CN207867673U - A kind of data acquisition device of Geological Hazards of debris monitoring system - Google Patents

Abstract

The utility model discloses a kind of data acquisition devices of Geological Hazards of debris monitoring system, including cover body, multispectral detection device, detection radar, solar power supply apparatus and control communication device, turntable is installed in the cover body, the multispectral detection device installation is on a spinstand, the detection radar is fixedly mounted on the top of multispectral detection device, and the solar power supply apparatus is mounted on the top of cover body.The utility model is coordinated using detection radar and multispectral monitoring device, high sensitivity, and detection success rate is high, and rate of false alarm is low；Drive detection radar and the rotation of multispectral monitoring device, it can be achieved that 360 ° omni-directional detects by turntable；Cover body helps to protect detection radar and multispectral monitoring device, prevents the damage of rainwater；Solar power supply apparatus is system power supply, does not need mains-supplied, solves the problems, such as that field, mountain area power supply are difficult.

Description

A kind of data acquisition device of Geological Hazards of debris monitoring system

Technical field

The utility model is related to disaster monitoring system technical field more particularly to a kind of Geological Hazards of debris monitoring systems Data acquisition device.

Background technology

Every year due to being lost caused by geological disaster up to 20,000,000,000 yuan, geological disaster includes avalanche, landslide, mudstone in China Stream etc., occurs mainly in southwest.It is also transitioned by past artificial tape measure monitoring for the monitoring instrument of landslide, mud-rock flow Instrument monitoring, monitoring instrument also positive precision height, excellent performance, wide adaptation range, high degree of automation direction develop.It is existing The shortcomings of geological disaster instrument monitoring technology is also immature, and that there is also monitoring success rates is low, rate of false alarm is high, energy consumption is high.In addition, The data acquisition device of instrument monitoring is because be mounted on mountain area, the difficulty compared of powering.How to design a kind of monitoring success rate it is high, Rate of false alarm is low, can the data acquisition device of Geological Hazards of debris monitoring system of self-powered be that the utility model to be solved The technical issues of.

Utility model content

The utility model in view of the deficiencies of the prior art, provides that a kind of monitoring success rate is high, rate of false alarm is low, can self-powered Geological Hazards of debris monitoring system data acquisition device.

The utility model is realized by following technological means solves above-mentioned technical problem：

A kind of data acquisition device of Geological Hazards of debris monitoring system, including cover body, multispectral detection device, detection Radar, solar power supply apparatus and control communication device are equipped with turntable, the multispectral detection device peace in the cover body On a spinstand, the detection radar is fixedly mounted on the top of multispectral detection device, the solar power supply apparatus peace to dress Mounted in the top of cover body.

Preferably, the data acquisition device of a kind of Geological Hazards of debris monitoring system, the cover body are circle Bench-type, and the cover body is made of pedestal, transparent outer cover and upper cover, the outer cover is mounted between pedestal and upper cover, described Turntable is mounted on the base, and the lower part of the pedestal is equipped with electric rotating machine, and the top of the detection radar is equipped with connection The upper end of bar, the connecting rod is installed on the upper cover by bearing.

Preferably, the data acquisition device of a kind of Geological Hazards of debris monitoring system, the multispectral inspection It includes rotary body, non-brake method thermal imaging system, laser range finder, CCD camera and search infrared sensor, the rotation to survey device Body is installed on a spinstand, and the non-brake method thermal imaging system, laser range finder, CCD camera and search infrared sensor are all pacified On rotary body.

Preferably, the data acquisition device of a kind of Geological Hazards of debris monitoring system, the detection radar Including shielding box body, circuit board and detection radar chipware, the shielding box body is mounted on the top of rotary body, the circuit board In shielding box body, the detection radar chipware is mounted on shielding box body.

Preferably, the data acquisition device of a kind of Geological Hazards of debris monitoring system, the solar energy supply Electric installation includes vertical stand, and the top of the vertical stand is equipped with wind transducer, and the top of the vertical stand is equipped with Platform is filled, solar panel is installed on the erecting bed, illuminance sensor is installed on the solar panel, it is described Position of the vertical stand between erecting bed and wind transducer is equipped with electronic circular orbit, is installed on the electronic circular orbit There is sliding block, wind power generation plant is installed on the sliding block, control room, the control indoor location are also equipped on the cover body There are accumulator, the control communication device to be mounted in control room, branch is installed between the solar panel and control room Strut.

Preferably, the data acquisition device of a kind of Geological Hazards of debris monitoring system, control communication Device includes interface unit, centralized control unit, storage unit and communication module, the interface unit, storage unit, communication mould Block is all connected with centralized control unit, and the communication module includes self-organized network communication module, mobile communication module and satellite communication Module.

The utility model has the advantage of：The utility model is coordinated using detection radar and multispectral monitoring device, sensitive Degree is high, and detection success rate is high, and rate of false alarm is low；By turntable drive detection radar and multispectral monitoring device rotation, it can be achieved that 360 ° omni-directional detects；Cover body helps to protect detection radar and multispectral monitoring device, prevents the damage of rainwater；Solar energy supplies Denso is set to system power supply, does not need mains-supplied, solves the problems, such as that field, mountain area power supply are difficult.

Further, it is also equipped with wind power generation plant on solar power supply apparatus, using solar power generation and wind-power electricity generation Matched mode is powered for whole device, in the power supply that rainy weather can also continue, reduces environmental factor to the greatest extent Influence to solar power supply apparatus ensure that the continue working of device.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram that the utility model controls communication device.

Specific implementation mode

It is new below in conjunction with this practicality to keep the purpose, technical scheme and advantage of the utility model embodiment clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, the every other embodiment that those of ordinary skill in the art are obtained without creative efforts belong to The range of the utility model protection.

A kind of data acquisition device of Geological Hazards of debris monitoring system, including cover body 1, multispectral detection device, spy Radar, solar power supply apparatus and control communication device 2 are surveyed, turntable 3, the multispectral detection dress are installed in the cover body It sets on turntable 3, the detection radar is fixedly mounted on the top of multispectral detection device, the solar powered dress It sets mounted on the top of cover body 1.

The utility model is coordinated using detection radar and multispectral monitoring device, high sensitivity, and detection success rate is high, wrong report Rate is low；Drive detection radar and the rotation of multispectral monitoring device, it can be achieved that 360 ° omni-directional detects by turntable；Cover body helps In protection detection radar and multispectral monitoring device, the damage of rainwater is prevented；Solar power supply apparatus is system power supply, is not needed Mains-supplied solves the problems, such as that field, mountain area power supply are difficult.

Preferably, the cover body 1 is circular platform type, and the cover body 1 is made of pedestal 4, transparent outer cover 5 and upper cover 6, The outer cover 5 is mounted between pedestal 4 and upper cover 6, and the turntable 3 is mounted on pedestal 4, and the lower part of the pedestal 4 is installed There is an electric rotating machine 7, the top of the detection radar is equipped with connecting rod 8, and the upper end of the connecting rod 8 is mounted on upper by bearing On lid 6.

Cover body compact structure, facilitates equipment to arrange, electric rotating machine is mounted on the lower part of pedestal, drives turntable rotation, into And detection radar and multispectral monitoring device is driven to rotate.

Preferably, the multispectral detection device include rotary body 9, non-brake method thermal imaging system 10, laser range finder 11, CCD camera 12 and search infrared sensor 13, the rotary body 9 are mounted on turntable 3, the non-brake method thermal imaging system 10, laser range finder 11, CCD camera 12 and search infrared sensor 13 are all mounted on rotary body 9.

Multispectral monitoring device overall structure small volume and less weight, investigative range is wide, can accurately identify landslide, dam break, mud-rock flow, The generation of the disasters such as mountain torrents.

Preferably, the detection radar includes shielding box body 14, circuit board and detection radar chipware 15, the shielding Box body 14 is mounted on the top of rotary body 9, and the circuit board is mounted in shielding box body 14, and the detection radar chipware 15 is installed On shielding box body 14.

The circuit board of detection radar is mounted in shielding box body, prevents interference of the extraneous factor to detection radar.

Preferably, the solar power supply apparatus includes vertical stand 16, and the top of the vertical stand 16 is equipped with wind To sensor 17, the top of the vertical stand 16 is equipped with erecting bed 18, and solar panel is equipped on the erecting bed 18 19, illuminance sensor 20 is installed, the vertical stand 16 is sensed in erecting bed 18 and wind direction on the solar panel 19 Position between device 17 is equipped with electronic circular orbit 21, and sliding block 22, the sliding block are equipped on the electronic circular orbit 21 Wind power generation plant 23 is installed on 22, control room 24 is also equipped on the cover body 1, electric power storage is installed in the control room 24 Pond 25, the control communication device 2 are mounted in control room 24, are equipped between the solar panel 19 and control room 24 Supporting rod 26.

Wind power generation plant is installed, using solar power generation and the matched side of wind-power electricity generation on solar power supply apparatus Formula is powered for whole device, in the power supply that rainy weather can also continue, is reduced environmental factor to the greatest extent and is supplied solar energy The influence of electric installation ensure that the continue working of device.

Preferably, the control communication device 2 includes interface unit 27, centralized control unit 28,29 and of storage unit Communication module, the interface unit 27, storage unit 29, communication module are all connected with centralized control unit 28, the communication mould Block includes self-organized network communication module 30, mobile communication module 31 and satellite communication module 32.

The data that early warning radar and multispectral detecting system detect are transferred to centralized control unit by interface unit, in Heart control unit carries out analysis and operation to the data detected, and data transmission is gone out by communication module.

The utility model is coordinated using detection radar and multispectral monitoring device, high sensitivity, and detection success rate is high, wrong report Rate is low；Drive detection radar and the rotation of multispectral monitoring device, it can be achieved that 360 ° omni-directional detects by turntable；Cover body helps In protection detection radar and multispectral monitoring device, the damage of rainwater is prevented；Solar power supply apparatus is system power supply, is not needed Mains-supplied solves the problems, such as that field, mountain area power supply are difficult.Further, wind-force hair is also equipped on solar power supply apparatus Electric installation uses solar power generation and the matched mode of wind-power electricity generation to power for whole device, can also continue in rainy weather Power supply, reduce influence of the environmental factor to solar power supply apparatus to the greatest extent, ensure that the continue working of device.

It should be noted that herein, if there are first and second or the like relational terms to be used merely to one A entity or operation with another entity or operate distinguish, without necessarily requiring or implying these entities or operation it Between there are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to Cover non-exclusive inclusion, so that the process, method, article or equipment including a series of elements includes not only those Element, but also include other elements that are not explicitly listed, or further include for this process, method, article or setting Standby intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in the process, method, article or apparatus that includes the element.

Above example is only to illustrate the technical solution of the utility model, rather than its limitations；Although with reference to aforementioned reality Example is applied the utility model is described in detail, it will be understood by those of ordinary skill in the art that：It still can be to preceding The technical solution recorded in each embodiment is stated to modify or equivalent replacement of some of the technical features；And these Modification or replacement, the spirit and model of various embodiments of the utility model technical solution that it does not separate the essence of the corresponding technical solution It encloses.

Claims (6)

1. a kind of data acquisition device of Geological Hazards of debris monitoring system, it is characterised in that：Including cover body, multispectral detection Device, detection radar, solar power supply apparatus and control communication device, are equipped with turntable in the cover body, described multispectral Detection device is installed on a spinstand, and the detection radar is fixedly mounted on the top of multispectral detection device, the solar energy The top of cover body is mounted on for electric installation.

2. a kind of data acquisition device of Geological Hazards of debris monitoring system according to claim 1, it is characterised in that： The cover body is circular platform type, and the cover body is made of pedestal, transparent outer cover and upper cover, the outer cover be mounted on pedestal and Between upper cover, the turntable is mounted on the base, and the lower part of the pedestal is equipped with electric rotating machine, the detection radar it is upper Portion is equipped with connecting rod, and the upper end of the connecting rod is installed on the upper cover by bearing.

3. a kind of data acquisition device of Geological Hazards of debris monitoring system according to claim 1, it is characterised in that： The multispectral detection device includes rotary body, non-brake method thermal imaging system, laser range finder, CCD camera and the infrared biography of search Sensor, the rotary body are installed on a spinstand, non-brake method thermal imaging system, laser range finder, CCD camera and the search Infrared sensor is all mounted on rotary body.

4. a kind of data acquisition device of Geological Hazards of debris monitoring system according to claim 1 or 3, feature exist In：The detection radar includes shielding box body, circuit board and detection radar chipware, and the shielding box body is mounted on rotary body Top, the circuit board be mounted on shielding box body in, the detection radar chipware be mounted on shielding box body on.

5. a kind of data acquisition device of Geological Hazards of debris monitoring system according to claim 1, it is characterised in that： The solar power supply apparatus includes vertical stand, and the top of the vertical stand is equipped with wind transducer, the vertical stand Top erecting bed is installed, solar panel is installed on the erecting bed, light is installed on the solar panel Illuminance transducer, position of the vertical stand between erecting bed and wind transducer are equipped with electronic circular orbit, the electricity Sliding block is installed on dynamic circular orbit, wind power generation plant is installed on the sliding block, control room is also equipped on the cover body, Accumulator is installed, the control communication device is mounted in control room, the solar panel and control in the control room Supporting rod is installed between room processed.

6. a kind of data acquisition device of Geological Hazards of debris monitoring system according to claim 1, it is characterised in that： The control communication device includes interface unit, centralized control unit, storage unit and communication module, the interface unit, Storage unit, communication module are all connected with centralized control unit, and the communication module includes self-organized network communication module, mobile communication Module and satellite communication module.