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    • 1. 发明授权
    • 플라이 마킹 시스템
    • 飞行标记系统
    • KR101288062B1
    • 2013-07-22
    • KR1020110065262
    • 2011-07-01
    • 한국알엠아이(주)
    • 최완해
    • B23K26/18B23K26/08B41J3/407B41J3/00
    • 본 발명은 플라이 마킹 시스템에 관한 것으로서, 특히 더욱 상세하게는 종래의 잉크 분사의 경우, 잉크가 분사되지 않는 동안에도 노즐이 개폐되어 있어 공기와의 접촉이 이루어지므로 노즐에서 잉크가 굳거나 노즐이 막히는 문제점을 방지하기 위해 레이저 방식을 적용함으로써, 노즐의 잦은 교체에 따른 추가 비용이 소모될 필요가 없고, PC 내의 레이저 컨트롤 보드에서 레이저와, 레이저 컨트롤러 및 레이저 마킹 조절용 모듈을 제어함으로써, 전선이나 파이프와 같은 마킹 대상물체의 표면에 마킹하는 것을 1000 내지 2000mm/s의 고속으로 수행할 수 있음은 물론 높은 정밀도로 소정의 형상으로 마킹할 수 있으며, 종래의 잉크 분사의 경우, 오랜 기간이 지나면 대상물체의 표면에 마킹된 잉크가 지워지는 문제점을 방지하기 위해 레이저 방식을 사용함으� ��써, 오랜 기간이 지나도 마킹된 형상이 지워지지 않으므로 마킹이 보존될 수 있어 마킹 대상물체의 이력관리가 용이하고, 빔 확장기와 미러(mirror)와 스캔렌즈를 모듈화함으로써, 시스템의 크기를 최소화할 수 있으며, 레이저가 가지는 고유의 직진성, 집광성 및 단색성을 바탕으로 좀 더 높은 노광 품질을 기대할 수 있음은 물론 제어가 용이한 효과가 있다.
    • 2. 发明授权
    • 레이저 디스플레이용 박막형 2축 구동거울 및 그 제조방법
    • 레이저디스플레이용박막형2축구동거울및그제조방
    • KR100931324B1
    • 2009-12-11
    • KR1020070132199
    • 2007-12-17
    • 한국알엠아이(주)
    • 임용근
    • G02B26/08
    • A thin film type dual axis driving mirror for a laser display and a manufacturing method thereof are provided to improve light efficiency by enhancing a fill factor through increase of reflection efficiency. A thin film type dual axis driving mirror includes a cantilever beam, a first torsion bar, a second torsion bar, a coil wire, a printed circuit board or a ceramic board, a magnetic flux inducing frame, and a magnet. The cantilever beam(30) of a vertical axis drive is formed inside a chip for the driving mirror. The first torsion bar(31) is positioned on a rotary axis of the cantilever beam of the vertical axis drive. A cantilever beam(32) of a horizontal axis drive is formed in outer part of the cantilever beam of the vertical axis drive. The chip for the driving mirror is mounted on the printed circuit board or the ceramic board, and is fixed by a fixing member(51). The magnetic flux inducing frame(60) is supported by the printed circuit board or the ceramic board. The magnet(70) is mounted inside the magnetic flux inducing frame.
    • 提供一种用于激光显示器的薄膜型双轴驱动镜及其制造方法,以通过增加反射效率来提高填充因子来提高光效率。 薄膜型双轴驱动镜包括悬臂梁,第一扭杆,第二扭杆,线圈线,印刷电路板或陶瓷板,磁通感应框架和磁体。 垂直轴驱动器的悬臂梁(30)形成在用于驱动镜的芯片内部。 第一扭杆(31)位于垂直轴驱动器的悬臂梁的旋转轴线上。 水平轴驱动器的悬臂梁(32)形成在垂直轴驱动器的悬臂梁的外部部分中。 用于驱动反射镜的芯片安装在印刷电路板或陶瓷板上,并由固定件(51)固定。 磁通感应框架(60)由印刷电路板或陶瓷板支撑。 磁体(70)安装在磁通量引发框架内。
    • 3. 发明公开
    • 플라이 마킹 시스템
    • 飞行标记系统
    • KR1020130003743A
    • 2013-01-09
    • KR1020110065262
    • 2011-07-01
    • 한국알엠아이(주)
    • 최완해
    • B23K26/18B23K26/08B41J3/407B41J3/00
    • PURPOSE: A fly marking system is provided to use a laser mode so that a marked shape is not erased and preserved even after a long period of time passes, thereby simplifying the history management of a marking object. CONSTITUTION: A fly marking system includes a computer(30), multiplemultiple laser controllers(41), multiplemultiple lasers(40), and a laser marking control module(50). The computer plots a character or a figure for marking on an object(20), and then controls the on-off of the laser controllers according to the plotted data. The laser controllers are actuated by receiving the control signal from the computer and then actuate the multiple lasers. The multiple lasers are actuated by the multiple laser controllers and then scan laser beams. The laser marking control module extends the laser beams which are output from the multiple lasers; corrects the aberration of the multiple laser beams which are incident through multiple mirrors(52); focuses the laser beams by a scan lens(53); and then scans the laser beams on the object. [Reference numerals] (10) Conveyor belt; (20) Object to be marked; (30) Computer(PC); (31) Laser control board; (40) Laser; (41) Laser controller; (50) Laser marking control module unit; (51) Beam expander; (52) Mirror; (53) Scan lens; (AA) Laser and laser controller
    • 目的:提供飞行标记系统以使用激光模式,使得即使在长时间过去之后,标记的形状也不被擦除和保存,从而简化了标记对象的历史管理。 构成:飞行标记系统包括计算机(30),多个激光控制器(41),多个激光器(40)和激光打标控制模块(50)。 计算机绘制用于在物体(20)上标记的字符或图形,然后根据绘制的数据控制激光控制器的开 - 关。 激光控制器通过从计算机接收控制信号并致动多个激光器来致动。 多个激光器由多个激光控制器驱动,然后扫描激光束。 激光打标控制模块延伸从多个激光器输出的激光束; 校正通过多个反射镜(52)入射的多个激光束的像差; 通过扫描透镜(53)对激光束进行聚焦; 然后扫描物体上的激光束。 (附图标记)(10)输送带; (20)要标注的对象; (30)电脑(PC); (31)激光控制板; (40)激光; (41)激光控制器; (50)激光打标控制模块单元; (51)光束扩张器; (52)镜; (53)扫描镜头; (AA)激光和激光控制器
    • 4. 发明公开
    • 다기능 태양광 집광기
    • 多功能太阳能收集器
    • KR1020110057329A
    • 2011-06-01
    • KR1020090113687
    • 2009-11-24
    • 한국알엠아이(주)
    • 한유진
    • H02S40/22F24J2/08H01L31/054
    • Y02E10/50H02S40/22H02S10/30
    • PURPOSE: A multi-functional solar collector is provided to collect three spectrums of solar energy using a beam splitter and split solar spectrum into three spectrum regions including IR, VIS-NIR, and UV. CONSTITUTION: A multi-functional solar collector comprises a unit 'a', a unit 'b', a unit 'c', and a unit 'd'. The unit 'a' reflects the solar light to a focus for performing the function of amplification. The unit 'b' separates IR ray from UV and VIS-NIR ray(32) at the focus. The unit 'c' controls the direction of the VIS-NIR ray to face to a solar cell. The unit 'd' absorbs the IR ray and generates heat.
    • 目的:提供多功能太阳能收集器,使用分束器和分离太阳光谱将三个太阳能光谱收集到三个光谱区域,包括IR,VIS-NIR和UV。 构成:多功能太阳能集热器包括单元'a',单元'b',单元'c'和单元'd'。 单位“a”将太阳光反射到执行放大功能的焦点。 单位'b'在焦点处将紫外线和VIS-NIR射线(32)的红外线分离。 单元“c”控制VIS-NIR射线面向太阳能电池的方向。 单位'd'吸收红外线并产生热量。
    • 5. 发明公开
    • 레이저 디스플레이용 박막형 2축 구동거울 및 그 제조방법
    • 具有薄膜类型的第二轴用于激光显示的镜子及其制造方法
    • KR1020090064844A
    • 2009-06-22
    • KR1020070132199
    • 2007-12-17
    • 한국알엠아이(주)
    • 임용근
    • G02B26/08
    • G02B26/085B81B2201/042B81C1/00015B81C1/00158B81C1/00547H04N9/3161
    • A thin film type dual axis driving mirror for a laser display and a manufacturing method thereof are provided to improve light efficiency by enhancing a fill factor through increase of reflection efficiency. A thin film type dual axis driving mirror includes a cantilever beam, a first torsion bar, a second torsion bar, a coil wire, a printed circuit board or a ceramic board, a magnetic flux inducing frame, and a magnet. The cantilever beam(30) of a vertical axis drive is formed inside a chip for the driving mirror. The first torsion bar(31) is positioned on a rotary axis of the cantilever beam of the vertical axis drive. A cantilever beam(32) of a horizontal axis drive is formed in outer part of the cantilever beam of the vertical axis drive. The chip for the driving mirror is mounted on the printed circuit board or the ceramic board, and is fixed by a fixing member(51). The magnetic flux inducing frame(60) is supported by the printed circuit board or the ceramic board. The magnet(70) is mounted inside the magnetic flux inducing frame.
    • 提供了用于激光显示器的薄膜型双轴驱动镜及其制造方法,以通过增加反射效率来提高填充因数来提高光效率。 薄膜型双轴驱动反射镜包括悬臂梁,第一扭杆,第二扭杆,线圈线,印刷电路板或陶瓷板,磁通引导框架和磁铁。 垂直轴驱动器的悬臂梁(30)形成在驱动镜的芯片的内部。 第一扭杆(31)位于垂直轴驱动器的悬臂梁的旋转轴上。 水平轴驱动器的悬臂梁(32)形成在垂直轴驱动器的悬臂梁的外部。 用于驱动反射镜的芯片安装在印刷电路板或陶瓷板上,并由固定部件(51)固定。 磁通引导框架60由印刷电路板或陶瓷板支撑。 磁体(70)安装在磁通引导框架内部。
    • 6. 发明公开
    • 새로운 구조의 엘코스 커널
    • LCOS KERNEL的新建筑
    • KR1020060129740A
    • 2006-12-18
    • KR1020050050371
    • 2005-06-13
    • 한국알엠아이(주)
    • 한유진
    • G03B21/00G03B21/14
    • G03B21/54G02B27/283G03B21/14H04N9/3167H04N9/3197
    • A new architecture for an LCoS kernel is provided to obtain a maximum optical efficiency of the kernel using a high refractive index glass and a high level of thin film coating technology. A new architecture for an LCoS kernel includes an optical path, a plate beam splitter(13), an X-cube(14), and a screen. The optical path has a two-layered structure. A white light is refracted by a 90-degree prism or a mirror to be divided into R, G and B by using the plate beam splitter or the X-cube. The R, G and B pass through the 90-degree prism or the mirror to move to a PBS. After entering the PBS, the R, G and B move in an S polarization direction to be focused to each RGB LCoS. At this time, the LCoS image is displayed through the screen.
    • 提供了一种用于LCoS内核的新架构,以使用高折射率玻璃和高水平的薄膜涂层技术来获得内核的最大光学效率。 用于LCoS内核的新架构包括光路,平板光束分离器(13),X立方体(14)和屏幕。 光路具有两层结构。 白光通过使用板分光器或X形立方体被90度棱镜或反射镜折射成R,G和B。 R,G和B通过90度棱镜或镜子移动到PBS。 在进入PBS之后,R,G和B沿S偏振方向移动以聚焦到每个RGB LCoS。 此时,通过屏幕显示LCoS图像。
    • 7. 发明授权
    • 수출 포장재 검역 레이저 마킹기 및 그 방법
    • 检验激光打标机出口包装及其方法
    • KR101565400B1
    • 2015-11-03
    • KR1020140123619
    • 2014-09-17
    • 한국알엠아이(주)
    • 김정중
    • G06Q10/08B41J2/175
    • G06Q10/0831B41J2/17566
    • 본발명은수출포장재검역레이저마킹기및 그방법에관한것이다. 본발명은, 검역포장재마킹회사의업체관리시스템(1)이농수산부검역관리서버(10)로의마킹업체및 마킹시행자등록을수행하는제 1 단계; 검역레이저마킹기(2)가구동을위한최소한의전원충전확인을수행하는제 2 단계; 검역레이저마킹기(2)가마킹시행자의전원스위치입력이후, 검역레이저마킹기고유번호에대한마킹시행자의입력에따라등록된검역레이저마킹기인지여부를확인하는제 3 단계; 확인결과등록된검역레이저마킹기가아닌경우검역레이저마킹기(2)는전원을오프(OFF)하며, 노란색 LED 오프(OFF)을수행하며, 반대로확인결과등록된검역레이저마킹기인경우, 검역레이저마킹기(2)가전원을온(ON) 하며, 노란색 LED를온(ON)으로동작시키는제 4 단계; 검역레이저마킹기(2)가마킹시행자의검역레이저마크의크기에대한선택을입력받는제 5 단계; 검역레이저마킹기(2)가마킹대상면접촉여부를판단하는제 6 단계; 판단결과마킹대상면에대한접촉이되지않은것으로판단한경우, 검역레이저마킹기(2)가청색 LED 오프(OFF)를수행하며, 반대로, 판단결과마킹대상면에대한접촉으로판단한경우, 검역레이저마킹기(2)는청색 LED를온(ON)으로동작시키는제 7 단계; 검역레이저마킹기(2)가마킹시행자에의한마킹버튼입력에따른검역레이저마킹을위한레이저각인개시를위한트리거링을수행하는제 8 단계; 검역레이저마킹기(2)가마킹시행자에대한등록된지문검출여부를판단하는제 9 단계; 및판단결과마킹시행자에대한등록된지문이검출되지않은경우, 검역레이저마킹기(2)가적색 LED에대한오프(OFF)를수행하며, 반대로등록된지문이검출된경우, 검역레이저마킹기(2)가적색 LED에대한온(ON) 동작을수행한뒤, 검역레이저마크에대한마킹을수행하는제 10 단계; 를포함하는수출포장재검역레이저마킹방법에있어서, 상기제 1 단계는, 검역포장재마킹회사의업체관리시스템(1)의농수산부검역포장재인증관리전용스마트폰(20a)이농수산부검역관리서버(10)의농수산부검역포장재인증관리전용웹페이지(30a)로로그인하는로그인과정; 및농수산부검역포장재인증관리전용스마트폰(20a)이검역포장재마킹회사등록, 검역포장재시행자지문등록, 검역포장재마킹기등록, 검역포장재마킹회사에게확인문자및 사용안내자동전송에따른순차적과정인등록과정을수행하는 '등록과정', 농수산부검역포장재인증관리전용스마트폰(20a)이농수산부검역포장재인증관리전용웹페이지(30a)를제공하는농수산부검역관리서버(10)를포함하는검역포장재마킹시스템(100)에대한접근허가를수행한뒤, 등록된검역포장재마킹회사외에수출입관련회사/일반회원등을등록한뒤, 추출된해당자에게확인문자및 사용안내자동전송을순차적으로수행하는과정인접근허가과정을수행하는 '접근허가과정', 농수산부검역포장재인증관리전용스마트폰(20a)이검역포장재마킹자료에대한입력/수정/삭제/조회, 검역포장재마킹회사를포함하는허가자의입력/수정확인, 그리고입력, 수정및 삭제에따른미리지정된해당자에게확인문자전송을검역포장재마킹시스템(100)의농수산부검역관리서버(10)로요청하는 '요청과정' 을수행함에있어서, 상기등록과정, 상기접근허가과정및 상기요청과정중 하나를선택
    • 本发明涉及一种用于出口包装的检查激光打标装置及其方法。 该方法包括:登记标记公司和标记操作者的第一步骤; 检查最小功率充电的第二步; 检查检查激光打标装置是否被登记的第三步骤; 第四步骤是在检查激光打标装置未登记的情况下使检查用激光打标装置(2)能够断电并使黄色LED熄灭,能够使检查用激光打标装置(2)接通电源 检查激光打标设备注册时的黄色LED指示灯; 从标记操作器接收关于检查激光标记的尺寸的选择的第五步骤; 确定标记目标表面是否接触的第六步骤; 第七步骤,当检查激光打标装置(2)在标记目标表面不接触时使得蓝色LED熄灭,并且使得检查激光打标装置(2)在检查激光打标装置接触时接通蓝色LED ; 进行激光雕刻的触发的第八步骤; 确定是否检测到所述标记运算符的登记指纹的第九步骤; 以及第十步骤,当未检测到所述标记操作者的所述登记指纹时,使所述检查激光打标装置(2)熄灭红色LED,并且使得所述检查激光打标装置(2)能够在转动后标记检查激光标记 当检测到标记操作者的注册指纹时,红色LED亮起。
    • 8. 发明公开
    • 마스크 구동 방식의 레이저 마킹 장치
    • 屏幕移动类型的激光标记设备
    • KR1020080067908A
    • 2008-07-22
    • KR1020070005399
    • 2007-01-17
    • 한국알엠아이(주)최완해
    • 최완해
    • B23K26/21B23K26/06
    • A mask moving type laser marking device is provided to mark the beam passing through a mask on an object through a lens device so as to enable high speed marking, to manufacture the mask easily, and to replace the mask freely. A mask moving type laser marking device comprises a laser(1), a beam expander(3), a beam scanning device(4), a mask(6), a mask stage(5), a mask driving device(7), a lens device(10), a driving plate, a speed measuring device(11b), a main control device(12a), and a fixed frame. The beam expander expands a beam(2) generated from the laser. The mask driving device has a beam passing hole(8) and a driving motor(9) moving a belt. The lens device scans the beam passing through the mask and the mask stage to an object(11a). The speed measuring device has a rotary encoder attached with a roll which is contacted with the object.
    • 提供了一种掩模移动式激光打标装置,用于通过透镜装置标记通过物体上的掩模的光束,以便能够进行高速标记,容易地制造掩模,并且自由地替换掩模。 掩模移动型激光打标装置包括激光器(1),扩束器(3),光束扫描装置(4),掩模(6),掩模台(5),掩模驱动装置(7) 透镜装置(10),驱动板,速度测量装置(11b),主控装置(12a)和固定框架。 光束扩展器扩展从激光产生的光束(2)。 掩模驱动装置具有光束通过孔(8)和移动带的驱动马达(9)。 透镜装置将通过掩模和掩模台的光束扫描到物体(11a)。 速度测量装置具有安装有与物体接触的辊的旋转编码器。
    • 9. 发明公开
    • 마스크 구동 방식의 레이저 마킹 장치
    • 屏幕移动类型的激光标记设备
    • KR1020060119609A
    • 2006-11-24
    • KR1020050042746
    • 2005-05-21
    • 한국알엠아이(주)
    • 최완해
    • B23K26/18B41J2/455B41J2/465
    • An equipment capable of performing marking of an object that moves at high speed even without a laser with high power is provided. A laser marking equipment of mask drive type is characterized in that: a mask(6) processed in various image shapes such as patterns, letters and pictures is fixed to a stage(5) for mask on which a drive motor(9) is mounted; a laser beam(2) scanned from a laser generation part is converted into a thin and long laser beam through a beam expander(3) and a beam irradiation device(4) so that the thin and long laser beam is irradiated onto the mask; the beam irradiated onto the mask is marked on a target object(11a) through a lens device(10); and the drive motor attached to a mask drive(7) allows the mask to be synchronized with a speed measuring device(11b) of the target object that moves at high speed so as to irradiate or engrave the shape of the mask on the target object.
    • 提供能够对没有高功率激光的高速移动的物体进行标记的设备。 掩模驱动型的激光打标设备的特征在于:将处理成各种图像形状(如图案,字母和图像)的掩模(6)固定到用于安装驱动马达(9)的掩模的台(5) ; 从激光产生部件扫描的激光束(2)通过光束扩展器(3)和光束照射装置(4)被转换为薄而长的激光束,使得激光束和长激光束照射到掩模上; 照射到掩模上的光束通过透镜装置(10)被标记在目标物体(11a)上; 并且附接到掩模驱动器(7)的驱动马达允许掩模与目标物体的高速移动的速度测量装置(11b)同步,以便将目标物体上的掩模的形状照射或雕刻 。