Presentation is loading. Please wait.

Presentation is loading. Please wait.

Wheelchair Dynamic Center of Gravity (D-COG) Kyle Mobley, BME Garrett Spiegel, BME Andrew Lossing, ChBE Advisor: Dr. Mark Richter, President Lossing, Mobley,

Published byCurtis Cobb Modified over 8 years ago

Similar presentations

Presentation on theme: "Wheelchair Dynamic Center of Gravity (D-COG) Kyle Mobley, BME Garrett Spiegel, BME Andrew Lossing, ChBE Advisor: Dr. Mark Richter, President Lossing, Mobley,"— Presentation transcript:

1 Wheelchair Dynamic Center of Gravity (D-COG) Kyle Mobley, BME Garrett Spiegel, BME Andrew Lossing, ChBE Advisor: Dr. Mark Richter, President Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

2 Background 1.6 – 2.2 million American wheelchair users 1 146.8% increase in wheelchair related injuries from 1991 to 2003 1 Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

3 Background (cont’d) Most users cannot climb hills greater than 8% grade for more than 30 feet 2 Necessitates user folding to maintain stability. Leads to discomfort and greatly increased effort. Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

4 Basic Design Questions Seat or Axle movement? How will it move?  How is the movement controlled?  How far does it need to move? How will it stay in place? How is it designed?  Feasibility - upgrade possibility Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

5 Seat or Axle Movement? Axle Movement necessitates overcoming weight at wheels’ point of contact Seat Movement is much more feasible  Similar to movement of driver or passenger seat in a car Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

6 How will it move? Use of pre-existing HiRoller Elevating Wheelchair ™ technology Roller-track movement technique Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

7 How is the movement controlled? Spring loaded to be biased in forward direction  Moves COG forward, in front of rear axle Rear wheel propulsion naturally resets COG to original position Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

8 How far does it need to move? Choosing tippiness is a “compromise between risk of rearward instability and the ability to propel and maneuver easily”. 3  Shorter wheelbase = more tippy = COG backwards  Longer wheelbase = less tippy = COG forwards Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

9 How far does it need to move? (cont’d) Determinations:  20% COG change necessary for desired effect 4 inches of axle movement Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

10 How will it stay in place? Spring-loaded locking pins Two sets of pins to simplify user operation Each set designates different setting User controlled through lever placed on side of seat Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

11 How is it designed? Altering pre-existing HiRoller base design to conform to our specifications Dimensional constraints Pin placement Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

12 Future Directions Get assistance with AutoCAD Build prototype Welding, Metalwork, Construction Test/Revise prototype Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

13 References 1. H Xiang, A-M Chany, G A Smith. 2006. “Wheelchair related injuries treated in US emergency departments”. Injury Prevention. 12:8– 11. 2. “ADA Wheelchair Ramp Specifications”. Mobility Advisor. http://www.mobility- advisor.com/wheelchair-ramp-specs.html 3. “Guidance on the Stability of Wheelchairs”. March, 2004. MHRA. DB2004(02). Lossing, Mobley, Spiegel http://www.bme.vanderbilt.edu/srdesign/2009/group5/ D-COG Senior Design 2009-10http://www.bme.vanderbilt.edu/srdesign/2009/group5/

Download ppt "Wheelchair Dynamic Center of Gravity (D-COG) Kyle Mobley, BME Garrett Spiegel, BME Andrew Lossing, ChBE Advisor: Dr. Mark Richter, President Lossing, Mobley,"

Similar presentations

MESA Mouse Trap Powered Cars

MESA Mouse Trap Powered Cars
Rollover Protective Structures On Tractors Reasons for ROPS December, 2010.

Rollover Protective Structures On Tractors Reasons for ROPS December, 2010.
Work and Simple Machines

Work and Simple Machines
Headquarters Air Mobility Command Enabling the “Global” in “Global Vigilance, Reach and Power!” Cornering 101.

Headquarters Air Mobility Command Enabling the “Global” in “Global Vigilance, Reach and Power!” Cornering 101.
Driver Education Section VI Day 3 - Traction Concerns.

Driver Education Section VI Day 3 - Traction Concerns.
Assisting Passengers with Disabilities and Emergency Situation Training Course.

Assisting Passengers with Disabilities and Emergency Situation Training Course.
Newton’s Laws of Motion (and force!!) A force is a push or pull on an object.

Newton’s Laws of Motion (and force!!) A force is a push or pull on an object.
Status Report 3 Senior Design, BME 273 Professor: Dr. Paul King March 27, 2000 Members: Wan-Yin Chan, Megan Lan, T.J. Payne Advisor: Dr. R. Steven Couch,

Status Report 3 Senior Design, BME 273 Professor: Dr. Paul King March 27, 2000 Members: Wan-Yin Chan, Megan Lan, T.J. Payne Advisor: Dr. R. Steven Couch,
Wheelchair Dynamic Center of Gravity (D-COG) Kyle Mobley, BME Garrett Spiegel, BME Andrew Lossing, ChBE Advisor: Dr. Mark Richter, President Lossing, Mobley,

Wheelchair Dynamic Center of Gravity (D-COG) Kyle Mobley, BME Garrett Spiegel, BME Andrew Lossing, ChBE Advisor: Dr. Mark Richter, President Lossing, Mobley,
February 8, 2011 Review from design process

February 8, 2011 Review from design process
A S S I S T R E K Michael Elpers Kyle Fleege Kevin Mason Mary Phillips Theresa Polowski Megan Schroeder AMBULATORY ASSISTANCE SYSTEM Critical Concept Design.

A S S I S T R E K Michael Elpers Kyle Fleege Kevin Mason Mary Phillips Theresa Polowski Megan Schroeder AMBULATORY ASSISTANCE SYSTEM Critical Concept Design.
OCCUPATIONAL BIOMECHANICS. The discomfort/ injury if of: 57% back - side, 29% Knee and foot, to 24% shouder, 14% head, and others (American Collge). Then,

OCCUPATIONAL BIOMECHANICS. The discomfort/ injury if of: 57% back - side, 29% Knee and foot, to 24% shouder, 14% head, and others (American Collge). Then,
Lec#14.  Disable person needs equipment with the degree of impairment and desired degree of independence in area of personal care, mobility, leisure,

Lec#14.  Disable person needs equipment with the degree of impairment and desired degree of independence in area of personal care, mobility, leisure,
GRSP December 2004 The Safety of Wheelchair Occupants in Road Transport Vehicles Donald Macdonald Head of Engineering and Research Mobility & Inclusion.

GRSP December 2004 The Safety of Wheelchair Occupants in Road Transport Vehicles Donald Macdonald Head of Engineering and Research Mobility & Inclusion.
P14007: Wheelchair Assist Che-An Lee Phil Medalie Dan Schuster Tom Elliot.

P14007: Wheelchair Assist Che-An Lee Phil Medalie Dan Schuster Tom Elliot.
System Design Review P15007: Anti-Rollback Wheelchair

System Design Review P15007: Anti-Rollback Wheelchair
Biofeedback System for Propulsion Training February 22, 2007 Group Members: Noah Reding Nick Chadwick Tom Soike Project Sponsor: Dr. Mark Richter, MAX.

Biofeedback System for Propulsion Training February 22, 2007 Group Members: Noah Reding Nick Chadwick Tom Soike Project Sponsor: Dr. Mark Richter, MAX.
Telescoping Wheelchair Ramp

Telescoping Wheelchair Ramp
Advanced Design Applications Power and Energy © 2014 International Technology and Engineering Educators Association STEM  Center for Teaching and Learning™

Advanced Design Applications Power and Energy © 2014 International Technology and Engineering Educators Association STEM  Center for Teaching and Learning™
IV Tubing Organizer Blake Hondl, Amit Mehta, Ryan Pope, Kristen Sipsma, April Zehm, Katie Zenker BME 200/300 October 10, 2003.

IV Tubing Organizer Blake Hondl, Amit Mehta, Ryan Pope, Kristen Sipsma, April Zehm, Katie Zenker BME 200/300 October 10, 2003.

Similar presentations

Ads by Google