Abstract: In this paper, a prototype of 2 mm-diameter micro-cycloid gear system fabricated by the multi-exposure LIGA technique is presented. The entire gear system consists of a casing and three vertically stacked disks and gears. Each part is composed of three different levels. The first level, 40 $mu@m high, was fabricated by UV-lithography, and the second as well as the third level, 195 $mu@m and 250 $mu@m high respectively, were processed by aligned deep X-ray lithography (DXL). The alignment error between two DXL- processed layers was measured, and the results have turned out to be within $POM@5 $mu@m range. As a result of the height control process by the mechanical surface machining, the deviation of structural height has been maintained within $POM@3 $mu@m range for the UV-lithography-processed structures, and $POM@10 $mu@m for the DXL-processed structures. Further the tests of gear assembly were implemented with 125 $mu@m-diameter glass fiber, by using a die-bonding machine with vacuum gripper under stereo- microscope. Finally the dynamic tests of the gear system were successfully conducted with the mechanical torque input by an electrical motor. A proper rotational speed reduction was observed in the operational input range of 3 to 1500 rpm with the designed gear ratio of 18.!7
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机译:摘要:本文提出了一种采用多曝光LIGA技术制造的直径为2毫米的微摆线齿轮系统的原型。整个齿轮系统由一个机壳和三个垂直堆叠的磁盘和齿轮组成。每个部分均由三个不同级别组成。第一层,高40μm@ m,是通过紫外光刻技术制造的;第二层和第三层,分别是高195μm@ m和250μm@ m,是通过对准的深X射线处理的。光刻(DXL)。测量了两个DXL处理层之间的对准误差,结果证明在$ POM @ 5 $ mu @ m范围内。通过机械表面加工进行的高度控制过程的结果,对于UV光刻处理的结构,结构高度的偏差一直保持在$ POM @ 3 $ mu @ m范围内,而$ POM @ 10 $ mu @ m用于DXL处理的结构。进一步的齿轮装配测试是通过在立体显微镜下使用带有真空夹具的芯片粘合机,用直径为125μm@ m的玻璃纤维进行的。最后,通过电动机输入的机械扭矩成功地进行了齿轮系统的动态测试。在设计输入齿轮比为18 !! 7的情况下,在3至1500 rpm的操作输入范围内观察到适当的转速降低。
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