基于松下触摸屏GT32的数控打孔机人机界面设计

基于松下触摸屏GT32的数控打孔机人机界面设计

论文编号:ZD1040 论文字数:11114,页数:30

摘要
VFD产品有广泛的应用，在生产过程中有一道工序需要对产品进行精确定位并打孔，打孔的精度直接关系到VFD产品的质量。而实现这个功能的设备市场上少见，所以，本课题以松下PLC来构成打孔控制系统，用松下触摸屏作为人机界面的数控打孔设计。
本系统以松下PLC为控制器，松下触摸屏GT32作为人机界面，采用伺服驱动技术、变频器无级调速技术对伺服系统与变频器进行控制。文中对数控打孔机的软硬件结构设计进行了介绍，并从数控打孔机的功能入手，介绍了数控打孔机的各道工序，给出了具体的实现过程与实现步骤，进行一系列的调试。
系统运行情况证明该系统能保证数控打孔机工艺的一致性与稳定性，提高了产品质量；而且系统的硬件、软件成本低；而且本系统人机界面简洁易操作，抗干扰性强，便于操作。
关键词：数控打孔机、人机界面、PLC、触摸屏

Abstract
VFD products are widely used in the production process there is a process necessary for precise positioning of the product and punching, punching accuracy is directly related to VFD product quality. The functionality of the device to achieve this rare on the market, so this issue to Panasonic PLC to form the drilling control system, with a Panasonic touch screen as HMI for CNC punch design. The system controller, PLC, Panasonic, Panasonic GT32 as a touch screen interface, with servo drive technology, inverter variable speed technology for servo control system and inverter. CNC punching machine paper on the structure design of hardware and software were introduced, and from the function of the CNC punching machine, CNC drilling machines, introduced the procedure, given the specific implementation process and implementation steps, a series of debugging. System operation to prove that the system can guarantee the consistency of numerical control drilling machine technology and stability, improved product quality; and the system hardware, software and low cost; but 本 System of Display Interface simple and easy to operate, interference is strong, easy to operation.

Keywords：CNC drilling machine、human-machine interface、PLC、touch screen

目录
摘要……………………………………………………………………………………...……………II
Abstract………………………………………….……………………………...……….Ⅲ
目录…………………………………………….……………………………………………...……..Ⅳ
1 绪论…………………………………………………………………………………………………1
   1.1 研究背景及意义……………………………………………………………………….1
   1.2 主要研究内容………………………………………………………………………….2
2 总体设计方案……………………………………………………………………………. . …….3
2.1 生产工艺要求及性能指标…………………………………………………...….……3
2.2 系统总体结构设计……………………………………………….………...............3
3 系统硬件设计……………………………………………………………………………. . …….5
3.1 人机界面.………………………………….………………………………………………...5
3.2 主控系统硬件……………………………………………………………………….8
    3.3 输入电路…………………………………………………………...……................…9
    3.4 输出电路…………………………………………………………………………...…10
3.5 伺服驱动系统硬件…………………………………………………………..………11
3.6 系统性能精度………………………………………………………………………..12
4 系统软件设计…………………………………………………………………………….14
4.1 系统开发环境………………………………………………………………………..14
4.2   设计原则………………………………………………………………………………....16
4.3 人机界面设计………………………………………………………………………..16
         4.3.1 登录界面……………………………….…………………………………..……….17

4.3.2 功能界面……………………………….…………………………………………..18
5 结论与展望…………………………………………….………………………………..…23
    5.1 论文的主要工作成果………………………………………………………………….23
    5.2 存在的不足…………………………………………………………………………….23
    5.3 研究展望……………………………………………………………………………….23
致谢……………………………………………………………………………………………...25
参考文献………………………………………………………………………………………….26

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