Abdul Afeez, Sanjay and Anjani Kumar
In the present paper, a CAD and reverse engineering (RE) methodology has been adopted for the development of a complex assembly of a TFC 280 crane cabin. A different approach has…
Abstract
Purpose
In the present paper, a CAD and reverse engineering (RE) methodology has been adopted for the development of a complex assembly of a TFC 280 crane cabin. A different approach has been adopted to eliminate fouling as well as interference with other components of the crane such as boom, gantry, front drum, rear drum, etc. with its cabin. The paper aims to discuss these issues.
Design/methodology/approach
A dummy 3-D CAD model of the assemblies has been made using assembly constraints of Master Assembly and then checked for fouling and interference using IDEAS NX 12 to validate cabin design. In fabrication industries, one of the critical challenges is to maintain close geometric tolerances in finished products, which have been taken care of by the use of accurate value of K-factor.
Findings
Ergonomics of the re-engineered crane cabin has also been improved by providing rear vision and improvement in operator's forward visibility from 165° to 180°.
Originality/value
The work has been carried out using RE methodology un-used in this part of the world (Jamshedpur, India).