Modular print drive assembly and platen assembly

That which is claimed: 1. A platen latch assembly comprising: a latch arm defining a latch hook and a pivot end, wherein the latch arm is configured to rotate between a latched position and an unlatched position; a lock arm slideably coupled to translate along the latch arm between a locked and an unlocked position; a cam actuator structured to drive the lock arm between the locked position and the unlocked position and further structured to drive the latch arm from the latched position to the unlatched position; a lock cam connected to the lock arm, wherein the lock arm moves to the unlocked position in response to operation of the lock cam; and a latch cam connected to the latch arm, wherein the latch arm moves to the unlatched position in response to operation of the latch cam. 2. The platen latch assembly of claim 1 , wherein the lock arm comprises a lock bar at a lock end. 3. The platen latch assembly of claim 1 , wherein the lock arm comprises at least one lock arm aperture and the latch arm comprises at least one lock guide, wherein the at least one lock guide penetrate the at least one lock arm aperture. 4. The platen latch assembly of claim 3 , wherein the alignment of the platen latch assembly is maintained in response to the at least one lock guide penetration of the at least one lock arm aperture. 5. The platen latch assembly of claim 1 , wherein the lock arm comprises a tension mount at a tension end and the latch arm further comprises a tension mount disposed between the latch hook and the pivot end. 6. The platen latch assembly of claim 5 further comprising: a tension mechanism connected between the tension mount of the latch arm and the tension mount of the lock arm, wherein the lock arm is biased toward the locked position in response to the tension mechanism application of tension between the tension mount of the latch arm and the tension mount of the lock arm. 7. The platen latch assembly of claim 1 , wherein the latch hook of the latch arm is disengaged from a platen assembly in response to operation of the latch cam. 8. The platen assembly of claim 1 , wherein the cam actuator is configured to operate the lock cam prior to operating the latch cam when actuated. 9. The platen assembly of claim 8 , wherein actuation of the cam actuator comprises rotation of the cam actuator. 10. The platen assembly of claim 8 , wherein the cam actuator further comprises: a lock operating projection configured to operate the lock cam and a latch operating projection configured to operate the latch cam. 11. The platen assembly of claim 1 , wherein the platen latch assembly further comprises a latch release configured to actuate the cam actuator. 12. The platen latch assembly of claim 1 , wherein the pivot end is a shaft receiver; wherein the platen latch assembly further comprises a shaft connected to the shaft receiver at a first end and a second latch arm at a second end. 13. The platen latch assembly of claim 1 , wherein the latch arm or lock arm define at least one weight saving cavity. 14. The platen latch assembly of claim 1 , wherein the cam actuator comprises a rack and pinion. 15. A platen latch assembly comprising: a latch arm defining a latch hook and a pivot end, wherein the latch arm is configured to rotate between a latched position and an unlatched position, and the latch arm comprises at least one lock guide; a lock arm slideably coupled to translate along the latch arm between a locked and an unlocked position, wherein the lock arm comprises at least one lock arm aperture, and the at least one lock guide is to penetrate the at least one lock arm aperture; a cam actuator structured to drive the lock arm between the locked position and the unlocked position and further structured to drive the latch arm from the latched position to the unlatched position. 16. A platen latch assembly comprising: a latch arm defining a latch hook and a pivot end, wherein the latch arm is configured to rotate between a latched position and an unlatched position; a lock arm slideably coupled to translate along the latch arm between a locked and an unlocked position, wherein the lock arm comprises a tension mount at a tension end and the latch arm further comprises a tension mount disposed between the latch hook and the pivot end; a cam actuator structured to drive the lock arm between the locked position and the unlocked position and further structured to drive the latch arm from the latched position to the unlatched position; and a tension mechanism connected between the tension mount of the latch arm and the tension mount of the lock arm, wherein the lock arm is biased toward the locked position in response to the tension mechanism application of tension between the tension mount of the latch arm and the tension mount of the lock arm. 17. A platen latch assembly comprising: a latch arm defining a latch hook and a pivot end, wherein the latch arm is configured to rotate between a latched position and an unlatched position; a lock arm slideably coupled to translate along the latch arm between a locked and an unlocked position; and a cam actuator structured to drive the lock arm between the locked position and the unlocked position and further structured to drive the latch arm from the latched position to the unlatched position, wherein the cam actuator comprises a rack and pinion.