Kinematic analysis of a flexible six-DOF parallel mechanism

The present paper proposes a new six-DOF parallel mechanism with three connecting chains. This mechanism can have a large angle of orientation of the output link. Joints in each connecting chain are arranged from the base in order of revolute, prismatic, spherical and revolute joints. All three revolute joints on the base are coaxial. With this structure, the output link can perform a full rotation around the vertical axis. The orientation capability of this mechanism is demonstrated. Equations for displacement analysis and the Jacobian matrix are derived. A design and prototype of this mechanism for a pipe-bender are shown.

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Kinematic analysis and design of a novel 6-degree of freedom parallel robot

Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science ◽

10.1177/0954406214533097 ◽

2014 ◽

Vol 229 (2) ◽

pp. 291-303 ◽

Cited By ~ 4

Author(s):

DU Hui ◽

GAO Feng ◽

PAN Yang

Keyword(s):

Set Theory ◽

Kinematic Analysis ◽

Parallel Mechanism ◽

Design Methodology ◽

Parallel Robot ◽

End Effector ◽

Analysis And Design ◽

Velocity Models ◽

Reachable Workspace ◽

Rotational Motions

A novel 3-UP3R parallel mechanism with six degree of freedoms is proposed in this paper. One most important advantage of this mechanism is that the three translational and three rotational motions are partially decoupled: the end-effector position is only determined by three inputs, while the rotational angles are relative to all six inputs. The design methodology via GF set theory is brought out, using which the limb type can be determined. The mobility of the end-effector is analyzed. After that, the kinematic and velocity models are formulated. Then, workspace is studied, and since the robot is partially decoupled, the reachable workspace is also the dexterous workspace. In the end, both local and global performances are discussed using conditioning indexes. The experiment of real prototype shows that this mechanism works well and may be applied in many fields.

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Kinematic Analysis of a Novel 3-DOF Parallel Mechanism with Actuation Redundancy

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.816-817.821 ◽

2013 ◽

Vol 816-817 ◽

pp. 821-824

Author(s):

Xue Mei Niu ◽

Guo Qin Gao ◽

Zhi Da Bao

Keyword(s):

Kinematic Analysis ◽

Parallel Mechanism ◽

Rbf Neural Network ◽

Analysis Method ◽

Parallel Kinematic Mechanism ◽

Redundantly Actuated ◽

Parallel Kinematic ◽

Forward Kinematic ◽

Kinematic Mechanism ◽

Kinematic Solution

Kinematic analysis plays an important role in the research of parallel kinematic mechanism. This paper addresses a novel forward kinematic solution based on RBF neural network for a novel 2PRRR-PPRR redundantly actuated parallel mechanism. Simulation results illustrate the validity and feasibility of the kinematic analysis method.

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Kinematic and Workspace Modelling of a 6-PUS Parallel Mechanism

Volume 5B: 42nd Mechanisms and Robotics Conference ◽

10.1115/detc2018-86122 ◽

2018 ◽

Author(s):

Jérôme Landuré ◽

Clément Gosselin

Keyword(s):

Kinematic Analysis ◽

Parallel Mechanism ◽

Inverse Kinematic ◽

Degree Of Freedom ◽

Accurate Description ◽

Transmission Ratio ◽

Inverse Kinematic Problem ◽

Jacobian Matrices ◽

Six Degree Of Freedom

This article presents the kinematic analysis of a six-degree-of-freedom six-legged parallel mechanism of the 6-PUS architecture. The inverse kinematic problem is recalled and the Jacobian matrices are derived. Then, an algorithm for the geometric determination of the workspace is presented, which yields a very fast and accurate description of the workspace of the mechanism. Singular boundaries and a transmission ratio index are then introduced and studied for a set of architectural parameters. The proposed analysis yields conceptual architectures whose properties can be adjusted to fit given applications.

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