Bundle breaker platen having air bladders and bundle breaker including the platen

We claim: 1 . A bundle breaker comprising: an upstream breaking support having an input end and an output end, a first platen located above the upstream breaking support, a plurality of first air bladders on the first platen, each of the first air bladders having a bottom contact surface facing the upstream breaking support, a first actuator operably connected to the first platen and configured to shift the first platen toward a raised position above the upstream breaking support and toward a lowered position above the upstream breaking support to selectively clamp a first portion of a log between the bottom contact surfaces of the first air bladders and the upstream breaking support, a downstream breaking support having an input end and an output end, a second platen located above the downstream breaking support, a plurality of second air bladders on the second platen, each of the second air bladders having a bottom contact surface facing the downstream breaking support, a second actuator operably connected to the second platen and configured to shift the second platen toward a raised position above the downstream breaking support and toward a lowered position above the downstream breaking support to selectively clamp a second portion of the log between the bottom contact surfaces of the second air bladders and the downstream breaking support, and a third actuator configured to shift the input end of the downstream breaking support relative to the output end of the upstream breaking support from a first position to a second position to break the second portion of the log from the first portion of the log. 2 . The bundle breaker according to claim 1 , wherein the downstream breaking support comprises a downstream breaking conveyor. 3 . The bundle breaker according to claim 2 , wherein the upstream breaking support comprises an upstream breaking conveyor. 4 . The bundle breaker according to claim 3 , including at least one controller configured to control the first actuator, the second actuator and the third actuator. 5 . The bundle breaker according to claim 4 , wherein the first actuator comprises a first servo gear motor with torque feedback. 6 . The bundle breaker according to claim 5 , wherein the third actuator comprises a servo gear motor with torque feedback. 7 . The bundle breaker according to claim 3 , wherein a pressure in a first subset of the first air bladders is controllable independently of a pressure in a second subset of the first air bladders. 8 . The bundle breaker according to claim 7 , wherein the second subset of the first air bladders is located between a downstream transverse edge of the first platen and the first subset of the first air bladders. 9 . The bundle breaker according to claim 8 , wherein the first subset of the first air bladders is set to a first pressure and the second subset of the first air bladders is set to a second pressure less than the first pressure. 10 . The bundle breaker according to claim 7 , wherein the second subset of the first air bladders is located between a longitudinal side edge of the first platen and the first subset of the first air bladders. 11 . The bundle breaker according to claim 10 , wherein the first subset of the first air bladders is set to a first pressure and the second subset of the first air bladders is set to a second pressure less than the first pressure. 12 . The bundle breaker according to claim 7 , wherein a pressure in a third subset of the first air bladders is controllable independently of the pressure in the first subset of the first air bladders and independently of the pressure in the second subset of first air bladders, wherein the third subset of the first air bladders is located between the first subset of the first air bladders and the second subset of the first air bladders. 13 . The bundle breaker according to claim 3 , including: a 2-D vision camera system configured to sense a height and/or configuration of objects on the upstream breaking conveyor and/or the downstream breaking conveyor, and a controller configured to set a first air pressure in a first subset of the first air bladders independently of a second air pressure in a second subset of the first air bladders, wherein the controller is configured to set the first air pressure and the second air pressure based on the sensed height and/or configuration of the objects. 14 . The bundle breaker according to claim 3 , including: a LIDAR array configured to sense a height and/or configuration of objects on the upstream breaking conveyor and/or the downstream breaking conveyor, and a controller configured to set a first air pressure in a first subset of the first air bladders independently of a second air pressure in a second subset of the first air bladders, wherein the controller is configured to set the first air pressure and the second air pressure based on the sensed height and/or configuration of the objects. 15 . A method comprising: providing a bundle breaker according to claim 3 , positioning a log on the bundle breaker such that a first bundle of the log is supported by the downstream breaking conveyor and a second bundle of the log is supported by the upstream breaking conveyor, the log having a top surface and the top surface having transversely spaced side edges, pressuring a first subset of the first air bladders to a first pressure, the first subset of the first air bladders all overlying the top surface of the second bundle and not overlying the side edges, and maintaining a second subset of the first air bladders at a second pressure less than the first pressure, all the air bladders of the second subset of the first air bladders at least partially overlying the side edges. 16 . A method comprising: providing a bundle breaker according to claim 3 , providing a log comprising a first bundle connected to a second bundle by a non-linear breaking junction, placing the log on the bundle breaker such that the first bundle of the log is supported by the downstream breaking conveyor and the second bundle of the log is supported by the upstream breaking conveyor, pressuring a first subset of the first air bladders to a first pressure, the first subset of the first air bladders all overlying the top surface of the second bundle and not overlying the breaking junction, and maintaining a second subset of the first air bladders at a second pressure less than the first pressure, all the air bladders of the second subset of the first air bladders at least partially overlying the breaking junction. 17 . A method comprising: providing a bundle breaker according to claim 3 , positioning a first log on the bundle breaker such that a first bundle of the first log is supported by the downstream breaking conveyor and a second bundle of the first log is supported by the upstream breaking conveyor, the first log having a first height, positioning a second log on the bundle breaker such that a first bundle of the second log is supported by the downstream breaking conveyor and a second bundle of the second log is supported by the upstream breaking conveyor, the second log having a second height less than the first height, moving the first platen toward the first and second logs until a first subset of the first air bladders contacts the first log and a second subset of the first air bladders contacts the second log, and preventing a pressure in the first subset of the first air bladders from exceeding a pressure in the second subset of the first air