A combined hole position error correction method for automated drilling of large-span aerospace assembly structures

Guardado en:

Detalles Bibliográficos
Publicado en:	Assembly Automation vol. 42, no. 3 (2022), p. 293-305
Autor principal:	Hu, Junshan
Otros Autores:	Sun, Xinyue, Tian, Wei, Shanyong Xuan, Yang, Yan, Wang, Changrui, Liao, Wenhe
Publicado:	Emerald Group Publishing Limited
Materias:	Fixtures Assembly Drilling machines (tools) Accuracy Coordinate transformations Aerospace industry Error correction & detection Vision systems Error correction Mechanics (physics) Machining Optimization Interpolation Algorithms Error reduction Drilling Error compensation Riveting Position errors
Acceso en línea:	Citation/Abstract Full Text Full Text - PDF
Etiquetas:	Agregar Etiqueta Sin Etiquetas, Sea el primero en etiquetar este registro!

Descripción
Resumen:	Purpose>Aerospace assembly demands high drilling position accuracy for fastener holes. Hole position error correction is a key issue to meet the required hole position accuracy. This paper aims to propose a combined hole position error correction method to achieve high positioning accuracy.Design/methodology/approach>The bilinear interpolation surface function based on the shape of the aerospace structure is capable of dealing with position error of non-gravity deformation. A gravity deformation model is developed based on mechanics theory to efficiently correct deformation error caused by gravity. Moreover, three solution strategies of the average, least-squares and genetic optimization algorithms are used to solve the coefficients in the gravity deformation model to further improve position accuracy and efficiency.Findings>Experimental validation shows that the combined position error correction method proposed in this paper significantly reduces the position errors of fastener holes from 1.106 to 0.123 mm. The total position error is reduced by 43.49% compared with the traditional mechanics theory method.Research limitations/implications>The position error correlation method could reach an accuracy of millimeter or submillimeter scale, which may not satisfy higher precision.Practical implications>The proposed position error correction method has been integrated into the automatic drilling machine to ensure the drilling position accuracy.Social implications>The proposed position error method could promote the wide application of automatic drilling and riveting machining system in aerospace industry.Originality/value>A combined position error correction method and the complete roadmap for error compensation are proposed. The position accuracy of fastener holes is reduced stably below 0.2 mm, which can fulfill the requirements of aero-structural assembly.
ISSN:	0144-5154 1758-4078 2754-6969 2754-6977
DOI:	10.1108/AA-05-2021-0053
Fuente:	ABI/INFORM Global