摘要
针对现在真空热转印工艺中存在的加工速度慢、效果差等问题,在充分调研现有热转印技术的基础上,结合现代先进的智能加工技术,提出了连续回转式输送装置、双面同步热转印装置及连续抽真空装置三位一体的综合解决方案。通过优化设计,可达到提高生产率、改善生产环境、提升产品生产质量的效果。该设计还能适应各种形状零件的热转印加工,适应性强、应用广泛,为真空热成型领域提出了一个新的设计方向。
In view of the problems of slow processing speed and poor effect in the vacuum heat transfer printing process, based on the full investigation of the existing heat transfer printing technology, combined with the modern advanced intelligent processing technology, a comprehensive solution of the trinity of continuous rotary conveying device, double-sided synchronous heat transfer device and continuous vacuum pumping device was proposed. By optimizing the design, the productivity, production environment and product quality can be improved. The design can also adapt to the heat transfer processing of various shapes of parts. It has strong adaptability and wide application. It puts forward a new design direction for the field of vacuum thermoforming.
作者
梁健
LIANG Jian(Guangdong Polytechnic of Water Resources and Electric Engineering,Guangzhou 510635,China)
出处
《机电工程技术》
2020年第4期129-130,164,共3页
Mechanical & Electrical Engineering Technology
基金
广东水利电力职业技术学院“一流高职”教师自然科学科研创新项目类立项项目(编号:cy060402z06)。
关键词
真空热转印
连续回转式输送
双面同步热转印
先导排气
连续抽真空
vacuum thermal transfer printing
continuous rotary transmission
double-sided synchronous thermal transfer printing
pilot exhaust
continuous vacuum pumping
