• Title/Summary/Keyword: Pitch/yaw bearings

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Design evaluation of wind turbine pitch/yaw bearings by contact stress analysis (응력해석을 통한 풍력 발전기용 피치/요 베어링 설계 검증)

  • Ka, Jaewon;Kim, JaeDong;Nam, Yongyun;Rim, Chaewhan;Park, Youngjun;Bang, Jesung;Lee, Youngshin
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.11a
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    • pp.43.2-43.2
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    • 2011
  • Wind turbine pitch/yaw bearings are relatively big and have different operating conditions like very heavy load to support compared with widely used industrial bearings. Once pitch/yaw bearings failed, according to their special surroundings, serious damages like higher repair costs and additional costs by stopped electricity generation are occur. Therefore, pitch/yaw bearings must be designed to have enough strength and fatigue life under actual operating conditions. In this study, with finite element analysis, it was investigated that stress distribution between rolling elements and raceway and comparatively analyzed using widely used guideline (NREL DG03). Design parameters of wind turbine pitch/yaw bearings are also analyzed, and it could be used as reference for the large bearing design field.

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Development on Test Procedure of Pitch and Yaw Bearings for Wind Turbine (풍력발전기용 피치/요 베어링의 시험절차 개발)

  • Nam, Ju Seok;Han, Jeong Woo
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.24 no.3
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    • pp.355-362
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    • 2015
  • Test procedure for the design verification of wind turbine pitch and yaw bearings has been developed. Test items were selected to evaluate operational reliability of pitch and yaw bearings by considering loading and operational conditions, and by analyzing the design criteria of pitch and yaw bearings. The developed test items consisted of preliminary test, fatigue load test, extreme load test, low temperature environmental test and dismantling inspection after all the test were completed. Because it reflects the actual operational conditions of the pitch and yaw bearings, the developed test procedure has high reliability and can verify the basic design considerations in the international standard and guidelines.

Loading Test Results of Wind Turbine Pitch/Yaw Bearing (풍력발전기용 피치/요 베어링의 하중 시험 결과)

  • Nam, Ju-Seok;Kim, Heung-Sub;Lee, Young-Soo;Han, Jeong-Woo
    • Journal of Wind Energy
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    • v.3 no.1
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    • pp.61-67
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    • 2012
  • The loading test of wind turbine pitch and yaw bearings have been conducted using special test rig designed for the test of large slewing bearings. Test type was fatigue test that applied fatigue load to each bearing and followed the defined test process. Measurement data during test were rotational torque and raceway temperature, and inspected key components by disassembling the bearing after all test finished. As a results, the raceway temperature during test did not exceed the operational temperature range of lubricant and rotational torque was reduced as the bearing's rotational cycle increased. In the inspection of key components, some plastic deformation and flaking were detected at some raceway sections while other components such as ball, spacer and seal remain indefective conditions.

Analysis of Load Distribution and Sharing on the Planetary Reducer for Wind Turbines (풍력발전기용 유성 감속기의 하중 분포 분석)

  • Park, Young-Jun;Lee, Geun-Ho;Kim, Jeong-Kil;Song, Jin-Seop;Park, Sung-Ha
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.20 no.6
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    • pp.830-836
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    • 2011
  • Most of pitch/yaw reducers consist of several planetary geartrains. Planetary geartrains make gearboxes to be small and light, low noise and good efficiency. Most important thing in the planetary geartrain is load distribution on the gear tooth flank. In this study, the effect of output shaft bearings on the load distribution of gear tooth flank has been investigated. The commercial software was employed to compare the load distribution of two models depending on the bearing type. The spherical roller bearing(SRB) and the cylindrical roller bearing(CRB) were used as output shaft bearings in the $1^{st}$ model, and two taper roller bearings(TRB) were used in the $2^{nd}$ model. As a result, it was found that the $2^{nd}$ model. showed better performances on the load distribution of gear tooth flank, this results stated that the output shaft bearing system could be important consideration when designing reducers for wind turbine systems.

Micropositioning of a Linear Motion Table with Magnetic Bearing Suspension (자기 베어링으로 지지 되는 직선운동 테이블의 초정밀 위치제어에 관한 연구)

  • 김의석;안형준;장인배;한동철
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1995.10a
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    • pp.466-469
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    • 1995
  • This paper presents a design and performance of the 6 D.O.F linear motion table with a magnetic bearing suspension. The linear positioning of the table with a 150mm stroke is driven by a brushless DC Linear motor and the other attitudes of the stage are controlled by the analog PD controller with magnetic bearing actuators. Each magnetic bearing unit which consists of 3 electromagnets, 3 capacitance probes and 3 backup bearings affords controlled forces by detecting the air gap between the probes and guideways. An integral type capacitance probe amplifier is equipped on the upper plate of the table so that the probe line to the probe amplifier can be shorter therefore the problems due to the stray capacitance and noise can be reduced. Form the pitch-yaw errormeasured by the autocollimator, the vertical and horizont straightness errors of the table are derived that they are maintained below 1.mu. m over 100mm stroke. The positioning accuracy of the linear motion is maintained below 2 .mu. m and the repeatability error is below 1 .mu. m

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Optimization of Multi-tasking Vertical Lathe For Windmill Parts (풍력 발전기 부품가공용 복합수직선반의 최적 설계에 관한 연구)

  • Choi, Hag-Bong;Lee, Jong-Hoon;Park, Woo-Sang;Sin, Heung-Chul;Oh, Jong-Suk;Park, Chun-Hong;Lee, Dong-Yun
    • Journal of the Korean Society for Precision Engineering
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    • v.29 no.2
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    • pp.147-155
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    • 2012
  • Wind power, which is one of the promising renewable energies, has shown the high growth rate of 35 % of the annual average in the recent 5 years and also windmill related equipment market has been fast-growing. Yaw & Pitch bearing are the key parts of windmill and are machined by huge vertical lathe which is monopolized by the advanced countries. The purpose of this study is to develop the multi-tasking vertical lathe for 5 MW grade windmill bearings, which might be mass produced 3 or 5 years later. In this study, the structure of the crossrail and rotary table, which are the key units of the huge multi-tasking vertical lathe, were optimized through the finite element analysis. Also the basic performance of the rotary table has been evaluated.

Analysis for the Cross Rail Design and the Zig-Zag Motional Error in Gantry Type Machine (Gantry Type 대형 공작기계의 Cross Rail 설계 및 좌우 이송 편차에 관한 해석)

  • Lee, Eung-Suk;Lee, Min-Ki;Park, Jong-Bum;Kim, Nam-Sung;Ham, Jun-Sung;Hong, Jong-Seung;Kim, Tae-Sung
    • Journal of the Korean Society for Precision Engineering
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    • v.29 no.2
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    • pp.156-160
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    • 2012
  • Recently, the demands of the large scale machine tools gradually increase to machine the large parts, such as large scale crankshaft, yaw and pitch bearings for the wind power generator and the vehicle or aircraft components. But the high technology is necessary in order to develop the huge machine tools. Furthermore, the global market of it has been monopolized by a few companies. So, we need to develop the large scale machine tools and study its core technology to rush into the increasing market. In this study, we carried out the researches for the important core technology of a multi-tasking, machine tool; a large scale 5-axis machine tool of gantry type for multi-task machining. This study is focused on the design of large size gantry type multi-axis machine. In the case of large size of machine the cross rail deflection in the X-axis is significant. To reduce the deflection due to the eccentric spindle head, a special hollow type design in the cross rail with outside ram is adapted in this study. Also, the Zig-Zag motion in the Y-axis is inevitable with the gantry geometry, which is by the un-balancing, different motion at the left and the right columns moving. We tried to reduce the influence of Zig-Zag motion using FEM with different loading conditions at the left and the right side column.