1) engagement & disengagement device
离合压
1.
Development research on teaching system of engagement & disengagement device of printing press;
胶印机离合压教学系统开发研究
2.
The development & research on teaching & demonstrating system to specialty learning was introduced upon the analysis and research on the principle of the engagement & disengagement device of offset press (EDDOP) and general teaching & demonstrating system.
通过对通用教学装置和胶印机离合压原理的分析与研究,提出了专业教学示教装置的研发问题,探讨了示教装置开发的主要特点和基本要求,总结了胶印机离合压示教装置机械与控制系统的设计要求,设计内容和设计方法,开发出已应用于教学和实验的胶印机离合压示教装置。
2) on-off pressure mechanism
离合压机构
1.
The virtual assembly model of on-off pressure mechanism of offset press has been created by UG software.
应用UG软件对胶印机离合压机构进行了建模与虚拟装配。
2.
The parts and virtual assembly model of on-off pressure mechanism of offset press have been created by UG software.
应用UG软件对某型胶印机离合压机构进行了建模与虚拟装配。
3) engagement and disengagement device
离合压装置
5) sequential engagement and disengagement
顺序离合压
1.
The achievement of sequential engagement and disengagement by means of the eccentric device is one of common methods to the design for printing unit of offset press.
用偏心机构完成顺序离合压是胶印机印刷装置设计的一种常见方法,确定偏心安装位置及设计关键参数,是顺序离合压偏心机构设计的关键。
6) clutch-pressing spring
离合器压簧
1.
This paper discusses the necessity of designing the clutch-pressing spring with the method of reliability and optimum design, analyses the characteristics of the statistic digit of fatigue and static strength of the clutch-pressing spring,and establishes the mathematical model of reliability and optimum design of the clutch-pressing spring.
论述了进行离合器压簧可靠性优化设计的必要性,分析了压簧疲劳强度与静强度的统计数字特征,建立了压簧的可靠性优化设计数学模型,并以EQ140离合器压簧为实例进行了计算,其结果令人十分满意。
补充资料:冲击波超压与动压