1) riding basket
乘吊篮
1.
The theory of system engineering for safety is used in this paper for fallen accident with riding basket to get onboard platform at sea.
对海上设施用吊篮接送作业人员可能发生的人员跌落事故,用安全系统工程的事故预测技术,对其可能出现的失效模式建立了FTA数学模型,将系统失效的原因与结果绘制成树状关系图,然后用数理统计方法进行定性和定量计算,查明被研究系统所潜伏的危险因素,进而采取安全措施,保障乘吊篮人员的人身安全,达到预测和预防事故的目的。
2) nacelle
[英][nə'sel] [美][nə'sɛl]
吊篮
1.
The topology optimization design of a centrifuger nacelle
某型号离心机吊篮拓扑优化设计
2.
A luffing extension-jib was installed on top of the carriage with a telescopic nacelle.
在方舱上安装由液压系统控制的可升降伸缩旋转吊臂;在吊臂顶端安装有可折叠吊篮。
3.
The nacelle-type transplanter is a good machinery for transplanting film,but it is not convenient and safe to directly drop seedling and it is easy to leave out seedling when the machine is operated and its work efficiency is low when cotton seeds are transplated over the large areas.
吊篮式移栽机是铺膜移栽机械中栽植率较好的机械,但直接投苗不够方便安全,而且容易漏苗,大面积移栽棉花效率低。
3) Core barrel
吊篮
1.
The Power Spectrum Density(PSD) of neutron noise induced by the Core barrel vibration of has been carried out.
通过对临界装置堆芯吊篮激励振动引发中子噪声实验得到的功率谱密度(PSD)进行分析,证实了从中子噪声PSD中获得吊篮振动特性(各阶特征频率)是可行的,并给出了中子噪声探测器PSD幅度与吊篮振动幅度之间的比例因子(刻度因子)的计算方法。
2.
By means of the fliud-structure interaction, the dynamical characteristics of the core barrel of nuclear reactors in air and in still water were investigated using program ANSYS.
采用流体结构耦合方法,用ANSYS程序对反应堆吊篮在空气和静水中的振动特性进行了研究。
3.
The mode shape method of random vibration is used to analyze the random responses of the structure of a core barrel based on the measured time course of the flow pressure.
讨论反应堆吊篮结构在流体脉动压力作用下的随机响应 。
4) gondola
[英]['ɡɔndələ] [美]['gɑndələ]
吊篮
1.
Simulation of Attitude Control System for Balloon-borne Gondola;
气球吊篮姿态控制系统的仿真研究
2.
The results of simulation show that the gondola control system achieves the desired results.
论述了一种反捻装置的构成原理,给出了系统的仿真模型,并在具有位置干扰和速度干扰的情况下,采用MATLAB对其进行了仿真,从仿真的结果来看,采用反捻装置的吊篮控制系统可以较好地完成控制任务。
5) form traveler hoisting
挂篮吊装
6) nacelle
[英][nə'sel] [美][nə'sɛl]
气球吊篮
1.
DC torque motor under the reaction flywheel control mode was used in nacelle azimuth control in this paper.
实现了用直流力矩电机在反作用飞轮控制方式下对气球吊篮的方位控制。
2.
In order to increase the precision of reaction wheels mode in azimuth control,acquired in the present paper is a project of reaction wheel control about azimuth control of nacelle,with the consideration of speed friction torque,via analyses and application of the emulator torque mode and speed mode in the reaction wheel control mode about the azimuth control of nacelle system.
为了提高反作用飞轮控制方式的吊篮方位控制的灵敏度和控制精度,考虑飞轮摩擦力矩的情况下,对反作用飞轮控制方式的力矩模式和速率模式进行理论分析与实际应用比较,选取了高空气球吊篮方位控制的反作用飞轮控制的速率模式。
3.
A full digital control system with PC/104 in nacelle decoupling mechanism is introduced.
介绍用PC/104实现高空气球吊篮反捻机构的全数字控制系统。
补充资料:乘篮
1.乘坐竹轿。篮,篮舆。
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