• Title/Summary/Keyword: 데오도라이트 측정 시스템

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A Study on Measurement Accuracy of Theodolite System( I ) - A Measurement Accuracy According to a Theodolite Collimations Distance (데오도라이트 시스템의 측정 정확도에 대한 연구( I ) - 데오도라이트 시준 거리에 따른 측정 정확도)

  • 윤용식;이동주
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.13 no.2
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    • pp.61-68
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    • 2004
  • A non-contact precision measurement system is a theodolite system, a laser tacker and a photogrammetry system etc. Nowadays, the system reaches to a limit of measurement accuracy required from industrial product of middle and large scale. The one of the solutions for this problem is to maximize the accuracy of the existing measurement system. According to it we performed the study far a measurement accuracy of theodolite system when the distance between two theodolites is changed 1m to 5m. We could blow that the changes of distance affect the measurement accuracy of theodolite system and that the maximum measurement accuracy is $\pm$ 0.02 mm on theodolite distance 3∼4 m.

비접촉식 3차원 정밀 측정 기술 동향

  • Yun, Yong-Sik
    • Current Industrial and Technological Trends in Aerospace
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    • v.4 no.1
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    • pp.61-67
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    • 2006
  • 현대 산업이 고도화, 선진화됨에 따라 1.5 m 이상의 크기를 갖는 중.대형 시설 및 장비에 대한 설치 요구조 건 및 운용상의 정밀도 유지가 더욱 중요해지고 있다. 이를 위하여 비접촉식 3차원 정밀 측정 장비인 데오드 라이트 측정시스템, 사진 측정 시스템 및 레이저 측정 시스템 등의 사용이 점차 증가하고 있는 추세이다. 본 글에서는 이들 측정 장비의 측정 원리 및 적용 사례 등을 중심으로 최근의 정밀 측정 기술 동향에 대하여 기 술하였다.

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Measurement of Primary-mirror Vertex Coordinates for a Space Camera by Using a Computer-generated Hologram and a Theodolite (컴퓨터 제작 홀로그램과 데오도라이트를 이용한 인공위성 카메라 주 반사경의 정점 좌표 측정)

  • Kang, Hye-Eun;Song, Jae-Bong;Yang, Ho-soon;Kihm, Hagyong
    • Korean Journal of Optics and Photonics
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    • v.28 no.4
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    • pp.146-152
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    • 2017
  • Alignment of the mirrors composing a space telescope is an important process for obtaining high optical resolution and performance of the camera system. The alignment of mirrors using cube mirrors requires a relative coordinate mapping between the mirror and the cube mirror before optical-system integration. Therefore, to align the spacecraft camera mirrors, the relative coordinates of the vertex of each mirror and the corresponding cube mirror must be accurately measured. This paper proposes a new method for finding the vertex position of a primary mirror, by using an optical fiber and alignment segments of a computer-generated hologram (CGH). The measurement system is composed of an optical testing interferometer and a multimode optical fiber. We used two theodolites to measure the relative coordinates of the optical fiber located at the mirror vertex with respect to the cube mirror, and achieved a measurement precision of better than $25{\mu}m$.

A Study on Measurement Error Factors of Theodolite System (데오도라이트 시스템의 측정 오차 요인에 대한 연구)

  • 윤용식;이동주
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.12 no.4
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    • pp.36-42
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    • 2003
  • Theodolite measurement system is non-contacted 3-dimensional measurement system. The system accuracy is ${\pm}0.5mm$or better for distance 0~100m. And the system is used for the measurement of a product of middle and large scale. This study is performed for the measurement error factors of the system. We could know that the main measurement error factors are temperature, illumination and skill. Also, we performed the study for the effect according to the height difference of scale bar.

A Study on Measurement Error Factors of Theodolite System (데오도라이트 시스템의 측정 오차 요인에 관한 연구)

  • 박홍철;윤용식;최석원
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2003.06a
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    • pp.272-275
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    • 2003
  • Theodolite measurement system is non-contacted 3-dimensional measurement system. The system accuracy is 0.5 mm or better for distance 0 ~ 100 m. And the system is used for the measurement of a product for middle and large scale. This study was performed for finding the measurement error factors of the system. We could know that the main error factors are temperature, illumination and expertness. And we could find the measurement errors are $\pm$ 0.045 mm at temperature conditions is 2$0^{\circ}C$ and $\pm$ 0.012 mm at illumination condition is 300 lux. Also the results had significant differences by combinations of operator's expertness.

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A Study on Measurement Uncertainty of Theodolite System (데오도라이트 시스템의 측정 불확도 연구)

  • 이건탁;이동주;박흥철;오재명
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2003.04a
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    • pp.229-233
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    • 2003
  • Theodolite measurement system is non-contacted 3-dimensional measurement system. The system accuracy is 0.5 mm or better for distance 0 ~ 100m. And the system is used for a product of middle and large scale. This study is performed for the measurement uncertainty of the system. We could know that the main uncertainty factors are temperature, illumination and skill. And, we perform the study for the effect according to the height difference of scale bar. And, we calculated the measurement uncertainty with those factors.

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A Study on Accurate Alignment Measurement of Dual Thruster Module Using Theodolite (데오드라이트를 이용한 이중 추력기 모듈의 정밀정렬측정에 관한 연구)

  • Hwang, Kwon-Tae;Moon, Guee-Won;Cho, Chang-Lae;Lee, Dong-Woo;Lee, Sang-Won
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.36 no.11
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    • pp.1399-1404
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    • 2012
  • Because satellites operate in space, it is impossible to repair them when they malfunction. Therefore, to ensure the normal function of the payload used in the satellites, accurate assembly and installation of parts are crucial. To prevent abnormal functioning in the extreme environments during launch and in space, it is essential to test changes at the parts and system levels by performing alignment measurement before and after the launch environment test and the space environment test. Recently, noncontact three-dimensional precision machinery for medium- and large-sized parts has been developed. One of these is the theodolite measurement system, which is widely used in the aerospace industry. This study measures the angle of the dual thruster module that is used to control the attitude of KOMPSAT by using a theodolite, and alignment measurement and a reliability analysis are performed.

KSLV-I Kick Motor System Thrust Axis Alignment (KSLV-I 킥모터 시스템 추력 축 정렬)

  • Lee, Han-Ju;Jung, Dong-Ho;Oh, Seung-Hyub
    • Aerospace Engineering and Technology
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    • v.9 no.2
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    • pp.138-142
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    • 2010
  • The thrust axis alignment of the launch vehicle is very important because of the misalignment causes the unstable attitude control and results in mission failure. Generally, optical methods such as digital theodolite and laser tracker and mechanical method such as turn table method are used to align thrust axis to vehicle axis. This article deals with the simple method of thrust axis alignment of Kick Motor.