Dual input bump alignment assembly for an imaging device

What is claimed is: 1. An alignment assembly for aligning a media sheet to a media feed path in an imaging device, the alignment assembly comprising: a first and a second media guide spaced apart from each other along the media path allowing a media sheet to pass therebetween, the first and second media guides having opposed first and second media guide surfaces, respectively, forming a bubble chamber therebetween; the bubble chamber having an entrance having a predetermined width W 1 and an exit having a predetermined width W 2 positioned downstream of the entrance in a media process direction; a first and a second media feed roll pair positioned upstream of the entrance to the bubble chamber along respective first and second input portions of the media path and positioned immediately adjacent to the entrance of the bubble chamber, the first and second media feed roll pairs forming a first and a second feed nip positioned within the width W 1 of the entrance, respectively, separated from one another by a distance D that is equal to or less than the width W 1 , allowing a media sheet travelling along each of the first input portion and the second input portion of the media path and received at the respective first and second feed nip to be fed directly into the entrance of the bubble chamber and toward the exit thereof; and, a bump alignment roll pair positioned along the media path downstream of and adjacent to the exit of the bubble chamber and forming a bump align nip adjacent to the exit for receiving the leading edge of the received media sheet, wherein, as the received media sheet is fed from one of the first and the second feed nips directly into the bubble chamber and into contact with the bump align nip, one of the first and the second media guide surfaces contacts and buckles a portion of the received media sheet disposed inside the bubble chamber forming a bubble in the portion of the media sheet within the bubble chamber allowing the leading edge of the received media sheet to be aligned with the bump align nip; and, further wherein, the first media guide surface has an entry surface, an exit surface, and a biasing surface connecting the entry and exit surfaces, the biasing surface positioned approximately midway between the bump alignment roll pair and the two media feed roll pairs, the entry surface being substantially planar and forming an obtuse angle with a centerline of the bump align nip for directing a media sheet being fed from the first media feed roll pair toward the second media guide surface, the exit surface having a substantially planar convex shape facing the second guide surface so that a leading edge of a media sheet being fed from the second media feed roll pair strikes the exit surface at an acute angle, the exit surface forming a generally obtuse angle with the centerline of the bump align nip, and the biasing portion biasing the media sheet, when buckling, away from the first media guide surface and into the bubble chamber. 2. The alignment assembly of claim 1 , wherein the second media guide surface has an entry surface, an exit surface, and a biasing surface connecting the entry and exit surfaces, the biasing surface positioned approximately midway between the bump alignment roll pair and the two media feed roll pairs, the entry and exit surfaces being substantially planar, the entry surface forming an obtuse angle with a centerline of the bump align nip for directing a media sheet being fed from the second media feed roll pair toward the first media guide surface, the exit surface forming an obtuse angle with the centerline of the bump align nip for directing a media sheet being fed from the first media feed roll pair into the bump align nip, and the biasing portion biasing the media sheet being fed from the second feed nip, when budding, away from the second media guide surface and into the bubble chamber. 3. The alignment assembly of claim 1 , wherein the first and second media guide surfaces each have a plurality of spaced, parallel ribs extending therefrom into the bubble chamber. 4. The alignment assembly of claim 1 , wherein the exit surface of the first media guide surface has an extension surface positioned upstream of the exit of the bubble chamber to direct a leading edge of a media sheet fed from the second media feed roll pair into a roll of the bump alignment roll pair that is opposite to the first guide. 5. The alignment assembly of claim 4 , wherein the extension surface of the exit surface of the first media guide surface forms an acute angle with a tangent line drawn at a point of contact of the leading edge of the media at the roll of the bump alignment pair that is opposite to the first guide. 6. The alignment assembly of claim 2 , wherein the exit surface of the second media guide surface has an extension surface positioned upstream of the exit of the bubble chamber to direct a leading edge of the media sheet being fed from the first media feed roll pair into a roll of the bump alignment roll pair that is opposite to the second guide member. 7. The alignment assembly of claim 6 , wherein the extension surface of the exit surface of the second media guide surface forms an acute angle with a tangent line drawn at a point of contact of the leading edge of the media at the roll of the bump alignment pair that is opposite to the first guide. 8. The alignment assembly of claim 1 , wherein the bump align nip and the first and second fed nips form a triangle wherein the bump align nip is an apex of the triangle and the first and second feed nips form a first and second vertex of a base of the triangle, and, further wherein, an altitude drawn from the apex does not intersect with either of the first and second vertices. 9. An alignment assembly for aligning a media sheet to a media feed path in an imaging device, the alignment assembly comprising: a first and a second media guide spaced apart from each other along the media path allowing a media sheet to pass therebetween, the first and second media guides having opposed first and second media guide surfaces, respectively, forming a bubble chamber therebetween; the bubble chamber having an entrance having a predetermined width W 1 and an exit having a predetermined width W 2 positioned downstream of the entrance in a media process direction; a first and a second media feed roll pair positioned upstream of the entrance to the bubble chamber along respective first and second input portions of the media path and positioned immediately adjacent to the entrance of the bubble chamber, the first and second media feed roll pairs forming a first and a second feed nip, respectively, separated from one another by a distance D that is equal to or less than the width W 1 , allowing a media sheet travelling along each of the first input portion and the second input portion of the media path and received at the respective first and second fed nip to be fed directly through the entrance of the bubble chamber and toward the exit thereof; and, a bump alignment roll pair positioned along the media path downstream of and adjacent to the exit and forming a bump align nip adjacent to the exit for receiving the leading edge of the received media sheet, wherein the first and second media feed roll pairs and the bump alignment roll pair, respectively, form a triangle with the bump alignment feed roll pair at a downstream apex of the triangle and the first and second media feed roll pairs at an upstream base of the triangle such that the triangle substantially encloses the bubble chamber, and, as the received media sheet is directly fed from one of the first and second transfer nips into the bubble chamber and into contact with the bump align nip at the downstream apex of