A general mathematical model for screw-rotor honing using an internal-meshing honing machine

•A method to hone screw rotors using internal-meshing honing is proposed.•Screw rotors with a constant and a variable leads are ahieved through the honing process.•A screw rotor with a predefined inter-lobe clearance is generated through the honing process.•Influence of additional machining-axis mov...

Full description

Saved in:
Bibliographic Details
Published in:Mechanism and machine theory 2020-12, Vol.154, p.104038, Article 104038
Main Authors: Hoang, Minh-Thuan, Wu, Yu-Ren, Tran, Van-Quyet
Format: Article
Language:English
Subjects:
Finishing process
Internal-meshing honing
Normal rack
Screw rotor
Tooth modification
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•A method to hone screw rotors using internal-meshing honing is proposed.•Screw rotors with a constant and a variable leads are ahieved through the honing process.•A screw rotor with a predefined inter-lobe clearance is generated through the honing process.•Influence of additional machining-axis movements on the screw surface is investigated and discussed. This study proposes a general method to finish screw rotors using internal-meshing honing. During the honing process, the meshing between the screw rotor and the honing wheel is similar to that for a pair of crossed-axis internal-meshing helical gears with few teeth so the machining time can be reduced significantly. A normal rack that conjugates a pair of screw rotors is used to generate the honing wheel. The proposed mathematical model can also be used for screw rotor honing with a variable lead. The topography of the tooth surfaces of a screw rotor with a constant lead and a variable lead are used to show the accuracy and practicability of the proposed mathematical model. A honing wheel with a clearance that is generated using a modified normal rack is used to design the clearance for the male rotor. In addition, influence of additional movements for each machining axis on the tooth modification of screw rotor is investigated and discussed.
ISSN:0094-114X
1873-3999
DOI:10.1016/j.mechmachtheory.2020.104038