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Manuscript ID : SOIJ-1712-1088 (R1) Visit : 176 Page: 41 - 52

20.1001.1.23456450.2018.7.4.4.8

Article Type: Original Research

Flexibility in Architecture: An Innovative Design for Covering of a Transformable Dome Using Kinetic Elements

Subject Areas : Space Ontology International Journal

Maziar Asefi 1 , Soheila Aram 2

1 - Faculty of Architecture and Urban Studies, Tabriz Islamic Art University, Tabriz, Iran.
2 - Tabriz Islamic Art University, lecture at University of Mohaghegh Ardabili, Tabriz, Iran.

Received: 2017-12-25 Accepted : 2018-12-12 Published : 2018-12-01

Keywords: Transformable structures, Kinetic covering, Scissor-like structures, Transformable dome,

Abstract :

Flexibility is a concept associated with variable needs of human beings.Today transformable structures are used to meet human changeable demands with different purposes and functions such as facades, roofs, sunshades, etc.A Flexible structure must be able to change physically and adapt to predetermined conditions.To provide flexibility and adaptability,transformable systems are required to possess appropriate covering and a proper mechanism.Given their high elasticity, membranes can be considered as the first and easiest solution, but not necessarily the best one,for such deployable structures as they may interfere with the function of the structure;so that the use of membranes in deployable structures often leads to functional, operational and visual problems which indicate the necessity of application and investigations into rigid covers for such structures. Aimed at finding a new solution to improve flexibility of transformable structures with rigid covers, this paper attempts to evaluate and assess a variety of coverings suitable for the structure proposed in this research.Being widely used, suiting various functions and having capability of design in different forms, scissor-like structures are chosen among other types of transformable systems and a design is proposed for rigid cover of scissor-hinged transformable domes.The solution for adding rigid covering involves adding additional kinetic elements to the scissor-like structure.Reciprocal elements, are connected to the structure in two directions, on which rigid covers are installed.One of the advantages of this proposal is that the elements are designed in such a way that rigid covers can be installed through various forms and configurations of modules.

References:


  1. Asefi, M., Ahmadnejad Karimi, M. (2016). Technology of Movable Architecture Theoretical and Functional Principles of Transformable Architecture, Parham Naghsh Publications, Tehran, Iran.
    2.
  2. Asefi, M., Shoaee, S. (2018). Proposing a Novel Kinetic Skin For Building Facades Using Scissor-Like-Element Structure, Archnet-IJAR, Volume 12, Novamber 2018-237-238.
    3.
  3. Asefi, M. (2010). Transformable and Kinetic Architectural Structures: Design, Evaluation and Application to intelligent Architecture.Germany: VDM Velag Publisher.
    4.
  4. Avellaneda L, Omar, F .( 2013). Transformable Architecture Experimental Solution for a Square Mesh Deployable Cover, Proceedings of the First Conference Transformables ,In the Honor of Emilio Perez Piñero, School of Architecture Seville, Spain
    5.
  5. Buhl T., Jensen F.V. & Pellegrino S. (2004). Shape optimization of cover plates for retractable roof structures, Computers & Structures, Vol. 82, pp. 1227–1236.
    6.
  6. Chilton, J. (2009). Space grid structures, Golabchi, M., 3rd ed., Tehran: Tehran University Press.
    7.
  7. Habraken, N. J. (2008). Design for Flexibility, Buing Research & Information, 290-296.
    8.
  8. Ishii, K. (2000). Structural Design of Retractable Roof Structures, WIT Press. John C. Chilton, Space Grid Structures, Architectural Press.
    9.
  9. Kassabian P.E., You Z. & Pellegrino S.(1999). Retractable roof structures, Proceedings of Institution of Civil Engineers - Structures and Buildings, 134(1), pp.45-56.
    10.
  10. Maden, F., Korkmaz K., Akgün Y.(2011). A review of planar scissor structural mechanisms: geometric principles and design methods, Jornal of Architectural Science Review, Vol. 54, pp. 246–257.
    11.
  11. Takatsuka, M. & Ohmori, H. (2012).”Transformable Linked Panels, International Journal of Space Structures Vol. 27 No. 4.
    12.
  12. Torres , Natalia P. (2013). Deployable stage design based on the application of scissor type structures, folding and   membrane system, Proceedings of the International Association for Shell and Spatial Structures (IASS) Symposium.
    13.
  13. O'Brien Melin, N. (2004). Application of Bennett Mechanisms to Long-Span Shelters, A dissertation submitted for the degree of Doctor of Philosophy in the Department of Engineering Science at the University of Oxford, Trinity Term.
    14.
  14. Friedman, N. (2012). Investigation of highly flexible, deployable structures: review, modelling, control, experiments and application.
    15.
  15. Park Sunkyeong, J. J. & Seungdeog, K. (2013). Mock-up Test of Deployable Structure using Meridian Grid, Proceedings of the International Association for Shell and Spatial Structures (IASS) Symposium, Beyond the limits of man 23-27 September, Wroclaw University of Technology, Poland J.B. Obrębski and R. Tarczewski (eds.)
    16.
  16. Schneider, T., & Till, J. (2005). “Flexible Housing: The Means to the End, 287-296.
    17.
  17. Smith, J. k. (2003). current Technologies and trends of retractable roofs, Submitted to the Department of Civil and Environmental Engineering in Partial Fulfillment of the Requirements for the Degree of Master of Engineering in Civil and Enviromental Engineering, University of Washington.
    18.
  18. Luo, Y.Z., Wang, D.W., Mao, D.C., Liu, J.J. LIU & You, Z.(2012). Movable structures based on mechanisms, IASS.
    19.

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