Dual pivot drop floor

What is claimed is: 1 . An agricultural machine comprising: a chassis; a rotor operatively connected to the chassis to rotate about a rotor axis in a rotation direction; a bottom floor located adjacent to the rotor and extending along the rotor axis from a first lateral side to a second lateral side, the bottom floor extending along the rotation direction from a bottom floor leading end to a bottom floor trailing end, wherein the bottom floor is spaced from the rotor to define a crop flow passage between the rotor and the bottom floor; and a respective linkage operatively connecting each lateral side of the bottom floor to the chassis and configured to allow the bottom floor to move about multiple rotation axes to move away from the rotor axis by application of force generated against the bottom floor in the crop flow passage. 2 . The agricultural machine of claim 1 , further comprising a single respective actuator operatively connected at each lateral side of the bottom floor, and being operable to move the bottom floor trailing end towards and away from the rotor axis. 3 . The agricultural machine of claim 1 , further comprising a first stop surface positioned on the chassis to stop movement of the bottom floor leading end towards the rotor axis. 4 . The agricultural machine of claim 1 , further comprising a second stop surface positioned on the chassis to stop movement of the bottom floor trailing end towards the rotor axis. 5 . The agricultural machine of claim 4 , wherein the second stop surface defines a first surface and the bottom floor comprises a second surface configured to slide on the first surface. 6 . The agricultural machine of claim 1 , wherein the respective linkage at the first lateral side and/or the second lateral side comprises: a rocker arm; a rocker pivot connecting the rocker arm to the chassis to rotate about a rocker axis; and a bottom floor pivot connecting the rocker arm to the bottom floor to rotate about a bottom floor axis. 7 . The agricultural machine of claim 6 , wherein the bottom floor pivot is located adjacent to the bottom floor leading end. 8 . The agricultural machine of claim 6 , further comprising a single respective actuator operatively connected at each lateral side of the bottom floor, and being operable to move the bottom floor trailing end towards and away from the rotor axis, wherein the respective single actuator at the first lateral side comprises: a first operating end operatively connected to the rocker arm, and a second operating end operatively connected to the bottom floor such that operation of the single respective actuator to move the first operating end relative to the second operating end causes the bottom floor to rotate relative to the rocker arm about the bottom floor pivot. 9 . The agricultural machine of claim 8 , wherein the rocker pivot is located along the rocker arm between the bottom floor pivot and the first operating end. 10 . The agricultural machine of claim 8 , wherein: the first operating end is movably secured to the rocker arm between a first position and a second position; and the second operating end is movable away from the rotor axis by movement of the first operating end from the first position to the second position. 11 . The agricultural machine of claim 10 , further comprising a spring configured to bias the first operating end towards the first position. 12 . The agricultural machine of claim 11 , wherein the first operating end comprises a shaft that extends from a proximal shaft end at the first operating end, through a bearing mounted to the rocker arm, and to a distal shaft end spaced from the first operating end, and the spring is mounted between the bearing and the distal shaft end. 13 . The agricultural machine of claim 1 , further comprising a bale forming chamber located downstream of the rotor and bottom floor to receive crop material exiting the crop flow passage. 14 . A method of operating an agricultural machine comprising a chassis; a rotor operatively connected to the chassis to rotate about a rotor axis in a rotation direction; a bottom floor located adjacent to the rotor and extending along the rotor axis from a first lateral side to a second lateral side, the bottom floor extending along the rotation direction from a bottom floor leading end to a bottom floor trailing end, wherein the bottom floor is spaced from the rotor to define a crop flow passage between the rotor and the bottom floor; and a respective linkage operatively connecting each lateral side of the bottom floor to the chassis and configured to allow the bottom floor leading end and the bottom floor trailing end to move away from the rotor axis by application of force generated against the bottom floor in the crop flow passage, the method comprising: receiving crop material in the crop flow passage at the bottom floor leading end; moving the bottom floor leading end away from the rotor axis by a force generated at a first location on the bottom floor by the crop material; moving the crop material towards the bottom floor trailing end; and moving the bottom floor trailing end away from the rotor axis by a force generated at a second location on the bottom floor by the crop material. 15 . The method of claim 14 , wherein the agricultural machine further includes a single respective actuator operatively connected at each lateral side of the bottom floor, and being operable to move the bottom floor trailing end towards and away from the rotor axis, and the method further comprises operating each single respective actuator to move the bottom floor trailing end away from the rotor axis.