Door lock chassis assembly

What is claimed is: 1. An apparatus for a door lock chassis assembly, comprising: a housing; an actuation mechanism rotatably mounted to the housing and configured to be coupled with a handle; a biasing element engaged between the actuation mechanism and the housing, the biasing element configured to provide a biasing force urging the actuation mechanism toward a neutral position corresponding to an unactuated position of the handle; and a damper engaged between the biasing element and at least one of the actuation mechanism and the housing, wherein the damper is configured to absorb an impact force imparted against the damper by the biasing element as the actuation mechanism is rotatably displaced from a rotated position that corresponds to an actuated position of the handle to the neutral position and thereby provide a cushion between the biasing element and the at least one of the actuation mechanism and the housing; and wherein the biasing element includes a first arm and a second arm, wherein the actuation mechanism is positioned to press against and displace the first arm as the actuation mechanism is rotatably displaced from the neutral position to the rotated position, and wherein the first arm and the second arm are shaped and positioned to be displaced into direct contact with the damper as the biasing element returns the actuation mechanism to the neutral position. 2. The apparatus of claim 1 , wherein the biasing element is a torsion spring having a first end and a second end, wherein the first end includes the first arm, wherein the second end includes the second arm, and wherein each of the arms is in direct contact with the damper when the actuation mechanism is at the neutral position. 3. The apparatus of claim 2 , wherein the housing includes a rib, and wherein the damper includes a first segment and a second segment, the first segment positioned adjacent a first side of the rib, the second segment positioned adjacent a second side of the rib, wherein the second arm is engaged with the second segment when the actuation mechanism displaces the first arm in a first direction, and wherein the first arm is engaged with the first segment when the actuation mechanism displaces the second arm in a second direction. 4. The apparatus of claim 3 , wherein the actuation mechanism includes at least one retention segment and an actuation body, the at least one retention segment extending outwardly from the actuation body and positioned to retain the biasing element about an outer wall of the actuation body. 5. The apparatus of claim 1 , wherein the damper is constructed from an elastomeric material. 6. The apparatus of claim 5 , wherein the damper includes a main section, at least a portion of the main section positioned in an opening in the housing. 7. The apparatus of claim 1 , wherein the actuation mechanism has an opening sized to rotatably position the actuation mechanism about a hub of the housing. 8. The apparatus of claim 7 , further comprising a spindle rotatably mounted to the housing, wherein the spindle is rotatably supported in the hub of the housing, and wherein an end of the spindle is configured for engagement with the handle. 9. The apparatus of claim 1 , wherein the damper is mounted to the housing, wherein the actuation mechanism includes an actuation body, wherein the biasing element comprises a torsion spring having the first arm and the second arm, wherein with the actuation mechanism in the neutral position, the actuation body is aligned with the damper, the first arm is engaged with a first side of the damper, the second arm is engaged with an opposite second side of the damper, and wherein the actuation body is aligned with the damper and is positioned between the first and second arms. 10. An apparatus for biasing a position of a handle, comprising: a housing having a first side and a second side; an actuation plate rotatably coupled to the housing, the actuation plate rotatably displaceable in a first direction from a neutral position to a first actuation position and in second direction from the neutral position to a second actuation position, the first direction being opposite the second direction, the actuation plate including one or more engagement sections sized to directly or indirectly couple the actuation plate to the handle, the handle being in an unactuated position when the actuation plate is at the neutral positon and an actuated position when the actuation plate is at a rotated position away from the neutral position; a biasing element coupled to the actuation plate, the biasing element providing a biasing force that biases the actuation plate to the neutral position; and a damper constructed from a compliant material and positioned between at least one interface between the actuation plate and the housing, the damper being configured to absorb at least a portion of an impact force from contact of the biasing element with the damper as the actuation mechanism is rotatably displaced to the neutral position; and wherein the biasing element includes a first arm and a second arm, and wherein each of the arms is in direct contact with the damper as the biasing element returns the actuation mechanism to the neutral position. 11. The apparatus of claim 10 , wherein the one or more engagement sections outwardly extend from the actuation plate, and further including a spindle and a latch bolt, the spindle coupled to the latch bolt and extending through the housing, the spindle structured for coupling to the handle, the spindle being rotatably displaceable relative to the housing with rotational displacement of the handle. 12. The apparatus of claim 10 , wherein the housing includes a rib, the rib extending from a first side of the housing, and wherein the damper is constructed from an elastomer material and includes first and second segments that are positioned on opposite sides of the damper. 13. The apparatus of claim 12 , wherein the biasing element is a torsion spring that is positioned about a body portion of the actuation plate, the torsion spring having the first arm and the second arm positioned at opposite ends of the torsion spring, and wherein the actuation plate has an actuation body, the first arm and the actuation body providing a first interface that facilitates displacement of the first arm away from the second arm as the actuation plate is displaced in the first direction, the second arm being in engagement with the second segment at a second interface as the first arm is displaced with the actuation plate in the first direction, the second arm and the actuation body providing a third interface that facilitates the displacement of the second arm away from the first arm as the actuation plate is displaced in the second direction, the first arm being engaged with the first segment at a fourth interface as the second arm is displaced with the actuation plate in the second direction. 14. The apparatus of claim 13 , wherein the damper includes a main section, at least a portion of the main section positioned in an opening in the housing. 15. The apparatus of claim 14 , wherein the actuation plate has an opening sized to rotatably position the actuation plate about a hub of the housing. 16. An apparatus, comprising: a handle rotatably displaceable between an unactuated position and at least one actuated position; a housing having an aperture; an actuation plate having an actuation body and one or more engagement sections, the one or more engagement sections directly or indirectly coupled to the handle, the actuation plate rotatably displaceable from a neut