CN212905988U - Automatic monitoring system for industrial park wastewater discharge - Google Patents

Abstract

The utility model provides an industrial park wastewater discharge's automatic monitoring system, automatic monitoring system includes: at least one metering room which is regionally arranged in an industrial park, wherein one end of the metering room is connected with a unique sewage discharge pipeline laid by an open pipe of each sewage discharge enterprise in the region, each sewage discharge pipeline is provided with a flow meter, and the other end of the metering room is connected with a pipeline of a sewage treatment plant; the system comprises a processor, an upper computer and a communication network; the communication network comprises a primary wired network and a secondary wired network; the treater with the flowmeter passes through the wired internet access of one-level, treater and host computer pass through the wired internet access of second grade, the treater is used for real-time online monitoring each blowdown enterprise's in this region waste water discharge flow and total flow to with data transmission to the host computer.

Description

Automatic monitoring system for industrial park wastewater discharge

Technical Field

The utility model relates to a sewage treatment field especially relates to an industrial park wastewater discharge's automatic monitoring system.

Background

In regional economic development, a large number of industrial parks are formed. The industrial park gradually forms a large-scale group of petrochemical industry, bleaching and dyeing, electroplating, coal chemical industry, high-end equipment manufacturing, pharmacy and other industrialized specializations with strong clustering industry groups by depending on the traditional layout advantages of local basic industries. Information display reaches thousands of development areas, functional areas and industrial gathering areas all over the country at present.

In the large-scale and wide-range development and construction process of industrial parks, some industrial parks too pursue economic benefits, neglect environmental protection, do not pay attention to the emission reduction of pollutants such as water, air, heavy metal and the like and ecological environment construction, cause to be "pollution disaster areas", make the environment pollution and emission reduction pressure of parks increase. The investigation finds that some park enterprises have illegal and illegal discharge phenomena such as underground overtaking of a concealed pipe or a metering well, underground concealed pool or a large-flow lift pump, etc., which causes the overload of the water treatment capacity and the water quality of the matched park sewage treatment plants to operate, and park sewage plants in some parks even cause serious standard exceeding of the water quality in a period of time due to the short-term entering of a large amount of difficultly-degradable pollutants, thereby causing the process disorder of a biochemical treatment section, needing long time to recover and seriously influencing the stable operation and standard discharge of the park enterprises.

The coverage area of an industrial park can reach several square kilometers, the traditional enterprise wastewater discharge pipe control method is that a sewage discharge metering room is arranged near each enterprise, an electromagnetic flowmeter arranged in the metering room detects flow and then discharges the sewage into a park underground main sewer, a sewage flow signal of the metering room is uploaded to an upper computer management system of a park sewage treatment plant through a wireless GPRS system, water quality detection of the metering room needs manual sampling and testing, and detection lag is large, accuracy is poor, and disputes often occur. Due to the factors of long signal transmission distance, unstable GPRS signals, no automatic sample reserving facility for water quality detection, difficult manual control of standard exceeding discharge and the like, the sewage treatment plant in the downstream park can not stably operate and discharge after reaching the standard because of unstable water quality and water quantity of the incoming water and large impact load.

The waste water of industry garden enterprise generally sets up in near solitary blowdown measurement room of each enterprise through secret pipeline access of burying underground, buries the trunk canal through discharging into garden sewage secret after installing the electromagnetic flow meter measurement between the measurement, and the sewage flow signal of original measurement room is uploaded to garden sewage treatment plant's host computer management system through wireless GPRS system. The sewage discharge pipe network and the monitoring system in the original park have the following main technical problems:

1. because every enterprise is one between the flow measurement of waste water measurement, and quantity is many, all is located near the enterprise and dispersedly arranges, is unfavorable for the whole control management of waste water discharge, and the garden management committee can need to invest in the artifical supervision of a large amount of manpower and materials.

2. The waste water metering device of original enterprise adopts the wireless GPRS transmission mode of renting the removal channel, receives the influence of factors such as mobile signal unstability often to cause data loss or unable transmission, and the water yield that comes of low reaches sewage factory often transfinites again unable analysis of tracing to the source.

3. The enterprise adopts the hidden pipe to discharge to garden sewage pipe network hidden canal, and the total value of the discharge water volume of each blowdown enterprise is great with the total water volume value deviation of the sewage input house steward of downstream garden sewage treatment plant for a long time, judges that the enterprise has the phenomenon of arranging secretly, but the degree of difficulty of effectively monitoring enterprise arranging secretly is great.

4. Because the waste water discharged by each pollution discharge enterprise is sampled and detected by manual non-timing, the lag of water quality detection and analysis often causes disputes.

5. The method lacks a unified and efficient management and control platform and an automatic monitoring technical means for wastewater discharge of all resident enterprises in the whole industrial park.

SUMMERY OF THE UTILITY MODEL

In view of this, embodiments of the present invention provide an automatic monitoring system for wastewater discharge in industrial parks to obviate or mitigate one or more of the disadvantages of the prior art.

The technical scheme of the utility model as follows:

an automatic monitoring system for industrial park wastewater discharge, the automatic monitoring system comprising: at least one metering room which is regionally arranged in an industrial park, wherein one end of the metering room is connected with a unique sewage discharge pipeline laid by an open pipe of each sewage discharge enterprise in the region, each sewage discharge pipeline is provided with a flow meter, and the other end of the metering room is connected with a pipeline of a sewage treatment plant; processor, host computer and communication network. The communication network comprises a primary wired network and a secondary wired network; the treater with the flowmeter passes through the wired internet access of one-level, treater and host computer pass through the wired internet access of second grade, the treater is used for real-time online monitoring each blowdown enterprise's in this region waste water discharge flow and total flow to with data transmission to the host computer.

In some embodiments, a waste water sampling and sample retaining device is arranged in any metering room and connected with each sewage pipeline, and the waste water sampling and sample retaining device is controlled by the processor to automatically sample and retain waste water of each sewage pipeline.

In some embodiments, a water quality online analysis instrument is arranged on each sewage discharge pipeline or/and the pipeline of the metering room connected with the sewage treatment plant.

In some embodiments, the host computer includes a first host computer disposed in a central office of the sewage treatment plant and a second host computer disposed at a commissioner of an industrial park.

In some embodiments, the processor is disposed at each of the plurality of measurement bays, the processor of the measurement bay being configured to interface with a flow meter of a waste line of the group of businesses; the processor is a PLC.

In some embodiments, the primary wired network between the flow meter and the processor is a Modbus bus architecture; the second-level wired network is an Ethernet structure and comprises a single-mode optical fiber and a switch.

Preferably, the first upper computer and the second upper computer are also connected through a single-mode optical fiber and a switch.

In some embodiments, an automatic on-off valve is provided in each of the waste lines, the automatic on-off valve being controlled by the processor for automatically shutting off excess discharge waste lines based on processor preset business flow thresholds.

In some embodiments, no more than 12 sewerage pipelines or sewerage enterprises may be connected to a single said dosing room.

In some embodiments, the first and second upper computers are supervisory management computers.

In some embodiments, the first upper computer and the second upper computer have display screens for displaying the wastewater discharge flow of each enterprise and the operation state of the sewage treatment plant.

According to the utility model discloses industrial park wastewater discharge's automatic monitoring system, the beneficial effect that can obtain includes at least:

the utility model discloses automatic monitoring system sets up between at least one measurement, no longer set up a large amount of distributed with the same measurement of blowdown enterprise quantity between, reduced garden managers's inspection tour check-out time and intensity of labour, be favorable to strengthening the management and control dynamics to each enterprise wastewater discharge. Each blowdown enterprise of industrial park and the measurement of arranging in subregion are connected through the mode of "one factory one pipe" open tube laying nearby through only blowdown pipeline, prevent that the enterprise from appearing the condition of arranging secretly.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

It will be appreciated by those skilled in the art that the objects and advantages that can be achieved with the present invention are not limited to the details set forth above, and that these and other objects that can be achieved with the present invention will be more clearly understood from the following detailed description.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. For convenience in illustrating and describing some portions of the present invention, corresponding parts of the drawings may be exaggerated, i.e., may be larger, relative to other components in an exemplary device actually manufactured according to the present invention. In the drawings:

fig. 1 is a schematic view of an automatic monitoring system and an infrastructure for wastewater discharge in an industrial park according to an embodiment of the present invention.

Fig. 2 is a schematic block diagram of an automatic monitoring system according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of an automatic monitoring system according to an embodiment of the present invention.

Fig. 4 is a schematic view of a waste water sampling and sample reserving device in an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

It should also be noted that, in order to avoid obscuring the invention with unnecessary details, only the structures and/or process steps that are closely related to the solution according to the invention are shown in the drawings, while other details that are not relevant to the invention are omitted.

It should be emphasized that the term "comprises/comprising" when used herein, is taken to specify the presence of stated features, elements, steps or components, but does not preclude the presence or addition of one or more other features, elements, steps or components.

It is also noted herein that the term "coupled," if not specifically stated, may refer herein to not only a direct connection, but also an indirect connection in which an intermediate is present.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals denote the same or similar parts, or the same or similar steps.

The utility model provides an industrial park wastewater discharge's automatic monitoring system to solve the waste water management and control technical problem that industrial park exists, realize the unified automatic monitoring management of waste water discharge and the quality of water to all blowdown enterprises in garden.

As shown in fig. 1 and fig. 2, the automatic monitoring system (hereinafter, may be referred to as a system for short) according to the embodiment of the present invention is an innovative design for the waste water discharge pipeline and the measurement room of each sewage enterprise in the industrial park.

The utility model discloses automatic monitored control system no longer arranges between the measurement that corresponds with the 10 figure of blowdown enterprise, and regional arrangement 20 between at least one measurement in the industrial park, the one end of 20 between the measurement is connected with only sewage pipes 11 that each blowdown enterprise's open pipe laid in this region, and each sewage pipes 11 is equipped with the flowmeter, the other end and the 30 pipe connection of sewage treatment plant of 20 between the measurement. The sewage discharge pipelines 11 of all sewage discharge enterprises are led out from all enterprises in an open pipe laying mode, and a single metering room 20 is connected with no more than a set number of sewage discharge enterprises through the sewage discharge pipelines 11.

The embodiment of the utility model provides an automatic monitored control system's each blowdown enterprise 10's 11 branch territories of blowdown pipeline concentrate and insert the measurement of corresponding with the mode subregion of "a factory one pipe" within 20 measurement discharge water volume nearby. The sewage discharge pipeline 11 is connected in an open pipe laying mode, the open pipe is a line which can be seen by park management personnel, the sewage discharge enterprise is prevented from setting a closed conduit for drainage, and the measurement room is uniformly managed by a park management committee. The only thing stated here is that a sewage disposal enterprise can only be connected to the measurement room through a sewage disposal pipeline monitored by the administration committee, so as to avoid the phenomenon of steal. The utility model discloses automatic monitoring system sets up between at least one measurement, inserts the measurement that corresponds between the blowdown enterprise through sewage pipes according to regional scope subregion. The utility model discloses no longer set up a large amount of distributed with the measurement that blowdown enterprise quantity is the same within a definite time, reduced garden managers's inspection time and intensity of labour of patrolling, be favorable to strengthening the management and control dynamics to each enterprise wastewater discharge.

In some embodiments, as shown in fig. 2, the automatic monitoring system further includes a processor 210, an upper computer 310, a communication network, and the like. The communication network comprises a primary wired network and a secondary wired network. The processor 210 is connected with the flowmeter 110 through a primary wired network, the processor 210 is connected with the upper computer 310 through a secondary wired network, and the processor 210 is used for monitoring the wastewater discharge flow and the total flow of each pollution discharge enterprise in the area in real time on line and transmitting data to the upper computer 310.

In some embodiments, to facilitate data sharing and management deployment for sewage treatment plants and park authorities, the host computer 310 may include a first host computer 311 and a second host computer 312. The first upper computer 311 is disposed in a central control room of a sewage treatment plant, and the second upper computer 312 may be disposed at a management committee of an industrial park.

In some embodiments, a processor 210 is disposed at each of the metering bays 20 for interfacing with a flow meter 110 of a waste line of a waste enterprise in the area. The processor 210 may be a PLC, and the flow meter 110 may be an electromagnetic flow meter, but is not limited thereto.

In the above embodiment, the primary wired network between the flow meter 110 and the processor 210 is a Modbus structure; the second-level wired network is an Ethernet structure and comprises a single-mode optical fiber, a switch and the like. The first upper computer 311 and the second upper computer 312 may also be connected by a single-mode fiber and a switch. For the reliable nothing that loses of guarantee data, the utility model discloses the wired communication network of two-stage that automatic monitoring system adopted sets up and adopts industrial ethernet and use the wired looped netowrk data transmission mode of single mode fiber between every measurement 20's PLC and sewage treatment plant's the first host computer, no longer uses the unstable GPRS wireless transmission mode of the easy number of losing. An MODBUS bus structure is adopted between the water quantity electromagnetic flow meter and the PLC which are independently arranged in each pollution discharge enterprise 'one factory one pipe' in each metering room 20, and the instantaneous flow and the total water quantity of the waste water can be directly monitored.

In some embodiments, a waste water sampling and sample keeping device 130 connected with each sewage drainage pipeline is arranged in any metering room 20, and the waste water sampling and sample keeping device 130 is controlled by the processor 210 so as to automatically sample and keep samples of waste water of each sewage drainage pipeline and perform water quality condition detection at regular time.

In the embodiment shown in fig. 4, the waste water sampling and sample reserving device 130 includes a plurality of sample bottles 131 for sampling and sample reserving, and the sampling mode may be a fixed-time quantitative sampling, a fixed-flow quantitative sampling, an instant quantitative sampling, and the like, and may realize an overproof sample reserving, a synchronous sample reserving, and a direct sample reserving. The waste water sampling and sample retaining device 130 is connected with the sewage pipeline 11 of each sewage enterprise through a sampling pipeline, and a valve 133, such as a solenoid valve controlled by a PLC, is arranged on the sampling pipeline. In some embodiments, a hydraulic pump 132 may also be provided to sample the wastewater. The utility model discloses automatic monitoring system is equipped with quality of water on-line monitoring appearance in the pipeline to sewage treatment plant between the measurement, is documenting the back that quality of water exceeds standard, can leave a kind device at the waste water sample of each blowdown enterprise and go on reexamining and confirming, automatic monitoring system is owing to set up the quality of water on-line monitoring appearance of less quantity, and overall cost is less. The utility model discloses automatic monitoring system is equipped with the waste water sample and stays a kind device, can stay a kind to the emission waste water time period of each blowdown enterprise, and the later stage can detect repeatedly, and the accuracy that detects is good, and after quality of water exceeds standard, can not arouse the dispute when traceing back the enterprise that exceeds standard.

In another embodiment, each sewage discharge pipeline or/and the pipeline of the measuring room connected with the sewage treatment plant is/are provided with an online water quality analysis instrument so as to detect the discharged wastewater of each sewage discharge enterprise in real time, the pipeline of each measuring room connected with the sewage treatment plant can also be provided with an online water quality analysis instrument, and the water quality data detected by the online water quality analysis instruments can be uploaded to a processor and an upper computer and displayed in real time. The utility model discloses automatic monitoring system sets up quality of water on-line analytical instrument between the measurement, by PLC automatic timing time limit program control, real-time supervision quality of water situation to solve the unable control of waste water quality of water, influence low reaches sewage treatment plant throughput problem.

In some embodiments, an automatic on/off valve 120 is provided in each waste line, the automatic on/off valve 120 being controlled by the processor 210 for automatically shutting off the excess discharge waste line based on each business flow threshold preset by the processor 210. In the actual motion in-process, in order to solve the excessive discharge problem of enterprise, the utility model discloses an automatic monitoring system sets up the automatic switch valve, but automatic control cuts off the excessive blowdown source when the flowmeter records the discharge of enterprise and surpasses the limit to can report alarm linkage on the host computer and inform garden management committee. The sewage pipeline capable of automatically cutting off excessive discharge is also beneficial to sewage purification treatment of a downstream sewage treatment plant, and the situation that the instantaneous flow is too large and the stable operation of the downstream sewage treatment plant is influenced, so that the discharge reaches the standard is prevented.

In a specific embodiment, the utility model discloses an automatic monitored control system's first host computer 311 arranges in sewage treatment plant's central control room, and first host computer 311 sets up three calendar history databases and networks with garden management committee's second host computer 312 to make garden management committee can be at any time on-line monitoring and know all wastewater discharge flow of each blowdown enterprise. For example, the first upper computer 311 and the second upper computer 312 are monitoring management computers. The first upper computer 311 and the second upper computer 312 are provided with display screens for displaying the wastewater discharge flow of each enterprise and the operation state of the sewage treatment plant. The monitoring management computer can be provided with an industrial park wastewater discharge system monitoring management platform so as to monitor and manage the wastewater discharge of each enterprise and each state of the water plant treatment state.

In some embodiments, the sewage pipeline 11 of each enterprise enters the corresponding metering room 20 divided into different regions, and the number of the sewage pipelines or the sewage enterprises connected to a single metering room 20 is not more than 12, but is not limited to this, and can be adjusted reasonably according to the regional scope of each enterprise, the design scale of the metering room, the cost control, and the like.

In the embodiment of fig. 1 and 3, the system may have four measuring rooms 20, which are respectively measuring rooms a/B/C/D, and the number of accesses to each measuring room is 9-11, according to the scale of the industrial park and the comprehensive cost. And each measuring room is provided with a PLC1/2/3/4 which is used for controlling one-factory one-pipe overrun automatic cutting and water quality automatic sampling detection of the enterprise wastewater. And each PLC is connected with the flow meter of each enterprise of the group by adopting an RS-485 bus. Each PLC is connected with a monitoring management computer by adopting an Ethernet, and a switch is arranged at each node position to provide a large number of ports for cable connection, generate undistorted signals and prevent the signals from being lost.

The utility model provides an industrial park wastewater discharge's automatic monitoring system based on wired network for solve the industrial park and live in the numerous distribution range of enterprise quantity when extensive, to the drainage of stealing that lives the enterprise wastewater discharge existence, quality of water yield transfinites, data transmission is unstable, artifical management and control discharges untimely scheduling problem and causes the technical problem that low reaches garden sewage treatment plant quality of water yield often exceeds standard and moves the difficulty.

According to the utility model discloses industrial park wastewater discharge's automatic monitoring system, the beneficial effect that can obtain includes at least:

(1) the utility model discloses automatic monitoring system sets up between at least one measurement, with the blowdown enterprise through the blowdown pipeline according to between the measurement that regional scope inserts the correspondence. The utility model discloses no longer set up a large amount of distributed with the measurement that blowdown enterprise quantity is the same within a definite time, reduced garden managers's inspection time and intensity of labour of patrolling, be favorable to strengthening the management and control dynamics to each enterprise wastewater discharge.

(2) The utility model discloses between automatic monitored control system design region measurement, through the mode access that unique blowdown pipeline laid with "a factory is a pipe" bright pipe nearby between each blowdown enterprise of industry garden and the measurement of dividing regional arrangement, prevent that the enterprise from appearing stealing the row's condition. A PLC is arranged between the metering chambers to transmit the single-pipe flow metering of each enterprise, automatically control the water quality sampling and sample reserving detection and automatically control the cutoff of the enterprise sewage discharge valve when the water quantity exceeds the limit.

(3) The utility model discloses automatic monitoring system adopts and accomplishes reliable data transmission based on wired network, and wired network divide into the two-stage: the first level is that a bus mode is adopted between the PLC and the flowmeter; the other level is a single mode fiber wired ring network data transmission mode adopting an Ethernet architecture between the PLC and the monitoring computer.

(4) The utility model discloses automatic monitored control system constructs unified industrial park wastewater discharge system control management platform at industrial park low reaches sewage treatment plant to manage the meeting with the industrial park and realize the resource data sharing.

Features that are described and/or illustrated with respect to one embodiment may be used in the same way or in a similar way in one or more other embodiments and/or in combination with or instead of the features of the other embodiments.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and it will be apparent to those skilled in the art that various modifications and variations can be made in the embodiments of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An automatic monitoring system for industrial park wastewater discharge, the automatic monitoring system comprising:

at least one metering room which is regionally arranged in an industrial park, wherein one end of the metering room is connected with a unique sewage discharge pipeline laid by an open pipe of each sewage discharge enterprise in the region, each sewage discharge pipeline is provided with a flow meter, and the other end of the metering room is connected with a pipeline of a sewage treatment plant;

the system comprises a processor, an upper computer and a communication network;

the communication network comprises a primary wired network and a secondary wired network; the treater with the flowmeter passes through the wired internet access of one-level, treater and host computer pass through the wired internet access of second grade, the treater is used for real-time online monitoring each blowdown enterprise's in this region waste water discharge flow and total flow to with data transmission to the host computer.

2. The system for automated industrial park wastewater discharge monitoring according to claim 1, wherein a wastewater sampling and sample retaining device is provided in any of the measuring bays connected to each of the sewage lines, the wastewater sampling and sample retaining device being controlled by the processor to automatically sample and retain wastewater in each of the sewage lines.

3. The automatic monitoring system for wastewater discharge of industrial park as claimed in claim 1, characterized in that each sewage discharge pipeline or/and the pipeline of the measuring room connecting with the sewage treatment plant is provided with a water quality on-line analysis instrument.

4. The system according to claim 1, wherein the upper computer comprises a first upper computer disposed in a central control room of the sewage treatment plant and a second upper computer disposed at a management committee of the industrial park.

5. The system for automated monitoring of industrial park wastewater discharge according to claim 1, wherein the processor is disposed at each of the measuring bays, the measuring bay processor being configured to interface with a flow meter of a blowdown line of the group of enterprises; the processor is a PLC.

6. The automatic industrial park wastewater discharge monitoring system of claim 4 wherein the primary wired network between the flow meter and the processor is a Modbus bus architecture;

the second-level wired network is an Ethernet structure and comprises a single-mode optical fiber and a switch.

7. The system for automated industrial park wastewater discharge monitoring according to claim 6, wherein the first upper computer and the second upper computer are also connected by a single mode fiber and a switch.

8. The system for automated industrial park wastewater discharge monitoring and control of claim 1 wherein an automatic on-off valve is provided in each of the blowdown lines, the automatic on-off valve being controlled by the processor for automatically shutting off the blowdown line for excess discharge based on each business flow threshold preset by the processor.

9. The system for automated monitoring of wastewater discharge from an industrial park of claim 8 wherein no more than 12 sewer lines or sewerage enterprises are connected to a single said measuring room.

10. The automatic industrial park wastewater discharge monitoring system of claim 4 wherein the first and second upper computers are monitoring management computers;

the first upper computer and the second upper computer are provided with display screens for displaying the wastewater discharge flow of each enterprise and the running state of the sewage treatment plant.

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