Abstract
A new method for measuring threads has been proposed. A measuring system based on a robot arm, a linear actuator, and a 2D laser micrometer was created. The law of the distribution of the height and pitch of the threads measured by the new system has been determined. Casts of special composite materials were used to verify the measurement error of the 2D laser micrometer. Casts from the thread surface were measured using a precision optical microscope to determine pitch and height values with an accuracy ten times greater than that of the assembled experimental system. Twenty independent measurements were made to estimate the relative error of the thread height and pitch values. In order to estimate the absolute error of the values of height and pitch of the thread, a comparison of the results of measurements of the microscope and the system was held. The ability of a 2D laser micrometer to achieve the standard measurement accuracy requirements of the API 5CT for threaded pipes was experimentally verified.
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References
Lavrinov DS (2014). Measurement of thread pitch of casing coupling using laser triangulation 2D scanner. In: CriMiCo 2014—24th International Crimean conference microwave and telecommunication technology, conference proceedings, Sevastopol, September 2014, p 954
Lavrinov DS, Khorkin AI (2017) Laser triangulation 2D scanner signal processing for premium thread pitch measurement. In: Proceedings of the 2017 international conference on industrial engineering, applications and manufacturing (ICIEAM). South Ural State University Chelyabinsk
Lavrinov DS (2020) Analysis of measurement system accuracy based on 2D laser triangulation scanner when measuring soiled pipe thread pitch and height. In: 5th international conference on industrial engineering, ICIE 2019, Sochi
Lavrinov DS, Khorkin AI, Privalova EA (2020) Comparative analysis of automatic methods for measuring surface of threads of oil and gas pipes. In: International Russian automation conference, RusAutoCon 2019, Sochi
Do Rosario Carvalho AD, Vijaya A (2020) Automated industrial robot arm for three-dimensional measurement and reverse engineering. Int J Mech Prod Eng Res Dev Karnataka
Wu ZG, Lin CY, Chang HW, Lin PT (2020) Inline inspection with an industrial robot (IIIR) for mass-customization production line. Int J Mech Prod Eng Res Dev Karnataka
Madhusudanan H, Liu X, Chen W, Li D, Du L, Li J, Ge J, Sun Y (2020) Automated eye-in-hand robot-3D scanner calibration for low stitching errors. In: 2020 IEEE international conference on robotics and automation, Paris
Ukida H, Sasao T, Terada K, Yoshida A (2019) A calibration method of 3d shape measurement system using 3D scanner, turn-table and arm-robot. In: 58th annual conference of the society of instrument and control engineers of Japan, Tokushima
Yang Y, Li Z, Li Z, Yang L, Yan Y (2019). An automatic laser scanning system for objects with unknown model. In: 2019 IEEE SmartWorld, ubiquitous intelligence and computing, advanced and trusted computing, scalable computing and communications, internet of people and smart city innovation, SmartWorld/UIC/ATC/SCALCOM/IOP/SCI, Harbin
American Petroleum Institute (2015) API specification 5CT, specification for casing and tubing. API Publishing Services, Washington
Pratt WK (1978) Digital image processing. PixelSoft Inc., Los Altos
Lyons RG (2011). Understanding Digital Signal Processing. Pearson Education, Michigan
Izquierdo MA, Sanchez MT, Ibanez A, Ullate LG (1999). Sub-pixel measurement of 3D surfaces by laser scanning. J Sens Actuators 76:1–8. doi:https://doi.org/10.1016/S0924-4247(98)00283-0
Soyfer VA (1996) Methods of computer image processing. Fizmatlit, Moscow
Kilgus DB, Svetkoff DJ (1996) Imaging geometry and error sensitivity in triangulation-based optical receivers. Proc SPIE 2599:106
Seregin NI, Gadzikovsky VI, Kalmykov AA (2003) Evaluation in experimental research and modeling. GOU VPO USTU-UPI, Ekaterinburg
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Lavrinov, D.S., Pokazanev, S.V. (2022). The Analysis of the Measurement System Accuracy Based on 2D Laser Optical Micrometer When Measuring API Pipe Thread Pitch and Height. In: Radionov, A.A., Gasiyarov, V.R. (eds) Proceedings of the 7th International Conference on Industrial Engineering (ICIE 2021). ICIE 2021. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-85230-6_25
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DOI: https://doi.org/10.1007/978-3-030-85230-6_25
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