Applied Sciences (Feb 2025)

Design and Development of Hugging Mechanism for Capturing Chest and Back Auscultatory Sounds

  • Ryosuke Tsumura,
  • Takuma Ogawa,
  • Reina Umeno,
  • Ryuta Baba,
  • Yuko Morishima,
  • Kiyoshi Yoshinaka,
  • Hiroyasu Iwata

DOI
https://doi.org/10.3390/app15031669
Journal volume & issue
Vol. 15, no. 3
p. 1669

Abstract

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Robotic auscultation has the potential to solve problems associated with gender issues by allowing examinations that eliminate the need for physical contact between doctor and patient. Aiming toward a robotic auscultation device capable of safely acquiring chest and back auscultatory sounds simultaneously, this study aimed to develop a unique actuator-less hugging mechanism with a multi-acoustic sensor array that can be transformed to wrap around the chest and back to fit the patient’s body shape. The mechanism consists of a twin-articulated arm with multi-layer gear coupling and a cam mechanism for power transmissions. The hugging motion is generated by pushing the cam mechanism by the patient. The force applied to the cam mechanism acts as the driving force for the twin-articulated arm. The trajectory of the arm changes depending on the distance that the cam mechanism is pressed, and it was designed to fit typical body types (obese, standard, and slender). Our results demonstrated that the proposed mechanism was able to be transformed for each body type, and its positional error was less than 15 mm in all body types. This means that the proposed mechanism is capable of safely acquiring chest and back auscultatory sounds whilst simultaneously fitting to various body shapes.

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