On-orbit engine plume data acquisition method based on gyro data

A data acquisition and engine technology, applied in engine testing, machine/structural component testing, measuring devices, etc., can solve problems such as lack of engineering test data support, ground test conditions that do not meet the spacecraft high vacuum environment, etc. On-orbit autonomous direct processing, which is beneficial to post-processing on the ground, and the effect of simple calculation

Active Publication Date: 2015-10-21
BEIJING INST OF CONTROL ENG
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Problems solved by technology

[0007] The shortcomings of the above-mentioned relevant literature are: the numerical simulation results only focus on the optimization of the simulation algorithm. Although the simulation results provided by foreign literature are compared, there is a lack of engineering test data support; the ground test method only simulates the space environment within 100km , using measuring equipment such as pressure sensors, and spacecraft generally operate in a high-vacuum environment of 300km or more, the space environment is different from that within 100km, and the ground test conditions do not meet the high-vacuum environment of spacecraft in-orbit operation

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  • On-orbit engine plume data acquisition method based on gyro data

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[0043] The present invention utilizes a three-axis stable satellite on-orbit engine at an orbital height of 915km to test the effect of the engine's high-vacuum plume field on the spacecraft, and uses gyroscope data to analyze the test results, which is an engineering test technology that has never been carried out before. . Assuming that t1=2ms, n1=0.1%, n2=0.8%, N=98%, according to the above step (2), it is required that the injection time is greater than t1 / (1-(n1+n2+N)%)=2 seconds, take The jet duration is 5.0 seconds, and the other main steps are as follows:

[0044] a. Establish the normal three-axis stable attitude of the spacecraft, inject the engine start control point and the length of the injection time.

[0045] b. Prepare the engine before working, see step (3) above for details.

[0046] c. From the engine start control point to the engine autonomous injection, and record the data of the above step (4).

[0047] d. By analyzing the recorded data, the inertial an...

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Abstract

The invention discloses an in-orbit engine plume data acquisition method based on gyroscope data. The method comprises the steps of building normal three-axis stabilization attitudes of a spacecraft, adopting a momentum wheel to be an actuator for controlling three axes and a magnetic torquer for unloading, adopting attitude sensors such as a gyroscope and an infrared or star sensor for determining attitude, identifying a starting control point and air injection time of an engine involved in a test, preparing before work of the engine, such as starting a heater and starting a latching valve, recording data output by the gyroscope, analyzing test results, and analyzing disturbing force and moment generated during air injection of the engine according to the gyroscope data and quality characteristics of the spacecraft. According to the in-orbit engine plume data acquisition method based on the gyroscope data, plume data acquisition of the in-orbit engine under high vacuum and real environment is achieved.

Description

technical field [0001] The invention belongs to the technical field of spacecraft attitude and orbit control, and relates to an on-orbit engine plume data acquisition technology, in particular to a plume acquisition technology based on gyroscope data. Background technique [0002] The spacecraft is generally equipped with a variety of engines to achieve attitude control and orbit control, such as attitude adjustment, orbit maneuvering, etc. During the operation of the engine, the jet plume may hit the surface of the spacecraft to generate disturbance forces and moments, which will affect the attitude control of the spacecraft Accuracy or track control accuracy, and even more serious effects, such as loss of control. The research shows that to correctly evaluate the effect of the plume on the spacecraft, it is first necessary to accurately describe the vacuum plume field of the engine. There are two main methods for the research of vacuum plume field: numerical simulation me...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01M15/00
Inventor 王新民张庆君张笃周孙水生张俊玲姚宁刘捷贾宏邢卫卫刘忻
Owner BEIJING INST OF CONTROL ENG
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