Bundle breaker having movable platen and kit for retrofitting bundle breaker with movable platen

We claim: 1. A bundle breaker comprising: an upstream end and a downstream end; an upstream breaking support having an input end and an output end; a first platen assembly located above the upstream breaking support; a first actuator operably connected to the first platen assembly and configured to shift the first platen assembly toward a raised position above the upstream breaking support and toward a lowered position above the upstream breaking support to selectively clamp a first bundle of a log between the first platen assembly and the upstream breaking support; a downstream breaking support having an output end and an input end at the output end of the upstream breaking support; a second platen assembly located above the downstream breaking support; a second actuator operably connected to the second platen assembly and configured to shift the second platen assembly toward a raised position above the downstream breaking support and toward a lowered position above the downstream breaking support to selectively clamp a second bundle of the log between the second platen assembly 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 bundle of the log from the first bundle of the log, wherein a longitudinal direction of the bundle breaker extends from the upstream end of the bundle breaker to the downstream end of the bundle breaker and a transverse direction of the bundle breaker is perpendicular to the longitudinal direction and a vertical direction of the bundle breaker is perpendicular to the longitudinal direction and the transverse direction, and wherein the first platen assembly and/or the second platen assembly each includes an upper platen assembly and a lower platen assembly supported by the upper platen assembly, the upper platen assembly including an upper platen and a support for the upper platen and the lower platen assembly including a lower platen supported for movement relative to the upper platen in the vertical direction and relative to the upper platen in the longitudinal direction. 2. The bundle breaker according to claim 1 , wherein the lower platen is shiftable relative to the upper platen between a raised position in which the lower platen is frictionally coupled to the upper platen and a lowered position in which the lower platen is freely slidable relative to the upper platen in the longitudinal direction. 3. The bundle breaker according to claim 1 , wherein the lower platen is shiftable relative to the upper platen between a raised position in which a top surface of the lower platen is in contact with a bottom surface of the upper platen and a lowered position in which the top surface of the lower platen is spaced from the bottom surface of the upper platen. 4. The bundle breaker according to claim 3 , including an actuator for moving the lower platen assembly longitudinally relative to the upper platen assembly. 5. The bundle breaker according to claim 4 , wherein the actuator comprises a servo gear motor. 6. The bundle breaker according to claim 5 , wherein the servo gear motor is mounted to and supported by the first platen assembly. 7. The bundle breaker according to claim 3 , wherein the lower platen assembly includes a first side wall spaced in the transverse direction from a second side wall, and wherein the first side wall is connected to the upper platen assembly by a first linear bearing and the second side wall is connected to the upper platen assembly by a second linear bearing. 8. The bundle breaker according to claim 7 , wherein the first and second side walls each include at least one vertical shaft for guiding movement of the lower platen between the raised position and the lowered position. 9. The bundle breaker according to claim 8 , wherein each of the at least one vertical shaft includes a stop for limiting movement of the lower platen away from the upper platen in the vertical direction. 10. The bundle breaker according to claim 9 , wherein the first side wall includes a gear rack, and wherein the upper platen assembly includes a gear configured to engage the gear rack. 11. The bundle breaker according to claim 10 , including an actuator operatively connected to the gear for rotating the gear to move the gear rack in the longitudinal direction. 12. The bundle breaker according to claim 11 , wherein the first platen assembly and the second platen assembly each include the upper platen assembly and the lower platen assembly. 13. The bundle breaker according to claim 11 , wherein the upstream breaking support and/or the downstream breaking support comprises a conveyor. 14. The bundle breaker according to claim 8 , wherein the at least one vertical shaft comprises two vertical shafts, and wherein the second platen is freely slidable along the two vertical shafts of the first side wall and along the two vertical shafts of the second side wall. 15. The bundle breaker according to claim 1 , wherein the first actuator comprises a motor and/or the second actuator comprises a motor and/or the third actuator comprises a motor. 16. A method comprising: providing the bundle breaker according to claim 1 ; positioning the log on the bundle breaker with the first bundle on the upstream breaking support beneath the first platen assembly and the second bundle on the downstream breaking support beneath the second platen assembly, the first bundle being connected to the second bundle at a break region; holding the first platen assembly above the first bundle such that the lower platen of the first platen assembly is spaced from a top of the first bundle; moving the lower platen of the first platen assembly longitudinally relative to the upper platen of the first platen assembly to position the lower platen of the first platen assembly relative to the break region; operating the first actuator to lower the first platen assembly until a bottom surface of the lower platen of the first platen assembly contacts a top surface of the first bundle and continuing to lower the first platen assembly until a bottom surface of the upper platen of the first platen assembly contacts a top surface of the lower platen of the first platen assembly and a predetermined pressure is applied against the top surface of the first bundle; operating the second actuator to lower the second platen assembly to apply pressure against the second bundle; and operating the third actuator to shift the input end of the downstream breaking support relative to the output end of the upstream breaking support from the first position to the second position to break the first bundle of the log from the second bundle of the log. 17. The method according to claim 16 , wherein the lower platen assembly includes a first side wall spaced in the transverse direction from a second side wall, wherein the first side wall is connected to the upper platen assembly by a first linear bearing and the second side wall is connected to the upper platen assembly by a second linear bearing, wherein the first and second side walls each include at least one vertical shaft for guiding movement of the lower platen between the raised position and the lowered position, and wherein the lower platen of the first platen assembly is spaced from the first and second side walls when the lower platen is in contact with the upper platen and when the lower platen is spaced from