Research on key technologies of coal mine roadway dust cleaning robot
-
摘要: 巷道冲尘机器人可有效解决煤矿巷道积尘问题,但目前尚未有相对成熟的产品能够实现“积尘自动监测−自主/半自主移动−自适应冲尘作业”。分析了国内外研发的轮轨式巷道冲尘装置、防爆洒水车、整车底盘外加液压机械臂的隧道冲尘车3种冲尘装备的研究现状,指出轮轨式巷道冲尘装置不含动力系统,巷壁积尘的冲尘效果受到限制;防爆洒水车自带动力,能够实现无轨长巷道全断面粉尘降尘,但喷水面较广,无法处理巷壁及管线等局部积尘严重区域;隧道冲尘车可解决长距离隧道积尘问题,但仍需人工驾驶及操作,且无法实现隧道积尘监测及自适应冲尘。通过上述分析,指出巷道冲尘机器人为了实现“积尘自动监测−自主/半自主移动−自适应冲尘作业”,需要从积尘监测、冲尘装置结构设计与控制、冲尘模式优化策略等方面进行研究。并指出上述研究面临的主要技术难题不仅包括防爆安全设计、井下精确定位、长距离无线通信等煤矿机器人共性难题,还包含积尘监测、自适应冲尘、车臂协同作业等巷道冲尘机器人特性难题。针对巷道冲尘机器人特性难题,提出了相应的关键技术:① 研发基于称重法、激光法、图像法相结合的多传感器融合的巷道积尘监测技术,实现煤矿巷道积尘长期监测及冲尘效果动态评估。② 开发基于防爆机械臂和“风−水−刷”联动冲尘装置的冲尘结构,实现自适应冲尘。③ 建立车辆底盘和机械臂的统一工作空间,研发基于力矩控制的巷道冲尘机器人小偏差自动补偿和柔性避障技术,实现动态场景下的巷道冲尘机器人的车臂协同。Abstract: Roadway dust cleaning robot can effectively solve the problem of coal mine roadway dust accumulation. However, there is no relatively mature product to achieve "automatic dust accumulation monitoring-autonomous/semi-autonomous movement-adaptive dust cleaning operation". This paper analyzes the research status of three kinds of dust cleaning equipment developed at home and abroad, which are wheel-rail type roadway dust cleaning device, explosion-proof sprinkler and tunnel dust cleaning vehicle with chassis and hydraulic mechanical arm. It is pointed out that the wheel-rail type roadway dust cleaning device does not contain power system. The dust-cleaning effect of roadway wall dust is limited. The explosion-proof sprinkler has its own power, which can realize full section dust reduction of the trackless long roadway. However, the jet water surface is wide, and it is unable to deal with local areas with serious dust accumulation such as roadway walls and pipelines. Tunnel dust cleaning vehicle can solve the problem of dust accumulation in long-distance tunnels. However, manual driving and operation are still required, and it is impossible to realize tunnel dust accumulation monitoring and adaptive dust cleaning. Based on the above analysis, it is pointed out that in order to realize "automatic dust accumulation monitoring-autonomous/semi-autonomous movement-adaptive dust cleaning operation", the research should be carried out from the aspects of dust accumulation monitoring, structure design and control of dust cleaning device, and optimization strategy of dust cleaning mode. It is pointed out that the main technical problems faced by the above research include the common problems of coal mine robots such as explosion-proof safety design, underground precise positioning, and long-distance wireless communication. The problems also include the characteristic problems of roadway dust cleaning robot such as dust monitoring, adaptive dust cleaning, and vehicle arm coordinative operation. In view of the characteristic problem of the roadway dust cleaning robot, this paper puts forward the corresponding key technologies. ① It is suggested to research and develop a multi-sensor fusion monitoring technology based on the weighing method, laser method and image method to realize long-term monitoring of dust cleaning in coal mine roadway and dynamic evaluation of dust cleaning effect. ② It is suggested to develop dust cleaning structure based on explosion-proof mechanical arm and "wind-water-brush" linkage dust cleaning device to realize adaptive dust cleaning. ③ It is suggested to establish a unified workspace for vehicle chassis and mechanical arm. It is suggested to develop small deviation automatic compensation and flexible obstacle avoidance technology for roadway dust cleaning robot based on torque control. The vehicle arm coordination of the roadway dust cleaning robot in the dynamic scene is realized.
-
图 5 基于图像法的煤矿积尘监测技术
Figure 5. Monitoring technology of coal mine dust based on image method
-
[1] 李德文,隋金君,刘国庆,等. 中国煤矿粉尘危害防治技术现状及发展方向[J]. 矿业安全与环保,2019,46(6):1-7,13.LI Dewen,SUI Jinjun,LIU Guoqing,et al. Technical status and development direction of coal mine dust hazard prevention and control technology in China[J]. Mining Safety & Environmental Protection,2019,46(6):1-7,13. [2] 应急管理部. 煤矿安全规程[M]. 北京: 煤炭工业出版社, 2022.Ministry of Emergency Management. Security rules for coal mine[M]. Beijing: China Coal Industry Publishing House, 2022. [3] 罗刚. 综掘面粉尘运移规律模拟研究[D]. 徐州: 中国矿业大学, 2017.LUO Gang. Simulation study on dust movement law of fully mechanized face[D]. Xuzhou: China University of Mining and Technology, 2017. [4] 程卫民,周刚,陈连军,等. 我国煤矿粉尘防治理论与技术20年研究进展及展望[J]. 煤炭科学技术,2020,48(2):1-20. doi: 10.13199/j.cnki.cst.2020.02.001CHENG Weimin,ZHOU Gang,CHEN Lianjun,et al. Research progress and prospect of dust control theory and technology in China's coal mines in the past 20 years[J]. Coal Science and Technology,2020,48(2):1-20. doi: 10.13199/j.cnki.cst.2020.02.001 [5] 国家煤矿安全监察局. 关于印发《煤矿机器人重点研发目录》的通知[EB/OL]. (2019-01-02)[2022-10-24]. http://www.gov.cn/zhengce/zhengceku/2019-11/01/content_5447395.htm.State Administration of Coal Mine Safety. Notice on printing and distributing the "Key Research and Development Catalog of Coal Mine Robots"[EB/OL]. (2019-01-02)[2022-10-24]. http://www.gov.cn/zhengce/zhengceku/2019-11/01/content_5447395.htm. [6] 谢俊生,魏伟,刘俊平,等. 煤矿井下巷道快速洒水冲尘装置的研制与应用[J]. 煤矿机械,2020,41(3):145-148.XIE Junsheng,WEI Wei,LIU Junping,et al. Development and application of quick water sprinkler and dust cleaning device in underground coal mine roadway[J]. Coal Mine Machinery,2020,41(3):145-148. [7] 李付海. 机械式矿用洒水冲尘车的研制[J]. 煤矿机械,2016,37(1):138-141.LI Fuhai. Development of mine pure mechanical type water rushed dust car[J]. Coal Mine Machinery,2016,37(1):138-141. [8] 郭玉印. 煤矿运输巷道粉尘治理技术应用[J]. 江西煤炭科技,2016(4):92-95.GUO Yuyin. Application of dust treatment technology in haulage drifts in collieries[J]. Jiangxi Coal Science & Technology,2016(4):92-95. [9] 徐日,宫兆波,吕纯涛. 大恒煤矿地面抑尘方法和设备的研究应用[J]. 采矿技术,2020,20(2):94-95,98.XU Ri,GONG Zhaobo,LYU Chuntao. Research and application of ground dust suppression methods and equipment in Daheng Coal Mine[J]. Mining Technology,2020,20(2):94-95,98. [10] 栾斌. 全断面防爆洒水车的改装与应用[J]. 陕西煤炭,2017,36(3):127-128,92. doi: 10.3969/j.issn.1671-749X.2017.03.037LUAN Bin. Modification and application of full cross-sectional explosion-proof sprinkler[J]. Shaanxi Coal,2017,36(3):127-128,92. doi: 10.3969/j.issn.1671-749X.2017.03.037 [11] 李雨潭,朱华. 煤矿救援机器人防爆创新设计探讨[J]. 煤炭技术,2018,37(2):269-271.LI Yutan,ZHU Hua. Discussion on explosion-proof innovative design of coal mine rescue robot[J]. Coal Technology,2018,37(2):269-271. [12] 陈伟. 煤矿井下精确定位系统研究[J]. 工矿自动化, 2019, 45(12): 86-90.CHEN Wei. Research on precise positioning system of coal mine underground[J]. Industry and Mine Automation. 2019, 45(12): 86-90. [13] 孙继平. 矿井宽带无线传输技术研究[J]. 工矿自动化,2013,39(2):1-5.SUN Jiping. Research of mine wireless broadband transmission technology[J]. Industry and Mine Automation,2013,39(2):1-5. [14] 葛世荣,胡而已,裴文良. 煤矿机器人体系及关键技术[J]. 煤炭学报,2020,45(1):455-463.GE Shirong,HU Eryi,PEI Wenliang. Classification system and key technology of coal mine robot[J]. Journal of China Coal Society,2020,45(1):455-463. -
下载:
点击查看大图
图(7)
计量
- 文章访问数: 659
- HTML全文浏览量: 57
- PDF下载量: 43
- 被引次数: 0
