connected with the second input end of the transformer T1; the output end of the transformer T1 is connected with the ozone generating tube 2; when the thyristor D2 is not triggered, the ozone generating tube 2 does not generate ozone, and after the thyristor D2 is triggered, the ozone generating amount is controlled by adjusting the resistor R2; the capacitor C1, the capacitor C2 and the capacitor C4 play a role in filtering; the resistor R1, the resistor R3 and the resistor R4 play a role in limiting current.

As the above mentioned magnet ring tubular ozone generator, the present invention also provides a sewage monitoring and treating system with ozone treatment, as shown in fig. 5, comprising: a sewage treatment tank and control device 21;

the sewage treatment water tank is provided with a magnetic ring through pipe type ozone generator, a heater 22, a booster pump 23, a liquid level meter 24, a pressure sensor 25, a temperature sensor 26, an ozone content sensor 27, a sewage inlet, a clear water outlet and a water quality detector 28; the water quality detector 28 may sense the pH, aeration, and the content of various impurities in the water.

The magnetic ring pipe-penetrating type ozone generator is fixedly arranged inside the sewage treatment water tank; the pressure sensor 25, the temperature sensor 26, the ozone content sensor 27, the booster pump 23, the heater 22, the liquid level meter 24, the ozone generation module 4 and the water quality detector 28 are respectively in communication connection with the control device 21;

the control device 21 acquires water quality information inside the sewage treatment water tank through the water quality detector 28, and acquires the liquid level height through the liquid level meter 24; the internal pressure information is obtained through the pressure sensor 25, the internal temperature information is obtained through the temperature sensor 26, the internal ozone content is obtained through the ozone content sensor 27, the control device 21 controls the ozone generation amount of the magnetic ring through pipe type ozone generator according to the state information of the water quality inside the sewage treatment water tank, the sewage inside the sewage treatment water tank is heated through the heater 22, and the sewage inside the sewage treatment water tank is pressurized through the pressurizing pump 23 to reach the preset sewage treatment condition.

The control means 21 may be implemented in hardware, software, firmware or any combination thereof. Various features are described as modules, units or components that may be implemented together in an integrated logic device or separately as discrete but interoperable logic devices or other hardware devices. In some cases, various features of an electronic circuit may be implemented as one or more integrated circuit devices, such as an integrated circuit chip or chipset.

The control device 21 may be implemented as a processor or an integrated circuit device, such as an integrated circuit chip or chipset. Alternatively or additionally, if implemented in software or firmware, the techniques may implement a data storage medium readable at least in part by a computer, comprising instructions that when executed cause a processor to perform one or more of the above-described methods. For example, a computer-readable data storage medium may store instructions that are executed, such as by a processor.

The control device 21 may comprise a packaging material. The computer-readable medium of data may include computer storage media such as Random Access Memory (RAM), Read Only Memory (ROM), non-volatile random access memory (NVRAM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory, magnetic or optical data storage media, and the like. In some embodiments, an article of manufacture may comprise one or more computer-readable storage media.

Control device 21 may include one or more processors executing, for example, one or more Digital Signal Processors (DSPs), general purpose microprocessors, Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs), or other equivalent integrated or discrete logic circuitry. Thus, the term "processor," as used herein, may refer to any of the foregoing structure or any other structure more suitable for implementing the techniques described herein. In addition, in some aspects, the functionality described in this disclosure may be provided in software modules and hardware modules.

The control device 21 is further configured to adjust the distance between the magnetic ring 1 and the magnetic ring 1 by controlling the driving motor 6 or the driving mechanism according to the preset water quality treatment parameters and the ozone generation amount, so as to generate the corresponding ozone generation amount.

Each magnetic ring through pipe type ozone generator is provided with a magnetic ring position sensor;

the control device 21 is also used for receiving data information sent by the magnetic ring position sensor, the pressure sensor 25, the temperature sensor 26, the ozone content sensor 27, the liquid level meter 24, the water quality detector 28 and the pH sensor in real time, storing the received sewage treatment data by adopting a sewage monitoring platform, and making a sewage treatment data trend analysis state table in a preset time period;

the control device 21 presets the distance between the magnetic ring 1 and the magnetic ring 1, the temperature threshold and the pressure threshold according to different water quality states of sewage in different time periods by receiving preset time periods of preset sewage treatment operation;

the control device 21 compares the sewage treatment data of each time period with a threshold value, compares the current sewage treatment data with the previous time period, and gives an alarm for the sewage treatment data when the current sewage treatment data exceeds a preset sewage treatment threshold value or the current sewage treatment data is compared with the current sewage treatment data and fluctuates to exceed the threshold value; and uploading, counting and storing the sewage treatment data alarm information.

The control device 21 receives a sewage treatment data request of the mobile terminal and sends the sewage treatment data to the corresponding mobile terminal through a network communication protocol;

the control device 21 also receives a magnetic ring movement control instruction sent by the mobile terminal, controls the corresponding magnetic ring to move according to the magnetic ring movement control instruction, and feeds back the movement position information of the magnetic ring through the magnetic ring position sensor.

The control device 21 is further configured to receive a sewage treatment monitoring request sent by the mobile terminal by setting a wide area network request interface, and return a sewage treatment monitoring interface to the mobile terminal, and the sewage treatment monitoring end face displays sewage treatment data information and alarm information acquired by the control device 21 in real time;

the mobile terminal establishes a sewage treatment monitoring end face according to the sewage treatment data sent by the control device 21, receives the sewage treatment data sent by the control device 21 in real time, is provided with an html (hypertext markup language) connection port, receives an html connection port instruction, calls a connection control instruction and establishes communication connection with the control device 21;

the mobile terminal integrates and displays the information of the distance between each magnetic ring 1 and each magnetic ring 1 in each ozone generation mechanism, the ozone generation information of each ozone generation mechanism is configured on an online control interface, and the information of the distance between each magnetic ring 1 and each magnetic ring 1 in each ozone generation mechanism is controlled;

the status information of each ozone generating mechanism is displayed in the form of a line, a table, and a graph.