Motion Control and Design for Experimental Feeding Device

Xiao Gui Zhang; Bo Gao

doi:10.4028/www.scientific.net/AMR.143-144.884

Paper Titles

Simulation and Experimental Research on Milling Force of High Manganese Steel
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Simulation Study on Laser Welding of High Strength Steel to Vehicle
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Numerical Simulation of Triaxial Tests for Coarse-Grained Soil Considering the Initial Fabric of Samples Grain
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Effect of Friction on Billet Deformation during Multi-Axial Compressions
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Motion Control and Design for Experimental Feeding Device
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The Structural Dynamical Buckling Analysis for a Novel Vacuum Autoclave under the Extreme Operating Conditions
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A Large-Scale Device Collaboration Resource Selection Method with Multi-QoS Constraint Supported
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Population Migration Algorithm for Integer Programming and its Application in Cutting Stock Problem
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Modeling the Large-Scale Device Collaboration System Based on PI-Calculus
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Motion Control and Design for Experimental Feeding Device

Abstract:

In order to study the performance of speed feeding, an experimental feeding device was designed. The main design considerations are: Easy to adjust parameters, separate movement control of each device structure, and distribution control for the suction and blowing in the feeding device. The control system is developed on windows PC system. KPCI-884 motion control card is adopted as the I/O interface for the motion control, feeding movement is driven by servo motors, a high-speed solenoid valve is used for gas distribution and system UI is developed in VC++ language. A test run indicates that the system is in good operational condition. In the research, the synchronous control of multiple servo motors in a open-loop state is achieved as well as the detection and control of peripheral signals.