Mechanical system for high positional computer numerically controlled applications

What is claimed is: 1. A system comprising a gantry assembly, wherein the gantry assembly comprises: a carriage configured to accommodate a laser head; a first movable subassembly; and a second movable subassembly coupled to the first movable subassembly via a joining subassembly extending between the first movable subassembly and the second movable subassembly, wherein the second movable subassembly comprises (i) a first motor configured to control a position of the carriage along the joining subassembly along a first axis between the first movable subassembly and the second movable subassembly and (ii) a second motor configured to control a position of the first movable subassembly and the second movable subassembly together along a second axis substantially perpendicular to the first axis, thereby controlling a position of the carriage along the second axis; and wherein the joining subassembly comprises a drive mechanism operated by the second motor, wherein the drive mechanism is arranged to facilitate movement of the first movable subassembly together with the second movable subassembly along the second axis, wherein the drive mechanism operated by the second motor comprises a drive shaft that extends along at least a portion of the joining subassembly and is arranged to facilitate movement of the first movable subassembly together with the second movable subassembly along the second axis, and wherein the first movable subassembly further comprises a first gear connected to the drive shaft, wherein the second movable subassembly further comprises a second gear connected to the drive shaft and coupled to the second motor via a linkage, and wherein the second motor is configured to (i) control movement of the second gear via the linkage and (ii) control movement of the first gear by axially rotating the second gear about the first axis, thereby axially rotating the drive shaft and the first gear connected thereto about the first axis. 2. The system of claim 1 , wherein a position of the first motor relative to a position of the second motor remains constant during (i) movement of the carriage along the first axis between the first movable subassembly and the second movable subassembly and (ii) movement of the first movable subassembly and the second movable subassembly together along the second axis. 3. The system of claim 1 , wherein the joining subassembly further comprises a fixed shaft connecting the first movable subassembly to the second movable subassembly. 4. The system of claim 1 , further comprising: a first anti-lift stabilization mechanism located on the first movable subassembly and configured to move with the first movable subassembly; and a second anti-lift stabilization mechanism located on the second movable subassembly and configured to move with the second movable subassembly; and wherein the first anti-lift stabilization mechanism and the second anti-lift stabilization mechanism are configured to constrain movement of the first movable subassembly and the second movable subassembly in a third axis during operation, and wherein the third axis is substantially perpendicular to both the first axis and the second axis. 5. The system of claim 1 , wherein the joining subassembly comprises a fixed shaft connecting the first movable subassembly to the second movable subassembly, and wherein the fixed shaft is substantially parallel to the drive shaft. 6. The system of claim 5 , wherein the fixed shaft extends through a first opening of the carriage, wherein the drive shaft extends through a second opening of the carriage, and wherein the fixed shaft and the drive shaft are arranged to guide movement of the carriage along the first axis. 7. The system of claim 6 , wherein the second opening of the carriage is configured to allow the drive shaft to axially rotate about the first axis within the second opening. 8. The system of claim 1 , wherein the first movable subassembly comprises sufficient weight arranged to counteract a lifting force imposed upon the first movable subassembly via a rotation of the drive shaft. 9. The system of claim 1 , wherein the second movable subassembly further comprises a third gear coupled to the first motor via a second linkage, and wherein the first motor is configured to control the position of the carriage in the first axis along the joining subassembly via the second linkage and the third gear. 10. The system of claim 1 , wherein the first motor comprises a first stepper motor, and wherein the second motor comprises a second stepper motor. 11. The system of claim 1 , further comprising: a housing comprising at least four interior walls defining an interior space; a first rail, wherein the first rail is proximate to and extends substantially along a first interior wall of the housing, and wherein the first movable subassembly is configured to move along the second axis via the first rail; and a second rail, wherein the second rail is proximate to and extends substantially along a second interior wall of the housing opposite the first interior wall of the housing, wherein the second movable subassembly is configured to move along the second axis via the second rail, wherein the second rail is substantially parallel to the first rail. 12. The system of claim 11 , further comprising: a first interface between the first movable subassembly and the first rail, wherein the first interface is configured to provide a first preload force between the first movable subassembly and the first rail; and a second interface between the second movable subassembly and the second rail, wherein the second interface is configured to provide a second preload force between the second movable subassembly and the second rail. 13. The system of claim 11 , wherein the gantry assembly further comprises: a first belt-and-pulley arrangement configured to facilitate movement of the first movable subassembly along the second axis via the first rail; and a second belt-and-pulley arrangement configured to facilitate movement of the second movable subassembly along the second axis via the second rail parallel to the first rail. 14. The system of claim 11 , wherein the gantry assembly further comprises: a first rack gear assembly configured to facilitate movement of the first movable subassembly along the second axis via the first rail; and a second rack gear assembly configured to facilitate movement of the second movable subassembly along the second axis via the second rail parallel to the first rail. 15. The system of claim 11 , wherein the housing further comprises a pass through area arranged to allow materials to be moved into and out of the interior space free from obstruction caused by the gantry assembly. 16. The system of claim 11 , further comprising: a wiring harness arranged to provide power and control signals to the first motor and the second motor from outside of the housing. 17. The system of claim 11 , further comprising: a wiring harness connected to the second movable subassembly and configured to provide power and control signals to both the first motor and the second motor; and wherein the gantry assembly is configured to be removable as a single structure by (i) disconnecting the wiring harness, and (ii) detaching the first movable subassembly and second movable subassembly from the first rail and the second rail, respectively, while the first rail and the second rail remain attached to the housing; and wherein the gantry assembly is configured to be re-installable as a single structure by (i) reattaching the first movable sub