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英文翻译资料机械类外文翻译之-浅析机电一体化技术的现状和发展趋势Analysis of the Electrical and Mechanical Technology integration of the status and development trendAbstract Electromechanical integration of modern science and technology development is the inevitable result of the Electrical and Mechanical This paper briefly outline the basic technology integration and development background. Reviewed the technical integration of the status of the Electrical and Mechanical, electrical and mechanical integration of technology trends. Keywords Status electromechanical integration technology products manufacturing technology development trends 0. Introduction Modern scientific and technological development has greatly accelerated the different disciplines of infiltration and cross-cutting, leading to the area of the project and the transformation of the technological revolution. In the field of mechanical engineering, microelectronics and computer technology and the rapid development of the machinery industry formed by the infiltration of the mechanical and electrical integration, so that the technical structure of industrial machinery, products, functions and composition, mode of production and management system has undergone tremendous changes in the industrial production by the machinery electrified has entered a mechatronics characteristics of the development stage. 1. Summary of electromechanical integration Mechanical and electrical integration refers to agencies winner function, dynamic function, information processing and control functions, the introduction of the electronic technology, mechanical devices and electronic design and software combined with the constraints of the system collectively. So far, the development of electromechanical integration has become a system with a new type of self-discipline, not only with the development of science and technology, will be given new content. But the basic characteristics can be summarized as: mechanical and electrical integration system from the point of view of the integrated use of machinery technology, micro-electronics technology, automatic control technology, computer technology, information technology, sensor monitoring and control technology, power electronics technology, interface technology, Transform information technology and software programming technology, and other groups, according to target and optimize system functions organizational goals, and the layout of the rational allocation of functional modules, in the multi-functional, high quality, high reliability, low power consumption in the sense of achieving specific functional value, and the optimization of the entire system of systems engineering technology. The resulting system function, as a mechanical and electrical or mechanical-electrical integration systems integration products. Therefore, the mechatronics covered technical and product two aspects. Only, electromechanical integration technology is based on the technical groups of a comprehensive organic integration of technology, rather than mechanical technology, microelectronic technology, as well as other new technologies simple combination of patchwork. This is the integration of mechanical and electrical machinery and electrical and mechanical electrification formed by the concept of the fundamental differences. Mechanical engineering technology purely technical development to the electrification machinery, it is still traditional mechanical, and its main function is still to replace and enlarge the manual. However, the development of the mechanical and electrical integration, which in addition to the microelectronics devices may replace some mechanical components of the original features, but also to many new features, such as automatic detection, automatic processing of information, automatically records, automatic adjustment and control automatic diagnosis and protection. That the integration of mechanical and electrical products is not only the extension of the hands and limbs, or peoples minds and the eyes of the senses, with the characteristics of intelligent integration of mechanical and electrical and mechanical function of electrification in the essential difference between. 2. The development of mechanical and electrical integration Mechatronics development can be roughly divided into three stages. 20 in the 1960s before the first stage, called the primary stage of this phase. During this period, people consciously or unconsciously use of electronic technology to perfect the preliminary results of the performance of mechanical products. Especially during the Second World War, a war to stimulate the machinery and electronic technologies, the combination of mechanical and electrical military technology to civilian use after the war, the post-war economic recovery has played a positive role. At that time, research and development Judging from the overall situation is still in their own state. Since then the development of electronic technology has not yet reached a certain level, mechanical technology and the integration of electronic technology is still impossible to extensive and in-depth development, and has developed a large number of products can promote. 20th Century 70 80 for the second stage, known as the flourishing development stage. During this period, computer technology, control technology, communications technology development, and mechanical and electrical integration for the development of the technical basis. Large-scale, ultra-large-scale integrated circuits and the rapid development of micro-computer, mechanical and electrical integration for the development of an adequate material basis. This period is characterized by: mechatronics first word was generally accepted in Japan, about the 20th century to the late 1980s in the world a more widely recognized; electromechanical integration technologies and products has been greatly development; countries have begun on the mechanical and electrical integration technologies and products give great attention and support. The late 1990s, and began electromechanical integration technology to intelligent direction of a new stage of in-depth development of mechanical and electrical integration into the period. On the one hand, optical, communication technology into the mechanical and electrical integration, micro-machining technology is the first electromechanical integration Zhanlu feet, there has been the integration of optical and electrical machinery and MEMS integration of new branches; on the other hand on the mechanical-electrical integration system Modeling design, analysis and integration, mechanical and electrical integration system of academic disciplines and development trends have carried out in-depth research. At the same time, artificial intelligence, neural network technology and fiber optic technology, and other fields of the tremendous progress, electromechanical integration technology has opened up a vast world of development. These studies will lead to further establish a complete electromechanical integration and gradually formed the basis of complete scientific system. China is moving from the 20th century began in the early 1980s in this study and application. State Council set up a leading group and electromechanical integration of the technology as the 863 Program. In the development of Ninth Five-Year plan and outline for the development of 2010 to take full account of the international community on the development of mechanical and electrical integration technology trends and the potential impact of this. Many universities, research institutions and some large and medium-sized enterprises on the development and application of the technology to do a lot of work, has achieved positive results, but compared to advanced countries such as Japan are still a considerable gap between. 3. Trends in the development of mechanical and electrical integration Electromechanical integration, is a mechanical, electronic, optical, control, computer, information, and other cross-integrated multidisciplinary, it dependent on the progress and development of relevant technologies and promote the development and progress. Therefore, electromechanical integration of major development are as follows: Intelligent 3.1 Intelligent electromechanical integration of the 21st century technological development an important development direction. Builders in electromechanical integration of artificial intelligence research is receiving increasing attention, the robot and CNC machine tool is an important application of the intelligent. Here the word intelligent is a description of the machine is in control theory on the basis of absorption artificial intelligence, operations research, computer science, fuzzy mathematics, psychology, physiology and chaotic dynamics, such as new ideas, new methods , the simulation of human intelligence, it is judged reasoning, logical thinking, and independent decision-making ability, in order to get more control objectives. Indeed, the integration of mechanical and electrical products are the same person and a smart, it is impossible, and it is unnecessary. However, high-performance, high-speed microprocessors to electromechanical integration products endowed with the lower part of the smart or intelligent, it is entirely possible and necessary. Modular 3.2 Modularity is an important and difficult project. As electromechanical integration products and manufacturers wide variety of research and development with a standard interface mechanical, electrical interface, dynamic interface, the interface environment electromechanical integration products unit is a very complex but is a very important thing. If developed Set slowdown, intelligent governor, the electrical power unit was integrated with vision, image processing, identification and location of the functions of the control unit, as well as to complete the typical operation of mechanical devices. This can make use of standard cell rapidly develop new products, but can also expand the scale of production. This requires the formulation of standards for the various components, modules and interfaces match. Because of conflict of interest, the recent difficult for international or domestic standards in this area, but through the creation of some large enterprises gradually taking shape. Clearly, from the standardization of electrical products, the benefits of serialization can be sure, whether it is standard electromechanical integration of production units of production enterprises or enterprises electromechanical integration products, mechanical and electrical integration of large-scale enterprises will bring better prospects. 3.3 Network In the 1990s, computer technology, the outstanding achievements networking technology. And the rise of network technology to the rapid development of science and technology, industrial production, political, military, educational Daily Mody daily lives who have brought tremendous changes. Various networks will be the global economy, even as a production, competition between enterprises in the globalization. Electromechanical integration of new products once developed, as long as its unique features, reliable quality, will soon be sold worldwide. As the popularity of the network, network-based remote control and monitoring of various technical ascendant, and the remote control device itself is electromechanical integration products. Fieldbus and LAN technology has become the general trend of household appliances network, using a home network (home net) will be all kinds of home appliances to connect into the computer as the center of computer integrated appliance system (computer integrated appliance system, CIAS), and let people high-tech home sharing of the convenience and happiness. Therefore, electromechanical integration products will undoubtedly develop in the direction toward the network. 3.4 miniaturization Miniaturization of the rise in the late 1980s, refers to the integration of micro-electromechanical machines and the trend of development of micro-areas. Abroad called MEMS (MEMS), refers to the geometric size of not more than 1 cm3 electromechanical integration products, and micron, nanometer development. Micro-electro-mechanical integration products are small, less energy consumption, exercise flexibility in the biological medical, military, and information, has unparalleled advantages. Micro-electro-mechanical integration is the bottleneck of the development of micro-mechanical technology, micro-electromechanical integration products processing using sophisticated processing techniques, namely the ultra-sophisticated technology, including lithography and etching two. Green 3.5 Industry developed for the peoples living brought tremendous changes. On the one hand, rich material life comfortable on the other hand, fewer resources, the ecological environment is seriously contaminated. So, people called for the protection of environment and resources, and return to nature. This concept of green products in the voice of the right moment, green is the trend of the times. Green products in its design, manufacture, use and destruction of the life process, to meet specific environmental protection and human health requirements, sound or endanger the ecological environment is very small, high resource utilization. Design green electromechanical integration products, have a vision of the future of the development. Electromechanical integration of green products mainly refer to, the use of time is not pollute the ecological environment, scrapped after recycling. 3.6 systematic One characteristic of systematic performance system architecture is open and further use of the model bus architecture. System configuration can be flexible, tailoring and arbitrary combinations at the same time seek to achieve more coordination and control subsystems and integrated management. The second performance is greatly enhanced communications functions, in addition to general RS232, RS485 there, DCS personification. Future integration of mechanical and electrical products and people pay more attention to the relationship between mechanical and electrical integration personification has two implications. Level, the integration of mechanical and electrical products targeted end-use, integration of mechanical and electrical products to the empowerment of the intelligent, emotional, human nature has become increasingly important, especially for household robots, the realm of high-level integration is the plane. Another is based on biological mechanism of the development of various electrical and mechanical products one flower. In fact, many electromechanical integration products are inspired by the animals developed the. 4. Conclusion In short, the emergence of mechanical and electrical integration is not isolated, it is many of the crystallization of scientific and technological development, social development of the productive forces to the inevitable demand of a certain stage. Of course, electromechanical integration related technology there are many, and with the development of science and technology, integration of the various technology trends will become more apparent, electromechanical integration technology and broad development prospects will be more bright. 5. References 1. LI Jianyong. Electromechanical integration technology. Beijing: Science Press, 2004. 2. Lee Yun-hua. Mechatronics. Beijing: Beijing Aerospace University Press, 2003. 3. ZHONG Yu. Electrical and Mechanical control works. Beijing: Tsinghua University Press, 2002. 4. Liu Zhubai. Knowledge innovation methodology. Beijing: Machinery Industry Press, 1999.浅析机电一体化技术的现状和发展趋势摘要机电一体化是现代科学技术发展的必然结果,本文简述了机电一体化技术的基本概要和发展背景。综述了国内外机电一体化技术的现状，分析了机电一体化技术的发展趋势。关键词机电一体化 技术 现状 产品 制造技术 发展趋势0绪论现代科学技术的不断发展，极大地推动了不同学科的交叉与渗透，导致了工程领域的技术革命与改造。在机械工程领域，由于微电子技术和计算机技术的迅速发展及其向机械工业的渗透所形成的机电一体化，使机械工业的技术结构、产品机构、功能与构成、生产方式及管理体系发生了巨大变化，使工业生产由“机械电气化”迈入了“机电一体化”为特征的发展阶段。1机电一体化概要机电一体化是指在机构得主功能、动力功能、信息处理功能和控制功能上引进电子技术，将机械装置与电子化设计及软件结合起来所构成的系统的总称。机电一体化发展至今也已成为一门有着自身体系的新型学科，随着科学技术的不但发展，还将被赋予新的内容。但其基本特征可概括为：机电一体化是从系统的观点出发，综合运用机械技术、微电子技术、自动控制技术、计算机技术、信息技术、传感测控技术、电力电子技术、接口技术、信息变换技术以及软件编程技术等群体技术，根据系统功能目标和优化组织目标，合理配置与布局各功能单元，在多功能、高质量、高可靠性、低能耗的意义上实现特定功能价值，并使整个系统最优化的系统工程技术。由此而产生的功能系统，则成为一个机电一体化系统或机电一体化产品。因此，“机电一体化”涵盖“技术”和“产品”两个方面。只是，机电一体化技术是基于上述群体技术有机融合的一种综合技术，而不是机械技术、微电子技术以及其它新技术的简单组合、拼凑。这是机电一体化与机械加电气所形成的机械电气化在概念上的根本区别。机械工程技术有纯技术发展到机械电气化，仍属传统机械，其主要功能依然是代替和放大的体力。但是发展到机电一体化后，其中的微电子装置除可取代某些机械部件的原有功能外，还能赋予许多新的功能，如自动检测、自动处理信息、自动显示记录、自动调节与控制自动诊断与保护等。即机电一体化产品不仅是人的手与肢体的延伸，还是人的感官与头脑的眼神，具有智能化的特征是机电一体化与机械电气化在功能上的本质区别。2机电一体化的发展状况机电一体化的发展大体可以分为3个阶段。20世纪60年代以前为第一阶段，这一阶段称为初级阶段。在这一时期，人们自觉不自觉地利用电子技术的初步成果来完善机械产品的性能。特别是在第二次世界大战期间，战争刺激了机械产品与电子技术的结合，这些机电结合的军用技术，战后转为民用，对战后经济的恢复起了积极的作用。那时研制和开发从总体上看还处于自发状态。由于当时电子技术的发展尚未达到一定水平，机械技术与电子技术的结合还不可能广泛和深入发展，已经开发的产品也无法大量推广。20世纪7080年代为第二阶段，可称为蓬勃发展阶段。这一时期，计算机技术、控制技术、通信技术的发展，为机电一体化的发展奠定了技术基础。大规模、超大规模集成电路和微型计算机的迅猛发展，为机电一体化的发展提供了充分的物质基础。这个时期的特点是：mechatronics一词首先在日本被普遍接受，大约到20世纪80年代末期在世界范围内得到比较广泛的承认；机电一体化技术和产品得到了极大发展；各国均开始对机电一体化技术和产品给以很大的关注和支持。20世纪90年代后期，开始了机电一体化技术向智能化方向迈进的新阶段，机电一体化进入深入发展时期。一方面，光学、通信技术等进入了机电一体化，微细加工技术也在机电一体化中崭露头脚，出现了光机电一体化和微机电一体化等新分支；另一方面对机电一体化系统的建模设计、分析和集成方法，机电一体化的学科体系和发展趋势都进行了深入研究。同时，由于人工智能技术、神经网络技术及光纤技术等领域取得的巨大进步，为机电一体化技术开辟了发展的广阔天地。这些研究，将促使机电一体化进一步建立完整的基础和逐渐形成完整的科学体系。我国是从20世纪80年代初才开始在这方面研究和应用。国务院成立了机电一体化领导小组并将该技术列为“863计划”中。在制定“九五”规划和2010年发展纲要时充分考虑了国际上关于机电一体化技术的发展动向和由此可能带来的影响。许多大专院校、研究机构及一些大中型企业对这一技术的发展及应用做了大量的工作，不取得了一定成果，但与日本等先进国家相比仍有相当差距。3机电一体化的发展趋势机电一体化是集机械、电子、光学、控制、计算机、信息等多学科的交叉综合，它的发展和进步依赖并