Simplified lever handing apparatus

What is claimed is: 1. A lever handing apparatus comprising: a spring cage housing having a first wall with a through aperture formed therein and an outer rim extending from the first wall; a lever spindle connected to the spring cage housing, wherein the lever spindle includes a body portion with a shaft extending through the through aperture of the first wall of the spring cage housing; an escutcheon housing with a front wall extending to a perimeter wall formed about the front wall; an aperture formed through the front wall of the escutcheon housing configured to receive a portion of the shaft of the lever spindle therethrough; a lever handle positioned on a side of the escutcheon housing opposite of the spring cage housing, wherein the lever handle is connected to the portion of the shaft of the lever spindle extending through the aperture of the escutcheon housing; a resilient member positioned about the shaft of the lever spindle, the resilient member engageable between the spring cage housing and the escutcheon housing; wherein actuation of the lever handle causes the spring cage housing to selectively rotate about an axis of rotation and move in an axial direction between a first position and a second position relative to the escutcheon housing when connected to the lever handle through the aperture of the escutcheon housing; wherein the escutcheon housing includes at least one a hutment protruding inwardly from the perimeter wall; and wherein the outer rim of the spring cage housing includes at least one recessed portion protruding radially inward and complementary to the at least one abutment of the perimeter wall of the escutcheon housing. 2. The apparatus of claim 1 , further comprising: a back plate connectable to the escutcheon housing to enclose the spring cage housing, at least a portion of the lever spindle, and the resilient member between the escutcheon housing and the back plate. 3. The apparatus of claim 1 , wherein the lever spindle is rotatable relative to the spring cage housing when the spring cage housing is in the first position. 4. The apparatus of claim 1 , wherein the resilient member is operable to urge the spring cage housing into the first position to axially align the at least one recessed portion of the outer rim with the at least one abutment of the perimeter wall. 5. The apparatus of claim 1 , wherein the spring cage housing is prevented from rotating relative to the escutcheon housing in the first position when the at least one abutment and the at least one protrusion are axially aligned. 6. The apparatus of claim 1 , wherein when the spring cage housing is in the second position, the at least one recessed portion of the spring cage housing and the at least one abutment of the perimeter wall of the escutcheon housing are not axially aligned such that the spring cage housing is rotatable relative to the escutcheon housing. 7. The apparatus of claim 1 , wherein a lever handing of the lever handle is changeable between a left hand orientation and right hand orientation by rotating the spring cage housing approximately 180 degrees when the spring cage housing is in the second position. 8. The apparatus of claim 1 , wherein when the lever handle is actuated, a force transmitted through the lever spindle urges movement of the spring cage housing toward the second position. 9. A method comprising: connecting a lever spindle to a spring cage housing; inserting a portion of a shaft of the lever spindle through an aperture of an escutcheon housing; connecting a lever handle to the shaft of the lever spindle on a side of the escutcheon housing opposite to a side on which the spring cage housing is located; gripping the lever handle; pulling, the lever handle in first axial direction along an axis of rotation; moving the spring cage housing in the first axial direction from a first position to a second position such that the spring cage housing moves towards the escutcheon housing in response to the pulling; rotating the lever handle approximately 180 degrees about the axis of rotation to change a lever handing orientation of the lever handle; urging the spring cage housing to move in a second axial direction along the axis of rotation from the second position to the first position; and locking the spring cage housing with respect to the escutcheon housing to prevent rotation of the spring cage housing relative to the escutcheon housing when the spring cage housing is in the first position. 10. The method of claim 9 , wherein the locking of the spring cage housing includes axially aligning at least one recessed portion projecting radially inwardly from an outer rim of the spring cage housing with at least one protrusion projecting inward from a perimeter wall of the escutcheon housing. 11. The method of claim 9 , wherein the locking includes at least one pin projecting from the spring cage assembly to selectively engage with a back plate coupled with the escutcheon housing.