Abstract
Delta robot is typically mounted on a frame and performs high speed pick and place tasks from top to bottom. Because of its outstanding accelerating capability and higher center of mass, the Delta robot can generate significant frame vibration. Existing trajectory smoothing methods mainly focus on vibration reduction for the robot instead of the frame, and modifying the frame structure increases the manufacturing cost. In this paper, an acceleration profile optimization approach is proposed to reduce the Delta robot-frame vibration. The profile is determined by the maximum jerk, acceleration, and velocity. The pick and place motion (PPM) and resulting frame vibration are analyzed in frequency domain. Quantitative analysis shows that frame vibration can be reduced by altering those dynamic motion parameters. Because the analytic model is derived based on several simplifications, it cannot be directly applied. A surrogate model-based optimization method is proposed to solve the practical issues. By directly executing the PPM with different parameters and measuring the vibration, a model is derived using Gaussian Process Regression (GPR). In order to reduce the frame vibration without sacrificing robot efficiency, those two goals are fused together according to their priorities. Based on the surrogate model, a single objective optimization problem is formulated and solved by Genetic Algorithm (GA). Experimental results show effectiveness of the proposed method. Behavior of the optimal parameters also verifies the robot-frame vibration mechanism.
Highlights
Delta robot is a 3/4 Degree-of-Freedoms(DOFs) parallel robot widely used in manufacturing industries affording the pick and place tasks [1,2,3]
This paper focuses on the frame vibration suppression problem for Delta robot in pick and place application
By analyzing acceleration profile of the pick and place motion in frequency domain, distribution and amplitude of harmonics in the robot motion are identified. They are proved to be internally related to dynamic motion parameters such as jerk, acceleration, and velocity
Summary
Delta robot is a 3/4 Degree-of-Freedoms(DOFs) parallel robot widely used in manufacturing industries affording the pick and place tasks [1,2,3]. Delta robot is usually mounted on a big heavy frame to operate workpieces from top to bottom. The frame is usually customized according to the environmental conditions, such as workpiece size or conveyor arrangement. A frame is 2 meters high and 1.5 meters wide, which covers work range of the Delta robot. Thick square steels are welded together to provide a relatively static basis. Other types of base/frames exist which are summarized in [4]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
