Seat recliner with easy entry release and method of manufacturing same

What is claimed is: 1. An adjustment apparatus for a vehicle seat that includes a seat base and a seat back that is pivotally connected to the seat base to pivot about an axis, the apparatus comprising a generally disc-shaped first adjustment mechanism including at least two plates that are rotatable relative to one another to provide for rotation of the seat back relative to the seat base about the axis, each of the plates of the first adjustment mechanism including an inner surface and an outer surface, wherein the outer surface of one of the plates includes a generally planar first interface, and a second, generally disc-shaped adjustment mechanism including at least two plates that are rotatable relative to one another to provide for rotation of the seat back about the axis, each of the plates of the second adjustment mechanism including an inner surface and an outer surface, wherein the outer surface of one of the plates includes a generally planar second interface, wherein the first and second adjustment mechanisms are mounted adjacent each other such that the first interface and the second interface abut, creating at least one contact location and creating a space between the plates at locations other than the abutting first and second interfaces, and the space between the plates is unobstructed in a radial direction from the outer perimeters of the plates to at least one of the contact locations between the first interface and the second interface, such that the first and second adjustment mechanisms are coaxially joined at the first interface and second interface by radial laser welding without the weld beam striking the plates at locations other than the at least one contact location between the first interface and the second interface. 2. The adjustment apparatus of claim 1 wherein the first adjustment mechanism is an easy entry adjustment mechanism which provides for rotation of the seat back about said axis from a use position to a forwardly folded, non-use position to allow access to an area behind the seat, and wherein the second adjustment mechanism is a seat back inclination adjustment mechanism which provides for rotation of the seat back about said axis to a variety of selectable angles of inclination relative to the seat base. 3. The adjustment apparatus of claim 1 wherein the first interface and the second interface defines a weld surface that extends as a continuous band surrounding said axis. 4. The adjustment apparatus of claim 1 wherein the first interface and the second interface defines a weld surface that extends as a discontinuous band surrounding said axis. 5. A vehicle seat comprising: a seat base; a seat back that is pivotally connected to the seat base to pivot about an axis; generally disc-shaped first adjustment mechanism including at least two plates that are rotatable relative to one another to provide for rotation of the seat back about said axis, each of the plates of the first adjustment mechanism including an inner surface and an outer surface, wherein the outer surface of one of the plates includes a generally planar first interface; and generally disc-shaped second adjustment mechanism including at least two plates that are rotatable relative to one another to provide for rotation of the seat back about said axis, each of the plates of the second adjustment mechanism including an inner surface and an outer surface, wherein the outer surface of one of the plates includes a generally planar second interface, wherein the first and second adjustment mechanisms are mounted adjacent each other such that the first interface and the second interface abut, creating at least one contact location and creating a space between the plates at locations other than the abutting first and second interfaces, and wherein the space between the plates is unobstructed in a radial direction from the outer perimeters of the plates to at least one of the contact locations between the first interface and the second interface, and wherein the first adjustment mechanism and the second adjustment mechanism are coaxially joined at the first interface and second interface by radial laser welding without the weld beam striking the plates at locations other than the at least one contact location between the first interface and the second interface. 6. The vehicle seat of claim 5 wherein the first adjustment mechanism is an easy entry adjustment mechanism which provides for rotation of the seat back about said axis from a use position to a forwardly folded, non-use position to allow access to an area behind the seat, and wherein the second adjustment mechanism is a seat back inclination adjustment mechanism which provides for rotation of the seat back about said axis to a variety of selectable angles of inclination relative to the seat base. 7. The vehicle seat of claim 5 wherein the first interface and the second interface defines a weld surface that extends as a continuous band surrounding said axis. 8. The vehicle seat of claim 5 wherein the first interface and the second interface defines a weld surface that extends as a discontinuous band surrounding said axis. 9. A method of manufacturing an adjustment apparatus for a vehicle seat including: providing a first adjustment mechanism including at least two plates that are rotatable relative to one another to provide for rotation of the seat back about a fixed axis, each of the plates of the first adjustment mechanism including an inner surface and an outer surface; providing a generally planar first interface on at least one outer surface of one of the first adjustment mechanism plates; providing a second adjustment mechanism including at least two plates that are also rotatable relative to one another to provide for rotation of the seat back about said axis, each of the plates of the second adjustment mechanism including an inner surface and an outer surface; providing a generally planar second interface on at least one outer surface of one of the second adjustment mechanism plates; mounting the first and second adjustment mechanisms adjacent each other such that the first interface and the second interface abut, creating at least one contact location and creating a space between the plates at locations other than the abutting first and second interfaces, and the space between the plates is unobstructed in a radial direction from the outer perimeters of the plates to at least one of the contact locations between the first interface and the second interface; and coaxially joining the first and second adjustment mechanisms by radial laser welding the mechanisms at the first interface and second interface without the weld beam striking the plates at locations other than the at least one contact location between the first interface and the second interface. 10. The method of claim 9 further including the steps of: mounting each of the first and second adjustment mechanisms on a rotating fixture for rotation about said axis; mounting a laser such that the path of the laser beam is directed radially at the contact location of the first interface and the second interface; powering the laser so that the beam strikes at the peripheral edges of the first interface and the second interface to weld the plates at the first and second interfaces; and rotating the fixture such that the laser beam strikes the first interface and second interface about the entire circumference of the rotating mechanisms.