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道路地下打孔机

本文ID:LW3227 字数:34176.页数:85

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道路地下打孔机

论文编号:JX288 所有图纸,外文翻译。论文字数:34176.页数:85

道路地下打孔机.png道路地下打孔机装配图.png

道路地下打孔机.png道路地下打孔机装配图.png

摘    要

      道路地下打孔机是用于地下钻孔的机器。它广泛用于地质侦探、矿产侦探、水文水井钻凿、工程建筑的基础施工、矿山开采及其他各种用途的钻探生产中。目前,打孔机已发展成为品种众多、门类较齐全的专业机械。
  设计钻机时,首先应以保证设计的打孔机能高效、优质、安全、低耗完成打孔为前提,使设计的钻机技术先进、经济合理,具有良好的经济技术指标。
  本次设计的打孔机,是针对于小规模的打孔。综合考虑了所有相关问题,设计的一款地下打孔机。本文从理论到实践对水平定向道路地下打孔机设技技术及方法进行了系统的分析和研究,特点是针对当前的定向钻进施工过程中在应用方面存在的
问题进行了较深入的分析,从工程实施的角度出发,着重论述了如何提高定向钻
机在地下管线铺设中的安全性和施工质量,即采用钻机铺设地下管线应以前期的
资料收集、地层分析及地下管网探测为前提和基础,以定向轨迹的设计和计算为理论依据。
  定向钻孔的施工是关键,个组件满足使用条件是重要保证。

关键词:打孔机、钻头、钻杆
 

ABSTRACT


   Road underground drilling machine is used for underground drilling machines. It is widely used geological detective, Detective mineral, water well drilling, construction of the foundation construction, mining and other purposes, drilling production. At present, the drilling machine has developed into many species, the professional classes more complete machinery.
  Design rig, the first should be to ensure that the design of the drilling mechanism efficient, high quality, safe, low completion of drilling as the prerequisite to the design of the rig technologically advanced, economically rational, has a good economic and technical indicators.
  The design of the drilling machine, is to address small-scale drilling. Comprehensive considered all the relevant issues, a design of the underground drilling machines. This article from theory to practice on the ground floor level of road directional drilling technology and technology-based methods for the analysis and research system, characterized by a view of the current construction of directional drilling in the process of the application Issue a more in-depth analysis, from the perspective of the project, focused on how to improve the Directional Drilling Machine in the laying of underground pipeline in the safety and construction quality, that is used to rig the laying of underground pipeline to the pre -Data collection, analysis and formation detect underground pipe network as the prerequisite and basis for directional path to the design and theoretical basis for the calculation.
   Directional drilling the construction is the key, component meet the conditions of use is an important guarantee
Key words: drilling machine, drill, drill pipe


目    录
一、绪论 ...................................................................2
1.1打孔机简介与种类 ........................................................2
1.2打孔机得发展情况 ........................................................4
1.3.研究得背景与意义 .......................................................4
二、总体设计方案确定及动力元件选择......................................... 6
2.1总体设计的要求 ..........................................................6
2.2机型与传动形式得选择 ....................................................6
2.2.1机型得选择 ............................................................6
2.2.2传动形式的选择........................................................ 7
2.3打孔机的整体布局 ........................................................7
2.3.1打孔机得总体布局...................................................... 7
2.3.2打孔机的驱动和动力输入方式............................................ 7
2.3.3打孔机整体参数确定.................................................... 8
2.4钻机的功能单元及实现方法................................................ 11
2.4.1钻具 ..................................................................11
2.4.2回转机构 ..............................................................11
2.5电动机的选型 ............................................................12
三、减速装置设计 ...........................................................13
3.1传动比确定及各级传动比分配.............................................. 13
3.2运动参数及动力参数计算 ..................................................14
3.2.1计算各轴转速.......................................................... 14
3.2.2计算各轴的功率........................................................ 14
3.2.2计算各轴的功率 ........................................................15
3.3齿轮传动的设计计算...................................................... 15
3.3.1第一级齿轮传动副的设计计算............................................ 15
3.3.2第二级齿轮传动副的设计计算............................................ 18
3.3.3三级齿轮传动副的设计计算.............................................. 22
3.4传动轴的设计............................................................ 25
3.4.1第一传动轴的设计及计算................................................ 25
3.4.2第二轴的结构设计及计算................................................ 29
3.4.3三轴的结构设计及计算 ..................................................35
3.5减器箱体结构尺寸........................................................ 39
3.5.1结构尺寸.............................................................. 39
3.5.2油标 ..................................................................41
3.5.3通气罩................................................................ 41
3.5.4.螺塞................................................................. 42
四、链传动设计............................................................. 42
4.1链传动的特点 ............................................................42
4.2链的类型 ................................................................43
4.3链传动选择 ..............................................................44
五、支架的设计 .............................................................50
5.1.机架设计准则 ...........................................................50
5.2.支架的效核............................................................. 51
5.3梁的效核 ................................................................53
5.4传动轮的设计............................................................ 53
六、钻杆钻头的设计......................................................... 54
6.1钻杆在扩孔时的作用 ......................................................55
6.2扩孔器 ..................................................................55
6.3转速的确定........................................................ ......56
6.4钻进液量的确定 ..........................................................56
6.5管线回拖工艺............................................................ 57
6.6导向钻进................................................................ 58
6.6.3泥浆的蓦本性能 ........................................................60
6.6.4泥浆处理剂 ............................................................61
6.7冲击回转钻进原理........................................................ 61
七、钻头的设计............................................................. 66
7.1吹洗孔和排粉槽 ..........................................................67
7.2钻头体硬度 ..............................................................68
7.3钻头布齿................................................................ 68
7.4扩孔钻头 ................................................................70
7.5力学模型中的几个简化处理量.............................................. 72
7.6模型建立 ................................................................72
7.7小结.................................................................... 76
八、底座的设计............................................................. 77
结束语..................................................................... 79
参考文献 ...................................................................79
翻译部分 ...................................................................80
英文原文........................................................ ...........80
中文译文................................................................... 86
致谢 .......................................................................89


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