Please wait a minute...
工程设计学报
工程设计学报  2021, Vol. 28 Issue (6): 746-757    DOI: 10.3785/j.issn.1006-754X.2021.00.093
建模、仿真、分析与决策     
黏滑振动下机械式自动垂直钻具稳定平台的控制性能研究
李然然1,2, 张凯1,2, 柴麟1,2, 张龙1,2, 刘宝林1,2, 李国民1,2
1.中国地质大学(北京) 工程技术学院, 北京 100083
2.自然资源部深部地质钻探技术重点实验室, 北京 100083
Research on control performance of mechanical automatic vertical drilling tool stabilization platform under stick-slip vibration
LI Ran-ran1,2, ZHANG Kai1,2, CHAI Lin1,2, ZHANG Long1,2, LIU Bao-lin1,2, LI Guo-min1,2
1.College of Engineering and Technology, China University of Geosciences (Beijing), Beijing 100083, China
2.Key Laboratory of Deep Geological Drilling Technology, Ministry of Land and Resources, Beijing 100083, China
 全文: PDF(6242 KB)   HTML
摘要: 机械式自动垂直钻具具有耐高温、成本低和适用范围广等优点,其在深部资源勘探领域有广阔的应用前景,但纯机械式结构导致其纠斜精度易受外界环境的干扰。为进一步提高机械式自动垂直钻具的纠斜精度,对不同强度黏滑振动下钻具稳定平台的控制性能进行研究。首先,通过构建钻具稳定平台控制性能的数学分析模型,得到影响稳定平台控制性能的因素。然后,利用ADAMS(automatic dynamic analysis of mechanical systems,机械系统动力学自动分析)软件建立黏滑振动下钻具稳定平台的多刚体动力学仿真模型,并对不同影响因素以及振动强度下稳定平台的控制精度和控制效率进行分析。最后,综合分析得到钻具稳定平台控制性能最优时各影响因素的推荐值。分析结果表明:PDC(polycrystalline diamond compact,聚晶金刚石复合片)半径对钻具稳定平台控制精度的影响最大,而填充物密度的影响极小;轻度和中度黏滑振动对钻具稳定平台控制效率的影响不大,重度黏滑振动可大幅提高控制效率,但黏滑振动强度对控制精度几乎没有影响。研究结果可为黏滑振动下机械式自动垂直钻具的优化设计提供参考。
Abstract: Mechanical automatic vertical drilling tools have the advantages of high temperature resistance, low cost and wide application range, and they have broad application prospects in the field of deep resource exploration. However, the pure mechanical structure causes their deviation correction accuracy to be easily disturbed by the external environment. In order to further improve the deviation correction accuracy of the mechanical automatic vertical drilling tool, the control performance of the drilling tool stabilization platform under different intensities of stick-slip vibration was studied. Firstly, through constructing a mathematical analysis model for the control performance of the drilling tool stabilization platform, the factors influencing the control performance of the stabilization platform were summarized. Then, the multi-rigid body dynamics simulation model of the drilling tool stabilization platform under the stick-slip vibration was established by using the ADAMS (automatic dynamic analysis of mechanical systems) software, and the control precision and control efficiency of the stabilization platform under different influencing factors and vibration intensities were analyzed. Finally, the recommended values of influencing factors when the control performance of the stabilization platform was optimal were obtained through the comprehensive analysis. The analysis results showed that the PDC (polycrystalline diamond compact) radius had the greatest influence on the control accuracy of the drilling tool stabilization platform, while the filling density had a minimal influence on that; the mild and moderate stick-slip vibration had a little effect on the control efficiency of the drilling tool stabilization platform, and the severe stick-slip vibration could greatly improve the control efficiency, but the stick-slip vibration intensity had almost no effect on the control accuracy. The research results can provide reference for the optimization design of mechanical automatic vertical drilling tools under the stick-slip vibration.
收稿日期: 2021-02-25 出版日期: 2021-12-28
CLC:  TH 113  
基金资助: 国家重点研发计划资助项目 (2018YFC0603405);战略性国际科技创新合作重点专项 (2016YFE0202200 )
通讯作者: 张 凯(1989—),男,山东菏泽人,实验师,博士,从事超硬材料在地质工程中的应用、岩石破碎机理与碎岩工具以及井下工具研发等研究,E-mail:zhangkai66@cugb.edu.cn     E-mail: zhangkai66@cugb.edu.cn
作者简介: 李然然(1997—),女,河北邯郸人,硕士生,从事井斜控制理论及自动垂直钻井技术研究,E-mail:18813055699@163.com,https://orcid.org/0000-0003-0360-9738;
服务  
把本文推荐给朋友
加入引用管理器
E-mail Alert
RSS
作者相关文章  

引用本文:

李然然, 张凯, 柴麟, 张龙, 刘宝林, 李国民. 黏滑振动下机械式自动垂直钻具稳定平台的控制性能研究[J]. 工程设计学报, 2021, 28(6): 746-757.

LI Ran-ran, ZHANG Kai, CHAI Lin, ZHANG Long, LIU Bao-lin, LI Guo-min. Research on control performance of mechanical automatic vertical drilling tool stabilization platform under stick-slip vibration. Chinese Journal of Engineering Design, 2021, 28(6): 746-757.

链接本文:

https://www.zjujournals.com/gcsjxb/CN/10.3785/j.issn.1006-754X.2021.00.093        https://www.zjujournals.com/gcsjxb/CN/Y2021/V28/I6/746

[1] 马维贞, 胡腾, 郑华林, 李湉. 主轴运行状态下机床刀尖点动力学行为分异特征辨识[J]. 工程设计学报, 2021, 28(6): 694-700.
[2] 魏建宝, 李松梅, 徐雨田. 三叉式-球笼式双联万向联轴器的扭转振动特性分析[J]. 工程设计学报, 2021, 28(4): 458-465.
[3] 白杨溪, 陈洪月, 陈洪岩, 王鑫, 李建刚. 基于滚筒载荷的采煤机滑靴振动分析及实验验证[J]. 工程设计学报, 2021, 28(3): 358-366.
[4] 王昕煜, 平雪良. 基于多传感器融合信息的移动机器人速度控制方法[J]. 工程设计学报, 2021, 28(1): 63-71.
[5] 李琴, 陈言, 黄志强, 高兆鑫, 陈振, 敬爽, 付春丽. 极端海况下FPSO模块支墩的动态力学分析与试验研究[J]. 工程设计学报, 2020, 27(6): 698-706.
[6] 白杨溪, 陈洪月, 陈洪岩, 王鑫. 多约束条件下采煤机摇臂横向振动分析及试验验证[J]. 工程设计学报, 2020, 27(6): 707-712.
[7] 苏芳, 罗茹楠, 刘艳明, 王晨升. 双轴联动进给系统多目标优化设计与研究[J]. 工程设计学报, 2020, 27(4): 456-462.
[8] 江漪, 彭飞, 卢屹东, 张瑞龙. 新型平置电动防护门设计和仿真分析[J]. 工程设计学报, 2019, 26(5): 513-519.
[9] 王艾伦, 刘乐, 刘庆亚. 基于Kriging代理模型的拉杆组合转子强度可靠性研究[J]. 工程设计学报, 2019, 26(4): 433-440.
[10] 宋建虎. 某高轨星载数传天线的振动分析[J]. 工程设计学报, 2019, 26(3): 274-279.
[11] 唐东林, 李茂扬, 丁超, 魏子兵, 胡琳, 袁波. 轮式爬壁机器人转向稳定性研究[J]. 工程设计学报, 2019, 26(2): 153-161.
[12] 胡振娴, 顾亮, 王国丽. 减震器橡胶连接件的动态特性实验研究以及参数识别[J]. 工程设计学报, 2009, 16(6): 427-431.
[13] 张勇, 孙宁, 曹国华. 单轴气浮台低速自由转动规律分析[J]. 工程设计学报, 2009, 16(6): 436-439.