Abstract: A method for estimating an amount of toner remaining in a reservoir of a replaceable unit for an image forming device according to one example embodiment includes receiving by processing circuitry pulses from a magnetic sensor. Each pulse is indicative that the magnetic sensor detected a magnet on a moving paddle positioned in the reservoir. The processing circuitry counts the number of the pulses received from the magnetic sensor. Upon receiving a request from a controller of the image forming device, the processing circuitry sends to the controller of the image forming device the count of the pulses received from the magnetic sensor and resets the count of the pulses received from the magnetic sensor.

Abstract: A method for estimating an amount of toner remaining in a reservoir of a replaceable unit for an image forming device according to one example embodiment includes rotating a shaft positioned in the reservoir and measuring an amount of revolution of the shaft. A paddle mounted on the shaft and free to fall ahead of the rotation of the shaft is pushed by the rotation of the shaft. An estimate of the amount of toner remaining in the reservoir is decreased based on the measured amount of revolution of the shaft. The paddle is sensed near a lowest center of gravity of the paddle. The estimate of the amount of toner remaining in the reservoir is adjusted when the number of times the paddle is sensed near the lowest center of gravity of the paddle per revolution of the shaft increases.

Abstract: A replaceable unit for an electrophotographic image forming device according to one example embodiment includes a housing having a reservoir for storing toner. A rotatable shaft is positioned within the reservoir. A paddle is mounted on the shaft. A sensor is positioned on the housing outside of the reservoir and positioned to sense a rotational motion of the paddle when the shaft rotates. A processor is mounted on the housing and in electric communication with the sensor. An electrical contact is in electric communication with the processor and exposed on an exterior of the housing unobstructed to mate with a corresponding electrical contact when the replaceable unit is installed in the image forming device.

Abstract: A replaceable unit for an electrophotographic image forming device according to one example embodiment includes a housing having an inner volume forming a reservoir for storing toner. A rotatable shaft is positioned within the reservoir. A paddle is mounted on the shaft and rotatable independent of the shaft. A driving member is rotatable with the shaft and positioned to push the paddle when the shaft rotates. The paddle is free to fall ahead of the driving member. The paddle includes a magnetic element rotatable with the paddle and detectable by a magnetic sensor when the replaceable unit is installed in the image forming device for detecting the motion of the paddle.

Abstract: A system for measuring a particulate material according to one example embodiment includes a container having a reservoir for storing the particulate material. A rotatable shaft is positioned within the reservoir. A paddle is mounted on the shaft and rotatable independent of the shaft. A driving member is rotatable with the shaft and positioned to push the paddle when the shaft rotates. The paddle is free to fall ahead of the driving member. At least one sensor is positioned to sense a rotational motion of the paddle as the shaft rotates. A processor in electronic communication with the at least one sensor is configured to determine an amount of the particulate material remaining in the reservoir based on the sensed rotational motion of the paddle.

Abstract: A replaceable unit for an electrophotographic image forming device according to one example embodiment includes a housing having an inner volume forming a reservoir for storing toner. A rotatable shaft is positioned within the reservoir. A paddle is mounted to the shaft. The paddle includes a magnet that has a magnetic field detectable by a magnetic sensor for detecting the motion of the paddle.

Abstract: A toner cartridge for an imaging device having a housing having a toner reservoir and an exit port in fluid communication with the toner reservoir. A drive shaft rotatably mounts within the toner reservoir. A toner platform is movably coupled to the drive shaft and is nonrotatable but slidable relative to the housing. A resilient arm is positioned within the reservoir and biased toward an initial position in the path of the toner platform. When the drive shaft rotates, the toner platform translates toward the exit port. When the toner platform contacts the resilient arm, the resilient arm moves to permit the toner platform to pass and when the toner platform moves further toward the exit port the resilient arm returns to the initial position. The resilient arm may mount on the inner surface, the toner to platform or the drive shaft.

Abstract: A toner cartridge for an electrophotographic device including a housing having a reservoir that is in fluid communication with an exit port. A first end wall has a recess on an inner surface thereof in fluid communication with the reservoir and the exit port. A partially threaded drive shaft has an end received in the second end wall. An exit paddle having a drive hub is detachably mounted on the drive shaft near an unthreaded portion. Arms on the drive hub are received in the recess. A drive hub axial extension is received in the first end wall. The housing rotatably supports the drive shaft and exit paddle. A translatable toner platform rotatably connects to the drive shaft. When the drive shaft rotates the toner platform translates for moving toner toward the exit port and rotates the exit paddle for delivering toner from the exit port.

Abstract: A toner cartridge for an imaging apparatus having a housing including two opposed end walls and an elongated body therebetween and an exit port. An inner surface of the body defines a toner reservoir that is in communication with the exit port. A drive shaft is rotatably mounted within the housing. A translatable toner platform is provided in slidable contact with the inner surface of the body and is nonrotatable relative to the housing. A toner platform stop is also provided. A detachable drive shaft coupling couples the toner platform to the drive shaft and upon the toner platform hitting the stop, the coupling detaches from the platform. The detachable coupling may be provided in a frangible portion of the toner platform or be frictionally engaged with a recess therein. Rotation of the drive shaft translates the toner platform toward the exit port and rotates an exit paddle.

Abstract: A toner cartridge for an imaging apparatus having a housing including two opposed end walls and an elongated body therebetween and an exit port. An inner surface of the body defines a toner reservoir that is communication with the exit port. A drive shaft is rotatably mounted within the housing. A toner platform is provided in slidable contact with the inner surface of the body and is nonrotatable relative to the housing. A drive shaft coupling couples the toner platform to the drive shaft. An exit paddle is positioned adjacent the exit port and is rotatable by the drive shaft. Rotation of the drive shaft translates the toner platform toward the exit port and rotates the exit paddle. As the toner platform moves, toner within the reservoir moves toward the exit paddle and exit port and rotation of the exit paddle moves toner through the exit port.