Ultrasonic removal methods of three-dimensionally printed parts

What is claimed is: 1. A three-dimensional object printer comprising: an ejector head configured to eject a material; a platen having a first surface that is oriented so an entire area of the first surface has a same gravitational potential and the platen is positioned opposite the ejector head to receive material ejected by the ejector head and to support an object formed with the material ejected by the ejector head on the first surface of the platen, the platen also having a second surface that is opposite to the first surface and parallel to the first surface; a vibrator configured to engage the second surface of the platen and produce vibrations in the platen; an actuator operatively connected to the vibrator; and a controller operatively connected to the ejector head, the vibrator, and the actuator, the controller being configured to operate the ejector head with reference to image data of the object to eject material and form the object on the first surface of the platen, to operate the vibrator with reference to the image data of the object used to operate the ejector head to vibrate and produce the vibrations in the platen to loosen ejected material adhering to the first surface of the platen to enable the object to be removed from the first surface of the platen, and to operate the actuator to move the vibrator along the second surface of the platen as the vibrator vibrates the platen, the controller being further configured to operate the vibrator with reference to the image data used to operate the ejector head to vary an intensity of the vibration of the platen produced by the vibrator with reference to one or more positions to which the vibrator is moved along the second surface by the controller operating the actuator. 2. The three-dimensional object printer of claim 1 , the controller being further configured to: operate the actuator to move the vibrator with reference to the image data of the object used to operate the ejector head to form the object. 3. The three-dimensional object printer of claim 2 , the controller being further configured to: operate the vibrator with a first intensity at a position along the second surface of the platen to which the actuator moved the vibrator that is opposite a peripheral portion of the material ejected onto the first surface of the platen; and operate the vibrator with a second intensity that is greater than the first intensity at a position along the second surface of the platen to which the actuator moved the vibrator that is opposite a non-peripheral portion of the material ejected on the first surface of the platen. 4. The three-dimensional object printer of claim 1 , the controller being further configured to: selectively vary an intensity of the vibration at a position along the second surface of the platen to which the actuator moved the vibrator with reference to a thickness of the material on the first surface of the platen that is opposite the position to which the actuator moved the vibrator. 5. The three-dimensional object printer of claim 4 , the controller being further configured to: vary the intensity of the vibration produced by the vibrator with reference to one of magnitude and frequency of the vibration. 6. The three-dimensional object printer of claim 1 , wherein the vibrator is an ultrasonic transducer. 7. A three-dimensional object printer comprising: an ejector head configured to eject a material; a platen having a first surface that is oriented so an entire area of the first surface has a same gravitational potential and the platen is positioned opposite the ejector head to receive material ejected by the ejector head and to support an object formed with the material ejected by the ejector head on the first surface of the platen; a vibrator positioned to engage and vibrate the first surface of the platen; and a controller operatively connected to the ejector head and the vibrator, the controller being configured to operate the ejector head with reference to image data of the object to eject material from the ejector head and form the object on the platen, to operate the vibrator with reference to the image data of the object used to operate the ejector head to vibrate and loosen material adhering to the first surface of the platen to enable the object to be removed from the platen, and to move the vibrator relative to the first surface of the platen and to operate the vibrator to vary an intensity of vibrations generated by the vibrator with reference to the image data of the object used to operate the ejector head to eject the material and form the object on the platen. 8. The three-dimensional object printer of claim 7 , wherein the vibrator further comprises: a blade configured to vibrate and scrape material dried on the first surface of the platen. 9. The three-dimensional object printer of claim 8 , wherein the vibrator is configured to vibrate the platen in a direction perpendicular to the first surface of the platen.