CN205861053U - Water conservancy water regime monitoring based on Beidou communication management system - Google Patents

Abstract

This utility model embodiment provides a kind of water conservancy water regime monitoring based on Beidou communication management system, it is arranged on the water regime monitoring sensing system of monitoring point, the integrated processing means of monitoring supplemental characteristic being connected with water regime monitoring sensor system signals, the control point Big Dipper data transmission terminal electrically connected with the monitoring integrated processing means of supplemental characteristic, the Surveillance center's Beidou communication terminal being connected by Beidou satellite system with control point Big Dipper data transmission terminal, the monitoring management platform electrically connected with Surveillance center Beidou communication terminal.It is wide that this utility model covers geographic area.

Description

Water conservancy water regime monitoring based on Beidou communication management system

Technical field

This utility model relates to Communication Control Technology field, is specifically related to a kind of water conservancy water regime monitoring based on Beidou communication Management system.

Background technology

Water conservancy is commercial production, agricultural production and daily life provide water resource, and it is directly connected to the state meter people Raw, need water conservancy is effectively monitored.Hydrological monitoring includes flood control monitoring and water quality monitoring.Existing hydraulic monitoring system is Multiple monitoring point is set in hydraulic engineering, corresponding water conservancy parameter acquisition sensor is set in monitoring point, sets in Surveillance center Putting hydrological monitoring platform, water conservancy parameter water conservancy parameter acquisition sensor acquisition arrived by cable network or wireless network is passed Pass hydrological monitoring platform, the human-computer interaction interface of hydrological monitoring platform graphically shows.But, actual In application, the setting of monitoring point is limited to the coverage of network communication network and the coverage of electric power network, causes monitoring The reasonability that point is arranged is poor, has influence on the effectiveness of hydrological monitoring management.

Therefore, hydrological monitoring management system is improved, be that the expectation of water conservancy management field solves the technical problem that.

Utility model content

The purpose of this utility model is that providing a kind of covers water conservancy regimen based on the Beidou communication prison that geographic area is wide Test tube reason system, improves the effectiveness of water conservancy management further.

To achieve these goals, the technical scheme that this utility model embodiment uses is as follows:

First aspect, this utility model embodiment provides the management of a kind of water conservancy water regime monitoring based on Beidou communication and is System, including:

Water regime monitoring sensing system, water regime monitoring sensing system is arranged on monitoring point, gathers the regimen prison of monitoring point Survey supplemental characteristic；

The monitoring integrated processing means of supplemental characteristic, the monitoring integrated processing means of supplemental characteristic and water regime monitoring sensing system Signal connects, and receives the water regime monitoring supplemental characteristic of the monitoring point that water regime monitoring sensing system transmits, the regimen to monitoring point Monitoring supplemental characteristic carries out collecting storage；

Control point Big Dipper data transmission terminal, control point Big Dipper data transmission terminal and monitoring supplemental characteristic integrated process dress Put electrical connection, receive the water regime monitoring supplemental characteristic of the monitoring point that the monitoring integrated processing means of supplemental characteristic transmits, and with short report Literary composition form is transmitted to Beidou satellite system；

Power supply, power supply and water regime monitoring sensing system, the monitoring integrated processing means of supplemental characteristic, control point Big Dipper data Transmission terminal all electrically connects, for water regime monitoring sensing system, the monitoring integrated processing means of supplemental characteristic, control point Big Dipper data Transmission terminal provides electric power；

Surveillance center's Beidou communication terminal, Surveillance center's Beidou communication terminal receives Beidou satellite system with short message form Forward the water regime monitoring supplemental characteristic of the monitoring point come；

Monitoring management platform, monitoring management platform electrically connects with Surveillance center Beidou communication terminal, receives Surveillance center north Bucket communication terminal forwards the water regime monitoring supplemental characteristic of the monitoring point come, and demonstrates on the display interface of monitoring management platform Come.

Further, during water regime monitoring sensing system is water quantity monitoring sensing system, water quality monitoring sensing system At least one, water quantity monitoring sensing system, the water quantity monitoring supplemental characteristic of collection monitoring point, water quality monitoring sensing system, Gather the water quality monitoring supplemental characteristic of monitoring point.

Further, water-level gauge that water quantity monitoring sensing system includes electrically connecting with power supply, pluviometer, current meter, water level Meter, pluviometer, current meter are all connected with monitoring supplemental characteristic integrated processing means signal.

Further, water quantity monitoring sensing system also includes the pore pressure gauge electrically connected with power supply, pore water pressure Count and be connected with monitoring supplemental characteristic integrated processing means signal.

Further, rainfall is calculated as skip type rain teleguage.

Further, water level is calculated as float type level meter.

Further, water quality monitoring sensing system includes dissolved oxygen sensor, the Turbidity measurement sensing electrically connected with power supply Device, ammonia nitrogen detection sensor, pH value detection sensor, total organic carbon TOC detect sensor, dissolved oxygen sensor, Turbidity measurement Sensor, ammonia nitrogen detection sensor, pH value detection sensor, total organic carbon TOC detection sensor all with monitor parameter data set Processing means signal is become to connect.

Further, signal is connected as the connection of ZigBee radio communication.

Further, power supply is rechargeable battery.

Further, power supply also includes the solar panel being arranged on monitoring point, electrically connects too with solar panel Sun energy charger, solar charger electrical connection rechargeable battery.

Use Beidou satellite communication system to carry out data interaction communication, full territory seamless coverage, round-the-clock data can be realized Interactive communication, the staff of Surveillance center can understand the concrete condition of the monitored water yield and/or water quality in real time.Accordingly, it is capable to and The Shi Faxian water yield and/or water quality are abnormal, and abnormal conditions are carried out effective emergency processing.

For making above-mentioned purpose of the present utility model, feature and advantage to become apparent, preferred embodiment cited below particularly, and Coordinate appended accompanying drawing, be described in detail below.

Accompanying drawing explanation

Fig. 1 shows a kind of based on Beidou communication the water conservancy water regime monitoring management system that this utility model embodiment provides Structural representation.

Fig. 2 shows a kind of base that the water yield and water quality can be monitored management simultaneously that this utility model embodiment provides Water conservancy water regime monitoring in Beidou communication manages the structural representation of system.

Fig. 3 shows the structural representation of the water quantity monitoring sensing system of this utility model embodiment.

Fig. 4 shows the structural representation of the water quality monitoring sensing system of this utility model embodiment.

Fig. 5 shows the structural representation with the power supply utilizing solar charging power of this utility model embodiment.

Wherein, the corresponding relation between reference and component names is as follows:

Water regime monitoring sensing system 100, water quantity monitoring sensing system 110, pluviometer 111, water-level gauge 112, flow velocity Meter 113, pore pressure gauge 114, water quality monitoring sensing system 120, dissolved oxygen sensor 121, Turbidity measurement sensor 122, ammonia nitrogen detection sensor 123, pH value detection sensor 124, total organic carbon TOC detects sensor 125, monitors supplemental characteristic Integrated treating device 200, control point Big Dipper data transmission terminal 300, power supply 400, rechargeable battery 410, solar charger 420, solar panel 430, Surveillance center's Beidou communication terminal 500, monitoring management platform 600, Beidou satellite system 700.

Detailed description of the invention

This utility model embodiment provides a kind of water conservancy water regime monitoring based on Beidou communication management system, this water conservancy regimen Management system for monitoring, is not only restricted to network service coverage, can be applicable to rivers and lakes, hydraulic engineering, reservoir, power station water Feelings monitoring management, traffic route water regime monitoring manages.Water regime monitoring management includes water quantity monitoring management, water quality monitoring management.

Below in conjunction with accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out clearly Chu, it is fully described by.Obviously, described embodiment, only a part rather than all for this utility model embodiment. Based on embodiment of the present utility model, it is all that those skilled in the art are obtained on the premise of not making creative work Other embodiments, broadly fall into the scope of this utility model protection.

First embodiment

Described first embodiment is as a example by rivers water regime monitoring, to water conservancy regimen based on Beidou communication of the present utility model Management system for monitoring illustrates.

Due to anthropic factor, vegetation and store floodwater Lake that rivers are littoral suffer considerable damage, even if building rivers bank More flood control dam, but rivers anti-flood capacities generally or declines.In addition, industry greenhouse gas emission cumulant is Through relatively big, unusual weather conditions have been global problems, and locally geographic area long-time heavy rain weather or arid climate are Being frequent phenomenon, long-time heavy rain weather can cause extensive big flood, extensive big flood can bring massive losses.Therefore, rivers Water regime monitoring, needs to pay the utmost attention to cause the factor of big flood to monitor, and is monitored big flood process.

Fig. 1 shows a kind of based on Beidou communication the water conservancy water regime monitoring management system that this utility model embodiment provides Structural representation.It can be used for rivers regimen and monitors in real time.In this utility model embodiment, monitoring point position is set Put and be not only restricted to wired or cordless communication network coverage.Referring to Fig. 1, this water conservancy water regime monitoring management system includes:

Water regime monitoring sensing system 100, water regime monitoring sensing system 100 is arranged on monitoring point, gathers monitoring point Water regime monitoring supplemental characteristic；

The monitoring integrated processing means of supplemental characteristic 200, the monitoring integrated processing means of supplemental characteristic 200 senses with water regime monitoring Device system 100 signal connects, and receives the water regime monitoring supplemental characteristic of the monitoring point that water regime monitoring sensing system 100 transmits, right The water regime monitoring supplemental characteristic of monitoring point carries out collecting storage；

Control point Big Dipper data transmission terminal 300, control point Big Dipper data transmission terminal 300 is integrated with monitoring supplemental characteristic Processing means 200 electrically connects, and receives the water regime monitoring parameter number of the monitoring point that the monitoring integrated processing means of supplemental characteristic 200 transmits According to, and it is transmitted to Beidou satellite system 700 with short message form；

Power supply 400, power supply 400 and water regime monitoring sensing system 100, the monitoring integrated processing means of supplemental characteristic 200, prison Control point Big Dipper data transmission terminal 300 all electrically connects, for water regime monitoring sensing system 100, the monitoring integrated process of supplemental characteristic Device 200, control point Big Dipper data transmission terminal 300 provide electric power；

Surveillance center's Beidou communication terminal 500, Surveillance center's Beidou communication terminal 500 receive Beidou satellite system 700 with Short message form forwards the water regime monitoring supplemental characteristic of the monitoring point come；

Monitoring management platform 600, monitoring management platform 600 electrically connects with Surveillance center Beidou communication terminal 500, receives prison Control center Beidou communication terminal 500 forwards the water regime monitoring supplemental characteristic of the monitoring point come, and showing at monitoring management platform 600 Show and show on interface.

In this utility model first embodiment, water regime monitoring sensing system 100, it is arranged on control point, is used for gathering The water regime monitoring supplemental characteristic of rivers monitoring point.

Fig. 2 shows a kind of base that the water yield and water quality can be monitored management simultaneously that this utility model embodiment provides Water conservancy water regime monitoring in Beidou communication manages the structural representation of system.Refer to shown in Fig. 2, water regime monitoring sensing system 100 include water quantity monitoring sensing system 110, water quality monitoring sensing system 120；Water quantity monitoring sensing system 110 is corresponding The water quantity monitoring supplemental characteristic that water regime monitoring supplemental characteristic is rivers monitoring point of the rivers monitoring point gathered, the water yield of monitoring point Monitoring supplemental characteristic, is used for assessing the rivers water yield the most abnormal, if occur the possibility of big flood；Water quality monitoring sensing system The water quality monitoring supplemental characteristic that water regime monitoring supplemental characteristic is rivers monitoring point of the 120 corresponding rivers monitoring points gathered, monitoring The water quality monitoring supplemental characteristic of point, is used for assessing fluviatic water quality the most abnormal, if occur water pollution can Energy.Certainly, in actual application, water regime monitoring sensing system 100, can be water quantity monitoring sensing system 110, water quality monitoring One in sensing system 120, it is also possible to both of which has.

Fig. 3 shows the structural representation of the water quantity monitoring sensing system of this utility model embodiment.Refer to Fig. 3 institute Show.Water quantity monitoring sensing system 110, including water-level gauge 112, pluviometer 111, current meter 113.Water-level gauge 112, pluviometer 111, current meter 113 all electrically connects with power supply 400, water-level gauge 112, pluviometer 111, current meter 113 and monitoring parameter data set Becoming processing means 200 signal to connect, it can be electrical connection that this signal connects, it is also possible to be water-level gauge 112, pluviometer 111, flow velocity Meter 113 and the monitoring integrated processing means of supplemental characteristic 200 form ZigBee WLAN, water-level gauge 112, pluviometer 111, stream Speed meter 113 is connected by ZigBee radio communication with the monitoring integrated processing means of supplemental characteristic 200.

Water-level gauge 112, is used for measuring water conservancy water level.Water-level gauge 112 can be float type level meter, pressure type water gauge, One in ultrasonic water level gauge, laser type water-level gauge, radar type water-level gauge, electric water gauge.Good guaranteeing that water-level gauge 112 has During good Measurement reliability, in order to reduce the use cost of water-level gauge 112, preferred scheme is, water-level gauge 112 is float type water level Meter, such as WFH-2 float type level meter.Float type level meter is currently used most water-level gauge, and its simple in construction, product become Ripe degree is high, obtain and use cost is low, good reliability, certainty of measurement high, be easily maintained.Need during use for float type level meter Build water level well.In order to carry out level measuring in the water conservancy region being not easy to build water level well, preferred scheme is, water-level gauge 112 is Pressure in bubbles formula water-level gauge, such as WQC-1 type pressure in bubbles formula water-level gauge, pressure in bubbles formula water-level gauge is in the range of design range Precision is higher, need not build water level well during use.

Pluviometer 111, for remote measurement liquid precipitation, precipitation intensity, the sensor of precipitation beginning and ending time, it is extensively used In weather station, hydrometric station, agricultural, the relevant department such as national defence.Pluviometer 111, can be siphon rainfall recorder, Weighing type rainfall One in meter, tipping-bucket rain-gauge, optics pluviometer, valve capacitance-grid type pluviometer.In order to improve rainfall measurement accuracy, preferably Scheme is, pluviometer 111 is skip type rain teleguage, such as IDZ05-1 type skip type rain teleguage, and its perception water conservancy is supervised The rainfall of the nature of measuring point, is converted into the output of switching information amount by rainfall.

Current meter 113, is used for measuring water velocity, and it is widely used in the fields such as the hydrology, water conservancy, agriculture filling, plumbing.Stream Speed meter 113 can be rotary cup current meter, it is also possible to be rotary propeller type current meter.By the river waterflow speed measured, calculate Go out river flow.

In order to effectively monitor the safety of rivers dam, water regime monitoring sensing system 100, also include and power supply The pore pressure gauge 114 of 400 electrical connections, pore pressure gauge 114 is with monitoring supplemental characteristic integrated processing means 200 signal even Connect.

Pore pressure gauge 114, is embedded in the structure of rivers dam, the dam of such as xoncrete structure In, the seepage water pressure within Measurement of Dam dam body, for assessing the safety of rivers dam.Due to pore pressure gauge 114 can bury temperature a little underground by synchro measure, compensate, based on temperature, the seepage water pressure parameter measured.

Certainly, the monitoring sensor of water regime monitoring sensing system 100, it is not limited to above-mentioned several monitoring sensor, also Humidity sensor, air velocity transducer can be included, be also not limited to above-mentioned several monitoring sensor and all use, can simply use One therein, it is possible to use therein several, it is also possible to all to use, depending on water quantity monitoring needs, the present embodiment It is not made concrete restriction.

Fig. 4 shows the structural representation of the water quality monitoring sensing system of this utility model embodiment.Refer to Fig. 4 institute Show, water quality monitoring sensing system 120, including dissolved oxygen sensor 121, Turbidity measurement sensor 122, ammonia nitrogen detection sensor 123, pH value detection sensor 124, total organic carbon TOC detect sensor 125.Dissolved oxygen sensor 121, Turbidity measurement sensor 122, ammonia nitrogen detection sensor 123, pH value detection sensor 124, total organic carbon TOC detection sensor 125 all with monitor parameter Data integration processing means 200 signal connects.It can be electrical connection that this signal connects, it is also possible to be dissolved oxygen sensor 121, turbid Degree detection sensor 122, ammonia nitrogen detection sensor 123, pH value detection sensor 124, total organic carbon TOC detect sensor 125 Forming ZigBee WLAN with the monitoring integrated processing means of supplemental characteristic 200, dissolved oxygen sensor 121, Turbidity measurement pass Sensor 122, ammonia nitrogen detection sensor 123, pH value detection sensor 124, total organic carbon TOC detection sensor 125 and monitoring ginseng Number data integration processing means 200 is connected by ZigBee radio communication.

Dissolved oxygen sensor 121, for measuring the oxygen dissolution amount in river, is used for assessing river and lives Fish Suitability.

Turbidity measurement sensor 122, for measuring the particle content in river, such as sediment charge.

Ammonia nitrogen detection sensor 123, for measuring the ammonia nitrogen concentration in river, the ammonia nitrogen concentration measured is for assessing The trade effluent amount of entering contained in river.

PH value detection sensor 124, for measuring the pH value in river, the pH value measured is for assessing river pair The suitability of Fish life.

Total organic carbon TOC detects sensor 125, is used for measuring dissolubility and suspension Organic substance carbon containing in river water body Total amount, measure to total organic carbon TOC for assessing water body organism pollution level.

Certainly, the monitoring sensor of water quality monitoring sensing system 120, it is not limited to above-mentioned several monitoring sensor, also Temperature sensor can be included, be also not limited to above-mentioned several monitoring sensor and all use, can simply use one therein, Can also use therein several, it is also possible to all use, depending on water quality monitoring needs, it is not made concrete by the present embodiment Limit.

In this utility model first embodiment, monitor the integrated processing means of supplemental characteristic 200, for monitoring parameter acquisition The monitoring supplemental characteristic of sensor acquisition carries out collecting the device of storage.The monitoring integrated processing means of supplemental characteristic 200 includes ARM Microprocessor, the memorizer being connected with ARM microprocessor bus, ZigBee-network module, RS485 interface, RJ45 interface.Monitoring The integrated processing means of supplemental characteristic 200 receives, stores the monitoring supplemental characteristic of multiple monitoring sensor acquisition, according to default plan Slightly periodic transmission monitoring supplemental characteristic, such as 1 beat/min, when monitoring parameter value beyond warning value, altofrequency sends alarm signal Breath.

In this utility model first embodiment, control point Big Dipper data transmission terminal 300, it is arranged on rivers control point, Satellite communication link is set up for same Beidou communication system.This Big Dipper data transmission terminal has Beidou communication module and wireless public affairs Network Communication module.Wireless public network communication module can be mobile communication network interface card, it is also possible to be GPRS communication module.This north, control point Bucket data transmission terminal 300, both can be carried out data transmission by Beidou communication link, it is also possible to by wireless public network communication chain Road carries out data transmission.Beidou communication link can ensure that the round-the-clock transmission in full territory of monitoring supplemental characteristic, and has well Information privacy mechanism.Monitoring supplemental characteristic can be encoded into Big Dipper short message, with the Big Dipper by control point Big Dipper data transmission terminal 300 Monitoring supplemental characteristic is transmitted to Beidou satellite system 700 by short message mode.

In this utility model first embodiment, power supply 400, it is used for as water regime monitoring sensing system 100, monitoring parameter Data integration processing means 200, control point Big Dipper data transmission terminal 300 provide supply of electric power.Power supply 400, can be to fill Electricity battery 410, such as UPS, accumulator, it is also possible to be power supply 400 adapter.Monitoring point may be arranged on does not has grid power In natural environment, power supply 400, preferred scheme is, rechargeable battery 410.

In order to carry out on-the-spot charging directly to rechargeable battery 410, as it is shown in figure 5, further scheme is, power supply 400 Also include the solar panel 430 being arranged on monitoring point, the solar charger 420 electrically connected with solar panel 430, Solar charger 420 electrically connects rechargeable battery 410.Solar panel 430, can be single-crystalline-silicon solar-cell panel 430, it is also possible to be polysilicon solar cell plate 430, it is also possible to be thin-film solar cell panel 430, real in this utility model Execute in example and be not specifically limited.

In this utility model first embodiment, monitoring point can be multiple, and it is many that multiple monitoring points are accomplished by corresponding layout Set water regime monitoring sensing system 100, the monitoring integrated processing means of supplemental characteristic 200, control point Big Dipper data transmission terminal 300, power supply 400.

In this utility model first embodiment, Surveillance center's Beidou communication terminal 500, for based on Beidou satellite communication system The Beidou communication terminal of system, is arranged on Surveillance center.It can be single mode Beidou communication terminal, it is also possible to be the Big Dipper/GPS dual-mode Communication terminal.It has Big Dipper short message communication function, receives the short report of monitoring supplemental characteristic that Beidou satellite system 700 transmits Literary composition, and it is transmitted to monitoring management platform 600.

In this utility model first embodiment, monitoring management platform 600, for being provided with existing monitoring management platform software Computer.Monitoring management platform software is by monitoring supplemental characteristic library management system and monitoring supplemental characteristic human-computer interaction interface group Become.Monitoring management platform 600 receives the monitoring supplemental characteristic that Surveillance center's Beidou communication terminal 500 forwards, as water level is joined Number data, pH value supplemental characteristic, precipitation parameter data, be stored to monitor in supplemental characteristic library management system, according still further in advance Surely show pattern, such as graph mode, its human-computer interaction interface shows.

In this utility model first embodiment, Surveillance center's Beidou communication terminal 500 and monitoring management platform 600 are permissible Integrate composition Beidou communication monitoring command terminal, such as, the reinforced notebook computer of existing monitoring management platform software is installed Computer, Beidou communication terminal, interface board, accessory cables integrate the Beidou communication monitoring command terminal of composition.

Water conservancy water regime monitoring based on the Beidou communication management system that this utility model real first is executed example and provided comes into operation Before, need control point Big Dipper data transmission terminal 300, Surveillance center's Beidou communication terminal 500, monitoring management platform 600 are entered The corresponding configuration of row is normal to guarantee monitoring supplemental characteristic interactive satellite communication link.

Water conservancy water regime monitoring based on the Beidou communication management system that this utility model real first is executed example and provided comes into operation Time, the monitoring supplemental characteristic that the monitoring of water regime monitoring sensing system 100 collects is transferred to monitor the integrated process of supplemental characteristic Device 200, monitoring supplemental characteristic is collected storage, and is transmitted to control point by the monitoring integrated processing means of supplemental characteristic 200 Big Dipper data transmission terminal 300, monitoring supplemental characteristic is encoded into Big Dipper short message by control point Big Dipper data transmission terminal 300, In Big Dipper short message mode, monitoring supplemental characteristic being transmitted to Beidou satellite system 700, Beidou satellite system 700 forwards it to Surveillance center's Beidou communication terminal 500, Surveillance center's Beidou communication terminal 500 forwards it to prison after receiving short message information Test tube platform 600；Monitoring management platform 600 receives the monitoring parameter number that Surveillance center's Beidou communication terminal 500 forwards According to, it is stored to monitor in supplemental characteristic library management system, according still further to predetermined display mode, aobvious on its human-computer interaction interface Illustrate.

Monitoring management platform 600 needs, when control point Big Dipper data transmission terminal 300 sends information, this information to be passed through Surveillance center's Beidou communication terminal 500 is transmitted to Beidou satellite system 700, and Beidou satellite system 700 is being transmitted to north, control point Bucket data transmission terminal 300, the staff of control point receives monitoring management by control point Big Dipper data transmission terminal 300 and puts down The information that platform 600 is sent.

This utility model real first executes water conservancy water regime monitoring based on the Beidou communication management system that example provides, based on full boundary The Beidou satellite communication system of territory seamless coverage carries out data interaction communication, therefore, not by geographic area residing for point being monitored Limit, do not affected by ground disaster and weather conditions.The monitoring supplemental characteristic that monitoring point collects can pass through satellite in real time Pass to monitoring management platform 600, the stationkeeping ability plus dipper system, the staff of Surveillance center, supervised by research Surveying parameter can prepare water conservancy regimen in time, big flood or water pollution event can push away after occurring within the shortest time in advance Go out emergency preplan.

Certainly, this utility model real first executes water conservancy water regime monitoring based on the Beidou communication management system that example provides, no It is confined to rivers regimen is monitored, it is possible to lake, hydraulic engineering, reservoir, power station regimen are monitored, also can be to friendship Passway regimen is monitored.

Claims (10)

1. water conservancy water regime monitoring based on Beidou communication management system, it is characterised in that including:

Water regime monitoring sensing system, described water regime monitoring sensing system is arranged on monitoring point, gathers the regimen prison of monitoring point Survey supplemental characteristic；

The monitoring integrated processing means of supplemental characteristic, the described integrated processing means of monitoring supplemental characteristic and described water regime monitoring sensor System signal connects, and receives the water regime monitoring supplemental characteristic of the monitoring point that described water regime monitoring sensing system transmits, to monitoring The water regime monitoring supplemental characteristic of point carries out collecting storage；

Control point Big Dipper data transmission terminal, described control point Big Dipper data transmission terminal and the described integrated place of monitoring supplemental characteristic Reason device electrical connection, receives the water regime monitoring supplemental characteristic of the monitoring point that the described integrated processing means of monitoring supplemental characteristic transmits, And it is transmitted to Beidou satellite system with short message form；

Power supply, described power supply and water regime monitoring sensing system, the monitoring integrated processing means of supplemental characteristic, control point Big Dipper data Transmission terminal all electrically connects, for water regime monitoring sensing system, the monitoring integrated processing means of supplemental characteristic, control point Big Dipper data Transmission terminal provides electric power；

Surveillance center's Beidou communication terminal, described Surveillance center Beidou communication terminal receives Beidou satellite system with short message form Forward the water regime monitoring supplemental characteristic of the monitoring point come；

Monitoring management platform, described monitoring management platform electrically connects with described Surveillance center Beidou communication terminal, receives in monitoring Heart Beidou communication terminal forwards the water regime monitoring supplemental characteristic of the monitoring point come, and at the display interface of described monitoring management platform On show.

Water conservancy water regime monitoring based on Beidou communication the most according to claim 1 management system, it is characterised in that described water Feelings monitoring sensing system is at least one in water quantity monitoring sensing system, water quality monitoring sensing system, the described water yield Monitoring sensing system, gathers the water quantity monitoring supplemental characteristic of monitoring point, described water quality monitoring sensing system, gathers monitoring point Water quality monitoring supplemental characteristic.

Water conservancy water regime monitoring based on Beidou communication the most according to claim 2 management system, it is characterised in that described water Water-level gauge that amount monitoring sensing system includes electrically connecting with described power supply, pluviometer, current meter, described water-level gauge, pluviometer, Current meter is all connected with described monitoring supplemental characteristic integrated processing means signal.

Water conservancy water regime monitoring based on Beidou communication the most according to claim 3 management system, it is characterised in that described water Amount monitoring sensing system also includes the pore pressure gauge electrically connected with described power supply, described pore pressure gauge and described prison Survey supplemental characteristic integrated processing means signal to connect.

5. manage system according to the water conservancy water regime monitoring based on Beidou communication described in claim 3 or 4, it is characterised in that institute State rainfall and be calculated as skip type rain teleguage.

6. manage system according to the water conservancy water regime monitoring based on Beidou communication described in claim 3 or 4, it is characterised in that institute State water level and be calculated as float type level meter.

Water conservancy water regime monitoring based on Beidou communication the most according to claim 2 management system, it is characterised in that water quality is supervised Survey dissolved oxygen sensor that sensing system includes electrically connecting with described power supply, Turbidity measurement sensor, ammonia nitrogen detection sensor, PH value detection sensor, total organic carbon TOC detect sensor, and described dissolved oxygen sensor, Turbidity measurement sensor, ammonia nitrogen detect Sensor, pH value detection sensor, total organic carbon TOC detection sensor are all believed with the described integrated processing means of monitoring supplemental characteristic Number connect.

8. manage system according to the water conservancy water regime monitoring based on Beidou communication described in any one in claim 1,3,4,7, It is characterized in that, described signal is connected as ZigBee radio communication and connects.

9. manage system according to the water conservancy water regime monitoring based on Beidou communication described in any one in claim 1,2,3,4,7 System, it is characterised in that described power supply is rechargeable battery.

Water conservancy water regime monitoring based on Beidou communication the most according to claim 9 management system, it is characterised in that power supply Also include the solar panel being arranged on monitoring point, the solar charger electrically connected with described solar panel, described Solar charger electrically connects described rechargeable battery.