设计简介 |
设计描述:
文档包括:
WORD版设计说明书1份,共40页,约17000字
外文翻译一份
任务书一份
CAD版本图纸,共8张
摘 要
快速成形是制造领域中倍受瞩目的一种新工艺,它以其优良的产品品质、低廉的制造成本,以及加速产品进入市场等特色,日益成为成功制造厂商的竞争优势。由此,本论文针对LOM快速成型机的机械传动系统结构进行了设计,包括:1、XY扫描机构;2、Z 轴升降机构,其中主要包括滚珠丝杠、导轨、联轴器和电机的选型与计算。且对其中的部分结构进行了改进,使所设计的系统操作简单、方便,功能较完善,成型精度较高。
整个设计通过对这些传动机构的分析与计算数据,并通过查阅机械设计手册以及自己从图书馆借的各种零件选择手册,选出对整个传动系统设计最合理最简单最优化的传动机构的型号,并通过CAD制图绘出整个传动装置的装配图和各部分零件的图纸,通过计算得出这些数据,使我能够准确的设计出符合要求,符合规范的传动机构。
关键词:快速成型机, 传动机构, 快速成型, 结构设计
Abstract
Rapid prototyping is a new kind of high-profile in the area of manufacturing technology, with its excellent product quality, lower production costs, and accelerate the product into the market characteristic, has become a successful manufacturer's competitive advantage. Thus, this thesis aimed at LOM rapid prototyping machines of mechanical drive system structure design, including: 1, XY scanning mechanism; 2, Z axis, lifting mechanism, which mainly include the ball screw, guide rail, the selection and calculation of coupling and motor. And on the part of the structure is improved, make the design of the system operation is simple, convenient, function is relatively perfect, forming precision is higher.
The entire design through the analysis of the transmission mechanism and the calculation data, and by looking at mechanical design manual, as well as from various parts of the library to choose manual, choose the simplest optimization design the most reasonable for the whole transmission system of the transmission mechanism of the model, and through the autocad draw in all parts of the gear assembly drawing and parts drawing, calculated through these data, so that I can accurate design meets the requirements of the transmission system of the conform to the specification.
Key words: rapid prototyping machines, transmission mechanism, rapid prototyping, the structure design
目 录
1. 绪 论 1
1.1 概述 1
1.2 快速成形的原理 1
1.3 快速成形的特性 2
1.4 快速成形的历史和发展 3
2. 总体方案 5
2.1机械结构传动传动装置设计 5
2.2 电机的选型 6
3. LOM型快速成型机传动系统设计 7
3.1概述 7
3.2 传动系统的机械零件设计和计算 10
3.2.1 X-Y向滚珠丝杠的选择 10
3.2.2 伺服电机的选择 15
3.2.3 Y向滚珠丝杠的选择 18
3.2.4 伺服电机的选择: 21
3.2.5 联轴器的选择 21
3.2.6 运动导轨的设计 23
3.3可升降工作台的实际和计算 24
3.3.1 Z向滚珠丝杠及伺服电机的选择 24
3.3.2 Z向运动导轨的设计 29
4. 快速成形的效益和应用 35
结 论 37
致 谢 38
主要参考文献 39
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