TY - JOUR
T1 - Compactness in one-step mechanical reducers using hollow axes
AU - Araque De Los Rios, Oscar J.
AU - Cabello, Juan J.
PY - 2010/1/1
Y1 - 2010/1/1
N2 - This work seeks to identify the incidence of the reduction of weight in integrated machine elements, as transmission axes, on its mechanical resistance and about the compactness of compound mechanical reducers for gear of a step. For this, they have been considered diverse geometric variations, as hollow axes their, to determine incidence on the geometry and the variation of the weight of each one of the constituent elements of the reducers affected by the geometric change of the exit axes. It was observed that, for the case of solid axes and holes of same circular section and resistance the decrease of the area went superior to 12% and the one of the resistance module to the flexion, of 11%. For axes of circular section with wedge the area diminished in more than 30%, while the resistance module to the flexion, in 10%. It is concluded that the use of hollow axes with increments up to 50% in its inner diameter does not have a significant impact in the compactness of one step mechanical reducers.
AB - This work seeks to identify the incidence of the reduction of weight in integrated machine elements, as transmission axes, on its mechanical resistance and about the compactness of compound mechanical reducers for gear of a step. For this, they have been considered diverse geometric variations, as hollow axes their, to determine incidence on the geometry and the variation of the weight of each one of the constituent elements of the reducers affected by the geometric change of the exit axes. It was observed that, for the case of solid axes and holes of same circular section and resistance the decrease of the area went superior to 12% and the one of the resistance module to the flexion, of 11%. For axes of circular section with wedge the area diminished in more than 30%, while the resistance module to the flexion, in 10%. It is concluded that the use of hollow axes with increments up to 50% in its inner diameter does not have a significant impact in the compactness of one step mechanical reducers.
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U2 - 10.1612/inf.tecnol.4138it.08
DO - 10.1612/inf.tecnol.4138it.08
M3 - Article
SP - 57
EP - 62
JO - Informacion Tecnologica
JF - Informacion Tecnologica
SN - 0716-8756
ER -