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    • 1. 实用新型
    • 목공용 실톱 조각기계
    • 木工机床
    • KR200287156Y1
    • 2002-08-30
    • KR2020020011009
    • 2002-04-12
    • 엄두일
    • 엄두일
    • B27B13/02
    • 본 고안은 목공용 실톱 조각기계에 관한 것이다.
      보다 상세하게는 작업테이블을 고정및 지지하는 테이블 고정대와 모터의 동력을 전달받아 실톱을 장착한 조각부를 상하 요동시키는 원판캠 유닛트를 분해조립가능하게 하고, 베이스 프레임을 각파이프로 구성하여 내부에 모래나 자갈등을 내장한 것이다.
      따라서 본 발명에 따르면, 종래 용접고정시켰던 테이블고정대와 원판캠유닛트를 분해 조립가능하게 함에 따라 부품의 수리및 교환이 매우 원활하게 이루어지게 되고, 베이스프레임의 중량이 많이 나감에 따라 실톱요동시 기계가 떨거나 유동하는 등의 문제점이 일소되어 안정적인 작업이 이루어지게 하는 목공용실톱조각기계를 제공하게 된다.
    • 2. 发明授权
    • 미립자 검출기
    • 미립자검출기
    • KR100372481B1
    • 2003-02-19
    • KR1020000049333
    • 2000-08-24
    • 엄두일장수창
    • 엄두일장수창
    • G01N21/39
    • PURPOSE: A corpuscle detector is provided to easily measure the change amount of the laser beam without increasing amplification by receiving the laser beam reduced light intensity in a receiving part, thereby efficiently detecting the corpuscle exist in the air. CONSTITUTION: A corpuscle detector includes a case(10) having an aperture(12) in the upper part, a transmitting part(20) mounted in the inside of the case and emitting a laser beam, a receiving part(30) positioned on an optical path of the laser beam emitted from the transmitting part, an output element(70) connected with the receiving part for outputting data received in the receiving part at a predetermined type, wherein the laser beam reduced light intensity as much as dispersion light if the laser beam is dispersed by exposing corpuscle such as dust.
    • 目的:提供一种微粒检测器,通过在接收部分接收激光束减小的光强度,可以在不增加放大率的情况下容易地测量激光束的变化量,从而有效地检测空气中存在的微粒。 本发明公开了一种血球探测器,包括:在上部具有孔(12)的壳体(10);安装在壳体内部并发射激光束的发射部分(20);接收部分(30) 从所述发射部分发射的激光束的光路;与所述接收部分连接的输出元件(70),用于以预定类型输出在所述接收部分中接收的数据,其中如果所述激光束 激光束通过暴露诸如灰尘的微粒而分散。
    • 4. 发明公开
    • 편광변환장치가 구비된 입체영상촬영기
    • 具有极化转换单元的立体图像摄影装置
    • KR1020020078509A
    • 2002-10-19
    • KR1020010017636
    • 2001-04-03
    • 주식회사 유빈엄두일
    • 송광선
    • G03B35/26
    • G03B35/26G02B27/26G02B27/283H04N13/337
    • PURPOSE: A stereoscopic image photographing device is provided to achieve improved optical efficiency of stereoscopic image signal by optimizing the polarization direction of polarizing beam splitter and LCD. CONSTITUTION: A polarization converting unit comprises a total reflector mirror(11) inclined at a predetermined angle for an incidence of non-polarizing beam from an object(1); a vertical LCD(20) including a first polaroid plate(21) for passage of only the P-wave from among the non-polarizing beam incident from the total reflector mirror, a liquid crystal(23) contacting the inner surface of the first polaroid plate, and which is formed of a plurality of cells, such that the P-wave passed through the first polaroid plate is converted into an S-wave after rotating at an angle of 90 degrees, and a second polaroid plate(22) for passage of the S-wave passed through the liquid crystal; a horizontal LCD(30) including a first polaroid plate(31) for passage of only the S-wave from among the non-polarizing beam incident from the object, a liquid crystal(33) contacting the inner surface of the first polaroid plate, and which is formed of a plurality of cells, such that the S-wave passed through the first polaroid plate is converted into a P-wave after rotating at an angle of 90 degrees, and a second polaroid plate(32) for passage of the P-wave passed through the liquid crystal; and a polarizing beam splitter(12) arranged in rear of the vertical LCD and the horizontal LCD such that the polarizing beam splitter is parallel to the total reflector mirror, wherein the polarizing beam splitter has a coated surface(12a). The polarizing beam splitter is disposed, such that the S-wave having a high reflectivity and which is emitted from the vertical LCD, is reflected at one surface of the polarizing beam splitter, at a right angle with respect to the incidence direction, while the P-wave having a high permeability, and which is emitted from the horizontal LCD, is incident at the other surface of the polarizing beam splitter.
    • 目的:提供立体图像拍摄装置,通过优化偏振分束器和LCD的偏振方向来实现立体图像信号的光学效率的提高。 构成:偏振转换单元包括以预定角度倾斜以从物体(1)入射非偏振光束的全反射镜(11); 垂直LCD(20),包括仅从所述反射镜入射的非偏振光束中仅使P波通过的第一偏光片(21),与所述第一偏光镜的内表面接触的液晶(23) 并且由多个单元形成,使得通过第一偏光片的P波在以90度的角度旋转之后被转换为S波,以及用于通过的第二偏光板(22) 的S波通过液晶; 水平LCD(30),包括仅从所述物体入射的非偏振光束中仅使S波通过的第一偏光板(31),与所述第一偏光片的内表面接触的液晶(33) 并且其由多个单元形成,使得通过第一偏光片的S波在以90度的角度旋转之后被转换为P波,并且第二偏光板(32)通过 P波通过液晶; 以及偏振分束器(12),其布置在垂直LCD和水平LCD的后部,使得偏振分束器平行于全反射镜,其中偏振分束器具有涂覆表面(12a)。 偏振光束分离器被布置成使得具有高反射率并且从垂直LCD发射的S波在偏振分束器的一个表面处以相对于入射方向成直角的角度被反射,而 从水平LCD发射的具有高磁导率的P波入射在偏振分束器的另一个表面。
    • 6. 发明公开
    • 안구 유도가 가능한 안구 촬영용 광학장치
    • 眼睛摄影光学设备,可以引导眼睛
    • KR1020030087455A
    • 2003-11-14
    • KR1020020025828
    • 2002-05-10
    • 엄두일
    • 엄두일장수창
    • A61B3/14
    • PURPOSE: An eyeball photographing optical device is provided to achieve improved convenience of eyeball photographing operation, while reducing manufacturing costs and parts count. CONSTITUTION: An eyeball photographing optical device comprises a camera sensor unit(10); an optical lens system(20) for forming an image of an object to the camera sensor unit; and a visible light reflecting filter(30) interposed between a first lens for collecting the light reflected from the object and a third lens for forming images on the camera sensor unit. The light reflecting filter reflects a visible light and permits an infrared ray to penetrate.
    • 目的:提供一种眼球拍摄光学装置,以提高眼球拍摄操作的便利性,同时降低制造成本和零件数量。 构成:眼球拍摄光学装置包括照相机传感器单元(10); 用于将物体的图像形成到所述照相机传感器单元的光学透镜系统(20); 以及插入在用于收集从物体反射的光的第一透镜和用于在相机传感器单元上​​形成图像的第三透镜之间的可见光反射滤光器(30)。 光反射滤光镜反射可见光,并允许红外线穿透。
    • 7. 发明公开
    • 미립자 검출기
    • 公司检测器
    • KR1020000064148A
    • 2000-11-06
    • KR1020000049333
    • 2000-08-24
    • 엄두일장수창
    • 엄두일장수창
    • G01N21/39
    • PURPOSE: A corpuscle detector is provided to easily measure the change amount of the laser beam without increasing amplification by receiving the laser beam reduced light intensity in a receiving part, thereby efficiently detecting the corpuscle exist in the air. CONSTITUTION: A corpuscle detector includes a case(10) having an aperture(12) in the upper part, a transmitting part(20) mounted in the inside of the case and emitting a laser beam, a receiving part(30) positioned on an optical path of the laser beam emitted from the transmitting part, an output element(70) connected with the receiving part for outputting data received in the receiving part at a predetermined type, wherein the laser beam reduced light intensity as much as dispersion light if the laser beam is dispersed by exposing corpuscle such as dust.
    • 目的:提供一种小体检测器,通过接收接收部分中的激光束减少的光强度而不增加放大率来容易地测量激光束的变化量,从而有效地检测空气中存在的微粒。 构成:小体检测器包括在上部具有孔(12)的壳体(10),安装在壳体内部并发射激光束的发射部分(20),位于壳体上的接收部分(30) 从发送部发射的激光束的光路,与接收部连接的输出元件(70),用于以预定类型输出接收在接收部分中的数据,其中如果激光束 激光束通过暴露微粒如灰尘而分散。
    • 8. 发明公开
    • 착색램프
    • 用于固化分离半导体器件的方法
    • KR1020000007476A
    • 2000-02-07
    • KR1019980026842
    • 1998-07-03
    • 엄두일
    • 엄두일
    • H01K1/28
    • PURPOSE: A colored lamp capable of emitting light which is as good as natural light and of being controlled in order to prevent the luminous intensity from going down is provided. CONSTITUTION: The colored lamp according to the present invention comprising: a bulb(2) having a cobalt layer(6) formed on an outer surface thereof and a dielectric material layer(8) formed on the cobalt layer(6), in which the cobalt layer(6) is melted and sticked to the outer surface of the bulb(2) by using a high temperature of heat after applying a cobalt to the outer surface of the bulb(2); and a dielectric material layer(8) formed on an outer surface the cobalt layer(6), in which the dielectric material layer(8) is formed by alternatively depositing a dielectric materials having a high refractivity and a dielectric materials having a low refractivity onto the outer surface of the cobalt layer(6) by using a vacuum deposition technique.
    • 目的:提供一种能够发出与自然光一样好并被控制以防止发光强度下降的光的彩色灯。 构成:根据本发明的彩色灯,包括:在其外表面上形成有钴层(6)的灯泡(2)和形成在钴层(6)上的电介质层(8),其中 钴层(6)在将钴施加到灯泡(2)的外表面之后通过使用高温的热量而熔化并粘附到灯泡(2)的外表面; 以及形成在钴层(6)的外表面上的介电材料层(8),其中通过交替地将具有高折射率的介电材料和具有低折射率的电介质材料交替沉积到所述钴层(6)上而形成,所述电介质材料层 钴层(6)的外表面。
    • 10. 发明公开
    • 적외선 조명장치
    • 红外线照明设备
    • KR1020040020412A
    • 2004-03-09
    • KR1020020052011
    • 2002-08-30
    • 엄두일
    • 엄두일장수창
    • H01K7/00
    • PURPOSE: An infrared lighting device is provided to prevent damages of the lighting device, while reducing costs and power consumption. CONSTITUTION: An infrared lighting device(10) comprises a housing(11); a light source lamp(20) arranged in the housing; an infrared transmitting filter(30) arranged to be opposed to the light source lamp, wherein the infrared transmitting filter allows for a transmission of only the infrared ray from among the light emitted from the light source lamp; a visible light reflecting filter(40) interposed between the light source lamp and the infrared transmitting filter, wherein the visible light reflecting filter reflects the visible light emitted from the light source lamp; and a cooling system for releasing the heat discharged from the light source lamp and the infrared transmitting filter. The cooling system includes an air inlet(13), an air outlet(14), shielding screens(15,16) and a fan(60).
    • 目的:提供红外线照明设备,以防止照明设备损坏,同时降低成本和功耗。 构成:红外照明装置(10)包括壳体(11); 布置在所述壳体中的光源灯(20) 与所述光源灯相对配置的红外线透射滤光器(30),其中,所述红外线透射滤光片仅允许从所述光源灯发出的光中仅发射所述红外线; 插入在所述光源灯和所述红外线透射滤光器之间的可见光反射滤光器,其中所述可见光反射滤光器反射从所述光源灯发射的可见光; 以及用于释放从光源灯和红外发射滤光器放出的热量的冷却系统。 冷却系统包括空气入口(13),空气出口(14),屏蔽屏(15,16)和风扇(60)。