CN107862446B - Water supply network integrated management analysis system based on Internet of Things - Google Patents

Abstract

The invention discloses the water supply network integrated management analysis systems based on Internet of Things, city's water supply network collector, districts under city administration water supply network collector, community's water supply network collector and unit resident's water supply network collector select the mode of the parallel organization based on Internet of Things, cumbersome and complicated water supply network data can accurately be changed in the way of this parallel organization and separate, cooperate Distribution GIS and global positioning system CPS and 4G communication network, it can be realized and water supply network data is accurately positioned, energy improve data transfer efficiency again, complete urban district water supply network flow graph is established in liquid crystal display screen display, staff can be made intuitively to observe the water supply condition in entire urban district, when there is abnormal conditions generation, also related personnel can be notified to repair in time, it avoids water resource waste and therefore causes bigger damage The situation of mistake.

Description

Water supply network integrated management analysis system based on Internet of Things

Technical field

The present invention relates to water utilities technical fields, analyze system more particularly to the water supply network integrated management based on Internet of Things System.

Background technique

Water supply pipe is that modern architecture, an important component of factory must for the normal operation for ensureing water system It must be equipped with effective water supply network integrated management analysis system, the major function of water supply network integrated management analysis system is monitoring The operating status of water supply pipe meets the purpose to security protection, upper and lower level real-time interactive.

Since the complexity and area coverage of water supply line are big, and water supply network information has time variation, therefore existing confession Pipe network integrated management analysis system error is larger, and precision is not high, should sometimes when a unit resident, which supplies water, to break down Water supply network integrated management analysis system can not detected in time, cause water resource waste, or even therefore cause bigger Loss.

So the present invention provides the new scheme of one kind to solve the problems, such as this.

Summary of the invention

For above situation, for the defect for overcoming the prior art, purpose of the present invention is to provide the confessions based on Internet of Things Pipe network integrated management analysis system, have be skillfully constructed, the characteristic of human oriented design, efficiently solve existing water supplying pipe Net integrated management analysis system error is larger, the not high problem of precision.

Its technical solution solved is the water supply network integrated management analysis system based on Internet of Things, including city's water supplying pipe Net collector, districts under city administration water supply network collector, community's water supply network collector and unit resident's water supply network collector, city supply Pipe network collector, districts under city administration water supply network collector, community's water supply network collector and unit resident's water supply network collector The mode of the parallel organization based on Internet of Things is selected, the water flow of water supply network and the signal of flow velocity of acquisition are all directly transmitted Into corresponding level Four server, three tier server, secondary server and primary server, and level Four server, three-level take Business device, secondary server and primary server belong to same primary structure, and each server uses normalized to received data Method is stored in database after being handled, and the data in database are defeated after five level processors are using normalization processing method Enter controlling terminal.

Preferably, the level Four server, three tier server, secondary server and primary server use normalized Method handles data, and specific step is as follows；

1) two-dimentional modeling, is carried out to the data of acquisition, X-axis is the time, and in seconds, Y-axis is water flow or flow velocity, water Flow and flow rate establishes two groups of modeling datas, with 1 minute for one group of two dimension modeling data.

2), every group of two dimension modeling data removes minimum and maximum data, calculates average value, water flow mean value be M and Flow velocity mean value is N；

It 3) is, a data with continuous 8 average values M or N, using weighted mean method calculating as a result, water flow is A, Flow velocity is B, that is to say level Four server, three tier server, secondary server and primary server treated a number it is believed that Number.

Preferably, specific step is as follows for the five level processors normalization processing method processing data；

1) clear data in database, is extracted, which is the rated value C and D of water flow and flow velocity；

2) the difference P and Q of A and C and B and D, are calculated using difference arithmetic, the P and Q are positive number；

3), when the value of P and Q is greater than the setting value in five level processors, five level processors export high level analogue signal, Otherwise, five level processors export low-level analog signals, and five level processors export simultaneously water flow and flow velocity rated value C and D and difference P and Q.

Due to the use of above technical scheme, the present invention has the following advantages that compared with prior art；

1, city's water supply network collector, districts under city administration water supply network collector, community's water supply network collector and unit resident Water supply network collector selects the mode of parallel organization based on Internet of Things, the water flow and flow velocity of the water supply network of acquisition Signal is all transmitted directly in corresponding level Four server, three tier server, secondary server and primary server, and level Four Server, three tier server, secondary server and primary server belong to same primary structure, can in the way of this parallel organization Separated with accurately changing cumbersome and complicated water supply network data, cooperate Distribution GIS and global positioning system CPS with And 4G communication network, it can be realized and water supply network data is accurately positioned, and can improve data transfer efficiency.

2, normalization processing method is respectively adopted in level Four server, three tier server, secondary server and primary server Data are handled, are stored in database, are input to controlling terminal using normalization processing method processing data through five level processors It is interior, the accuracy and timeliness of data are improved, there is very big practical value.

3, complete urban district water supply network flow graph is established in liquid crystal display screen display, with city's water supply network collector, city Area under one's jurisdiction water supply network collector, community's water supply network collector and unit resident's water supply network collector are the node position on map It sets, each node location shows the rated value C and D and difference P and Q information of corresponding water flow and flow velocity, and every at this time A node location is being shown with red dot for high level analogue signal, and constantly flashing represents abnormal water supply, and each node location is Being shown with green point for low-level analog signals, is represented normal water supply, staff can be made intuitively to observe entire urban district Water supply condition also can notify related personnel to repair in time when there is abnormal conditions generation, avoid water resource waste and therefore The situation to result in greater loss.

Detailed description of the invention

Fig. 1 is that the present invention is based on the overall flow figures of the water supply network integrated management analysis system of Internet of Things.

Fig. 2 is that the present invention is based on the data transmission stream journey figures of the water supply network integrated management analysis system of Internet of Things.

Specific embodiment

For the present invention aforementioned and other technology contents, feature and effect, in following cooperation with reference to figures 1 through attached drawing 2 To in the detailed description of embodiment, can clearly present.The structure content being previously mentioned in following embodiment is with specification Attached drawing is reference.

In order to verify the feasibility of this system and the effect of actual use, analyzing examples are carried out below and verify this method.

Embodiment one, the water supply network integrated management analysis system based on Internet of Things, including city's water supply network collector, city Area under one's jurisdiction water supply network collector, community's water supply network collector and unit resident's water supply network collector, the acquisition of city's water supply network Device, districts under city administration water supply network collector, community's water supply network collector and unit resident's water supply network collector, which are selected, is based on object The mode of the parallel organization of networking, the water flow of water supply network and the signal of flow velocity of acquisition are all transmitted directly to corresponding In level Four server, three tier server, secondary server and primary server, and level Four server, three tier server, second level take Business device and primary server belong to same primary structure, and each server handles received data using normalization processing method After be stored in database, terrestrial reference signal, Distribution GIS and global positioning system CPS energy are additionally provided in each server Enough realized according to terrestrial reference signal is accurately positioned, signal of the orientation range within 20 meters, in the position signal and five level processors It is transmitted in controlling terminal by 4G communication network；

Controlling terminal receives Distribution GIS and global positioning system CPS information by 4G communication network, has established Whole urban district water supply network flow graph is in liquid crystal display screen display, while with city's water supply network collector, districts under city administration water supply network Collector, community's water supply network collector and unit resident's water supply network collector are the node location on map, each node Position shows the rated value C and D and difference P and Q information of corresponding water flow and flow velocity, and each node location is at this time High level analogue signal is shown with red dot, and constantly flashing represents abnormal water supply, and each node location is low level simulation letter Number with it is green point display, represent normal water supply.

Embodiment two, on the basis of example 1, the level Four server, three tier server, secondary server and one Specific step is as follows using normalization processing method processing data for grade server；

1) two-dimentional modeling, is carried out to the data of acquisition, X-axis is the time, and in seconds, Y-axis is water flow or flow velocity, water Flow and flow rate establishes two groups of modeling datas, with 1 minute for one group of two dimension modeling data.

2), every group of two dimension modeling data removes minimum and maximum data, calculates average value, water flow mean value be M and Flow velocity mean value is N；

It 3) is, a data with continuous 8 average values M or N, using weighted mean method calculating as a result, water flow is A, Flow velocity is B, that is to say level Four server, three tier server, secondary server and primary server treated a number it is believed that Number.

Embodiment three, on the basis of example 1, the five level processors normalization processing method processing data are specific Steps are as follows；

1) clear data in database, is extracted, which is the rated value C and D of water flow and flow velocity；

2) the difference P and Q of A and C and B and D, are calculated using difference arithmetic, the P and Q are positive number；

3), when the value of P and Q be greater than in five level processors setting value (setting value can analytical calculation according to the actual situation, Therefore this will not be detailed here) when, five level processors export high level analogue signal, and otherwise, five level processors export low level simulation Signal, and five level processors export the rated value C and D and difference P and Q of water flow and flow velocity simultaneously.

Present invention tool in use, the water supply network integrated management analysis system based on Internet of Things, city's water supply network collector, Districts under city administration water supply network collector, community's water supply network collector and unit resident's water supply network collector, which are selected, is based on Internet of Things Parallel organization mode, acquisition the water flow of water supply network and the signal of flow velocity be all transmitted directly to corresponding level Four In server, three tier server, secondary server and primary server, and level Four server, three tier server, secondary server Belong to same primary structure with primary server, each server is stored up after being handled using normalization processing method received data There are terrestrial reference signal in database, is additionally provided in each server, Distribution GIS and global positioning system CPS being capable of roots It realizes and is accurately positioned according to terrestrial reference signal, within 20 meters, the signal in the position signal and five level processors passes through orientation range 4G communication network is transmitted in controlling terminal, and controlling terminal receives Distribution GIS by 4G communication network and the whole world is fixed Position system CPS information, is established complete urban district water supply network flow graph and is adopted in liquid crystal display screen display, while with city's water supply network Storage, districts under city administration water supply network collector, community's water supply network collector and unit resident's water supply network collector are on map Node location, each node location shows the rated value C and D and difference P and Q information of corresponding water flow and flow velocity, and And each node location is being shown with red dot for high level analogue signal at this time, and constantly flashing represents abnormal water supply, Mei Gejie Point is set to showing with green point for low-level analog signals, represents normal water supply, and staff can be more intuitive by the system The water supply condition for observing entire urban district also can notify related personnel to repair in time when there is abnormal conditions generation.

The above is that further detailed description of the invention, and it cannot be said that the present invention in conjunction with specific embodiment Specific implementation is limited only to this；Belonging to the present invention and for those skilled in the technology concerned, it is being based on skill of the present invention Under the premise of art scheme thinking, it is made expansion and operating method, data replacement, should all fall in the scope of the present invention it It is interior.

Claims (3)

1. the water supply network integrated management analysis system based on Internet of Things, including city's water supply network collector, districts under city administration water supplying pipe Net collector, community's water supply network collector and unit resident's water supply network collector, which is characterized in that the acquisition of city's water supply network Device, districts under city administration water supply network collector, community's water supply network collector and unit resident's water supply network collector, which are selected, is based on object The mode of the parallel organization of networking, the water flow of water supply network and the signal of flow velocity of acquisition are all transmitted directly to corresponding In level Four server, three tier server, secondary server and primary server, and level Four server, three tier server, second level take Business device and primary server belong to same primary structure, and each server handles received data using normalization processing method After be stored in database, the data in database utilize input control terminal after normalization processing method through five level processors；

The level Four server, three tier server, secondary server and primary server handle number using normalization processing method According to specific step is as follows；

1) two-dimentional modeling, is carried out to the data of acquisition, X-axis is the time, and in seconds, Y-axis is water flow or flow velocity, water flow Two groups of modeling datas are established with flow velocity, with 1 minute for one group of two dimension modeling data；

2), every group of two dimension modeling data removes minimum and maximum data, calculates average value, and water flow mean value is M and flow velocity Mean value is N；

3) it is, a data with continuous 8 average values M or N, is calculated using weighted mean method as a result, water flow is A, flow velocity For B, level Four server, three tier server, secondary server and primary server that is to say treated a data-signal；

Specific step is as follows for the five level processors normalization processing method processing data；

1) clear data in database, is extracted, which is the rated value C and D of water flow and flow velocity；

2) the difference P and Q of A and C and B and D, are calculated using difference arithmetic, the P and Q are positive number；

3), when the value of P and Q is greater than the setting value in five level processors, five level processors export high level analogue signal, no Then, five level processors export low-level analog signals, and five level processors export the rated value C and D of water flow and flow velocity simultaneously And difference P and Q.

2. the water supply network integrated management analysis system as described in claim 1 claim based on Internet of Things, which is characterized in that City's water supply network collector, districts under city administration water supply network collector, community's water supply network collector and unit resident's water supplying pipe Terrestrial reference signal is additionally provided in net collector, Distribution GIS and global positioning system CPS can be realized according to terrestrial reference signal It is accurately positioned, within 20 meters, the signal in the terrestrial reference signal and five level processors is transmitted orientation range by 4G communication network To controlling terminal.

3. the water supply network integrated management analysis system based on Internet of Things as claimed in claim 2, which is characterized in that the control Terminal receives Distribution GIS and global positioning system CPS information by 4G communication network, establishes complete urban district and supplies water Net flow graph is supplied in liquid crystal display screen display, while with city's water supply network collector, districts under city administration water supply network collector, community Pipe network collector and unit resident's water supply network collector are the node location on map, and each node location is shown accordingly The rated value C and D and difference P and Q information of water flow and flow velocity, and each node location is high level analogue signal at this time Shown with red dot, and constantly flashing represents abnormal water supply, and each node location is being shown with green point for low-level analog signals, Represent normal water supply.