Provides the basic engineering formulas needed to predict the forces torques, speeds, and power required by a given move. This book describes the common power transmission components used in stage machines: roller chain, cable drums, bearings, and gear reducers. It shows many examples of traditional stage machinery designs.
Provides the basic engineering formulas needed to predict the forces torques, speeds, and power required by a given move. This book describes the common power transmission components used in stage machines: roller chain, cable drums, bearings, and gear reducers. It shows many examples of traditional stage machinery designs.
Alan Hendrickson is a Professor (Adjunct) of Technical Design and Production at Yale School of Drama, and an independent consultant in scenery mechanization and control since 1984. Classes taught at Yale include Physics of Stage Machinery, Automation Control, Pneumatics and Hydraulics, and Mechanical Design for Theatre Applications. His outside consultant work includes hydraulic, control, and mechanical design for effects running on Broadway, national tour, and regional theatre shows, mainly through Hudson Scenic Studio.
Inhaltsangabe
Basic Concepts: Displacement, velocity acceleration The force to accelerate mass The force to overcome friction The lifting force Emax analysis- E-stop Power example Basic Concepts: Angular Displacement, angular speed, angular acceleration The torque to accelerate mass The torque of overcome friction The lifting torque Tmax analysis-E-stop Rotational Power Example Combining Linear and Rotary Motion Safety Power Sources Electric Motors Fluid Power Actuators Speed Reduction General Concepts Gear Reducers Chain Reduction Belts Shafting Bearings and Wheels Wire Rope & Sheaves Cable Drums Screw Mechanisms Brakes Control, from a mechanical design point of view Frames and Framing Freedom and Constraint The Mechanical Design Process Specification Concept Design and Concept Evaluation Detail Design Manufacture Cable Drum Winches Turntable Drives Guides, Tracks, Dogs and Knives Lifts Traps Miscellaneous mechanisms: bellcranks, linkages, escapements, etc Appendixes.
Basic Concepts: Displacement, velocity acceleration The force to accelerate mass The force to overcome friction The lifting force Emax analysis- E-stop Power example Basic Concepts: Angular Displacement, angular speed, angular acceleration The torque to accelerate mass The torque of overcome friction The lifting torque Tmax analysis-E-stop Rotational Power Example Combining Linear and Rotary Motion Safety Power Sources Electric Motors Fluid Power Actuators Speed Reduction General Concepts Gear Reducers Chain Reduction Belts Shafting Bearings and Wheels Wire Rope & Sheaves Cable Drums Screw Mechanisms Brakes Control, from a mechanical design point of view Frames and Framing Freedom and Constraint The Mechanical Design Process Specification Concept Design and Concept Evaluation Detail Design Manufacture Cable Drum Winches Turntable Drives Guides, Tracks, Dogs and Knives Lifts Traps Miscellaneous mechanisms: bellcranks, linkages, escapements, etc Appendixes.
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