CN112982570A

CN112982570A - Automatic drinking water state monitoring device

Info

Publication number: CN112982570A
Application number: CN202110162267.0A
Authority: CN
Inventors: 赵志刚; 史建兴; 王杨
Original assignee: Beijing New Water Jingwei Water Engineering Co ltd
Current assignee: Beijing New Water Jingwei Water Engineering Co ltd
Priority date: 2021-02-05
Filing date: 2021-02-05
Publication date: 2021-06-18

Abstract

The application relates to an automatic drinking water state monitoring device, which is arranged on a pipe network system; the pipe network system comprises a main pipe communicated with a water plant and a plurality of branch pipes arranged at the water outlet of the main water pipe and used for conveying drinking water to a plurality of villages and towns; the drinking water state automatic monitoring device comprises a branch pipe monitoring module arranged on a branch pipe, a main pipe monitoring module arranged on a main pipe and a monitoring center for processing signals transmitted back by the main pipe monitoring module and the branch pipe monitoring module; the branch pipe monitoring module comprises a branch pipe flowmeter and a branch pipe pressure transmitter; the main pipe monitoring module comprises a main pipe flowmeter, a main pipe pressure transmitter and a water quality detector. This application has the intensity of labour who reduces the staff, and is real-time effectual carries out the advantage monitored to the pipe network.

Description

Automatic drinking water state monitoring device

Technical Field

The application relates to the field of drinking water pipe network monitoring, in particular to an automatic drinking water state monitoring device.

Background

At present, with the increasing increase of underground water pollution, the safety of drinking water in rural areas becomes the most concerned problem for residents in villages and towns, the establishment of a centralized water supply plant in villages and towns is an important way for solving the safety of the drinking water for the residents in villages and towns, and the drinking water is pumped to the residents in villages and towns after being subjected to centralized filtration, disinfection and other treatment, so that the safety of the drinking water for the residents in villages and towns is greatly ensured; in order to ensure normal water supply to villages and towns, a water plant needs to monitor a pipe network for conveying drinking water, so that the quality, the quantity and the water pressure of the drinking water in the pipe network are in a normal state.

In the related art, a plurality of monitoring wells are generally arranged on the path of a pipe network, then pipeline monitoring instruments such as a flowmeter and a pressure transducer are arranged in the monitoring wells, and a worker can regularly go into the pipeline well to acquire data of the pipeline monitoring instruments.

With respect to the related art in the above, the inventors consider that: when data acquisition is carried out on the pipeline instrument, large human resources need to be consumed, and the labor intensity of workers is increased; in addition, when water is delivered to villages and small towns, a large number of pipe networks are laid in the suburbs, certain inconvenience is brought to data acquisition of workers, and data monitoring delay is large.

Disclosure of Invention

In order to reduce staff's intensity of labour, real-time effectual pipe network is monitored, this application provides a drinking water state automatic monitoring device.

The application provides a drinking water state automatic monitoring device adopts following technical scheme:

the automatic drinking water state monitoring device is arranged on a pipe network system; the pipe network system comprises a main pipe communicated with a water plant and a plurality of branch pipes arranged at the water outlet of the main water pipe and used for conveying drinking water to a plurality of villages and towns; the drinking water state automatic monitoring device comprises a branch pipe monitoring module arranged on a branch pipe, a main pipe monitoring module arranged on a main pipe and a monitoring center for processing signals transmitted back by the main pipe monitoring module and the branch pipe monitoring module; the branch pipe monitoring module comprises a branch pipe flowmeter and a branch pipe pressure transmitter; the main pipe monitoring module comprises a main pipe flowmeter, a main pipe pressure transmitter and a water quality detector.

By adopting the technical scheme, when the pipe network system is monitored, the branch pipe monitoring module can monitor the water flow state in the branch pipe, the branch pipe flowmeter can monitor the flow velocity of drinking water in the branch pipe, the branch pipe pressure transmitter can monitor the water pressure in the branch pipe, and the branch pipe flowmeter and the branch pipe pressure transmitter transmit the monitored data to the monitoring center; the main pipe can monitor the water flow state in the main pipe, the main pipe flowmeter can monitor the flow rate of drinking water in the main pipe, the main pipe pressure transmitter can monitor the water pressure in the main pipe, the water quality detector can monitor the water quality and the chlorine content in the main pipe, and the main pipe flowmeter, the main pipe pressure transmitter and the water quality detector can transmit the monitored water flow state data to the monitoring center, so that the monitoring center can effectively monitor a pipe network in real time; when a certain part of the pipe network has a fault, the data received by the monitoring center is abnormal, and a worker can accurately find the fault occurrence place through the abnormal point and overhaul the fault occurrence place in time; through setting up branch pipe monitoring module, being responsible for monitoring module and surveillance center, can reduce the manpower that consumes in the pipe network monitoring process, reduce staff's intensity of labour, real-time effectual monitoring to the pipe network.

Optionally, the branch pipe detection module further includes an acquisition terminal for acquiring data of the branch pipe flowmeter and the branch pipe pressure transmitter; a communication base station is arranged on the ground, and a wireless transceiving module for transceiving signals is arranged in the communication base station.

By adopting the technical scheme, when the drinking water is generally conveyed, a village and a town are far away from a monitoring center, the cable communication construction period is long, the running cost is high, cables in some remote areas are difficult to lay, and a wireless network communication technology is adopted, when the state of water in a branch pipe is monitored, a branch pipe flowmeter and a branch pipe pressure transmitter transmit acquired data to an acquisition terminal, the acquisition terminal transmits a data signal to a communication base station, the communication base station transmits the signal to the monitoring center after amplification and other processing, and the monitoring center processes the data; through setting up collection terminal and communication base station, signal transmission's convenience has been improved.

Optionally, the main pipe flowmeter, the main pipe pressure transmitter and the water quality detector are connected with the monitoring center through cables.

Through adopting above-mentioned technical scheme, the position of water works is nearer apart from the surveillance center, consequently can be more convenient carry out laying of cable, and wired communication is less than receiving the interference in radio communication, the reliability, and the security is strong to improve the validity of being responsible for the monitoring of monitoring module.

Optionally, the clean water basin, the reservoir and the water pump of the water plant are respectively provided with a camera, and the cameras are connected with the monitoring center through cables.

Through adopting above-mentioned technical scheme, the camera can transmit the monitor center with the picture of clean water basin, cistern and water pump department in real time to the realization carries out real-time control to the operational aspect of each equipment in the water plant, the discrepancy condition of relevant personnel and staff's operating condition, makes things convenient for monitoring personnel to know in real time and master the site conditions, makes response and emergency treatment to the abnormal conditions, the guarantee safety of supplying water.

Optionally, the monitoring center includes a storage module for storing data, a data processing module for summarizing and processing the data, an image processing module for processing image information transmitted back by the camera, and a printing module for printing the processed data or image.

By adopting the technical scheme, the storage module can store the data signals transmitted back from the branch pipe monitoring module and the main pipe monitoring module, then the data processing module can summarize and process the data, and the image processing module can analyze and process the image confidence transmitted back from the camera; the storage module can also store the processed output and the image; the printing module can print the processed data, so that the processed data can be conveniently checked and analyzed by related personnel.

Optionally, the monitoring center further includes an early warning module for setting a threshold of a monitoring parameter of each monitoring point.

By adopting the technical scheme, when the data at the branch pipe monitoring module and the main pipe monitoring module exceed the threshold value set by the early warning module abnormally, the early warning module gives an alarm, so that monitoring personnel can find abnormal data in time and process the abnormal data.

Optionally, a stop valve is arranged on the main pipe, and the monitoring center further includes a control module for controlling the opening and closing of the stop valve.

Through adopting above-mentioned technical scheme, when quality of water in the water quality testing appearance monitored main pipe changes, for example when chlorine content is higher, can close the stop valve on the main pipe through control module to cut off the rivers that flow to in each spinal branch pipe, make things convenient for water plant staff to handle the drinking water.

Optionally, each branch pipe is provided with a shutoff valve for controlling the on-off of the branch pipe, the shutoff valve is connected with the acquisition terminal, the acquisition terminal is provided with a signal receiving assembly for controlling the on-off of the shutoff valve, and the signal receiving assembly is connected with the base station through a wireless signal.

Through adopting above-mentioned technical scheme, when the pipe network appears unusually, can send the signal of closing the stop valve through the surveillance center, the signal is enlarged and the transfer back through the communication base station, transmits the signal reception subassembly for gathering the pile end, and signal reception subassembly received signal back control stop valve closes to cut the rivers in the branch pipe, other branch pipes of staff in the in-process that carries out the maintenance to a branch pipe can normally supply water, thereby improve the convenience that the staff maintained the pipe network.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the branch pipe monitoring module, the main pipe monitoring module and the monitoring center, the labor consumed in the pipe network monitoring process can be reduced, the labor intensity of workers is reduced, and the pipe network is effectively monitored in real time;

2. by arranging the acquisition terminal and the communication base station, the convenience of signal transmission is improved;

3. through setting up the camera, make things convenient for monitoring personnel to know in real time and master the site conditions, react and emergency treatment to the abnormal conditions, the guarantee safety of supplying water.

4. Through setting up the stop valve, the staff of toilet water factory handles the drinking water.

5. Through setting up the stop valve, improve the convenience of staff to the pipe network maintenance.

Drawings

FIG. 1 is a schematic structural diagram of a pipe network system in an embodiment of the present application;

fig. 2 is a schematic structural diagram of an automatic drinking water condition monitoring device in an embodiment of the present application.

Description of reference numerals: 1. a pipe network system; 10. a main pipe; 100. a stop valve; 11. a branch pipe; 110. a shut-off valve; 2. a branch pipe monitoring module; 20. a branch flowmeter; 21. a branch pipe pressure transmitter; 22. collecting a terminal; 3. a supervisor monitoring module; 30. a master pipe flow meter; 31. a main pipe pressure transmitter; 32. a water quality detector; 4. a monitoring center; 40. a storage module; 41. a data processing module; 42. an image processing module; 43. a printing module; 44. an alarm module; 45. a control module; 5. a monitoring well; 6. a solar panel; 7. a communication base station; 8. a camera is provided.

Detailed Description

The present application is described in further detail below with reference to the attached figures X-X.

The embodiment of the application discloses automatic monitoring devices of drinking water state. Referring to fig. 1 and 2, the drinking water state automatic monitoring device is arranged on a pipe network system 1; the pipe network system 1 comprises a main pipe 10 communicated with a water plant and a plurality of branch pipes 11 arranged at the water outlet of the main pipe; the main water pipe is used for conveying treated drinking water in a water plant to villages and towns, and the branch pipe 11 is used for conveying drinking water to different villages and towns; the drinking water state automatic monitoring device comprises a branch pipe 11 monitoring module arranged in a village and a main pipe 10 monitoring module arranged in a water plant and a monitoring center 4 for analyzing and processing monitoring data; the monitoring module of the main pipe 10 and the monitoring module of the branch pipe 11 transmit data information to the monitoring center 4 in a wired or wireless mode.

The pipeline monitoring system is characterized in that a plurality of monitoring points are arranged on a pipeline path, a monitoring well 5 is arranged at the monitoring points, a branch pipe 11 monitoring module comprises a branch pipe 11 flowmeter, a branch pipe 11 pressure transmitter and an acquisition terminal 22, the branch pipe 11 flowmeter, the branch pipe 11 pressure transmitter and the acquisition terminal 22 are arranged in the monitoring well 5 and connected with the branch pipe 11, the branch pipe 11 flowmeter and the pressure transmitter are used for acquiring data of the branch pipe 11 flowmeter and the pressure transmitter, the branch pipe 11 flowmeter and the pressure transmitter are connected with the acquisition terminal 22 through cables, and particularly, the branch pipe 11 flowmeter can adopt an ultrasonic flowmeter; in order to reduce the erosion of rain and snow, the acquisition terminal 22 is arranged in the monitoring well 5; in order to supply power to the monitoring module of the outdoor branch pipe 11, a solar panel 6 can be arranged at a monitoring point; in order to facilitate transmission of data collected by the collection terminals 22, the communication base station 7 is arranged on the ground, and the communication base station 7 is internally provided with a wireless transceiver module, so that wireless signals emitted by the collection terminals 22 are received and sent to the monitoring center 4 in a wireless signal mode.

The main pipe 10 monitoring module comprises a main pipe 10 flowmeter, a main pipe 10 pressure transmitter and a water quality detector 32 which are arranged in the monitoring well 5 and connected with the main pipe 10; the main pipe 10 flowmeter and the main pipe 10 pressure transmitter are respectively used for monitoring the water flow and the pressure in the main pipe 10; the water quality detector 32 is used for monitoring the chlorine content of the drinking water in the main pipe 10, and the main pipe 10 flowmeter, the main pipe 10 pressure gauge transmitter and the water quality detector 32 are connected with the monitoring center 4 through cables; the clean water tank, the reservoir and the water pump of the water plant are respectively provided with a camera 8, and the camera 8 is connected with the monitoring center 4 through a cable.

The monitoring center 4 includes a storage module 40, a data processing module 41, an image processing module 42, and a printing module 43; the storage module 40 may store the transmitted data, and may manually set the monitoring frequency, in this embodiment, the monitoring frequency range is 1 s/time to 15 min/time; the data processing module 41 can summarize and process the stored data; the image processing module 42 is configured to process a picture transmitted by the camera 8; the printing module 43 is used for printing the processed data, so that the processed data can be conveniently checked and analyzed by related personnel; the storage system can also store the data and video processed by the data processing module 41 and the image processing module 42, so as to facilitate later-stage calling; in order to facilitate the workers to find out abnormality in time, the monitoring center 4 further comprises an alarm module 44, upper and lower threshold values of monitoring parameters of each monitoring point are set, and when the monitoring data exceed the threshold value range, the alarm module 44 gives an alarm.

The stop valve 100 is arranged on the main pipe 10, for the convenience of control, the stop valve 100 is an electromagnetic stop valve 100, the monitoring center 4 further comprises a control module 45, the stop valve 100 is connected with the control module 45 through a cable, when the water quality in a pipe network changes, the control module 45 can control the stop valve 100 to close the main pipe 10, and the water flow of the branch pipe 11 is cut off so as to treat the water in the water plant; in order to facilitate the individual maintenance of each branch pipe 11, a shutoff valve 110 is arranged on each branch pipe 11, the shutoff valve 110 is an electromagnetic valve, the shutoff valve 110 is connected with the acquisition terminal 22 through a cable, a signal receiving assembly is arranged in the acquisition terminal 22, the base station transmits a signal to the signal receiving assembly of the acquisition terminal 22, and the signal receiving assembly controls the shutoff valve 110 to open and close to control the opening and closing of the branch pipe 11 after receiving the signal.

The implementation principle of the automatic drinking water state monitoring device in the embodiment of the application is as follows: when the pipe network system 1 is monitored, the branch pipe 11 monitoring module can monitor the water flow state in the branch pipe 11, the branch pipe 11 flowmeter can monitor the flow rate of drinking water in the branch pipe 11, the branch pipe 11 pressure transmitter can monitor the water pressure in the branch pipe 11, the branch pipe 11 flowmeter and the branch pipe 11 pressure transmitter transmit monitored data to the acquisition terminal 22, the branch pipe 11 flowmeter and the branch pipe 11 pressure transmitter transmit the acquired data to the acquisition terminal 22, the acquisition terminal 22 transmits data signals to the communication base station 7, and the communication base station 7 transmits the signals to the monitoring center 4 after amplifying and the like; the main pipe 10 can monitor the water flow state in the main pipe 10, the flowmeter of the main pipe 10 can monitor the flow rate of the drinking water in the main pipe 10, the pressure transmitter of the main pipe 10 can monitor the water pressure in the main pipe 10, the water quality detector 32 can monitor the water quality and the chlorine content in the main pipe 10, and the flowmeter of the main pipe 10, the pressure transmitter of the main pipe 10 and the water quality detector 32 can transmit the monitored water flow state data to the monitoring center 4 through cables; the camera 8 can transmit pictures of the clean water tank, the reservoir and the water pump to the monitoring center 4 in real time; after the monitoring center 4 receives the signals transmitted back by the branch pipe 11 monitoring module, the main pipe 10 monitoring module and the camera 8, the storage module 40 can store the data signals transmitted back by the branch pipe 11 monitoring module, the main pipe 10 monitoring module and the camera 8, then the data processing module 41 can summarize and process the data, and the image processing module 42 can analyze and process the image confidence transmitted back by the camera 8; the storage module 40 may also store the processed output and the image; the print module 43 can print the processed data, which is convenient for the monitoring personnel to analyze.

When data transmitted back by the branch pipe 11 monitoring module, the main pipe 10 monitoring module and the camera 8 are abnormal and exceed a threshold value set by the early warning module, the early warning module gives an alarm, so that monitoring personnel can find abnormal data in time and process the abnormal data; when the water quality detector 32 detects that the water quality in the main pipe 10 changes, for example, impurities or chlorine content is high, the control module 45 can control to close the stop valve 100 on the main pipe 10, so that water flow flowing to each branch pipe 11 of the main pipe 10 is cut off, village and town residents are prevented from drinking, and water quality is conveniently treated by water plant workers; when the branch pipes 11 are damaged and need to be maintained, the monitoring center 4 can send out a signal for closing the shutoff valve 110, the signal is amplified and transferred through the communication base station 7 and then transmitted to the signal receiving assembly at the collecting pile end, the signal receiving assembly receives the signal and then controls the shutoff valve 110 to be closed, so that water flow in the branch pipes 11 is cut off, and other branch pipes 11 can normally supply water when a worker maintains one branch pipe 11. In conclusion, by arranging the branch pipe 11 monitoring module, the main pipe 10 monitoring module and the monitoring center 4, the labor consumed in the pipe network monitoring process can be reduced, the labor intensity of workers is reduced, and the pipe network is effectively monitored in real time.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an automatic monitoring devices of drinking water condition which characterized in that: the automatic drinking water state monitoring device is arranged on the pipe network system (1); the pipe network system (1) comprises a main pipe (10) communicated with a water plant and a plurality of branch pipes (11) arranged at the water outlet of the main pipe and used for conveying drinking water to a plurality of villages and towns; the automatic drinking water state monitoring device comprises a branch pipe (11) monitoring module arranged on a branch pipe (11), a main pipe (10) monitoring module arranged on a main pipe (10) and a monitoring center (4) used for processing signals transmitted back by the main pipe (10) monitoring module and the branch pipe (11) monitoring module; the branch pipe (11) monitoring module comprises a branch pipe (11) flowmeter and a branch pipe (11) pressure transmitter; the main pipe (10) monitoring module comprises a main pipe (10) flowmeter, a main pipe (10) pressure transmitter and a water quality detector (32).

2. An automated drinking water condition monitoring device according to claim 1, wherein: the branch pipe (11) detection module further comprises a collection terminal (22) for collecting data of a branch pipe (11) flowmeter and a branch pipe (11) pressure transmitter; a communication base station (7) is arranged on the ground, and a wireless transceiving module for transceiving signals is arranged in the communication base station (7).

3. An automated drinking water condition monitoring device according to claim 1, wherein: the main pipe (10) flowmeter, the main pipe (10) pressure transmitter and the water quality detector (32) are connected with the monitoring center (4) through cables.

4. An automated drinking water condition monitoring device according to claim 1, wherein: the clean water tank, the reservoir and the water pump of the water plant are respectively provided with a camera (8), and the cameras (8) are connected with the monitoring center (4) through cables.

5. An automated drinking water condition monitoring device according to claim 1, wherein: the monitoring center (4) comprises a storage module (40) for storing data, a data processing module (41) for summarizing and processing the data, an image processing module (42) for processing image information transmitted back by the camera and a printing module (43) for printing the processed data or image.

6. An automated drinking water condition monitoring device according to claim 5, wherein: the monitoring center (4) further comprises an early warning module for setting monitoring parameter threshold values of all monitoring points.

7. An automated drinking water condition monitoring device according to claim 2, wherein: the monitoring center (4) further comprises a control module (45) used for controlling the opening and closing of the stop valve (100).

8. An automated drinking water condition monitoring device according to claim 7, wherein: each branch pipe (11) is provided with a shutoff valve (110) used for controlling the on-off of the branch pipe (11), the shutoff valve (110) is connected with an acquisition terminal (22), the acquisition terminal (22) is provided with a signal receiving assembly used for controlling the shutoff valve (110) to be opened and closed, and the signal receiving assembly is connected with a base station through wireless signals.