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深孔加工负压抽屑装置的优化设计与仿真 被引量:9

Optimization Design and Simulation of Negative-Pressure Chip Removing Device of Deep-Hole Processing
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摘要 为解决深孔加工排屑的难题,在分析现有DF深孔钻削系统结构的基础上,运用液压相关理论分析了影响负压抽屑的影响因素.采用Fluent软件对DF系统中负压抽屑装置的喷射角k和负压间隙S进行了力学、速度、能量场仿真,最终通过理论分析与仿真试验的对比研究,得出当k=30°,S=0.4mm时负压效果最好,当k=29°,S=0.5mm时次之.为研究准干式深孔加工新型负压射流结构、负压机理及排屑特性提供了理论基础. To solve the problem of chip removing of deep-hole processing,both the existing DF deep-hole drilling system structure and the influence factors of the negative-pressure removing crumbs were analyzed by the hydraulic theory.The negative pressure,rate and energy field of the injection angle k and negative pressure gap S in the DF negative pressure device were simulated by using the software Fluent.Through the comparison between the theoretical analysis and the simulation test,it was concluded that when k was 30°and S was 0.4 mm,negative pressure effect were best;when k was 29°and S was 0.5 mm,negative pressure effect were better.The above coclusion provided theoretical basis for the new type negative pressure jet structure,the negative pressure mechanism and characteristics of scraps of near-dry deep-hole processing.
出处 《中北大学学报(自然科学版)》 CAS 北大核心 2012年第3期266-271,共6页 Journal of North University of China(Natural Science Edition)
基金 山西省科技攻关项目(20080322019) 2011年中北大学校科学基金
关键词 负压抽屑 喷射角 负压间隙 优化设计 准干式深孔加工 negative-pressure chip removing injection angle negative pressure gap optimization design near-dry deep-hole processing
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共引文献83

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