A REGRESSION METHOD FOR THE COMPUTATION OF LOCAL SPIRAL BEVEL AND HYPOID DEFLECTIONS FROM FINITE ELEMENT MODELS

抄録

The process of designing and analyzing the performance of spiral-bevel and hypoid gear sets requires a compact description of the gear set deflections under load. Three translational deflections E, P, G, and one angular deflection α are traditionally used to uniquely specify the relative orientation of a single spiral-bevel or hypoid pair.
The movement of the contact pattern correlates strongly with these deflections, but only if the deflections E, P, G, α represent local deformations in the vicinity of the contacting teeth, rather than global deflections.
It is possible to compute E, P, G, α that better represent the local deformations. This paper provides the mathematical basis for extracting the E, P, G and α numbers from a dispersed Finite Element nodal field.
The assumptions and mathematics of the regression process, and its limitations are presented. An examples of its application to a flexible hypoid gear pair is shown.