Corn harvester

The invention claimed is: 1. A harvester configured to travel along a ground surface to harvest crops, the harvester comprising: a main frame portion having a first main frame end and a second main frame end; a first side frame portion including a first end rotatably coupled to the first main frame end, and a second end spaced from the first end, the first side frame portion rotatable about the main frame between a deployed position in which the first side frame portion is positioned adjacent the ground surface and the first main frame end, and a stowed position in which the first side frame portion is positioned vertically above the first main frame and is spaced from the ground surface; a first crop divider coupled to the second end of the first side frame portion, the first crop divider rotatable between a raised position in which the first crop divider is oriented at a first angle with respect to the ground surface while the first side frame portion is in the deployed position, and a lowered position in which the first crop divider is oriented at a second angle with respect to the ground surface while the first side frame portion is in the deployed position, the first angle being greater than the second angle; a first biasing member configured to bias the first crop divider into the raised position; a second side frame portion including a first end rotatably coupled to the main frame portion at the second main frame end, and a second end spaced from the first end, the second side frame rotatable about the main frame end between a deployed position in which the second side frame is positioned adjacent the ground surface and the second main frame end, and a stowed position in which the first side frame is positioned vertically above the main frame and is spaced from the ground surface; a second crop divider coupled to the second end of the second side frame portion, the second crop divider rotatable between a raised position in which the second crop divider is oriented at a third angle with respect to the ground surface while the second side frame portion is in the deployed position and a lowered position in which the second crop divider is oriented at a fourth angle with respect to the ground surface while the second side frame portion is in the deployed position, the third angle being greater than the fourth angle; and a second biasing member configured to bias the second crop divider into the raised position, wherein during movement of the first side frame portion into the stowed position, the first crop divider is configured to be moved into the lowered position against the biasing force of the first biasing member, and wherein during movement of the second side frame portion into the stowed position, the second crop divider is moved into the lowered position against the biasing force of the second biasing member. 2. The harvester of claim 1 , further comprising a first retaining element configured to retain the first crop divider in the lowered position while the first retaining element engages the first crop divider, and a second retaining element configured to retain the second crop divider in the lowered position while the second retaining element engages the second crop divider. 3. The harvester of claim 1 , further comprising a hopper configured to retain harvested crop and an auger configured to rotate to move harvested crop toward the hopper. 4. The harvester of claim 3 , further comprising a first rotary stalk lifter coupled to the first side frame portion adjacent to the first crop divider, the first rotary stalk lifter configured to rotate to move harvested crop toward the auger. 5. The harvester of claim 4 , further comprising a second rotary stalk lifter coupled to the second side frame portion adjacent to the second crop divider, the second rotary stalk lifter configured to rotate to move harvested crop toward the auger. 6. The harvester of claim 1 , wherein a portion of the first crop divider is configured to contact the main frame portion while the first side frame portion is moved into the stowed position, such that the main frame portion moves the first crop divider into the lowered position against the bias of the first biasing member. 7. The harvester of claim 6 , wherein a portion of the second crop divider is configured to contact the main frame portion while the second side frame portion is moved into the stowed position, such that the main frame portion moves the second crop divider into the lowered position against the bias of the second biasing member. 8. The harvester of claim 6 , wherein the first crop divider is configured to be moved to the raised position by the first biasing member and is configured to be moved to the lowered position by contact with the main frame portion, and wherein moving the first crop divider between the raised position and the lowered position does not require any input from an operator, and wherein the second crop divider is configured to be moved to the raised position by the second biasing member and is configured to be moved to the lowered position by contact with the main frame portion, and wherein moving the second crop divider between the raised position and the lowered position does not require any input from an operator. 9. The harvester of claim 7 , wherein the first rotary stalk lifter is coupled to the first crop divider such that the first rotary stalk lifter moves with the first crop divider between a lowered position and a raised position, and wherein the second rotary stalk lifter is coupled to the second crop divider such that the second rotary stalk lifter moves with the second crop divider between a lowered position and a raised position. 10. The harvester of claim 1 , wherein the first biasing member is a first gas strut having a first end coupled to the first side frame portion and a second end coupled to the first crop divider, and wherein the second biasing member is a second gas strut having a first end coupled to the second side frame portion and a second end coupled to the second crop divider. 11. A harvester comprising: a frame configured to travel along a ground surface, the frame including a first end and a second end spaced from the first end; at least one crop engaging implement coupled to the frame, the at least one crop engaging implement configured to harvest crops as the main frame travels along the ground surface; a hopper coupled to the frame, the hopper configured to retain harvested crops; a first crop divider coupled to the first end of the frame, the first crop divider moveable between a raised position in which the first crop divider is oriented at a first angle with respect to the ground surface, and a lowered position in which the first crop divider is oriented at a second angle with respect to the ground surface, the first angle being greater than the second angle; a first biasing member configured to bias the first crop divider into the raised position; a first rotary stalk lifter coupled to the frame adjacent the first end, the first rotary stalk lifter configured to rotate to move harvested crops toward the hopper; a second crop divider coupled to the second end of the frame, the second crop divider moveable between a raised position in which the second crop divider is oriented at a third angle with respect to the ground surface, and a lowered position in which the second crop divider is oriented at a fourth angle with respect to the ground surface, the third angle being greater than the fourth angle; a second biasing member configured to bias the second crop divider into the raised position; and a second rotary stalk lifter coupled to the frame adjacent the second end, the second