Abstract
This article, for the first time, presents the generation of Roots rotor tooth profiles based on an Assur-group-associated virtual linkage method. Taking the original Roots rotor as an example, structure and geometry of the Roots rotor are introduced, and based on the principle of inversion, an equivalent virtual linkage is identified for generating dedendum tooth profile of the rotor. Using linkage decomposition associated with elemental Assur groups, algorithm for computing the tooth curve is constructed leading to the explicit expression of rotor profile and the corresponding numerical simulation, verifying the validity of the proposed approach. For demonstration purpose, the virtual linkage method is then extended to the generation of tooth profiles for the variants of Roots rotors with arc-cycloidal curves and arc-involute curves. Integrated with computer-aided design, computer-aided engineering and computer-aided manufacturing software platforms, as well as the three-dimensional printing technology, this article provides an efficient and intuitive approach for Roots rotor system design, analysis and development.
Highlights
Since the Roots brothers patented the Roots blower in 1860, this kind of rotor and its variants have been widely used as air dischargers for diesel engines, pumps and other equipments due to its capability of providing higher and greater air flow compared to a conventional pump
Since this linkage is constructed in an arbitrary configuration with point G, the trajectory of point G results in the dedendum curve K00 K10 of rotor 1; comparing with the inverse process presented in Figure 3, we find that this linkage has the equivalent function as rotor 2 for generating tooth profile
The virtual linkage method proposed in this article can further be applied to the tooth profile generation for Roots blowers with arc-cycloidal and arc-involute curves
Summary
Since the Roots brothers patented the Roots blower in 1860, this kind of rotor and its variants have been widely used as air dischargers for diesel engines, pumps and other equipments due to its capability of providing higher and greater air flow compared to a conventional pump. This article proposes an Assur-groupassociated virtual linkage method for generating the tooth profiles of Roots rotors of various types.
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