Concept design and dynamics analysis of a novel lightweight vehicle suspension combined with driving units

Abstract: A lightweighted suspension concept with integrated driving units into the longitudinal arm is proposed, to meet the increasing requirements from environments on both lightweight and propulsion to electric vehicles. This paper focuses on the structure concept design and ride dynamic analysis of the suspension with combined driving units. Besides conventional springs and shock absorbers, this concept suspension consists of a mass reduced axle structure, longitudinal arms, and electric driving units. The electric… Show more

“…The placement of the individual components was proceeded in accordance with the idea of keeping the center of gravity of the vehicle as low as possible to ensure sufficient vehicle stability [3]. Since the race takes place on a multi-turn circuit, in addition to the low weight and sufficient rigidity of the vehicle, it is very important to have the correct geometry of the turning wheels [4]. When cornering, each of the steered wheels travels in a different path, due to the inner and outer wheels passing the bend below a different turning radius.…”

Design and development of ultra-light front and rear axle of experimental vehicle

“…The placement of the individual components was proceeded in accordance with the idea of keeping the center of gravity of the vehicle as low as possible to ensure sufficient vehicle stability [3]. Since the race takes place on a multi-turn circuit, in addition to the low weight and sufficient rigidity of the vehicle, it is very important to have the correct geometry of the turning wheels [4]. When cornering, each of the steered wheels travels in a different path, due to the inner and outer wheels passing the bend below a different turning radius.…”

Design and development of ultra-light front and rear axle of experimental vehicle

Study on Design and Application of High Strength Aluminum Alloy Profile for Automobile