Operation and Control of Bottom Floor Assembly

What is claimed is: 1 . A system comprising: a bottom floor assembly comprising: at least a first hydraulic cylinder; a bottom floor frame comprising at least one face comprising a concave curvature and extending laterally across the bottom floor assembly; and one or a plurality of bottom floor plates, covering the at least one face, and defining the concave curvature of a crop collection channel; at least a first rotation sensor, located on, within or proximate to the bottom floor assembly, said first rotation sensor configured to measure the rotation angle of the bottom floor frame; a controller, in operable communication and configured to process information from the at least first rotation sensor; and an operator interface, in electronic communication with the controller, configured to display information about the rotation angle of the bottom floor frame to an operator. 2 . The system of claim 1 , wherein the bottom floor frame is capable of a variable range of motion around at least a first pivot point. 3 . The system of claim 2 , wherein the operator interface is further configured to receive and/or store a first rotational limit and a first time limit. 4 . The system of claim 3 , wherein, when the bottom floor frame is rotated to an angle greater than or equal to the first rotational limit, and said rotation is maintained for a duration of time greater than or equal to the first time limit, the operator interface displays warning information about the rotation angle of the bottom floor frame. 5 . The system of claim 3 , further comprising a first and a second cutting knife unit supported by the bottom floor frame; wherein both the first and the second cutting knife units comprise at least one or a plurality of blades; wherein, when the first and/or the second cutting knife units are in a loaded position, the at least one or a plurality of blades of the first and/or the second cutting knife units pass through at least one or a plurality of slots in the bottom floor plate and partially protrude into the crop collection channel; and wherein the at least one or a plurality of blades of the first cutting knife unit do not interfere with the at least one or a plurality of blades of the second cutting knife unit. 6 . The system of claim 5 , further comprising at least a first knife unit placement sensor, located on, within or proximate to the bottom floor assembly and in operable communication with the controller, capable of detecting if the first and/or second cutting knife units are in their loaded positions. 7 . The system of claim 6 , wherein the operator interface displays knife information about position of the first and/or second cutting knife units. 8 . The system of claim 6 , wherein the at least first operator interface is further configured to receive and/or store a second and a third rotational limit and a second and a third time limit. 9 . The system of claim 8 , wherein, when the first knife unit or the second knife unit is in a loaded position, the bottom floor frame is rotated to an angle greater than or equal to the second rotational limit, and said rotation is maintained for a duration of time greater than or equal to the second time limit, the operator interface displays warning information about the rotation angle of the bottom floor frame. 10 . The system of claim 8 , wherein, when the first knife unit and the second knife unit are in loaded positions, the bottom floor frame is rotated to an angle greater than or equal to the third rotational limit, and said rotation is maintained for a duration of time greater than or equal to the third time limit, the operator interface displays warning information about the rotation angle of the bottom floor frame. 11 . The system of claim 1 , wherein the information is warning information displayed by the operator interface and said warning information comprises visual and/or audible communication. 12 . The system of claim 1 , wherein the first rotation sensor comprises: at least a first bracket mechanically linked to a sidewall; an angle position sensor fastened to the at least first bracket; and a potentiometer, operably connected to a the angle position sensor and rotatable around a first linear axis transverse to the sidewall; and wherein the angle position sensor is capable of detecting the rotation of the potentiometer. 13 . The system of claim 12 , wherein the first rotation sensor further comprises: a first linking member operably connected to the potentiometer; and a second linking member operably connected to the first linking member at a second pivot point, and operably connected to the bottom floor frame at a third pivot point; and wherein movement of the bottom floor frame around the first pivot point causes movement of the first linking member and the potentiometer around the first linear axis. 14 . A computer-implemented method of operating a harvester, in a system comprising a bottom floor assembly, at least a first rotation sensor, a controller, and an operator interface, said method comprising: (a) in the controller, receiving information on the rotational position of the bottom floor assembly from the at least first rotation sensor; (b) in the controller, sending an alert signal to the operator interface if the rotational position of the bottom floor assembly is greater than or equal to a first rotational limit for a continuous duration determined by a first time limit; and (c) in the operator interface, displaying visual and/or audible warning information if the alert signal is received from the controller. 15 . The computer-implemented method of claim 14 , wherein an operator inputs the first rotational limit and the first time limit at the operator interface prior to receiving information on the rotational position of the bottom floor assembly from the at least first rotation sensor. 16 . The computer-implemented method of claim 14 , wherein the system further comprises a first cutting knife unit, a second cutting knife unit, and at least a first knife unit placement sensor, capable of detecting if the first and/or second cutting knife units are in a loaded position; and wherein the method comprises: (a) in the controller, receiving information on the rotational position of the bottom floor assembly from the at least first rotation sensors; (b) in the controller, receiving information on the number of knife units in a loaded position from the at least first knife unit placement sensor; (c) in the controller, sending an alert signal to the operator interface if: (i) there are no knife units in a loaded position, the rotational position of the bottom floor assembly is greater than or equal to a first rotational limit for a continuous duration determined by a first time limit; or (ii) there is one knife unit in a loaded position, the rotational position of the bottom floor assembly is greater than or equal to a second rotational limit for a continuous duration determined by a second time limit; or (iii) there are two knife units in a loaded position, the rotational position of the bottom floor assembly is greater than or equal to a third rotational limit for a continuous duration determined by a third time limit; (d) in the operator interface, displaying visual and/or audible warning information if the alert signal is received from the controller. 17 . The computer-implemented method of claim 16 , wherein the operator inputs any one or combination of the second rotational limit, the third rotational limit, the second time limit, and/o