外文翻译--自动生产线-精品

生产线介绍英语作文Title: Introduction to a Production Line。

A production line, often referred to as an assembly line, is a fundamental component of modern manufacturing processes. It represents a systematic arrangement of machinery, equipment, and workers involved in the fabrication of products on a large scale. In this essay, we will delve into the intricacies of a production line, exploring its structure, functionality, and significance in contemporary industries.At the heart of a production line lies the concept of division of labor, pioneered by Adam Smith in the 18th century. This principle entails breaking down the manufacturing process into discrete tasks, each performed by specialized workers or machinery. By allocating specific responsibilities to different individuals or automated systems, production lines streamline operations, enhance efficiency, and optimize output.The structure of a production line typically comprises several key components:1. Input Stage: This is where raw materials, components, or sub-assemblies enter the production line. These inputs serve as the foundational elements upon which the manufacturing process operates.2. Assembly Stations: These are designated areas along the production line where various tasks are performed to transform raw materials into finished products. Eachstation is equipped with the necessary tools, machinery,and skilled personnel to carry out specific operations.3. Conveyor Systems: Central to the functionality of a production line are conveyor belts or other automated transportation mechanisms. These systems facilitate the smooth movement of materials and products between assembly stations, ensuring a continuous flow of work.4. Quality Control Points: Throughout the productionline, quality control measures are implemented to monitor the integrity and consistency of the output. Inspections, testing, and analysis are conducted at strategic intervalsto identify and rectify any defects or discrepancies.5. Output Stage: At the conclusion of the production line, finished products emerge ready for distribution or further processing. This stage may involve packaging, labeling, and other finishing touches before the products are dispatched to customers or retailers.The functionality of a production line is underpinnedby several guiding principles:1. Efficiency: By minimizing waste, optimizing resource utilization, and streamlining processes, production lines strive to maximize efficiency and productivity.2. Standardization: Standardized procedures, components, and workflows are employed to ensure consistency,reliability, and scalability across the production line.3. Flexibility: While adherence to standards is paramount, production lines also incorporate flexibility to accommodate variations in demand, product specifications, and market dynamics.4. Continuous Improvement: Through ongoing analysis, feedback mechanisms, and adaptation, production lines embrace a culture of continuous improvement, striving to enhance performance and competitiveness.The significance of production lines in modern industries cannot be overstated. They serve as the backbone of manufacturing operations across a myriad of sectors, including automotive, electronics, pharmaceuticals, and consumer goods. By leveraging the principles of efficiency, standardization, and innovation, production lines enable companies to meet consumer demands, drive economic growth, and remain competitive in a global marketplace.In conclusion, a production line represents a sophisticated orchestration of resources, processes, and technologies aimed at transforming raw materials intofinished products efficiently and effectively. Its structured approach to manufacturing, guided by principles of division of labor, standardization, and continuous improvement, underscores its pivotal role in modern industrial ecosystems. As industries evolve and technology advances, production lines will continue to evolve, driving innovation and shaping the future of manufacturing.。

英文原文名Automatic production line PLC control中文译文：自动化生产线自动上料站的PLC控制自动生产线是由工件传送系统和控制系统，将一组自动机床和辅助设备按照工艺顺序联结起来，自动完成产品全部或部分制造过程的生产系统，简称自动线。

二十世纪20年代，随着汽车、滚动轴承、小电机和缝纫机和其他工业发展,机械制造业开始出现在自动生产线,第一个是组合机床自动线。

在20世纪20年代,第一次出现在汽车工业流水生产线和半自动生产线,然后发展成自动生产线。

第二次世界大战后,在机械制造工业发达国家,自动生产线的数量急剧增加。

采用自动生产线生产的产品应该足够大,产品设计和技术应该是先进的、稳定的和可靠的,基本上保持了很长一段时间维持不变。

自动线用于大,大规模生产可以提高劳动生产率,稳定和提高产品质量,改善劳动条件,降低生产区域,降低生产成本,缩短生产周期,保证生产平衡、显著的经济效益。

自动生产线的一个干预指定的程序或命令自动操作或控制的过程,我们的目标是稳定、准确、快速。

自动化技术广泛用于工业、农业、军事、科学研究、交通运输、商业、医疗、服务和家庭,等自动化生产线不仅可以使人们从繁重的体力劳动、部分脑力劳动以及恶劣、危险的工作环境,能扩大人的器官功能,极大地提高劳动生产率,提高人们认识世界的能力,可以改变世界。

下面我说下它的应用范围：机械制造业中有铸造、锻造、冲压、热处理、焊接、切削加工和机械装配等自动线，也有包括不同性质的工序，如毛坯制造、加工、装配、检验和包装等的综合自动线。

加工自动线发展最快,应用最广泛的机械制造。

主要包括:用于处理盒、外壳、各种各样的部件,如组合机床自动线;用于加工轴、盘部分,由通用、专业化、或自动机器自动专线;转子加工自动线;转子自动线加工过程简单、小零件等。

1.确保节拍时间:无论什么样的产品,都必须完成的时间生产。

2.单元过程:只有一个产品,单位部分处理、组装、加工和材料。

毕业设计(论文)外文资料翻译学院（系）：机械工程学院专业：机械工程及自动化姓名：学号：0701010249外文出处：Visualization of PLC program using XML附件：1.外文资料翻译译文；2.外文原文。

指导教师评语：签名：年月日附件1：外文资料翻译译文可视化的PLC程序使用XML米巴尼尤尼斯和G.弗雷摘要:由于P LC程序日益复杂,在PLC应用方面有越来越多的兴趣爱好者。

形式化方法，让僵化的证明系统属性被核查和验证。

一个传统思路的方法就是在PLC 编程中设立一个正式的设计方法。

不过，现有的软件已被优化，改变，或移植到新系统.有需要找到从某一PLC程序开始的方法。

因此，规范PLC程序是一个现在研究的热点。

该文章概述了基于形式化的PLC程序基础上从新启动的方法。

转型成为一个独立的格式和可视化的结构，在这个过程中，PLC程序的确定是作为这项措施的重要中间步骤。

这表明如何XML和相应的技术可用于形式化和可视化现有的PLC程序。

一导言可编程逻辑控制器（PLC）是一种特殊类型的计算机，它应用于工业和安全的关键地方。

应用PLC的目的是控制某一特定的或可选择的过程，它是通过产生的电控制信号回应电器中相关的输出信号来实现的。

应用在制造业和化工过程控制，机械加工，交通，电力分配，以及其他许多领域。

PLC控制有着极大的不同，自动化应用范围的复杂性从一个简单的小组运作到控制一个会议室的的灯光和自动窗成为一个全自动化的生产线。

随着他们应用PLC知识的增加，他们把PLC应用到复杂性和品质要求高的地方，特别是对安全性要求特别严格的地方。

由于在有限的时间里PLCD的发展应用日益复杂，现有的软件或PLC的模块也在迅速发展，以此，需要一个正式的办法加以规范。

为了确保高品质的要求，我们需要检查和验证程序，以及分析和模拟现有系统[2] 。

其中一个重要的领域就是已经在最近的时间成长在规范化的PLC程序是逆向工程[3] 。

项目一自动化生产线简介
清晰
自动化生产线（Automated Production Line）是一种计算机控制的制造系统，由机器人、机械设备组成的制造系统，它能够完成件产品的所有加工工序，并快速、准确地完成从原料到完成品的自动化生产。

它能够大大提高生产效率，改善产品质量，缩短产品周期，减轻劳动强度，同时能够减少产品生产的成本，提高企业竞争力，被认为是当今制造业的核心技术。

自动化生产线的组成部分：
1、自动化生产线的数控设备：主要包括机床、智能工具机，以及其他相关的设备，如：微机辅助制造（CAM），计算机数控机床（CNC），计算机辅助设计（CAD）等。

这些设备有助于提高零件的加工精度，并提高产品零件的精确性，提高下料的质量。

2、机器人：机器人在生产线中起着至关重要的作用，它们能够自主完成单个环节的灵活机械操作，是自动化生产线操作的重要组成部分。

近几年来，机器人的集成性及智能化水平得到较大的提高，并且因应着智能制造的发展趋势，更多更先进的机器人技术正在投入使用。

机械设计制造及自动化专业英语翻译Translation of Mechanical Design, Manufacturing, and Automation MajorIntroductionKey Concepts2. Manufacturing: This refers to the transformation of raw materials into finished products through various production processes. It includes techniques such as casting, machining, welding, and assembly. The goal is to optimize efficiency, quality, and cost-effectiveness.Courses1. Engineering Mechanics: This course covers the fundamental principles of mechanics, including statics, dynamics, and strength of materials. Students learn how to analyze and predict the behavior of mechanical systems and structures underdifferent conditions.3. Manufacturing Processes: This course introduces students to various manufacturing techniques, such as machining, casting, and welding. They learn how to select the appropriate processfor different types of products and understand the factors that affect production efficiency and quality.4. Industrial Robotics: This course provides an in-depth understanding of robotic systems and their applications in industrial settings. Students learn about robot programming, control, and integration to automate manufacturing processes and improve productivity.5. Control Systems: This course covers the principles of control theory and their application in automation. Students learn about sensor technology, feedback control loops, and programming techniques to design and implement control systems for mechanical processes.Conclusion。

自动化生产线概述自动化生产线是指在生产过程中应用各种自动化技术和装置，实现产品的自动化生产和加工的系统。

它通过使用各种机械、电子、控制和信息技术，将人工操作转化为机器或设备的自动操作，从而提高生产效率、减少人力成本，并提高产品质量和一致性。

一、自动化生产线的优势自动化生产线具有许多优势，下面我们来详细介绍几点：1.提高生产效率：自动化生产线能够实现连续、高速、高效的生产，具有很高的生产能力。

相比手工操作，自动化生产线可以同时完成多个任务，从而大大提高了生产效率。

2.降低人力成本：自动化生产线减少了对人力的依赖，能够节省大量的人工成本。

它可以不间断地运行，不受工人疲劳、休息等因素的影响，从而降低了劳动力的投入成本。

3.提高产品质量：自动化生产线通过使用精密的传感器和监控系统，能够实时监测和控制生产过程中的各个环节，从而保证产品的质量和一致性。

它能够减少人为因素对产品质量的影响，降低产品的次品率。

4.增强安全性：自动化生产线可以执行危险、高温、高压等工作任务，避免了工人在危险环境下的作业，提高了工作的安全性。

它还能够减少人工操作引起的意外事故，保障员工的生命安全和健康。

5.灵活性和可扩展性：自动化生产线具有较强的灵活性和可扩展性。

通过调整和优化自动化生产线的各个环节，可以适应不同产品的生产需求。

当生产需求发生变化时，只需进行简单的调整或增加新的模块，就可以快速实现生产线的扩展和改造。

二、自动化生产线的应用领域自动化生产线广泛应用于各种不同的行业和领域。

下面我们列举几个常见的应用领域：1.汽车制造：汽车制造是自动化生产线应用最为广泛的领域之一。

在汽车制造过程中，自动化生产线可以完成车身焊接、喷漆、装配等任务，大大提高了汽车的生产效率和一致性。

2.电子制造：自动化生产线在电子制造行业中也有很大的应用。

在电子产品的生产过程中，自动化生产线可以完成电路板组装、元器件安装和测试等工作，提高了电子产品的生产效率和质量。

English Translation Material1. Transfer MachineThe highest degree of automation with special-purpose, multifunction machines is achieved by using transfer machines. Transfer machine are essentially a combination of individual workstations arranged in the required sequence, connected by work transfer devices, and integrated with interlocked controls. Workplaces are automatically transferred between the stations, which are equipped with horizontal, vertical, or angular units to perform machining , gaging ,workplace repositioning, assembling, washing, or other operation. The two major classes of transfer machines are rotary and in-line types.An important advantage of transfer machines is that they permit the maximum number of operations to be performed simultaneously. There is relatively no limitation on the number of workplace surface or planes that can be machined, since devices can be interposed in transfer machines at practically any point for inverting, rotating, or orienting the workplace, so as to complete the machining operations. Work repositioning also minimizes the need for angular machining heads and allows operations to be performed in optimum time. Complete processing from rough casting or forging to finished parts is often possible.One or more finished parts are produced on a transfer machine with each index of the transfer system that moves the parts from stations to stations. Production efficiencies of such machines generally range from 50% for a machine variety of different parts to 85% for a machine producing one part, in high production, depending upon the workplace and how the machine is operated(material handling method, maintenance procedures, etc. )All types of machining operations, such as drilling, tapping, reaming, boring, and milling, are economically combined on transfer machines. Lathe-type operations such as turning and facing are also being performed on in-line transfer machine, with the workplace being rotated in selectedmachining stations. Turning operations are performed in lathe-type segments in which toolholders are fed on slides mounted on tunnel-type bridge units. Workplace are located on centers and rotated by chucks at each turning station. Turning stations with CNC are available for use on in-line transfer machine. The CNC units allow the machine cycles to be easily altered to accommodate changes in workplace design and can also be used for automatic tool adjustments.Maximum production economy on transfer lines is often achieved by assembling parts to the workplaces during their movement through the machine. such items as bushings, seals, welch plugs, and heat tubes can be assembled and then machine or tested during the transfer machining sequence. Automatic nut torquing following the application of part subassemblies can also be carried out.Gundrilling or reaming on transfer machines is an ideal application provided that proper machining units are employed and good bushing practices are followed.Contour boring and turning of spherical seats and other surface can be done with tracer-controlled single-point inserts, thus eliminating the need for costly special form tools. In-process gaging of reamed or bored holes and automatic tool setting are done on transfer machines to maintain close tolerances.Less conventional operations sometimes performed on transfer machines include grinding, induction heating of ring gears for shrink-fit pressing on flywheels, induction hardening of valve seats, deep rolling to apply compressive preloads, and burnishing.Transfer machines have long been used in the automotive industry for production rates with a minimum of manual part handling. In addition to decreasing labor requirements, such machines ensure consistently uniform, high-quality parts at lower cost. They are no longer confined just to rough machining and now often eliminate the need for subsequent operations such as grinding and honing.More recently, there has been an increasing demand for transfer machines to handle lower volumes of similar or even different parts in smaller sizes, with means for quick changeover between production runs. Built-in flexibility, the ability to rearrange and interchange machine units, and the provision of idle stations increases the cost of any transfer machine, but such feature are economically feasible when product redesigns are common. Many such machines are now being used in nonautomotive applications for lower production requirements.Special feature now available to reduce the time required for part changeover include standardized dimensions, modular construction, interchangeable fixtures mounted on master pallets that remain on the machine, interchangeable fixture components, the ability to lock out certain stations for different parts by means of selector switches, and programmable controllers. Product design is also important, and common transfer and clamping surfaces should be provided on different parts whenever possible.2. Programmable Logic ControllersA programmable logic controller (PLC) is a solid-state device used to control machine motion or process operation by means of a stored program. The PLC sends output control signals output and receive input signals through input/output (I/O) devices. A PLC controls output in response to stimuli at the inputs according to the logic prescribed by the stored program. The inputs are made up of limit switches, pushbuttons, thumbwheels, switches, pulses, analog signal, ASCII serial data, and binary or BCD data from absolute position encoders. The output are voltage or current level to drive end devices such as solenoids, motor starters, relays, lights, and so on. Other output device include analog devices, digital BCD displays, ASCII compatible devices, servo variable-speed drives, and even computers.Programmable controllers were developed (circa in 1968) when General Motors Corps, and other automobile manufacturers were experimenting to see if there might be an alternative to scrapping all their hardwired control panel of machine tools andother production equipment during a model changeover. This annual tradition was necessary because rewriting of the panels was more expensive than buying new ones. The automotive companies approached a number of control equipment manufacturers and asked them to develop a control system that would have a longer productive life without major rewriting, but would still be understandable to and repairable by the plant personnel. The new product was named a “programmable controller”.The processor part of the PLC contains a central processing unit and memory. The central processing unit (CPU) is the “traffic direction” of the processor, the memory stores information. Coming into the processor are the electrical signals from the input devices, as conditioned by the input module to voltage levels acceptable to processor logic. The processor scans the state of I/O and updates outputs stored in the memory of the PLC. For example, the processor may be programmed so that if an input connected to a limit switch is true (limit switch closed), then a corresponding output wired to an output module is to be energized. This processor remembers this command through its memory and compares on each scan to see if that limit switch is, in fact, closed. If it is closed ,the processor energizes the solenoid by turning on the output module.The output device, such as a solenoid or motor starter, is wired to an output module’s terminal, and it receives its shift signal from the processor, in effect, the processor is performing a long and complicated series of logic decisions. The PLC performs such decisions sequentially and in according with the stored program. Similarly, analog I/O allows the processor to make decisions based on the magnitude of a signal, rather than just if it is on or off. For example, the processor may be programmed to increase or decrease the steam flow to a boiler (analog output) based on a comparison of the actual temperature in the boiler (analog input ) This is often performed by utilizing the built-in PID (proportional, integral, derivative) capabilities of the processor.Because a PLC is “software based”, its control logic functions can be changed by reprogramming its memory. Keyboard programming devices facilitate entry of the revised program, which can be design to cause an existing machine or process to operate in a different sequence or to different level of, or combinations of stimuli. Hardware modifications are needed only if additional, changed, or relocated input/output device are involved.3. Automated AssemblyAssembly in the manifacturing process consists of putting together all the component parts and sub-assemblies of a given product, fastening, performing inspections and function tests, labeling, separating good assembly from bad, and packaging and or preparing them for final use. Assembly is unique compared to the methods of manufacturing such as machining, grinding, and welding in that most ofthese processes invovle only a few disciplines and possibly only one. Most of these nonassembly operations cannot be performed weithout the aid of equipment; thus the development of automatic methods has been necessary rather than optional. Assembly, on the other hand, may involve in one machine many of the fastening methods,such as riveting, welding, screwdriving,and adhesive application,as well as automatic parts seletion, proding, gaging, functional testing, labeling,and packaging. The state of the art in assembly operations has not reached the level of standardization; much manual work is stillbeing performed in this area.Assembly has traditionally been one of the highest areas of direct labor costs. In some cases, assembly accounts for 50% or more of manufacturing csosts and typically 20% ～50%. However, closer cooperation between design and manufacturing engineers has resulted in reducing and in a few cases eliminating altogether the need for assembly. When asssembly is required, improved design or products has simplified automated (semiautomatic or automatic) assembly.Considerations for Automated AssemblyBefore automated assembly is adopted, several factors should be considerd. These include practicality of the process for automation, simulation for economic considerations and justification, management involvement, and labor relations. Determining the practicality of automated assembly required careful evaluation of the following:a)The number of parts in assembly.b)Design of the parts with respect to producibility, assembility, automatic handling, and testability (materials, forms, dimensional tolerances, and weights).c)Quality of parts to be assembled. Out-of-tolerance or defective parts can cause production losses and increase costs because of stoppages.d)Availablity of qualiyied, technically competent personal to be responsible for equipment operation.e) Total production and production-rate requipments.Product variations and frequency of design changes.f)Joining methods required.g)Assembly times and costs.h)Assembly lines or system configuration, using simulation, including material handling.译文1. 自动生产线使用自动生产线可以利用专用、多功能机床来实现最大程度的自动化。

组合机床及其自动生产线周召君译摘要：组合机床及其自动生产线是集机电于一体的自动化程度较高的制造技术和成套工艺装备,它的特征是高效、高质、经济实用,因而被广泛用于工程机械、交通、能源、军工、轻工、家电等行业。

本文根据工厂需要,设计一台能高效加工大批量产品的专用组合机床。

文章从工艺方案设计、总体设计、部件设计等几部分进行设计。

关键词：组合机床；自动控制；机床；许多情况下，成型加工出来的工件必须在尺寸和光洁度方面进一步精整，以满足它们的设计技术要求。

为满足精度公差，需要从工件上去掉小量的材料。

通常机床就是用于这种加工的设备。

通过切削工具使工件成型达到所需的尺寸，机床通过其基础构件的功能作用，以控制相互关系，支持、夹紧工具和工件，基本部件列举如下：a) 床身. 这是个主要部件，它为主轴、拖板箱等提供了一个基础和连接中介，在负载作用下，它必须使形变和振动保持最小。

b) 拖板箱和导轨. 机床部件（如拖板箱）的移动，通常是在精确的导轨面约束下靠直线运动来实现。

c) 主轴和轴承. 角位移是围绕一个旋转轴线发生的。

该轴线的位置必须在机床中极端精确的限度内保持恒定，而且是靠精密的主轴和轴承来提供保证。

d) 动力装置. 电机是为机床普遍采用的动力装置，通过对各个电机的合适定位，使皮带和齿轮传动装置减少到最少。

e) 传动连杆机构. 连杆机构是个通用术语，用来代表机械、液压、气动或电动机构，这些机构与确定的角位移和线位移相互关联。

加工工艺主要由两部分组成:a) 粗加工工艺. 粗加工，金属切除率高，因而切削力也较大，但其所要求的精度较低。

b) 精加工工艺. 精加工，金属切除率低，因而切削力较小，但其要求的尺寸精度和表面光洁度都比较高。

由此可见，静载荷和动载荷，例如由不平衡的砂轮引起的动载荷，在精加工中比粗加工中有着更为重要的意义，任何加工过程所获得的精度通常将受到由于力的作用而引起形变量的影响。

机床机架一般是用铸铁制造的，然而有些也有可能用铸钢或中碳钢来制造。

中英文对照外文翻译Automation of professional developmentAutomation in the history of professional development, "industrial automation" professional and "control" professional development of the two main line, "industrial automation" professional from the first "industrial enterprises electrified" professional.In the 1950s, the New China was just founded, the 100-waste question, study the Soviet Union established system of higher education, Subdivision professional. Corresponding to the country in the construction of industrial automation and defense, military construction in automatic control, successively set up the "electrification of industrial enterprises" professional and "control" professional (at that time in many schools, "Control" professional secrecy is professional) . After several former professional name of evolution (see below), and gradually develop into a "biased towards applications, biased towards strong," Automation, and the latter to maintain professional name of "control" basically unchanged (in the early days also known as the "automatic learning And remote learning, "" Automatic Control System "professional), and gradually develop into a" biased towards theory, biased towards weak, "the automation professional, and come together in 1995, merged into aunified" automatic "professional . In 1998, according to the Ministry of Education announced the latest professional undergraduate colleges and universities directory, adjusted, the merger of the new "automated" professional include not only the original "automatic" professional (including "industrial automation" professional and "control" professional ), Also increased the "hydraulic transmission and control of" professional (part), "electrical technology" professional (part) and "aircraft guidance and control of" professional (part).Clearly, one of China's automation professional history of the development of China's higher education actually is a new development of the cause of a microcosm of the history, but also the history of New China industrial development of a miniature. Below "industrial automation" professional development of the main line of this example, a detailed review of its development process in the many professional name change (in real terms in the professional content changes) and its industrial building at the time of the close relationship.First a brief look at the world and China's professional division history. We know that now use the professional division is largely from the 19th century to the beginning of the second half of the first half of the 20th century stereotypes of the engineering, is basically industry (products) for the objects to the division, they have been the image of people Known as the "industry professionals" or "trade associations." At present the international education system in two categories, with Britain and the United States as the representative of the education system not yet out of "industry professionals" system, but has taken the "generalist" the road of education and the former Soviet Union for Europe (close to the Soviet Union) as the representative The education system, at the beginning of theimplementation of "professionals" education, professional-very small, although reforms repeatedly, but to the current "industry professionals" are still very obvious characteristics.In the 1950s, just after the founding of New China, a comprehensive study and the Soviet Union and sub-professional very small; Since reform and opening up, only to Britain and the United States to gradually as the representative of the education system to move closer, and gradually reduce the professional, the implementation of "generalist" education through a number of professional Restructuring and merger (the total number of professionals from the maximum of 1,343 kinds of gradually reducing the current 249 kinds), although not out of "industry professionals" and "Mei Ming," but many of the colleges and universities, mostly only one of a Professional, rather than the past more than a professional.Before that, China's first professional automation from the National University in 1952 when the first major readjustment of the establishment of professional - electrified professional industrial enterprises. At that time, the Soviet Union assistance to the construction of China's 156 large industrial enterprises, automation of much-needed electrical engineering and technical personnel, and such professional and technical personnel training, and then was very consistent with China's industrial construction. By the 1960s, professional name changed to "industrial electric and automation," the late 1970s when to resume enrollment "Electric Industrial Automation" professional. This is not only professional name changes, but has its profound meaning, it reflects China's industries from "electrified" step by step to the "automatic" into the real history and that part of the development trend of China's automation professional reflects how urgent countries Urgent for the country'seconomic construction services that period of history and development of real direction.1993, after four years of the third revision of the undergraduate professional directories, the State Education Commission issued a call "system integrity, more scientific and reasonable, the harmonization of norms," the "ordinary professional directory of undergraduate colleges and universities." "Electric Industrial Automation" and "production process automation" merger of the two professional electrician to set up a kind of "industrial automation" professional, by the then Ministry of Industry Machinery centralized management colleges and universities to set up industrial automation teaching guide at the Commission, responsible for the "Industrial Automation "professional teaching and guiding work at the same time," Control "was attributable to the professional category of electronic information, the then Ministry of Industry of electronic centralized management control to set up colleges and universities teaching guide at the Commission, responsible for the" control " Professional teaching guide our work. After the professional adjustment, further defined the "industrial automation" professional and "control" professional "- both strong and weak, hardware and software into consideration and control theory and practical system integration, and the movement control, process control and other targets of control "The common characteristics with the training objectives, but also the basic set of" industrial automation "biased towards strong, professional, biased towards applications," Control "professional biased towards weak, biased towards the theory of professional characteristics and pattern of division of labor. 1995, the State Education Commission promulgated the "(University) undergraduate engineering leading professional directory", the electrical category "industrialautomation" professional and the original electronic information such as "control" of professional electronic information into a new category of "automatic" professional . As this is the leading professional directory, are not enforced, coupled with general "industrial automation" strong or weak, both professional "into" a weak professional category of electronic information is not conducive to professional development and thus many Schools remain "industrial automation" professional and "control" the situation of professional co-exist. Since 1996 more, again commissioned by the Ministry of National Education Ministry of Industry and electronic machinery industries of other parts of the establishment of the new session (second session) centralized management guidance at the University Teaching Commission, making the leading professionals have not been effective Implemented.1998, to meet the country's economic construction of Kuan Koujing personnel training needs, further consolidation of professional and international "generalist" education track by the Ministry of Education announced a fourth revision of the latest "Universities Undergraduate Catalog." So far in the use of the directory, the total number of professionals from the third amendments to the 504 kinds of substantially reduced to 249 species, the original directory is strong, professional electrician and a weak professional category such as electronics and information into categories Electric power, the unity of Information, a former electrician at the same time kind of "industrial automation" professional and the type of electronic information "control" professional formal merger, together with the "hydraulic transmission and control of" professional (part) , "Electric technology" professional (part) and "aircraft guidance and controlof" professional (part), the composition of the new (enforcement) are electrical information such as "automatic" professional. According to statistics, so far the country has more than 200 colleges and universities set up this kind of "automatic" professional. If the name of automation as part of their professional expertise (such as "electrical engineering and automation," "mechanical design and manufacturing automation," "agricultural mechanization and automation" and other professionals) included Automation has undoubtedly is the largest in China A professional.Of the characteristics of China's automation professional:Recalling China's professional history of the development of automation, combined with the corresponding period of the construction of China's national economy to the demand for automation and automated the development of the cause, it is not difficult to sum up following professional characteristics:(1) China's automation professional is not only a relatively long history (since 1952 have been more than 50 years), and from the first day of the establishment of professional automation, has been a professional one of the countries in urgent need, therefore the number of students has also been The largest and most employers welcome the allocation of the professional one.(2) China's automation is accompanied by a professional from the electrification of China's industrial automation step by step to the development of stable development, professional direction and the main content from the first prominent electrified "the electrification of industrial enterprises" step by step for the development of both the electric and automation " Industrial electric and automation ", highlighting the electrical automation" Electric Industrial Automation "and prominent automation" industrial automation ", then the merger of professional education reform in1995 and" control "of professional content into a broader" automated " Professional. From which we can see that China's automation professional Although the initial study in the Soviet education system established under the general environment, but in their development and the Soviet Union or the United States and Britain did not copy the mode, but with China's national conditions (to meet national needs for The main goal) from the innovation and development of "cross-industry professionals," features the professional.自动化专业的发展自动化专业的发展历史中，有“工业自动化”专业与“自动控制”专业两条发展主线，其中“工业自动化”专业最早源于“工业企业电气化”专业。

英文翻译系别机电工程系专业机械设计制造及其自动化班级学生姓名学号指导教师Production Line BalancingThe scope of this study is to explore the understanding of Productionline Manu-facturing and Balancing, Types of Line Balancing, Equipment Balancing and its Failure an-d Analysis.A production line is said to be in balance when every worker’s task takes the same amount of time. Line balancing is a manufacturing-engineering function in which whole collection of pr-oductionline tasks are divided into equal portions.Well-balanced lines avoid labour idealness and imp-rove productivity.Production Line BalancingLine-balancing strategy is to make production lines flexible enough to absorb ex-ternal and internal irregularities. There are two types of line balancing, which we have explained as：Static Balance Refers to long-term differences in capacity over a period of sever-al hours or longer. Static imbalance results in underutilization of workstations, machi-nes and people.Dynamic Balance Refers to short-term differences in capacity, like, over a perio-d of minutes, hours at most. Dynamic imbalance arises from product mix changes and variations in work time unrelated to product mix.Labour Balancing and AssignmentsStrategy of production line stability is the tendency for labour assignments to be f ixed. Labour feasibility is an important feature in the strategy of production line flex-i bility linked to individual skills and capabilitiesWhen one worker is having problem in performing his assigned task and experie-ncing delay due to technical problem(s), other worker(s) should move into help.The management practice of deliberately pulling worker’s of the line when the l-ine is running smoothly.The movement of whole crews from one dedicated line to another as the model mix changes.Group Technology – In which one worker can handle variety of tasks (automati-on) in a single work centre.Equipment BalancingWhile balancing equipment, attempt to ensure that each piece of equipment in th-e work cell has the same amount of work. Now days every manufacturer is attempting to maximize the utilization of all available equipments. Such high utilization is often co-unterproductive and may be the wrong goal because; high utilization is usually ac-companied by high inventory.Equipment FailureAn equipment failure is a major serious matter, with the potential to shut down a production line. To avoid such failures one should not overload the equipments, and workers should be trained to perform a daily machine checking (preventive maintena-nce) and following standard operating procedures. The advantage for Maintenance and Engineering.Department does not lie in running late shifts, hence calculate the pr-eventive maintenance time and schedule the activity.AnalysisAnalysis is generally performed by Competent Technical Staff. Begin the analys-is wi-th division of production-line work into small tasks, determination of task time s -tand-ards, specification of required task sequencing and notation of constraints. If bot t-le n-eck task is in the way of good balance, the Competent Technical Staff should an al-yze the task to reduce the time it takes to perform.Line Balancing LeadershipWorkmen should lead the production line balancing effort, so that they can react quickly when line imbalances (static and dynamic) crop up as a result of changeover to make a different item or changes in the output rate.ConclusionProduction-line balancing study tends to employ thought and ingenuity to change con-ditions. Production-line design and operation is more art than science. Labour fl-exibility is the key to effective resource management. The idea of workers checking and doing minor repair work on their own equipment possibly decreases the risk of e-quipment failure. Selecting an appropriate set of balancing mechanism is a part of wo-rk cell design and it must be linked with many other decisions for the system to func-tion well.生产线平衡这项研究的范围是探讨生产线的制造和平衡，生产线平衡的类型，设备平衡和故障分析的理解。

MPS自动生产线实训设备概述引言MPS（Modular Production System）自动生产线是一种模块化的生产线系统，在工业领域得到广泛应用。

它通过将生产过程分解为多个独立的模块，实现了生产的灵活性和高效性。

在实训设备方面，MPS自动生产线为学生提供了一个真实的仿真环境，使他们能够学习和实践现代工业生产线的设计和操作。

设备概述MPS自动生产线实训设备由多个模块组成，每个模块都有特定的功能和任务。

以下是该设备的主要模块：1. 运输模块运输模块是MPS自动生产线的基础，它负责物料的运输和定位。

该模块通常包括传送带、输送线和机械臂等，可以根据需要进行组合和调整。

运输模块可以将物料从一个工作台传送到另一个工作台，实现生产过程的连续进行。

2. 处理模块处理模块是MPS自动生产线的核心部分，它包括各种机械设备和工具，用于加工和处理物料。

例如，焊接机器人、装配设备和数控机床等。

处理模块可以根据需要进行调整和添加，以适应不同的生产任务。

3. 控制模块控制模块是MPS自动生产线的智能部分，它负责整个生产线的控制和协调。

该模块通常包括PLC（Programmable Logic Controller）和计算机等设备，可以实现生产过程的自动化管理和监控。

控制模块可以通过编程和配置，实现自动化的生产过程和故障检测。

4. 检测模块检测模块是MPS自动生产线的质量保证部分，它用于对生产过程和成品进行检测和测试。

检测模块通常包括传感器和测量仪器等设备，可以对物料的尺寸、重量、温度等进行监测。

检测模块可以及时发现生产过程中的异常和缺陷，确保产品的质量和可靠性。

实训内容MPS自动生产线实训设备可以用于多个实训内容，为学生提供了丰富的实践机会。

以下是一些常见的实训内容：1. 工艺流程设计学生可以通过MPS自动生产线实训设备，学习和实践工业生产线的工艺流程设计。

他们可以根据不同的产品要求，设计并优化生产线的工艺流程，实现生产过程的高效和稳定。

生产线英语作文In the modern industrial era, the concept of production lines has been a cornerstone of efficiency and mass production.This essay will explore the evolution of production lines,their impact on the economy, and the future of manufacturing.The birth of the production line can be traced back to the early 20th century with the advent of the automobile industry. Henry Ford's implementation of the assembly line for the production of the Model T revolutionized the way goods were manufactured. Prior to this, production was a craft-based process where skilled artisans created items by hand. The assembly line transformed this into a process where unskilled workers could perform a single, repetitive task, leading to a significant increase in production speed and a decrease in costs.Over the years, production lines have become moresophisticated with the integration of robotics and automation. Machines now perform many of the tasks previously done by humans, leading to further increases in efficiency andquality. The use of computer-aided design (CAD) and computer-aided manufacturing (CAM) has allowed for greater precision and the ability to produce complex items that would be impossible by hand.The impact of production lines on the economy has been profound. They have enabled the mass production of goods,which has led to lower prices and increased availability. This has not only improved the standard of living for many people but also driven economic growth through job creation and the development of new industries.However, the production line has not come without its challenges. There are concerns about job displacement due to automation, as well as ethical considerations regarding the working conditions in some factories. Additionally, the environmental impact of mass production has led to a push for more sustainable manufacturing practices.Looking to the future, production lines are expected to become even more advanced with the integration of technologies such as artificial intelligence (AI), the Internet of Things (IoT), and 3D printing. These innovations promise to further enhance efficiency and flexibility in manufacturing, allowing for the production of highly customized products in a cost-effective manner.In conclusion, the production line has been a pivotal innovation in the history of manufacturing. It has shaped the way we produce goods and has had a significant impact on the global economy. As technology continues to evolve, so toowill the production line, offering exciting possibilities for the future of manufacturing.。

矿泉水自动生产线流程英文回答：The production process of a mineral water automatic production line involves several steps. Firstly, the empty bottles are transported to the filling station. The bottles are thoroughly cleaned and sanitized to ensure they are free from any contaminants. This is done using high-pressure water jets and chemical disinfectants. Once the bottles are clean, they move to the filling station.At the filling station, the bottles are filled with mineral water. This is done using a high-speed filling machine that accurately measures and dispenses the correct amount of water into each bottle. The filling machine is equipped with sensors to detect any potential errors, such as underfilling or overfilling. If any errors are detected, the bottles are rejected and sent for reprocessing.After the bottles are filled, they move to the cappingstation. Here, caps are automatically placed on the bottles and securely sealed. The capping machine ensures that each bottle is properly sealed to prevent any leakage or contamination.Once the bottles are capped, they move to the labeling station. Here, labels with product information, branding, and nutritional facts are automatically applied to each bottle. The labeling machine ensures that the labels are accurately and neatly attached to the bottles.After labeling, the bottles are inspected for quality control. This is done using automated systems that checkfor any defects, such as misaligned labels or damaged bottles. Any defective bottles are immediately removed from the production line.Finally, the filled and labeled bottles are packaged and prepared for distribution. This can involve placing the bottles in trays or cartons, shrink-wrapping them, or placing them in larger containers for bulk shipment. The packaged bottles are then stored in a warehouse until theyare ready to be shipped to retailers or consumers.中文回答：矿泉水自动生产线的生产过程包括几个步骤。

Best Practice :Standard Production Line templete.Specifications⏹Product : Altivar ATV 31, and by-products : 3 sizes, 22 ratings, 44 part numbers ⏹Measurements:size 7: 140 * 184 * 150 size 9 : 245 * 330 * 190⏹Weight : size 7: 2,3 kg size 9 : 9 kg⏹Average Takt Time : 100 s / workstation & 150 s / product⏹Nber of manual workstations: 8, plus inspections and finishing⏹Nber of operators : 3 to 5 people⏹Replenishment frequency : 1 hour max.⏹Line size (floor area) : 16 m x 6,6 m⏹Average cost of a workstation : 3060 Euro (Assembly Trilogiq + pallets)⏹Lead time : Design, construction, implementation : 3 months.WorkstationElectrical and Pneumaticaldistribution: (Transair )Steel pipe frame Ø 33Multi-connection block,lightingInstruction SupportFront replenishment on 2levels, 1 track percomponentRunning wheel conveyorReturn empty containersFront Picking :interchangeable for eachproduct typeSupply boxesWorking position: standingESD equipment.Workstation : detailsInter module connectionSingle air connectionfor each handle airscrewdriverFrequency supply boxes, clever, andcheapEasy adaptation right / leftPalette.Conveyor, pallet:Bearing way : 2 rails withplastic rollersPallets :material: laminatedfiberboard with plasticguides on lower partPallet: non-slip rubbercoating.No specific moldArea for pallet stocking andpallet transfer on the end-module.Stopping pallet system byblocking rollersBlock 90°turn:lateral guiding and carryingballs.«Dynamic» replenishment:According to height ofreplenishment : 1500mm/groundRamp separatorsReplenishment on 2 levelsLane IdentificationPicking on roller :interchangeable with theproduct type.Standardized PickingsReturn of empty containers.. «Dynamic» replenishment : detailsSeparating lateral guides fixed on roller railFixing system on the frame for roller rails(with stop at full-stroke.) Fixing system and adjusting rampslopePicking on roller : Allow transition for « MADC » organization , waiting implementation of Tugger pulling cartsModule frame without pickingComments:Strong Points⏹According to rules: height ofreplenishments, flow direction, sizeof U shaped line, WIP, flow visibility,ergonomic, etc..⏹High standardization: identicalworkstations and picking⏹Assembly of the product only onvertical axis⏹Accessories adjusted to the need⏹Reusable workstation⏹Flexibility of the line to acceptsubsequently other products.⏹Prototype realized with the supplier,directly in the plant (reactivity)⏹Operators satisfactionWeak Points to improve⏹Turn 90°: lateral play of the palletguides too large.⏹Storage of pallets in the wrongdirection : hands passage⏹Screwdrivers Position / operator’shead.line overview : RS2.。

生产线用英语怎么说生产线就是产品生产过程所经过的路线，即从原料进入生产现场开始，经过加工、运送、装配、检验等一系列生产生产线活动所构成的路线。

那么你知道生产线用英语怎么说吗?下面和店铺一起来学习一下生产线的英语说法吧。

生产线的英语说法1：beltline生产线的英语说法2：production line生产线的相关短语：生产线平衡 Production line balance生产线速度 Production Line Speed五金制品生产线 hardware production line大豆蛋白生产线 soy protein production line生产线设计 Production line design生产线的英语例句：1. Exports have not been halted completely because another line is operational.出口并没有完全停止，因为另一条生产线还能运转。

2. On the production line, downtime has been reduced from 55% to 26%.生产线上停机时间从55%减到了26%。

3. The assembly line of necessity kept moving.生产线势必保持运转下去。

4. Cars are checked as they come off the production line.汽车下了生产线立即进行校验。

5. The production line involves a high degree of specialization of labour.生产线要求工人高度专业化.6. The production lines ground to a halt for hours while technicians tried to debug software.生产线停工达数小时之久，在此期间技术人员试图纠除软件错误。

生产线详细资料大全生产线是以一定类型的零件组为对象组织的一种多品种生产组织形式。

它拥有为完成这几种同类零件的加工任务所必需的机器设备，这些设备和工作地是按生产线上多数零件或者主要零件的工艺路线和工序劳动量比例来排列和配置的。

生产线不象流水线那样严格按节拍进行生产，不能大量采用专用高效设备和工具，不能保证工艺过程的高度连续性，但是它有较大的灵活性，能适应多品种生产的需要。

基本介绍•中文名：生产线•外文名：Production line•类型：路线•来源：英格兰北部•种类：产品生产线和零部件生产线历史由来,种类,生产线平衡,术语定义,意义,线平衡率,改善方法,柔性特点,自动化,发展趋势,技术依赖,相关产品,历史由来从前在英格兰北部的一个小镇里，有一个名叫艾薇的人开的鱼和油煎土豆片商店。

在店里面，每位顾客需要排队才能点他（她）要的食物（比如油炸鳕鱼，油煎土豆片，豌豆糊，和一杯茶），然后每个顾客等著盘子装满后坐下来进餐。

艾薇店里的油煎土豆片是小镇中最好的，在每个集市日中午的时候，长长的队伍都会排出商店。

所以当隔壁的木器店关门的时候，艾薇就把它租了. 他们没办法再另外增加服务台了；艾薇的鳕鱼和伯特的油煎土豆片是店里面的主要卖点。

但是后来他们想出了一个聪明的办法。

他们把柜台加长，艾薇，伯特，狄俄尼索斯和玛丽站成一排。

顾客进来的时候，艾薇先给他们一个盛着鱼的盘子，然后伯特给加上油煎土豆片，狄俄尼索斯再给盛上豌豆糊，最后玛丽倒茶并收钱。

顾客们不停的走动；当一个顾客拿到豌豆糊的同时，他后面的已经拿到了油煎土豆片，再后面的一个已经拿到了鱼。

一些穷苦的村民不吃豌豆糊-但这没关系，这些顾客也能从狄俄尼索斯那里得个笑脸。

这样一来队伍变短了，不久以后，他们买下了对面的商店又增加了更多的餐位。

这就是流水线。

将那些具有重复性的工作分割成几个串列部分，使得工作能在工人们中间移动，每个熟练工人只需要依次的将他的那部分工作做好就可以了。