RANCANG BANGUN ROBOT MANIPULATOR YANG BERGERAK SECARA TRANSLASI DAN ROTASI
Abstrak
In industrial applications, robot manipulator performance is expected to achieve good work such as high speedwith safe operation, improved positioning, lighter weight, and lower energy consumption.This study is devoted to themaking of a robot manipulator as a prototype by focusing on conditions of translational movement and rotation that takeplace simultaneously. In this research, it will also study a vibration measuring instrument used to measure frequency andamplitude using accelerometer ADXL 335. The data obtained will be displayed in the form of FFT frequency graph andFFT amplitude acceleration in the software spyder. By using Fast Fourier Transform method, it can be known thefrequency of vibration that occurs in manipulator. In this study, we used a manipulator of aluminum material with alength of 30 cm and 0.3 cm thick. From result of measurement that have been done hence obtained frequency of analysisequal to 6,71 Hz. While the experimental frequency obtained for 6.41 Hz. In this study, the researcher will later use acomputing program that will control the movement of robots. The method used is the method of Experimental Designand Analysis.Referensi
A.K. Muhammad, 2015, _Finite_Element_Analysis_for_Active force Control on Vibration of a Flexible Single link
Manipulator, International Journal on Smart Material and Mechatronics, IJSMM Vol. 2 No. 2.
A.K. Muhammad et al, 2014, “Computer Simulations and Experiments on Vibration Control of a Flexible Link
Manipulator Using a Piezoelectric Actuatorâ€, Lecture Notes in Engineering and Computer Science: Proceeding of
The International Multi Conference of Engineers and Computer Scientists 2014, IMECS 2014, 12 – 14 March, 2014,
Hong Kong, pp. 262 – 267.
S. Mahto, A. K. Gogoi, and U. S. Dixit, 2016, “A Comparative Study of Improved Dynamics of Single Link Flexible
Revolute-Jointed Robotic Manipulator,†Procedia Eng., vol. 144, pp. 425–434.
H. N. Rahimi and M. Nazemizadeh, 2013 ,“Dynamic analysis and intelligent control techniques for flexible
manipulators: a review,†Adv. Robot., vol. 28, no. 2, pp. 63–76,
X. Yang and Z. Zhong, 2013, “Dynamics and Terminal Sliding Mode Control of Two-Link Flexible Manipulators with
Noncollocated Feedback,†IFAC Proc. Vol., vol. 46, no. 20, pp. 218–223.
Saeeb B. Niku, 2010, “Introduction to Roboticsâ€, John Wiley & Sons, Second Edition, California.
M. Lalanne et al, 1983, Mechanical Vibration for Engineers, John Wiley & Sons Ltd,.