2) eccentricity compensation
偏心补偿
1.
Based on eccentricity control principle and eccentricity signal model,an eccentricity compensation project for single stand and reversing cold strip mill was studied.
在深入分析轧辊偏心对板带材厚度影响的基础上,从偏心控制原理和偏心信号模型入手,研究了一种单机架可逆冷轧机轧辊偏心补偿方案。
2.
The effect principle which roller eccentricity affect strip gauge was analyzed,and eccentricity compensation control dynamic structural map which apply Fast Fourier Transport(FFT)method was established.
分析了冷轧带钢轧机偏心补偿控制的机理,建立了通过傅立叶分析提取偏心信号基波分量作为控制量的偏心补偿动态结构图。
3.
To reduce the influence of roll eccentricity on thickness of strip,a method of roll eccentricity compensation based on RBF network is introduced which has been used on 5-stand cold tandem mill at Hebei Zhonggang Group.
轧辊偏心是影响轧制过程中带材厚度精度的重要因素,因此轧辊的偏心补偿控制一直是冷轧板厚度控制系统AGC的重要组成部分。
3) model gap compensating control
模型偏差补偿控制
1.
Aiming at temperature control object with heavy inertia,a new control arithmetic based on the model gap compensating control theory is designed and applied in the embedded intelligent control system.
针对大惯性温度控制对象,设计了一种采用模型偏差补偿控制原理的控制算法并应用于工业嵌入式智能温度控制系统中。
4) bias control
偏压控制;基线补偿
5) compensation control
补偿控制
1.
Designing of Temperature Compensation Control System of Furance in Rolled Iron Shop;
轧钢车间加热炉温度补偿控制系统的设计与分析
2.
Attack helicopter gun recoil compensation control system design;
武装直升机射击后座力补偿控制系统设计
3.
MIMO decoupling control of MIG welding process of aluminum alloys with different PI decoupling compensation controller;
基于PI控制不同解耦补偿控制器的铝合金MIG焊过程MIMO解耦控制仿真
6) compensating control
补偿控制
1.
This paper Analysis of wise of compensating control.
分析补偿控制的补偿方式、实现形式及补偿精度,讨论铲磨床补偿装置的结构、误差采集方式及送给控制方式。
2.
To deal with this problem, we propose a velocity-observer-based neurofuzzy compensating control scheme.
针对可重构机械臂动力学中存在的模型参数摄动和外界扰动,本文阐述了一种基于速度观测模型的模糊RBF神经网络补偿控制算法。
3.
In this paper,the radial basis function neural networks(RBFNN) compensator is introduced into the speed control loop of the servo control system,and a model reference compensating control strategy based on RBFNN is brought forward.
该文通过在伺服控制系统的速度环中引入基于径向基神经网络的补偿控制器,提出了一种基于径向基神经网络的模型参考补偿控制策略。
补充资料:在AutoCAD中偏心圆锥与偏心圆台实体的画法
现在要画一个偏心圆锥,底面在WCS的XY平面上,圆心(0,0,0),半径100,顶点(300,0,400)在ZX平面上.
1)连接PA,PB. A(-100,0,0) B(100,0,0)
图1
在当前坐标下:
2)延长PA到C,使PA=CA;延长PB到D,使PB=DB;
3)连接CD;
4)以CD为直径画圆;
5)用XLINE命令中的二等分选项作角CPD的角平分线PO,交CD于O;
6)过O作CD的垂线,交圆于E,F;
图2
7)用三点UCS命令,取三点为:O,P,C;
8)过点O作PO的垂线GO,交PC于G;
图3
9)再次用三点UCS命令,取三点为O,F,G;
10)现在就可以画椭圆锥了!
cone-e-c-捕捉O点-捕捉F点-捕捉G点-a-捕捉P点;
图4
11)回到WCS,剖切椭圆锥
SL-选择椭圆锥-回车-XY-回车-捕捉P点.
12)删除辅助线条.
图5
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