Optimization of the roll and steer systems of a four-wheeled tilting vehicle
Optimization of the roll and steer systems of a four-wheeled tilting vehicle
The work addresses the optimization of the steering and roll systems of an innovative four-wheeled tilting vehicle, which is currently being built at the University of Padova. The vehicle is a combination of traditional two and four-wheeled forms, with the driver operating a bike handlebar to steer, and throttle and brake inputs to control speed. Two pedals control the roll movement, while the gearshifts are made automatically. The steering system consists of a handlebar, column, pinion, rack and track-rods to the wheels. In the resulting spatial mechanism, roll and steer motions of the wheels are coupled. The kinematic optimization presented in this paper, aims at minimizing undesired roll to steer behaviour, and provides appropriate outer/inner wheel steer angles. The natural coordinate approach is employed to efficiently simulate and optimize the mechanism.
978-0-7918-4583-7
Caneri, M.
17eb4e55-194f-4bf8-bbee-c59f3f4a7cc7
Lot, R.
ceb0ca9c-6211-4051-a7b8-90fd6f0a6d78
Cossalter, V.
5682d553-7457-4947-ba30-f1265d206679
Massaro, M.
b9bed959-fc8a-4ea5-b87f-9fcdb9ae449c
July 2014
Caneri, M.
17eb4e55-194f-4bf8-bbee-c59f3f4a7cc7
Lot, R.
ceb0ca9c-6211-4051-a7b8-90fd6f0a6d78
Cossalter, V.
5682d553-7457-4947-ba30-f1265d206679
Massaro, M.
b9bed959-fc8a-4ea5-b87f-9fcdb9ae449c
Caneri, M., Lot, R., Cossalter, V. and Massaro, M.
(2014)
Optimization of the roll and steer systems of a four-wheeled tilting vehicle.
ASME 2014 12th Biennial Conference on Engineering Systems Design and Analysis, ESDA 2014, Copenhagen, Denmark.
25 - 27 Jul 2014.
6 pp
.
(doi:10.1115/ESDA2014-20120).
Record type:
Conference or Workshop Item
(Paper)
Abstract
The work addresses the optimization of the steering and roll systems of an innovative four-wheeled tilting vehicle, which is currently being built at the University of Padova. The vehicle is a combination of traditional two and four-wheeled forms, with the driver operating a bike handlebar to steer, and throttle and brake inputs to control speed. Two pedals control the roll movement, while the gearshifts are made automatically. The steering system consists of a handlebar, column, pinion, rack and track-rods to the wheels. In the resulting spatial mechanism, roll and steer motions of the wheels are coupled. The kinematic optimization presented in this paper, aims at minimizing undesired roll to steer behaviour, and provides appropriate outer/inner wheel steer angles. The natural coordinate approach is employed to efficiently simulate and optimize the mechanism.
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Published date: July 2014
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Cited by 0
Venue - Dates:
ASME 2014 12th Biennial Conference on Engineering Systems Design and Analysis, ESDA 2014, Copenhagen, Denmark, 2014-07-25 - 2014-07-27
Organisations:
Energy Technology Group
Identifiers
Local EPrints ID: 382092
URI: http://eprints.soton.ac.uk/id/eprint/382092
ISBN: 978-0-7918-4583-7
PURE UUID: 311c930e-76bf-463d-a947-9bbae1a8718d
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Date deposited: 01 Oct 2015 12:59
Last modified: 14 Mar 2024 21:25
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Author:
M. Caneri
Author:
R. Lot
Author:
V. Cossalter
Author:
M. Massaro
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