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    • 4. 发明授权
    • 근접장 렌즈 고정장치
    • SIL固定装置
    • KR101403992B1
    • 2014-06-10
    • KR1020130043988
    • 2013-04-22
    • 한국기초과학지원연구원
    • 김건희성하영김우강이계승장기수이기주
    • G02B7/02G02B7/04G02B21/02
    • G02B7/023G01Q60/22G02B7/025G02B7/04G02B27/56
    • The present invention, which relates to a near-field lens optical system, provides a near-field lens fixing device that is formed to include a first adapter where a near-field lens is disposed and the coupling height of the near-field lens is adjusted so that a gap between infrared object lenses and a focal distance from a specimen are adjusted, the first adapter being in close and horizontal contact with the specimen; a second adapter that is screw-coupled with an inner surface of the first adapter and is screw-coupled with an outer surface of a third adapter so that a first O-ring is pressed or released; the third adapter that is screw-coupled with inner surfaces of the second adapter and a fourth adapter with O-rings being positioned in both end portions of the third adapter; the fourth adapter that is screw-coupled with the outer surface of the third adapter so that a second O-ring is pressed or released and the first O-ring and the second O-ring that expand due to pressing forces of the second adapter and the fourth adapter and elastically fix an outer surface of a body tube of the infrared object lens; and a near-field lens holder that is used to mount the near-field lens on the first adapter. Difficulties associated with optical axis alignment and focusing of the first adapter, on which the near-field lens is mounted, through a screw movement are addressed, and object lens performance decline attributable to a screw coupling force acting on the object lens can be prevented since the body tube of the object lens is coupled with the near-field lens fixing device by using an elastic expansive force of the O-ring. A horizontal and close contact state is maintained between the near-field lens and the specimen by a long hole of the first adapter that has a spring function. The performance of the near-field lens can be realized with greater ease and excellent, and an accident in which the specimen or the near-field lens is damaged can be prevented.
    • 涉及近场透镜光学系统的本发明提供一种近场透镜固定装置,其形成为包括设置近场透镜的第一适配器,并且近场透镜的耦合高度为 被调整为使得红外线物镜之间的间隙与来自试样的焦距被调整,第一适配器与试样紧密且水平接触; 第二适配器,其与第一适配器的内表面螺纹连接并且与第三适配器的外表面螺纹联接,使得第一O形环被按压或释放; 与第二适配器的内表面螺纹联接的第三适配器和具有O形环的第四适配器,第四适配器位于第三适配器的两端部; 所述第四适配器与所述第三适配器的外表面螺纹联接,使得第二O形环被按压或释放,并且所述第一O形环和所述第二O形环由于所述第二适配器的按压力而膨胀;以及 所述第四适配器弹性地固定所述红外线物镜的主体管的外表面; 以及用于将近场透镜安装在第一适配器上的近场透镜保持器。 涉及通过螺丝移动安装近场透镜的第一适配器的光轴对准和聚焦的困难被解决,并且可以防止由于作用在物镜上的螺旋联接力引起的物镜性能下降,因为可以防止由于 通过使用O形环的弹性膨胀力将物镜的主体管与近场透镜固定装置连接。 通过具有弹簧功能的第一适配器的长孔,在近场透镜和样品之间保持水平和紧密接触状态。 可以更容易地实现近场透镜的性能优异,并且可以防止样本或近场透镜损坏的事故。
    • 5. 发明授权
    • 스냅링 자동 결합장치
    • SNAP环自动联接装置
    • KR101389898B1
    • 2014-04-29
    • KR1020130021685
    • 2013-02-28
    • 한국기초과학지원연구원
    • 김우강김건희장기수이기주성하영
    • B23P19/027B23Q7/00B25B27/02
    • B23P19/027B23Q7/008
    • The present invention relates to a device for automatically coupling a snap ring to a shaft. The device comprises: a snap ring supply unit that supplies snap rings one by one from a storage axis on which the snap rings are piled up in a length direction so that one of the snap rings is transferred in order to be hung on the top of an insertion cone and to be then prepared to be coupled to a shaft; a press unit that mounts the snap ring hung on the top of the insertion cone of the snap ring supply unit onto the shaft by applying a pressure downwards; a centering unit that makes the shaft ascend towards and contact the bottom end of the insertion cone of the snap ring supply unit so that the press unit can move downwards in order to mount the snap ring onto the shaft, wherein the centering unit make the shaft descend to an original position after the snap ring is mounted onto the shaft; a discharge unit that grips the shaft in order to be moved to the centering unit so that the center unit can make the shaft ascend and descend, and discharges the shaft including the snap ring mounted thereon to the outside; a support frame including a top frame on which the snap ring supply unit and press unit are installed to be supported and a bottom frame on which the centering unit and discharge unit are installed to be supported; and an air pressure controlling unit that controls an air pressure that is supplied to the snap ring supply unit, press unit, centering unit, and discharge unit.
    • 本发明涉及一种用于将卡环自动地连接到轴上的装置。 该装置包括:卡环供给单元,其从沿着长度方向堆叠的卡止环的存储轴线逐个供给卡环,使得卡扣环中的一个被转移以挂在 插入锥体,然后准备联接到轴上; 按压单元,通过向下施加压力将卡环环安装在卡环供应单元的插入锥的顶部上; 定心单元,其使得轴上升并接触卡环供应单元的插入锥体的底端,使得按压单元可以向下移动以将卡环安装到轴上,其中定心单元使轴 在卡环安装到轴上之后下降到原始位置; 排出单元,其将所述轴握住以便移动到所述定心单元,使得所述中心单元可以使所述轴上升和下降,并将包括安装在其上的所述卡环的轴排出到外部; 支撑框架,其包括安装有所述卡环供给单元和按压单元的顶架,以及支撑所述定心单元和排出单元的底框; 以及气压控制单元,其控制供给到卡环供给单元,按压单元,定心单元和排出单元的空气压力。
    • 6. 发明授权
    • 회전 연동구조를 구비한 광학계 렌즈 리테이너 조립용 원형 치공구
    • 旋转锁定结构与透镜保持器组装工具的OPTICS
    • KR101360193B1
    • 2014-02-12
    • KR1020120150673
    • 2012-12-21
    • 한국기초과학지원연구원
    • 이상용김건희김기석김효식장기수허명상이길재
    • G02B7/02B25B27/20
    • The present invention relates to a circular jig for lens retainer assembly in an optical system formed of a tube and multiple lenses installed inside the tube. The circular jig comprises a handle, a central shaft, a fixing screw, an upper rotary plate, a lower fixing plate, retainer rotation bars, guide bolts, and fixing bolts. The central shaft has a coupling hole at the top to mount a torque wrench. The handle is coupled under the coupling hole. The fixing screw is coupled in the middle of the central shaft. The upper rotary plate and the lower fixing plate are coupled at the bottom of the central shaft by a support bolt. The guide bolts are coupled to the upper rotary plate so as to rotate the multiple retainer rotation bars when the upper rotary plate rotates. One side of the retainer rotation bars are connected to the lower fixing plate by the fixing bolts to be rotated. The present invention can assemble and disassemble different sized retainers by conveniently adjusting the gaps between coupling protrusions of the retainer rotation bars using one tool and can accurately and conveniently control the fastening torque of the retainers for lens fixation because the distance between the coupling protrusions of the retainer rotation bars and the central shaft and the gaps between the coupling protrusions are adjusted by rotating the upper rotary plate with the same ratio.
    • 本发明涉及一种用于透镜保持器组件的圆形夹具,其由安装在管内的管和多个透镜形成的光学系统中。 圆形夹具包括手柄,中心轴,固定螺钉,上旋转板,下固定板,保持器旋转杆,引导螺栓和固定螺栓。 中心轴在顶部有一个连接孔,用于安装扭矩扳手。 手柄连接在耦合孔下面。 固定螺钉联接在中心轴的中间。 上旋转板和下固定板通过支撑螺栓联接在中心轴的底部。 引导螺栓联接到上旋转板,以便当上旋转板旋转时旋转多个保持器旋转杆。 保持器旋转杆的一侧通过固定螺栓连接到下固定板以进行旋转。 本发明可以通过使用一个工具方便地调整保持器旋转杆的联接突起之间的间隙来组装和拆卸不同尺寸的保持器,并且可以精确和方便地控制用于透镜固定的保持器的紧固扭矩,因为 通过以相同的比例旋转上旋转板来调节保持器旋转杆和中心轴以及联接突起之间的间隙。
    • 7. 发明公开
    • 렌즈 일체형 광섬유쌍 프로브를 이용한 이미징 시스템
    • 使用镜头集成型光纤阵列探头的成像系统
    • KR1020130065998A
    • 2013-06-20
    • KR1020110132645
    • 2011-12-12
    • 한국기초과학지원연구원
    • 장기수유선영양순철김건희최해룡
    • G01N21/00G02B6/32
    • G01J1/42A61B5/0062A61B5/0071A61B5/0084G01J1/0488G01J3/0218G01J3/4406G01N21/645G01N2021/6484G02B6/2552G02B6/262
    • PURPOSE: An imaging system using a lens-integrated optical fiber pair probe is provided to obtain the high efficiency of optical coupling at a focal distance, thereby improving the efficiency of measuring signals. CONSTITUTION: An imaging system comprises a lens-integrated optical fiber pair probe(250) and a detection unit(210). The lens-integrated optical fiber pair probe irradiates lights emitted from a light source(200) to a sample, guides the lights generated by the sample, includes an optical fiber lens, and enables to scan at least in one direction. The optical fiber lens heats a predetermined region including each one end of two optical fibers by using a heating member so that the each one end of the optical fibers are connected to each other and has a lens surface of predetermined radius curvature simultaneously. The detection unit selectively detects signals of a predetermined region of the lights irradiated by the lens-integrated optical fiber pair probe.
    • 目的:提供一种使用透镜集成光纤对探针的成像系统,以获得焦距高的光耦合效率,从而提高测量信号的效率。 构成:成像系统包括透镜集成光纤对探针(250)和检测单元(210)。 透镜集成光纤对探针将从光源(200)发射的光照射到样品,引导由样品产生的光,包括光纤透镜,并且能够至少沿一个方向扫描。 光纤透镜通过使用加热构件加热包括两根光纤的每一端的预定区域,使得光纤的每一端彼此连接并且同时具有预定半径曲率的透镜表面。 检测单元选择性地检测由透镜集成光纤对探针照射的光的预定区域的信号。
    • 8. 发明公开
    • 고분해능 적외선 열영상 현미경용 광학계
    • 高分辨率红外热像显微镜
    • KR1020130052110A
    • 2013-05-22
    • KR1020110117357
    • 2011-11-11
    • 한국기초과학지원연구원
    • 양순철김건희장기수허명상이상용김상혁
    • G02B21/02G02B13/14G02B13/18G02B9/64
    • G02B21/02G02B9/64G02B13/0045G02B13/143G02B13/18
    • PURPOSE: An optical system for high-resolution infrared thermal image microscopes is provided to offer a structure facilitating processing and capable of minimizing spherical aberration, coma aberration, astigmatism, and image distortion, by selectively applying aspheric and spherical lenses, convex and concave lenses, and germanium and silicone lenses. CONSTITUTION: An image formation part(10) is composed of first through fifth lenses, and a relay part(20) is composed of sixth through ninth lenses. Each lens is arranged at regular intervals. The image formation part is a part where focus is formed, and is installed near the object side. The image formation part is composed of four spherical lenses and one aspheric lens to achieve high resolution. The relay part extends an optical path, and is installed near the image side. The relay part is formed with three aspheric lenses and one spherical lens.
    • 目的:提供一种用于高分辨率红外热像显微镜的光学系统,通过选择性地应用非球面和球面透镜,凸和凹透镜,提供便于处理并能够最小化球面像差,彗差,散光和图像失真的结构, 和锗和硅胶镜片。 构成:图像形成部(10)由第一至第五透镜构成,中继部(20)由第六透镜至第九透镜构成。 每个镜头均定期安排。 图像形成部是形成焦点并安装在物体侧附近的部分。 图像形成部分由四个球面透镜和一个非球面透镜组成,以实现高分辨率。 继电器部分延伸光路,并且安装在图像侧附近。 继电器部分由三个非球面透镜和一个球面透镜形成。