Power transfer unit

The invention claimed is: 1. A power transfer unit, comprising: an input shaft extending along an input axis; an intermediate drive shaft extending at least partially through the input shaft along the input axis; a ring gear assembly including a ring gear and a ring gear shaft coupled to the ring gear such that torque may be transmitted between the ring gear and the ring gear shaft, wherein the ring gear shaft at least partially surrounds the input shaft and extends along the input axis, the ring gear shaft having annularly arranged ring gear splines; a collar coupled to the input shaft such that torque may be transmitted between the input shaft and the collar, wherein the collar at least partially surrounds the input shaft and is movable relative to the ring gear shaft along the input axis between an engaged position and a disengaged position, the collar having annularly arranged collar splines, wherein the collar splines mesh with the ring gear splines when in the engaged position; a fork assembly coupled to the collar, wherein the fork assembly is configured to apply a force to the collar in order to move the collar toward the engaged position; a collar spring coupled between the input shaft and the collar such that the collar is biased toward the disengaged position; wherein the input shaft is coupled to the ring gear shaft such that torque may be transmitted between the input shaft and the ring gear shaft when the collar is in the engaged position; and wherein the input shaft is decoupled from the ring gear shaft when the collar is in the disengaged position, thereby preventing torque from being transmitted between the ring gear shaft and the input shaft through the collar. 2. The power transfer unit of claim 1 , further comprising a pinion gear meshing with the ring gear. 3. The power transfer unit of claim 2 , further comprising a pinion shaft operatively coupled to the pinion gear such that torque may be transmitted between the pinion gear and the pinion shaft. 4. The power transfer unit of claim 3 , wherein the pinion shaft extends along a pinion axis, and the pinion axis is substantially perpendicular to the input axis. 5. The power transfer unit of claim 4 , further comprising a main housing at least partially covering the input shaft, the intermediate drive shaft, and the pinion gear. 6. A power transfer unit comprising: an input shaft extending along an input axis; an intermediate drive shaft extending at least partially through the input shaft along the input axis; a ring gear assembly including a ring gear and a ring gear shaft coupled to the ring gear such that torque may be transmitted between the ring gear and the ring gear shaft, wherein the ring gear shaft at least partially surrounds the input shaft and extends along the input axis; a collar coupled to the input shaft such that torque may be transmitted between the input shaft and the collar, wherein the collar at least partially surrounds the input shaft and is movable relative to the ring gear shaft along the input axis between an engaged position and a disengaged position; a fork assembly coupled to the collar, wherein the fork assembly is configured to apply a force to the collar in order to move the collar toward the engaged position; a collar spring coupled between the input shaft and the collar such that the collar is biased toward the disengaged position; wherein the input shaft is coupled to the ring gear shaft such that torque may be transmitted between the input shaft and the ring gear shaft when the collar is in the engaged position; and wherein the input shaft is decoupled from the ring gear shaft when the collar is in the disengaged position, thereby preventing torque from being transmitted between the ring gear shaft and the input shaft through the collar. 7. The power transfer unit of claim 6 , further comprising an actuator coupled to the collar and movable relative to the input shaft along the input axis such that the actuator is capable of exerting a force on the collar toward the engaged position. 8. The power transfer unit of claim 7 , wherein the actuator includes the fork assembly and a threaded shaft threadedly coupled to the fork assembly such that rotation of the threaded shaft causes the fork assembly to move linearly in order to exert the force on the collar. 9. The power transfer unit of claim 8 , wherein the actuator includes a spur gear operatively connected to the threaded shaft such that rotation of the spur gear causes the threaded shaft to rotate. 10. The power transfer unit of claim 6 , wherein the collar includes collar splines, the ring gear shaft includes ring gear splines configured to mesh the collar splines, and the ring gear splines mesh with the collar splines when the collar is in the engaged position. 11. A vehicle, comprising: a differential; a power transfer unit coupled to the differential, wherein the power transfer unit includes: an input shaft extending along an input axis; an intermediate drive shaft extending at least partially through the input shaft along the input axis; a ring gear assembly including a ring gear and a ring gear shaft coupled to the ring gear such that torque may be transmitted between the ring gear and the ring gear shaft, wherein the ring gear shaft at least partially surrounds the input shaft and extends along the input axis; a collar coupled to the input shaft such that torque may be transmitted between the input shaft and the collar, wherein the collar at least partially surrounds the input shaft and is movable relative to the ring gear shaft along the input axis between an engaged position and a disengaged position; a fork assembly coupled to the collar, wherein the fork assembly is configured to apply a force to the collar in order to move the collar toward the engaged position; a collar spring coupled between the input shaft and the collar such that the collar is biased toward the disengaged position; wherein the input shaft is coupled to the ring gear shaft such that torque may be transmitted between the input shaft and the ring gear shaft when the collar is in the engaged position; and wherein the input shaft is decoupled from the ring gear shaft when the collar is in the disengaged position, thereby preventing torque from being transmitted between the ring gear shaft and the input shaft through the collar; a front wheel coupled to the input shaft such that torque may be transmitted between the input shaft and the front wheel regardless of a location of the collar relative to the ring gear shaft; and a rear wheel coupled to the ring gear such that torque may be transmitted between the input shaft and the rear wheel when the collar is in the engaged position. 12. The vehicle of claim 11 , further comprising a pinion gear meshing with the ring gear. 13. The vehicle of claim 12 , further comprising a pinion shaft operatively coupled to the pinion gear such that torque may be transmitted between the pinion gear and the pinion shaft. 14. The vehicle of claim 13 , wherein the pinion shaft extends along a pinion axis, and the pinion axis is substantially perpendicular to the input axis. 15. The vehicle of claim 14 , further comprising a main housing at least partially covering the input shaft, the intermediate drive shaft, and the pinion gear. 16. The vehicle of claim 11 , further comprising a collar spring coupled between the input shaft and the collar such that the collar is biased toward the disengaged position. 17. The vehicle of claim 16 , further comprising an actuator coupled to the collar and mov