2) multi-station assembly
多工位装配
1.
Based on the poor quality of present assemble sequence planning aimed at producing time and operating cost,stream of variation analysis method(SOVA) was applied to investigate sequence optimization of two dimensional multi-station assembly in order to improve the assemble quality of products.
针对目前产品装配顺序通常从装配时间和装配成本角度来考虑而难以保证装配质量的情形,应用偏差流分析法,以提高装配质量为目标,提出一种新的二维多工位装配顺序优化方法。
3) multistation sheet metal assembly
多工位薄板装配
1.
An optimal tolerance synthesis method for multistation sheet metal assembly was presented,in which the manufacturing cost was selected as the objective function.
针对多工位薄板装配过程,建立了一种新的公差综合方法。
2.
An optimal sensor design method was presented for the multistation sheet metal assembly processes.
提出了一种多工位薄板装配过程测点优化设计方法。
5) assembly tooling
装配工装
1.
Starting with the structure of energy tester,the paper elaborates the assembly method,design of crystal unit assembly tooling,as well as alternative assembly method for energy tester in detail.
从量能器的结构入手,详细阐述了量能器的装配方法、量能器晶体单元的装配工装的设计及替代装配方法。
6) orientation assemble
定位装配
补充资料:第一工位挡料结构
多工位级进冲模的第一工位挡料结构有其特色,即能设置在任意需要的地点推出挡料销。在图1中的主要零件是挡料销和滑板。不需限位时,挡料销低于下模平面,需要时可推动滑板,通过前端斜面,使挡料销伸出下模平面实现挡料。
图1 第一工位挡料结构
1-下模 2-挡料销 3-滑板
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