Precision Machine Design

A precision machine is an integrated system that relies on the attributes of one component to augment the weakness of another component. In this course, emphasis is placed on the design of mechanical and structural precision machine components and their integration with sensor and control systems to maximize performance. In the discussion of the design of components and assemblies, emphasis is placed on how the design will affect overall accuracy, repeatability, and resolution of the machine.

Class Details

Class Name:
Precision Machine Design
Audience:
Manufacturing engineers, machine tool design engineers, and others involved in machine design.
Duration:
2 Day Course
Language:
English

Learning Objectives

  • Apply the principles of accuracy, repeatability and resolution
  • Learn error budgeting
  • Examine sensors and control systems
  • Examine structures and damping
  • Study precision bearings: selection and mountings
  • Study precision actuators: selection and mountings
  • Learn to use spreadsheets as first-order analysis tools

Outline At-a-Glance

  • Introduction to Precision Machine Design
  • Concept Selection Methods
  • Assessment of Errors in Precision Machines
  • Examples of Errors in Precision Machines
  • Error Budgeting
  • Introduction to Servo Systems
  • Sensor Mounting, Mapping Errors in a Turning Center
  • Optical Sensor Systems
  • Design of the Machine's Structure
  • Damping Systems
  • Kinematic Coupling Design
  • Sliding Contact Bearings
  • Replicated Bearings
  • Rolling Element Rotary and Liner Bearings
  • Hydrostatic Bearings
  • Detailed Hydrostatic Bearing Design Considerations and Examples
  • Power Transmission Systems Requirements
  • Electromagnetic, Piezoelectric Actuators
  • Rotary Motion Power
  • Transmission Elements
  • Linear Motion Power

Job Roles