Active front deflector

What is claimed is: 1 . An active front deflector assembly for a vehicle, comprising: at least one deflector panel, where the deflector panel selectively deploys and retracts between a deployed position and a stowed position, where the deployment of the deflector panel improves aerodynamics; at least two linkage assemblies attached to the deflector panel and to the vehicle, each linkage assembly forming a trapezium shape when in the deployed position; a drive shaft operably coupled to the at least two linkage assemblies wherein the drive shaft transmits the drive from one linkage assembly to the other; and an actuator operably coupled to the linkage assemblies, where the actuator is in communication with the vehicle and deploys and retracts the deflector panel under predetermined conditions. 2 . The active front deflector assembly of claim 1 , wherein the deflector panel is semi-rigid with a rigid upper spine, to absorb impact energy. 3 . The active front deflector assembly of claim 2 , wherein when in the deployed position during vehicle movement the rigid upper spine is not in the air flow. 4 . The active front deflector assembly of claim 1 , wherein the actuator correlates with vehicle communication networks for commanding operation of the actuator based upon predetermined conditions. 5 . The active front deflector assembly of claim 4 , wherein the predetermined conditions are selected from the group consisting of vehicle speed, wind direction, yaw, and combinations thereof. 6 . The active front deflector assembly of claim 5 , wherein the predetermined condition for deploying the deflector panel is vehicle speed in the range of at least 30 miles per hour. 7 . The active front deflector assembly of claim 1 , wherein the predetermined condition for retracting the deflector panel is vehicle speed in the range of less than 30 miles per hour and/or when the actuator senses higher than desired predetermined loads. 8 . The active front deflector assembly of claim 1 , wherein the actuator senses current spike upon impact at a predetermined force causing circuit override for declutching so that the deflector panel moves freely out of the way to prevent damage. 9 . The active front deflector assembly of claim 1 , wherein the at least two linkage assemblies each further comprise: a coupler link, where the coupler link is attached to an upper spine of the deflector panel; a fixed base link, where the fixed base link is attached to the vehicle; a drive link pivotably connected to the coupler link and fixed base link; and a follower link pivotably connected to the coupler link and fixed base link; where the coupler link, drive link, follower link, and fixed base link are at predetermined angles and ratios to each other to move the deflector panel between the deployed and retracted position. 10 . The active front deflector assembly of claim 9 , wherein, when in the deployed position, the angle between the fixed base link and drive link in the deployed position is 75-85 degrees. 11 . The active front deflector assembly of claim 10 , wherein the length of the fixed base link is two times the length of the coupler link, and, the drive link is three times the length of the coupler link, and, the follower link is 3.875 times the length of the coupler link. 12 . The active front deflector assembly of claim 11 , wherein the actuator has object detection and declutches upon impact at a predetermined force the deflector panel to rotate freely out of the way to prevent damage, wherein this motion is achieved with the geometry of the linkage systems and the ratio of the links to each other. 13 . The active front deflector assembly of claim 9 , wherein the actuator is operably connected to the drive shaft which is attached to the drive links and fixed base links of the at least two linkage assemblies, where rotation of the drive shaft rotates the drive links upward causing the follower and coupler links up and the deflector panel to rise and fold back to the retracted position, and wherein rotation of the drive shaft in the opposite direction rotates the drive links downward causing the follower and coupler links down and the deflector panel to lower and extend into the deployed position. 14 . The active front deflector assembly of claim 9 , wherein each coupler link has a mounting portion connected to a rigid upper spine portion of the deflector panel with at least one fastener. 15 . The active front deflector assembly of claim 11 , further comprising at least one attachment bracket connected to each of the linkage assemblies, wherein the attachment brackets connect the active front assembly to the vehicle using at least one fastener. 16 . An active front deflector assembly for a motor vehicle, comprising: at least one deflector panel including a semi-rigid portion and a rigid upper spine portion, where the deflector panel selectively deploys and retracts between a deployed position within an air flow and a stowed position out of the air flow, where the deployment of the deflector panel improves aerodynamics; at least two linkage assemblies attached to the rigid upper spine of the deflector panel and connected to the vehicle, each linkage assembly forming only a trapezium shape when in the deployed position; and an actuator including a drive shaft operably coupled to the at least two linkage assemblies, where the actuator has object detection and is in communication with the vehicle and automatically deploys the deployable panel under predetermined conditions and automatically retracts the deployable panel when predetermined conditions for continued deployment are no longer met; wherein the predetermined conditions are selected from the group consisting of vehicle speeds, forces/loads, wind directions, yaw, and combinations thereof. 17 . The active front deflector assembly of claim 16 , wherein the at least two linkage assemblies each further comprise: a coupler link, where the coupler link is attached to the upper spine of the deflector panel; a fixed base link, where the fixed base link is attached to the vehicle; a drive link pivotably connected to the coupler link and fixed base link; and a follower link pivotably connected to the coupler link and fixed base link; wherein, when in the deployed position, the angle between the fixed base link and drive link in the deployed position is 75-85 degrees, and, the length of the fixed base link is about two times the length of the coupler link, and, the drive link is about three times the length of the coupler link, and, the follower link is about 3.875 times the length of the coupler link. 18 . The active front deflector assembly of claim 17 , wherein the actuator has object detection and declutches upon impact at a predetermined force the deflector panel to rotate freely out of the way to prevent damage, wherein this motion is achieved with the geometry of the linkage systems and the ratio of the links to each other. 19 . The active front deflector assembly of claim 17 , further comprising at least one tab located on the drive links that acts as a stop in the retracted position by coming into contact with a respective upper raised segment of the follower link. 20 . An active front deflector assembly for a vehicle, comprising: at least one deflector panel selectively deployable and retractable between a deployed downward position and a stowed upward position, where the deployment of the deflector panel reduces drag and improves aerodynamics;