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Satellite high-precision angle measurement method based on photoelectric auto-collimator

A photoelectric autocollimator and autocollimator technology, applied in the field of angle measurement, can solve problems such as inability to fully meet installation and measurement requirements, time-consuming and labor-intensive measurement process, etc., achieve significant engineering application value, avoid personnel operation errors and, The effect of solving high precision

Active Publication Date: 2017-03-01
SHANGHAI SATELLITE ENG INST
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Problems solved by technology

During the measurement process, the human eye is mainly relied on for operations such as collimation and mutual aiming. The measurement process is time-consuming and laborious, and taking into account the line width of the measured target and the difference in human vision, it often causes large errors.
It has been unable to fully meet the installation and measurement requirements of the new generation of high-orbit, high-resolution remote sensing satellites for the boresight pointing accuracy of spaceborne instruments

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  • Satellite high-precision angle measurement method based on photoelectric auto-collimator
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  • Satellite high-precision angle measurement method based on photoelectric auto-collimator

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Embodiment Construction

[0021] The present invention will be described in detail below in conjunction with specific embodiments. The following examples will help those skilled in the art to further understand the present invention, but do not limit the present invention in any form. It should be noted that those skilled in the art can make several modifications and improvements without departing from the concept of the present invention. These all belong to the protection scope of the present invention.

[0022] like figure 1 Shown, the present invention is based on the satellite high-precision angle measuring method of photoelectric autocollimator and comprises the following steps:

[0023] Step 1, the satellite is fixedly placed on the turntable, and this state is recorded as "state 1"; specifically, the satellite can be placed on the two-axis turntable, which can be placed at will without any adjustment, and is fixed by fasteners. If the branch is connected, it should be ensured that the satell...

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Abstract

The invention provides a satellite high-precision angle measurement method based on a photoelectric auto-collimator. The method comprises the following steps: 1) placing a satellite fixed support on a rotation bench, a state is labeled as a state I; 2) employing two auto-collimators for respectively aiming at cubic mirrors on two single machines, adjusting the position of the auto-collimators so that the a measurement optical path by the auto-collimators are perpendicular to the corresponding detected cubic mirrors; 3) rotating the rotation bench to a minimal angle by winding a rotation shaft; and 4) obtaining the angle deflection amount of the detected mirror surface of the cubic mirrors on two single machines, and calculating the image point coordinates of the auto-collimators on a sensor screen. According to the invention, space minimal angle change of the detected mirror surface can be automatically obtained by several auto-collimators, under the prerequisite that the ultrahigh precision measurement capability of the photoelectric auto-collimator is used, measurement error due to manual operation can be avoided, satellite angle measurement precision is increased for further, and the angle measurement method has the advantages of multitime measurement, fast calculating and high measurement precision.

Description

technical field [0001] The invention relates to an angle measurement method, in particular to a satellite high-precision angle measurement method based on a photoelectric autocollimator. Background technique [0002] When the satellite is assembled on the ground, it is necessary to obtain the line-of-sight relationship between each precision stand-alone machine on the satellite. There are many difficulties in the actual operation process of directly measuring the line-of-sight of the instrument under test. The measurement is performed with the mirror-normal optical axis of the cube mirror installed on the device pointing instead of the boresight pointing. At present, theodolite measurement system is widely used for measurement, that is, the angle information between the measured mirrors is obtained by using the collimation and mutual aiming of multiple regularly distributed theodolites, and then the angle relationship between the normal vector space of the measured mirrors i...

Claims

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Application Information

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IPC IPC(8): G01C1/00
CPCG01C1/00
Inventor 苏若斌周徐斌杜冬陶炯鸣孔祥森赵川周静
Owner SHANGHAI SATELLITE ENG INST
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