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Design and Prototyping of Miniaturized Straight Bevel Gears for Biomedical Applications

Antonio Acinapura, Gionata Fragomeni, Pasquale Francesco Greco, Domenico Mundo, Giuseppe Carbone, Guido Danieli

Year
2019
Citations
10
Access
Open access

Abstract

This paper presents a semi-automated design algorithm for computing straight bevel gear involute profiles. The proposed formulation is based on the Tredgold approximation method. It allows the design of a pair of bevel gears with any desired number of teeth and relative axes inclination angles by implementing additive manufacturing technology. A specific case study is discussed to calculate the profiles of two straight bevel gears of a biomedical application. Namely, this paper illustrates the design of the bevel gears for a new laparoscopic robotic system, EasyLap, under development with a grant from POR Calabria 2014–2020 Fesr-Fse. A meshing analysis is carried out to identify potential design errors. Moreover, finite element-based tooth contact analysis is fulfilled for determining the vibrational performances of the conjugate tooth profiles throughout a whole meshing cycle. Simulation results and a built prototype are reported to show the engineering feasibility and effectiveness of the proposed design approach.

Keywords

Bevel gearFinite element methodBevelRapid prototypingVirtual prototypingMechanical engineeringInvoluteEngineeringEngineering drawingComputer science

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