Simulation and Analysis for Cooling System of High-Speed Motorized Spindle

Chun Li Lei; Zhi Yuan Rui; Yin Cheng Zhou

doi:10.4028/www.scientific.net/AMR.945-949.1677

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Thermal Error Compensation on Boring & Milling Machining Center Feed System Based on PMAC
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Contour Tracking Control for Direct Drive X-Y Table Based on Equivalent Errors Model
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Simulation and Analysis for Cooling System of High-Speed Motorized Spindle
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Design and Development of Availability Information System for Heavy CNC Equipment Based on Cooperation of Network
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Numerical Control for Multifunction Machining Based on Dual MCU
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Research on Optimization of Rotation Angle and Singular Area Handling in Five-Axis Post-Processing
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The Design of Reconfigurable Machine Tools about Lathe and Milling Machine Based on Modularization
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Simulation and Analysis for Cooling System of High-Speed Motorized Spindle

Abstract:

In order to improve the manufacturing accuracy of NC machine tool, it is crucial to reducing the temperature rise of high-speed motorized spindle. The cooling effect and temperature distribution of water-cooling system are simulated and analyzed based on thermodynamics, heat transfer theory and computational fluid dynamics in this paper. The results show that the cooling system has fine cooling effect; the temperature of cooling liquid is changed from low to high and then to decrease, the highest temperature is at the roundabout of helical water channel and the reason for this phenomenon is found out. The results provide the theory basis for the structure optimization for water-cooling system.