在给定的参数的情况下进行了总体的方案设计，确定了电动机的功率、减速机的传动比、驱动轮的直径，分别计算出上、下坡时钢丝绳各点的张力，从而确定了重锤的拉力和张紧装置的拉紧行程，保证稳定的运行速度，同时对机架的安装进行了设计，对制动器、联轴器、抱索器和钢丝绳进行了选型，并对驱动装置输出轴进行了选型并校核。

Abstract
This reference to conventional design methods under the belt, based on analysis of the common drive mode and braking mode, make the device available to drive and brake means; analysis of various components and selection methods are summarized the 毕业论文http://www.lwfree.cn/calculation, the proper tension to determine location, size of tensioning means and tension means; on the drive devices and all major components of the selection and calibration.In this paper, given the parameters in the conduct of the overall program design to determine the motor's power, speed reducer transmission ratio, driving wheel diameter, were calculated, the downhill points of tension when the wire rope to determine the heavy hammer and the tensioning device pull taut trip, to ensure a stable speed, while the installation of the rack has been designed on the brakes, couplings, and wire rope grip selection carried out, and drive output shaft to the selection and calibration.
Mine layout Ropeway complex working conditions should be considered in the design of various factors, the most dangerous working conditions and calculate the parameters of aerial devices, ensure that the various components during operation to adapt to changes in load and operating conditions.
The paper on the given parameters, taking various factors, using reasonable driving programs, Brake and Electronic Control system device combination, effectively guaranteed by aerial cableway and reliable operation of one device.
Key words: Mine Ropeway  Rope-supporting wheel   rear wheel   driving wheel tensioning device

2.1 矿用架空索道的定义 2
2.2 矿用架空索道工作原理及系统 2
2.3 矿用架空索道结构组成 4
2.3.1 驱动装置 4
2.3.2 托轮装置 5
2.3.3 乘人装置 5
2.3.4 尾轮和张紧装置 6
2.3.5 电气保护装置 6
2.4 矿用架空索道分类及说明 10
2.5 矿用架空索道选型原则 11
2.6 矿用架空索道现状及发展前景 12

3.1 架空乘人装置计算说明 14
3.2 电动机功率的计算与选择 17
3.3 制动器的选择 21
3.4  减速机的选用 24
3.5  联轴器的选择 25
3.6  驱动轮的设计 27
3.7  牵引钢丝绳的选用 29
3.8  乘人装置的设计 31
3.9   托绳装置的设计 33
3.10  尾轮及张紧装置的设计 34

4.1 驱动轮轴的计算校核 39
4.2  尾轮轴的计算校核 43

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