Elastomer series coupling damper for supercharger

What is claimed is: 1. A coupling assembly arranged between an input shaft and a rotor shaft of a supercharger, the coupling assembly comprising: a first hub mounted for concurrent rotation with the input shaft; a second hub mounted for concurrent rotation with the rotor shaft; a first side coupling assembly having a first side coupling body and a first side elastomeric insert, the first side coupling body including an outboard body portion and an inboard body portion, the outboard body portion including diametrically opposed inner and outer cylindrical walls that define a pocket that receives the first side elastomeric insert, the first side coupling assembly defining a first plurality of openings therein; a second side coupling assembly having a second side coupling body and a second side elastomeric insert, the second side coupling body including an outboard body portion and an inboard body portion, the outboard body portion including diametrically opposed inner and outer cylindrical walls that define a pocket that receives the second side elastomeric insert, the second side coupling assembly defining a second plurality of openings therein; a central hub disposed intermediate the first and second side coupling assemblies, the central hub defining central hub bores therein; and a plurality of coupler pins received in the central hub bores and extending on one end into the first plurality of openings and on a second end into the second plurality of openings; wherein the first and second side elastomeric inserts provide dampening between (i) the first side coupling body and the central hub and (ii) the second side coupling body and the central hub. 2. The coupling assembly of claim 1 wherein the first hub is configured to couple between the input shaft and the first side coupling assembly, the first hub having a first plurality of hub pins extending therefrom; and wherein the second hub is configured to couple between the rotor shaft and the second side coupling assembly, the second hub having a second plurality of hub pins extending therefrom. 3. The coupling assembly of claim 2 wherein the central hub further defines arcuate passages formed therein configured to at least partially receive the first hub pins and the second hub pins. 4. The coupling assembly of claim 3 wherein the plurality of openings of the first side coupling body have an oval shape and the first side elastomeric insert defines a plurality of openings having a circular shape. 5. The coupling assembly of claim 4 wherein the plurality of openings of the second side coupling body have an oval shape and the second side elastomeric insert defines a plurality of openings having a circular shape. 6. The coupling assembly of claim 5 wherein the plurality of coupler pins and the first plurality of hub pins are permitted to travel within the boundary of the oval openings in the first side coupling body while the first side elastomeric insert absorbs torsional loads. 7. The coupling assembly of claim 6 wherein the plurality of coupler pins and the second plurality of hub pins are permitted to travel within the boundary of the oval openings in the second side coupling body while the second side elastomeric insert absorbs torsional loads. 8. The coupling assembly of claim 7 wherein the first and second side elastomeric inserts are formed of molded rubber. 9. The coupling assembly of claim 2 wherein: the first side elastomeric insert provides parallel damping for the first side coupling assembly as it absorbs rotational energy from the coupler pins; the second side elastomeric insert provides parallel damping for the second side coupling assembly as it absorbs rotational energy from the coupler pins; and the first side coupling assembly and the second side coupling assembly cooperate to provide series dampening along the coupler pins along opposite sides of the central hub. 10. The coupling assembly of claim 1 wherein the first and second side coupling bodies are formed of glass-filled molded nylon. 11. A coupling assembly arranged between an input shaft and a rotor shaft of a supercharger, the coupling assembly comprising: a first hub mounted for concurrent rotation with the input shaft; a second hub mounted for concurrent rotation with the rotor shaft; a first side coupling assembly having a first side coupling body and a first side elastomeric insert, the first side coupling assembly defining at least a first opening therein; a second side coupling assembly having a second side coupling body and a second side elastomeric insert, the second side coupling assembly defining at least a second opening therein, wherein the first side coupling body and the second side coupling body both include (i) an outboard body portion having a cylindrical outer surface and (ii) an inboard body portion having a plurality of radially extending lobes; a central hub disposed intermediate the first and second side coupling assemblies; a first coupler pin extending on one end of the central hub into the first opening; and a second coupler pin extending on a second end of the central into the second opening; wherein the first and second side elastomeric inserts provide dampening between (i) the first side coupling body and the central hub and (ii) the second side coupling body and the central hub. 12. The coupling assembly of claim 11 wherein the first hub is configured to couple between the input shaft and the first side coupling assembly, the first hub having a first hub pin extending therefrom, wherein the second hub is configured to couple between the rotor shaft and the second side coupling assembly, the second hub having a second hub pin extending therefrom. 13. The coupling assembly of claim 12 wherein the central hub further defines arcuate passages formed therein configured to at least partially receive the first hub pin and the second hub pin. 14. The coupling assembly of claim 13 wherein the first side coupling body defines a plurality of openings having an oval shape and the first side elastomeric insert defines a plurality of openings having a circular shape. 15. The coupling assembly of claim 14 wherein the second side coupling body defines a plurality of openings having an oval shape and the second side elastomeric insert defines a plurality of openings having a circular shape. 16. The coupling assembly of claim 15 wherein the first coupler pin and first hub pin are permitted to travel within the boundary of the oval openings in the first side coupling body while the first side elastomeric insert absorbs torsional loads. 17. The coupling assembly of claim 16 wherein the second coupler pin and the second hub pin are permitted to travel within the boundary of the oval openings in the second side coupling body while the second side elastomeric insert absorbs torsional loads.