It is often difficult for persons who are extremely overweight to find exercise systems that are accessible and safe to use. Seating is required to handle heavier loads of up to 500 lbs. and provide safe access to the exercise unit. Additionally, the exercise should not cause additional pain or possible damage if the person needs to suddenly stop. A multidisciplinary team of undergraduate engineers participated in a training course to interview a non-technical customer to determine design requirements and then underwent a rigorous design process to implement the best solution. Mechanical analysis was performed to determine the best solution for the concept, materials, and resistance. An exercise machine with a rotating chair was selected as the best solution. The chair rotates 90 degrees so that the user can sit down without having to step onto the machine. Once the user sits, the chair can then rotate 90 degrees until the chair is in the exercise position; in either position the chair locks into position for stability. This particular concept uses a bicyle exercise. This exercise minimizes impact on the knees, which is a safety issue for patients with knee problems. A sitting position for this exercise eliminates the stability issue raised with a standing exercise, where there is worry of falling. This exercise is beneficial for cardiovascular exercise. Resistance is implemented using a magnet. Fluid resistance and fly-wheel resistance would create too much momentum which was not desired by the customer. Electrical analysis was performed to determine the best method to sense heart rate, speed, and computer interface. Wired handles were selected to monitor the heart rate. These are hand held and are much easier to use than a chest strap. An optical sensor was used to sense speed. It was placed near the center of the wheel and rotations were indicated by a tab to break the connection in the sensor. This method was selected over a Hall effect sensor because it is a much simpler sensing method that does not require an addition magnetic component that is not too accurate a low speeds. The computer interface was a Motorola HC12s since it had the necessary I/O interfaces and was low cost. A custom interface was created with seven segment displays to show the heart rate and time of exercise. The system was then developed, tested, and delivered to the customer for use. This project was supported by Grant No. 0607883 from the National Science Foundation.
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Design Of Medical Devices Conference Abstracts
Recumbent Exercise Bicycle for Low-Impact Rehabilitation of Obese Individuals
K. Newman,
K. Newman
University of Denver
, Denver, CO, USA
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K. Gibson,
K. Gibson
University of Denver
, Denver, CO, USA
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H. Zeller,
H. Zeller
University of Denver
, Denver, CO, USA
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S. Carter,
S. Carter
University of Denver
, Denver, CO, USA
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B. Joyce
B. Joyce
University of Denver
, Denver, CO, USA
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K. Newman
University of Denver
, Denver, CO, USA
K. Gibson
University of Denver
, Denver, CO, USA
H. Zeller
University of Denver
, Denver, CO, USA
S. Carter
University of Denver
, Denver, CO, USA
B. Joyce
University of Denver
, Denver, CO, USAJ. Med. Devices. Jun 2009, 3(2): 027516 (1 pages)
Published Online: July 7, 2009
Article history
Published:
July 7, 2009
Citation
Newman, K., Gibson, K., Zeller, H., Carter, S., and Joyce, B. (July 7, 2009). "Recumbent Exercise Bicycle for Low-Impact Rehabilitation of Obese Individuals." ASME. J. Med. Devices. June 2009; 3(2): 027516. https://doi.org/10.1115/1.3135244
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