Analysis of the Characteristics of the Rotary Impact Drilling Tool with an Elastic Element Accumulator
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摘要: 为了解决常见旋冲钻井工具冲击力小、冲击频率不稳定的问题,设计研制了弹性蓄能激发式旋冲钻井工具,将弹性蓄能元件与凸轮机构结合,利用螺杆马达带动齿形冲击振套碰撞产生冲击载荷。基于冲击动力学理论建立了该工具冲击参数计算模型,利用钻井泵和高速力值采集系统开展了工具样机冲击特性测试研究。试验结果表明,该工具冲击载荷曲线形态接近于简谐曲线,冲击载荷峰值为18~43 kN,冲击载荷随弹性元件压缩量增大而增大;冲击频率为25.7~37.2 Hz,可以由钻井泵流量调节。根据力学分析和试验结果,该工具冲击频率为螺杆马达转速与冲锤齿数的乘积,且与钻井液排量成正比;冲击载荷与弹性元件压缩量呈幂函数增加关系,与齿面变形系数呈幂函数增加关系;冲击作用时间与冲锤质量呈幂函数增加关系,与齿面变形系数呈幂函数减小关系。弹性蓄能激发式旋冲钻井工具的研制和特性分析,为旋冲钻井技术的发展提供了一种新的设计方法和技术思路。Abstract: Conventional impact drilling tools can be characterized by low impact forces and instability in impact frequencies.To overcome these shortcomings,an innovative rotary impact drilling tool with an elastic element and cam structure has been developed.With the PDM drives,a hammer rotates and collides with the teeth of the anvil to generate impact load.Based on the dynamics of impact,a numerical model for the tool’s impact process was built.In addition,impact load of the innovative tool powered by mud pump was tested by using drilling pumps and a high speed stress acquisition system.Results showed that the impact load curves were close to harmonic curve at the peak impact force 18-43 kN,and that impact loads would increase with the increase of compression volumes of the elastic elements.This tool’s impact frequency was 25.7-37.2 Hz,and could be adjusted from flow rates of mud pump.Dynamic analysis and experimental results showed that the frequency was the product of the rotary rate of screw drill times the number of the teeth,which was proportional to the flow rates of drilling fluids.The impact load could be adjusted from the preload of the elastic elements and it would increase with increase of the preload in a power function.The impact durations was in positive power function with hammer weight and in a negative power function with the deformation coefficients of the teeth.The development of the rotary impact drilling tool with an elastic element accumulator may provide innovative design techniques and technical solutions for the development of rotary and percussion drilling operations.
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Keywords:
- rotary impact /
- drilling tool /
- screw drill /
- impact force /
- numerical model /
- performance test
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[1] 王明华.新型钻井提速工具在龙岗气田软硬交替地层中的成功应用[J].天然气工业,2015,35(7):80-84. WANG Minghua.Application of novel speedup drilling tools in alternate layers of soft and hard rocks in the Longgang Gas Field,Sichuan Basin[J].Natural Gas Industry,2015,35(7):80-84. [2] 陶兴华.提高深井钻井速度的有效技术方法[J].石油钻采工艺,2001,23(5):4-8. TAO Xinghua.Effective measures for improving the penetration rate of deep well[J].Oil Drilling Production Technology,2001,23(5):4-8. [3] 李国华,鲍洪志,陶兴华.旋冲钻井参数对破岩效率的影响研究[J].石油钻探技术,2004,32(2):4-7. LI Guohua,BAO Hongzhi,TAO Xinghua.Effects of drilling conditions on crushing rocks while rotary percussion drilling[J].Petroleum Drilling Techniques,2004,32(2):4-7. [4] 刘天科.自激振荡式旋转冲击钻井工具在胜利油田的应用[J].石油钻采工艺,2012,34(4):54-56. LIU Tianke.Application of self-oscillating rotary percussion drilling tools in Shengli Oilfield[J].Oil Drilling Production Technology,2012,34(4):54-56. [5] 沈建中,贺庆,韦忠良,等.YSC-178型液动射流冲击器在旋冲钻井中的应用[J].石油机械,2011,39(6):52-54. SHEN Jianzhong,HE Qing,WEI Zhongliang,et al.The application of Model YSC-178 hydraulic jet hammer in rotary percussion drilling[J].China Petroleum Machinery,2011,39(6):52-54. [6] 秦晓庆,刘伟,李丽,等.旋冲钻井技术在川西硬地层的应用[J].断块油气田,2013,20(4):505-507. QIN Xiaoqing,LIU Wei,LI Li,et al.Application of rotary percussion drilling technology in hard formation of Western Sichuan[J].Fault-Block Oil Gas Field,2013,20(4):505-507. [7] 李玮,闫铁,张志超,等.高频振动钻具冲击下岩石响应机理及破岩试验分析[J].石油钻探技术,2013,41(6):25-28. LI Wei,YAN Tie,ZHANG Zhichao,et al.Rock response mechanism and rock breaking test analysis for impact of high frequency vibration drilling tool[J].Petroleum Drilling Techniques,2013,41(6):25-28. [8] 雷鹏,倪红坚,王瑞和,等.自激振荡式旋转冲击钻井工具水力元件性能分析与优化[J].振动与冲击,2014,33(19):175-180,198. LEI Peng,NI Hongjian,WANG Ruihe,et al.Performance analysis and optimization for hydraulic components of self-oscillating rotary impact drilling tool[J].Journal of Vibration and Shock,2014,33(19):175-180,198. [9] 王海涛,张伟,王国斌,等.自激振荡式冲击钻井工具在吉木萨尔地区的应用[J].断块油气田,2014,21(4):530-532. WANG Haitao,ZHANG Wei,WANG Guobin,et al.Application of self-oscillating impact drilling tool in Jimsar Area[J].Fault-Block Oil Gas Field,2014,21(4):530-532. [10] 菅志军,殷琨,蒋荣庆,等.增大液动射流式冲击器单次冲击功的试验研究[J].长春科技大学学报,2000,30(3):303-306. JIAN Zhijun,YIN Kun,JIANG Rongqing,et al.The research on increasing impacting energy of hydro-efflux hammer[J].Journal of Changchun University of Science and Technology,2000,30(3):303-306. [11] 苏义脑.螺杆钻具研究及应用[M].北京:石油工业出版社,2001:69-76. SU Yinao.Research and application of screw drill[M].Beijing:Petroleum Industry Press,2001:69-76. [12] 刘昌祺,刘庆立,蔡昌蔚.自动机械凸轮机构实用设计手册[M].北京:科学出版社,2013:45-52. LIU Changqi,LIU Qingli,CAI Changwei.Practical design manual for automatic mechanical cam mechanism[M].Beijing:Science Press,2013:45-52. [13] 玄令超,管志川,张会增,等.弹簧蓄能激发式旋转冲击钻井装置的研制[J].石油机械,2015,43(11):18-21. XUAN Lingchao,GUAN Zhichuan,ZHANG Huizeng,et al.Percussive-rotary drilling tool with spring accumulating collision[J].China Petroleum Machinery,2015,43(11):18-21. [14] 罗冠炜,谢建华.碰撞振动系统的周期运动与分叉[M].北京:科学出版社,2004:107-122. LUO Guanwei,XIE Jianhua.Periodic motions and bifurcations of the impact vibration system[M].Beijing:Science Press,2004:107-122. [15] 蔡灿,伍开松,廉栋,等.单齿冲击作用下破岩机制分析[J].岩土力学,2015,36(6):1659-1666,1675. CAI Can,WU Kaisong,LIAN Dong,et al.Study of rock-breaking mechanism under single-tooth impact[J].Rock and Soil Mechanics,2015,36(6):1659-1666,1675. -
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