1) worm brake
蜗杆制动器
2) brake chain worm
手制动蜗杆
3) worm drive
蜗杆传动
1.
The article introduces diaphragm pump performance;nation-made design method of worm drive structure (Including selecting type of drive,precision degree,material,method of heat treatment,parameter,geometric size?error examination); strength caculation of worm drive; draw and interchange ability.
介绍了隔膜泵传动副蜗杆传动的使用性能和蜗杆传动的国产化设计方法———蜗杆传动结构的设计 (选择传动的类型、精度等级、材料及热处理方法、参数、几何尺寸、误差检测项目的确定 )、蜗杆传动的强度校核 ;蜗杆传动工作图的绘制以及蜗杆传动在使用中的互换性。
2.
This paper take the worm drive for example, it makes a research by using the reliability theory and introduce refinements into Reliability of the worm drive.
利用可靠性理论对玻璃器皿套色印花机中蜗杆传动进行分析研究,对如何提高其传动的可靠性提出了改进意见和进行了可靠性验证。
3.
The developing process and method of the parametric virtual modeling system for worm drive is discussed based on the analysis of worm and worm gear meshing relation and tooth profile formation,and combined with the secondary developing method of solidworks.
在分析圆柱蜗杆传动中蜗杆与蜗轮的啮合关系和齿廓形成的基础上,结合三维CAD系统SolidW orks二次开发的方法,讨论了圆柱蜗杆传动参数化虚拟造型系统的开发过程和方法,完成了蜗轮的三维实体造型,为进行蜗杆传动的加工仿真、有限元分析等提供了必要的条件。
4) worm transmission
蜗杆传动
1.
Optimization design of worm transmission based on UG and Matlab;
应用UG和Matlab实现蜗杆传动优化设计
2.
Optimal worm transmission design based on MATLAB;
基于MATLAB的搅拌机蜗杆传动的优化设计
3.
Study on controlled characteristics of worm transmission
蜗杆传动的可控特性研究
5) worm gear
蜗杆传动
1.
Fuzzy optimization design of worm gear in new type valve actuator;
阀门电动装置蜗杆传动模糊优化设计
2.
Fuzzy optimization method was applied to design the worm gear in valve actuator.
将模糊优化设计方法应用于电动装置的蜗杆传动设计,建立了模糊优化数学模型,并对其求解方法进行了详细的说 明,通过实例表明模糊优化设计可以使蜗杆传动更加符合客观实际,从而进一步减小电动装置的体积,提高电动装置的 效率。
3.
Research of Worm and Worm Gear CAPP System Based on Feature Modelling;
蜗杆传动具有传动比大、结构紧凑、冲击载荷小、传动平稳、噪声低、有自锁性等特点,因而广泛的应用于各类机械中。
6) Worm Gearing
蜗杆传动
1.
Lubrication states analyses on rolling cone enveloping hourglass worm gearing;
滚锥包络环面蜗杆传动的润滑状态分析
2.
Multi\|object optimum design of worm gearingwith fuzzy reliability restraint;
模糊可靠约束下的普通蜗杆传动多目标设计
3.
Lubrication for Rolling Cone Worm Gearing;
滚锥包络环面蜗杆传动润滑研究
补充资料:手制
1.亲手制作。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条