1·The problem is important for the design and application of the CAM mechanism.
在凸轮机构的设计和应用中必须重视这一问题。
2·This method has been applied to force sealed and groove sealed CAM mechanism.
本文将这种方法应用于力锁合凸轮和槽道凸轮。
3·The Motion law design directly influences the operation accuracy of the CAM mechanism.
运动规律的设计,直接影响凸轮机构的运行精度。
4·This thesis discusses CAD for globular indexing CAM mechanism on base of reverse engineering.
本文是围绕弧面分度凸轮机构CAD中的逆向设计进行的。
5·Based on the analysis of traditional worm CAM mechanism, it introduces a new worm CAM mechanism.
在分析传统蜗形凸轮传动机构特点的基础上,设计出了一种新型的蜗形凸轮传动机构。
6·An analytical design method of disk CAM mechanism with oscillating roller follower is introduced.
介绍了摆动滚子从动件盘形凸轮机构设计的解析法。
7·This platform can be used as a teaching , design and manufacturing equipment about cam mechanism.
该测量平台可以应用于凸轮机构的教学、设计和制造过程。
8·The theoretical base of the new cam mechanism and the designing steps of the cam contour are discussed.
本文就这种新型凸轮机构的理论基础与凸轮轮廓曲线的设计步骤进行了详细论述。
9·Impact and vibration will reduce the precision of CAM mechanism, result in invalidation of CAM mechanism.
从动件运动时产生的冲击和振动会造成凸轮机构传动精度的降低,使凸轮传动系统产生失效。
10·In this paper, a new type of conical envelope worm indexing cam mechanism with rolling teeth is proposed.
提出了一种具有滚动齿的新型锥面包络蜗杆分度凸轮机构;