检查锚机及绞车的各轴承间隙。
水手们用绞盘或起锚机把缆绳拉起来。
水手们用绞盘或起锚机把缆绳拉起来。
锚机和克令吊都查过没有?
锚机安装与校中检查。
锚机右舷机架折断了。
舵机(锚机、绞缆机)液压系统安全装置调整。
Adjusting safety device for hydraulic system of steering gear (windlass, mooring winch).
锚机已经可以用了。
利用以上技术开发了锚机液压集成块设计系统。
By using it, hydraulic manifold block design system of Marine anchor is successfully developed.
全锚链型:比较大的船有装起锚机的一般都会装整条的锚链。
All chain Rodes: Larger boats with windlasses generally use all chain rode.
如锚机、绞盘机及绞盘等,也可作操作不频繁的起货机的动力。
It also can be power supply for the loading winch which doesn't work frequently.
船舶抛锚过程中锚机刹车最小临界水深的准确计算一直是海船船长关注的问题。
It is difficult to calculate accurately the minimum water depth for anchor gear to be braked effectively in weight dropping mode by Newton classical mechanical law.
一台起锚机和锚链可能会在船艏增加300到600磅的重量,反而会影响船的性能。
A windlass and all-chain rode may add 300-600lb. in the bow and can adversely affect the performance of your boat.
在首部甲板上安装首楼甲板。锚机,系泊配件和锚链管、艏桅杆处等的甲板结构需要加强。
Forecastle deck shall be provided on forward deck. Deck structures in way of windlass, mooring fittings, hawser pipes, foremast etc. shall be reinforced.
为了充分利用电动机的潜在能力,建议以电动机的最大转矩乘以裕度系数来适应起锚机和舵机所需要的最大转矩。
In order to utilize full power of motor, the Authors propose to multiply the maximum torque of motor by a coefficient of safety to meet the corresponding maximum torque of windlass or steering gear.
船用齿轮传动装置,包括主推进器、离心机、甲板机械如绞盘、起锚机、起重机、旋转装置、泵、升降机及舵托等。
Marine gear transmission device, including the main thruster, centrifuge, deck machinery such as winch, sailed machine, crane, rotating device, pump, elevators and rudder ", etc."
本文通过实例计算,以规范为依据,对起锚机基座的安装强度计算作了较为详细的介绍,并提出了解决问题的基本方法。
It is provided with an example to introduce how to calculate the strength of windlass installation according to amendments consolidated by the Authority, and to put forward a basic solution.
通过对锚机功能、抛锚状态、抛锚速度及控制的分析,得出了合理适用的自由抛锚控制技术是具有软特性限速制动功能。
By analyzing the function of anchor gear, condition of anchor, speed of anchor and control, reasonable control technology of freedom anchor has soft characteristic speed limiting brake function.
分析了MLE250/500-M型掘锚机截割机构的液压系统,提出采用电液控制技术方案,从而达到快速掘进的目的。
Analyses hydraulic system of cutting unit of roadheader-ring MLE250/500-M and the electro-hydraulic control technology was adopted, it may obtain higher speed of roadheader-ring in mining face.
在此基础上,文章进一步说明了系泊锚机张力仿真试验台的实时数据采集、仿真过程控制和在线性能分析等功能的实现细节。
The details of real-time data acquisition, control of tension process simulation and online performance analysis of the simulative testing bench are further illustrated.
本文详细介绍了重叠式连续运输系统和掘锚机配套,在神东分公司进行巷道掘进的成功经验、工作面巷道布置以及掘进工艺。
The laneway dredging successful experience, collocation for working face laneway and dredging technics about the application of shendong are detailedly illustrated in this paper.
锚机液压集成块设计系统主要包括:数据库设计模块、数据输入与编辑模块、外形布局模块、孔道连通设计模块、孔道校核模块、虚拟设计模块。
Design on hydraulic manifold block of Marine anchor main including database design module, data entry and editing module, layout design module, integrate hole design module, virtual design module.
锚机液压集成块设计系统主要包括:数据库设计模块、数据输入与编辑模块、外形布局模块、孔道连通设计模块、孔道校核模块、虚拟设计模块。
Design on hydraulic manifold block of Marine anchor main including database design module, data entry and editing module, layout design module, integrate hole design module, virtual design module.
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