编号
南京航空航天大学
学生姓名 | | 夹网布
学 号 | |
学 院 | 机电学院 |
专 业 | 机械工程 |
班 级 | 0515105 |
指导教师 | |
企业导师 | |
| |
二〇一八年六月
南京航空航天大学
本科毕业设计(论文)诚信承诺书
水培鱼缸
棒球棍材料本人郑重声明:所呈交的毕业设计(论文)(题目:陶瓷面投影光固化三维打印机的设计)是本人在导师的指导下独立进行研究所取得的成果。尽本人所知,除了毕业设计(论文)中特别加以标注引用的内容外,本毕业设计(论文)不包含任何其他个人或集体已经发表或撰写的成果作品。
作者签名: 年 月 日
(学号):
陶瓷面投影光固化三维打印机的设计
摘 要
陶瓷材料具有硬度高、熔点高、耐磨性好、耐腐蚀等优异性能,在制造业中应用广泛,不可或缺。在加工高精度、高定制化的陶瓷零件时,传统的陶瓷制造技术生产周期长,加工复杂,精度难以保证,限制了陶瓷材料在一些高端领域的应用。针对此种现状,提出了一种陶瓷下投影光固化三维打印机的机械结构设计方案。本课题所设计的DLP光固化陶瓷打印机的最大成型尺寸为120×120×300mm(长×宽×高),打印层厚最小为0.02mm,具有打印精度高、效率好、成本低、周期短等优点。本文完成的内容如下:
(1)刮刀刮平装置的设计。同步带驱动刮刀,在水平面直线运动实现浆料的刮平。 (2)丝杆滑台升降打印装置的设计。电机带动连接在丝杆滑台上的打印基板实现升降运动。
(3)倾斜脱模装置的设计。每层固化后,倾斜脱模装置带动底板旋转一个角度,使打印基板与成型液槽间固化部分完成脱模。
关键词:网络电视直播系统3D打印,数字光处理(DLP),下投影,陶瓷增材制造
切筋
Design of Ceramic Surface Projection UV-curing
3d Printer
Abstract
Ceramic materials with high hardness, high melting point, good wear resistance, corrosion resistance and other excellent properties, are widely used in the manufacturing industry, indispensable. In the processing of high-precision and high-customized ceramic parts, the traditional ceramic manufacturing technology has a long production cycle, complex processing and difficulty in ensuring the precision, which limits the application of ceramic materials in some high-end fields. In consideration of this situation, the paper proposes a ceramic down-setting projection UV-curing mechanical structure design scheme of 3d printers. The maximum molding size of the DLP UV-curing ceramic printer designed in this project is 120×120×300mm(length×width×height), and the minimum printing layer thickness is 0.02mm, which has the advantages of high printing accuracy, good efficiency, low cost and short cycle.What the paper deals with are as follows.
(1) Design of scraper device. The synchronous belt drives the scraper to realize the paste scraping in the horizontal plane.
(2) Design of lifting and printing device of screw slide table. The motor drives the printing substrate connected to the screw slide table to realize lifting motion.
(3) Design of inclined stripper. After each layer is cured, the inclined demoulding device drives the bottom plate to rotate an Angle, so that the solidified part between the printing platform and the forming liquid tank can complete the demoulding.
Key Words:3D printing; Digital Light Processing (DLP); down-setting projection; ceramic additive manufacturing
摘 要 ⅰ
Abstract ⅱ
第一章 引 言 1
1.1 研究背景及意义 1
1.1.1 DLP数字光投影技术概述 1
1.1.2 研究背景 2
1.1.3 研究意义 3
1.2 研究现状 4
1.3 主要研究内容 4
1.4 光源的选择 5
第二章 打印机总体方案设计 6
2.1 打印机需实现的功能及要求 6
边缘融合机2.2 打印机总体方案与结构设计 6
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