适用于饮料容器注塑模具的模块化设计【中文6370字】
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适用于饮料容器注塑模具的模块化设计【中文6370字】,适用于,饮料,容器,注塑,模具,模块化,设计,中文
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【中文6370字】适用于饮料容器注塑模具的模块化设计MINGSHYANHUANGMINGKAIHSU摘要本文将模块化设计概念应用于指定饮料容器注塑模具。本研究旨在开发一种控制与模具开发相关的成本和时间的方法,并改进产品设计。这项调查包括两个部分功能性编码和建立标准操作程序,专门设计用于饮料容器注塑模具的设计和制造。首先,注塑模具分成几个模块,每个模块都有特定的功能。每个模块又分为几个具有子功能或子子功能的结构单元。接下来,每个单元的尺寸和规格都被标准化,并构建了一个兼容的界面,连接相关单元。这项工作采用杯形饮料容器来实验评估模块化设计方法的性能。实验结果表明,采用模块化设计方法制造注塑模具与传统方法相比,开发时间缩短了36,成本降低了1923。同时,关于模块化的信息有助于设计人员进行各种产品设计。另外,功能代码有助于有效管理和维护产品和模具。关键词饮料容器注塑模具模块化设计产品系列1简介最近,不断增长的市场竞争和日益多样化的客户需求迫使竞争对手提高新产品投放市场的速度。然而,开发大规模生产模具需要考虑多种因素,包括产品几何形状,尺寸和精度,从而导致产品开发时间过长。将模块化设计概念引入产品设计似乎是促进产品开发的关键手段,因为它增加了设计灵活性并缩短了交付时间14。同时,高水平的产品模块化增强了产品的创新性,灵活性和客户服务5。模块化是将一个复杂的产品细分成可独立创建的模块,然后可以互换使用6,7。有三个可实现模块化的通用领域,包括模块化设计(MID),模块化使用(MIU)和生产模块化(MIP)8。MID涉及标准化执行特定功能的基本结构单元,从而促进各种产品的灵活装配9,10。MID可以揭示产品结构,即不同产品之间的关系。相关产品被称为产品系列,包括基本功能和特定功能。开发产品系列可为多用途设计带来益处,从而降低生产成本11,12。MIU是消费者驱动的产品分解,旨在满足易用性和个性化需求。MIP使工厂车间能够将大量组件预先组合到模块中,并将这些模块脱机组装,然后将其带入主组装线,并纳入一小部分简单的任务中。MID已广泛应用于众多领域,并在降低成本和设计多样性方面发挥了重要作用13,14。然而,有限的实证研究已经将模块化设计应用于模具1518。因此,本研究旨在通过应用模块化设计和开发标准操作程序来减少模具开发时间,以设计以分数甚至数百个组件为特征的饮料容器注塑模具。2设计注塑模具的一般程序基本上,注塑模具组由两个主要部件组成,即阴模和阳模。熔化的塑料通过阴模中的浇道进入模腔。浇口引导熔化的塑料流过浇道并进入浇口并进入模腔几何形状以形成所需的部分。与模具开口的方向平行的部分的侧面通常略微成角度以减少零件从模具中的排斥。脱模所需的拔模角度主要取决于模腔的深度和塑料材料的收缩率。模具通常设计成使得模制部件在打开时可靠地保留在阳模上。顶出销或顶出板放置在模具的任一半中,其将完成的模制产品或浇道系统从模具中推出。标准的冷却方法是将冷却液通过一系列穿过模板的孔并通过软管连接以形成连续通道。冷却剂从模具中吸收热量,并保持模具处于适当的温度以使塑料以最有效率固化。为了便于维护和排气,腔体和芯体被分成几块,称为刀片。通过替换可互换的刀片,一个模具可以对同一部件进行多种变型。通用模具设计过程包含两部分19零件设计和模具设计。零件设计过程包含五个主要步骤确定主要拉拔方向,确定型芯和型腔,计算收缩率,确定拔模角度,然后确定分型线。模具设计过程主要包括选择模具底座,定位模具零件,设计模芯和型腔,设计零件,设计冷却剂通道,制造返回销,添加顶针,生成浇口和浇道,依次添加定位环和浇口衬套。3饮料容器的模块化设计本研究将模块化设计应用于饮料容器注塑模具,其过程如下(1)产品分类和机器规格(2)根据功能将注塑模具划分为模块(3)个体划分模块分为多个具有子功能的单元,以及各单元的设计与装配之间的关系,(4)结构单元的标准化,以及(5)标准结构单元的编码。这些单独的过程在下面详述。31产品分类和机器规格此步骤根据其几何形状和尺寸对所有饮料容器进行分类,并选择最适合生产的规格的机器。注塑机有五个主要资格,包括足够的合模力,足够的理论注射量,连杆之间的足够距离,足够的模具厚度范围以及足够的模具夹紧行程。32根据功能将注塑模具分成模块该步骤将模具组分成具有单独功能的多个模块。划分原则包括一般规则,划分规则,适用性规则和交换规则。一般来说,模块必须包含饮料容器注塑模具的所有功能。在划分规则中,每个功能模块必须包含至少一个基本功能,并且每个单元必须满足其自己的特定功能。至于适用性规则,单位履行单一功能是首选。对于交换规则,在将模具分为产品系列后,基本单元应该在模块之间互换。33将模块分成多个单元具有子功能以及每个单元的设计和装配之间的关系图1示出了包括几个功能模块的饮料容器模具的结构。各个模块的功能通过子功能或子子功能进一步扩展到结构单元。分模块包括夹紧模块,热流道模块,成型模块,顶出模块和导向模块。夹紧模块用于将各个单元和模块精确定位在注塑机上。热流道模块通过加热来保持熔融塑料的流动性。成型模块控制注塑件的几何尺寸和尺寸精度。弹出模块从模腔中弹出注塑件。导向模块用于在模具合模期间精确定位阴模和阳模。图1饮料容器注塑模具的模块化分类331结构元素的几何设计标准结构元件被制成半成品,能够满足成品的几何轮廓,从而显着缩短了制造模具交货时间。图2说明了模块化设计模具开发过程与传统过程之间的比较。标准结构元件的生产速度很快,因为它们被预制成一般形状并且需要最少量的制造来产生成品。图2传统和模块化模具开发过程的比较图3显示了本研究中检查的饮料容器的几何设计。最符合产品形状的模具插件具有简单的几何形状。例如,圆柱体和长方体分别代表杯型和盆型容器。其余的组件被模块化,以便以类似于堆叠游戏块的方式有效地集成到整套注塑模具中。图3几何结构单元的设计杯型容器,B盆型容器332结构单元的组装设计新产品开发涉及数百个结构元素,每个元素都包含许多维度。组装这样一个复杂的系统可能经常失败,因为在维度上出现小错误。本研究将涉及具有相互组装关系的结构元素的维度定义为联合维度。这些尺寸被简化为防错效果。下面介绍组装结构元素的步骤(1)模块组装的方向使用两条线将模具分成四个组装模块。第一行是定义雌雄模具的分型线。第二行定义了前后热流道板之间的边界。装配顺序遵循公模,母模,前热流道板和后热流道板的顺序。(2)组装单元的方向将属于上述四个组装模块的每个单元依次组装,即确认注塑部件的外观尺寸,进一步确认模具嵌件和模具的产品相关尺寸使用夹紧模块固定模具插件,使用阴模的结构部件识别热流道模块的尺寸,计算夹板的精确尺寸,并最终选择注塑机规格。装配顺序主要跟产品,模具插件,夹板和注塑机。34结构单元标准化对于饮料容器注塑模具的结构单元,进一步引入了产品族的概念,以提高各个功能单元之间的通用性和可交换性。图4举例说明了可互换的冷却系统。此外,图5显示了用于产品系列的各种喷射系统的设计。图4冷却系统的设计模具冷却单元的凸形部分,B模具冷却单元的凹形部分图5喷射器的设计一个喷气器,一个喷射器板341冷却系统设计冷却系统包括两个单元阳模冷却单元和阴模冷却单元。阳模冷却装置包括喷泉,双螺旋,单螺旋,并按照降温效率的降序列出了挡板类型。根据制造成本和冷却效果,双螺旋型优先。对于阴模冷却单元,它包括多段,块板,U形和线性类型,按降序排列的冷却效率。根据制造成本和冷却效果,优先考虑挡板。342弹射机构设计饮料容器通常是薄壁的,并且理想的喷射机构是空气喷射器,基于防止损坏注塑部件的需要。对于高收缩率的注塑材料,可选择顶出板以顺利分离产品和模具。空气喷射器设计在模具插件周围包括两个出气口,即一个L型出口和一个线型出口。L型出口处的空气进入模具插件的周边,并将注塑件与模具插件分开。然后将线型出口中的空气注入部件的底部,将其从模腔中喷出。顶出板用于将模制部件从模芯中推出或从模腔中取出。它附着在核心上并沿着领导者线性移动。35标准结构单元的编码在指定结构单元尺寸后,本调查介绍了一个编码系统来协助管理这些组件和单元。351结构单元代码本研究使用三位数字来编码所有结构单位(图6A)。第一个数字是主要功能代码,代表产品的几何形状和尺寸,并标示标准化的结构单位。第二个数字是代表材料的子功能代码,广泛用于结构单元的物料清单(BOM)。第三个数字代表每个结构单元的特征,包括产品系列和尺寸的代码。352产品识别复杂码该代码旨在快速搜索在产品开发过程中可相互交换的结构单元。该代码集成了与特定容器制造相关的所有结构单元,并且还显示了关于模具几何形状和尺寸以及产品特性的信息,如图6B所示。图6模块化功能代码结构单元代码,B产品识别复杂的代码4开发容器产品的程序基于上述模块化设计方法,可以生成用于设计饮料容器注塑模具的标准操作程序。因此,只需遵循该程序就可以轻松设计新产品的模具并识别可交换结构单元,从而有助于有效管理和维护产品和模具。图7显示了设计饮料容器注塑模具的标准操作程序。程序包括九个步骤,并说明如下。图7开发饮料容器注塑模具的标准操作程序第1步。确认产品规格为了准确描述产品的几何形状,尺寸精度和质量特征,此步骤将产品定义为其几何特征(如宽度,高度,投影面积和重量)。步骤2制造设备分析根据步骤1的信息,通过检查夹紧力,注射量,模具厚度范围和日光等规格来确定最合适的注塑机。步骤3模具设计注塑模具通过将模具功能划分为多个功能模块,可以通过模块堆叠快速轻松地开发特定容器的注塑模具。要设计的模块包括阳模模块,阴模模块,热流道模块等。步骤4产品和单元编码每个结构单元都分配一个组件代码,然后将其与产品特性集成以生成产品组合代码。因此,在产品开发阶段可以互换的单元。此外,代码系统简化了模具维护和产品管理。步骤5模块化对象列表根据步骤3的结构规范,注塑模具的所有组件都列在BOM中。例如,杯形注塑模具的BOM如图8所示。该步骤便于后续报价和生产调度过程中的处理。图8杯形注塑模具的BOM步骤6组件图由于结构单元的尺寸是针对半成品的,因此步骤5中列出的BOM信息仅仅是模具设计的初始阶段。因此,为满足客户要求和规格而设计的注塑模具的所有结构单元都必须以工程图纸的形式绘制以用于工程目的。步骤7结构单元制造根据步骤5和步骤6分别生成的材料清单和零部件图纸信息,本步骤可以使工厂车间进一步制造注塑模具。步骤8模具组装和检查该步骤检查步骤7中制造的每个单元以确保模具质量。根据模具的组装图,精确组装相关模块和结构单元的位置。例如,图9显示了咖啡杯注塑模具的组装图,该模具用于确认每个组件的关系。图9咖啡杯注塑模具的组装图模具插件,B女性模具基座步骤9模具测试和批量生产完成上述八个步骤后,最后一步是在注塑机上测试模具并实现批量生产。5验证和讨论本研究采用杯形饮料容器来实验评估模块化设计方法的性能。由于结构单元的规格能够对初始单元形状进行预处理,并且只需要进行局部预处理以在模具开发期间获得精确的尺寸,所以总的模具开发时间将显着减少。表1列出了杯形容器的模具开发情况,揭示了采用模块化设计的模具开发时间比传统工艺少36。鉴于组件规格的标准化可以批量购买与高效制造和设计相结合的材料,可以降低总制造成本。表2列出了杯形容器的模具开发情况,揭示了采用模块化设计的模具制造成本与传统工艺相比减少了1923。另外,采用模块化设计还有其他优点,例如表1杯形容器的制造时间节省清单结构单元常规模具制造时间(H)模块化模具制造时间(H)节约模块化模具制造时间(H)模块化模具制造时间的百分比()夹板86225复板38261232热尖端衬套65117热尖43125凹模基座40291127凹模镶件5216535569杯基模具插件495436513凸模的冷却装置445386515模具凸模镶件56243257凸模基座86225总结3061965109536表2杯形容器的成本节约清单结构单位批量折扣材料采购()在减少制造时间()减少设计和其他成本()节省成本模块化单位()夹板015044057013026085127复板010031062013026085119热尖端套管003009010013027026046热尖002005012013027027044凹模底座028083298015029341411凹模嵌件017050453016032486536杯基模具插入物006017024016031046073凸模冷却单元009028038016031063097凸模嵌件020006564016032600656凸模底座017052128014028159209总结127380164614629219192318面向客户设计的多样化饮料容器注塑模具的模块化设计涉及将模具分成五个关键功能模块和14个子功能结构单元。单元之间的互相兼容的接口是通过单个结构单元的规范和标准化来创建的。此外,定义了在模具插入冷却单元中包含不同类型的冷却效果以及在注射单元中的不同类型的喷射效果的具有各种功能结构的产品系列。每种单元类型都是可替代的,便于产品装配和拆卸,提高设计灵活性,提高生产商适应市场变化的能力,并满足各种类型的客户需求。2提供信息以便于快速开发产品使用标准功能模块和结构单元的编码系统可以构建标准的产品开发流程。该程序使设计人员能够快速遵循正确的设计步骤并进一步完成详细的注塑模具设计。3对产品和模具维护的有效管理已开发的编码系统通过提供可从现有库存单位中相互替换的组件,快速响应维修查询。此外,产品的结构单元和产品特征信息使用专门的个人识别号码进行编码,以促进新产品的开发。6结论本研究应用模块化设计理论和原则开发饮料容器注塑模具。已经证明了开发相互替代的标准组件模具设计的标准操作程序。这项工作只提供了一个杯形和盆形容器注塑模具作为模块化设计的研究工具,并在节省时间和降低制造成本方面产生了有效的结果。基于为饮料容器构建的标准结构单元的数据库,计算机辅助设计和计算机辅助制造的应用可以揭示模块化设计的效果。实际案例研究表明,拟议的程序能够设计标准各种产品的组件,因此可以大大减少工作时间和成本。因此,所提出的方法在饮料容器模具设计中是可行的,并且也适用于其他注塑模具。对于长期的模具开发,由于使用常见的产品系列单位,批量采购的经济效益应该是有价值的。致谢作者非常感谢TEDKNOY的编辑帮助。参考1MOTAJQ,CASTROLM(2004)作为本地化网络的工业聚集地葡萄牙注塑业的例子。环境计划36(2)2632782PINEB,PIETROCINIT(1993)标准模块允许在BALLY工程结构中进行大规模定制。PLANNREV21203SHIRLEYGV(1992)竞争性制造业的技术变革与制造。集成设计和制造以获得竞争优势821034FEITZINGERE,LEEHL(1997)HEWLETTPACKARD的大规模定制推迟的力量。HARVARDBUSREV75(1)1161215LAUKW,YAMCM,TANGE(2009)内部整合和产品模块化的互补性一个关于它们对竞争能力的交互作用的实证研究。JENGTECHMANAGE26305326STONER,WOODK(2002)一种用于识别产品体系结构模块的启发式方法。设计螺柱215317SALHIEHSM,KAMRANIAK(2008)模块化设计。INTJADVMANUFTECH207226。DOI101007/9780387473215_108PANDREMENOSJ,PARALIKASJ,SALONITISK,CHRYSSOLOURISG(2009)汽车行业的模块化概念一个重要的评论。CIRPJMANUFSCITECH11481529BALDWINCY,CLARKKB(1997)在模块化时代的管理。HARVBUSREV75849310ULRICHK(1995)产品架构在制造企业中的作用。RESPOLICY2441944011MEYERMH,UTTERBACKJM(1993)产品系列和核心能力的动态。斯隆管理REV25294712HSIAOSW,LIUE(2005)基于结构组件的产品族设计方法。COMPUTIND56132813LAUKW,YAMCM,TANGE(2007)产品模块化对竞争力和绩效的影响实证研究。INTJPRODECON10512014GERSHENSONJK,PRASADGJ,ZHANGY(2003)产品模块化定义和益处。JENGDESIGN1429531315JONGWR,WUCH,LIUHH,LIMY(2009)一种并发模具设计的协同导航系统。INTJADVMANUFTECH4021522416CHINLS,MOKCK,ZUX(2007)模具设计过程的建模和性能仿真。INTJADVMANUFTECH3423625117CHOY,LEEMC,KITAES(2006)韩国模具行业信息化水平评估是电子合作的先决条件一项探索性实证研究。INTJADVMANUFTECH2989791118NAGAHANUMAIAHRR,MUKHERJEENP(2005)使用设计特征和工具参数的模具和模具成本估算综合框架。INTJADVMANUFTECH261138114919ROSATODV,ROSATODV(1995)INJECTIONMOLDINGHANDBOOK,2NDEDN。国际汤姆森出版社,美国INTJADVMANUFTECHNOL201153110DOI101007/S001700102796YORIGINALARTICLEMODULARDESIGNAPPLIEDTOBEVERAGECONTAINERINJECTIONMOLDSMINGSHYANHUANGMINGKAIHSURECEIVED16MARCH2010/ACCEPTED15JUNE2010/PUBLISHEDONLINE25JUNE2010SPRINGERVERLAGLONDONLIMITED2010ABSTRACTTHISWORKAPPLIESMODULARDESIGNCONCEPTSTODESIGNATINGBEVERAGECONTAINERINJECTIONMOLDSTHISSTUDYAIMSTODEVELOPAMETHODOFCONTROLLINGCOSTSANDTIMEINRELATIONTOMOLDDEVELOPMENT,ANDALSOTOIMPROVEPRODUCTDESIGNTHISINVESTIGATIONCOMPRISESTWOPARTSFUNCTIONALITYCODING,ANDESTABLISHINGASTANDARDOPERATIONPROCEDURE,SPECIFICALLYDESIGNEDFORBEVERAGECONTAINERINJECTIONMOLDDESIGNANDMANUFACTURINGFIRST,THEINJECTIONMOLDISDIVIDEDINTOSEVERALMODULES,EACHWITHASPECIFICFUNCTIONEACHMODULEISFURTHERDIVIDEDINTOSEVERALSTRUCTURALUNITSPOSSESSINGSUBFUNCTIONORSUBSUBFUNCTIONNEXT,DIMENSIONSANDSPECIFICATIONSOFEACHUNITARESTANDARDIZEDANDACOMPATIBLEINTERFACEISCONSTRUCTEDLINKINGRELEVANTUNITSTHISWORKEMPLOYSACUPSHAPEDBEVERAGECONTAINERTOEXPERIMENTALLYASSESSTHEPERFORMANCEOFTHEMODULARDESIGNAPPROACHTHEEXPERIMENTALRESULTSINDICATETHATTHEMODULARDESIGNAPPROACHTOMANUFACTURINGINJECTIONMOLDSSHORTENSDEVELOPMENTTIMEBY36ANDREDUCESCOSTSBY1923COMPAREDWITHTHECONVENTIONALAPPROACHMEANWHILE,THEINFORMATIONONMODULARITYHELPSDESIGNERSINDIVERSEPRODUCTSDESIGNADDITIONALLY,THEFUNCTIONALITYCODEHELPSEFFECTIVELYMANAGEANDMAINTAINPRODUCTSANDMOLDSKEYWORDSBEVERAGECONTAINERINJECTIONMOLDMODULARDESIGNPRODUCTFAMILYMSHUANGMKHSUDEPARTMENTOFMECHANICALANDAUTOMATIONENGINEERINGANDGRADUATEINSTITUTEOFINDUSTRIALDESIGN,NATIONALKAOHSIUNGFIRSTUNIVERSITYOFSCIENCEANDTECHNOLOGY,2JHUOYUEROAD,NANZIH,KAOHSIUNGCITY811,TAIWAN,REPUBLICOFCHINAEMAILMSHUANGCCMSNKFUSTEDUTW1INTRODUCTIONRECENTLY,GROWINGMARKETCOMPETITIONANDINCREASINGLYDIVERSECUSTOMERDEMANDHASFORCEDCOMPETITORSTOINCREASETHESPEEDATWHICHTHEYDELIVERNEWPRODUCTSTOTHEMARKETHOWEVER,DEVELOPINGAMOLDFORMASSPRODUCTIONREQUIRESCONSIDERINGNUMEROUSFACTORS,INCLUDINGPRODUCTGEOMETRY,DIMENSIONS,ANDACCURACY,LEADINGTOLONGPRODUCTDEVELOPMENTTIMEINTRODUCINGMODULARDESIGNCONCEPTSINTOPRODUCTDESIGNAPPEARSAKEYMEANOFFACILITATINGPRODUCTDEVELOPMENT,SINCEITINCREASESDESIGNFLEXIBILITYANDSHORTENSDELIVERYTIME14MEANWHILE,AHIGHLEVELOFPRODUCTMODULARITYENHANCESPRODUCTINNOVATIVENESS,FLEXIBILITY,ANDCUSTOMERSERVICES5MODULARITYISTOSUBDIVIDEACOMPLEXPRODUCTINTOMODULESTHATCANBEINDEPENDENTLYCREATEDANDTHENAREEASILYUSEDINTERCHANGEABLY6,7THEREARETHREEGENERALFIELDSWHEREMODULARITYCOULDBEIMPLEMENTEDINCLUDINGMODULARITYINDESIGNMID,MODULARITYINUSEMIU,ANDMODULARITYINPRODUCTIONMIP8MIDINVOLVESSTANDARDIZINGBASICSTRUCTURALUNITSWHICHPERFORMSPECIFICFUNCTIONS,THUSFACILITATINGFLEXIBLEASSEMBLYOFVARIOUSPRODUCTS9,10MIDCANREVEALPRODUCTSTRUCTURE,NAMELYTHERELATIONSHIPAMONGDIFFERENTPRODUCTSRELATEDPRODUCTSARETERMEDPRODUCTFAMILYANDINCLUDEBOTHBASICANDSPECIFICFUNCTIONSDEVELOPINGPRODUCTFAMILIESOFFERSBENEFITSINTERMSOFMULTIPURPOSEDESIGNANDTHUSREDUCESPRODUCT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