A high-precision attitude adjustment equipment for thin-walled cabins of large spacecraft
A spacecraft and cabin technology, applied in the field of high-precision attitude adjustment equipment, can solve the problems of insufficient scalability, large space occupation ratio, affecting cabin accuracy, etc., so as to avoid the risk of cabin deformation, and improve safety and reliability. The effect of sex, the overall compact structure
Active Publication Date: 2021-12-07
BEIJING SATELLITE MFG FACTORY
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Problems solved by technology
[0004] First, the size and weight of the cabin change during the assembly process. The traditional single equipment has insufficient scalability and low versatility, and cannot adapt to the variability of working conditions in the parallel assembly process of multiple cabins.
[0005] Second, the thin-walled cabin itself is a weakly rigid structure, and the traditional way of supporting and rolling at both ends of the head and tail has the risk of causing distortion and deformation of the large cabin
[0006] Third, there are many types of load equipment inside and outside the cabin, and the space occupies a large proportion. In a narrow space and a limited area, the fixed position of the cabin body is easy to cause bumps, and there is a risk of damage to the load equipment and affecting the accuracy of the cabin.
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[0036] The present invention will be further described in detail through the drawings and examples below. Through these descriptions, the features and advantages of the present invention will become more apparent.
[0037] Such as figure 1 As shown, the present invention provides a kind of high-precision attitude adjustment equipment for thin-walled cabins of large spacecraft, which includes a first cabin platform 1, a second cabin platform 2, a first fixed bracket assembly 3, a first Two moving bracket components 4, guide rail slider components 5, third moving bracket components 6, fourth fixed bracket components 7, universal casters 8, adjusting legs 9, active actuators 10, follow-up actuators 11, Axial limit mechanism 12, auxiliary support device 13, position feedback assembly 14, first control system 15, second control system 16, transfer structure 17, hoisting structure 18; wherein,
[0038] The first cabin platform 1 is respectively equipped with a first fixed bracket ...
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The invention discloses high-precision posture adjustment equipment for thin-walled cabins of large-scale spacecraft, which includes a first cabin platform, a second cabin platform, a first fixed bracket assembly, a second mobile bracket assembly, and guide rail slides. Block assembly, third moving bracket assembly, fourth fixed bracket assembly, universal casters, adjusting legs, active actuator, follow-up actuator, axial limit mechanism, auxiliary support device, position feedback assembly, first control system, second control system, transfer structure, and hoisting structure; the invention adopts three-point synchronous active cooperative drive and online two-stage compensation technology to avoid the risk of cabin deformation caused by differential rotation; through the design of adaptive follow-up axial variable The positioning device performs axial preloading in real time, realizing good adaptation in narrow spaces and limited areas, ensuring the overall structural rigidity of the equipment and reducing the impact of deformation on the accuracy measurement of the cabin.
Description
technical field [0001] The invention relates to the field of ground mechanical support equipment for the general assembly of spacecraft, and performs high-precision attitude adjustment, long-term parking and fast transfer for large-scale spacecraft thin-walled cabins, and specifically relates to a high-precision attitude adjustment for large-scale spacecraft thin-walled cabins equipment. Background technique [0002] In the process of final assembly and testing of large spacecraft, the size and weight of the cabin continue to increase, and the complexity of assembly is increasing. In order to reliably fix the load equipment of each subsystem to the predetermined position and effectively connect them with cables and conduits , the attitude of each segmented cabin in the assembly hall needs to be adjusted with high precision, and it can be parked and quickly transferred in different experimental areas and designated workstations for a long time. [0003] In the prior art, the...
Claims
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IPC IPC(8): B64F5/10B64F5/50B23P19/04
CPCB23P19/04B64F5/10B64F5/50
Inventor 王国欣王荣谭旭董礼港李永亮李海月陈泽健
Owner BEIJING SATELLITE MFG FACTORY