提高金属切割机加工过程控制效率的协同方法

IF 0.4 Q4 METALLURGY & METALLURGICAL ENGINEERING
V. Zakovorotny, V. Gvindjiliya
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引用次数: 1

摘要

介绍。金属切割机的加工效率是通过在保证所需质量的同时降低生产批量零件的成本来评估的。在现代生产中,零件通常是在数控机床上制造的。目前,数控程序和机床执行器轨迹的匹配精度很高,但这还不能保证生产的质量和效率。数控程序的定义是基于加工过程中合理的模态、刀具、冷却液等知识基础之上的。这个基数反映了一组机器、工具和加工条件的平均,并没有考虑到切削过程中动态系统特性的变化。主题。本文研究了外部控制(CNC程序)和切削动力学(内部控制)的协同匹配。内控因素可以先验地设定,也可以根据切割区不可逆能量转换的影响来确定。该工作的目的是确定控制机床执行元件轨迹的规律,以便在动态切削系统的特性变化的情况下,在零件加工过程中确保零件所需的表面质量和最小化刀具磨损强度。方法和方法论。给出了受控动态系统的数学仿真,该系统的特性受子系统参数变化的先验集合规律的影响,切削特性的变化受不可逆能量转换功率的影响。考虑不可逆能量转换的力量是预测后刃磨损、动态耦合参数变化和切削动力学演化重构的必要条件。结果和讨论。公开了将CNC程序与切削过程的变化特性相匹配的规律性,从而可以在确保零件所需质量的同时提高加工效率。揭示和分析了轴加工过程中刀具纵向进给速度变化轨迹引起的动态切削系统的一系列特性,并给出了其刚度变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synergetic approach to improve the efficiency of machining process control on metal-cutting machines
Introduction. The efficiency of processing on metal-cutting machines is evaluated by the reduced cost of producing a batch of parts while ensuring the required quality. In modern production, parts are usually made on CNC machines. Today the CNC program and the trajectories of the machine tool actuators match each other with high accuracy, which, however, does not yet guarantee quality and efficiency of production. The definition of the CNC program is based on the knowledge base of rational modes, tools, coolant and etc. during processing. This base reflects some averaging over the set of machines, tools and processing conditions, and does not take into account changes in the properties of the dynamic system in the process of cutting. Subject. The paper deals with the synergistic matching of external control (CNC programs) and cutting dynamics (internal control). The internal control factors can be set a priori, as well as determined as a result of the influence of irreversible energy transformations in the cutting zone. The purpose of the work is to determine the law of controlling the trajectories of the machine's executive elements in such a way that, with changing properties of the dynamic cutting system, the required surface quality of the part and minimizing the intensity of tool wear are ensured during the processing of the part. Method and methodology. Mathematical simulation of the controlled dynamic system, which properties change due to the a priori set laws of variation of subsystem parameters, as well as changes in the cutting properties conditioned by the power of irreversible energy transformation is presented. Consideration of the power of irreversible energy transformations is necessary for predicting back-edge wear, changes in dynamic coupling parameters, and evolutionary restructuring of cutting dynamics. Results and Discussion. The regularity of matching the CNC program with the changing properties of the cutting process, which allows increasing the processing efficiency while ensuring the required quality of parts, is disclosed. A number of properties of the dynamic cutting system caused by changing trajectory of the longitudinal feed rate of the tool during processing of the shaft, the stiffness change of which is given, are revealed and analyzed.
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来源期刊
Obrabotka Metallov-Metal Working and Material Science
Obrabotka Metallov-Metal Working and Material Science METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
1.10
自引率
50.00%
发文量
26
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