CN111581321A - Operation management control method based on multi-target pipe network optimization maintenance - Google Patents

Abstract

The invention discloses an operation management control method based on multi-objective pipe network optimization maintenance, which comprises a flowmeter, a pressure gauge, a regulating valve, a water quality monitor, a display and a computer, wherein the flowmeter comprises an electromagnetic flowmeter, an ultrasonic flowmeter and a mechanical flowmeter, different metering combinations are formed by combining different types of flowmeters of inner rings of a branch pipe network, a pipe network map display can be used for carrying out various advanced rendering settings, the advanced rendering settings comprise the number of displayed points, the size of the points, the number of points in a minimum block, a rendering mode, scene background colors, depth perception options and the like for self-defining setting, different colors can be selected for displaying through different pipelines and equipment in the pipe network, the numerical values of parameters in different ranges are displayed, and the numerical values are specified through a map legend; the operation management control method based on multi-objective pipe network optimization maintenance has the advantages of water leakage detection, water quality condition detection, automatic optimization maintenance, convenience in management control and automatic defect prompting.

Description

Operation management control method based on multi-target pipe network optimization maintenance

Technical Field

The invention relates to the technical field of pipe networks, in particular to an operation management control method based on multi-objective pipe network optimization maintenance.

Background

Water of the chemical formula H₂O is an inorganic substance consisting of two elements of hydrogen and oxygen, is nontoxic and can be drunk. The water is one of the most common substances on the earth, is an important resource for all life including inorganic compounds and human beings, and is also the most important component of organisms.

In life, water is the foundation of human survival, water is not available, animals and plants cannot survive, and at present, pipelines are used for supplying water in cities, but a lot of problems often occur when the pipelines supply water, and if the pipelines do not maintain timely, a great problem often occurs.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides an operation management control method based on multi-objective pipe network optimization maintenance, has the advantages of water leakage detection, water quality condition detection, automatic optimization maintenance, convenience in management control and automatic prompting of defects, and solves the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a multi-objective pipe network optimization maintenance-based operation management control method comprises a flow meter, a pressure gauge, a regulating valve, a water quality monitor, a display and a computer;

the flowmeter comprises an electromagnetic flowmeter, an ultrasonic flowmeter and a mechanical flowmeter, different metering combinations are formed by combining different types of flowmeters of inner rings of a branch pipe network, and the branch pipes are divided into four types, namely DN20/DN25/DN32/DN 40.

The control method comprises the following steps:

(1) importing pipe network information according to the urban pipe network map, displaying the pipe network map by adopting a computer, and selecting nodes and branch pipe parameters by utilizing an urban pipe network map page;

(2) electromagnetic valves, flowmeters, pressure gauges, regulating valves and water quality monitors are arranged on all branch pipes in the urban pipe network, and the positions, the numbers and the models of the instruments are set through an urban pipe network map;

(3) detecting data on the branch pipes according to the electromagnetic valves, the flow meters, the pressure gauges, the regulating valves and the water quality monitors on the branch pipes, and after the detection is finished, remotely transmitting the data by adopting a wireless network;

(4) the city pipe network map displays data detected by each instrument on the corresponding instrument according to the serial number, and the city pipe network map detects set nodes and branch pipe parameters according to the detected data to determine the friction coefficient, monitor leakage and monitor leakage points in the detection branch pipe;

(5) determining the water quality concentration according to the water quality condition detected by the water quality detector, and displaying the water quality concentration on an urban pipe network map;

(6) combining the information in the (1), (3), (4) and (5) in a computer to generate a complete city pipe network map, checking the working condition of the components on each branch pipe and the water flow, water quality and water leakage condition of the branch pipe according to the city pipe network map, automatically controlling the on-off of the electromagnetic valve by the computer according to the working condition of the components on each branch pipe and the water flow, water quality and water leakage condition of the branch pipe, and displaying data through a display;

(7) when the day is finished, the computer generates a curve graph for the part with larger change of the branch pipe water flow condition through a pipe network map and prints the curve graph through a printer;

(8) when the urban pipe network normally operates, the branch pipe condition can be inquired through the computer according to the fuzzy inquiry, the branch pipe inquiry, the pipe diameter and the address.

Preferably, the pipe network map displays different pipeline types for display or hidden control.

Preferably, the pipe network map display can be used for carrying out various advanced rendering settings, the advanced rendering settings comprise displayed points, point sizes, points in the minimum block, rendering modes, scene background colors, depth perception options and the like, different colors can be selected to be displayed through different pipelines and devices in the pipe network, numerical values of parameters in different ranges are displayed, and the numerical values are designated through a map legend.

Preferably, the pipe network map display may select: the method comprises three modes of high definition, standard definition and fluency, wherein the high definition mode adopts the best display quality to load the point cloud data, the standard mode adopts the preset optimization strategy to load the point cloud data, and the flow mode adopts the fastest speed to load the point cloud data.

Preferably, a background map is displayed under the grid map, the background map may be a street map, a public facility map, a topographic map, a plot, and any other graphic or drawing, and the grid map may be zoomed and enlarged.

The parts not involved in the invention are the same as or can be realized by the prior art.

Compared with the prior art, the invention has the following beneficial effects:

1: according to the operation management control method based on multi-objective pipe network optimization maintenance, the solenoid valve is adopted to control the on-off of branch pipe water flow, the water flow is conveniently controlled in an optimized mode, a flow meter, a pressure meter, a regulating valve and a water quality monitor are adopted to detect the condition of the water flow, the data of a pipe network are conveniently detected, and the position of a problem is conveniently detected;

2: the operation management control method based on multi-objective pipe network optimization maintenance is characterized in that all data are analyzed through a computer, optimization control is facilitated, a city pipe network map is displayed through a display, data of a pipe network can be conveniently checked, functions of enlarging and reducing are adopted, designated parts can be checked, and problems can be conveniently found.

3: the utility model provides an operation management control method based on multi-objective pipe network is optimized and is maintained adopts the computer to inquire, can look over the data of branch pipe, adopts and shows and hide partial pipe network, conveniently looks over, adopts multiple setting up of playing up, can set for the pipe network of different grade type, conveniently looks over, adopts three kinds of modes of high definition, standard definition and smoothness to show data, conveniently shows with the best mode, shows the background map under the pipe network map, conveniently looks over the branch pipe position through the topography.

Detailed Description

The present invention will be further described with reference to specific embodiments, which will become apparent from the following description, but are intended to be exemplary only, and not limiting as to the scope of the invention, it will be understood by those skilled in the art that changes in detail and modifications of form and detail may be made therein without departing from the spirit and scope of the invention, and that such changes and modifications are within the scope of the invention.

Example 1:

(1) importing pipe network information according to the urban pipe network map, displaying the pipe network map by adopting a computer, and selecting nodes and branch pipe parameters by utilizing an urban pipe network map page;

(2) electromagnetic valves, flowmeters, pressure gauges, regulating valves and water quality monitors are arranged on all branch pipes in the urban pipe network, and the positions, the numbers and the models of the instruments are set through an urban pipe network map;

(3) detecting data on the branch pipes according to the electromagnetic valves, the flow meters, the pressure gauges, the regulating valves and the water quality monitors on the branch pipes, and after the detection is finished, remotely transmitting the data by adopting a wireless network;

(4) the city pipe network map displays data detected by each instrument on the corresponding instrument according to the serial number, and the city pipe network map detects set nodes and branch pipe parameters according to the detected data to determine the friction coefficient, monitor leakage and monitor leakage points in the detection branch pipe;

(5) determining the water quality concentration according to the water quality condition detected by the water quality detector, and displaying the water quality concentration on an urban pipe network map;

(6) combining the information in the (1), (3), (4) and (5) in a computer to generate a complete city pipe network map, checking the working condition of the components on each branch pipe and the water flow, water quality and water leakage condition of the branch pipes according to the city pipe network map, rendering the types of the branch pipes on the map, and automatically allocating a proper display mode, analyzing the working condition of the components on each branch pipe and the water flow, water quality and water leakage condition of the branch pipes by the computer to obtain that the pipe network is normal, the pipe network works normally, and the display displays a normal numerical value;

(7) at the end of each day, when the part with large branch pipe water flow condition change does not appear, information is not printed;

(8) when the urban pipe network normally operates, the branch pipe condition is inquired through a computer according to fuzzy inquiry, branch pipe inquiry, pipe diameter and address.

Example 2:

(1) importing pipe network information according to the urban pipe network map, displaying the pipe network map by adopting a computer, and selecting nodes and branch pipe parameters by utilizing an urban pipe network map page;

(2) electromagnetic valves, flowmeters, pressure gauges, regulating valves and water quality monitors are arranged on all branch pipes in the urban pipe network, and the positions, the numbers and the models of the instruments are set through an urban pipe network map;

(3) detecting data on the branch pipes according to the electromagnetic valves, the flow meters, the pressure gauges, the regulating valves and the water quality monitors on the branch pipes, and after the detection is finished, remotely transmitting the data by adopting a wireless network;

(4) the city pipe network map displays data detected by each instrument on the corresponding instrument according to the serial number, and the city pipe network map detects set nodes and branch pipe parameters according to the detected data to determine the friction coefficient, monitor leakage and monitor leakage points in the detection branch pipe;

(5) determining the water quality concentration according to the water quality condition detected by the water quality detector, and displaying the water quality concentration on an urban pipe network map;

(6) combining the information in the (1), (3), (4) and (5) in a computer to generate a complete city pipe network map, checking the working condition of the components on each branch pipe and the water flow, water quality and water leakage condition of the branch pipes according to the city pipe network map, rendering the types of the branch pipes on the map, automatically allocating proper display modes, analyzing the working condition of the components on each branch pipe and the water flow, water quality and water leakage condition of the branch pipes by the computer to obtain the water leakage condition of the pipe network, closing the electromagnetic valves of the branch pipes of the water leakage part by the computer, and displaying the region where the problem exists through a display;

(7) when the current situation of the branch pipe changes greatly, printing information;

(8) when the urban pipe network normally operates, the branch pipe condition is inquired through a computer according to fuzzy inquiry, branch pipe inquiry, pipe diameter and address.

In summary, the following steps: the invention relates to an operation management control method based on multi-objective pipe network optimization maintenance, which comprises the steps of importing pipe network information according to an urban pipe network map, detecting branch pipe water flow data by using an electromagnetic valve, a flowmeter, a pressure gauge, a regulating valve and a water quality monitor, transmitting the detected data into a computer through a wireless network, importing the data into a branch pipe corresponding to the pipe network map by the computer, setting the position, the number and the model of an instrument, analyzing friction coefficient measurement, leakage monitoring and leakage point monitoring by the computer according to the detected data, detecting water quality concentration according to the water quality monitor and displaying the water quality concentration on the urban pipe network map, combining all data by the computer to generate a complete urban pipe network map, displaying a background map in a pipe network area in the urban pipe network map by the computer, and judging the branch pipe condition according to the detected numerical value and the result obtained by analysis, when some branch pipes have problems, the computer opens the electromagnetic valve through the wireless network, disconnects some branch pipes at the problem position, displays the branch pipes through the display to prompt personnel to maintain, when the day is over, the computer generates a curve graph for the part with larger change of the branch pipe water flow condition and prints the curve graph through the printer, when the branch pipe data needs to be checked, the branch pipe condition can be inquired through fuzzy inquiry, branch pipe inquiry, pipe diameter and address, the hiding and display of the category in the urban pipe network gambler can be set through the computer, the displayed point number, point size, point number in the minimum block, rendering mode, scene background color, depth perception option and the like can be set in a user-defined mode, various colors are selected through the types of the pipes and the equipment in the pipe network to display the numerical value of the range parameter, and the numerical value is designated through a map legend, the city pipe network map is selected by self according to the loading speed: high definition, standard definition and smoothness, and increased loading speed.

While there have been shown and described what are at present considered to be the fundamental principles of the invention and its essential features and advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (5)

1. An operation management control method based on multi-objective pipe network optimization maintenance is characterized in that: comprises a flowmeter, a pressure gauge, a regulating valve, a water quality monitor, a display and a computer; the flow meter comprises an electromagnetic flow meter, an ultrasonic flow meter and a mechanical flow meter, different metering combinations are formed by combining different types of flow meters of inner rings of a branch pipe network, the branch pipes are divided into four types, namely DN20/DN25/DN32/DN40, and the computer is connected with a network.

The control method comprises the following steps:

(1) importing pipe network information according to the urban pipe network map, displaying the pipe network map by adopting a computer, and selecting nodes and branch pipe parameters by utilizing an urban pipe network map page;

(2) electromagnetic valves, flowmeters, pressure gauges, regulating valves and water quality monitors are arranged on all branch pipes in the urban pipe network, and the positions, the numbers and the models of the instruments are set through an urban pipe network map;

(3) detecting data on the branch pipes according to the electromagnetic valves, the flow meters, the pressure gauges, the regulating valves and the water quality monitors on the branch pipes, and after the detection is finished, remotely transmitting the data by adopting a wireless network;

(4) the city pipe network map displays data detected by each instrument on the corresponding instrument according to the serial number, and the city pipe network map detects set nodes and branch pipe parameters according to the detected data to determine the friction coefficient, monitor leakage and monitor leakage points in the detection branch pipe;

(5) determining the water quality concentration according to the water quality condition detected by the water quality detector, and displaying the water quality concentration on an urban pipe network map;

(6) combining the information in the (1), (3), (4) and (5) in a computer to generate a complete city pipe network map, checking the working condition of the components on each branch pipe and the water flow, water quality and water leakage condition of the branch pipe according to the city pipe network map, automatically controlling the on-off of the electromagnetic valve by the computer according to the working condition of the components on each branch pipe and the water flow, water quality and water leakage condition of the branch pipe, and displaying data through a display;

(7) when the day is finished, the computer generates a curve graph for the part with larger change of the branch pipe water flow condition through a pipe network map and prints the curve graph through a printer;

(8) when the urban pipe network normally operates, the branch pipe condition can be inquired through the computer according to the fuzzy inquiry, the branch pipe inquiry, the pipe diameter and the address.

2. The operation management control method based on multi-objective pipe network optimization maintenance according to claim 1, characterized in that: and the pipe network map displays different pipeline types for display or hidden control.

3. The operation management control method based on multi-objective pipe network optimization maintenance according to claim 1, characterized in that: the pipe network map display can be used for carrying out various advanced rendering settings, the advanced rendering settings comprise displayed points, point sizes, points in a minimum block, rendering modes, scene background colors, depth perception options and the like, different colors can be selected to be displayed through different pipelines and devices in the pipe network, numerical values of parameters in different ranges are displayed, and the numerical values are designated through a map legend.

4. The operation management control method based on multi-objective pipe network optimization maintenance according to claim 1, characterized in that: the pipe network map display can be selected: the method comprises three modes of high definition, standard definition and fluency, wherein the high definition mode adopts the best display quality to load the point cloud data, the standard mode adopts the preset optimization strategy to load the point cloud data, and the flow mode adopts the fastest speed to load the point cloud data.

5. The operation management control method based on multi-objective pipe network optimization maintenance according to claim 2, characterized in that: and displaying a background map under the pipe network map, wherein the background map can be a street map, a public facility map, a topographic map, a land parcel development map and any other figures or drawings, and the pipe network map can be zoomed and enlarged.