Research of a Water Hydraulic Rotary Actuator

2021 6th International Conference on Control and Robotics Engineering (ICCRE) Pub Date : 2021-04-16 DOI:10.1109/ICCRE51898.2021.9435699

Yousheng Yang, Z. Cui, Hong-li Xue, Mohammed AL-Bedwi

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Abstract

In view of the difficulties in cleaning the bio-fouling on the surface of underwater marine engineering equipment, a systematic solution based on the advantages of water hydraulic technology—a water hydraulic rotary actuator (WHRA) —is proposed. Its composition and working principles are introduced. The system is composed of a DC motor, bidirectional water hydraulic pump, water hydraulic motor, relief valve, pilot check valve. By adjusting the speed and direction of the DC motor, the output flow of the hydraulic pump, the direction and the speed of the water hydraulic motor can be controlled. This paper addresses the effects of workload and DC motor rotation direction on WHRA. Simulations have been carried out to study input flow, inlet pressure, and output speed of the executive part of WHRA—water hydraulic motor—under different conditions. It is concluded from the results that the actuator has a good capacity of resisting disturbance and the actuator works well under normal conditions with the startup time is 0.3s, the steadystate error is 0.01 rpm. The research provides a fundamental basis for the development of high-performance water hydraulic rotary actuator.

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一种水液压回转驱动器的研究

针对水下海洋工程设备表面生物污垢清洗困难的问题，基于水液压技术的优势，提出了一种系统的解决方案——水液压旋转执行器(WHRA)。介绍了其组成和工作原理。该系统由直流电机、双向水液压泵、水液压马达、溢流阀、先导止回阀组成。通过调节直流电动机的速度和方向，可以控制液压泵的输出流量，水液压马达的方向和速度。本文研究了负载和直流电机旋转方向对WHRA的影响。对水液压马达执行部分在不同工况下的输入流量、进口压力和输出转速进行了仿真研究。结果表明，该驱动器具有良好的抗干扰能力，启动时间为0.3s，稳态误差为0.01 rpm，在正常工况下工作良好。该研究为开发高性能水液压回转作动器提供了基础依据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 6th International Conference on Control and Robotics Engineering (ICCRE)

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