Closing mechanism for an airflow outlet of an HVAC airflow distribution module

What is claimed is: 1. A heating, ventilation, and air conditioning (HVAC) airflow distribution module with an outlet closing mechanism for a vehicle comprising: a driver face airflow outlet of a HVAC case having a center face outlet portion and a side face outlet portion; a passenger face airflow outlet of the HVAC case having a center face outlet portion and a side face outlet portion; a telescoping door sub-assembly mounted over the passenger face airflow outlet, the telescoping door sub-assembly is movable between a retracted position at which the telescoping door sub-assembly does not obstruct the passenger face airflow outlet, and movable to any one of a plurality of extended positions at which the telescoping door sub-assembly obstructs the side face outlet portion of the passenger face airflow outlet or both the side face outlet portion and the center face outlet portion of the passenger face airflow outlet at different airflow blocking levels, the telescoping door sub-assembly including a plurality of panels, adjacent ones of the plurality of panels are in nesting cooperation with each other; and a door driving mechanism in cooperation with the telescoping door sub-assembly to move the telescoping door sub-assembly between the retracted position and any one of the plurality of extended positions. 2. The HVAC airflow distribution module of claim 1 , wherein the plurality of panels are arranged such that adjacent ones of the plurality of panels slide against one another as the telescoping door sub-assembly moves between the retracted position and any one of the plurality of extended positions; and the panels are arranged at different layers doors are fully retracted. 3. The HVAC airflow distribution module of claim 2 , wherein at least one of the plurality of panels includes a post seated within a channel defined by another one of the plurality of panels, the post slides within the channel as the telescoping door sub-assembly moves between the retracted position and any one of the plurality of extended positions. 4. The HVAC airflow distribution module of claim 2 , wherein: the plurality of panels include at least a first panel, a second panel, and a third panel; the second panel is between the first panel and the third panel; the first panel sits at a bottom layer of the plurality of panels and defines a pair of first channels in receipt of a pair of second posts of the second panel; the second panel sits at a middle layer and defines a pair of second channels in receipt of a pair of third posts of the third panel; and the third panel sits at a top layer and defines a pair of posts to engage with the pair of channels on the second panel. 5. The HVAC airflow distribution module of claim 4 , wherein the first panel cooperates directly with the door driving mechanism, the door driving mechanism directly engages with either a top portion or a bottom portion of the first panel to coordinate with different vehicle environment requirements. 6. The HVAC airflow distribution module of claim 4 , wherein the first panel includes a worm coupler in cooperation with a worm of a worm drive included with the door driving mechanism. 7. The HVAC airflow distribution module of claim 1 , wherein the door driving mechanism includes: an actuator; and a worm drive mechanism driven by the actuator, the worm drive mechanism includes a driving spur gear rotated by the servo, a driven spur gear meshed with the driving spur gear, and a worm that rotates with the driven spur gear and is in cooperation with the telescoping door sub-assembly. 8. The HVAC airflow distribution module of claim 7 , wherein the worm extends across the side outlet and the center outlet of the passenger face airflow outlet. 9. The HVAC airflow distribution module of claim 8 , wherein teeth of the telescoping door sub-assembly mesh with the worm; and wherein rotation of the worm moves the telescoping door sub-assembly between the retracted position and any one of the plurality of extended positions. 10. An adaptor configured to be attached to a heating, ventilation, and air conditioning (HVAC) airflow distribution module for a vehicle, the adaptor comprising: a driver face airflow outlet defined by an upper case of the adaptor including a side portion and a center portion to be respectively seated over a side outlet and a center outlet of a driver face airflow outlet of the HVAC airflow distribution module; a passenger face airflow outlet defined by the upper case of the adaptor including a side portion and a center portion to be respectively seated over a side outlet and a center outlet of a passenger face airflow outlet of the HVAC airflow distribution module; a door driving mechanism coupled to the upper case at the passenger airflow outlet defined by the upper case; a telescoping door sub-assembly between the upper case and the door driving mechanism, the telescoping door sub-assembly movable between a retracted position at which the telescoping door sub-assembly does not obstruct the passenger face airflow outlet, and movable to any one of a plurality of extended positions at which the telescoping door sub-assembly obstructs the side portion of the passenger face airflow outlet or both the side portion and the center portion of the passenger face airflow outlet at different airflow blocking levels, the telescoping door sub-assembly including a plurality of panels, adjacent ones of the plurality of panels are in nesting cooperation with each other; and the door driving mechanism cooperates with the telescoping door sub-assembly to move the telescoping door sub-assembly between the retracted position and any one of a plurality of extended positions. 11. The adaptor of claim 10 , further comprising coupling members that couple the door driving mechanism to the HVAC airflow distribution module. 12. The adaptor of claim 10 , further comprising adaptor coupling members that couple a lower case to the upper case. 13. The adaptor of claim 10 , wherein the door driving mechanism includes an actuator mounted to the adaptor and a worm drive driven by the actuator, the telescoping door sub-assembly is moved between the retracted position and any one of the plurality of extended positions by the worm drive. 14. The adaptor of claim 13 , wherein the worm drive includes: a driving spur gear rotated by the servo, a driven spur gear meshed with the driving spur gear, and a worm that rotates with the driven spur gear and is in cooperation with the telescoping door sub-assembly. 15. The adaptor of claim 14 , wherein the worm is mounted to a lower case, or between the upper case and the lower case. 16. The adaptor of claim 14 , wherein teeth of the telescoping door sub-assembly mesh with the worm; and wherein rotation of the worm moves the telescoping door sub-assembly between the retracted position and any one of the plurality of extended positions. 17. The adaptor of claim 10 , wherein the plurality of panels are arranged at different layers such that adjacent ones of the plurality of panels slide against one another as the telescoping door sub-assembly moves between the retracted position and any one of the plurality of extended positions, at the retracted position the plurality of panels only occupy a single-layer space. 18. The adaptor of claim 17 , wherein at least one of the plurality of panels includes a post seated within a channel defined by another one of the plurality of panels, the post slides within the channel as the telescoping door sub-assembly moves between the retracted position an