• Title/Summary/Keyword: Plastic Lens

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A Study on the PMMA Lens Fabrication for Surgical Light Based on Injection Molding Convergence Process (사출성형 융합공정 기반 수술실 무영등용 PMMA 렌즈 제작에 관한 연구)

  • Kang, Bo-An;Oh, Hyeong-Jong;Jeong, Byeong-Ho;Jeong, Nam-In
    • Journal of the Korea Convergence Society
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    • v.6 no.1
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    • pp.43-48
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    • 2015
  • We studied on the injection molding conditions of defect-free PMMA lens for surgical light. When the heat temperature of mold is low, more imperfect molding or weldlines and flow marks have showed. A defective lens depends on low fluidity of the PMMA resin and its temperature is high, a flexural strain has occurred. The longer cooling time of specimens, the more cracks have occurred due to resin crystallization. In this study, optimal molding conditions for defect-free PMMA lens is as follows. The heat temperature of core mold was 110 [$^{\circ}C$] and also the cooling time was 25 [sec]. PMMA materials can realized low expense to produce plastic optical lens and applications.

A Study on the Ultra Precision Grinding Characteristics of Tungsten Carbide-base $LCU_{CL}$ Core (초정밀 가공기를 이용한 $LSU_{CL}$ 코어 가공에 관한 연구)

  • Jeong S.H.;Cha K.R.;Kim H.U.;Lee B.J.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.06a
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    • pp.1910-1913
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    • 2005
  • As the various manufacturing technology of optical glass is developed, the aspherical lenses are applied to many fields. However, It is still very difficult to manufacture glass lens because of the high cost and the short life of core. In recent years, the demands of the aspherical glass lenses increase since it is difficult to obtain the desirable performance in the plastic lens. In the glass mold lens, it has merits of high productivity and reproductivity since lens is manufactured by the only forming with high precision mold. The fabricating conditions for glass mold lens are glass surface that does not cause fusion, viscosity of 108-1013 poise for the $0.2{\mu}m$ accuracy, and viscoelasticity for the roughness less than 100 angstrom. In this paper, ultra-precision grinding characteristics of tungsten carbide for forming the aspherical glass lens core were studied and the result of it is applied to manufacture the tungsten carbide-base cores of the glass lens used to the laser scanning unit and the camera phone.

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A Study on Ultra Precision Grinding Characteristics of Tungsten Carbide $LCU\_CL$ Core (초경합금 소재 $LCU\_CL$ 코어의 초정밀 연삭 특성에 관한 연구)

  • Jeong Sanghwa;Cha Kyoungrae;Kim Hyunuk;Lee Bongju
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2005.05a
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    • pp.307-312
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    • 2005
  • As the various manufacturing technology of optical glass is developed, the aspherical lenses are applied to many fields. However, It is still very difficult to manufacture glass lens because of the high cost and the short life of core. In recent years, the demands of the aspherical glass lenses increase since it is difficult to obtain the desirable performance in the plastic lens. In the glass mold lens, it has merits of high productivity and reproductivity since lens is manufactured by the only forming with high precision mold. The fabricating conditions for glass mold lens are glass surface that does not cause fusion, viscosity of 108-1013 poise for the $0.2{\mu}m$ accuracy, and viscoelasticity for the roughness less than 100 angstrom. In this thesis, ultra-precision grinding characteristics of tungsten carbide for forming the aspherical glass lens core were studied and the result of it is applied to manufacture the tungsten carbide-base core of the glass lens used to the laser scanning unit and the camera phone.

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A Study on the Ultra Precision Grinding Characteristics of Tungsten Carbide (초경합금의 초정밀 연삭특성에 관한 연구)

  • Jeong S.H.;Cha K.R.;Kim H.U.;Kim J.T.;Lee B.J.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.06a
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    • pp.1737-1740
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    • 2005
  • As the various manufacturing technology of optical glass is developed, the aspherical lenses are applied to many fields. However, It is still very difficult to manufacture glass lens because of the high cost and the short life of core. In recent years, the demands of the aspherical glass lenses increase since it is difficult to obtain the desirable performance in the plastic lens. In the glass mold lens, it has merits of high productivity and reproductivity since lens is manufactured by the only forming with high precision mold. The fabricating conditions for glass mold lens are glass surface that does not cause fusion, viscosity of 108-1013 poise for the $0.2{\mu}m$ accuracy, and viscoelasticity for the roughness less than 100 angstrom. In this thesis, ultra-precision grinding characteristics of tungsten carbide for forming the aspherical glass lens core were studied and the result of it is applied to manufacture the tungsten carbide-base core of the glass lens used to the laser scanning unit and the camera phone.

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Structure analysis of ultra precision nano-scale machine for mold processing (금형가공을 위한 초정밀 나노가공기의 구조해석)

  • Baek, Seung-Yub;Kim, Seon-Yong
    • Design & Manufacturing
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    • v.1 no.1
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    • pp.51-56
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    • 2007
  • As various manufacturing technology of optical glass is developed, the aspheric lenses are supplied to many fields. Electronic or measuring instruments equipped with aspheric lens have recently been used since aspheric lens is more effective than spheric one. However, it is still difficult manufacture glass lens because of high cost and the short life of core. The demands of the aspheric glass lenses increase since it is difficult to obtain the desirable performance in the plastic lens. For the mass production of aspheric lens, specific molds with precisely machined cores should be prepared. In order to obtain competitiveness in the field of industrial manufacturing, a reduction in the development period for the batch machining of products is required. It is essential to analyze the stress distribution and deformations of machining system which is used for manufacturing the aspheric lens using FEM software ANSYS. Finite element simulations have been performed in order to study the influence of machining system which is developed in this study on structures. It is very important to understand the structural behavior of machining system. This paper investigated the static analysis and dynamic analysis of machining system for aspheric lens to predict the damage due to loading.

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Study on the Aspheric Glass Lens Forming Simulation in the Progressive GMP process (순차이송 GMP 공정에서의 비구면 유리렌즈 성형 해석에 관한 연구)

  • Chang, S.H.;Gang, J.J.;Shin, K.H.;Jung, W.C.;Heo, Y.M.;Jung, T.S.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2008.05a
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    • pp.539-542
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    • 2008
  • Recently, GMP(Glass Molding Press) process is mainly used to produce aspheric glass lenses. Because glass lens is heated at high temperature above Ty (yielding point) for forming glass, the quality of aspheric glass lens is deteriorated by residual stresses which are generated in a aspheric glass lens after forming. Before this study, as a fundamental study to develop forming conditions for progressive GMP process, compression, strain relaxation and thermal conductivity tests were carried out to obtain the visco-rigid plastic, the visco-elastic and thermal properties of K-PBK40 which is newly developed and applied for precision molding glass material, In this study, using the experimental results we obtained, a glass lens forming simulation in progressive GMP process was carried out and we could forecast the shape of deformed glass lenses and residual stresses contribution in the structure of deformed glass lenses after forming.

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Thermal Deformation Measurement Spherical Glasses Lens Using ESPI (ESPI를 이용한 안경용 렌즈의 열변형 측정)

  • Kim, Koung-Suk;Jang, Ho-Sub;Kim, Hyun-Min;Yang, Seung-Pill
    • Journal of the Korean Society for Nondestructive Testing
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    • v.28 no.2
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    • pp.137-143
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    • 2008
  • The spherical glasses lenses are typically classified into two groups such as (+) diopter lens and (-) diopter lens by the refractive power index. The thermal deformation of a lens is occurred by external heat source and is changed respected to the diopter of a lens. In this paper, the thermal deformation of spherical glasses lenses were quantitatively measured by using ESPI (electronic speckle pattern interferometry) which has an advantage that the non-contact, non-destructive and precise deformation measurement is available due to the coherency characteristic. The temperature changes were measured by IR camera. It makes experiments over 14 types of the plastic glasses lenses. From the results, it was confirmed that the larger diopter lens showed the less thermal deformation in case of the (+) diopter lens. On the other hand, the thermal deformation of the (-) diopter lens was measured with uniform pattern when the same temperature changes were applied. Also, it was found that the thermnal deformation of the (+) diopter lens is less than that of the (-) diopter lens. Therefore, it is expected that when the thermal deformation is occurred to the various types of the lens, the variation of the focal length caused by the thermal distortion of a lens would be measured quantitatively.

Development of Ftheta Lens for Laser Scanning Unit (Laser Scanning Unit용 FΘ 렌즈 개발)

  • Jeong, In-Sook;Ban, Min-Sung;Son, Kwang-Eun;Lee, Byoung-Bag
    • Transactions of the KSME C: Technology and Education
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    • v.1 no.1
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    • pp.13-19
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    • 2013
  • Ftheta Lens, whose image height is proportional to its field view angle, is one of the most important parts in Laser Scanning Unit(LSU). In this paper $f{\theta}$ lens design, mold production and modification method of lens design and mold are introduced. Lens design was carried out with Zemax and Special Toric surfaces were applied for lens surfaces to minimize distortion both in main and sub scanning directions. And a high precision machine with 1nm resolution was used to fabricate lens mold cores. After injection the lens was evaluated and the difference from design was examined. This difference was compensated by modifying lens design and new lens mold cores were made according to modified lens design to obtain the quality of original design.

Design and Development of a Lens for High Definition Projection TV (고화질 프로젝션 TV용 렌즈 설계및 제작)

  • 박성찬
    • Korean Journal of Optics and Photonics
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    • v.4 no.2
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    • pp.145-156
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    • 1993
  • From the optimal system specifications of optical parts in rear projection TV focused on competitive price and performances, we designed and developed projection lens which is able to be used on current broadcast standard NTSC and HDTV in common. Through the serial processes, which are initial design of all aberrations free, aspherization of the plastic lenses, optimization with tolerances and manufacturability, and athermalization, the lens was designed. The developed CRT-lens ass'y could display the 40-55 inches image and it's resolution is more than 1000 TV-lines.

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ASPHERIC LENS 금형개발

  • 김부태
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1992.04a
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    • pp.43-47
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    • 1992
  • 물체공간의 한점에서 출발하여 광학계에 입사한 광속은 전부 상공간의 한점에서 집속되고 물체공간의 점 과 상공간의 점은 1:1로 대응해야 하나 현실의 광학계는 필히 수차가 존재하기때문에 이상 결상을 맺지 못다. 이러한 원인으로 생기는 수차를 통상의 방법으로 제거 할 수 없을때 비구면 LENS를 사용한다. 비구 면 LENS는 축대칭성을 갖고 단면형상이 다항식으로 표현되는 곡면을 갖는 LENS로 종래의 구면체로 구성 된 광학계에서 보정될 수 없었던 수차를 근본적으로 제거한다. 또한 비구면 LENS를 사용하므로써 화질 의 향상을 기할 수 있고 LENS 매수를 줄임으로써 LENS계 전체의 COMPACT 화, COST DOWN, 중량경감이 가능한 잇점이 있다. 지금까지 이러한 장점이 있는 비구면 LENS가 사용되지 못했던 것은 설계기술보다는 생산기 술에 있었는데, 최근 비구면 LENS 가공이가능한 기계와 LASER를 이용한 측정기술, MOLD MASTER에 의한 사출기술이 발전함에따라 PLASTIC LENS의 양산이 가능하게 되었다. 본 고에서는 신 제품 개발능력 확보와 제품경쟁력 향상을 목적으로 개발한 비구면 LENS 금형의 초정밀가공 정도 (비구면 가공정도 : FORM ERROR 0.2 .mu. m 이하) 달성방법과 측정평가에 대해 논했다.