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Controllable system device of field ground feature spectral measurement

A ground object spectrum and system device technology, applied in the field of ground object spectrum measurement devices, can solve the problems of inconvenience and safety hazards in optical fiber handling and protection, poor repeatability of ground object spectral measurement data, poor regulation and recording performance, etc. , to achieve the effect of overcoming uncontrollable measurement errors, light weight, and overcoming vulnerability

Inactive Publication Date: 2010-02-03
QINGDAO UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

These two are platforms that perform canopy spectral testing on ground objects with a low degree of automation. They have poor controllability and recording performance for measuring the height of the probe from the canopy, the XYZ three-axis inclination of the probe, and the field of view of the probe. The natural light reflected by the object canopy has a great impact, resulting in poor measurement data, poor repeatability of ground object spectral measurement data, and inconvenience and safety hazards for the handling and protection of the key components of the spectrometer and optical fiber during the measurement process , especially optical fibers are susceptible to damage

Method used

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  • Controllable system device of field ground feature spectral measurement
  • Controllable system device of field ground feature spectral measurement
  • Controllable system device of field ground feature spectral measurement

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Embodiment Construction

[0007] This particular embodiment, such as Figure 1-4 As shown, it consists of lifting rod 1, I-shaped beam 2, optical fiber 3, bolt 4, probe protective cover 5, optical fiber probe 6, I-shaped frame 7, calibration box 8, calibration adjustment box 9, probe control box 10, position protection Card 11, detection instrument box 12, USB connection line 13, data power line 14, XZ direction control box 15, YZ direction control box 16, XY direction rotation control box 17, battery 18, direction controller 19, tripod connector 20 , a tripod 21, and a lifting track groove 22. The lifting rod 1 is placed in the lifting track groove 22 and connected to one end of the XZ direction control box 15. The other end of the XZ direction control box 15 is connected to one end of the YZ direction control box 16. The YZ direction control The other end of the box 16 is connected to the direction controller 19, and the direction controller 19 is connected to the correction adjustment box 9 through ...

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Abstract

The invention discloses a controllable system device of the field ground feature spectral measurement, and relates to a plant spectral measurement device, in particular to a field plant spectral measurement device, which comprises a lifting rod (1), a cross beam like the Chinese character gong (3), an optical fiber (3), a bolt (4), a probe protective cover (5), an optical fiber probe (6), a framelike the Chinese character gong (7), a correction box (8), a correction and regulation box (9), a probe control box (10), a position protective card (11), a detecting instrument box (12), a USB connecting wire (13), a data power wire (14), an XZ direction control box (15), a YZ direction control box (16), an XY direction control box (17), storage batteries (18), a direction controller (19), a tripod connecting piece (20), a tripod (21) and a lifting track groove (22). In the invention, a singlechip is utilized to control a stepper motor to realize automatic regulation, and the invention has the advantages of easy and simple operation, detachable property, light weight, convenient carrying, accurate measurement and uneasy damaged optical fiber and the like.

Description

Technical field: [0001] The invention relates to a ground feature spectrum measuring device, in particular to a field feature spectrum measuring device. Background technique: [0002] At present, the canopy spectral detection of soil, rocks, water bodies and low plants mostly uses the probe hand-held method, and the canopy spectral detection of higher ground objects such as tall trees and plants mostly uses larger machinery such as engineering vehicles with lifting arms . These two are platforms that perform canopy spectrum testing on ground objects with low automation. They have poor control and recording performance for measuring the height of the probe from the canopy, the XYZ three-axis inclination of the probe, and the field of view of the probe. The natural light reflected by the object canopy has a great impact, resulting in poor measurement data, poor repeatability of ground object spectral measurement data, and inconvenient and safety hazards for the handling and p...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01J3/28
Inventor 张金恒吕永亮梁定群徐军孔令伟韩超姚振璇
Owner QINGDAO UNIV OF SCI & TECH
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