关于开发动力屋顶支撑液压支柱支撑系统以提高工作安全性的研究与仿真。

IF 2.3 Q3 BIOCHEMICAL RESEARCH METHODS
Beata Borska, D. Szurgacz
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引用次数: 0

摘要

目前,地下采矿环境所采用的技术主要是在机器和设备控制系统中使用模拟传感器。在采矿系统中执行最重要功能的主要机器是动力顶板支架。为了使其正常工作,必须获得所需的功率。为确保这一点,有必要持续、精确地监控推进器活塞下空间的压力。由于环境条件极端恶劣,压力传感器应具有灵敏度高、传输容量大、体积小和重量轻等特点。为了达到这些要求,文章作者建议采用基于光子技术的监测系统。为实现这一目标,作者开展了多项研究。这些研究的范围包括模拟、工作台测试和真实条件下的测试。所获得的测试结果表明,有可能为动力屋顶支架开发出控制系统,该系统还具有增压功能。根据对所得测试结果的分析,为开发带有监控传感器的动力充电系统提出了假设。根据从研究成果中获得的指导方针,提出了基于光子技术开发上述原型的建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research and Simulation on the Development of a Hydraulic Prop Support System of Powered Roof Support to Increase Work Safety.
The underground mining environment is currently based on technology that uses mainly analogue sensors in machine and equipment control systems. The primary machine performing the most important functions in a mining system is the powered roof support. In order for it to work properly, it is important that it achieves the required power. To ensure this, it is necessary to continuously and precisely monitor the pressure in the under-piston space of the prop. Due to the extreme environmental conditions, pressure sensors should have high sensitivity, large transmission capacity, small size and light weight. To achieve these requirements, the authors of the article propose to implement a monitoring system based on photonics technology. To achieve this goal, several studies were carried out. The range of these studies included simulations, bench tests and tests under real conditions. The obtained test results showed the possibility of developing the control system for the powered roof support, the additional function to supercharge power. Based on the analysis of the obtained test results, assumptions were developed for the development of a power charging system with monitoring sensors. Based on the guidelines obtained from the research results, thedevelopment of the above prototype based on photonics technology is proposed.
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来源期刊
Methods and Protocols
Methods and Protocols Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (miscellaneous)
CiteScore
3.60
自引率
0.00%
发文量
85
审稿时长
8 weeks
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