CN109840870A - A kind of drainage system grid-based management pattern analysis method and the medium for storing it - Google Patents
A kind of drainage system grid-based management pattern analysis method and the medium for storing it Download PDFInfo
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- CN109840870A CN109840870A CN201811553469.2A CN201811553469A CN109840870A CN 109840870 A CN109840870 A CN 109840870A CN 201811553469 A CN201811553469 A CN 201811553469A CN 109840870 A CN109840870 A CN 109840870A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/152—Water filtration
Abstract
The invention discloses a kind of drainage system grid-based management pattern analysis method and the media for storing it, gridding subregion is carried out according to the topological relation of drainage pipeline networks and city river, land character parameter is added and/or population size parameter divides different brackets subregion, carry out process of refinement, to which staff can learn which subregion is densely populated or the land character needs to pay special attention to drainage problem, simultaneously according to logical condition, label key enters flow point, crucial breakthrough, key pump node, crucial river cross-section etc., gridding monitoring is carried out convenient for staff, carry out effective Managed Solution, net region is refined simultaneously, digitlization inspection maintenance, to realize the gridding fine-grained management of drainage system.
Description
Technical field
The present invention relates to drainage system field of information management, at especially a kind of drainage system grid-based management pattern analysis
Reason method and its storage medium.
Background technique
With socio-economic development and the quickening of Process of Urbanization Construction, urban water-body protection and underground space management increasingly by
Pay attention to, the information content of corresponding drainage pipeline networks and its affiliated facility increases severely therewith, and type and quantity are all far beyond conventional tube
The range that the method for managing the labor management used can solve, while facilities management comprehensive coordination property is not strong, in management supervision not
Enough actively, comprehensively, in time.
Our sewerage system is there are many problems and blind spot at present, pumping equipment management information lag, assault formula,
Campaign-styled management becomes normality, especially at present in the case where urban drainage pipe network is intricate, due to drainage pipeline networks structure
Property defect is unknown, the dirty pipe network misconnection hybrid junction of rain, pollution sources are traced to the source the problems such as unclear, and regular appearance managerial confusion mutually pulls
The phenomenon that skin, can get the topological relation of sewerage system, land character parameter, population size ginseng in city now
Number, the drainage problem existed etc., however data are more many and diverse, temporarily there is no a reasonable effective analysis processing moulds
Type is integrated, screened and is classified to these data without reasonable logical method, and staff can not be from these data
Reasonable, the effective information presented about drainage system is obtained, the waste of data is caused.
Summary of the invention
In order to solve the above technical problems, the object of the present invention is to provide it is a kind of being capable of high-volume to drainage system and many and diverse
The method that is analyzed and processed with the logical condition set of data and its computer readable storage medium, fast and accurately
Determine, provides Informational support for staff.
The technical solution adopted by the present invention is that:
A kind of drainage system grid-based management pattern analysis method, comprising the following steps:
S10, gridding subregion is carried out according to the topological relation and city river of drainage pipeline networks;
S20, using the area that becomes a mandarin as object, land character parameter and/or population size parameter is added in gridding subregion and draws
Divide different brackets subregion;
S30, using the node in gridding subregion as check object, water and/or water level information are entered according to the node, sentenced
Whether the node that breaks is that key enters flow point;
S40, land character and/or water using the node in gridding subregion as check object, where the node
Matter information and/or water level information judge whether the node is crucial breakthrough;
S50, using the node in gridding subregion as check object, whether pumping plant and pollution are provided with according to the node
Object concentration change information judges whether the node is crucial pump node;
S60, using the river cross-section in gridding subregion as check object, according in gridding subregion whether there is river
Section and water amount information and/or water quality information judge whether it is crucial river cross-section.
In step slo, using sewage main pipe as partition boundaries line one, sewage concentration converges into sewage master in drainage system
The branch pipe of main pipe is boundary line two, and river is boundary line three in drainage system region, and drainage system region predeterminable area line is side
Boundary line four carries out gridding subregion by boundary line one, boundary line two, boundary line three and boundary line four.
In step s 30, using the node in gridding subregion as check object, if the node is water mutation of water level
Point, sewage concentrates run-off in confluence or rainfall to there is the case where increasing suddenly in drainage system, then enters flow point for key.
In step s 40, using the node in gridding subregion as check object, if the node close to creek side, and
Flow backward risk in the presence of leakage, water increase and dilute sewage water concentration situation occurs, be then judged as crucial breakthrough.
In step S60, if there are Zhi Yong for the river cross-section using the river cross-section in gridding subregion as check object
Or the access of interflow discharge outlet, and there is the case where mutation in water and/or water quality, then be judged as crucial river cross-section.
It is further comprising the steps of:
S70, using each key node of gridding subregion in drainage system and creek key sections as check object, setting
Terminal monitoring point carries out the flow and/or liquid level and/or water quality in drainage system and river to key node and river key sections
Monitoring;
S80, the data that each terminal monitoring point acquires are associated;
S90, the personnel of sending patrol and acquire the inspection data reported.
A kind of computer readable storage medium, comprising the following steps: S10, carried out according to the topological relation of drainage pipeline networks
Gridding subregion;
S20, using the area that becomes a mandarin as object, land character parameter and/or population size parameter is added in gridding subregion and draws
Divide different brackets subregion;
S30, using the node in gridding subregion as check object, water and/or water level information are entered according to the node, sentenced
Whether the node that breaks is that key enters flow point;
S40, land character and/or water using the node in gridding subregion as check object, where the node
Matter information and/or water level information judge whether the node is crucial breakthrough;
S50, using the node in gridding subregion as check object, whether pumping plant and pollution are provided with according to the node
Object concentration change information judges whether the node is crucial pump node;
S60, using the river cross-section in gridding subregion as check object, according in gridding subregion whether there is river
Section and water amount information and/or water quality information judge whether it is crucial river cross-section.
Beneficial effects of the present invention:
A kind of management of drainage system pattern analysis method of the present invention and the medium for storing it, the topology of drainage system is tied
Structure, city river, preset boundary etc. data carry out gridding subregion to drainage system, and land character parameter is then added
And/or each degree and zoning is carried out process of refinement, so which subregion people staff can learn by population size parameter
Mouth is intensive or the land character needs to pay special attention to drainage problem, while according to logical condition, key being marked to enter flow point, key
Breakthrough, crucial pump node, crucial river cross-section etc., carry out gridding monitoring convenient for staff, carry out effective management
Scheme, while to net region fining, digitlization inspection maintenance, to realize the gridding fine-grained management of drainage system.
Detailed description of the invention
A specific embodiment of the invention is described further with reference to the accompanying drawing.
Fig. 1 is the schematic diagram of drainage system gridding subregion and key point distribution.
Fig. 2 is the schematic diagram of drainage system setting terminal monitoring point.
Fig. 3 is the app display inspection schematic diagram of drainage system control.
Specific embodiment
As shown in Figure 1-Figure 3, a kind of drainage system grid-based management pattern analysis method, comprising the following steps:
S10, gridding subregion is carried out according to the topological relation and city river of drainage pipeline networks;
S20, using the area that becomes a mandarin as object, land character parameter and/or population size parameter is added in gridding subregion and draws
Divide different brackets subregion;
S30, using the node in gridding subregion as check object, water and/or water level information are entered according to the node, sentenced
Whether the node that breaks is that key enters flow point;
S40, land character and/or water using the node in gridding subregion as check object, where the node
Matter information and/or water level information judge whether the node is crucial breakthrough;
S50, using the node in gridding subregion as check object, whether pumping plant and pollution are provided with according to the node
Object concentration change information judges whether the node is crucial pump node;
S60, using the river cross-section in gridding subregion as check object, according in gridding subregion whether there is river
Section and water amount information and/or water quality information judge whether it is crucial river cross-section.
The topological structure of drainage system, city river, preset boundary etc. data are subjected to gridding to drainage system
Then subregion is added land character parameter and/or population size parameter for each degree and zoning, carries out process of refinement, thus
Staff can learn which subregion is densely populated or the land character needs to pay special attention to drainage problem, while according to patrolling
The condition of collecting, label key enter flow point, crucial breakthrough, crucial pump node, key river cross-section etc., carry out convenient for staff
Effective Managed Solution is carried out in gridding monitoring, while to net region fining, digitlization inspection maintenance, thus the row of realization
The gridding fine-grained management of water system.
Wherein, as shown in Figure 1, in step slo, using sewage main pipe as partition boundaries line one, sewage in drainage system
Concentrating the branch pipe for converging into sewage main pipe is boundary line two, and river is boundary line three, drainage system area in drainage system region
Domain predeterminable area line is boundary line four, carries out gridding by boundary line one, boundary line two, boundary line three and boundary line four
Subregion.
In step S20, according to land character (such as industry, resident, hospital, education, business, greenery patches) and population size
Carry out fining gridding subregion (area >=1km2) and sentenced according to the logic of the Different Effects step S30- step S60 of grade
It is disconnected, for example, to population size is big or land character in more industrial land or enter the more location of flow point and carry out raising mark
Remember priority etc., can specifically be selected according to the actual situation by staff.
In step s 30, using the node in gridding subregion as check object, if the node is water mutation of water level
Point, sewage concentrates run-off in confluence or rainfall to there is the case where increasing suddenly in drainage system, then enters flow point for key, closes
Key in flow point reflection pipeline pressure-bearing situation and easily flooded risk, staff successively detects that can to embody dry days pipe network operation normal
State, sewage emergency event, rainy day easily flooded risk.
In step s 40, using the node in gridding subregion as check object, if the node close to creek side, and
Flow backward risk in the presence of leakage, water increase and dilute sewage water concentration situation occurs, be then judged as crucial breakthrough.
In step s 50, using the important node of gridding subregion as check object, if the node is Boosting pumping station front end prison
Measuring point arranges water level and Water-quality Monitoring Points in pumping plant front end, can calculate in real time and control control subregion internal drainage pipe network pollution
The situation of change of object concentration meets the i.e. all crucial pump nodes of node of above-mentioned logical condition.
In step S60, if there are Zhi Yong for the river cross-section using the river cross-section in gridding subregion as check object
Or the access of interflow discharge outlet, and there is the case where mutation in water and/or water quality, then be judged as crucial river cross-section.
It is further comprising the steps of:
S70, using each key node of gridding subregion in drainage system and creek key sections as check object, setting
Terminal monitoring point carries out the flow and/or liquid level and/or water quality in drainage system and river to key node and river key sections
Monitoring;
S80, the data that each terminal monitoring point acquires are associated;
S90, the personnel of sending patrol and acquire the inspection data reported.
Coupled computer system, in S70, with drainage system gridding subregion key node, (key enters flow point, key enters
Seep point, crucial pump node) and creek key sections be check object, it is online that terminal is set up to key node and river key sections
Monitoring device realizes drainage system and the flow in river, liquid level, water quality monitoring;
In step S80, the terminal monitoring point check object set up with S70 is analyzed monitoring data, will be monitored
Data it is associated, realize that by point to line, again to face, drainage system gridding monitors;
In step S90, using drainage system gridding fining multiblock technique as check object, each subdivided meshes are referred both to
Show that supervisor patrols, each supervisor is equipped with control platform app, finds the problem and reports in time, realizes drainage system gridding
Inspection management;
A kind of computer readable storage medium, comprising the following steps:
S10, gridding subregion is carried out according to the topological relation of drainage pipeline networks;
S20, using the area that becomes a mandarin as object, land character parameter and/or population size parameter is added in gridding subregion and draws
Divide different brackets subregion;
S30, using the node in gridding subregion as check object, water and/or water level information are entered according to the node, sentenced
Whether the node that breaks is that key enters flow point;
S40, land character and/or water using the node in gridding subregion as check object, where the node
Matter information and/or water level information judge whether the node is crucial breakthrough;
S50, using the node in gridding subregion as check object, whether pumping plant and pollution are provided with according to the node
Object concentration change information judges whether the node is crucial pump node;
S60, using the river cross-section in gridding subregion as check object, according in gridding subregion whether there is river
Section and water amount information and/or water quality information judge whether it is crucial river cross-section.
Further, subregion is refined in the drainage system gridding that step S10-S20 is determined, the inspection of the scene of a crime is needed to check.
And drainage system key node and river key sections described in step S30-S60, need site inspection to check, together
When sampling face surveys, integrate and develop programs.
Further, the terminal that step S70 is set up monitors point on-line, answers site inspection, if meets installation and sampling is wanted
It asks, while monitoring data should carry out that data comparison and inspection is repeated several times with laboratory.
The above description is only a preferred embodiment of the present invention, and the present invention is not limited to above embodiment, as long as with
Essentially identical means realize that the technical solution of the object of the invention belongs within protection scope of the present invention.
Claims (7)
1. a kind of drainage system grid-based management pattern analysis method, which comprises the following steps:
S10, gridding subregion is carried out according to the topological relation and city river of drainage pipeline networks;
S20, using the area that becomes a mandarin as object, land character parameter and/or population size parameter is added in gridding subregion and divides not
Ad eundem subregion;
S30, using the node in gridding subregion as check object, water and/or water level information are entered according to the node, judgement should
Whether node is that key enters flow point;
S40, land character and/or water quality letter using the node in gridding subregion as check object, where the node
Breath and/or water level information, judge whether the node is crucial breakthrough;S50, using the node in gridding subregion as check pair
As judging whether the node is crucial pump section according to whether the node is provided with pumping plant and pollutant concentration change information
Point;
S60, using the river cross-section in gridding subregion as check object, according in gridding subregion whether there is river cross-section
And water amount information and/or water quality information judge whether it is crucial river cross-section.
2. a kind of drainage system grid-based management pattern analysis method according to claim 1, it is characterised in that: in step
In S10, it is side that using sewage main pipe as partition boundaries line one, in drainage system, sewage, which concentrates the branch pipe for converging into sewage main pipe,
Boundary line two, river is boundary line three in drainage system region, and drainage system region predeterminable area line is boundary line four, passes through boundary
Line one, boundary line two, boundary line three and boundary line four carry out gridding subregion.
3. a kind of drainage system grid-based management pattern analysis method according to claim 1, it is characterised in that: in step
In S30, using the node in gridding subregion as check object, if the node is water mutation of water level point, dirt in drainage system
Water concentrates run-off in confluence or rainfall to there is the case where increasing suddenly, then enters flow point for key.
4. a kind of drainage system grid-based management pattern analysis method according to claim 1, it is characterised in that: in step
In S40, using the node in gridding subregion as check object, if close to creek side, and there is leakage downdraught in the node
There is water increase and dilute sewage water concentration situation, is then judged as crucial breakthrough in danger.
5. a kind of drainage system grid-based management pattern analysis method according to claim 1, it is characterised in that: in step
In S60, if discharge outlet is gushed or collaborated to river cross-section presence branch using the river cross-section in gridding subregion as check object
Access, and there is the case where mutation in water and/or water quality, then be judged as crucial river cross-section.
6. a kind of drainage system grid-based management pattern analysis method according to claim 1, which is characterized in that further include
Following steps:
S70, using each key node of gridding subregion in drainage system and creek key sections as check object, be arranged terminal
Monitoring point carries out flow and/or liquid level and/or the water quality monitoring in drainage system and river to key node and river key sections;
S80, the data that each terminal monitoring point acquires are associated;
S90, the personnel of sending patrol and acquire the inspection data reported.
7. a kind of computer readable storage medium, which comprises the following steps: S10, the topology according to drainage pipeline networks
Relationship carries out gridding subregion;
S20, using the area that becomes a mandarin as object, land character parameter and/or population size parameter is added in gridding subregion and divides not
Ad eundem subregion;
S30, using the node in gridding subregion as check object, water and/or water level information are entered according to the node, judgement should
Whether node is that key enters flow point;
S40, land character and/or water quality letter using the node in gridding subregion as check object, where the node
Breath and/or water level information, judge whether the node is crucial breakthrough;S50, using the node in gridding subregion as check pair
As judging whether the node is crucial pump section according to whether the node is provided with pumping plant and pollutant concentration change information
Point;
S60, using the river cross-section in gridding subregion as check object, according in gridding subregion whether there is river cross-section
And water amount information and/or water quality information judge whether it is crucial river cross-section.
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CN113269469A (en) * | 2021-06-21 | 2021-08-17 | 安徽金晥泵业科技股份有限公司 | Pipeline remote monitoring system for urban underground drainage |
CN114184751A (en) * | 2021-11-11 | 2022-03-15 | 深圳市宇驰检测技术股份有限公司 | Sectional type pipe network pollutant tracing device and system |
CN116628914A (en) * | 2023-07-24 | 2023-08-22 | 长江三峡集团实业发展(北京)有限公司 | Inflow and infiltration analysis method for drainage pipe network, computer equipment and medium |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113269469A (en) * | 2021-06-21 | 2021-08-17 | 安徽金晥泵业科技股份有限公司 | Pipeline remote monitoring system for urban underground drainage |
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CN114184751A (en) * | 2021-11-11 | 2022-03-15 | 深圳市宇驰检测技术股份有限公司 | Sectional type pipe network pollutant tracing device and system |
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CN116628914A (en) * | 2023-07-24 | 2023-08-22 | 长江三峡集团实业发展(北京)有限公司 | Inflow and infiltration analysis method for drainage pipe network, computer equipment and medium |
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