带式输送机调偏传动系统设计-机械毕业设计资料
I
摘 要
摘 要
带式输送机是一种连续动作式运输设备,因为其突出的性能,现在广泛应用于国
民经济的各个部门中。特别是对高产高效矿井,带式输送机已成为煤炭高效开采的关
键设备。目前,带式输送机正向长距离、大功率、大运量、大倾角的方向发展,以使其
在煤炭行业中得到更广泛的应用。
输送带跑偏是带式输送机常见的故障之一,对带偏问题的研究,对带式输送机自
动调偏系统优化设计,彻底规避带偏的影响,延长带的工作寿命,减少维护费用有较
大帮助。
本次设计的重点是传动系统的设计。所设计传动系统由轴承座,导轨,顶杆及
螺母,螺杆,联轴器,液压马达,位移传感器组成。根据参数计算对输送机零件进行
了选型设计,完成了调偏系统传动方案的设计。
关键词:调偏系统;参数计算:方案设计:
II
ABSTRACT
ABSTRACT
Belt conveyor is a continuous action transport equipment, with its superior
performance, ely used in various sectors of economy。Especially for high-yield and high-
efficiency mines, belt conveyors have become the key equipment of mechatronics
engineering technology for efficient coal mining.
At present, the belt conveyor is developing in the direction of long distance, large
power, large capacity and large inclination, so that it used in the coal industry. The belt of
the belt conveyor, through research and analysis of the belt deviation faults, the automatic
deviation adjustment system of the belt conveyor is optimized to avoid kinds of losses
caused by belt deviation, extend the life of the tape, reduce maintenance costs have a greater
help. The focus of this design is the transmission system design. The transmission system
consists of a motor, a generator, a clutch, a coupling and a transmission part. Considering
the limitation of underground space, the braking system and the driving system are designed
as a whole, sharing transmission mechanism to save space. At the same time, according to
the relevant parameters of the other parts of the conveyor selection design, complete the
whole conveyor design.
Keywords: deviation adjustment system, parameter calculation, scheme design
III
目 录
目 录
1 引言...................................................................................................................................1
1.1 题目背景及意义.......................................................................................................1
1.2 带式输送机自动调偏设计国内外研究现状...............................................................2
1.2.1 国外研究现状................................................................................................2
1.2.2 国内研究现状................................................................................................2
1.3 自动调偏设计的优势与应用前景.............................................................................3
1.4 研究方法..................................................................................................................3
2 带式输送机调偏方案.........................................................................................................5
2.1 现有的调整方案.......................................................................................................5
2.2 现有方案对比..........................................................................................................6
2.3 采用的调偏方案.......................................................................................................6
2.4 调偏方法..................................................................................................................7
2.5 小结.........................................................................................................................8
3 参数计算............................................................................................................................9
3.1 初步确定主要技术参数............................................................................................9
3.2 轴承的选用及计算...................................................................................................9
3.3 导轨的计算............................................................................................................10
3.4 顶杆计算................................................................................................................12
3.5 螺杆计算................................................................................................................12
3.6 联轴器的选择........................................................................................................13
3.7 液压马达的计算.....................................................................................................14
3.7.4 功率计算公式 :.................................................................................................14
3.8 位移传感器的计算.................................................................................................14
3.9 小结.......................................................................................................................14
4 建模.................................................................................................................................15
4.1 导轨的建模............................................................................................................15
4.2 轴承座建模............................................................................................................15
4.3 联轴器的建模........................................................................................................16
摘要:
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I摘要摘要带式输送机是一种连续动作式运输设备,因为其突出的性能,现在广泛应用于国民经济的各个部门中。特别是对高产高效矿井,带式输送机已成为煤炭高效开采的关键设备。目前,带式输送机正向长距离、大功率、大运量、大倾角的方向发展,以使其在煤炭行业中得到更广泛的应用。输送带跑偏是带式输送机常见的故障之一,对带偏问题的研究,对带式输送机自动调偏系统优化设计,彻底规避带偏的影响,延长带的工作寿命,减少维护费用有较大帮助。本次设计的重点是传动系统的设计。所设计传动系统由轴承座,导轨,顶杆及螺母,螺杆,联轴器,液压马达,位移传感器组成。根据参数计算对输送机零件进行了选型设计,完成了调偏系统传动方案的设计。关键...
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作者:闻远设计
分类:非标机械电气自动化
价格:45光币
属性:28 页
大小:1.15MB
格式:DOCX
时间:2024-08-21
