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Automatic attitude-adjusting, landing, patrolling and launching integrated detector for besides-satellite complex environment

A complex environment and detector technology, applied in the field of space detectors, can solve the problems of high redundancy of mechanical and electronic hardware systems, the lack of attitude adjustment capabilities of the lander, and the inability to realize the launch and return of the ascender, so as to facilitate technology upgrades , high patrol stability, and the effect of large patrol walking space

Active Publication Date: 2021-09-17
SHANGHAI JIAO TONG UNIV
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Problems solved by technology

However, the system mainly has the following problems: 1) The existing lander has a truss structure, and the position of the touch point of the foot end relative to the fuselage before landing cannot be changed. The entire area cannot reach the complex and harsh environment that humans have not yet explored; 2) The lander and the rover are separated, so the mechanical and electronic hardware systems have high redundancy, large launch quality, large volume, and high cost. Coordination also brings difficulties to communication control; 3) The lander after landing does not have the ability to adjust the attitude, so it is impossible to realize that the ascender can launch back on the lander at the best launch angle

Method used

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  • Automatic attitude-adjusting, landing, patrolling and launching integrated detector for besides-satellite complex environment
  • Automatic attitude-adjusting, landing, patrolling and launching integrated detector for besides-satellite complex environment
  • Automatic attitude-adjusting, landing, patrolling and launching integrated detector for besides-satellite complex environment

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Embodiment Construction

[0023] like Figure 1~4 As shown, this embodiment includes: a main structural box 100 and multi-mode leg mechanisms 200 respectively arranged on four sides thereof.

[0024] like Figure 5 As shown, the leg mechanism 200 includes: a multi-mode main chain 300 and two multi-mode auxiliary chains 400 .

[0025] like Figure 6 As shown, the multi-mode main chain 300 includes: a main mounting seat 301, a main motor mounting flange 302, a screw nut assembly 303, a main transmission connecting rod 304, a main buffer outer sleeve 305, and a main buffer piston rod 306, moving platform 307, ankle 308, foot pad 309, wherein: the main installation base 301 is connected with the main structure box 100 and is connected with the main motor installation flange 302 and the middle part of the main transmission connecting rod 304 respectively through the rotating hinge, and the wire The lever nut assembly 303 is connected with the main mounting seat 301 and its screw nut is connected with one...

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Abstract

An autonomous attitude-adjusting, landing, patrolling and launching integrated detector for a besides-satellite complex environment comprises a main structure box body and multi-mode leg mechanisms arranged on the four side faces of the main structure box body respectively, and each multi-mode leg mechanism comprises a multi-mode main chain and two multi-mode auxiliary chains. A controller, a double-shaft tilt angle sensor, a position sensor and a visual sensor are arranged on the main structure box body. The integrated detector is based on the inverted tripod leg shape and further expands the inverted tripod leg shape into a robot leg shape or a novel detector leg shape with four operation modes. And through reasonable mechanism and structure optimization design, the overall structure is simple and reliable, and the defects of low rigidity and low bearing performance caused by a complex multi-loop mechanism are overcome under the condition that multiple modes are integrated at the same time.

Description

technical field [0001] The invention relates to a technology in the field of space detectors, in particular to an integrated detector for autonomous attitude adjustment, landing, patrolling and launching in an extraterrestrial complex environment. Background technique [0002] Alien landing, patrol detection, and sample return are important technical means for understanding the origin and evolution of planets. The current detection method generally uses a lander equipped with a patrol device and an ascender. The lander is responsible for landing safely on the surface of the alien planet. The patrol device is responsible for patrolling detection, drilling and sampling of the alien surface. It will be launched on the ground and docked with the satellite in orbit to transfer the sample to the earth. However, the system mainly has the following problems: 1) The existing lander has a truss structure, and the position of the touch point of the foot end relative to the fuselage be...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B64G1/16B64G1/24B64G1/22B64G1/00B62D57/032
CPCB64G1/16B64G1/244B64G1/22B64G1/002B62D57/032
Inventor 郭为忠韩有承彭泽坤
Owner SHANGHAI JIAO TONG UNIV
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