英语人>词典>汉英 : 反向机构 的英文翻译,例句
反向机构 的英文翻译、例句

反向机构

词组短语
reversing mechanism
更多网络例句与反向机构相关的网络例句 [注:此内容来源于网络,仅供参考]

X-ray determining indicates that xanthan gum has a antiparallel double helices conformation,on which its special properties of water solution base.

经 X -射线测定,黄原胶呈反向双螺旋机构,并可形成具有网状结构的次生构造。

Plenty of samples is provided for training BP neural network by traditional design method and the topology structure is built using forward propagating data and backward propagating error data, which is applied to optimal design of parallel double broken line pulley in order to accomplish the mapping between main parameter of hoisting mechanism of gantry crane and the related parameters of parallel double broken line pulley.

利用传统的设计方法为BP神经网络的学习提供足够样本集,然后通过正向传播和误差反向传播建立BP神经网络的拓扑结构,并将其应用于平行双折线卷筒的智能设计中,以完成龙门起重机起升机构主要设计参数与平行双折线卷筒相关参数的映射,提高设计的质量和效率,为龙门起重机关键零部件的智能设计提供一个新的途径。

When the interconversion factors are studied, investor sentiment is considered to analyze the different effects on stock market and bond market, and individual and institutional investors have different impacts on the spillover effect.

特别是在研究互变因素时,考虑了投资者情绪这一主观因素对两市的波动影响,并且对不同类型投资者在不同市场的行为进行了深入对比研究:个人投资者缺乏理性,往往是市场剧烈波动的始作俑者;而机构投资者能在市场间采取合理的反向操作策略,间接表明他们在稳定市场发展、化解风险扩散中的作用。

Based on the selection rules on the rotational joint fit comer, spherical joint fit comer and parallel bar interference, which are application-based, the relationships between those restrictions and mechanism parameters are deduced in the mathematic functions, especially for the compound spherical joint.

文章摘要:以6-RSS型并联机构为研究对象,建立解析形式的反向运动学方程,给出考虑驱动副转角范围、球副转角范围、连杆干涉等约束条件时的反解选取准则,推导出每种约束表达与机构参数间关系,特别是复合球副独特的附加约束表达。

According to the request of adopting advanced technology, the main designing has such contents as below:⑴ Designing the two-fluid nozzle that is based on the theory of air-atomize spraying.⑵ Designing and choosing the type of the axial fan that is used to supply assisted airflow to waft droplets that comes from nozzle.⑶ Designing the swaying outfit that can rotate the spray assembly at a speed and inside a angle in order to satisfy the spray request of different crops, different planting states and improve the uniformity of distribution, the deposition of droplet. Here, we select TYV type reduction gear motor to adjust the swaying speed and use course switch to adjust the swaying angle.⑷ Designing the lift outfit that can adjust the height of the spray assembly to satisfy the request of the crops of different tallness, different spraying range. Here, we select cylinder as the main component that can be used as kickstand and controlled easily.⑸ Designing the switch of the power supply that is put out of the greenhouse in order to prevent worker from poisoning. After the mist sprayer being made, the experiment is made to test the function of the greenhouse mist sprayer fully.

根据采用先进施药技术的要求,本研究的设计内容主要有:⑴采用气液两相流喷雾技术,基于气力雾化原理,设计双流体喷头;⑵采用辅助气流输送雾滴,气流源为风机,对风机进行设计、选型;⑶为满足不同作物、不同栽培情况及提高雾滴分布均匀性、沉积性的施药要求,设计能带动喷射部件在一定角度内、以一定转速的旋转摇摆机构,本研究选用调速电机调节其摇摆速度,并利用反向行程开关调节其摇摆角度;⑷为满足不同高度作物、不同射程的施药要求,设计能调节喷射部件高度的升降机构,这里选用气缸为主要构件,既可以起到整机支架的作用,又可方便进行升降、固定控制;⑸设计行程开关的控制电路以及整机的控制系统。

Redundant driving structure designed based on a new type of universal Cartesian serial-parallel manipulator, kinetics equations and Euler equations constructed, complete analysis of each jointed points of the moving platform carried out, inverse kinetics solution can be obtained with the given parameters, which include the position and orientation of the manipulator, applied force on the output shaft, parameters of motion of output shaft and connecting bar and sliding block, computer programming adopted to get the valid data and its figure, thus found the perfect show of this redundant driving structure compared to the primary mechanism without redundant driving.

对全新结构的万能直角串并联机构进行冗余驱动设计,通过建立动力学万程和欧拉方程,对机构的动平台各输入铰点处的受力状况进行了全面的分析,已知机构在给定空间位置和姿态下的输出端的受力、主轴的运动参数、连杆的运动参数、水平和垂直运动滑块的运动参数时,可以反向求解机构约动力学反解,通过计算机语言编程计算和绘图得至(直观有效的结果数据,由此得知冗余驱动在改善原机构的动力学特性方面的良好表现。

Based on the stress analysis to spired axis mechanism,in the aspect of sliding part which smoothes through alveolus intersection, theresearch of parameters optimization, about the middle alveolus of spired axis andthe dimension of sliding part, has been studied. To the problem that the reverseportion at the both sides of spired axis lashed fiercely and fraies quickly, thearticle finely analyses the best curve of alveolus when adding cushiony spring atthe both sides.

在对螺旋轴机构进行受力分析的基础上,从滑块顺利通过齿槽交叉点的要求方面,对螺旋轴中间段齿槽和滑块的尺寸进行了参数优化分析;针对螺旋轴两端曲线齿槽反向段在高速工作时冲击大、磨损快的问题;从减少滑块在齿槽反向段运动的冲击方面,比较分析了圆弧、抛物线、三角函数等曲线作为螺旋轴齿槽反向段曲线的加速度,提出了较优的(来源:ABCab论bf文网www.abclunwen.com)反向段曲线。

The PMSM rotor magnet polarity is first identified using the proposed intelligent approach. Then it is smoothly started in synchronous motor mode in unidirection.

永磁同步马达转子之磁极位置先由所提之智慧型策略侦测判定,然后设定电流控制脉宽调变机构之启始相位,使PMSM以同步马达模式非反向起动。

The fact is that if you had 13 million really great backlinks from only very trusted financial operations then you may well knock this site off the top spot.

其实如果你拥有13million个从高信誉度金融机构的过来的反向链接,那你就可以很容易把这个网站推到榜首。

The following cases, to go with locator: 1, medium pressure high pressure big time; 2, valve diameter is large Forged Gate, Globe, Check Valves (DN 00); 3, high or low temperature control valve; 4, the action necessary to raise the speed control valve; 5, using standard signal, the operation of non-standard spring when the implementing agency (20 ~ 100KPa spring outside the range); 6, when used for sub-process control; 7, when the valve to achieve the reverse action (air to close each open-type gas conversion); 8, need to change the valve's flow characteristic time (you can change the positioner cam); 9, no spring actuator or piston actuator, the proportion of action to achieve the time; 10, electrical signals to operate pneumatic actuator must Distribution - gas valve positioner.

下列情况下,要配定位器: 1、介质压力高、压差大的时候; 2、调节阀口径大时(DN00); 3、高温或低温调节阀; 4、需要提高调节阀的动作速度时; 5、用标准信号、操作气动管路截止阀非标准弹簧的执行机构时(20~100KPa以外的弹簧范围); 6、用于分程控制时; 7、使阀门实现反向动作时(气关式和气开式互相转换); 8、需要改变阀的流量特性时; 9、无弹簧执行机构或活塞执行机构,要实现比例动作时; 10、用电信号去操作气动执行机构时,必须配电-气阀门定位器。