2016
DOI: 10.1177/0954407016672775
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A unified approach to the kinematic synthesis of five-link, four-link, and double-wishbone suspension mechanisms with rack-and-pinion steering control

Abstract: This paper presents a unified approach to the problem of dimensional synthesis of the five-link, four-link, and three-link (double-wishbone) suspension mechanisms with a rack-and-pinion steering input. In a simplified approach, the guiding links are assumed to be removed from their joints, allowing the wheel to be exactly driven through a number of prescribed jounce–rebound and steering positions during the kinematic synthesis process. Alternatively, the tie rod is maintained in place, and the rack length and … Show more

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Cited by 9 publications
(3 citation statements)
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“…37 Knapczyk and Dzierzek have written quite a few papers on the subject, taking joint flexibility hence elasto-kinematics into account as well. 3840 The subject of suspension kinematics computation is still relevant regardless of the widespread use of general purpose, multibody-based software, as shown by recent works like literature, 4143 related to the application of various optimisation methods to suspension kinematics. The authors have contributed to research on the subject in literature, 31–34 while Cambiaghi et al.…”
Section: A Tool For Suspension Kinematics: Requirements Descriptionmentioning
confidence: 99%
“…37 Knapczyk and Dzierzek have written quite a few papers on the subject, taking joint flexibility hence elasto-kinematics into account as well. 3840 The subject of suspension kinematics computation is still relevant regardless of the widespread use of general purpose, multibody-based software, as shown by recent works like literature, 4143 related to the application of various optimisation methods to suspension kinematics. The authors have contributed to research on the subject in literature, 31–34 while Cambiaghi et al.…”
Section: A Tool For Suspension Kinematics: Requirements Descriptionmentioning
confidence: 99%
“…Agarwal et al 11 formulated a novel synthesis approach of a planar six-bar mechanism applying multi-objective numerical optimization in order to minimize the structural error. Simionescu 12 presented a unified approach to perform the kinematic synthesis of multi-link suspension design with rack and pinion type of steering. However, the depicted results highlighted that minimization of steering error using a single objective optimization methodology was not adequate.…”
Section: Introductionmentioning
confidence: 99%
“…The guidance of the rear wheels can be achieved independently, or with a dependent suspension design, in which the wheels are laterally connected by a beam axle, whose motion relative to the car body is constrained by a set of guiding links, arranged in various configurations. 3 For modern road vehicles, independent suspension design is mostly used for passenger cars, while the beam axle suspension design is frequently implemented for commercial and off-road vehicles due to their specific operating requirements. The main benefits of the beam axle derive from its simplicity, which is reflected by a space-efficient solution, and better durability in high-load environments.…”
Section: Introductionmentioning
confidence: 99%