Harvester wing leveling configuration

What is claimed is: 1. A harvester comprising: a combine including a prime mover operable to move the combine over a ground surface in a direction of travel and a feeder house, the feeder house defining a centerline; and a harvesting platform connected to the combine for movement with the combine over the ground surface, the harvesting platform including a center section connected to the combine, the center section having a first side and a second side opposite the first side, the center section extending along a center section plane that is substantially perpendicular to the centerline of the feeder house, a first wing connected to the first side of the center section, the first wing being rotatable with respect to the center section within a first range of angular positions, a first locking mechanism configured to retain the first wing in a first position with respect to the center section while the first locking mechanism is activated and configured to permit movement of the first wing with respect to the center section while the first locking mechanism is deactivated, a second wing connected to the second side of the center section, the second wing being rotatable with respect to the center section within a second range of angular positions, a second locking mechanism configured to retain the second wing in a second position with respect to the center section while the second locking mechanism is activated and configured to permit movement of the second wing with respect to the center section while the second locking mechanism is deactivated, a controller configured to receive a first signal indicative of the first position and a second signal indicative of the second position, the controller configured to send a third signal to the first locking mechanism to deactivate the first locking mechanism in response to the first position being at a positive non-parallel angle with respect to the center section plane, and configured to send a fourth signal to the second locking mechanism to deactivate the second locking mechanism in response to the second position being at a positive non-parallel angle with respect to the center section plane, wherein the first wing is configured to move toward the center section plane in response to gravity while the first locking mechanism is deactivated, and wherein the second wing is configured to move toward the center section plane in response to gravity while the second locking mechanism is deactivated. 2. The harvester of claim 1 , wherein the controller is configured to send a fifth signal to the first locking mechanism to activate the first locking mechanism and to send a sixth signal to the second locking mechanism to activate the second locking mechanism in response to an operator selecting a transport operation of the harvester. 3. The harvester of claim 2 , wherein the controller is configured to continue sending the fifth signal to the first locking mechanism to maintain activation of the first locking mechanism in response to the first position being at a negative non-parallel angle with respect to the center section plane, and is configured to continue sending the sixth signal to the second locking mechanism to maintain activation of the second locking mechanism in response to the second position being at a negative non-parallel angle with respect to the center section plane. 4. The harvester of claim 2 , wherein the controller is configured to continue sending the fifth signal to the first locking mechanism to activate the first locking mechanism in response to the first position being substantially parallel to the center section plane, and is configured to continue sending the sixth signal to the second locking mechanism to activate the second locking mechanism in response to the second position being substantially parallel to the center section plane. 5. The harvester of claim 1 , wherein the first locking mechanism includes a first cylinder, a first accumulator and a first valve fluidly positioned between the first cylinder and the first accumulator. 6. The harvester of claim 5 , wherein while the first locking mechanism is activated, the first valve is closed to inhibit fluid flow between the first cylinder and the first accumulator and while the first locking mechanism is deactivated, the first valve is opened to permit fluid flow from the first cylinder to the first accumulator. 7. The harvester of claim 6 , wherein the second locking mechanism includes a second cylinder, a second accumulator and a second valve fluidly positioned between the second cylinder and the second accumulator. 8. The harvester of claim 7 , wherein while the second locking mechanism is activated, the second valve is closed to inhibit fluid flow between the second cylinder and the second accumulator and while the second locking mechanism is deactivated, the second valve is opened to permit fluid flow from the second cylinder to the second accumulator. 9. A harvesting platform configured to be coupled to a combine for movement with the combine over a ground surface in a direction of travel, the harvesting platform comprising: a center section connected to the combine, the center section having a first side and a second side opposite the first side, the center section extending along a center section plane that is substantially parallel to the ground surface; a first wing connected to the first side of the center section, the first wing being rotatable with respect to the center section within a first range of angular positions; a first locking mechanism configured to retain the first wing in a first position with respect to the center section while the first locking mechanism is activated and configured to permit movement of the first wing with respect to the center section while the first locking mechanism is deactivated; a second wing connected to the second side of the center section, the second wing being rotatable with respect to the center section within a second range of angular positions; a second locking mechanism configured to retain the second wing in a second position with respect to the center section while the second locking mechanism is activated and configured to permit movement of the second wing with respect to the center section while the second locking mechanism is deactivated; and a controller configured to receive a first signal indicative of the first position and a second signal indicative of the second position, the controller configured to send a third signal to the first locking mechanism to deactivate the first locking mechanism in response to the first position being at a positive non-parallel angle with respect to the center section plane, and configured to send a fourth signal to the second locking mechanism to deactivate the second locking mechanism in response to the second position being at a positive non-parallel angle with respect to the center section plane; wherein the first wing is configured to move toward the center section plane in response to gravity while the first locking mechanism is deactivated, and wherein the second wing is configured to move toward the center section plane in response to gravity while the second locking mechanism is deactivated. 10. The harvesting platform of claim 9 , wherein the controller is configured to send a fifth signal to the first locking mechanism to activate the first locking mechanism and to send a sixth signal to the second locking mechanism to activate the second locking mechanism in response to an operator selecting a transport operation of the combine. 11. The harvesting platform of claim 10 , wherein the controller is configured to continue sending the fifth signal to the first locki