CN204228163U - Water conservancy lake remote sensing comprehensive monitoring management system - Google Patents

Abstract

The utility model provides a kind of water conservancy lake remote sensing comprehensive monitoring management system, comprising: ground data acquisition system, unmanned plane air-data acquisition system, wireless image transmission network, ground digital transmitting network and remote monitoring server.Have the following advantages: monitoring parameter is comprehensive, can the secret in Timeliness coverage water conservancy lake, thus facilitate relevant departments to make arrangement, prevent disasters or the generation of water pollution accident.

Description

Water conservancy lake remote sensing comprehensive monitoring management system

Technical field

The utility model belongs to lake monitoring technical field, is specifically related to a kind of water conservancy lake remote sensing comprehensive monitoring management system.

Background technology

Along with the high speed development of national economy, hydraulic engineering role in national economy is increasing.How comprehensively efficient water body to be monitored, the multiclass parameter in Timeliness coverage waters, so that relevant departments make arrangement, prevent disasters or the generation of water pollution accident, become the significant problem that Sustainable Socioeconomic Development must solve.

Current water conservancy lake monitoring system, has the problem that monitoring parameter is few, thus the secret in inconvenient Timeliness coverage water conservancy lake.

Utility model content

For the defect that prior art exists, the utility model provides a kind of water conservancy lake remote sensing comprehensive monitoring management system, can carry out overall monitor to monitored lake.

The technical solution adopted in the utility model is as follows:

The utility model provides a kind of water conservancy lake remote sensing comprehensive monitoring management system, comprising: ground data acquisition system, unmanned plane air-data acquisition system, wireless image transmission network, ground digital transmitting network and remote monitoring server;

Wherein, described ground data acquisition system comprises multiple ground data acquisition station, and ground data acquisition station described in each is all connected with described remote monitoring server by described ground digital transmitting network; Described unmanned plane air-data acquisition system is connected with described remote monitoring server by described wireless image transmission network;

Wherein, described unmanned plane air-data acquisition system comprises unmanned aerial vehicle platform, three axle The Cloud Terraces, video collector, a GPS orientator, controller, pose adjustment instrument and Posture acquisition instrument; Described three axle The Cloud Terraces are arranged at described unmanned aerial vehicle platform, and described video collector is fixedly mounted on described three axle The Cloud Terraces, and the control port of described controller is connected with described three axle The Cloud Terraces, for adjusting the attitude of described three axle The Cloud Terraces by described pose adjustment instrument; The data-in port of described controller is connected with described video collector, described Posture acquisition instrument and a described GPS orientator respectively; Described controller is connected with described remote monitoring server by described wireless image transmission network;

Described in each, ground data acquisition station is distributed in the diverse location in monitored lake, and each described ground data acquisition station includes: switch board, power supply, data collecting instrument, the 2nd GPS orientator and multiple water environment detecting sensor; Wherein, described in each, water environment detecting sensor, described 2nd GPS orientator are all connected with described data collecting instrument with described power supply, and described data collecting instrument is also connected with described remote monitoring server by described ground digital transmitting network; Wherein, described data collecting instrument is positioned at the cabinet inside of described switch board; Described power supply is blower fan and sun power integral type power supply; Described water environment detecting sensor comprise water quality detection sensor, water flow velocity detecting sensor, water yield detecting sensor, level detection sensor, temperature detection sensor, moisture detection sensor, wind speed measurement sensor, wind detection sensor and day illumination detecting sensor.

Preferably, described water quality detection sensor comprises dissolved oxygen sensor, PH detecting sensor, Turbidity measurement sensor, conductivity detecting sensor, ammonia nitrogen detecting sensor and TOC total organic carbon detecting sensor.

Preferably, often kind of described water quality detection sensor all arranges three, hangs on top layer, middle level and bottom water body respectively.

Preferably, at the top of described switch board, thunder-lightning equipment is installed.

Preferably, also moveable carriage is comprised; Described switch board is fixed on above described moveable carriage.

Preferably, described remote monitoring server comprises audible-visual annunciator and large-screen display.

The water conservancy lake remote sensing comprehensive monitoring management system that the utility model provides has the following advantages: monitoring parameter is comprehensive, can the secret in Timeliness coverage water conservancy lake, thus facilitates relevant departments to make arrangement, prevents disasters or the generation of water pollution accident.

Accompanying drawing explanation

The structural representation of the water conservancy lake remote sensing comprehensive monitoring management system that Fig. 1 provides for the utility model.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in detail:

Composition graphs 1, the utility model provides a kind of water conservancy lake remote sensing comprehensive monitoring management system, comprising: ground data acquisition system, unmanned plane air-data acquisition system, wireless image transmission network, ground digital transmitting network and remote monitoring server;

Wherein, described ground data acquisition system comprises multiple ground data acquisition station, and ground data acquisition station described in each is all connected with described remote monitoring server by described ground digital transmitting network; Described unmanned plane air-data acquisition system is connected with described remote monitoring server by described wireless image transmission network;

Wherein, described unmanned plane air-data acquisition system comprises unmanned aerial vehicle platform, three axle The Cloud Terraces, video collector, a GPS orientator, controller, pose adjustment instrument and Posture acquisition instrument; Described three axle The Cloud Terraces are arranged at described unmanned aerial vehicle platform, and described video collector is fixedly mounted on described three axle The Cloud Terraces, and the control port of described controller is connected with described three axle The Cloud Terraces, for adjusting the attitude of described three axle The Cloud Terraces by described pose adjustment instrument; The data-in port of described controller is connected with described video collector, described Posture acquisition instrument and a described GPS orientator respectively; Described controller is connected with described remote monitoring server by described wireless image transmission network;

Described in each, ground data acquisition station is distributed in the diverse location in monitored lake, and each described ground data acquisition station includes: switch board, power supply, data collecting instrument, the 2nd GPS orientator and multiple water environment detecting sensor; Wherein, described in each, water environment detecting sensor, described 2nd GPS orientator are all connected with described data collecting instrument with described power supply, and described data collecting instrument is also connected with described remote monitoring server by described ground digital transmitting network; Wherein, described data collecting instrument is positioned at the cabinet inside of described switch board; Described power supply is blower fan and sun power integral type power supply; Described water environment detecting sensor comprise water quality detection sensor, water flow velocity detecting sensor, water yield detecting sensor, level detection sensor, temperature detection sensor, moisture detection sensor, wind speed measurement sensor, wind detection sensor and day illumination detecting sensor.

Wherein, water quality detection sensor comprises dissolved oxygen sensor, PH detecting sensor, Turbidity measurement sensor, conductivity detecting sensor, ammonia nitrogen detecting sensor and TOC total organic carbon detecting sensor.For realizing the comprehensive monitoring to water body in lake, often kind of water quality detection sensor all arranges three, hangs on top layer, middle level and bottom water body respectively, for measuring the water quality parameter of water body different depth.

In addition, for strengthening the safety in utilization of water conservancy lake remote sensing comprehensive monitoring management system, at the top of switch board, thunder-lightning equipment is installed.In addition, also moveable carriage is comprised; Described switch board is fixed on above described moveable carriage, conveniently ground data acquisition system is moved to different monitoring points.

Described remote monitoring server comprises audible-visual annunciator and large-screen display, the monitoring parameter of each ground data acquisition system and the transmission of unmanned plane air-data acquisition system can be shown over the display, and when some monitoring parameters occur abnormal, report to the police, reach the object of the secret in Timeliness coverage water conservancy lake.

The water conservancy lake remote sensing comprehensive monitoring management system that the utility model provides, have the following advantages: (1) monitoring parameter is comprehensive, can the secret in Timeliness coverage water conservancy lake, thus facilitate relevant departments to make arrangement, prevent disasters or the generation of water pollution accident.(2) adopt blower fan and sun power integral type power supply, whole day lake can be monitored in 24 hours, also there is the advantage that energy consumption is low.

The above is only preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should look protection domain of the present utility model.

Claims (6)

1. a water conservancy lake remote sensing comprehensive monitoring management system, is characterized in that, comprising: ground data acquisition system, unmanned plane air-data acquisition system, wireless image transmission network, ground digital transmitting network and remote monitoring server;

Wherein, described ground data acquisition system comprises multiple ground data acquisition station, and ground data acquisition station described in each is all connected with described remote monitoring server by described ground digital transmitting network; Described unmanned plane air-data acquisition system is connected with described remote monitoring server by described wireless image transmission network;

Wherein, described unmanned plane air-data acquisition system comprises unmanned aerial vehicle platform, three axle The Cloud Terraces, video collector, a GPS orientator, controller, pose adjustment instrument and Posture acquisition instrument; Described three axle The Cloud Terraces are arranged at described unmanned aerial vehicle platform, and described video collector is fixedly mounted on described three axle The Cloud Terraces, and the control port of described controller is connected with described three axle The Cloud Terraces, for adjusting the attitude of described three axle The Cloud Terraces by described pose adjustment instrument; The data-in port of described controller is connected with described video collector, described Posture acquisition instrument and a described GPS orientator respectively; Described controller is connected with described remote monitoring server by described wireless image transmission network;

Described in each, ground data acquisition station is distributed in the diverse location in monitored lake, and each described ground data acquisition station includes: switch board, power supply, data collecting instrument, the 2nd GPS orientator and multiple water environment detecting sensor; Wherein, described in each, water environment detecting sensor, described 2nd GPS orientator are all connected with described data collecting instrument with described power supply, and described data collecting instrument is also connected with described remote monitoring server by described ground digital transmitting network; Wherein, described data collecting instrument is positioned at the cabinet inside of described switch board; Described power supply is blower fan and sun power integral type power supply; Described water environment detecting sensor comprise water quality detection sensor, water flow velocity detecting sensor, water yield detecting sensor, level detection sensor, temperature detection sensor, moisture detection sensor, wind speed measurement sensor, wind detection sensor and day illumination detecting sensor.

2. water conservancy lake remote sensing comprehensive monitoring management system according to claim 1, it is characterized in that, described water quality detection sensor comprises dissolved oxygen sensor, PH detecting sensor, Turbidity measurement sensor, conductivity detecting sensor, ammonia nitrogen detecting sensor and TOC total organic carbon detecting sensor.

3. water conservancy lake remote sensing comprehensive monitoring management system according to claim 1, it is characterized in that, often kind of described water quality detection sensor all arranges three, hangs on top layer, middle level and bottom water body respectively.

4. water conservancy lake remote sensing comprehensive monitoring management system according to claim 1, is characterized in that, be provided with thunder-lightning equipment at the top of described switch board.

5. water conservancy lake remote sensing comprehensive monitoring management system according to claim 1, is characterized in that, also comprise moveable carriage; Described switch board is fixed on above described moveable carriage.

6. water conservancy lake remote sensing comprehensive monitoring management system according to claim 1, it is characterized in that, described remote monitoring server comprises audible-visual annunciator and large-screen display.