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2013年激光切割行业发展行情

日期: 2013-06-19 信息来源: admin 浏览次数【210

    北京圣恩斯特商贸有限公司根据自己公司的情况对2013年激光切割行业发展行情做了分析报告,但是以下只是我们公司的看法。  

激光切割是激光加工行业中最量要的一项应用技术,由于具有诸多特点,已广泛地应用于汽车、机车车辆制造、航空、化工、轻工、电器与电子、石油和冶金等工业部门。

Light cutting laser processing industry to the one of the most amount of application technology, as with many other features, has been widely used in automotive, locomotive manufacturing, aviation, chemical industry, light industry, electrical and electronics, petrochemical and metallurgical and other industrial sectors.


    近年来,激光切割技术发展很快,国际上每年都以20%~30%的速度增长。 我国自1985年以来,更以每年25 %以上的速度增长。由于我国激光工业基础较差,激光加工技术的应用尚不普遍,激光加工整体水平与先进国家相比仍有较大差距,相信随着激光加工技术的不断进步,这些障碍和不足会得到解决。激光切割技术必将成为21 世纪不可缺少的重要的钣金加工手段。激光切割加工广阔的应用市场,加上现代科学技术的迅猛发展,使得国内外科技工作者对激光切割加工技术进行不断探入的研究,推动着激光切割技术不断地向前发展。 

In recent years, laser cutting technology has developed rapidly, the international community every year by 20% to 30% growth rate. Our country since 1985, more than 25% per year growth rate. Because of poor industrial base laser, laser processing technology is not yet widespread, the overall level of laser processing still lags behind advanced countries, I believe that with laser processing technology continues to progress, obstacles and deficiencies will be resolved. Laser cutting technology will become the 21st century an important and indispensable means of sheet metal processing. Laser cutting broad application market, coupled with the rapid development of modern science and technology, making domestic and foreign scientists and laser cutting technology for ongoing probe into research, to promote the laser cutting technology continues to move forward.


    (1)伴随着激光器向大功率发展以及采用高性能的CNC及伺服系统,使用高功率的激光切割可获得高的加工速度,同时减小热影响区和热畸变; 所能够切割的材料板厚也格进一步地提高,高功率激光可以通过使用Q 开关或加载脉冲波,从而使低功率激光器产生出高功率激光。 

(1) With the development and the use of high-power lasers to high-performance CNC and servo systems, the use of high-power laser cutting obtain high processing speed, while reducing the heat-affected zone and heat distortion; thickness of the material can be cut grid also further improved through the use of high-power laser Q-switch or load pulse, so that the low-power lasers to produce high-power laser. 


    (2)根据激光切割工艺参数的影响情况,改进加工工艺,如:增加辅助气体对切割熔渣的吹力;加入造渣剂提高熔体的流动性;增加辅助能源,并改善能量之间的耦合;以及改用吸收率更高的激光切割。  

(2) laser cutting process parameters under the influence cases, improving processing technology, such as: increasing the auxiliary gas for cutting slag blowing force; join slagging agents improve melt flow; adding auxiliary energy and improve energy between coupling; switch to a higher absorption rate and laser cutting.

    (3)激光切割将向高度自动化、智能化方向发展。将CAD/CAPP/CAM以及人工智能运用于激光切割,研制出高度自动化的多功能激光加工系统。  

(3) Laser cutting will be highly automated, intelligent direction. The CAD / CAPP / CAM and artificial intelligence applied to laser cutting, developed a highly automated Multifunction Laser Processing System.


    (4)根据加工速度自适应地控制激光功率和激光模式或建立工艺数据库和专家自适应控制系统使得激光切割整机性能普遍提高。以数据库为系统核心,面向通用化CAPP开发工具,对激光切割工艺设计所涉及的各类数据进行分析,建立相适应的数据库结构。  

(4) According to the processing speed adaptively control the laser power and laser mode or create adaptive control technology database and expert system makes laser cutting machine performance generally improved. Database-core system, CAPP for universal development tool designed for laser cutting process involved in all kinds of data analysis, the establishment of compatible database structure.


    (5) 向多功能的激光加工中心发展,将激光切割、激光焊接以及热处理等各道工序后的质量反馈集成在一起,充分发挥激光加工的整体优势。

(5) to develop multi-functional laser machining centers, laser cutting, laser welding and heat treatment after each process integrated quality feedback, give full play to the overall advantages of laser processing.  


    (6)随若Internet和WEB技术的发展,建立基于WEB的网络数据库,采用模糊推理机制和人工神经网络来自动确定激光切割工艺参数,并且能够远程异地访问和控别激光切割过程成了不可避免的趋势。   

(6) If the Internet and WEB technology with the development, the establishment of WEB-based network database, using fuzzy inference mechanism and artificial neural network to automatically determine the laser cutting process parameters, and the ability to remotely access and control other remote laser cutting process became inevitable trend.

    (7)三维高精度大型数控激光切割机及其切割工艺技术,为了满足汽车和航空等工业的立体工件切割的需要,三维激光切割机正向高效率、高精度、多功能和高适应性方向民展,激光切割机器人的应用范围将会愈来愈大。激光切割正向着激光切割单元FMC、无人化和自动化方向发展。

(7) large-scale three-dimensional high-precision CNC laser cutting machine and cutting technology, in order to meet the automotive and aviation industries need to cut three-dimensional work, three-dimensional laser cutting machine forward high efficiency, high precision, versatility and adaptability direction China Exhibition, the application range of the laser cutting robot will be getting bigger. Laser cutting is toward laser cutting unit FMC, unmanned and automated direction.文章来源:(http://www.bjsnst.com )



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