KINEMATIC ANALYSIS OF MONOBIKE MECHANICAL TOYS USING SOLIDWORKS

Herraprastanti, Eva H and Jatmiko, Suluh and Santoso, Eko Budi (2019) KINEMATIC ANALYSIS OF MONOBIKE MECHANICAL TOYS USING SOLIDWORKS. In: ASEAN YOUTH CONFERENCE (AYC) 2019 PPI MALAYSIA, 12-13 OCTOBER 2019, ASIA PACIFIC UNIVERSITY.

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Abstract

Society 5.0 allows the use of cyber technology, in all aspects of life, including the toys industries. Three-dimensional printers as a key of the Society 5.0 agent the urgent role as a blueprint for products according to their original designs. Before it is printed using a three-dimensional printer into a product that ready for the market, the first is simulated to determine whether the toy is able to move based on the kinematics movement that we’ve designed. In this study determined toy that can mimic the motion of an object as precisely as possible, namely monobike that pedaling a bicycle. The research objective is to analyze the movement of monobike components theoretically and simulation using Solidworks software. This analysis includes linear and angular displacement, velocity, and acceleration of the monobike component which is limited to the third link. The methodology in this study is: Determine the dimensions and the drive component of monobike. Furthermore make a monobike kinematic diagram, and analyze the kinematic by using the vector position. Then simulate displacement, velocity, and acceleration using Solidworks, and analyze the kinematic motion specially of link 3. The linier displacment of link 3 is the farthest at 18.38 mm, and one cycle of motion takes 120 seconds. The maximum linear velocity of the monobike mechanical toys is 36.2 mm / sec. The maximum angular velocity of monobike mechanical toys is 183.95 deg/sec. Than the maximum angular acceleration of monobike mechanical toys is 854.55 deg/sec2. Solidworks is recommended software that can be used to simulate the motion in kinematic analysis.

Item Type: Conference or Workshop Item (Paper)
Uncontrolled Keywords: Acceleration, Displacement, Kinematic, Monobike, Velocity
Subjects: Engineering > Mechanical Engineering
Divisions: Fakultas Teknologi Industri > Teknik Mesin DIII
Depositing User: Mr Sayekti Aditya Endra
Date Deposited: 04 Jul 2023 02:13
Last Modified: 04 Jul 2023 02:13
URI: http://eprints.itn.ac.id/id/eprint/12209

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