Subsurface sampling systems for future lunar robotic missions, which include reliable methods of acquiring and delivering samples to scientific instruments or return capsules for further analysis, are of extreme significance to the success of future in-situ and sample return explorations. Thus, this paper presents a novel multi-DOF sampler, which is designed to perform subsurface regolith sampling for lunar or planetary subsurface exploration in the near future. The sampler is mainly composed of three rigid links and one flexible link. Compared to most of conventional samplers, the developed sampler has several significant merits, e.g. small shrinking volume, large working space and low power consumption. Considering the influence brought from flexible links, the modified kinematic control theory is analyzed and applied to the sampler. At last, the lab-based experiments show the effectiveness of the proposed mechanisms and the feasibility of the sampler.

• 出版日期2014-7
• 单位东南大学; 南京农业大学