1·A new stepless-adjusted jig using worm and worm gear driving is introduced in this article.
一种利用蜗杆蜗轮传动无级调节偏心的双偏心轮定位夹具。
2·The way of fuzzy optimized design has been used to design the gear box of worm gear in this paper.
就蜗杆传动减速器设计问题,应用模糊数学方法进行了优化设计。
3·This paper explains the design analysis and its practical application by using gear hob to processing worm gear.
叙述了用齿轮滚刀加工蜗轮的设计及其实际应用。
4·The article describes the advantages and disadvantages of worm gear drives and the domestic and abroad research.
介绍蜗轮传动优缺点和国内外蜗轮研究现状。
5·The basic types of gear transmission are external and internal cylindric gear drive, bevel gear drive, worm gear drive.
外啮合圆柱齿轮、内啮合圆柱齿轮、圆维齿轮和蜗轮蜗杆传动是齿轮传动的基本形式。
6·This proves that the manufacturing accuracy of worm and worm gear is higher, while the manufacturing methods are feasible.
说明蜗杆螺旋槽以及蜗轮的加工精度是较高的,选用的加工方案是可行的。
7·When the worm crisscross Angle, still need to ensure that's too, and worm gear and worm helical screw to must be identical.
当蜗轮蜗杆的交错角为时,还需保证,而且蜗轮与蜗杆螺旋线旋向必须相同。
8·This paper is the first report on theoretical research of the involute, internallyengaged, double-enveloping worm gear drive.
渐开线内啮合弧面蜗杆是我们近几年来提出和研制的一种新型蜗杆传动。
9·For the worm gear set, a mathematical model is set up, basic equations are derived, and tooth contact analysis is carried out.
本文对于这种新型传动副,建立了数学模型,推导出了若干基本方程序,并且进行了齿面接触分析。
10·In order to manufacture planar double-enveloping toroid worm gear with CNC methods, a precise digital model must be constructed.
为了实现平面二次包络环面蜗轮的数控加工,必须对蜗轮进行精确数字化造型。