工业工程专业英语chapter3manufacturingsystem.ppt

《专业英语》课程论文（工业工程11级）指导教师：李发权小组成员姓名：学号：刘凯311102020215 刘雪涛311102020216 马文杰311102020217 乔茂康3111020202182014年11月23日Manufacturing SystemsUnit1 Introduction To Manufacturing SystemsIn this chapter, we consider how automation and material handing technologies are synthesized create manufacturing systems. We define a manufacturing system to be a collection of integrated equipment and human resources, whose function is perform one or more processing and/or assembly operations on a starting raw material part, or set parts. The integrated equipment includes production machines and tools, material handling and work positioning devices, and computer systems. Human resources are required either full time or periodically to keep the system running. The manufacturing system is where the value-added work is accomplished on the part or product. The position of the manufacturing system in the larger production system is shown as Figure. 3.1 Examples of manufacturing systems include :●One worker tending one machine, which operates on semi-automatic cycle● A cluster of semi-automated assembly machine, attended by one worker● A full automated assembly machine, periodically attended by a human worker● A group of automated machines working on automatic cycles to produce a family ofsimilar parts● A team of workers performing assembly operations on a production lineComponents of a Manufacturing systemA manufacturing system consists of several components. In a given system, these components usually include:1)production machines plus tools, fixtures, and other related hardware;2)material handling system ;3)computer systems to coordinate and/or control the above components ;4)human workersProduction MachinesIn virtually all modern manufacturing systems, most of the actual processing or assembly work is accomplished by machines or with the aid of tools. The machines can be classified as 1) manually operate , 2) semi-automated ,or 3)fully automated , Manually operated machines are directed or supervised by a human worker. The machine provides the power for the operation and the worker provides the control. Conventional machine tools (e. g ,lathes , milling machines ,drill presses ) fit into this category . The worker must be at the machine continuously.In manufacturing systems, we use the term workstation to refer to a location in the factory where some well-defined task operation is accomplished by an automated machine , a worker-and-machine combination , or a worker use hang tools/or portable powered tools. In the last there no definable production machine at the location . Many assembly tasks are in the category . A given manufacturing system may consist of one or more workstations. A system with multiple stations is called a production line , or assembly line , or machine cell ,or other name ,depending on its configuration and function .Material Transport SystemsIn most processing and assembly operations performed on discrete parts and products, the following ancillary functions must be provided :1)loading and unloading work units and2)positioning the work units at each station . In manufacturing systems composed of multipleworkstations, a means of3)transporting work units between stations is also required. These functions are accomplishedby the material handling system . In many case , the units are moved by the workers themselves, but more often some form of automated material transport system is used to reduce human effort .Most material handling systems used in production also provide4) a temporary storage function .The purpose of storage in these is usually to make sure thatwok is always present for the storage , that is, that the stations are not starved (meaning that they have nothing to work on )Some of the issues related to the material handling system are often unique to the particular type of manufacturing system ,and so it makes sense to discuss the details of each discussion here is concerned with general issues relating to the material handling system.Loading, Positioning, and Unloading. These material handling functions occur each workstation. Loading involves moving the work units into the production machine or processing equipment form a source inside the station. For example, starting parts in batch processing operations are often stored in contain in the immediately vicinity of station. For most processing operation, especially those requiring accuracy and precision, the work unit must be positioned in the production machine. Positioning provides for the part to be known location and orientation relative to the work head or tooling that performs the operation.Position in the production equipment is often accomplished using a workholder. A workholder is a device that accurately locates, orients, and clamps the part for the operation and resists any forces that may occur during processing. Common workholder include jigs, fixtures, and chucks. When the production operation has been completed, the work unit must be unloaded, that is, removed form the production machine and either placed in a container at the workstation or prepared for transport to the next workstation in the processing sequence. Prepared for transport may consist of simply loading the part onto a conveyor leading to the next station.When the production machine is manually operated or semi-automatic, loading position, and unloading are performed by the worker either by hand or with the aid of a hoist. A mechanized device such as an industrial robot, parts feeder, coil feeder (in sheet metal stamping ), or automatic pallet changer is used to accomplish these material handling functions.Work Transport Between Station. In the context of manufacturing system, work transport means moving parts between workstation in a multi-station system. The transport function can be accomplished manually or by the most appropriate material transport equipment.In some manufacturing systems, work units are passed from station to station by hand. Manual work transport can be accomplished by moving the units the one at a time or in batches. Moving parts in batches is generally more efficient, according to the unit load principle. Manual work transport is limited to cases in which the parts are small and light, so that the manual labor is ergonomically acceptable. When the load to be moved exceeds certain weight standards, powered hoists and similar lift equipment are used. Manufacturing systems that utilize manualwork transport include manual assembly lines and group technology machine cells.Various types of mechanized and automated material handling equipment are widely used to transport work units in manufacturing systems. We distinguish two general categories of work transport, according to the type of routing between station:1)variable routing and2)fixed routing. In variable routing transport is associated with job shop production andmany batch production operations. Manufacturing systems that use variable routinginclude group technology machine cells and flexible manufacturing systems. In fixedtouting, the work units always flow through the same sequence of station. This meansthat the work units are identical or similar enough that the processing sequence isidentical. Fixed routing transport is used on production lines. The difference betweenvariable and fixed routing and fixed routing is portrayed in Figure 3.2.制造系统制造系统的介绍在这一章,我们考虑如何合成创造制造业自动化和材料处理技术系统。

《工业工程专业英语》课程教学大纲课程编号：0803701057课程名称：工业工程专业英语英文名称：Professional English for Industrial Engineering课程类型：专业任选课总学时：32 讲课学时：32 实验学时：0学分：2适用对象：工业工程专业先修课程：大学英语一、课程性质、目的和任务专业英语是工业工程专业的一门专业课，通过对本课程的学习，进一步巩固和提高英语水平，特别是提高阅读科技英语及本专业英语资料的能力。

其任务是培养学生阅读、写作科技英语等方面的能力，使其能以英语为工具顺利获取有关本专业所需要的信息。

二、教学基本要求了解专业英语的语法特点、专业英语的词汇特点及专业英语的各种文体中常用的符号、公式及其他。

掌握工业工程专业的英语文献阅读和理解，能快速阅读科技文章，迅速获取信息和中心思想。

理解专业英语翻译的基本方法。

三、教学内容及要求1．Introduction to Industrial Engineering了解工业工程的角色，工业工程毕业生的需求，学习本书的目的，掌握工业工程的定义。

了解工业工程涉及的学科，工业工程的发展。

了解美国工业工程专业在学科中的地位与中国的不同。

2．Work Study工作研究和作业测量是工业工程领域最传统的研究内容。

通过本章的学习，对工作研究和作业测量有一个全面的认识和了解。

3．Manufacturing Systems了解制造系统的含义，制造系统的各个组成部分，掌握几种典型的制造系统及成组技术、柔性制造系统、敏捷制造等先进制造系统各自应用范围及特点。

了解CAD，CAM，CAPP 等辅助制造系统在各种制造系统中的应用。

4．Production Planning and Control掌握生产计划的主要内容，体会生产计划在生产系统中的重要性，掌握生产预测、生产计划的制定、生产计划控制的各种原理及方法。

5．Logistics Engineering掌握物流工程中的基本术语。

IE专业英语（新）BS Brain Storming 脑力激荡Facilities Design and Planning设施规划与设计Material Flow System Analysis物流系统分析Production Planning and Control生产计划与控制Human Engineering人机工程(工效学)Cost Control成本控制Value Engineering价值工程Work Assessment工作评价与考核Engineering Economics Analysis工程经济分析Machine Interference机器干扰Single Minute Exchange of Dies (SMED) 六十秒即时换模Fool-Proof 防止错误法(防错法)Man 人Machine 机Material 料Method 法Environment 环境Temperature(temp)温度Humidity湿度learning curve学习曲线Time measurement 时间测量Methods of time measurement标准时间测量(MTM) Shop floor observation 现场观测Line Balancing 线平衡Value有价值NO VALUE 无价值Incidental work(necessary)必要Waste浪费•Takt Time生产节拍Transport Empty 伸手Grasp 握取Move 移物Disassemble 折卸Use 应用Assemble 装配Release Load 放手Inspect 检查Search 寻找Select 选择Play 计划Pre-Position预定位Position 定位Hold 持住Rest 休息Unavoidable Delay 迟延Avoidable Delay 故延E: Eliminate剔除C :Combine合并R: Re-arrange重排S :Simple简化PRA-Probabilistic Risk Assessment风险率评估Risk Priority Number (RPN) 风险关键指数What 完成了什么where 何处做When 何时做who 由谁做Why 为何这样做how 何时做delay等待operation操作inspection检查transportation搬运storage储存Color management 颜色管理Quality Control Circle 品管圈(QCC)Activity-Base Management作业制成本管理(ABM)In-Process Quality Control制程质量管理(IPQC)Incoming Quality Control进料质量管理(IQC)International Organization for Standardization国际标准化组织(ISO) Predetermined Time System 简称PTS 预定动作时间标准法Methods-time-measurement 方法时间衡量Work factor system 工作因素法(WF)Modolar arrangement of pre-determind time standard MOD法Leveling 平准化= westing 西屋法objective rating 客观评比synthetic leveling 合成评比Work Sampling 工作抽样Motion time analysis 动作时间分析Business Process Reengineering (BPR)企业流程再造Enterprise Resource Planning ERP企业资源规划Economic Order Quantity (EOQ)基本经济订购量Flexible Manufacture System 弹性制造系统(FMS)Finish or Final Quality Control成品质量管理(FQC)In-Process Quality Control制程质量管理(IPQC)Incoming Quality Control进料质量管理(IQC)Just In Time实时管理(JIT)Manufacturing Execution System制造执行系统(MES) Master Production Scheduling主生产排程(MPS) Master Production Planning主生产计划Material Requirement Planning物料需求规划(MRP) Manufacturing Resource Planning制造资源计划(MRPII) Operation Scheduling作业计划Flow shop流水车间Optimized Production Technology最佳生产技术Supply Chain Management供应链管理(SCM)Statistic Process Control统计制程管制(SPC)Total Productive Maintenance全面设备管理(TPM) Total Quality Management全面质量管理(TQM)Zero Defect Quality Control零缺陷质量管理:PDCA Cycle PDCA循环:continual Improvement持续改善:Project项目Project Manager项目经理Project Management项目管理Project Plan项目计划Process Improvement现场改善WORK IN PROCESS 半成品President 董事长Visual management 目视管理bottleneck 瓶颈Layout 布置图quality engineering 质量工程人员(QE)first article inspection 新品首件检查(FAI)first article assurance首件确认(FAA)capability index能力指数(CP)Quality Improvement Team 质量改善小组(QIT)Classification整理(sorting, organization)-seiriRegulation整顿(arrangement, tidiness)-seitonCleanliness清扫(sweeping, purity)-seisoConservation清洁(cleaning, cleanliness)-seiktsuCulture教养(discipline)-shitsukeSave 节约Safety安全Make-to-stock备货型生产(MTS)Make-to-order订货型生产(MTO)Assemble-to-order按订单装配(ATO)Flexible manufacturing system柔性制造系统Group technology成组技术(GT)Concurrent engineering并行工程(CE)Time compression technology时间压缩技术(TCT)Business process reengineering业务过程重组(BPR)Agile manufacturing敏捷制造(AM)Lean production精细生产(LP)Intelligent manufacturing 智能制造(IM)Computer-aided-manufacturing计算机辅助制造(CAM) Computer-aided-design计算机辅助设计(CAD)Computer-aided-engineering计算机辅助工程(CAE)Computer-aided-process planning计算机辅助工艺编制( CAPP) overall cost leadership成本优先differentiation独具一格Market focus集中一点cost efficiency成本效率quality质量Dependability可靠性Flexibility柔性product data management产品数据管理(PDM)Facility location设施选址Fixed position layout固定式布置process layout工艺过程布置layout based on group technology成组制造单元布置Job design工作设计work measurement工作测量Time study时间研究Basic motion study基本动作世界研究法(BMS)Modolar arrangement of predetermind time standard模特法Human factor engineering人因工程business plan经营计划Fixed capacity固定能力Adjustable capacity可?#123;整能力production rate生产率Inventory库存Job-shop production单间小批生产Bill of materials (BOM)物料清单文件Lead time提前期modular bill of materials模块物料清单Maximum part-period gain最大周期收益(MPG) distribution requirements planning分配需求计划scheduling编制作业计划sequencing排序Dispatching派工controlling控制expediting赶工supply chain供应链Purchasing Management采购管理Quick Response快速用户反应JIT Purchasing准时采购physical distribution物流Materials handling物料搬运project项目critical path method关键路线法optimistic time最乐观时间Most likely time最可能时间pessimistic time最悲观时间Mean time between failure平均故障期(MTBF) Mean time to repair平均维修期(MTTR)plan 计划do 执行check 检查action 处理level production生产平准化optimized production technology最优生产技术(OPT) Overall Equipment Effectiveness整体设备效能Operation Research运筹学Service Sector服务业Operation Management运作管理Operation System运作系统World Class Manufacturing世界级制造Time-based Competition基于时间的竞争Operation Flexibility运作战略Product Development产品开发Dependent Demand独立需求Economic Order Lot 经济订货批量:Safety Stock安全库存Shortage Costs缺货成本ABC Classing Method A BC分类法Reorder Point订货点Holding Costs存储成本Productivity Improvement Team生产力提升小组(PIT) Productivity Improvement Center生产力提升中心(PIC)工厂常用词汇Assembly& Loading Clips 组合上耳夹Break PAD 折PADBreak PIN 折脚Paste Base 沾BASEapproved by: 核准Apr.(April) 四月assembly(ass’y)组合Aug.(August) 八月Base 底座bifilar 双线并绕Bobbin（BBN）绕线管bottom 底部Brush Epoxy On Core 铁芯刷胶Brush Epoxy On Loop 线圈刷胶checked by: 审核Choke电感clip耳夹close winding密绕component 组件condition条件condition条件copper铜箔立式core铁芯Curing烘烤current 电流CUT WIRE 裁线Dec.(December) 十二月defective product box不良品箱deficient manufacturing procedure制程不良description: 说明Design Failure Mode and Effect Analysis DFMEA设计Desk Topdip 浸入Direction 方向ECN Engineering Change Notice工程变更通知Electronic Magnetic In EMI 抗电磁干扰Enameled copper wire 漆包线Engineering Change Request 工程变更要求epoxy胶equipment/instrument设备Failure Mode and Effect Analysis FMEA失效模式与效应分析Feb.(February) 二月fixture治具flow chart 流程窗体flux助焊剂FN: Factory Notice 工厂通知FN: Immediated change 立即变更Function test 测试gap 间隙,缝隙HI-POT安规测试IE﹕Industrial Engineering 工业工程impregnation浸泡inductance 电感ink油墨inspection(INSP)检查Insulating Tape绝缘胶布issued date: 发行日期item发料Jan.(January) 一月Joint Quality Engineering (JQE) Jul.(July) 七月Jun.(June) 六月Kapton Tape高温胶布layer 层line线Magnetic Components 磁性组件magnetic 磁性的Mar.(March) 三月Margin Tape安胶marking印章materials物料May五月ME: Mechanical Engineering 机械工程measurement测试mechanical dimension 外观尺寸MFG: manufacturing制造Mini-TowerModel: 机种Not Deviate Measure 量平整度Nov.(November) 十一月O/I Operation Instruction 作业指导书Oct.(October) 十月OEM:委托代工(Original Equipment Manufacture)oven 烤箱P/n: part number 品名P/R Pilot-Run试作验证pad 垫片PE Production／Process Engineering 制造工程/制程工程pin adjustment对脚PIN BENDING& WIRE TRIMMING 折弯钢片pin 脚plastic 塑料,塑料poor processing 制程不良Pre-soldering 预焊primary(pri)初级process 流程production capacity生产力卧式production control (PC)生管purchasing采购QCC:品管圈(Quality Control Circle)QE:质量工程(Quality Engineering)remark: 备注Reported by: 草拟Revision（REV﹒）: 版本sample样品schematic 结构图second(sec)次级Sept.(September) 九月solder bar锡棒solder iron 烙铁solder wire锡丝soldering焊锡solvent 稀释剂space winding疏绕Specification （Spec）生产规格stand-off 凸点station 站别step步序straighten 弄直,使变直tape 胶带TE: Test Engineering 测试工程terminal 脚,端子Time (时间)timer定时器top顶部,上层transformer 变压器trifler三线并绕tube 套管turn ratio圈数比turn圈数twist绞线Unloading The Clips 下耳夹vacuum抽真空varnish dipping泡凡立水varnish凡立水warehouse仓库winding direction 绕线方向winding绕线wire trimming理线。

Unit 1 Introduction to Industrial EngineeringThe Roles of IEIndustrial engineering?(IE)?is?emerging as one of the classic*and novel professions that will be counted for solving complex and systematic problems in the highly technological world of today.?In particular，with the rapid development of China’s economy and its acting as a center of world manufacturing industries，the demand for IE will increase and widen continuously and urgently.工业工程是新兴的经典和新颖的将计算解决复杂和系统性的问题，在今天的高度科技世界职业之一。

，特别是在中国快速发展的经济和其作为世界制造业中心的演技，为IE的需求将增加，并不断扩大和迫切。

A production system or service system includes inputs, transformation, and outputs. Through transformation, the added values are increased and the system efficiency and effectiveness are improved. Transformation processes rely on the technologies used and management sciences as well as their combination.生产系统或服务系统，包括输入，转换和输出。

工业工程专业术语工业工程英语术语工业工程专业是为满足国家经济开展和参加WTO对人才的迫切需要而建立的。

该学科主要是以生产过程为研究对象，以提高劳动生产率、保证质量和降低本钱为目标，特别注重研究人的因素，充分发挥投入资源的作用。

以下是PINCAI收集的工业工程专业术语，仅供大家阅读参考!1.工业工程的定义：工业工程是对人员，物料，设备，能源和信息所组成的集成系统，进展设计，改善和设置的一门学科。

它综合运用数学，物理学和社会科学方面的专门知识和技术，以及工程分析和设计的原理与方法，对该系统所取得的成果进展确定，预测和评价2.生产率的定义：一般定义：产出和投入之比概念：是衡量生产要素(资源)使用效率的尺度3.生产率管理的定义：是对一个生产系统的生产率进展规划，测定，评价，控制和提高的系统管理过程4.生产过程的定义：是从产品投产前一系列生产技术组织开始，直到把它生产出来为止的过程(自然过程，劳动过程)劳动过程：生产准备过程，根本生产过程，辅助生产过程，生产效劳过程根本生产过程：工艺检验运输5.生产流程分析的定义：生产流程分析是以产品的整个制造过程为研究对象的一种系统分析6.作业测定的定义：作业测定(工作衡量)是运用各种技术来确定合格工人按规定作业标准完成某项工作所需的时间7.标准时间的定义：在适宜的操作条件下，用最适宜的操作方法，以普通熟练工人的正常速度完成标准作业所需的劳动时间8.时间研究的定义：时间研究是一种作业测定技术，旨在决定一位合格，适当，训练有素的操作者，在标准状态下，对一特定的工作以正常速度操作所需的时间9.工作日写实的定义：按照工作时间消耗的顺序对工人在整个工作时间或部分工作时间的一切情况，进展实地观察，记录和分析的一种方法10.标准资料的定义：将直接由作业测定所获得的大量测定值或经历值分析，编制而成的某种构造的作业要素(根本操作单元)正常时间值的数据库11.劳动定额的定义：指在一定生产技术，组织条件下，采用科学合理的方法，为生产一定量的合格产品或完成一定量的工作，所预先规定的劳动消耗量的限额12.劳动定额标准的定义：是对劳动定额制定，实施，统计分析和修订的各个环节中重复性事物所作的统一规定13.现场管理的定义：是对生产现场的一切活动，按照企业的经营目标，进展方案，组织，协调，控制和鼓励的总称14.定置管理的定义：定置管理是企业对生产现场中的人，物，场所三者之间的关系进展科学地分析研究，使之到达最正确结合状态的一门科学管理方法，它以物在场所的科学定置为前提，以完整的信息系统为媒介，以实现人和物的有效结合为目的，通过对生产现场的，整顿，把生产现场中不需要的物品去除掉，把需要的物品放在规定位置上，使其随手可得，促进生产现场管理文明化，科学化，到达高效生产，优质生产，平安生产。

工业工程专业课程中英文简介财务管理学课程中英文简介 (1)产品虚拟设计与快速制造课程中英文简介 (2)工程经济学课程中英文简介 (3)工效学课程中英文简介 (4)工业工程技术与应用系列专题课程中英文简介 (5)工业工程专业导论课程中英文简介 (6)工业工程专业英语课程中英文简介 (7)供应链管理与物联网技术课程中英文简介 (8)机电系统控制技术课程中英文简介 (9)基础工业工程课程中英文简介 (10)决策分析导论课程中英文简介 (11)企业资源规划课程中英文简介 (12)人力资源管理课程中英文简介 (13)设施规划与物流管理课程中英文简介 (14)生产计划与控制课程中英文简介 (15)生产系统工程课程中英文简介 (16)生产系统建模与仿真课程中英文简介 (17)数据库系统及应用课程中英文简介 (18)项目管理课程中英文简介 (19)运筹学课程中英文简介 (20)制造工程信息集成技术课程中英文简介 (21)制造执行系统课程中英文简介 (22)质量管理学课程中英文简介 (23)财务管理学课程中英文简介课程编码：SC08400400课程中文名称：财务管理学课程英文名称：Financial Management总学时：36学分：2课程简介：财务管理学是一门以提高经济效益为目的、以运筹资金为对象，阐明财务管理的基本理论和基本方法的专业课程。

课程教学以企业资金活动为中心，以资金的筹集、投放、耗费、收入和分配为框架，阐述财务管理的基本概念、管理原则、管理制度等理论问题使学生掌握预测、决策、计划、控制、分析等业务方法。

通过学习学习财务管理学，明确财务管理的含义、目标和特点，认识做好财务管理工作对于提高企业经济效益的重要意义；理解财务管理的基本内容，懂得各种财务活动的联系；掌握财务管理的各种业务方法，学会运用财务管理的知识和技能为经营战略和经营决策服务，为学生毕业后从事企业的理财或经济管理工作奠定良好的基础，具备从事经济管理工作所必需的财务管理业务知识和工作能力。

Unit 1 Introduction to Industrial EngineeringThe Roles of IE工业工程是新兴的经典和新颖的将计算解决复杂和系统性的问题，在今天的高度科技世界职业之一。

，特别是在中国快速发展的经济和其作为世界制造业中心的演技，为IE的需求将增加，并不断扩大和迫切。

生产系统或服务系统，包括输入，转换和输出。

通过改造，增加值的增加，系统的效率和效益都有所提高。

转化过程中所使用的技术和管理科学以及它们的组合依靠。

管理生产系统的服务体系，是一个具有挑战性和复杂的，行为科学，计算机和信息科学，经济，以及大量的主题有关的基本原则和技术，生产和服务系统的技术。

The Demand for IE Graduates对于IE 毕业生的需求工业工程课程设计准备的学生，以满足未来中国的经济和和谐社会建设的挑战。

许多即毕业生（IES ），事实上，设计和运行现代制造系统和设施。

其他选择从事服务活动，如健康，Äìcare 交付，金融，物流，交通，教育，公共管理，或咨询等。

为IE毕业生的需求比较旺盛，每年增长。

事实上，对于非法入境者的需求大大超过供给。

这种需求/供给不平衡是为IE大于其他任何工程或科学学科，并预计在未来多年存在。

因此，over150大学或学院于2004年在中国开设了IE浏览器程序。

The Objectives of the Textbook教科书的目标这本教科书的主要目的是引入系统化的理论和先进的技术和方法，工业工程，以及他们的英语表达有关科目。

教科书的另一个目的是加强和改进学生，AOS与工业工程专业英语文献的阅读和理解能力。

Engineering and Science工程与科学怎么这两个词，úindustrial，ùand，úengineering，ùget相结合，形成长期，úindustrial工程，非盟是什么工业工程和其他工程学科之间的关系，企业管理，社会科学为了了解工业工程的作用，在今天，AOS经济和知识为基础的的时代，它是有利于学习，希望在IE的演变历史的发展，有许多半途而废写历史发展的工程。