Three-dimensional Measurement Point Processing and Accurate Calculation of Throat Area for Aircraft Turbine Nozzles

doi:10.3969/j.issn.1004-132X.2024.07.014

China Mechanical Engineering ›› 2024, Vol. 35 ›› Issue (07): 1263-1268.DOI: 10.3969/j.issn.1004-132X.2024.07.014

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Three-dimensional Measurement Point Processing and Accurate Calculation of Throat Area for Aircraft Turbine Nozzles

WANG Dongfang¹;JIANG Cheng¹;GONG Boyue²;LI Wenlong¹

1.State Key Laboratory of Intelligent Manufacturing Equipment and Technology,Huazhong
University of Science and Technology,Wuhan，430074
2.School of Intelligent Manufacturing,Jianghan University,Wuhan，430056

Online:2024-07-25 Published:2024-08-14

航空导向器三维测点处理与喉道面积精确计算

王东方¹;蒋诚¹;龚博悦²;李文龙¹

1.华中科技大学智能制造装备与技术全国重点实验室，武汉，430074
2.江汉大学智能制造学院，武汉，430056

作者简介:王东方，男，1997年生，博士研究生。研究方向为三维视觉测量与机器人加工。发表论文4篇。E-mail:d202080219@hust.edu.cn。
基金资助:
国家自然科学基金（52188102，52075203）；湖北省重点研发计划（2021BAA054）；华中科技大学基础研究计划（2023BR009）

Abstract

Abstract: Turbine nozzles were crucial components in aircraft engines, and the throat area was a key parameter that directly affected the engines power performance. In response to the issues of low efficiency and inaccurate estimation in existing measurement methods for the throat area, a new method for three-dimensional measurement point processing and accurate calculation of the throat area for aircraft turbine nozzles was proposed. Comparative experiments between the proposed method and the CMM method were conducted on a multi-blade turbine nozzle sample. The experimental results show that the throat areas obtained by the proposed method are more accurate, and the results of multiple measurements and calculations have high consistency.

Key words: aircraft turbine nozzle, throat area, three-dimensional measurement technology, point cloud processing

摘要： 导向器是航空发动机的重要部件，喉道面积作为其关键参数直接影响发动机动力性能。针对导向器喉道面积现有测量方法效率低、喉道面积估计不准的问题，提出了导向器三维测点处理与喉道面积精确计算的新方法，并在多联叶片导向器样件上开展了该方法与三坐标测量计算方法的对比实验。实验结果表明，所提方法得到的喉道面积更精确，且多次测量计算结果具有较高的一致性。

关键词: 航空导向器, 喉道面积, 三维测量技术, 点云处理

CLC Number:

TH721

WANG Dongfang1, JIANG Cheng1, GONG Boyue2, LI Wenlong1. Three-dimensional Measurement Point Processing and Accurate Calculation of Throat Area for Aircraft Turbine Nozzles[J]. China Mechanical Engineering, 2024, 35(07): 1263-1268.

王东方1, 蒋诚1, 龚博悦2, 李文龙1. 航空导向器三维测点处理与喉道面积精确计算[J]. 中国机械工程, 2024, 35(07): 1263-1268.

References

［1］赵罡, 李瑾岳, 徐茂程, 等. 航空发动机关键装配技术综述与展望［J］. 航空学报, 2022, 43(10):475-507.
ZHAO Gang, LI Jinyue, XU Maocheng, et al. Research Status and Prospect of Key Aero-engine Assembly Technology［J］. Acta Aeronautica et Astronautica Sinica, 2022, 43(10):475-507.
［2］江雄, 邱名, 范召林. 喉道对压气机超声叶栅流态及性能的影响［J］. 航空学报, 2017, 38(3):115-126.
JIANG Xiong, QIU Ming, FAN Zhaolin. Effect of Supersonic Compressor Cascade Throat on Flow Pattern and Cascade Performance［J］. Acta Aeronautica et Astronautica Sinica, 2017, 38(3):115-126.
［3］高继昆. 三坐标测量涡轮导向叶片排气面积的方法研究［J］. 航空制造技术, 2015, 58(9):91-93.
GAO Jikun. Measurement Method of Turbine Nozzle Area by CMM［J］. Aeronautical Manufacturing Technology, 2015, 58(9):91-93.
［4］王振兴, 范明争, 张盛珺, 等. 涡轮导向器喉道面积三坐标测量不确定度评估［J］. 航空制造技术, 2022, 65(5):68-74.
WANG Zhenxing, FAN Mingzheng, ZHANG Shengjun, et al. Measurement Uncertainty Evaluation of Turbine Nozzle Throat Area Measured by Coordinate Measurement Machine［J］. Aeronautical Manufacturing Technology, 2022, 65(5):68-74.
［5］LI Wenlong, ZHOU Liping, YAN Sijie. A Case Study of Blade Inspection Based on Optical Scanning Method［J］. International Journal of Production Research, 2015, 53(7):2165-2178.
［6］孙露萍, 张文昌, 王志华, 等. 基于2D激光位移传感器的舱段自动对接测量方法［J］. 中国机械工程, 2023, 34(9):1120-1125.
SUN Luping, ZHANG Wenchang, WANG Zhihua, et al. Measurement Method of Cabin Automatic Docking Based on 2D Laser Displacement Sensor［J］. China Mechanical Engineering, 2023, 34(9):1120-1125.
［7］于浩, 黄华贵, 郑加丽, 等. 无缝钢管斜轧穿孔顶头表面缺陷非接触在线检测方法［J］. 中国机械工程, 2022, 33(14):1717-1724.
YU Hao, HUANG Huagui, ZHENG Jiali, et al. Non-contact On-line Inspection Method for Surface Defects of Cross-rolling Piercing Plugs for Seamless Steel Tubes［J］. China Mechanical Engineering, 2022, 33(14):1717-1724.
［8］艾青波, 张洁, 程辉, 等. 基于PointCPP-LSF方法的航天筒段薄壁件滚弯成形质量分析［J］. 中国机械工程, 2022, 33(8):977-985.
AI Qingbo, ZHANG Jie, CHENG Hui, et al. Analysis for Roll-bending Forming Quality of Spaceflight Thin-walled Cylindrical Workpieces Based on PointCPP-LSF Method［J］. China Mechanical Engineering, 2022, 33(8):977-985.
［9］LONG Kun, XIE Qian, LU Dening, et al. Aircraft Skin Gap and Flush Measurement Based on Seam Region Extraction from 3D Point Cloud［J］. Measurement, 2021, 176:109169.
［10］XIE He, LI Wenlong, YIN Zhouping, et al. Variance-minimization Iterative Matching Method for Free-form Surfaces:Part I:Theory and Method［J］. IEEE Transactions on Automation Science and Engineering, 2019, 16(3):1181-1191.

Three-dimensional Measurement Point Processing and Accurate Calculation of Throat Area for Aircraft Turbine Nozzles

航空导向器三维测点处理与喉道面积精确计算

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