CN206208258U - A kind of geodata acquisition system - Google Patents

Abstract

The utility model discloses a kind of geodata acquisition system, including geodetic satellite, analyzing and processing computer, flight unmanned plane detector, level detector and data storage device, installed on geodetic satellite and be provided with microwave sounding unit, MSU and longwave transmissions device, the bottom of flight unmanned plane detector is fixed with video camera and short wavelength emissions device, one end of level detector is fixed with rangefinder, the side of level detector is electrically connected with analyzing and processing computer, analyzing and processing computer connection data storage device；It is inaccurate that the utility model solves the problems, such as that existing topography and geomorphology is drawn, large-scale landform is drawn by existing geodetic satellite, the landform that video camera shoots zonule is carried by flight unmanned plane detector, and use level detector is targetedly detected and drawn by rangefinder to the landform of vertical direction, finally by analysis and Control computer for analysis and data storage device storage terrain data, advantage accurate with detection, time saving and energy saving.

Description

A kind of geodata acquisition system

Technical field

The utility model is related to geodata to gather field, more particularly to a kind of geodata acquisition system.

Background technology

The earth is the mankind and the home of other biological existences, and the area that 4/5ths are there are about on the earth is covered by ocean, Remaining 1/5th is land, and land is divided into various landform again, the various landforms such as including mountains and rivers, river, desert, the cliff of displacement.No With topography and geomorphology can produce different influences to the production development of people, therefore people begin to detect very early at one's side it is all kinds of Landform, in order to preferably carry out production and living, is that this has also manufactured the prospecting tools of many, and depict topographic map.With Preceding people are limited by the precision of instrument, and the resulting accuracy of map is not enough, and with the development of modern science and technology, people's invention is manufactured The terrain detection device of artificial satellite, flight unmanned plane and specialty, therefore, be devoted to geographical field of detecting it is desirable to root According to existing sci-tech product, including artificial satellite and flight unmanned plane and radio communication device, develop a kind of geodata and adopt Collecting system, so that accurate quick is detected to required landform, and result of detection is stored using digital information mode, It is easy to people to call in time when needed.

Utility model content

The utility model proposes a kind of geodata acquisition system, solve existing topography and geomorphology and draw inaccurate Problem, large-scale landform is drawn by existing artificial satellite, and carrying video camera by flight unmanned plane shoots zonule Landform, and use level detector is targetedly detected and drawn to the landform of vertical direction, is controlled finally by analysis Computer for analysis processed and data storage device storage terrain data.

In order to solve the above-mentioned technical problem, the utility model provides following technical scheme：

A kind of geodata acquisition system of the utility model, including geodetic satellite, analyzing and processing computer, flight unmanned plane are visited Device, level detector and data storage device are surveyed, is installed on the geodetic satellite and is provided with microwave sounding unit, MSU and longwave transmissions dress Put, the longwave transmissions device transmission of electromagnetic signals ripple is sent to the analyzing and processing computer by relay amplifier, described to fly The bottom of row unmanned plane detector is fixed with video camera and short wavelength emissions device, the short wavelength emissions device transmission of electromagnetic signals Ripple to the analyzing and processing computer, one end of the level detector is fixed with rangefinder, the bottom of the level detector Horizontal gyro is fixed with, the bottom of the horizontal gyro is fixedly installed on the top of A-frame, the level detection The side of device is electrically connected with the analyzing and processing computer by the first data conductor, and the analyzing and processing computer passes through the second data Wire connects the data storage device.

Preferably, the analyzing and processing computer package contains main frame and display screen, and the operating rate of host-processor is 1G conspicuous Hereby to 5G hertz.

Preferably, three supporting legs of the A-frame are each provided with threaded adjusting bolt, and threaded adjusting bolt is provided with Locking nut.

Preferably, first data conductor and second data conductor are coaxial cable wire or twisted-pair feeder, and institute The two ends for stating the first data conductor and second data conductor are electrically connected with USB joint or lighting joints.

Preferably, the data storage device is Large Copacity mechanical hard disk or solid state hard disc, and the data storage device Memory capacity be the GB of 100 GB to 1,000.

The beneficial effect that the utility model is reached is：The utility model precise structure, solves existing topography and geomorphology Inaccurate problem is drawn, large-scale landform is drawn by existing geodetic satellite, carried by flight unmanned plane detector Video camera shoots the landform of zonule, and use level detector carries out specific aim by rangefinder to the landform of vertical direction Detection and drafting, it is accurate with detection finally by analysis and Control computer for analysis and data storage device storage terrain data, Time saving and energy saving advantage.

Brief description of the drawings

Accompanying drawing is used for providing being further understood to of the present utility model, and constitutes a part for specification, with this practicality New embodiment is used to explain the utility model together, does not constitute to limitation of the present utility model.In the accompanying drawings：

Fig. 1 is subjective structural representation of the present utility model；

In figure：1st, geodetic satellite；2nd, microwave sounding unit, MSU；3rd, longwave transmissions device；4th, computer is analyzed and processed；5th, flight nothing Man-machine detector；6th, video camera；7th, short wavelength emissions device；8th, level detector；9th, rangefinder；10th, horizontal gyro；11st, three Angle support；12nd, the first data conductor；13rd, the second data conductor；14th, data storage device.

Specific embodiment

Preferred embodiment of the present utility model is illustrated below in conjunction with accompanying drawing, it will be appreciated that described herein excellent Select embodiment to be merely to illustrate and explain the utility model, be not used to limit the utility model.

Embodiment 1

As shown in figure 1, the utility model provides a kind of geodata acquisition system, including geodetic satellite 1, analyzing and processing electricity Brain 4, flight unmanned plane detector 5, level detector 8 and data storage device 14, install on geodetic satellite 1 and are provided with microwave sounding Device 2 and longwave transmissions device 3, the transmission of electromagnetic signals ripple of longwave transmissions device 3 are sent to analyzing and processing by relay amplifier Computer 4, the bottom of flight unmanned plane detector 5 is fixed with video camera 6 and short wavelength emissions device 7, and short wavelength emissions device 7 is launched To computer 4 is analyzed and processed, one end of level detector 8 is fixed with rangefinder 9, the bottom of level detector 8 to electromagnetic signal ripple Horizontal gyro 10 is fixed with, the bottom of horizontal gyro 10 is fixedly installed on the top of A-frame 11, level detector 8 Side by the first data conductor 12 be electrically connected with analyzing and processing computer 4, analyzing and processing computer 4 pass through the second data conductor 13 Connection data storage device 14.

Analyzing and processing computer 4 includes main frame and display screen, and the operating rate of host-processor is 1G hertz to 5G hertz, Received geodata signal can be quickly processed, and is delivered on a display screen with specific image；The three of A-frame 11 Individual supporting leg is each provided with threaded adjusting bolt, for the levelness of adjusting triangle support 11, makes to be arranged at the horizontal top on its top Spiral shell instrument 10 keeps level, so that result of detection is more accurate, and threaded adjusting bolt is provided with locking nut；First data conductor 12 and second data conductor 13 be coaxial cable wire or twisted-pair feeder, and the first data conductor 12 and the second data conductor 13 two End is electrically connected with USB joint or lighting joints, and USB joint or lighting joints can be very good to carry out the biography of data It is defeated；Data storage device 14 is Large Copacity mechanical hard disk or solid state hard disc, and the memory capacity of data storage device 14 is 100 The GB of GB to 1,000.

The utility model precise structure, solves the problems, such as that existing topography and geomorphology draws inaccurate, by existing survey Ground satellite 1 draws large-scale landform, and the landform that video camera 6 shoots zonule is carried by flight unmanned plane detector 5, and Use level detector 8 is targetedly detected and drawn by rangefinder 9 to the landform of vertical direction, finally by analysis The analysis of control computer 4 and data storage device 14 store terrain data, advantage accurate with detection, time saving and energy saving, therefore tool There is good practical value.

Finally it should be noted that：Preferred embodiment of the present utility model is the foregoing is only, this is not limited to Utility model, although being described in detail to the utility model with reference to the foregoing embodiments, for those skilled in the art For, it can still modify to the technical scheme described in foregoing embodiments, or to which part technical characteristic Carry out equivalent.It is all it is of the present utility model spirit and principle within, any modification, equivalent substitution and improvements made etc., Should be included within protection domain of the present utility model.

Claims (5)

1. a kind of geodata acquisition system, including geodetic satellite（1）, analyzing and processing computer（4）, flight unmanned plane detector （5）, level detector（8）And data storage device（14）, it is characterised in that the geodetic satellite（1）Upper installation is provided with microwave Detection device（2）With longwave transmissions device（3）, the longwave transmissions device（3）Transmission of electromagnetic signals ripple is by relay amplifier It is sent to the analyzing and processing computer（4）, the flight unmanned plane detector（5）Bottom be fixed with video camera（6）With it is short Wave transmitting device（7）, the short wavelength emissions device（7）Transmission of electromagnetic signals ripple is to the analyzing and processing computer（4）, the level Detector（8）One end be fixed with rangefinder（9）, the level detector（8）Bottom be fixed with horizontal gyro （10）, the horizontal gyro（10）Bottom be fixedly installed on A-frame（11）Top, the level detector（8）'s Side passes through the first data conductor（12）It is electrically connected with the analyzing and processing computer（4）, the analyzing and processing computer（4）By Two data conductors（13）Connect the data storage device（14）.

2. a kind of geodata acquisition system according to claim 1, it is characterised in that the analyzing and processing computer（4） Operating rate comprising main frame and display screen, and host-processor is 1G hertz to 5G hertz.

3. a kind of geodata acquisition system according to claim 1, it is characterised in that the A-frame（11）Three Individual supporting leg is each provided with threaded adjusting bolt, and threaded adjusting bolt is provided with locking nut.

4. a kind of geodata acquisition system according to claim 1, it is characterised in that first data conductor（12） With second data conductor（13）It is coaxial cable wire or twisted-pair feeder, and first data conductor（12）With described second Data conductor（13）Two ends be electrically connected with USB joint or lighting joints.

5. a kind of geodata acquisition system according to claim 1, it is characterised in that the data storage device（14） It is Large Copacity mechanical hard disk or solid state hard disc, and the data storage device（14）Memory capacity be the GB of 100 GB to 1,000.