CN205541302U - Control and early warning system are synthesized to geological disasters hidden danger point power supply in succession based on WEBGIS - Google Patents

Abstract

The utility model discloses a control and early warning system are synthesized to geological disasters hidden danger point power supply in succession based on WEBGIS, include regional geographic information database and network electronic map based on the WEBGIS platform, the regional geological disasters hidden danger point information of embedding in the geographic information database to adding the control of hidden danger point and connecting with early warning system's website, show in electronic map, control of hidden danger point and early warning system are received to customer end chain when clicking the control with early warning system information, hidden danger point control and early warning system include a plurality of GNSS monitoring station, CORS system and data processing center, a plurality of GNSS monitoring station respectively with CORS system and data processing center communication connection, CORS system and data processing center communication connection, a plurality of GNSS monitoring station distributes and to fix subaerial by monitoring area, and it closes through power generation facility and storage battery and supplies power. The utility model provides a regional current a large amount of geological disasters hidden danger point monitoring and early warning system can not unify the problem of implementation monitoring and early warning.

Description

Based on WEBGIS Geological disaster hidden danger point power continuously comprehensively monitoring and early warning system

Technical field

This utility model relates to a kind of geological disaster hidden danger point based on WEBGIS and powers continuously comprehensively monitoring and early warning system.

Background technology

The form of geological disaster is mainly presented with avalanche, landslide, mud-rock flow, surface collapse, sedimentation, ground fissure etc., get rid of meteorological reason, surface displacement is the main cause causing geological disaster to occur, therefore, if this key factor of surface displacement to be carried out effective monitoring in real time, obtain necessary Monitoring Data, set up effective mathematical model, it is possible to the geological disaster thus caused is made the most accurately and predicts timely and forecast.

WEBGIS(web geographic information system, network geographic information system) it is a kind of distribution carrying out geographic information data based on internet platform, share and the system of exchange cooperation, through development for many years, it has all been made significant headway in theoretical, technology and application, the strong socialization promoting GIS, has also promoted the extensive application of geographical spatial data.

Utility model content

In order to solve above-mentioned the deficiencies in the prior art, this utility model provides a kind of geological disaster hidden danger point based on WEBGIS and powers continuously comprehensively monitoring and early warning system, and which solving the existing substantial amounts of geological disaster hidden danger point monitoring and warning system in area can not the problem of unified implementation monitoring and early warning.

Technical problem to be solved in the utility model is achieved by the following technical programs:

Geological disaster hidden danger point based on WEBGIS is powered comprehensively monitoring and early warning system continuously, including regional geographic information database based on WEBGIS platform and network electronic map；Regional geology Hidden hazrads dot information is embedded in geographic information database, and add the website links of the monitoring of hidden danger point and early warning system, and shown in electronic chart, client is linked to the monitoring of hidden danger point and early warning system when clicking on monitoring with early warning system information；The monitoring of described hidden danger point includes several GNSS monitoring stations, CORS system and data processing centre with early warning system, several GNSS monitoring stations described communicate to connect with CORS system and data processing centre respectively, and described CORS system communicates to connect with data processing centre；Several GNSS monitoring stations described distribution is fixed on the ground of area to be monitored, and it is powered by TRT and Combined storage battery.

Further, described TRT includes device of solar generating and/or wind electricity generating system.

Further, described device of solar generating includes that the inverter that solar battery group is connected with solar battery group, described inverter are connected with accumulator.

Further, described device of solar generating also includes that solaode tracing detection controls device, and it includes producing the detector unit of detection voltage according to illumination power, receiving detection voltage and produce the processing unit of control signal, the horizontal motor being arranged on solar battery group and elevation angle motor through logical operations；Described processing unit is connected with horizontal motor and elevation angle motor respectively, drives through horizontal drive circuit and elevation angle drive circuit respectively according to control signal and controls horizontal motor and elevation angle motor.

Further, described wind electricity generating system includes air vane, is arranged on the tail vane that the electromotor being connected above rotary shaft and with air vane bearing is rearwardly connected with generator shaft, and the converted circuit of described electromotor is connected with accumulator.

Further, several GNSS monitoring stations described also include GPS, the first wireless communication module, video monitoring equipment.

Further, described data processing centre includes the second wireless communication module, data processing module and geological hazards prediction module.

This utility model has the advantages that the geographical information platform by setting up shared data, by on the geological disaster hidden danger point monitoring and warning system integration to platform substantial amounts of in area, realize the unified management of monitoring and warning system, guarantee that system can maximized play a role, the society of minimizing accident generation and economic loss.Geological disaster hidden danger point monitoring and warning system arranges permanent GNSS monitoring station at geological-hazard-prone area, surface displacement is monitored in real time by CORS system, the geological disaster hidden danger point that may be caused by surface displacement is carried out real-time ground displacement, and combine monitoring remote video and the data process etc. to monitoring information, geological disaster can be made comparison in time and more accurately prediction, early warning information also can be issued automatically, thus achieve the purpose that the most in real time geological disaster that may cause is carried out forecasting and warning.Geological disaster hidden danger point monitoring and warning system uses accumulator and TRT to combine continuous power supply mode, compares the way of UPS centrally connected power supply, can effectively reduce difficulty of construction, saves cable laying in a large number, saves fund.

Accompanying drawing explanation

Fig. 1 is the principle framework figure of an embodiment of the present utility model.

Detailed description of the invention

With embodiment, this utility model is described in detail below in conjunction with the accompanying drawings.

Refer to Fig. 1, a kind of geological disaster hidden danger point based on WEBGIS is powered comprehensively monitoring and early warning system continuously, and it includes regional geographic information database based on WEBGIS platform and network electronic map；In geographic information database, embed regional geology Hidden hazrads dot information, and add the monitoring of hidden danger point and the website links of early warning system, and shown in electronic chart；Client is linked to the monitoring of hidden danger point and early warning system when clicking on monitoring with early warning system information；Described hidden danger point monitors to include being distributed with early warning system and is fixed on the ground of area to be monitored several GNSS monitoring stations, CORS system and data processing centre, several GNSS monitoring stations described communicate to connect with CORS system and data processing centre respectively, and described CORS system communicates to connect with data processing centre.

Described client can be intelligent terminal, such as mobile phone, pad and PC etc..

Several GNSS monitoring stations described also include GPS, the first wireless communication module, video monitoring equipment.Described GPS positions information for receiving the GPS that in described CORS system, GPS reference station sends, and generates the real time GPS location data information of correspondence.Described first wireless communication module is for issuing described data processing centre by real time GPS location data information by the way of wireless telecommunications.Described video monitoring equipment for carrying out on-the-spot panoramic video monitoring to described GPS and neighboring area.Lightning arrester also should be set in each GNSS monitoring station, to avoid thunderbolt.Several GNSS monitoring stations described are powered by TRT and Combined storage battery, and described TRT includes device of solar generating and wind electricity generating system.

Described device of solar generating includes that the inverter that solar battery group is connected with solar battery group, described inverter are connected with accumulator.Preferably, described device of solar generating also includes that solaode tracing detection controls device, and it includes producing the detector unit of detection voltage according to illumination power, receiving detection voltage and produce the processing unit of control signal, the horizontal motor being arranged on solar battery group and elevation angle motor through logical operations；Described processing unit is connected with horizontal motor and elevation angle motor respectively, drives through horizontal drive circuit and elevation angle drive circuit respectively according to control signal and controls horizontal motor and elevation angle motor.Described detector unit serves the effect of angle between detection incident sunlight and the cell panel normal of solar battery group.Described solaode tracing detection controls device according to detecting voltage produced by detector unit, process through logical operations is input to processing unit, the direction of motion of solar panel is judged by processing unit, associated motor is driven to adjust the attitude of solar panel in time, reach the position absorbing peak power, follow the trail of more accurate, solve the method and apparatus of some maximum power tracings in prior art and be based primarily upon the history curve of the curtage of solaode, accurate not problem.

Described wind electricity generating system includes air vane, is arranged on the tail vane that the electromotor being connected above rotary shaft and with air vane bearing is rearwardly connected with generator shaft, the converted circuit of described electromotor is connected with accumulator, and described rotary shaft is arranged on a bracing frame.

Described CORS system positions information for sending GPS continuously by the described GPS fixing, the continuous GPS reference station run is in described GNSS monitoring station.CORS system is additionally operable to obtain real-time observed data information and send to data processing centre.

Described data processing centre includes the second wireless communication module, data processing module and geological hazards prediction module.Real-time GNSS observation data message that described second wireless communication module sends for wireless receiving GNSS monitoring station and the real-time observed data information that CORS system sends；Described data processing module, for the real-time GNSS observation data message received and real-time displacement data message are carried out data process, is set up surface displacement real time information data storehouse simultaneously, is generated surface displacement deformation tendency figure.Described geological hazards prediction module is in order to surface displacement amount, deformation tendency is analyzed, according to geology disaster displacement Con trolling index, and combine the surface displacement information history statistics in tested region, live video monitoring information and on-the-spot weather information, to the geological disaster that may maybe will occur, make disaster kind, probability of happening, the prediction of the aspects such as time of origin and disaster coverage, it is simultaneously emitted by geo-hazard early-warning information, it can be to the accountability unit that takes precautions against natural calamities by network mode, take precautions against natural calamities person liable and monitoring and warning director sends SMS information and network alert messages.

When implementing, first obtain geological disaster hidden danger point geography information and build the WEBGIS geographical information platform sharing data, geographic information database inputting geological disaster hidden danger dot information, and is marked in WEBGIS geographical information platform；Each geological disaster hidden danger point of area is set up monitoring early-warning system, and is connected in internet net；Carry out real-time monitoring and evaluation, and the assessment report of each geological disaster hidden danger point is submitted in timing to, and geological disaster hidden danger point real-time status is provided under emergency situations in time, provide auxiliary information for decision-making and preventive measure；Realize the unified management of monitoring and warning system, it is ensured that system can maximized play a role, the society of minimizing accident generation and economic loss.

Embodiment described above only have expressed embodiment of the present utility model; it describes more concrete and detailed; but therefore can not be interpreted as the restriction to this utility model the scope of the claims; in every case the technical scheme using the form of equivalent or equivalent transformation to be obtained, all should fall within protection domain of the present utility model.

Claims (7)

1. geological disaster hidden danger point based on WEBGIS is powered comprehensively monitoring and early warning system continuously, it is characterised in that include geographic information database based on WEBGIS platform and network electronic map；Embedding geological disaster hidden danger dot information in geographic information database, and add the monitoring of hidden danger point and the website links of early warning system, and shown in electronic chart, client is linked to the monitoring of hidden danger point and early warning system when clicking on monitoring with early warning system information；The monitoring of described hidden danger point includes several GNSS monitoring stations, CORS system and data processing centre with early warning system, several GNSS monitoring stations described communicate to connect with CORS system and data processing centre respectively, and described CORS system communicates to connect with data processing centre；Several GNSS monitoring stations described distribution is fixed on the ground of area to be monitored, and it is powered by TRT and Combined storage battery.

Geological disaster hidden danger point based on WEBGIS the most according to claim 1 is powered comprehensively monitoring and early warning system continuously, it is characterised in that described TRT includes device of solar generating and/or wind electricity generating system.

Geological disaster hidden danger point based on WEBGIS the most according to claim 2 is powered comprehensively monitoring and early warning system continuously, it is characterized in that, described device of solar generating includes that the inverter that solar battery group is connected with solar battery group, described inverter are connected with accumulator.

Geological disaster hidden danger point based on WEBGIS the most according to claim 3 is powered comprehensively monitoring and early warning system continuously, it is characterized in that, described device of solar generating also includes that solaode tracing detection controls device, and it includes producing the detector unit of detection voltage according to illumination power, receiving detection voltage and produce the processing unit of control signal, the horizontal motor being arranged on solar battery group and elevation angle motor through logical operations；Described processing unit is connected with horizontal motor and elevation angle motor respectively, drives through horizontal drive circuit and elevation angle drive circuit respectively according to control signal and controls horizontal motor and elevation angle motor.

Geological disaster hidden danger point based on WEBGIS the most according to claim 2 is powered comprehensively monitoring and early warning system continuously, it is characterized in that, described wind electricity generating system includes air vane, is arranged on the tail vane that the electromotor being connected above rotary shaft and with air vane bearing is rearwardly connected with generator shaft, and the converted circuit of described electromotor is connected with accumulator.

Geological disaster hidden danger point based on WEBGIS the most according to claim 1 is powered comprehensively monitoring and early warning system continuously, it is characterised in that several GNSS monitoring stations described also include GPS, the first wireless communication module, video monitoring equipment.

Geological disaster hidden danger point based on WEBGIS the most according to claim 1 is powered comprehensively monitoring and early warning system continuously, it is characterised in that described data processing centre includes the second wireless communication module, data processing module and geological hazards prediction module.