Continuous harvester with crop supply chamber

What is claimed is: 1. A harvester comprising: a pair of oppositely facing sidewalls; a pickup assembly; a bale chamber, positioned between the pair of sidewalls, comprising an crop inlet at the front end of the bale chamber, and an outlet at the rear end of the bale chamber; a crop supply chamber, positioned in front of the bale chamber, comprising a supply inlet at the bottom of the crop supply chamber and a movable control plate positioned for movement within the crop supply chamber; and a deflection system, positioned between the front of the crop inlet of the bale chamber and the pickup assembly, further positioned below the supply inlet of the crop supply chamber; wherein the deflection system comprises at least one deflection panel, operably connected to and capable of rotation around a pivot point, and a deflection actuator, operably connected to a controller and capable of rotating the deflection panel around the pivot point. 2. The harvester of claim 1 , wherein the deflection system further comprises a first and a second operable condition; wherein, in the first operable condition, the at least one deflection panel does not occlude the entry point of the bale chamber; and wherein, in the second operable condition, the at least one deflection panel does occlude the entry point of the bale chamber. 3. The harvester of claim 1 , wherein the crop supply chamber further comprises a front wall, a rear wall, and a storage volume; wherein the storage volume is defined by the space between the front wall, the rear wall, the pair of oppositely facing sidewalls, the control plate and the supply inlet. 4. The harvester of claim 3 , wherein the height of the crop supply chamber is substantially higher that its width, and at least a portion of the crop supply chamber is arced and adjacent to or substantially adjacent to the bale chamber; and wherein the control plate covers at least one horizontal plane of the crop supply chamber and its edges contact or are proximate to each of the front wall, rear wall, and sidewalls, such that the control plate defines a vertical or substantially vertical height of the storage volume past which stored crop material cannot be stored. 5. The harvester of claim 1 , wherein the crop supply chamber further comprises: a control arm pivot point, positioned between or on the pair of sidewalls; at least one control arm, operably connected to the control plate at one end and to the control arm pivot point at the other end; and at least one control arm actuator operably connected to the at least one control arm; wherein the control arm pivot point is positioned rearward of the storage volume; and wherein the control plate and control arms are capable of movement in an radial direction around the pivot point, by extension and retraction of the at least one control arm actuator. 6. The harvester of claim 5 , wherein the movement of the control plate and control arms by the at least one control arm actuator is capable of altering the shape of the storage volume, such that, when the control plate moves in a radially upward direction, the storage volume increases in size, and when the control plate moves in a radially downward direction, the storage volume decreases in size. 7. The harvester of claim 6 , wherein the crop supply chamber further comprises a first operable position, wherein, in the first operable position, the control plate is positioned at or proximate to the bottom of the front and rear walls, such that the control plate occludes the supply inlet of the crop supply chamber and the storage volume is at or about zero. 8. The harvester of claim 6 , wherein the crop supply chamber further comprises a second operable position, wherein, in the second operable position, the control plate is positioned at or proximate to the top of the front and rear walls, such that the control plate does not occlude the supply inlet of the crop supply chamber and the storage volume is at or about at a maximum volume. 9. The harvester of claim 6 , wherein the crop supply chamber further comprises a first and a second operable positions; wherein, in the first operable position, the control plate is positioned at or proximately to the bottom of the front and rear walls, such that the control plate occludes the supply inlet of the crop supply chamber and the storage volume is at or approximately zero; and wherein, in the second operable position, the control plate is positioned at or proximate to the top of the front and rear walls, such that the control plate does not occlude the supply inlet of the crop supply chamber and the storage volume is at or about at a maximum size. 10. The harvester of claim 6 , wherein the crop supply chamber further comprises a plurality of selectively operable positions in which the control plate may transition from a first height within the crop supply chamber to a second height within the crop supply chamber. 11. The harvester of claim 10 , wherein the at least one control arm actuator is mechanically linked to the at least one control arm at or proximate to the pivot point, such that movement of the at least one control arm actuator controls radial movement of the at least one control arm allowing transition between the plurality of operable positions. 12. The harvester of claim 10 , wherein transition between the plurality of operable positions of the crop supply chamber are synchronous or substantially synchronous to the movement of the control arm and the control plate, such that, when the crop supply chamber is in a first operable position, the control arm and control plate do not transition between at least two heights within the crop supply chamber; and, when the crop supply chamber transitions to one or a plurality of operable positions, the control arm and control plate move between at least two heights within the crop supply chamber. 13. The harvester of claim 12 , wherein transition between the plurality of operable positions of the crop supply chamber are synchronous or substantially synchronous to transitions between the operable conditions of the deflection system, such that, when the crop supply chamber is in a first operable position, the deflection system is in the first operable condition; and, when the crop supply chamber transitions to one or a plurality of operable positions, the deflection system is in its second operable mode. 14. The harvester of claim 9 , further comprising a series operable modes wherein, in a first operable mode, crop material is directed from the pickup assembly into the storage volume of the crop supply chamber when the deflection system is in the second operable condition and the crop supply chamber transitions from the first operable position to one or a plurality of operable positions; and wherein, in a second operable mode, crop material is displaced from the storage volume and directed into the bale chamber when the deflection system is in the first operable condition and the crop supply chamber transitions from the second operable position to the one or a plurality of operable positions. 15. The harvester of claim 1 , further comprising: a serpentine system arranged for the bale chamber, comprising a plurality of baling belt rollers in operable contact with one or more baling belts, the plurality of baling belts rollers comprising at least two lower baling belt rollers positioned on either side of the crop inlet of the bale chamber; a tailgate, capable of occluding the outlet of the bale chamber in a closed position and exposing the outlet of the bale chamber in one or more open positions; a cutting rotor, position bet