1) sequential control
轮值控制
1.
This paper,based on the study of a sewage treatment plant,discusses the demerit of traditional control in respect of pumping station,and introduces the characteristic as well as applications of fuzzy control and sequential control on it.
该文以某污水处理厂为背景,分析了传统控制在提升泵站控制中的缺陷和不足,介绍了模糊控制和轮值控制的特点及在泵站的应用。
2.
This paper based on the study of a sewage disposal pumping station,discusses the demerit of traditional control in respect of pumping station,and introduces the characteristic as well as applications of fuzzy control and sequential control on it.
该文主要以某雨水排污泵站为背景,分析了传统控制在排污泵站液位控制中的缺陷和不足,介绍了模糊控制和轮值控制的特点及在泵站的应用,实际运行表明该方案行之有效。
2) contour control
轮廓控制
1.
Fuzzy contour control strategy for the ultra precision machine tool;
超精密机床模糊轮廓控制技术研究
2.
Then on the basis of constructing the semi-closed-loop three-axis machine tool decoupled contour system model,the static decoupled contour controller was studied,and the pitch error compensation method on the decoupled contour system was presented.
为提高半闭环三轴机床加工精度,首先提出单伺服轴的螺距误差补偿方法;在建立半闭环三轴机床解耦轮廓系统模型基础上,研究了静态解耦轮廓控制器的设计,并在所提出的静态解耦轮廓控制系统上实现了螺距误差补偿。
3.
In the thesis several key technologies, such as Acceleration /Deceleration control, curve interpolation, servo control and contour control are researched in details aimed at the development of high-performance CNC system.
论文针对开放式、高性能数控系统发展需要,对数控系统的几个主要关键技术-加减速控制、曲线插补方法、伺服控制、轮廓控制进行了深入研究。
3) contouring control
轮廓控制
1.
Feedback linearity technique is combined with PID or sliding mode control to settle problems that tolerance model complex and lack of controller designing method with conventional contouring control approaches.
提出了一种极坐标下的相对简单的轮廓误差模型,采用反馈线性化技术和PID或滑模控制相结合的方法设计控制器,解决了传统轮廓控制的误差模型复杂、且没有系统的控制器设计方法的问题。
4) cam control
凸轮控制
1.
The plan to select the type of frequency speed regulator according to the collected electrical data and the condition of the site is introduced, the actual application of it in the cam control in steel rolling mill and the problems in operation are discussed, the resolving plan proposed.
介绍了根据所收集的电气技术数据和现场实际情况来为变频调速器选型的方案,对变频器在轧钢 厂凸轮控制中的实际应用情况和在实际应用中遇到的问题进行了探讨并提出了解决方案。
2.
By Changing the over-model heavy girder of the turnover machine from the linear contact into point contact as well as by revamping the original point of no return,control circuit,cam controller and hydraulic oil line system the low utilization rate of the machine due to return of part of the charging material and increase of production cost are effectively solved.
通过将翻车机的老式重压梁由线接触改为点接触的形式,以及对原有极限点、控制线路、凸轮控制器和液压油路系统改造,有效解决翻车机原有老式卸车机构积料致车皮回料、车皮利用率降低、成本增加的问题。
5) control wheel
控制滚轮
1.
The calculation on formulas of geometric parameters of control wheel,quick wearpart of the unfolding mechanism,are obtained.
推导出用于加工该展开机构的易损件——控制滚轮几何加工参数的计算公式。
6) control of the wheel blade
轮叶控制
补充资料:轮值
1.亦作"轮直"。 2.轮流值班。
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