摘要本项目研究的卸料机构的设计可解决传统的手工作业方式下工人劳动强度大、生产效率低等问题。本项目的研究成果有着良好的推广应用价值和前景。本文的是小零件热浸镀锌自动卸料机构的设计。它是根据热镀锌的工艺要求而设计的,并且具备自动卸料机构的功能。它主要设计目标是能够完成自动卸料机构功能,并且可以很好的符合在可以在较大的镀锌池中热浸镀锌工艺过程中完成自动卸料的作用。本文主要从几个方面来完成本课题的设计。对小零件在热浸镀锌工艺的系统构成、工作原理及卸料处的设计理论进行全面的了解和分析。本文的目的是设计出一种能够将吊篮中的镀锌件倾斜一定的角度后倒出,但是吊篮不得取下,且吊篮中的镀锌件倒出后,吊篮又能够回到原位继续工艺的工程的自动卸料机构,提升机构大多采用省力的方式,主要用钢丝绳滑轮组作为执行构件的,所以有很大的提升范围机械式。关键词:小零件,热浸镀锌,卸料机构,吊篮;IAbstractThisprojectstudiesthedesignofunloadingmechanismcansolvethetraditionalmanualoperationmodeproblemofworkerslaborintensityandlowproductionefficiency.Theobjectiveoftheresearchresultshavegoodapplicationvalueandprospect.Smallpartsofthisarticleisthedesignofhotdipgalvanizedself-dumpingmechanism.Itisdesignedaccordingtotherequirementsofthehotgalvanizingtechnology,andhavethefunctionoftheautomaticunloadingmechanism.Itsmaindesigngoalistobeabletocompletetheautomaticunloadingmechanismfunction,andcanwellmeetthecaninlargegalvanizedpoolintheprocessofhotdipgalvanizingtechnologytocompletethefunctionofautomaticunloading.Thisarticlemainlyfromseveralaspectstocompletethedesignofthistopic.Forsmallpartsinhotdipgalvanizingtechnologysystemstructure,workingprincipleanddischargingplacetoconductacomprehensiveunderstandingofthedesigntheoryandanalysis.Thepurposeofthispaperistodesignacanhangingbasket.Keywords:Smallparts;hotdipgalvanized;discharging;hangingbasket;II目录第1章引言..............................................................................................11.1热镀锌概述......................................................................................................11.1.1热镀锌简介..........................................................................................11.1.2金属防护的目的和方法......................................................................11.2国内外研究现状.............................................................................................11.3选题背景.........................................................................................................2第2章运动机构简介..............................................................................32.1机构的基本组成.............................................................................................32.1.1机构的原理..........................................................................................32.1.2平面机构...............................................................................................32.2机构选择.........................................................................................................32.2.1确定是否符合机构的条件..................................................................32.2.2确定自由度..........................................................................................32.2.3确定机构类型......................................................................................32.3平面四杆机构.................................................................................................32...
