Translatable media stack height sensor assembly

What is claimed is: 1. A stack height sensor assembly for determining a media stack height in an image forming device, the stack height sensor assembly comprising: a support having a first arm depending therefrom forming a stationary actuating member, the support mountable adjacent to a media staging area in the image forming device; a drive assembly mounted on the support and consisting of a reversible motor operably connectable to a controller in the image forming device, the motor having a drive gear on an output shaft thereof; and an insertion assembly translatably mounted to the support, the insertion assembly having a home position adjacent the first arm, the insertion assembly consisting of: a plunger translatably mounted to the support having a top end adjacent the first arm and a bottom end, the plunger in operable engagement with the drive gear; a sensor mounted on the top end of the plunger having an output signal that changes to a first state and to a second state when the sensor is actuated and deactuated, respectively, the sensor and output signal operably connectable to the controller; a probe translatably mounted to the plunger, the probe having a top end and a bottom end; and a biasing member connected the probe and to the plunger wherein the probe is biased against the plunger such that a portion of the probe at the bottom end thereof extends a predefined extension distance below the bottom end of the plunger, wherein, with the support mounted adjacent to the media staging area, the sensor and motor being operably connected to the controller and the insertion assembly in the home position, the stationary member actuates the sensor causing the output signal to be in the first state, and, wherein energizing the motor by the controller for rotation in a first direction translates and extends the insertion assembly away from the home position and the stationary actuating member causing the output signal of the sensor to change to the second state and on continued extension the bottom of the probe initially contacts one of a top of a stack of media when present in the media staging area and a surface of the media staging area, thereafter, the plunger and sensor continue to extend until the bottom ends of both the plunger and probe contact one of the top of the stack of media and the surface of the media staging area and the top end of the probe actuates the sensor with the output signal of the sensor changing to the first state, and, further wherein, with the insertion assembly being extended, energizing the motor by the controller to rotate in a second direction translates and retracts the insertion assembly toward the home position with the bottom end of the plunger initially being retracted while the biasing member holds the bottom end of the probe in contact with one of the top of the stack of media and the surface of the media staging area until the distance between the bottom end of the plunger and one of the top of the stack of media in the media staging area and the surface of the media staging area equals the predefined extension distance whereat the top end of the probe ceases to actuate the sensor and causing the output signal of the sensor to change to the second state, and, when the plunger returns to the home position, the stationary actuating member actuates the sensor causing the output signal of the sensor to change to the first state. 2. The stack height sensor assembly of claim 1 wherein the reversible motor is a stepper motor. 3. The stack height sensor assembly of claim 1 wherein the drive mechanism further includes one or more intermediate gears rotatably mounted to the support in operable engagement with the drive gear and the insertion assembly. 4. The stack height sensor assembly of claim 3 wherein the one or more intermediate gears include a compound gear and a second gear, the compound gear having a first gear portion in operable engagement with the drive gear and a second gear portion in operable engagement with the second gear with the second gear also being in operable engagement with the insertion assembly. 5. The stack height sensor assembly of claim 4 wherein the second gear has a keyed center opening and is mounted on a shaft having a correspondingly keyed-shaped cross section, the shaft being rotatably mounted to the support; and the drive mechanism further including a lever having a keyed center opening, mounted to the shaft and radially extending from the shaft and a second biasing member connected between a free end of the lever and the support to form an over-centered arrangement, wherein rotation of the second gear rotates the shaft and lever to move the lever between two stable positions, a first stable position when the insertion assembly is at the home position and a second stable position when the insertion assembly is extended toward one of the top of the stack of media and the surface of the media staging area. 6. The stack height sensor assembly of claim 1 wherein the sensor is an opto-interrupter type sensor. 7. The stack height sensor assembly of claim 1 wherein the sensor is a limit switch. 8. The stack height sensor assembly of claim 1 wherein the bottom of the plunger is mounted in the range of about 10 to about 20 mm from the surface of the media staging area. 9. The stack height sensor assembly of claim 1 wherein each of the probe and the plunger having a roller rotatably mounted to their respective bottom ends. 10. A stack height sensor assembly for determining a media stack height in an image forming device, the stack height sensor assembly comprising: a support having a first arm depending therefrom, the first arm having a stationary actuating member, the support mountable adjacent a media staging area in the image forming device; a drive assembly mounted on the support and consisting of: a reversible motor operably connectable to a controller in the image forming device, the motor having a drive gear on an output shaft thereof; a rack gear rotatably mounted to the support and operably engaged with the drive gear; and one or more intermediate gears rotatably mounted to the support in operable engagement with the drive gear and the rack gear; and an insertion assembly translatably mounted to the support, the insertion assembly having a home position adjacent the first arm, the insertion assembly consisting of: a plunger translatably mounted to the support having a top end adjacent the first arm and a bottom end, the plunger having a rack along a side, the rack in operable engagement with the rack gear of the drive assembly; a single sensor mounted on the top end of the plunger having an output signal that changes to a first state and to a second state when the sensor is actuated and deactuated, respectively, the output signal operably connectable to the controller; a probe translatably mounted to and aligned with the plunger, the probe having a top end and a bottom end; and a biasing member connected between the probe and the plunger wherein the probe is biased against the plunger such that a portion of the probe at the bottom end thereof extends a predefined extension distance below the bottom end of the plunger; wherein, with the stack height assembly installed in the image forming device, the sensor and motor being operably connected to the controller and the insertion assembly in the home position, the stationary member actuates the sensor causing the output signal to be in the first state and energizing the motor by the controller for rotation in a first direction engages the rack gear to translate the rack and extend the insertion assembly away from the home position and the stationary actuating member causing the output signa