CN104792952A

CN104792952A - Sewage monitoring system

Info

Publication number: CN104792952A
Application number: CN201410022327.9A
Authority: CN
Inventors: 吴新潮
Original assignee: Xian Tianheng Measuring Instrument Co Ltd
Current assignee: Xian Tianheng Measuring Instrument Co Ltd
Priority date: 2014-01-18
Filing date: 2014-01-18
Publication date: 2015-07-22

Abstract

The invention discloses a sewage monitoring system which comprises a fixed-point monitoring module, a total amount monitoring module, a control module, a storage module, a data analysis module and a display module. The control module is respectively connected with the storage module, the data analysis module, the display module, the fixed-point monitoring module and the total amount monitoring module. The technical problem that existing technologies are based on manual or semi-automatic sewage treatment which cannot help the environmental monitoring department make scientific assessments and effective decisions is solved.

Description

A kind of sewage monitoring system

Technical field

The present invention relates to sewage treatment area field, particularly a kind of monitoring processing system.

Background technology

Along with the continuous acceleration of urbanization progress, the concentration degree of urban population is more and more higher, and commodity economy is unprecedentedly active, the consumption of the various means of production, the appearance of industrial products, the pollution that the use of bio-fuel brings to environment is gradually beyond the self-cleaning ability of the Nature.Visible, as house refuse, industrial wastes, sightless as heavy metal, toxic granular, these finally to entering water source by atmospheric air circulation, bring grave danger to the mankind and vegeto-animal life security.

According to environment department's monitoring, national cities and towns to have that 100,000,000 tons of sewage is unprocessed directly enters water body every day at least.In the seven large water systems of the whole nation, section water quality over half is polluted, the water body in the whole nation 1/3 is unsuitable for Fish Survival, the water body of 1/4 is unsuitable for irrigating, the urban waters of 90% is seriously polluted, the water source, cities and towns of 50% does not meet drinking water standard, the water source of 40% can not be drunk, and the 60%-70% of the total water deficit in Shelter in South China Cities causes due to pollution of waterhead.

In the process realizing correlative study, inventor finds, temporarily the real-time sewage monitoring system of a kind of efficient quick is also there is not in prior art, process for sewage also rests on artificial or semi-automatic basis, the assessment of science and effective decision-making is made not only bad for environmental monitoring department, also be unfavorable for contamination accident to take precautions against in possible trouble, technological means has obviously lagged behind environmental sanitation department and the public to the requirement of environmental monitoring.

Summary of the invention

The object of the invention is to provide a kind of sewage monitoring system, solve in prior art and temporarily also there is not the real-time sewage monitoring system of a kind of efficient quick, process for sewage also rests on artificial or semi-automatic basis, the assessment of science and effective decision-making is made not only bad for environmental monitoring department, also be unfavorable for contamination accident to take precautions against in possible trouble, technological means has obviously lagged behind environmental sanitation department and the public to the technical matters of the requirement of environmental monitoring.

The technical solution used in the present invention is: a kind of sewage monitoring system, comprise: fixed point monitoring module, total Amount Monitoring module, control module, memory module, data analysis module, display module, wherein: control module respectively with memory module, data analysis module, display module, fixed point monitoring module, total Amount Monitoring model calling; Fixed point monitoring module is for monitoring individual enterprise's sewage discharge situation; Total Amount Monitoring module is for monitoring total situation of some individual enterprises quantity of wastewater effluent; Control module is used for receiving control command by human-computer interaction interface and indicating the modules be connected with control module to perform the corresponding command according to control command; Memory module is for storing the every data detected; The data that data analysis module is used for storing according to memory module carry out analyzing or analyzing according to the steering order that control module receives according to presetting algorithm; The result that display module obtains by analysis for showing every data parameters of detecting and/or display data analysis module.

Further, fixed point monitoring module comprises: Real-Time Monitoring unit, quantitatively extraction unit, airflow measurement unit, image information units, address location and fixed-point data Transmit-Receive Unit, wherein: fixed-point data Transmit-Receive Unit is connected with Real-Time Monitoring unit, quantitatively extraction unit, airflow measurement unit, image information units, address location and fixed-point data Transmit-Receive Unit, and fixed-point data Transmit-Receive Unit is also connected with control module; The instruction that Real-Time Monitoring unit is used for receiving according to fixed-point data Transmit-Receive Unit detects in real time to sewage discharge situation, and by fixed-point data Transmit-Receive Unit, testing result being sent to control module, the content of Real-Time Monitoring is the parameter that can be obtained in real time by sensor; The instruction that quantitative extraction unit is used for receiving according to fixed-point data Transmit-Receive Unit regularly samples preservation to sewage discharge situation, and the result that sampling is preserved is analyzed, then by fixed-point data Transmit-Receive Unit, testing result is sent to control module, the content that regularly sampling is preserved is the analysis conclusion that just can draw after needing to be performed for more than a hour analysis to sample;

Discharge capacity for measuring the discharge capacity of sewage in the unit interval, and is sent to control module by airflow measurement unit;

Image information for catching the image information of sewage discharge, and is sent to control module by image information units;

Address location is used for unique indicating fixed point monitoring module, and control module can according to the address of the physical address of address location determination fixed point monitoring module and monitored enterprise; The various fixed point monitoring instructions that fixed-point data Transmit-Receive Unit issues for receiving control module, instruction corresponding units performs fixed point monitoring instruction and the execution result of fixed point monitoring instruction is returned to reception control module.

Further, total Amount Monitoring module comprises: total Amount Monitoring unit, total amount extraction unit, total flow measuring unit, total amount image information units, total amount address location and aggregate data Transmit-Receive Unit, wherein: aggregate data Transmit-Receive Unit is connected with total Amount Monitoring unit, total amount extraction unit, total flow measuring unit, total amount image information units, total amount address location and aggregate data Transmit-Receive Unit, the connection of aggregate data Transmit-Receive Unit is also connected with control module; The instruction that total Amount Monitoring unit is used for receiving according to aggregate data Transmit-Receive Unit detects in real time to total amount of sewage discharge, and by aggregate data Transmit-Receive Unit, testing result being sent to control module, the content of Real-Time Monitoring is the parameter that can be obtained in real time by sensor; The instruction that total amount extraction unit is used for receiving according to aggregate data Transmit-Receive Unit regularly samples preservation to sewage discharge situation, and the result that sampling is preserved is analyzed, then by aggregate data Transmit-Receive Unit, testing result is sent to control module, the content that regularly sampling is preserved is the analysis conclusion that just can draw after needing the time analyzed sample to exceed a hour analysis; Discharge capacity for measuring the discharge capacity of sewage in the unit interval, and is sent to control module by total flow measuring unit; Image information for catching the image information of sewage discharge, and is sent to control module by total amount image information units; Total amount address location is used for unique indicating total Amount Monitoring module, and control module can according to the address of the physical address of total amount address location determination total Amount Monitoring module and monitored enterprise; The various fixed point monitoring instructions that aggregate data Transmit-Receive Unit issues for receiving control module, instruction corresponding units performs fixed point monitoring instruction and the execution result of fixed point monitoring instruction is returned to reception control module.

Further, control module is also for processing the various information acquired according to presetting algorithm and weighted value, and result is divided into pollution-free, be about to pollution, light contamination, poisoning pollution, poisoning pollution five grades, by display module to the display of environmental sanitation monitoring department, warning message can also be sent according to the different class of pollution to the address that address location indicates.

Further, data analysis module is used for the information periodically obtaining needs from memory module, and analyzing and processing is carried out to data, obtain analysis result, and analysis result is sent to control module, analysis result is: the major pollutants of single or several enterprises, the time cycle of pollutant emission, to the infringement that environment may cause, the trend that prediction is polluted, enterprise is to the regulation effect polluted, improvement cycle.

Further, display is used for presenting in the mode of graph mode and/or word the various test results that control module sends, generate papery and/or electronics file.

Further, fixed point monitoring module is arranged on the Sewage outlet of monitored enterprise, and quantity can be determined according to the actual requirements.

Further, fixed point monitoring module is connected with control module by M-BUS bus or wireless signal.

The invention provides a kind of sewage monitoring system, for the monitoring sewage that efficient quick is real-time, the assessment of science is made and effective decision-making provides significant data support for environmental monitoring department, can also take precautions against in possible trouble by contamination accident, technical solution means obviously lag behind environmental sanitation department and the public to the conspicuous contradiction of the requirement of environmental monitoring.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of sewage monitoring system in the present invention.

Embodiment

Embodiment 1:

As shown in Figure 1, a kind of sewage monitoring system, comprising: fixed point monitoring module 50, total Amount Monitoring module 60, control module 40, memory module 10, data analysis module 20, display module 30, wherein: control module 40 respectively with memory module 10, data analysis module 20, display module 30, fixed point monitoring module 50, total Amount Monitoring module 60 connects; Fixed point monitoring module 50 is for monitoring individual enterprise's sewage discharge situation; Total Amount Monitoring module 60 is for monitoring total situation of some individual enterprises quantity of wastewater effluent; Control module 40 is for receiving control command by human-computer interaction interface and indicating the modules be connected with control module 40 to perform the corresponding command according to control command; Memory module 10 is for storing the every data detected; Data analysis module 20 carries out analyzing or analyzing according to the steering order that control module 40 receives according to presetting algorithm for the data stored according to memory module; The result that display module 30 obtains by analysis for showing every data parameters of detecting and/or display data analysis module 20.

Obviously, annexation in the present embodiment is a kind of general title, any can realize data communication can as interconnection technique, this connection includes but not limited to: the annexation set up based on wireless telecommunications LAN (Local Area Network), based on the wireless connections relation that wireless cellular network is set up, based on the annexation that cable network is set up, certainly, the lifting of mechanics of communication or the lifting of transmitted per unit time speed likely can produce comparatively significantly beneficial outcomes to the present invention, such as display module 30 can get and implement image more clearly, more Monitoring Data can be stored in memory module 10, data interaction between control module and fixed point monitoring module 50 or total Amount Monitoring module 60 is more frequent, however, the lifting of these technology is all within protection scope of the present invention.Detect the LXCY-15-25 Ultrasonic water meter teletransmission that the discharge of sewage can adopt XI'AN TRIONES DIGITAL Co., LTD. to produce.

Embodiment 2:

The difference of the present embodiment and embodiment 1 is; the concrete function of refinement modules and annexation; the function described in obvious the present embodiment be not the present invention to the full content that will protect, any prior art just can expected without creative work or existed at present all can be added in the present embodiment.

Further, fixed point monitoring module 50 comprises: Real-Time Monitoring unit 51, quantitatively extraction unit 52, airflow measurement unit 53, image information units 54, address location 55 and fixed-point data Transmit-Receive Unit 56, wherein: fixed-point data Transmit-Receive Unit 56 is connected with Real-Time Monitoring unit 51, quantitatively extraction unit 52, airflow measurement unit 53, image information units 54, address location 55 and fixed-point data Transmit-Receive Unit 56, and fixed-point data Transmit-Receive Unit 56 is also connected with control module 40; Real-Time Monitoring unit 51 detects sewage discharge situation in real time for the instruction received according to fixed-point data Transmit-Receive Unit 56, and by fixed-point data Transmit-Receive Unit 56, testing result being sent to control module 40, the content of Real-Time Monitoring is the parameter that can be obtained in real time by sensor; Quantitative extraction unit 52 regularly samples preservation for the instruction received according to fixed-point data Transmit-Receive Unit 56 to sewage discharge situation, and the result that sampling is preserved is analyzed, then by fixed-point data Transmit-Receive Unit 56, testing result is sent to control module 40, the content that regularly sampling is preserved is the analysis conclusion that just can draw after needing to be performed for more than analysis in 1 hour to sample;

Discharge capacity for measuring the discharge capacity of sewage in the unit interval, and is sent to control module 40 by airflow measurement unit 53;

Image information for catching the image information of sewage discharge, and is sent to control module 40 by image information units 54;

Address location 55 is for uniquely indicating fixed point monitoring module 50, and control module 40 can determine the physical address of fixed point monitoring module 50 and the address of monitored enterprise according to address location 55; The various fixed point monitoring instructions that fixed-point data Transmit-Receive Unit 56 issues for receiving control module 40, instruction corresponding units performs fixed point monitoring instruction and is returned to by the execution result of fixed point monitoring instruction and receives control module 40.

Further, total Amount Monitoring module 60 comprises: total Amount Monitoring unit 61, total amount extraction unit 62, total flow measuring unit 63, total amount image information units 64, total amount address location 65 and aggregate data Transmit-Receive Unit 66, wherein: aggregate data Transmit-Receive Unit 66 is connected with total Amount Monitoring unit 61, total amount extraction unit 62, total flow measuring unit 63, total amount image information units 64, total amount address location 65 and aggregate data Transmit-Receive Unit 66, aggregate data Transmit-Receive Unit 66 connects and is also connected with control module 40; Total Amount Monitoring unit 61 detects total amount of sewage discharge in real time for the instruction received according to aggregate data Transmit-Receive Unit 66, and by aggregate data Transmit-Receive Unit 66, testing result being sent to control module 40, the content of Real-Time Monitoring is the parameter that can be obtained in real time by sensor; Total amount extraction unit 62 regularly samples preservation for the instruction received according to aggregate data Transmit-Receive Unit 66 to sewage discharge situation, and the result that sampling is preserved is analyzed, then by aggregate data Transmit-Receive Unit 66, testing result is sent to control module 40, the content that regularly sampling is preserved is the analysis conclusion that just can draw after needing the time analyzed sample to analyze more than 1 hour; Discharge capacity for measuring the discharge capacity of sewage in the unit interval, and is sent to control module 40 by total flow measuring unit 63; Image information for catching the image information of sewage discharge, and is sent to control module 40 by total amount image information units 64; Total amount address location 65 is for uniquely indicating total Amount Monitoring module 60, and control module 40 can determine the physical address of total Amount Monitoring module 60 and the address of monitored enterprise according to total amount address location 65; The various fixed point monitoring instructions that aggregate data Transmit-Receive Unit 66 issues for receiving control module 40, instruction corresponding units performs fixed point monitoring instruction and is returned to by the execution result of fixed point monitoring instruction and receives control module 40.

Control module 40 is also for processing the various information acquired according to presetting algorithm and weighted value, and result is divided into pollution-free, be about to pollution, light contamination, poisoning pollution, poisoning pollution five grades, by display module 30 to the display of environmental sanitation monitoring department, warning message can also be sent according to the different class of pollution to the address that address location 55 indicates.Data analysis module 20 is for the periodic information obtaining needs from memory module 10, and analyzing and processing is carried out to data, obtain analysis result, and analysis result is sent to control module 40, analysis result is: the major pollutants of single or several enterprises, and the time cycle of pollutant emission, to the infringement that environment may cause, the trend that prediction is polluted, enterprise is to the regulation effect polluted, improvement cycle.Display is used for presenting in the mode of graph mode and/or word the various test results that control module 40 sends, generate papery and/or electronics file.Fixed point monitoring module 50 is arranged on the Sewage outlet of monitored enterprise, and quantity can be determined according to the actual requirements.Fixed point monitoring module 50 is connected with control module 40 by M-BUS bus or wireless signal.

Above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; the change that can expect easily or replacement, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claim.

Claims

1. a sewage monitoring system, is characterized in that, comprising: fixed point monitoring module (50), total Amount Monitoring module (60), control module (40), memory module (10), data analysis module (20), display module (30), wherein:

Described control module (40) respectively with described memory module (10), data analysis module (20), display module (30), fixed point monitoring module (50), total Amount Monitoring module (60) connect;

Described fixed point monitoring module (50) is for monitoring individual enterprise's sewage discharge situation;

Described total Amount Monitoring module (60) is for monitoring total situation of some described individual enterprises quantity of wastewater effluent;

Described control module (40) is for receiving control command by human-computer interaction interface and indicating the modules be connected with described control module (40) to perform the corresponding command according to described control command;

Memory module (10) is for storing the every data detected;

Data analysis module (20) carries out analyzing or analyzing according to the steering order that control module (40) receives according to presetting algorithm for the data stored according to described memory module;

The result that display module (30) obtains by analysis for showing every data parameters of detecting and/or display data analysis module (20).

2. a kind of sewage monitoring system according to claim 1, it is characterized in that, described fixed point monitoring module (50) comprising: Real-Time Monitoring unit (51), quantitatively extraction unit (52), airflow measurement unit (53), image information units (54), address location (55) and fixed-point data Transmit-Receive Unit (56), wherein:

Fixed-point data Transmit-Receive Unit (56) is connected with Real-Time Monitoring unit (51), quantitatively extraction unit (52), airflow measurement unit (53), image information units (54), address location (55) and fixed-point data Transmit-Receive Unit (56), and described fixed-point data Transmit-Receive Unit (56) is also connected with described control module (40);

Described Real-Time Monitoring unit (51) is detected sewage discharge situation in real time for the instruction received according to described fixed-point data Transmit-Receive Unit (56), and by described fixed-point data Transmit-Receive Unit (56), testing result being sent to control module (40), the content of Real-Time Monitoring is the parameter that can be obtained in real time by sensor;

Described quantitative extraction unit (52) regularly samples preservation for the instruction received according to described fixed-point data Transmit-Receive Unit (56) to sewage discharge situation, and the result that sampling is preserved is analyzed, then by described fixed-point data Transmit-Receive Unit (56), testing result is sent to control module (40), the content that regularly sampling is preserved is the analysis conclusion that just can draw after needing to be performed for more than analysis in 1 hour to sample;

Described discharge capacity for measuring the discharge capacity of sewage in the unit interval, and is sent to described control module (40) by described airflow measurement unit (53);

Described image information for catching the image information of sewage discharge, and is sent to described control module (40) by described image information units (54);

Described address location (55) is for uniquely indicating described fixed point monitoring module (50), and described control module (40) can determine the described physical address of fixed point monitoring module (50) and the address of monitored enterprise according to described address location (55);

The various fixed point monitoring instructions that described fixed-point data Transmit-Receive Unit (56) issues for receiving control module (40), instruction corresponding units performs described fixed point monitoring instruction and is returned to by the execution result of described fixed point monitoring instruction and receives control module (40).

3. a kind of sewage monitoring system according to claim 2, it is characterized in that, described total Amount Monitoring module (60) comprising: total Amount Monitoring unit (61), total amount extraction unit (62), total flow measuring unit (63), total amount image information units (64), total amount address location (65) and aggregate data Transmit-Receive Unit (66), wherein:

Aggregate data Transmit-Receive Unit (66) is connected with total Amount Monitoring unit (61), total amount extraction unit (62), total flow measuring unit (63), total amount image information units (64), total amount address location (65) and aggregate data Transmit-Receive Unit (66), and the connection of described aggregate data Transmit-Receive Unit (66) is also connected with control module (40);

Described total Amount Monitoring unit (61) is detected total amount of sewage discharge in real time for the instruction received according to described aggregate data Transmit-Receive Unit (66), and by described aggregate data Transmit-Receive Unit (66), testing result being sent to control module (40), the content of Real-Time Monitoring is the parameter that can be obtained in real time by sensor;

Described total amount extraction unit (62) regularly samples preservation for the instruction received according to described aggregate data Transmit-Receive Unit (66) to sewage discharge situation, and the result that sampling is preserved is analyzed, then by described aggregate data Transmit-Receive Unit (66), testing result is sent to control module (40), the content that regularly sampling is preserved is the analysis conclusion that just can draw after needing the time analyzed sample to analyze more than 1 hour;

Described discharge capacity for measuring the discharge capacity of sewage in the unit interval, and is sent to described control module (40) by described total flow measuring unit (63);

Described image information for catching the image information of sewage discharge, and is sent to described control module (40) by described total amount image information units (64);

Described total amount address location (65) is for uniquely indicating described total Amount Monitoring module (60), and described control module (40) can determine the described physical address of total Amount Monitoring module (60) and the address of monitored enterprise according to described total amount address location (65);

The various fixed point monitoring instructions that described aggregate data Transmit-Receive Unit (66) issues for receiving control module (40), instruction corresponding units performs described fixed point monitoring instruction and is returned to by the execution result of described fixed point monitoring instruction and receives control module (40).

4. any sewage monitoring system according to claim 1-3, it is characterized in that, described control module (40) is also for processing the various information acquired according to presetting algorithm and weighted value, and result is divided into pollution-free, be about to pollution, light contamination, poisoning pollution, poisoning pollution five grades, by display module (30) to the display of environmental sanitation monitoring department, warning message can also be sent according to the different class of pollution to the address that address location (55) indicates.

5. any sewage monitoring system according to claim 1-3, it is characterized in that, described data analysis module (20) for periodically obtaining the information needed from memory module (10), and analyzing and processing is carried out to data, obtain analysis result, and described analysis result is sent to control module (40), described analysis result is: the major pollutants of single or several enterprises, the time cycle of pollutant emission, to the infringement that environment may cause, the trend that prediction is polluted, enterprise is to the regulation effect polluted, improvement cycle.

6. any sewage monitoring system according to claim 1-3, is characterized in that, described display is used for presenting in the mode of graph mode and/or word the various test results that control module (40) sends, generate papery and/or electronics file.

7. any sewage monitoring system according to claim 1-3, is characterized in that, described fixed point monitoring module (50) is arranged on the Sewage outlet of monitored enterprise, and quantity can be determined according to the actual requirements.

8. any sewage monitoring system according to claim 7, is characterized in that, fixed point monitoring module (50) is connected with control module (40) by M-BUS bus or wireless signal.