录井工程 ›› 2023, Vol. 34 ›› Issue (1): 83-86.doi: 10.3969/j.issn.1672-9803.2023.01.013

• 装备 • 上一篇    下一篇

智能钻修机监测系统的设计与实现

任忠宏, 李特, 万康, 陈国涛, 田素合, 陈晓明   

  1. 中国石油渤海钻探第一录井公司
  • 收稿日期:2023-02-17 出版日期:2023-03-25 发布日期:2023-04-14
  • 作者简介:任忠宏 高级工程师,1973年生,1995年毕业于天津市大港油田石油学校,2009年毕业于中国石油大学(华东)资源勘查专业,现主要从事计量管理、产品质量控制、录井仪器技术支持工作。通信地址:300280 天津市滨海新区大港油田渤海钻探第一录井公司。电话:13622067366。E-mail:renzhhong@cnpc.com.cn

Design and implementation of an intelligent monitoring system of drilling and workover rig

REN Zhonghong, LI Te, WAN Kang, CHEN Guotao, TIAN Suhe, CHEN Xiaoming   

  1. No.1 Mud Logging Company, BHDC, CNPC, Tianjin 300280, China
  • Received:2023-02-17 Online:2023-03-25 Published:2023-04-14

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摘要: 当前钻修井施工作业过程中对监测更加重视,传统的人工记录方式受环境、人为等因素影响,不但存在安全隐患,而且费时费力,工作效率低。根据国内钻修机的使用情况及施工作业安全需求,设计了一种智能钻修机监测系统,采用无线模式进行数据采集,自然能量供电,前后方监测,可实现无人值守、自动报警,提高了施工作业安全性,为施工作业现场的人和物提供了保障。该系统现场安装免拆卸,采集参数精度符合标准要求并具溯源性及可传递性。现场应用表明,在钻修井施工作业过程中,该系统能够实时监测关键参数的变化,及时发现参数异常采取相应处理措施,从而保证钻修井施工作业快速、安全、高效、科学地进行。

关键词: 智能钻修机, 监测系统, 溯源性, 可传递性, 安全系数, 无人值守

Abstract: The traditional manual recording is affected by environmental and artificial factors, which not only has hidden safety dangers, but also takes time and effort, and the work efficiency is reduced, so more attention has been paid to monitor the process of drilling and workover. According to the domestic use of drilling and workover rig and to meet the safety requirements of construction operation, an intelligent monitoring system of drilling and workover rig is designed. The system collects data by means of wireless mode with natural energy power supply, front and rear monitoring, automatic alarm and unattended operation. All of these functions improve the security coefficient and provide a guarantee for people and things on the construction site. This monitoring system is free of disassembly, collects parameters that meet the standards and meanwhile have traceablility and transitivity. The field application shows that in the process of drilling and workover operation, the system can monitor the changes of key parameters in real time and take corresponding measures in time when they are abnormal, which can ensure the drilling and workover operation operated quickly, safely, efficiently and scientifically.

Key words: intelligent drilling and workover rig, monitoring system, traceablility, transitivity, security coefficient, unattended operation

中图分类号: 

  • TE132.1
[1] 李威,杨松,李伟. 我国车载钻修机的现状与发展趋势研究[J]. 中国科技纵横,2013(20):170.
LI Wei, YANG Song, LI Wei.Research on the present situation and development trend of vehicle-mounted drilling rigs in China[J]. China Science & Technology Overview,2013(20):170.
[2] 中国石油集团渤海钻探工程有限公司,中国石油天然气集团有限公司.一种用于钻井工程的三参数仪:CN202022933127.2[P].2021-10-22.
BHDC,CNPC. A three-parameter instrument for drilling engineering:CN202022933127.2[P].2021-10-22.
[3] 尹永晶,徐进庆. 国内外修井机现状与展望[J]. 石油机械,1996,24(增刊1):169-173.
YIN Yongjing, XU Jinqing.Present situation and prospect of workover rig at home and abroad[J].China Petroleum Machinery,1996,24(S1):169-173.
[4] 高淑萍,张伟.一种太阳能供电装置:CN206226356U[P].2017-06-06.
GAO Shuping, ZHANG Wei. A device for solar energy power supply:CN206226356U[P].2017-06-06.
[5] 门雅彬. 采用MAX487E的RS-232/422/485隔离转换器[J].电子元器件应用,2005,7(1):22-25.
MEN Yabin.Realization of RS-232/422/485 isolation converter using MAX487E[J].Electronic Component & Device Applications,2005,7(1):22-25.
[6] 吴志超,张世林,刘永泉,等.钻修机监测仪:CN206862404U[P].2018-01-09.
WU Zhichao, ZHANG Shilin, LIU Yongquan, et al. Drilling and workover rig monitor:CN206862404U[P].2018-01-09.
[7] 任忠宏,刘晓晨,张阳,等. 基于光电编码器技术的脉冲信号校准装置研制[J].录井工程,2018,29(4):70-73.
REN Zhonghong, LIU Xiaochen, ZHANG Yang, et al.Development of pulse signal calibration device based on photoelectric encoder technology[J].Mud Logging Engineering,2018,29(4):70-73.
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