摘要
随着手机、平板电脑、智能穿戴等智能终端的大规模普及与快速更新换代,对精密外观结构件的需求也呈现出大批量、个性化、短周期的特点。但精密外观结构件的传统制造工艺流程在生产效率、灵活性与精确性等方面越来越难以满足市场需求。针对智能终端精密外观结构件的加工成型、外观检测、组装等制造环节,研发了核心智能化制造设备,搭建了多种柔性生产单元和自动化生产线。同时,将数字化加工技术、自动化数据采集与模式识别技术、信息技术与现代管理技术相结合,研究并构建了基于工艺特征的离散型智能制造工厂新型制造管理模式,并成功应用于某企业实际生产中,在该企业的实际生产中显著降低了运营成本,提高了生产效率、良品率与能源利用率,提升了企业的智能制造水平与竞争力。
With the large-scale popularization and rapid upgrading of smart terminals such as mobile phones,tablets and smart wearables,the demand for precision appearance structural parts also presents the characteristics of mass,personalization and short cycle.However,the traditional manufacturing process of precision appearance structural parts is more and more difficult to meet the market demand in terms of production efficiency,flexibility and accuracy.Therefore,aiming at the manufacturing links such as processing,forming,appearance inspection and assembly of precision appearance structural parts of intelligent terminal,a core intelligent manufacturing equipment was developed,a variety of flexible production units and automatic production lines was built,and digital processing technology,automatic data acquisition and pattern recognition technology,information technology and modern management technology were combined.A new manufacturing management mode of discrete intelligent manufacturing factory based on process characteristics was studied and constructed,and successfully applied to the actual production of an enterprise.In the actual production of the enterprise,the operation cost is significantly reduced,the production efficiency,yield and energy utilization are improved,and the intelligent manufacturing level and competitiveness of the enterprise are improved.
作者
罗卫强
唐斌
陈勇军
Luo Weiqiang;Tang Bin;Chen Yongjun(Guangdong Everwin Precision Technology Co.,Ltd.,Dongguan,Guangdong 523808,China)
出处
《机电工程技术》
2022年第9期142-146,共5页
Mechanical & Electrical Engineering Technology
基金
国家工信部2017年智能制造综合标准化与新模式应用项目(编号:TRT-20170418-01)。
关键词
智能终端
精密外观结构件
离散型智能制造
柔性生产
intelligent terminal
precision appearance structural parts
discrete intelligent manufacturing
flexible production
