钻井平台中部钻杆输送机上输方案与机构研究
发布时间:2019-05-21 18:41
【摘要】:针对国内外陆地钻井平台周边大功耗的输送方式,提出一种新型、高效便捷的提推式平台中部钻杆输送方案,主要对新方案中的上输钻杆机构进行研究。以ZJ70DB钻机为例,首先运用SolidWorks建立平台中部钻杆输送机的设备模型,通过MATLAB计算并验证上输机构中提升装置与推送装置的速度关系,确立提升与推送的动力输送方案;其次在ADAMS中模拟上输机构钻杆输送过程,并对提升装置和推送装置进行受力分析,根据分析结果优化上输机构中竖直猫道的倾角,解决钻杆输送过程中由惯性力引起的冲击振动问题。
[Abstract]:Aiming at the high power consumption transportation mode around the land drilling platform at home and abroad, a new type of high efficiency and convenient middle drill pipe transportation scheme is proposed, and the upper drilling pipe mechanism in the new scheme is mainly studied. Taking ZJ70DB drilling rig as an example, the equipment model of drill pipe conveyor in the middle of the platform is established by using SolidWorks. The speed relationship between lifting device and push device in the upper transmission mechanism is calculated and verified by MATLAB, and the power transportation scheme of lifting and pushing is established. Secondly, the drill pipe transportation process of the upper transmission mechanism is simulated in ADAMS, and the force analysis of the lifting device and the push device is carried out. According to the analysis results, the inclination angle of the vertical cat in the upper transmission mechanism is optimized. Solve the problem of impact vibration caused by inertia force in the process of drill pipe transportation.
【作者单位】: 常州大学机械工程学院;江苏如石机械有限公司;
【基金】:2015年江苏省企业创新与成果转化资金(BA2015128)
【分类号】:TE92
,
本文编号:2482309
[Abstract]:Aiming at the high power consumption transportation mode around the land drilling platform at home and abroad, a new type of high efficiency and convenient middle drill pipe transportation scheme is proposed, and the upper drilling pipe mechanism in the new scheme is mainly studied. Taking ZJ70DB drilling rig as an example, the equipment model of drill pipe conveyor in the middle of the platform is established by using SolidWorks. The speed relationship between lifting device and push device in the upper transmission mechanism is calculated and verified by MATLAB, and the power transportation scheme of lifting and pushing is established. Secondly, the drill pipe transportation process of the upper transmission mechanism is simulated in ADAMS, and the force analysis of the lifting device and the push device is carried out. According to the analysis results, the inclination angle of the vertical cat in the upper transmission mechanism is optimized. Solve the problem of impact vibration caused by inertia force in the process of drill pipe transportation.
【作者单位】: 常州大学机械工程学院;江苏如石机械有限公司;
【基金】:2015年江苏省企业创新与成果转化资金(BA2015128)
【分类号】:TE92
,
本文编号:2482309
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