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附录 1. 英文文献翻译译文          数控技术和装备发展趋势及对策  装备工业的技术水平和现代化程度决定着整个国民经济的水平和现代化程度,数控技术及装备是发展新兴高新技术产业和尖端工业(如信息技术及其产业、生物技术及其产业、航空、航天等国防工业产业)的使能技术和最基本的装备。马克思曾经说过 “各种经济时代的区别,不在于生产什么,而在于怎样生产,用什么劳动资料生产 ”。制造技术和装备就是人类生产活动的最基本的生产资料,而数控技术又是当今先进制造技术和装备最为核心的技术。当今世界各国制造业广泛采用数控技术,以 提高制造能力和水平,提高对动态多变市场的适应能力和竞争能力。此外,世界上各工业发达国家还将数控技术及数控装备列为国家的战略物资,不仅采取重大措施来发展自己的数控技术及其产业,而且在 “高精尖 ”数控关键技术和装备方面对我国实行封锁和限制政策。总之,大力发展以数控技术为核心的先进制造技术已成为世界各发达国家加速经济发展、提高综合国力和国家地位的重要途径。      数控技术是用数字信息对机械运动和工作过程进行控制的技术,数控装备是以数控技术为代表的新技术对传统制造产业和新兴制造业的渗透形成的机电一体化产品,即所谓的 数字化装备,其技术范围覆盖很多领域: (1)机械制造技术; (2)信息处理、加工、传输技术; (3)自动控制技术; (4)伺服驱动技术; (5)传感器技术; (6)软件技术等。  1. 数控技术的发展趋势      数控技术的应用不但给传统制造业带来了革命性的变化,使制造业成为工业化的象征,而且随着数控技术的不断发展和应用领域的扩大,他对国计民生的一些重要行业( IT、汽车、轻工、医疗等)的发展起着越来越重要的作用,因为这些行业所需装备的数字化已是现代发展的大趋势。从目前世界上数控技术及其装备发展的趋势来看,其主要研究热点有 以下几个方面 1 4。  1.1 高速、高精加工技术及装备的新趋势      效率、质量是先进制造技术的主体。高速、高精加工技术可极大地提高效率,提高产品的质量和档次,缩短生产周期和提高市场竞争能力。为此日本先端技术研究会将其列为 5 大现代制造技术之一,国际生产工程学会( CIRP)将其确定为 21 世纪的中心研究方向之一。      在轿车工业领域,年产 30 万辆的生产节拍是 40 秒 /辆,而且多品种加工是轿车装备必须解决的重点问题之一;在航空和宇航工业领域,其加工的零部件多为薄壁和薄筋,刚度很差,材料为铝或铝合金,只有在 高切削速度和切削力很小的情况下,才能对这些筋、壁进行加工。近来采用大型整体铝合金坯料 “掏空 ”的方法来制造机翼、机身等大型零件来替代多个零件通过众多的铆钉、螺钉和其他联结方式拼装,使构件的强度、刚度和可靠性得到提高。这些都对加工装备提出了高速、高精和高柔性的要求。从 EMO2001 展会情况来看,高速加工中心进给速度可达 80m/min,甚至更高,空运行速度可达 100m/min 左右。目前世界上许多汽车厂,包括我国的上海通用汽车公司,已经采用以高速加工中心组成的生产线部分替代组合机床。美国 CINCINNATI公司的 HyperMach 机床进给速度最大达 60m/min,快速为 100m/min,加速度达 2g,主轴转速已达 60 000r/min。加工一个薄壁飞机零件,只用 30min,而同样的零件在一般高速铣床加工需 3h,在普通铣床加工需 8h;德国 DMG 公司的双主轴车床的主轴速度及加速度分别达 120000r/mm和 1g。  在加工精度方面,近 10 年来,普通级数控机床的加工精度已由 10m提高到 5m,精密级加工中心则从 3 5m,提高到 1 1.5m,并且超精密加工精度已开始进入纳米级 (0.01m)。在可靠性方面,国外数控装置的 MTBF 值已达 6 000h 以上,伺服系统的 MTBF 值达到 30000h 以上,表现出非常高的可靠性。为了实现高速、高精加工,与之配套的功能部件如电主轴、直线电机得到了快速的发展,应用领域进一步扩大。  1.2 五轴联动加工和复合加工机床快速发展      采用 5 轴联动对三维曲面零件的加工,可用刀具最佳几何形状进行切削,不仅光洁度高,而且效率也大幅度提高。一般认为, 1 台 5 轴联动机床的效率可以等于 2 台3 轴联动机床,特别是使用立方氮化硼等超硬材料铣刀进行高速铣削淬硬钢零件时,5 轴联动加工可比 3 轴联动加工发挥更高的效益。但 过去因 5 轴联动数控系统、主机结构复杂等原因,其价格要比 3 轴联动数控机床高出数倍,加之编程技术难度较大,制约了 5 轴联动机床的发展。      当前由于电主轴的出现,使得实现 5 轴联动加工的复合主轴头结构大为简化,其制造难度和成本大幅度降低,数控系统的价格差距缩小。因此促进了复合主轴头类型5 轴联动机床和复合加工机床(含 5 面加工机床)的发展。  在 EMO2001 展会上,新日本工机的 5 面加工机床采用复合主轴头,可实现 4 个垂直平面的加工和任意角度的加工,使得 5 面加工和 5 轴加工可在同一台机床上实现,还可实现倾斜面和倒锥孔的加 工。德国 DMG 公司展出 DMUVoution 系列加工中心,可在一次装夹下实现 5 面加工和 5 轴联动加工,可由 CNC 系统控制或 CAD/CAM 直接或间接控制。  1.3 智能化、开放式、网络化成为当代数控系统发展的主要趋势      21 世纪的数控装备将是具有一定智能化的系统,智能化的内容包括在数控系统中的各个方面:为追求加工效率和加工质量方面的智能化,如加工过程的自适应控制,工艺参数自动生成;为提高驱动性能及使用连接方便的智能化,如前馈控制、电机参数的自适应运算、自动识别负载自动选定模型、自整定等;简化编程、简化操作方 面的智能化,如智能化的自动编程、智能化的人机界面等;还有智能诊断、智能监控方面的内容、方便系统的诊断及维修等。      为解决传统的数控系统封闭性和数控应用软件的产业化生产存在的问题。目前许多国家对开放式数控系统进行研究,如美国的 NGC(The Next Generation Work-Station/Machine Control)、欧共体的 OSACA(Open System Architecture for Control within Automation Systems)、日本的 OSEC(Open System Environment for Controller),中国的 ONC(Open Numerical Control System)等。数控系统开放化已经成为数控系统的未来之路。所谓开放式数控系统就是数控系统的开发可以在统一的运行平台上,面向机床厂家和最终用户,通过改变、增加或剪裁结构对象(数控功能),形成系列化,并可方便地将用户的特殊应用和技术诀窍集成到控制系统中,快速实现不同品种、不同档次的开放式数控系统,形成具有鲜明个性的名牌产品。目前开放式数控系统的体系结构规范、通信规范、配置规范、运行 平台、数控系统功能库以及数控系统功能软件开发工具等是当前研究的核心。      网络化数控装备是近两年国际著名机床博览会的一个新亮点。数控装备的网络化将极大地满足生产线、制造系统、制造企业对信息集成的需求,也是实现新的制造模式如敏捷制造、虚拟企业、全球制造的基础单元。国内外一些著名数控机床和数控系统制造公司都在近两年推出了相关的新概念和样机,如在 EMO2001 展中,日本山崎马扎克( Mazak)公司展出的 “CyberProduction Center”(智能生产控制中心,简称 CPC);日本大隈( Okuma)机床 公司展出 “IT plaza”(信息技术广场,简称 IT广场 );德国西门子 (Siemens)公司展出的 Open Manufacturing Environment(开放制造环境,简称OME)等,反映了数控机床加工向网络化方向发展的趋势。  1.4 重视新技术标准、规范的建立  1.4.1 关于数控系统设计开发规范      如前所述,开放式数控系统有更好的通用性、柔性、适应性、扩展性,美国、欧共体和日本等国纷纷实施战略发展计划,并进行开放式体系结构数控系统规范(OMAC、 OSACA、 OSEC)的研究和制定,世界 3 个最 大的经济体在短期内进行了几乎相同的科学计划和规范的制定,预示了数控技术的一个新的变革时期的来临。我国在 2000 年也开始进行中国的 ONC 数控系统的规范框架的研究和制定 。  1.4.2 关于数控标准     数控标准是制造业信息化发展的一种趋势。数控技术诞生后的 50 年间的信息交换都是基于 ISO6983 标准,即采用 G, M 代码描述如何( how)加工,其本质特征是面向加工过程,显然,他已越来越不能满足现代数控技术高速发展的需要。为此,国际上正在研究和制定一种新的 CNC 系统标准 ISO14649( STEP NC),其目的是提 供一种不依赖于具体系统的中性机制,能够描述产品整个生命周期内的统一数据模型,从而实现整个制造过程,乃至各个工业领域产品信息的标准化。  STEP-NC 的出现可能是数控技术领域的一次革命,对于数控技术的发展乃至整个制造业,将产生深远的影响。首先, STEP-NC 提出一种崭新的制造理念,传统的制造理念中, NC 加工程序都集中在单个计算机上。而在新标准下, NC 程序可以分散在互联网上,这正是数控技术开放式、网络化发展的方向。其次, STEP-NC 数控系统还可大大减少加工图纸(约 75)、加工程序编制时间(约 35)和加工时 间(约50)。      目前,欧美国家非常重视 STEP-NC 的研究,欧洲发起了 STEP-NC 的 IMS 计划(1999.1.1 2001.12.31)。参加这项计划的有来自欧洲和日本的 20 个CAD/CAM/CAPP/CNC 用户、厂商和学术机构。美国的 STEP Tools 公司是全球范围内制造业数据交换软件的开发者,他已经开发了用作数控机床加工信息交换的超级模型 (Super Model),其目标是用统一的规范描述所有加工过程。目前这种新的数据交换格式已经在配备了 SIEMENS、 FIDIA 以及欧洲 OSACA-NC 数 控系统的原型样机上进行了验证。  2. 对我国数控技术及其产业发展的基本估计      我国数控技术起步于 1958 年,近 50 年的发展历程大致可分为 3 个阶段:第一阶段从 1958 年到 1979 年,即封闭式发展阶段。在此阶段,由于国外的技术封锁和我国的基础条件的限制,数控技术的发展较为缓慢。第二阶段是在国家的 “六五 ”、 “七五 ”期间以及 “八五 ”的前期,即引进技术,消化吸收,初步建立起国产化体系阶段。在此阶段,由于改革开放和国家的重视,以及研究开发环境和国际环境的改善,我国数控技术的研究、开发以及在产品的国产化方面都取得了 长足的进步。第三阶段是在国家的 “八五 ”的后期和 “九五 ”期间,即实施产业化的研究,进入市场竞争阶段。在此阶段,我国国产数控装备的产业化取得了实质性进步。在 “九五 ”末期,国产数控机床的国内市场占有率达 50,配国产数控系统(普及型)也达到了 10。      纵观我国数控技术近 50 年的发展历程,特别是经过 4 个 5 年计划的攻关,总体来看取得了以下成绩。  ( 1)  奠定了数控技术发展的基础,基本掌握了现代数控技术。我国现在已基本掌握了从数控系统、伺服驱动、数控主机、专机及其配套件的基础技术,其中大部分技术已具备进行商品化 开发的基础,部分技术已商品化、产业化。  ( 2)  初步形成了数控产业基地。在攻关成果和部分技术商品化的基础上,建立了诸如华中数控、航天数控等具有批量生产能力的数控系统生产厂。兰州电机厂、华中数控等一批伺服系统和伺服电机生产厂以及北京第一机床厂、济南第一机床厂等若干数控主机生产厂。这些生产厂基本形成了我国的数控产业基地。  ( 3) 建立了一支数控研究、开发、管理人才的基本队伍。  虽然在数控技术的研究开发以及产业化方面取得了长足的进步,但我们也要清醒地认识到,我国高端数控技术的研究开发,尤其是在产业化方面的技术水平现 状与我国的现实需求还有较大的差距。虽然从纵向看我国的发展速度很快,但横向比(与国外对比)不仅技术水平有差距,在某些方面发展速度也有差距,即一些高精尖的数控装备的技术水平差距有扩大趋势。从国际上来看,对我国数控技术水平和产业化水平估计大致如下。  ( 1)  技术水平上,与国外先进水平大约落后 10 15 年,在高精尖技术方面则更大。  ( 2)  产业化水平上,市场占有率低,品种覆盖率小,还没有形成规模生产;功能部件专业化生产水平及成套能力较低;外观质量相对差;可靠性不高,商品化程度不足;国产数控系统尚未建立自己的品牌效应 ,用户信心不足。  ( 3)  可持续发展的能力上,对竞争前数控技术的研究开发、工程化能力较弱;数控技术应用领域拓展力度不强;相关标准规范的研究、制定滞后。  分析存在上述差距的主要原因有以下几个方面。  ( 1)  认识方面。对国产数控产业进程艰巨性、复杂性和长期性的特点认识不足;对市场的不规范、国外的封锁加扼杀、体制等困难估计不足;对我国数控技术应用水平及能力分析不够。  ( 2)  体系方面。从技术的角度关注数控产业化问题的时候多,从系统的、产业链的角度综合考虑数控产业化问题的时候少;没有建立完整的高质量的配套体系、完善 的培训、服务网络等支撑体系。  ( 3)  机制方面。不良机制造成人才流失,又制约了技术及技术路线创新、产品创新,且制约了规划的有效实施,往往规划理想,实施困难。  ( 4)  技术方面。企业在技术方面自主创新能力不强,核心技术的工程化能力不强。机床标准落后,水平较低,数控系统新标准研究不够。  3. 对我国数控技术和产业化发展的战略思考  3.1 战略考虑     我国是制造大国,在世界产业转移中要尽量接受前端而不是后端的转移,即要掌握先进制造核心技术,否则在新一轮国际产业结构调整中,我国制造业将进一步 “空芯 ”。我们以资源 、环境、市场为代价,交换得到的可能仅仅是世界新经济格局中的国际 “加工中心 ”和 “组装中心 ”,而非掌握核心技术的制造中心的地位,这样将会严重影响我国现代制造业的发展进程。  我们应站在国家安全战略的高度来重视数控技术和产业问题,首先从社会安全看,因为制造业是我国就业人口最多的行业,制造业发展不仅可提高人民的生活水平,而且还可缓解我国就业的压力,保障社会的稳定;其次从国防安全看,西方发达国家把高精尖数控产品都列为国家的战略物质,对我国实现禁运和限制, “东芝事件 ”和 “考克斯报告 ”就是最好的例证。  3.2 发展策略      从我国基本国情的角度出发,以国家的战略需求和国民经济的市场需求为导向,以提高我国制造装备业综合竞争能力和产业化水平为目标,用系统的方法,选择能够主导 21 世纪初期我国制造装备业发展升级的关键技术以及支持产业化发展的支撑技术、配套技术作为研究开发的内容,实现制造装备业的跨跃式发展。  强调市场需求为导向,即以数控终端产品为主,以整机(如量大面广的数控车床、铣床、高速高精高性能数控机床、典型数字化机械、重点行业关键设备等)带动数控产业的发展。重点解决数控系统和相关功能部件(数字化伺服系统与电机、高速电主轴系统 和新型装备的附件等)的可靠性和生产规模问题。没有规模就不会有高可靠性的产品;没有规模就不会有价格低廉而富有竞争力的产品;当然,没有规模中国的数控装备最终难以有出头之日。      在高精尖装备研发方面,要强调产、学、研以及最终用户的紧密结合,以 “做得出、用得上、卖得掉 ”为目标,按国家意志实施攻关,以解决国家之急需。  在竞争前数控技术方面,强调创新,强调研究开发具有自主知识产权的技术和产品,为我国数控产业、装备制造业乃至整个制造业的可持续发展奠定基础。   附录 2:英文文献原文  Numerical control technology and equipping development trend and countermeasure   Equip the engineering level, level of determining the whole national economy of the modernized degree and modernized degree of industry, numerical control technology is it develop new developing new high-tech industry and most advanced industry to equip (such as information technology and his industry, biotechnology and his industry, aviation, spaceflight, etc. national defense industry) last technology and getting more basic most equipment. Marx has ever said "the differences of different economic times, do not lie in what is produced, and lie in how to produce, produce with some means of labor ". Manufacturing technology and equipping the most basic means of production that are that the mankind produced the activity, and numerical control technology is nowadays advanced manufacturing technology and equips the most central technology. Nowadays the manufacturing industry all around the world adopts numerical control technology extensively, in order to improve manufacturing capacity and level, improve the adaptive capacity and competitive power to the changeable market of the trends. In addition every industrially developed country in the world also classifies the technology and numerical control equipment of numerical control as the strategic materials of the country, not merely take the great measure to develop one's own numerical control technology and industry, and implement blockading and restrictive policy to our country in view of " high-grade, precision and advanced key technology of numerical control " and equipping. In a word, develop the advanced manufacturing technology taking numerical control technology as the core and already become every world developed country and accelerate economic development in a more cost-effective manner, important way to improve the overall national strength and national position.  Numerical control technology is the technology controlled to mechanical movement and working course with digital information, integrated products of electromechanics that the numerical control equipment is the new technology represented by numerical control technology forms to the manufacture industry of the tradition and infiltration of the new developing manufacturing industry, namely the so-called digitization is equipped, its technological range covers a lot of fields: (1)Mechanical manufacturing technology; (2)Information processing, processing, transmission technology; (3)Automatic control technology; (4)Servo drive technology; (5)Technology of the sensor; (6)Software engineering ,etc.     Development trend of a numerical control technology The application of numerical control technology has not only brought the revolutionary change to manufacturing industry of the tradition, make the manufacturing industry become the industrialized symbol , and with the constant development of numerical control technology and enlargement of the application, the development of some important trades (IT , automobile , light industry , medical treatment ,etc. ) to the national economy and the people's livelihood of his plays a more and more important role, because the digitization that these trades needed to equip has already been the main trend of modern development. Numerical control technology in the world at present and equipping the development trend to see, there is the following several respect 1- in its main research focus. 1 A high-speed, high finish machining technology and new trend equipped  The efficiency, quality are subjavanufacturing technology. High-speed,  high finish machining technology can raise the efficiency greatly , improve the quality and grade of the products, shorten production cycle and improve the market competitive power. Japan carries the technological research association first to classify it as one of the 5 great modern manufacturing technologies for this, learn (CIRP) to confirm it as the centre in the 21st century and study one of the directions in international production engineering.     In the field of car industry, produce one second when beat such as production of 300,000 / vehicle per year, and many variety process it is car that equip key problem that must be solved one of; In the fields of aviation and aerospace industry, spare parts of its processing are mostly the thin wall and thin muscle, rigidity is very bad, the material is aluminium or aluminium alloy, only in a situation that cut the speed and cut strength very small high, could process these muscles, walls. Adopt large-scale whole aluminium alloy method that blank " pay empty " make the wing recently, such large-scale parts as the fuselage ,etc. come to substitute a lot of parts to assemble through numerous rivet , screw and other connection way, make the intensity , rigidity and dependability of the component improved. All these, to processing and equipping the demand which has proposed high-speed, high precise and high flexibility.     According to EMO2001 exhibition situation, high-speed machining center is it give speed can reach 80m/min is even high , air transport competent speed can up to 100m/min to be about to enter. A lot of automobile factories in the world at present, including Shanghai General Motors Corporation of our country, have already adopted and substituted and made the lathe up with the production line part that the high-speed machining center makes up. HyperMach lathe of U.S.A. CINCINNATI Company enters to nearly biggest 60m/min of speed, it is 100m/min to be fast, the acceleration reaches 2g, the rotational speed of the main shaft has already reached 60 000r/min. Processing a thin wall of plane parts, spend 30min only, and same part general at a high speed milling machine process and take 3h, the ordinary milling machine is being processed to need 8h; The speed and acceleration of main shaft of dual main shaft lathes of Germany DMG Company are up to 120000r/mm and 1g.     In machining accuracy, the past 10 years, ordinary progression accuse of machining accuracy of lathe bring 5m up to from 10m already, accurate grades of machining center from 3 5m, rise to 1 1.5m, and ultraprecision machining accuracy is it enter nanometer grade to begin already (0.01m).    In dependability, MTBF value of the foreign numerical control device has already reached above 6 000h, MTBF value of the servo system reaches above 30000h, demonstrate very high dependability .  In order to realize high-speed, high finish machining, if the part of function related to it is electric main shaft, straight line electrical machinery get fast development, the application is expanded further . 1.2 Link and process and compound to process the fast development of the lathe in 5 axes    Adopt 5 axles to link the processing of the three-dimensional curved surface part, can cut with the best geometry form of the cutter , not only highly polished, but also efficiency improves by a large margin . It is generally acknowledged, the efficiency of an 5 axle gear beds can equal 2 3 axle gear beds, is it wait for to use the cubic nitrogen boron the milling cutter of ultra hard material is milled and pared at a high speed while quenching the hard steel part, 5 axles link and process 3 constant axles to link and process and give play to higher benefit. Because such reasons as complicated that 5 axles link the numerical control system , host computer structure that but go over, it is several times higher that its price links the numerical control lathe than 3 axles , in addition the technological degree of difficulty of programming is relatively great, have restricted the development of 5 axle gear beds.     At present because of electric appearance of main shaft, is it realize 5 axle complex main shaft hair structure processed to link greatly simplify to make, it makes degree of difficulty and reducing by a large margin of the cost, the price disparity of the numerical control system shrinks. So promoted 5 axle gear beds of head of complex main shaft and compound to process the development of the lathe (process the lathe including 5).     At EMO2001 exhibition, new Japanese 5 of worker machine process lathe adopt complex main shaft hair, can realize the processing of 4 vertical planes and processing of the wanton angle, make 5 times process and 5 axles are processed and can be realized on the same lathe, can also realize the inc lined plane and pour the processing of the hole of awls. Germany DMG Company exhibits the DMUVoution series machining center, but put and insert and put processing and 5 axles 5 times to link and process in once, can be controlled by CNC system or CAD/CAM is controlled directly or indirectly.  1.3 Become the main trend of systematic development of contemporary numerical control intelligently, openly, networkedly. The numerical control equipment in the 21st century will be sure the intelligent system, the intelligent content includes all respects in the numerical control system: It is intelligent in order to pursue the efficiency of processing and process quality, control such as the self-adaptation of the processing course, the craft parameter is produced automatically; Join the convenient one in order to improve the performance of urging and use intelligently, if feedforward control , adaptive operation , electrical machinery of parameter , discern load select models , since exactly makes etc. automatically; The ones that simplified programming , simplified operating aspect are intelligent, for instance intelligent automatic programming , intelligent man-machine interface ,etc.; There are content of intelligence diagnose , intelligent monitoring , diagnosis convenient to be systematic and maintaining ,etc. Produce the existing problem for the industrialization of solving the traditional numerical control system sealing and numerical control application software. A lot of countries carry on research to the open numerical control system at present, such as NGC of U.S.A. (The Next Generation Work-Station/Machine Control), OSACA of European Community (Open System Architecture for Control within Automation Systems), OSEC (Open System Environment for Controller) of Japan, ONC (Open Numerical Control System) of China, etc. The numerical control system melts to become the future way of the numerical control system open. The so-called open numerical control system is the development of the numerical control system can be on unified operation platform, face the lathe producer and end user, through changing, increasing or cutting out the structure target(numerical control function), form the serration, and can use users specially conveniently and the technical know-how is integrated in the control system, realize the open numerical control system of different variety , different grade fast, form leading brand products with distinct distinction. System structure norm of the open numerical control system at present, communication norm , disposing norm , operation platform , numerical control systematic function storehouse and numerical control systematic function software development ,etc. are the core of present research.  The networked numerical control equipment is a new light spot of the fair of the internationally famous lathe in the past two years. Meeting production line , manufacture system , demand for the information integration of manufacturing company networkedly greatly of numerical control equipment, realize new manufacture mode such as quick make , fictitious enterprise , basic Entrance that the whole world make too. Some domestic and international famous numerical control lathes and systematic manufacturing companies of numerical control have all introduced relevant new concepts and protons of a machine in the past two years, if in EMO2001 exhibition, " Cyber Production Center " that the company exhibits of mountain rugged campstool gram in Japan (Mazak) (intellectual central production control unit, abbreviated as CPC); The lathe company of Japanese big Wei (Okuma ) exhibits " IT plaza " (the information technology square , is abbreviated as IT square ); Open Manufacturing Environment that the company exhibits of German Siemens (Siemens ) (open the manufacturing environment, abbreviated as OME),etc., have reflected numerical control machine tooling to the development trend of networked direction.  1.4 Pay attention to the new technical standard, normal setting-up 1.4.1 Design the norm of developing about the numerical control system     As noted previously, there are better common ability, flexibility, adaptability, expanding in the open numerical control system, such countries as U.S.A. ,European Community and Japan ,etc. implement the strategic development plan one after another , carry on the research and formulation of the systematic norm (OMAC , OSACA , OSEC ) of numerical control of the open system structure, 3 biggest economies in the world have carried on the formulation that nearly the same science planned and standardized in a short time, have indicated a new arrival of period of change of numerical control technology. Our country started the research and formulation of standardizing the frame of ONC numerical control system of China too in 2000.  1.4.2 About the numerical control standard     The numerical control standard is a kind of trend of information-based development of manufacturing industry. Information exchange among 50 years after numerical control technology was born was all because of ISO6983 standard, namely adopt G, M code describes how processes, its essential characteristic faces the processing course, obviously, he can't meet high-speed development of modern numerical control technology's needs more and more already. For this reason, studying and making a kind of new CNC system standard ISO14649 (STEP-NC) in the world, its purpose is to offer a kind of neutral mechanism not depending on the concrete system, can describe the unified data model in cycle of whole life of the products, thus realize the whole manufacture process, standardization of and even each industrial field product information.     The appearance of STEP-NC may be a revolution of the technological field of the numerical control, on the development and even the whole manufacturing industry of numerical control technology, will exert a far-reaching influence. First of all, STEP-NC puts forward a kind of brand-new manufacture idea, in the traditional manufacture idea, NC processes the procedures to all concentrate on individual computer. Under the new standard, NC procedure can be dispersed on Internet, this is exactly a direction of open , networked development of numerical control technology. Secondly, STEP-NC numerical control system can also reduce and process the drawing (about 75%), process the procedure to work out the time (about 35%) and process the time (about 50%) greatly.    At present, American-European countries pay much attention to the research of STEP-NC, Europe initiates IMS plan (1999.1.1-2001.12.3) of STEP-NC. 20 CAD/CAM/CAPP/CNC users, manufacturers and academic organizations from Europe and Japan participated in this plan. STEP Tools Company of U.S.A. is a developer of the data interchange software of manufacturing industry in the global range, he has already developed the super model (Super Model ) which accuses of information exchange of machine tooling by counting, its goal is to describe all processing courses with the unified norm. Such new data interchange form has already been verified in allocating the SIEMENS, FIDIA and European OSACA-NC numerical control at present.  2 pairs of basic estimations of technology and industry development of numerical control of our country    The technology of numerical control of our country started in 1958, the development course in the past 50 years can roughly be divided into 3 stages: The first stage is from 1958 to 1979, namely closed developing stage. In this stages, because technology of foreign countries blockade and basic restriction of terms of our country, the development of numerical control technology is comparatively slow. During "Sixth Five-Year Plan Period" , " the Seventh Five-Year Plan Period " of the country in second stage and earlier stage in " the Eighth Five-Year Plan Period ", namely introduce technology, digest and assimilate, the stage of establishing the system of production domesticization arisesing tentatively. At this stage , because of reform and opening-up and national attention , and study the improvement of the development environment and international environment, research , development and all making considerable progress in production domesticization of the products of the technology of numerical control of our country. The third stage is and during the "Ninth Five-Year Plan Period" on the later stage in "the Eighth Five-Year Plan Period" of the country, namely implement the research of industrialization, enter market competition stage. At this stage, made substantive progress in industrialization of the domestic numerical control equipment of our country. In latter stage for "the Ninth Five-Year Plan ", the domestic occupation rate of market of the domestic numerical control lathe is up to 50%, it is up to 10% too to mix the domestic numerical control system (popular).  Make a general survey of the development course in the past 50 years of technology of numerical control of our country, especially through tackling key problems of 4 Five-Year Plans, all in all has made following achievements.  ( 1)  Have established the foundation of the technical development of numerical control, has mastered modern numerical control technology basically. Our country has already, the numerical control host computer, basic technology of special plane and fittings grasped and driven from the numerical control system and survey basically now, among them most technology have already possessed and commercialized the foundation developed, some technology has already, industrialization commercialized.  ( 2)  Have formed the industrial base of numerical control tentatively. In tackling key problems the foundation that the achievement and some technology commercialize, set up the systematic factories of numerical control with production capacity in batches such as numerical control in Central China, numerical control of the spaceflight etc. Electrical machinery plant of Lanzhou, such factory and the first machine tool plant of Beijing , the first machine tool plant of Jinan ,etc. several numerical control host computer factories of a batch of servo systems and servo electrical machineries as the numerical control in Central China, etc. These factories have formed the numerical control industrial base of our country basically.  ( 3)  Have set up a numerical control research, development, managerial talent's basic team.  Though has made considerable progress in research and development and industrialization of numerical control technology, but we will realize soberly, the research and development of the technology of advanced numerical control of our country, especially there is greater disparity in current situation and current demand of our country of engineering level in industrialization. Though very fast from watching the development of our country vertically, have disparity horizontally more than (compare foreign countries with) not merely engineering level, there is disparity too in development speed in some aspects, namely the engineering level disparity between some high-grade , precision and advanced numerical control equipment has the tendency to expand . Watch from world, estimate roughly as follows about the engineering level of numerical control of our country and industrialization level.  ( 1)  On the engineering level, in probably backward 10-1 years with the advanced level in foreign countries, it is bigger in high-quality precision and sophisticated technology.  ( 2)  On the industrialization level, the occupation rate of market is low, the variety coverage rate is little, have not formed the large-scale production yet; The specialized level of production of function part and ability of forming a complete set are relatively low; Appearance quality is relatively poor; Dependability is not high, the commercialized degree is insufficient; One's own brand effect that the domestic numerical control system has not been set up yet, users have insufficient confidence.  ( 3)  On the ability of sustainable development, research and development of numerical control technology, project ability is relatively weak to the competition; It is not strong that the technological application of numerical control expands dynamics; Research, formulation that relevant standards are normal lag behind.  It is analyzed that the main reason for having above-mentioned disparity has the following several respect.  ( 1)  Realize the respect. Know to industry's process arduousness , complexity and long-term characteristic of domestic numerical control insufficiently; It is difficult to underestimate to add strangling, system, etc. to the unstandard, foreign blockade of the market; It is not enough to analyse to the technological application level and ability of numerical control of our country.  ( 2)  System. Pay close attention to numerical control industrialization many in the issue, consider numerical control industrialization little in the issue synthetically in terms of the systematic one, industry chain in terms of technology; Have not set up related system, perfect training , service network of intact high quality ,etc. and supported the system.  ( 3)  Mechanism. It causes the brain drain, restraining technology and technological route from innovating again, products innovation that the bad machine is made, and has restricted the effective implementation of planning, has often planned the ideal, implement the difficulty.  ( 4)  Technology. The autonomous innovation in technology of enterprises is indifferent; the project of key technology is indifferent. The standard of the lathe lags behind, the level is relatively low, it is not enough for new standard of the numerical control system to study.  3 pairs of strategic thinking of technology and industrialized development of numerical control of our country  3.1 Strategic consideration     Our country make big country, industry is it is it accept front instead of transformation of back end to try one's best to want in shifting in world, namely should master and make key technology advanced, otherwise in a new round of international industrial structure adjustment, the manufacturing industry of our country will step forward and " leave the core spaces ". We regard resource, environment , market as the cost, it is only an international " machining center " in the new economic pattern of the world to exchange the possibility got and " assemble the centre ", but not master the position of the m

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