Hopfällbar hjullösning
Set-Based Concurrent EngineeringFoldableWheelDesignBarnvagnCykelDesignHjulHoppfällbarKonstruktionProduktutformningProduktutvecklingRullstolSet-Based Concurrent Engineering
In many products a compromise between ground clearance and the required space to store the product has to be made. This problem attracted the attention of the authors of this thesis.The objective of this project is to develop a functioning solution to a foldable wheel. The solution should be applicable to several types of product groups. A limitation for this work has been made so that the work only covers solutions for lighter vehicles.The purpose is to drive this project forward, so that a solution can be found. Furthermore the purpose of the report is to clarify how the authors proceeded to design and construct the wheel according to a fixed specification. The authors of this project also wishes to develop their knowledge within the field of product development.Set-Based Concurrent Engineering (SBCE) has been used as the underlying method on which this work was based. The work started with a preliminary study. Relevant specifications was established using the results from the study. The specifications was given a rang by the use of pairwise weighting, then a QFD was made using said requirements.The wheel was divided into three different areas. Solutions was developed to problems within each area, independently of one another. The project underwent three concept stages and three screening stages. During the third screening a final concept was chosen for further development.Strength simulations was performed in Solid Works, by using the results from the simulations adjustments to the design could be made.The authors succeeded in developing a wheel capable of a volume reduction by 70 %. When the wheel is dimensioned to fit an ordinary bike it weighs about 2.5kg and can take a radial load of over 1 000N. The final concept is called Arcas and is made up of four sections of a specially developed flexible arc-solution. The arc-solution enables the wheels curved surfaces to be straightened out when the wheel is about be stored.The authors consider that they have developed the knowledge in product development and also improved their ability to handle loose defined projects. It should be possible to further reduce the volume up to levels around 80 %. A detailed FEM analysis of the components should be of use.