• Title/Summary/Keyword: Coating Robot Automation System

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Development of Coating Robot Automation System Based on OLP for Radiators in PPS (페키지형 발전시스템용 라디에이터의 OLP 기반 코팅로봇 자동화시스템 개발)

  • Kim, Seon-Jin;Lee, Jong-Hwan;Lho, Tae-Jung
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.14 no.2
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    • pp.585-591
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    • 2013
  • A robot automation system for coating uniformly a big radiator used in PPS(Packaged Power Station), which consists of 6-axis robot with spray gun, travelling vehicle, supply device of coating paint and thinner with pressured air, HMI controller and robot path OLP(Off-Line Programming), was developed. Experimental results on an optimum operation condition show that a coating thickness is $43{\mu}m$, which is satisfied to a design reference of $25-100{\mu}m$. A productivity of the developed coating robot automation system based on OLP is about 12.6 times of that of manual operation.

금속용탕면 높이 측정을 위한 거리센서의 특성

  • 이왕하;임태균;박상덕
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1994.10a
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    • pp.590-596
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    • 1994
  • In a CGL(Continuous Galvanizing Line) in steel making plants, zinc-coated steel sheets are produced. These sheets are used where long running corrosion resistivity is required. During the coating process top dross is produced, being harmful to the quality of the coating. To collect and remove this top dross, an automation system is developed consisting of a robot and its carriage system, a pot level sensor, a system controller, and specialtools. Forthe first, the level of the pot must be measured and fed back to the robot controller to avoid submersion of the robot hand in the hot pot. In this paper,acoustic and laser distance sensors are tested for the appropriate pot lvel sensor, especially the former in the view point of hot environment.

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An Integrated Robot-Trajectory-Planning Scheme for Spray Painting Operations (스프레이 페인팅 작업을 위한 일관화된 로보트 궤적계획법에 관한 연구)

  • Suh, Suk-Hwan;Woo, In-Kee
    • IE interfaces
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    • v.3 no.2
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    • pp.23-38
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    • 1990
  • The use of robots for painting operations is a powerful alternative as a means for automation and quality improvement. A typical method being used for motion planning of the painting robot is to guide the robot along the desired path : the "lead-through" method. Although this method is simple and has been widely used, it has several drawbacks a) The robot cannot be used during the teaching period, b) A human is exposed to a hostile environment, c) The motions taught are, at best, human's skill level. To deal with the above problems, an integrated robot-trajectory planning scheme is presented. The new scheme takes CAD data describing the shape and geometry of the objects, and outputs an optimal trajectory in the sense of coating thickness and painting time. The purpose of this paper is to investigate theoretical backgrounds for such a scheme including geometric modeling, painting mechanics and robot trajectory planning, and develop algorithms for generating spray gun paths and minimum-time robot trajectories. Future study is to implement these algorithms on an workstation to develop an integrated software system ; ATPS(Automatic Trajectory Planning System) for spray painting robots.

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A Robotic Vision System for Turbine Blade Cooling Hole Detection

  • Wang, Jianjun;Tang, Qing;Gan, Zhongxue
    • 제어로봇시스템학회:학술대회논문집
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    • 2003.10a
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    • pp.237-240
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    • 2003
  • Gas turbines are extensively used in flight propulsion, electrical power generation, and other industrial applications. During its life span, a turbine blade is taken out periodically for repair and maintenance. This includes re-coating the blade surface and re-drilling the cooling holes/channels. A successful laser re-drilling requires the measurement of a hole within the accuracy of ${\pm}0.15mm$ in position and ${\pm}3^{\circ}$ in orientation. Detection of gas turbine blade/vane cooling hole position and orientation thus becomes a very important step for the vane/blade repair process. The industry is in urgent need of an automated system to fulfill the above task. This paper proposes approaches and algorithms to detect the cooling hole position and orientation by using a vision system mounted on a robot arm. The channel orientation is determined based on the alignment of the vision system with the channel axis. The opening position of the channel is the intersection between the channel axis and the surface around the channel opening. Experimental results have indicated that the concept of cooling hole identification is feasible. It has been shown that the reproducible detection of cooling channel position is with +/- 0.15mm accuracy and cooling channel orientation is with +/$-\;3^{\circ}$ with the current test conditions. Average processing time to search and identify channel position and orientation is less than 1 minute.

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