护坡模具对机床的技术要求同步提高
护坡模具在工业零件制造等一系列领域都有广泛应用。目前,模具业务快速增长已为机床领域提供了部分增长动力。同时,由于模具技术要求的提高,对机床的技术要求同步提高。
Slope protection die is widely used in a series of fields such as industrial parts manufacturing. At present, the rapid growth of die and mould business has provided part of the growth power for machine tool industry. At the same time, due to the improvement of the technical requirements of the die, the technical requirements of the machine tool are improved synchronously.
众所周知,护坡模具为单件生产,且有着特定用户,其流程特点为参与产品(模具制件)设计,每件模具产品复杂,加工程序量大,单价高。尤其是护坡模具在制造过程中,需按照用户要求进行创新和改型结合的设计,在安装调试的整个流程中也要不断修改与调整,其适时监控显得极为重要,这就对模具加工设备、测量设备提出了特殊要求。
As we all know, the slope protection die is produced as a single unit, and has a specific user. Its process characteristics are participated in product design (die parts). Each die product is complex, processing procedures are large and unit price is high. Especially in the manufacturing process of slope protection moulds, it is necessary to combine innovation with modification according to user's requirements. In the whole process of installation and debugging, it is also necessary to constantly modify and adjust. Its timely monitoring is extremely important, which puts forward special requirements for mould processing equipment and measuring equipment.
当前护坡模具制造的重点发展方向是模具设计、分析及制造的三维化;模具软件功能集成化、网络化、智能化;模具生产的无图化;单件高精度并行加工;少人化、无人化加工。要求数控机床满足高速、高动态精度、高刚性、热稳定性、高可靠性,与之配套的控制系统均有个性化的特点,各种先进软件对机床整体运行实现开放性、兼容性。
At present, the key development directions of slope protection die manufacturing are three-dimensional die design, analysis and manufacturing; integrated, networked and intelligent die software functions; no-graphical die production; single-piece high-precision parallel processing; less human-oriented and unmanned processing. NC machine tools are required to meet the requirements of high speed, high dynamic accuracy, high rigidity, thermal stability and high reliability. The control system matched with NC machine tools has personalized characteristics. Advanced software can achieve openness and compatibility for the overall operation of machine tools.