LED分谱检测与分选设备研究
摘要
随着LED应用范围的扩大,用户对LED产品质量有了更高的要求,尤其要求LED发光亮度和波长具有一致性。如果LED亮度和波长不一致,做成大屏幕LED彩色显示屏后,会使观众产生斑点或刺眼的感觉,严重影响LED显示屏的质量,因此必须对LED单管进行分选。该项目主要是按用户要求,根据LED单管的发光亮度和波长对LED进行分选,从而提高LED单管亮度和波长的一致性,进而提高LED产品的质量和档次。
针对国内目前尚无LED在线分谱检测和自动分选系统,我们借鉴国外的先进仪器设计出LED在线分谱检测和自动分选系统,该系统由二极管基本输送装置(圆盘振动输送机、直线振动输送机)、等间隔喂入装置、检测系统和自动分选装置几部分组成。可完成LED波长和亮度的在线检测、自动处理和自动分选,实现了LED在线分谱检测与自动分选的流水线作业。自动分选的机械结构设计、动作实现设计和顺序动作控制是本论文的重点。自动分选的实现是通过PC与PLC的结合完成对PLC的顺序控制。
发光二极管分谱自动检测与分选设备经不断研制和完善后,可以逐步推向市场,从而可极大地提高我国LED质量,其市场前景可观。该设备研制成功、定型并批量生产后,设备成本约12万元,市场售价可达25—30万元,每年可销售大约20台套,其设备销售额达500万元。该设备的广泛应用可极大地提高我国LED质量和档次。
With the development of application of LED, people require top-quality LED, especially in wavelength and light intensity. It will affect quality and induce dazzling sight in large color-display if LED's wavelength and light intensity are not measured, so we must achieve auotmatic separation of LED. The research task achieve on-line measurement of LED's wavelength and light intensity and also including automatic separation of LED according to user's request in order to improve the quality of LED.
Owing to lack of auotmatic separation of LED in our country, we borrow ideas from other countries and design a suit of equipment of automatic dection and separation of LED.The equipment consists of several parts: LED transportation setup(disc libration setup,line libration setup),equidistant receving setup,detecting system and automatic separation of LED.The equipment achieve automatic separation of LED and pipelining.The research lay stress on machanical structural design and order action control which achieve automation separation by using PC and PLC.
The tried equipment will be manufactured and be on sale so that the quality of LED will advance to a high position. At a rough estimate the equipment's cost price is about 120000 yuan and will fetch at least 250000 yuan. It can dispose of about 20 sets by using KuangTong, Ltd's marketing ability. In a all marketable tomorrow will be beautiful.
针对国内目前尚无LED在线分谱检测和自动分选系统,我们借鉴国外的先进仪器设计出LED在线分谱检测和自动分选系统,该系统由二极管基本输送装置(圆盘振动输送机、直线振动输送机)、等间隔喂入装置、检测系统和自动分选装置几部分组成。可完成LED波长和亮度的在线检测、自动处理和自动分选,实现了LED在线分谱检测与自动分选的流水线作业。自动分选的机械结构设计、动作实现设计和顺序动作控制是本论文的重点。自动分选的实现是通过PC与PLC的结合完成对PLC的顺序控制。
发光二极管分谱自动检测与分选设备经不断研制和完善后,可以逐步推向市场,从而可极大地提高我国LED质量,其市场前景可观。该设备研制成功、定型并批量生产后,设备成本约12万元,市场售价可达25—30万元,每年可销售大约20台套,其设备销售额达500万元。该设备的广泛应用可极大地提高我国LED质量和档次。
With the development of application of LED, people require top-quality LED, especially in wavelength and light intensity. It will affect quality and induce dazzling sight in large color-display if LED's wavelength and light intensity are not measured, so we must achieve auotmatic separation of LED. The research task achieve on-line measurement of LED's wavelength and light intensity and also including automatic separation of LED according to user's request in order to improve the quality of LED.
Owing to lack of auotmatic separation of LED in our country, we borrow ideas from other countries and design a suit of equipment of automatic dection and separation of LED.The equipment consists of several parts: LED transportation setup(disc libration setup,line libration setup),equidistant receving setup,detecting system and automatic separation of LED.The equipment achieve automatic separation of LED and pipelining.The research lay stress on machanical structural design and order action control which achieve automation separation by using PC and PLC.
The tried equipment will be manufactured and be on sale so that the quality of LED will advance to a high position. At a rough estimate the equipment's cost price is about 120000 yuan and will fetch at least 250000 yuan. It can dispose of about 20 sets by using KuangTong, Ltd's marketing ability. In a all marketable tomorrow will be beautiful.
引文
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[12]顾文郁编译.现代光电测试技术.上海科学技术出版社,1993.8
[13]王庆有,张伟风等.光电测试技术.中国计量出版社,1997.5
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[15]刘毅.新型交流介电式种子分选机.北京林业大学学报,1998.20(1):49-52
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[28]孟繁华,李天贵编.气动技术在自动化中的应用.国防工业出版社,1988
[29]全宏工作室编著.SolidWorks使用入门.中国水利水电出版社,2000
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[34]C.L. Bennett, M. Carter, D. Fields et al. Imaging Fourier transform spectrometers. Opt. Engng.,1994,33(16):3087-3092
[35]W.H. Smith, P.D. Hammer. Digital array scanned interferometer:sensors and results. Appl. Opt.,1996,35(16):2902-2909
[36]Keyes R J. Optical and infrared detectors and edition, Springer-Verlag, 1980
[37]Pao Y.H and Saches W, Acoustoelasticity and Ultrasonic Measurements of residual Stresses. PHYSICAL ACOUSTICS, Vol. XVII, 1984, ACADEMIC Press. Inc
[38]Kressel, H, etc, "Progress in Laser Diodes" .IEEE spectrum Vol. 1O, No. 5 1973
[39]Alan Chappell "Optoelectronics Theory and Practices" 1978
[40]M. Pilkuhn, etc "Continuous Stimulated Emisson fron GaAs Diode at 77k',Proc. IEEE, 51.1963
[41]王建宇,薛永祺.64波段机载成像光谱仪.红外与毫米波,1992.6(11)
[42]高瞻,相里斌,杨建峰.成像光谱技术的新发展.红外技术,1997.19(6)
[43]相里斌,赵保常,薛鸣球.空间调制干涉光谱成像技术.光学学报,1998.18(1)
[44]程开芳等,红外探测器光谱响应自动测试.红外技术,1995.17(4)27-30
[45]郝允祥.光度学[M].北京:北京师范大学出版社,1989.30
[46]《摄谱仪器》编写组.摄谱仪器,北京:机械工业出版社,1978
[47]杨一德等.分析仪器电子技术.北京:北京理工大学出版社,1995
[48]王宇明.遥感技术及其应用.北京:人民交通出版社,1991
[49]王之江等.光学技术手册.北京:机械工业出版社,1994
[50][日]遥感研究会编.遥感精解.北京:测绘出版社,1993
[51]胡文瑞等.中国空间科学进展(文集).北京:国防工业出版社,1995
[52]童庆禧.中国科学院航空遥感技术系统-中国遥感进展.北京:万国学术出版,1992
[2]周家春,李建康.一种新型光电检测电路.照明工程学报,1997.8(1):8-11
[3]冯超球,林伟强,片式电容器自动分选机.电子工艺技术,2000.21(2):84-86
[4]周龙.检测技术接触式干涉仪滤光片波长检测装置.计量与测试技术,1997.2:3-5
[5]李健心.可编程控制气动夹紧系统设计.机械工程师,2000.4:24-25
[6]周佐平,薛克勋,林为,周宇钫,关伟文.光谱型传感系统的光源与检测方法研究.华南理工大学学报(自然科学版),1999.27(6):6-9
[7]吴滔,孙军强.单片机在光谱仪控制及检测系统中的应用.光电工程,2000.27(2):64-66
[8]李全臣,蒋月娟.光谱仪器原理.北京理工大学出版社,1999
[9]塔拉索夫.光谱仪器.机械工业出版社,1985.9
[10]吴国安.光谱仪器设计.科学出版社,1978.11
[11]方如章,刘玉凤.光电器件.国防工业出版社,1988.12
[12]顾文郁编译.现代光电测试技术.上海科学技术出版社,1993.8
[13]王庆有,张伟风等.光电测试技术.中国计量出版社,1997.5
[14]高中林,汪开远,光电子器件.东南大学出版社,1991.6
[15]刘毅.新型交流介电式种子分选机.北京林业大学学报,1998.20(1):49-52
[16]顾正平,沈瑞珍.林木种子介电分选技术方案的理论分析.北京林业大学报,1998,20(5):55-60
[17]周宁,杜润生,邓基照,熊宗保,李斌.扣式电池电参数自动检测分选系统.机械与电子,2000(1):28-30
[18]陈烽.彩套光电自动检测的研究,应用光学,1999,20(1):45-48
[19]成大先主编.机械设计图册,化学工业出版社,第二、三卷
[20]滕森洋三著.供料过程自动化图册.机械工业出版社,1985.11
[21]邓星钟主编.机电传动控制.华中科技大学出版社,2001.3
[22]清华大学流体传动与控制研究室编著.气压传动与控制.上海科学技术出版社,1985.7
[23]金广业,李景学编著.可编程序控制器原理与应用.电子工业出版社,1991.2
[24]管荣法主编.凸轮与凸轮机构.国防工业出版社,1991.6
[25]T,J.哈里森等著.工业控制机手册第一分册.冶金工业出版社,1982.12
[26]北京华正软件工程研究所.华正CAXA电子图板,1998
[27]高中林,江开源编著.光电子器件.东南大学出版社,1991
[28]孟繁华,李天贵编.气动技术在自动化中的应用.国防工业出版社,1988
[29]全宏工作室编著.SolidWorks使用入门.中国水利水电出版社,2000
[30]Maiden, M.E. and S. Greco. NASA' s Pathfinder data set programme:Land surface parameters, Int. J. Remote sensing, 1994
[31]Vane G. et al. Preceeding of the 1984 Int. Geoscience and Remote sensing Sympasium, 1984
[32]R.G. ellsr, J,B. Rafert. Fourier transform imaging spectrometer with a single toroidal optic. Apple, Opt.,1995,34(16):2932-2933
[33]J.B. Rafert, R,G, Sellar, J,H. Blatt. Monolithic Fourier transform imaging spectrometer, Apple. Opt.,1995,34(31):7228-7230
[34]C.L. Bennett, M. Carter, D. Fields et al. Imaging Fourier transform spectrometers. Opt. Engng.,1994,33(16):3087-3092
[35]W.H. Smith, P.D. Hammer. Digital array scanned interferometer:sensors and results. Appl. Opt.,1996,35(16):2902-2909
[36]Keyes R J. Optical and infrared detectors and edition, Springer-Verlag, 1980
[37]Pao Y.H and Saches W, Acoustoelasticity and Ultrasonic Measurements of residual Stresses. PHYSICAL ACOUSTICS, Vol. XVII, 1984, ACADEMIC Press. Inc
[38]Kressel, H, etc, "Progress in Laser Diodes" .IEEE spectrum Vol. 1O, No. 5 1973
[39]Alan Chappell "Optoelectronics Theory and Practices" 1978
[40]M. Pilkuhn, etc "Continuous Stimulated Emisson fron GaAs Diode at 77k',Proc. IEEE, 51.1963
[41]王建宇,薛永祺.64波段机载成像光谱仪.红外与毫米波,1992.6(11)
[42]高瞻,相里斌,杨建峰.成像光谱技术的新发展.红外技术,1997.19(6)
[43]相里斌,赵保常,薛鸣球.空间调制干涉光谱成像技术.光学学报,1998.18(1)
[44]程开芳等,红外探测器光谱响应自动测试.红外技术,1995.17(4)27-30
[45]郝允祥.光度学[M].北京:北京师范大学出版社,1989.30
[46]《摄谱仪器》编写组.摄谱仪器,北京:机械工业出版社,1978
[47]杨一德等.分析仪器电子技术.北京:北京理工大学出版社,1995
[48]王宇明.遥感技术及其应用.北京:人民交通出版社,1991
[49]王之江等.光学技术手册.北京:机械工业出版社,1994
[50][日]遥感研究会编.遥感精解.北京:测绘出版社,1993
[51]胡文瑞等.中国空间科学进展(文集).北京:国防工业出版社,1995
[52]童庆禧.中国科学院航空遥感技术系统-中国遥感进展.北京:万国学术出版,1992