CN114772873A - Sewage treatment system based on monitoring of Internet of things - Google Patents

Abstract

The invention provides a sewage treatment system based on monitoring of the Internet of things, and relates to the technical field of sewage treatment. This sewage treatment system based on thing networking monitoring, including sewage treatment substation, sewage independent treatment module, data processing platform, sewage treatment master station and sewage total treatment module, the input of sewage independent treatment module is connected to the output of sewage treatment substation, the sewage treatment substation passes through wireless network connection data processing platform. Through the amount of oxidant consumed, phosphorus value in the phosphorus value detection assembly then monitors the quantitative sampling sewage, BOD value detection assembly detects the detection of biochemical oxygen demand of sewage, and the detection data of every group of sewage treatment substation is analyzed by the data processing platform, monitors and correspondingly stores the quality of water in different areas, thereby knows the detailed condition of the quality of water in different areas at the first time, and can rapidly deal with the improvement according to the collected data.

Description

Sewage treatment system based on monitoring of Internet of things

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a sewage treatment system based on monitoring of the Internet of things.

Background

The urban domestic sewage contains more organic matters including carbohydrates, proteins, amino acids, fatty acids, grease, esters and other substances, and has strong biodegradability, but the amount of the urban domestic sewage is large, along with the rapid development of the economy of China, the domestic and production sewage in cities and towns is increased day by day, a sewage pipe network system and sewage treatment infrastructure are incomplete, so that the sewage overflows without being treated, and the problems of pollution of other water bodies such as black and odorous water bodies are frequently caused.

Sewage need be through the sampling monitoring of water intaking sampling equipment before discharging and handles, still need regularly to carry out the spot check to the sewage after handling after sewage discharges, thereby reach the purpose of monitoring sewage treatment effect, avoid substandard sewage to be discharged, the sewage of every region need collect the drainage and finally enter into a total sewage treatment station and carry out the integrated processing, along with the continuous improvement of standard of living, produced sewage quantity risees gradually in the life, total sewage treatment station is handled with the saturated condition, sewage input capacity is higher than the recycle and the treatment effeciency of the direct water resource of influence of state of sewage treatment output quantity, and different regional sewage composition can all be different, composition data can not learn the very first time, also can influence the treatment to in later stage.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a sewage treatment system based on monitoring of the Internet of things, which solves the problems that the existing sewage treatment system needs to independently treat a large amount of sewage, the sewage input quantity is higher than the sewage treatment output quantity, the recycling and treatment efficiency of water resources are influenced, and sewage data in different areas cannot be obtained at the first time and correspondingly treated.

In order to achieve the purpose, the invention is realized by the following technical scheme: a sewage treatment system based on monitoring of the Internet of things comprises sewage treatment substations, a sewage independent treatment module, a data treatment platform, a sewage treatment main station and a sewage main treatment module, wherein the output end of the sewage treatment substations is connected with the input end of the sewage independent treatment module;

the sewage treatment substation comprises a plurality of groups of sewage collecting pipes, a sewage substation collecting pool, a quantitative sampling unit, a pH value detection component, a suspended matter detection component, an ammonia nitrogen value detection component, a COD value detection component, a phosphorus value detection component, a BOD value detection component, a data statistics sending unit and a substation output valve, wherein the plurality of groups of sewage collecting pipes are connected with the input end of the sewage substation collecting pool, the output end of the sewage substation collecting pool is provided with the quantitative sampling unit, the sewage substation collecting pool is internally provided with the pH value detection component, the suspended matter detection component, the ammonia nitrogen value detection component, the COD value detection component, the phosphorus value detection component, the BOD value detection component and the data statistics sending unit, the pH value detection component, the suspended matter detection component, the ammonia nitrogen value detection component, the COD value detection component, the phosphorus value detection component, the BOD value detection component and the data statistics sending unit are connected with the data statistics sending unit through wired network signals, and the output end of the sewage substation collecting tank is connected with a substation output valve.

Preferably, the sewage independent treatment module comprises a substation input valve, an SBR reaction tank, a sewage homogenization unit, a sewage primary sedimentation unit, a biodegradation unit, a sewage secondary sedimentation unit, a discharge output valve and a main station output valve, wherein the output end of the substation input valve is connected with the input end of the SBR reaction tank, the SBR reaction tank is provided with the sewage homogenization unit, the sewage primary sedimentation unit, the biodegradation unit and the sewage secondary sedimentation unit, and the output end of the SBR reaction tank is respectively connected with the discharge output valve and the main station output valve.

Preferably, the data processing platform comprises a data statistics receiving unit, a data classification storage unit, a data classification reading unit, a data classification comparison unit and an output valve control unit, wherein the data statistics receiving unit is connected with the data classification storage unit through a wired network signal, the data classification storage unit is connected with the data classification reading unit through a wired network signal, the data classification reading unit is connected with the data classification comparison unit through a wired network signal, and the data classification comparison unit is connected with the output valve control unit through a wired network signal.

Preferably, the sewage treatment station includes station input valve, sewage station collecting pit and handles the output valve, station input valve electric connection station output valve, the input of sewage station collecting pit is connected to the output of station input valve, the collection output of sewage station collecting pit is connected and is handled the output valve, the output of handling the output valve is connected and is slowed down the input of flow pipeline subassembly.

Preferably, the sewage treatment module includes a treatment input valve, a biological filter, a biological membrane adsorption unit, a biological membrane oxidation unit, a sewage aeration unit, a sewage precipitation unit and a master station discharge valve, wherein the input end of the treatment input valve is connected with a slow flow pipeline assembly, the output end of the treatment input valve is connected with the input end of the biological filter, the biological filter is provided with the biological membrane adsorption unit, the biological membrane oxidation unit, the sewage aeration unit and the sewage precipitation unit, and the output end of the biological filter is connected with the master station discharge valve.

Preferably, the output end of the sewage homogenizing unit is connected with the input end of the sewage primary sedimentation unit, the output end of the sewage primary sedimentation unit is connected with the input end of the biodegradation unit, and the output end of the biodegradation unit is connected with the input end of the sewage secondary sedimentation unit.

Preferably, the data statistics receiving unit is connected with the data statistics transmitting unit through a wireless network signal, and the output valve control unit is respectively connected with the discharge output valve and the master station output valve through a wireless network signal.

Preferably, the output end of the biofilm adsorption unit is connected with the input end of the biofilm oxidation unit, the output end of the biofilm oxidation unit is connected with the input end of the sewage aeration unit, and the output end of the sewage aeration unit is connected with the input end of the sewage sedimentation unit.

The working principle is as follows: firstly, a plurality of sewage treatment substations for collecting sewage are arranged at each gathering point, each sewage treatment substation is provided with a sewage independent treatment module for rapid sewage treatment, a sewage substation collecting pool included in each sewage treatment substation gathers and temporarily stores outside sewage through a plurality of groups of sewage collecting pipes, a quantitative sampling unit correspondingly arranged in each group of sewage treatment substations carries out quantitative sampling on the sewage and a pH value detection assembly carries out hydrogen ion concentration index detection on the sewage temporarily stored in the sewage substation collecting pool, namely the ratio of the total number of hydrogen ions in the sewage to the total substance content is counted by a data counting and sending unit, a suspended matter detection assembly detects the value of suspended matters in the temporarily stored sewage, an ammonia nitrogen value detection assembly detects the ammonia nitrogen content of the temporarily stored sewage, a COD value detection assembly treats a water sample by fusing the sewage subjected to quantitative sampling with a certain strong oxidant, detecting the specific value of reducing substances and the amount of consumed oxidant in water, monitoring the phosphorus-containing value in the quantitative sampling sewage by a phosphorus-containing value detecting component, detecting the biochemical oxygen demand of the sewage by a BOD value detecting component, counting the detection values of the pH value detecting component, the suspended matter detecting component, the ammonia nitrogen value detecting component, the COD value detecting component, the phosphorus-containing value detecting component and the BOD value detecting component which are included in each group of sewage treatment substations by a data counting and sending unit and correspondingly sending the statistics values to a data processing platform arranged in a sewage treatment main station, analyzing the detection data of each group of sewage treatment substations by the data processing platform, receiving the data of the data counting and sending unit of each group of sewage treatment substations by a data counting and receiving unit through a wireless network, correspondingly storing the data by a data classifying and storing unit and correspondingly reading the data by a data classifying and reading unit, the data classification comparison unit directly compares the data read by the data classification reading unit with the deviation of a normal value to judge the sewage treatment force of each group of sewage treatment substations and utilizes the output valve control unit to control the discharge output valve and the master station output valve, the sewage independent treatment module correspondingly configured to each group of sewage treatment substations can treat the sewage collected by the sewage substation collection pool by opening the corresponding substation output valve, the opening of the substation input valve enables the sewage to flow into the SBR reaction pool, the sewage homogenization unit arranged in the SBR reaction pool carries out homogenization treatment on the sewage, and carries out primary sedimentation and filtration through the sewage primary sedimentation unit, then the biodegradation unit carries out primary biodegradation, and finally the secondary sedimentation and filtration are carried out by the sewage secondary sedimentation unit to complete the basic sewage treatment of the corresponding sewage treatment substations, the output valve control unit originally included by the data treatment platform can correspondingly open the discharge output valve or the master station output valve, the sewage quality can reach the standard after the basic treatment and is directly discharged by the corresponding discharge output valve, the sewage which can not be treated by the basic treatment is uniformly conveyed into the sewage treatment main station by the main station output valve, the main station input valve is opened to drain the sewage conveyed by each sewage treatment sub-station into the sewage main station collecting pool, the sewage slowly flows into the sewage main treatment module for strengthening treatment by opening the treatment output valve, the sewage after the slow flow pipeline assembly slowly flows into the biological filter pool by opening the treatment input valve, the biological membrane adsorption unit arranged in the biological filter pool firstly carries out biological membrane reaction adsorption treatment on the sewage after the basic treatment, then carries out primary biological membrane covering oxidation treatment by the biological membrane oxidation unit, and finally carries out primary air aeration, oxygenation and stirring by the sewage aeration unit, through the three-time precipitation of the sewage precipitation unit, impurities in sewage treatment are completely precipitated and separated, the reinforced treatment of sewage is completed, and finally the sewage is discharged through a main station discharge valve.

The invention provides a sewage treatment system based on monitoring of the Internet of things. The method has the following beneficial effects:

1. the invention carries out the quantitative sampling of the sewage by the quantitative sampling units correspondingly arranged in the sewage treatment substations, carries out the hydrogen ion concentration index detection of the sewage temporarily stored in the sewage substation collecting tanks by the pH value detection component, namely the ratio of the total number of the hydrogen ions in the sewage to the total substance content, and carries out statistics by the data statistics sending unit, the suspended matter detection component detects the value of the suspended matter in the temporarily stored sewage, the ammonia nitrogen value detection component detects the ammonia nitrogen content of the temporarily stored sewage, the COD value detection component treats the water sample by fusing the sewage subjected to the quantitative sampling by a certain strong oxidant, detects the specific value of the reducing substance and the consumed oxidant amount in the water, the phosphorus value detection component monitors the phosphorus value in the sewage subjected to the quantitative sampling, the BOD value detection component detects the biochemical oxygen demand of the sewage, and the data processing platform analyzes the detection data of each group of the sewage treatment substations, carry out the correspondence through data classification storage unit and store, monitor and correspond the storage to the quality of water in different regions to the first time knows the detailed condition of different regional quality of water, thereby can deal with fast according to the data of collecting and administer.

2. The invention carries out first time detection on the sewage through the pH value detection component, the suspended matter detection component, the ammonia nitrogen value detection component, the COD value detection component, the phosphorus value detection component and the BOD value detection component which are arranged in each sewage treatment substation, the data classification reading unit is used for reading correspondingly, the data classification comparison unit is used for directly comparing the deviation between the data read by the data classification reading unit and a normal value to judge the sewage treatment force of each group of sewage treatment substations and controlling the discharge output valve and the master station output valve by using the output valve control unit, so that sewage is judged to be only subjected to basic independent sewage treatment or enter the master station for strengthening treatment according to the component data of the sewage, the pressure of sewage treatment is shared for the master station, and the efficiency of sewage treatment is also improved.

Drawings

FIG. 1 is a schematic diagram of a system flow architecture of the present invention;

FIG. 2 is a schematic view of the sewage treatment substation system according to the present invention;

FIG. 3 is a schematic diagram of the sewage independent treatment module system architecture of the present invention;

FIG. 4 is a system architecture diagram of a data processing platform according to the present invention;

FIG. 5 is a schematic view of the sewage treatment station system according to the present invention;

FIG. 6 is a schematic diagram of the system architecture of the total wastewater treatment module according to the present invention.

Wherein, 1, sewage treatment substation; 2. a sewage independent treatment module; 3. a data processing platform; 4. a sewage treatment main station; 5. a sewage total treatment module; 101. a sewage collecting pipe; 102. a sewage substation collecting tank; 103. a quantitative sampling unit; 104. a pH detection component; 105. a suspended matter detection assembly; 106. an ammonia nitrogen value detection assembly; 107. a COD value detection component; 108. a phosphorus value detection component; 109. a BOD value detection component; 110. a data statistics transmitting unit; 111. a substation output valve; 201. a substation input valve; 202. an SBR reaction tank; 203. a sewage homogenization unit; 204. a sewage primary sedimentation unit; 205. a biodegradation unit; 206. a sewage secondary sedimentation unit; 207. a discharge output valve; 208. a master station output valve; 301. a data statistics receiving unit; 302. a data classification storage unit; 303. a data classification reading unit; 304. a data classification comparison unit; 305. an output valve control unit; 401. a master station input valve; 402. a sewage main station collecting tank; 403. processing the output valve; 404. a slow flow pipe assembly; 501. processing the input valve; 502. a biological filter; 503. a biofilm adsorption unit; 504. a biofilm oxidation unit; 505. a sewage aeration unit; 506. a sewage precipitation unit; 507. a master station drain valve.

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.

The embodiment is as follows:

as shown in fig. 1 to 6, an embodiment of the present invention provides a sewage treatment system based on monitoring of the internet of things, including a sewage treatment substation, a sewage independent treatment module, a data processing platform, a sewage treatment main station and a sewage total treatment module, wherein an output end of the sewage treatment substation is connected to an input end of the sewage independent treatment module, the sewage treatment substation is connected to the data processing platform through a wireless network, the data processing platform is connected to the sewage treatment main station through a wireless network, an output end of the sewage independent treatment module is connected to an input end of the data processing platform, and an output end of the sewage treatment main station is connected to an input end of the sewage total treatment module;

the sewage treatment substation comprises a plurality of groups of sewage collecting pipes, a sewage substation collecting pool, a quantitative sampling unit, a pH value detection component, a suspended matter detection component, an ammonia nitrogen value detection component, a COD value detection component, a phosphorus value detection component, a BOD value detection component, a data statistics sending unit and a substation output valve, wherein the plurality of groups of sewage collecting pipes are connected with the input end of the sewage substation collecting pool, the output end of the sewage substation collecting pool is provided with the quantitative sampling unit, the sewage substation collecting pool is internally provided with the pH value detection component, the suspended matter detection component, the ammonia nitrogen value detection component, the COD value detection component, the phosphorus value detection component, the BOD value detection component, the data statistics sending unit, the pH value detection component, the suspended matter detection component, the ammonia nitrogen value detection component, the COD value detection component, the phosphorus value detection component, the data statistics sending unit and the data statistics sending unit are connected with the data statistics sending unit through wired network signals, the output end of the sewage substation collecting pool is connected with a substation output valve, a plurality of sewage treatment substations for collecting sewage are arranged at each gathering point, each sewage treatment substation is provided with a sewage independent treatment module for rapid sewage treatment, the sewage substation collecting pool included in each sewage treatment substation gathers and temporarily stores external sewage through a plurality of groups of sewage collecting pipes, a quantitative sampling unit correspondingly arranged in each group of sewage treatment substations carries out quantitative sampling on the sewage and a pH value detection assembly carries out hydrogen ion concentration index detection on the sewage temporarily stored in the sewage substation collecting pool, namely the ratio of the total number of hydrogen ions in the sewage to the total substance content, and the statistics is carried out through a data statistics sending unit, a suspended matter detection assembly detects the value of suspended matters in the temporarily stored sewage, and an ammonia nitrogen value detection assembly detects the ammonia nitrogen content of the temporarily stored sewage, the COD value detection assembly treats a water sample by fusing certain strong oxidant to the sewage subjected to quantitative sampling, detects the specific numerical value of reducing substances and the consumed oxidant amount in the water, monitors the phosphorus-containing numerical value in the sewage subjected to quantitative sampling, detects the biochemical oxygen demand of the sewage by the BOD value detection assembly, and counts and correspondingly sends the detection numerical values of the pH value detection assembly, the suspended matter detection assembly, the ammonia nitrogen value detection assembly, the COD value detection assembly, the phosphorus value detection assembly and the BOD value detection assembly which are included in each group of sewage treatment substation to a data processing platform arranged at a sewage treatment main station through a data statistics sending unit.

The sewage independent treatment module comprises a substation input valve, an SBR reaction tank, a sewage homogenization unit, a sewage primary sedimentation unit, a biodegradation unit, a sewage secondary sedimentation unit, a discharge output valve and a master station output valve, wherein the output end of the substation input valve is connected with the input end of the SBR reaction tank, the SBR reaction tank is provided with the sewage homogenization unit, the sewage primary sedimentation unit, the biodegradation unit and the sewage secondary sedimentation unit, the output end of the SBR reaction tank is respectively connected with the discharge output valve and the master station output valve, the output end of the sewage homogenization unit is connected with the input end of the sewage primary sedimentation unit, the output end of the sewage primary sedimentation unit is connected with the input end of the biodegradation unit, the output end of the biodegradation unit is connected with the input end of the sewage secondary sedimentation unit, and the sewage independent treatment modules correspondingly configured for each group of the sewage treatment substations can treat the sewage collected by opening the corresponding substation output valves, opening of substation input valve makes sewage flow into SBR reaction tank, sewage homogenization unit that SBR reaction tank set up carries out homogenization treatment to sewage, and carry out primary sedimentation through sewage primary sedimentation unit and filter, carry out primary biodegradation by the biodegradation unit again, carry out secondary sedimentation by sewage secondary sedimentation unit at last and filter after, accomplish the basic sewage treatment that corresponds the sewage treatment substation, the output valve control unit that originally included by the data processing platform can correspond and open emission output valve or total station output valve, sewage quality can reach the sewage treatment substation of mark after by basic processing and carry out direct emission by corresponding emission output valve, and can't be unified by basic treatment's sewage and carry to the sewage treatment in the total station through total station output valve.

The data processing platform comprises a data statistics receiving unit, a data classification storage unit, a data classification reading unit, a data classification comparison unit and an output valve control unit, wherein the data statistics receiving unit is connected with the data classification storage unit through a wired network signal, the data classification storage unit is connected with the data classification reading unit through a wired network signal, the data classification reading unit is connected with the data classification comparison unit through a wired network signal, the data classification comparison unit is connected with the output valve control unit through a wired network signal, the data statistics receiving unit is connected with the data statistics sending unit through a wireless network signal, the output valve control unit is respectively connected with a discharge output valve and a master station output valve through a wireless network signal, the data processing platform analyzes the detection data of each group of sewage processing substations, the data statistics receiving unit receives the data of the data statistics sending unit of each group of sewage processing substations through a wireless network, the data classification storage unit is used for correspondingly storing the data and the data classification reading unit is used for correspondingly reading the data, the data classification comparison unit is used for directly comparing the deviation between the data read by the data classification reading unit and a normal value to judge the sewage treatment force of each group of sewage treatment substations and control the discharge output valve and the master station output valve by the output valve control unit.

The sewage treatment master station includes the master station input valve, sewage master station collecting pit and processing output valve, master station input valve electric connection master station output valve, the input of sewage master station collecting pit is connected to the output of master station input valve, the collection output connection processing output valve of sewage master station collecting pit, the input of slow flow pipeline subassembly is connected to the output of processing output valve, carry sewage drainage to the sewage master station collecting pit with each sewage treatment substation after master station input valve opens, the rethread is opened and is handled the output valve and make sewage enter into sewage master treatment module through slow flow pipeline subassembly slow flow and carry out the enhancement processing.

The sewage total treatment module comprises a treatment input valve, a biological filter, a biological membrane adsorption unit, a biological membrane oxidation unit, a sewage aeration unit, a sewage precipitation unit and a master station discharge valve, wherein the input end of the treatment input valve is connected with a slow flow pipeline assembly, the output end of the treatment input valve is connected with the input end of the biological filter, the biological filter is provided with the biological membrane adsorption unit, the biological membrane oxidation unit, the sewage aeration unit and the sewage precipitation unit, the output end of the biological filter is connected with the master station discharge valve, the output end of the biological membrane adsorption unit is connected with the input end of the biological membrane oxidation unit, the output end of the biological membrane oxidation unit is connected with the input end of the sewage aeration unit, the output end of the sewage aeration unit is connected with the input end of the sewage precipitation unit, the opening of the treatment input valve enables sewage after the slow flow pipeline assembly to flow into the biological filter, the biological membrane adsorption unit arranged in the biological filter firstly carries out biological membrane reaction adsorption treatment on the sewage after basic treatment, and then carrying out primary biological film-covering oxidation treatment by the biological film oxidation unit, finally carrying out primary air aeration, oxygenation and stirring by the sewage aeration unit, carrying out tertiary precipitation by the sewage precipitation unit, completely precipitating and separating impurities for sewage treatment, finishing reinforced treatment of sewage, and finally discharging through a master station discharge valve.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a sewage treatment system based on thing networking monitoring, includes sewage treatment substation (1), sewage independent processing module (2), data processing platform (3), sewage treatment master station (4) and sewage master processing module (5), its characterized in that: the output end of the sewage treatment substation (1) is connected with the input end of the sewage independent treatment module (2), the sewage treatment substation (1) is connected with the data processing platform (3) through a wireless network, the data processing platform (3) is connected with the sewage treatment main station (4) through a wireless network, the output end of the sewage independent treatment module (2) is connected with the input end of the data processing platform (3), and the output end of the sewage treatment main station (4) is connected with the input end of the sewage treatment main module (5);

the sewage treatment substation (1) comprises a plurality of groups of sewage collecting pipes (101), a sewage substation collecting pool (102), a quantitative sampling unit (103), a pH value detection assembly (104), a suspended matter detection assembly (105), an ammonia nitrogen value detection assembly (106), a COD value detection assembly (107), a phosphorus value detection assembly (108), a BOD value detection assembly (109), a data statistics sending unit (110) and a substation output valve (111), wherein the sewage collecting pipes (101) are connected with the input end of the sewage substation collecting pool (102), the output end of the sewage substation collecting pool (102) is provided with the quantitative sampling unit (103), the inside of the sewage substation collecting pool (102) is provided with the pH value detection assembly (104), the suspended matter detection assembly (105), the ammonia nitrogen value detection assembly (106), the COD value detection assembly (107), the phosphorus value detection assembly (108), BOD value detection subassembly (109) and data statistics send unit (110), pH value detection subassembly (104), suspended solid detection subassembly (105), ammonia nitrogen value detection subassembly (106), COD value detection subassembly (107), phosphorus value detection subassembly (108), BOD value detection subassembly (109) and data statistics send unit (110) are through wired network signal connection data statistics send unit (110), branch station output valve (111) is connected to the output of sewage branch station collecting pit (102).

2. The sewage treatment system based on the monitoring of the internet of things according to claim 1, wherein: the sewage independent treatment module (2) comprises a substation input valve (201), an SBR reaction tank (202), a sewage homogenization unit (203), a sewage primary sedimentation unit (204), a biodegradation unit (205), a sewage secondary sedimentation unit (206), a discharge output valve (207) and a main station output valve (208), wherein the output end of the substation input valve (201) is connected with the input end of the SBR reaction tank (202), the SBR reaction tank (202) is provided with the sewage homogenization unit (203), the sewage primary sedimentation unit (204), the biodegradation unit (205) and the sewage secondary sedimentation unit (206), and the output end of the SBR reaction tank (202) is respectively connected with the discharge output valve (207) and the main station output valve (208).

3. The sewage treatment system based on the monitoring of the internet of things according to claim 1, wherein: the data processing platform (3) comprises a data statistics receiving unit (301), a data classification storage unit (302), a data classification reading unit (303), a data classification comparison unit (304) and an output valve control unit (305), wherein the data statistics receiving unit (301) is connected with the data classification storage unit (302) through a wired network signal, the data classification storage unit (302) is connected with the data classification reading unit (303) through a wired network signal, the data classification reading unit (303) is connected with the data classification comparison unit (304) through a wired network signal, and the data classification comparison unit (304) is connected with the output valve control unit (305) through a wired network signal.

4. The sewage treatment system based on monitoring of the Internet of things as claimed in claim 1, wherein: the sewage treatment station (4) includes master station input valve (401), master station collecting pit of sewage (402) and handles output valve (403), master station input valve (401) electric connection master station output valve (208), the input of the master station collecting pit of sewage (402) is connected to the output of master station input valve (401), the collection output of master station collecting pit of sewage (402) is connected and is handled output valve (403), the input of slow flow piping assembly (404) is connected to the output of handling output valve (403).

5. The sewage treatment system based on the monitoring of the internet of things according to claim 1, wherein: the sewage total treatment module (5) comprises a treatment input valve (501), a biological filter (502), a biological membrane adsorption unit (503), a biological membrane oxidation unit (504), a sewage aeration unit (505), a sewage precipitation unit (506) and a main station discharge valve (507), wherein the input end of the treatment input valve (501) is connected with a slow flow pipeline assembly (404), the output end of the treatment input valve (501) is connected with the input end of the biological filter (502), the biological filter (502) is provided with the biological membrane adsorption unit (503), the biological membrane oxidation unit (504), the sewage aeration unit (505) and the sewage precipitation unit (506), and the output end of the biological filter (502) is connected with the main station discharge valve (507).

6. The sewage treatment system based on the monitoring of the internet of things according to claim 2, wherein: the output end of the sewage homogenizing unit (203) is connected with the input end of the sewage primary sedimentation unit (204), the output end of the sewage primary sedimentation unit (204) is connected with the input end of the biodegradation unit (205), and the output end of the biodegradation unit (205) is connected with the input end of the sewage secondary sedimentation unit (206).

7. The sewage treatment system based on monitoring of the Internet of things as claimed in claim 3, wherein: the data statistics receiving unit (301) is connected with the data statistics sending unit (110) through a wireless network signal, and the output valve control unit (305) is respectively connected with the discharge output valve (207) and the master station output valve (208) through a wireless network signal.

8. The sewage treatment system based on the monitoring of the internet of things according to claim 5, wherein: the output end of the biological film adsorption unit (503) is connected with the input end of the biological film oxidation unit (504), the output end of the biological film oxidation unit (504) is connected with the input end of the sewage aeration unit (505), and the output end of the sewage aeration unit (505) is connected with the input end of the sewage sedimentation unit (506).

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