Print Email Facebook Twitter Design of an adjustable gravity equilibrator using torsion bars Title Design of an adjustable gravity equilibrator using torsion bars Author Van Osch, F.J.C. Contributor Van der Helm, F.C.T. (mentor) Herder, J.L. (mentor) Faculty Mechanical, Maritime and Materials Engineering Department BioMechanical Engineering Programme BMD Date 2011-01-31 Abstract Static balancing is a useful concept to reduce operating effort in mechanisms. A statically balanced system which is designed to counterbalance a mass, is referred to as a gravity equilibrator. The potential energy in a gravity equilibrator is constant, which in most of the times is achieved by mechanical springs. Often helical springs are used, although these springs take a lot of space within the workspace of the mechanism. This paper presents the design of an adjustable gravity equilibrator using torsion bars, which saves space in the working area. Static balancing is achieved with a non-constant transmission (NCT). A new NCT design, and a general method to calculate the design parameters are presented. The stiffness of the torsion bars can be adapted by changing the active length. In this way it is possible to balance different masses with the same system. Subject static balancing To reference this document use: http://resolver.tudelft.nl/uuid:6234f2a7-53a5-4b5b-8919-b3700e17da55 Embargo date 2014-01-31 Part of collection Student theses Document type master thesis Rights (c) 2011 Van Osch, F.J.C. Files PDF MScThesis_FJCvanOsch.pdf 27.57 MB Close viewer /islandora/object/uuid:6234f2a7-53a5-4b5b-8919-b3700e17da55/datastream/OBJ/view