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Ergonomics: Design Principles or Axioms

Ergonomics: Design Principles or Axioms. General Guiding Principles or Thought Processes Simple But Powerful Concepts All Detailed Design Goals and Objectives Derive From Basic Design Axioms Basic Design Axioms are More Important to Remember Than More Specific Solutions .

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Ergonomics: Design Principles or Axioms

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  1. Ergonomics: Design Principles or Axioms • General Guiding Principles or Thought Processes • Simple But Powerful Concepts • All Detailed Design Goals and Objectives Derive From Basic Design Axioms • Basic Design Axioms are More Important to Remember Than More Specific Solutions

  2. Ergonomics: Design Principles for Workstations • Do Not Lower That Which Must Be Lifted • Do Not Lift That Which Must Be Lowered • Use Gravity - Do Not Oppose It

  3. Design Principles and Rules of Thumb • Provide Adequate Space to Turn the Whole Body • Do Not Reach Behind • Avoid Extremes of Joint Movement • Avoid Postural Extremes

  4. Design Principles • Allow Natural, But Changing Postures • Avoid Static Loading of Muscles • Preserve the Natural Curves of the Spine

  5. Design Principles • Apply Force Dynamically, Conserve Momentum • The Lower the Reach Target, The Better the Shoulder Posture • Work Should Be 2 - 4 Inches Below Elbow Height, In General • Do Not Lift the Elbow • If Workers Must Reach Up and Out, Keep the Reach Below Heart Level • Pivot Movement About the Elbow • Keep Arm Motions Within the “Normal” Working Area

  6. Design Principles • Give Support To the Body • Avoid Contact Stresses • Reduce Repetition (enlarge jobs, rotate, mechanize) • Reduce Force • Power With Motors - Not With Muscles • Avoid Vibration - Especially Resonate Frequency Ranges

  7. Design Principles • Provide Adjustability • Fit a Range - Not the Average • Accommodate As Wide A Range as Possible

  8. Design Principles • Match the Tool to the Task • Handles Should be Smooth, Non-Conductive, and Compressive • Design For the Person With the Least Strength • Match the Grip to the Worker Population • Spread Contact Over Several Fingers - Not Just One

  9. General Approaches to Solving Ergonomics Problems • Eliminate the Need for the Task • Convert the Task to a Less Stressful Task • Mechanize the Task • Automate the Task - Assign the Task to a Machine

  10. Solving Ergonomics Problems: Lifting • Convert the Lift/Lower to a Push/Pull • Convert the Lift and Carry to a Push/Pull • Mechanize the Lift/Lower (Operator Guided, Machine Lifted) • Automate the Handling Task

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