Notice of Retraction: The parameter design research of non-circular gear based on MATLAB and Pro/E

Abstract: In this paper, based on the actual design of gear during the production process as well as the gradual formation of gear meshing gear principle and the principle of the establishment of a non-circle gear tooth profile curve of the mathematical model parameters. And then combined with MATLAB and Pro / E to achieve the whole parameters design of the gear, First of all in the MATLAB programming environment compile the program of the curve and to generate consistent with the Pro / E format. IBL document further in… Show more

“…Zhou Kaihong [3] showed the theoretical curve analysis of the angular velocity ratio and the consistency of analysis results for non-circular gears with an oval pitch curve by using the analysis software ADAMS. Marius VASIE [4] considered the simulation of rolling in a 2D space and verified the geometric and kinematic calculations performed in the design stage. Sang-Hoon Choi [5] studied optimal ranges of pressure angle, ratio of tooth number and radius of curvature of an elliptical gear.…”

“…Marius VASIE [4] considered the simulation of rolling in a 2D space and verified the geometric and kinematic calculations performed in the design stage. Sang-Hoon Choi [5] studied optimal ranges of pressure angle, ratio of tooth number and radius of curvature of an elliptical gear.…”

Study on Design of Non-Circular Gears for Speed Control of the Squid Belly Opening and Gutting Machine (SBOGM)

“…Zhou Kaihong [3] showed the theoretical curve analysis of the angular velocity ratio and the consistency of analysis results for non-circular gears with an oval pitch curve by using the analysis software ADAMS. Marius VASIE [4] considered the simulation of rolling in a 2D space and verified the geometric and kinematic calculations performed in the design stage. Sang-Hoon Choi [5] studied optimal ranges of pressure angle, ratio of tooth number and radius of curvature of an elliptical gear.…”

“…Marius VASIE [4] considered the simulation of rolling in a 2D space and verified the geometric and kinematic calculations performed in the design stage. Sang-Hoon Choi [5] studied optimal ranges of pressure angle, ratio of tooth number and radius of curvature of an elliptical gear.…”

Study on Design of Non-Circular Gears for Speed Control of the Squid Belly Opening and Gutting Machine (SBOGM)