日用电器
日用電器
일용전기
ELECTRICAL APPLIANCES
2014年
5期
51-53
,共3页
底座%风冷螺杆%有限元%优化设计
底座%風冷螺桿%有限元%優化設計
저좌%풍랭라간%유한원%우화설계
base%air-cooled screw air conditioning unit%finite element%optimal design
本文利用通用有限元软件对某公司的风冷螺杆机组的底座进行了有限元分析,得出最大应力和位移出现的部位和大小,并根据分析结果,以降低成本为目的,对机组底座进行有限元优化设计,得出一个优化结果,对后续底座结构的持续改进提供理论依据。
本文利用通用有限元軟件對某公司的風冷螺桿機組的底座進行瞭有限元分析,得齣最大應力和位移齣現的部位和大小,併根據分析結果,以降低成本為目的,對機組底座進行有限元優化設計,得齣一箇優化結果,對後續底座結構的持續改進提供理論依據。
본문이용통용유한원연건대모공사적풍랭라간궤조적저좌진행료유한원분석,득출최대응력화위이출현적부위화대소,병근거분석결과,이강저성본위목적,대궤조저좌진행유한원우화설계,득출일개우화결과,대후속저좌결구적지속개진제공이론의거。
This paper presents how to use the finite-element software to make finite-element analyses to the base of a air-cooled screw conditioning unit and work out where and how much the most stress and displacement are. Based on these analyses, optimal finite-element design in terms of cost cutting is taken to the base of the air-cooled screw air conditioning unit and an optimal result is obtained. Furthermore, the analyses can be taken as theoretic basis for improving the structure of the base in the future.
