摘要
文章利用数控机床信号采集、温度传感数据双向传输、梯形图设计和宏程序引导等方法,阐述了一种拥有温度传感系统的智能润滑控制功能的实现方法。它不仅可以弥补中低端数控机床在设备保护功能和免维护功能方面的不足,而且能增进加工的多样化。最终论文通过分析不同润滑模式下润滑油压力与温度等要素之间的关系,得出该功能在润滑中油压稳定和温度控制符合要求。该功能具备四种模式,通过数控机床操作指令即可实现该功能的运用。它操作简单实用,具有重要的理论意义和极大的应用价值。
The use of CNC machine tools signal acquisition, two-way transmission of the temperature sensor data, the ladder design and macro program guide and other methods on the implementation of a temperature sensing system of smart lubrication function. It is not only low-end CNC machine tools can compensate for deficiencies in equipment protection features and maintenance-free function, but also en- hance the diversity of processing. Ultimately by analyzing the different lubrication mode, the relationship between the lubricating oil pressure and temperature and other factors, to draw the function in the lubrica- tion in a stabilizing effect on oil pressure and control bearings and nut seat temperature. The function has four modes, the use of CNC machine operating instructions to implement this feature. It is simple and practical, has important theoretical significance and great value.
出处
《组合机床与自动化加工技术》
北大核心
2013年第5期52-54,59,共4页
Modular Machine Tool & Automatic Manufacturing Technique
关键词
数控机床
FANUC
温度传感
润滑
宏程序
CNC machine tools
FANUC
temperature sensor
lubrication
macroprogram