基于人机工程学的蜂窝芯零件清洁装置设计
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摘要
针对蜂窝芯零件清理过程中出现粉尘大、清理不彻底、劳动强度大,人易疲劳等问题,基于人机工程学原理和方法,设计了一款用于蜂窝芯零件切屑清理的装置。文章论述了清洁车的结构、形式;主要尺寸的确定方法和依据;切屑排除口、吸尘防护套的设计。通过该研究设计,改善了蜂窝芯零件的清理条件和环境,保护了工人的身心健康,降低了工人的疲劳强度,提高了工作效率。
There exist many problems during the manufacturing and clean of honeycomb part. The dust in the part is hard to clean and It has azardous effects of on the health of the workers. therefore this article designs a clean-car to clean dust in honeycomb core parts,basing on the principles and methods of ergonomics.This paper discusses the structure and form of the clean-car,the determination of main dimensions method and basis and the design of the chip out of mouth. The use of this clean-device can improve the cleaning environment of honeycomb core parts,protect the physical and mental health of the workers,and also improve the working efficiency.
There exist many problems during the manufacturing and clean of honeycomb part. The dust in the part is hard to clean and It has azardous effects of on the health of the workers. therefore this article designs a clean-car to clean dust in honeycomb core parts,basing on the principles and methods of ergonomics.This paper discusses the structure and form of the clean-car,the determination of main dimensions method and basis and the design of the chip out of mouth. The use of this clean-device can improve the cleaning environment of honeycomb core parts,protect the physical and mental health of the workers,and also improve the working efficiency.
引文
[1]Kunxian Qiu,Weiwei Ming,Lifeng Shen,et al. Study on the cutting force in machining of aluminum honeycomb core material[J]. Composite Structures,2017,164:58-67.
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[4]Ines Iva1ez,Lorena M Fernandez-Ca1adas,Sonia SanchezSaez. Compressive deformation and energy-absorption capability of aluminium honeycomb core[J]. Composite Structures,2017,174:123-133.
[5]袁信满,郑华林,忻龙飞,等.基于响应曲面法的NOMEX蜂窝芯超声复合铣削力预测模型构建[J].制造技术与机床,2017(1):103-108.
[6]谢坤,董辉跃. NOMEX纸质蜂窝零件新加工工艺研究[J].机械科学与技术,2011,30(11):1811-1815.
[7]李焱,何勇. Nomex蜂窝芯零件的数控加工[J].航空与航天,2006(3):10-15.
[8]高涛,骆金威,林勇,等.基于超声波机床的蜂窝芯数控加工技术研究[J].机械制造,2013,51(1):41-43.
[9] Abrahamsson L. Production economics analysis of in—vestment initiated to improve working environment[J]. Appl Ergon,2000,3l(1):1-7.
[10]Dong Zhou,Jiayu Chen,Chuan Lv,et al. A method for integrating ergonomics analysis into maintainability design in a virtual environment[J]. International Journal of Industrial Ergonomics,2016,54:154-163.
[11]于尚红.基于室内人机环境的复合式厨房设计[J].自动化与仪器仪表,2014(11):56-58.
[12]呼慧敏,晁储芝,赵朝义,等.中国成年人人体尺寸数据相关性研究[J].人类工效学,2014,20(3):49-53.
[13]邹楠.船舶驾驶室人机工程虚拟仿真技术及应用[D].哈尔滨:哈尔滨工程大学,2014.
[14]王莹.人机交互活动与产品造型设计的关系研究[D].沈阳:东北大学,2008.
[2] S R Keshavanarayana,H Shahverdi,A Kothare,et al. The effect of node bond adhesive fillet on uniaxial in-plane responses of hexagonal honeycomb core[J]. Composite Structures,2017,175:111-122.
[3]牟信妮,卢立新,马永胜.蜂窝芯层创新结构及成型性[J].包装工程,2017,38(15):72-76.
[4]Ines Iva1ez,Lorena M Fernandez-Ca1adas,Sonia SanchezSaez. Compressive deformation and energy-absorption capability of aluminium honeycomb core[J]. Composite Structures,2017,174:123-133.
[5]袁信满,郑华林,忻龙飞,等.基于响应曲面法的NOMEX蜂窝芯超声复合铣削力预测模型构建[J].制造技术与机床,2017(1):103-108.
[6]谢坤,董辉跃. NOMEX纸质蜂窝零件新加工工艺研究[J].机械科学与技术,2011,30(11):1811-1815.
[7]李焱,何勇. Nomex蜂窝芯零件的数控加工[J].航空与航天,2006(3):10-15.
[8]高涛,骆金威,林勇,等.基于超声波机床的蜂窝芯数控加工技术研究[J].机械制造,2013,51(1):41-43.
[9] Abrahamsson L. Production economics analysis of in—vestment initiated to improve working environment[J]. Appl Ergon,2000,3l(1):1-7.
[10]Dong Zhou,Jiayu Chen,Chuan Lv,et al. A method for integrating ergonomics analysis into maintainability design in a virtual environment[J]. International Journal of Industrial Ergonomics,2016,54:154-163.
[11]于尚红.基于室内人机环境的复合式厨房设计[J].自动化与仪器仪表,2014(11):56-58.
[12]呼慧敏,晁储芝,赵朝义,等.中国成年人人体尺寸数据相关性研究[J].人类工效学,2014,20(3):49-53.
[13]邹楠.船舶驾驶室人机工程虚拟仿真技术及应用[D].哈尔滨:哈尔滨工程大学,2014.
[14]王莹.人机交互活动与产品造型设计的关系研究[D].沈阳:东北大学,2008.