Anti-bounce print deck for flexographic printing press

What is claimed is: 1. A printing press comprising: front and back frames, a front bearing assembly housed in a front bearing block, the front bearing block being operatively supported by the front frame, a back bearing assembly housed in a back bearing block, the front bearing block being operatively supported by the back frame, an elongated roll extending axially between the front and back frames, the roll having front and back ends which are rotatably supported by the front and back bearing assemblies, the roll having a center axis along its length, the roll comprising one of an anilox roll and a plate roll, and at least one of the front bearing assembly and the back bearing assembly comprising first and second bearings, the first and second bearings each having a support within the respective bearing block, the first bearing support being fixedly mounted relative to the respective bearing assembly within the respective bearing block, the second bearing support being movable independently relative to the first bearing support within the respective bearing block in a manner such that the second bearing engages the respective end of the roll with a radial load relative to the center axis of the roll. 2. The press of claim 1 wherein both the front and back bearing assemblies comprise the first and the second bearings. 3. The press of claim 1 wherein the second bearing support is movable in a linear direction relative to the first bearing support. 4. The press of claim 3 wherein the respective bearing assembly includes a lever actuator configured to move the second bearing support relative to the first bearing support. 5. The press of claim 4 wherein the lever actuator comprises a set screw to adjust the movement of the second bearing support relative to the first bearing support. 6. The press of claim 1 wherein the second bearing support is pivotable relative to the first bearing support. 7. The press of claim 6 wherein the respective bearing assembly includes a spring actuator configured to bias the second bearing support relative to the first bearing support. 8. The press of claim 7 wherein the spring actuator is adjustable to adjust the bias of the second bearing support relative to the first bearing support. 9. The press of claim 1 wherein the front bearing assembly comprises the first and second bearings, the front bearing assembly is movably mounted on the front frame between a first position in which the front bearing assembly rotatably supports the front end of the roll and a second position in which the front bearing assembly does not support the front end of the roll, and in the second position, the front bearing assembly first and second bearings are configured to disengage from the front end of the roll. 10. The press of claim 1 wherein the second bearing support engages the respective end of the roll with a radial load relative to the center axis of the roll that is opposite of the radial load of the first bearing support. 11. A printing press comprising: front and back frames, a front bearing assembly housed in a front bearing block, the front bearing block being supported on the front frame, a back bearing assembly housed in a back bearing block, the back bearing block being supported on the back frame, an elongated roll extending axially between the front and back frames, the roll having front and back ends which are rotatably supported by the front and back bearing assemblies, the roll having a center axis along its length, the roll comprising one of an anilox roll and a plate roll, and at least one of the front bearing assembly and the back bearing assembly comprising first and second bearings, the first and second bearings being adjacent to one another within the respective bearing block and each having a bearing support, the first bearing support being fixedly mounted in the respective bearing assembly relative to the roll center axis to provide a first radial load on the respective end of the roll within the respective bearing block, the second bearing support being movable independently relative to the first bearing support within the respective bearing block relative to the roll center axis to provide a second radial load on the respective end of the roll, the second radial load being opposite the first radial load. 12. The press of claim 11 wherein both the front and back bearing assemblies comprise the first and the second bearings. 13. The press of claim 11 wherein the second bearing support is movable in a linear direction relative to the first bearing support. 14. The press of claim 13 wherein the respective bearing assembly includes a lever actuator configured to move the second bearing support relative to the first bearing support. 15. The press of claim 14 wherein the lever actuator comprises a set screw to adjust the movement of the second bearing support relative to the first bearing support. 16. The press of claim 11 wherein the second bearing support is pivotable relative to the first bearing support. 17. The press of claim 16 wherein the respective bearing assembly includes a spring actuator configured to bias the second bearing support relative to the first bearing support. 18. The press of claim 17 wherein the spring actuator is adjustable to adjust a level of the bias of the second bearing support relative to the first bearing support. 19. The press of claim 11 wherein the front bearing assembly comprises the first and second bearings, the front bearing assembly is movably mounted on the front frame between a first position in which the front bearing assembly rotatably supports the front end of the roll with the first and second bearings applying radially opposite loading to the front end of the roll, and a second position in which the front bearing assembly does not support the front end of the roll and the first and second bearings of the front bearing assembly disengage from the front end of the roll.