Design of Control System for Hydraulic Lifting Platform with Jack-Up Wind-Power Installation Vessel

机译：带升降风电安装船舶液压升降平台控制系统的设计

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Jack-up wind-power installation vessel is the most important tool in construction of wind farm. And the control system for hydraulic lifting platform is the key point of jack-up wind-power installation vessel. Therefore the design of the control system for hydraulic lifting platform with jack-up wind-power installation vessel is a basic and formidable problem. This article provides an integrated solution to the design of control system. Firstly, on the base of actual working condition, we introduce the control principle and basic requirements of the hydraulic lifting platform, such as the structure of leg, vessel gradient, alarm, calibration. Secondly we introduce the design solution of PLC (Programmable Logic Controller) control system, which includes the design solution of hardware as well as software for the hydraulic control system. In this part, we introduce the basic components and main function of hydraulic control system, hardware scheme, software design project. Then we introduce a good human-machine interface. Finally we do the work of program design according to the process of lifting unit. By using wince-flexible and PLCSIM, we can layout the control module well and realize the man-machine interaction. At last, we can obtain a viable hydraulic control system and verify feasibility of the hydraulic control system by simulation software. At the same time, we obtain the working parameters of the lifting unit from the simulation.

机译：升降风电安装船是风电场建设中最重要的工具。液压升降平台的控制系统是升降风电安装容器的关键点。因此，具有升降风电安装容器的液压升降平台控制系统的设计是一种基本和强大的问题。本文为控制系统设计提供了集成的解决方案。首先，在实际工作条件的基础上，我们介绍了液压升降平台的控制原理和基本要求，如腿部结构，血管梯度，报警，校准。其次，我们介绍了PLC（可编程逻辑控制器）控制系统的设计解决方案，包括硬件的设计解决方案以及液压控制系统的软件。在这方面，我们介绍了液压控制系统，硬件方案，软件设计项目的基本组件和主要功能。然后我们介绍一个良好的人机界面。最后，我们根据提升单元的过程进行程序设计的工作。通过使用WinCE-Flexible和PLCSIM，我们可以良好地布局控制模块并实现人机交互。最后，我们可以通过仿真软件获得可行的液压控制系统并验证液压控制系统的可行性。与此同时，我们从模拟中获得提升单元的工作参数。

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《Joint international conference on pervasive computing and the networked world》|2013年||共8页
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作者
Xuejin Yang; Dingfang Chen; Mingwang Dong; Taotao Li;
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正文语种
中图分类计算机网络;
关键词
hydraulic control; Programmable Logic Controller; wind-power; hydraulic lifting platform;

机译：液压控制;可编程逻辑控制器;风力;液压升降平台;

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1. Design and Advanced Control of Intelligent Large-Scale Hydraulic Synchronization Lifting Systems [J] . Lijing Dong, Mingfu Qiu, Sing Kiong Nguang Journal of control science and engineering . 2019,第PTa1期

机译：智能大规模液压同步提升系统的设计和先进控制
2. Design and Advanced Control of Intelligent Large-Scale Hydraulic Synchronization Lifting Systems [J] . Lijing Dong, Mingfu Qiu, Sing Kiong Nguang Journal of control science and engineering . 2019,第4期

机译：智能大规模液压同步提升系统的设计和先进控制
3. Optimal design of Stewart platforms based on expanding the control bandwidth while considering the hydraulic system design [J] . Wei WANG, Hua-yong YANG, Jun ZOU, Journal of Zhejiang University. Science, A . 2009,第1期

机译：基于液压系统设计的控制带宽在扩大控制带宽的基础上最优设计
4. Design of Control System for Hydraulic Lifting Platform with Jack-Up Wind-Power Installation Vessel [C] . Xuejin Yang, Dingfang Chen, Mingwang Dong, Joint international conference on pervasive computing and the networked world . 2013

机译：顶升风电安装船液压升降平台控制系统设计
5. A PLANNING METHODOLOGY FOR THE ANALYSIS AND DESIGN OF WIND-POWER SYSTEMS. [D] . DAMBOLENA, ISMAEL GERARDO -1

机译：风电系统分析和设计的一种规划方法。
6. Fractional-Order PID Control Strategy on Hydraulic-Loading System of Typical Electromechanical Platform [O] . Ning Wang, Jianmei Wang, Zhixiong Li, 2018

机译：典型机电平台液压加载系统的分数阶PID控制策略
7. Design and Advanced Control of Intelligent Large-Scale Hydraulic Synchronization Lifting Systems [O] . Lijing Dong, Mingfu Qiu, Sing Kiong Nguang 2019

机译：智能大规模液压同步提升系统的设计和先进控制

Design of Control System for Hydraulic Lifting Platform with Jack-Up Wind-Power Installation Vessel

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