Patent ID: 7762466
Filing Date: 2010-07-27
Classification: G06K

Abstract:
1. An imaging-based bar code reader comprising: an imaging system for imaging a target bar code within a field of view of the imaging system and projecting light from the field of view onto a sensor array, the imaging system generating image frames of the field of view of the imaging system; the imaging system including: an imaging lens assembly having a plurality of lens; a selection drive mechanism to select between a first optical zoom position defining a first focal length and a first field of view for imaging a target bar code at a close range and a second optical zoom position defining a second focal length and a second field of view for imaging a target bar code at a far range, the second focal length being greater than the first focal length and a diagonal angle subtended by the first field of view being greater than a diagonal angle subtended by the second field of view; an illumination assembly including an illumination source providing an illumination pattern projected toward a target bar code, the illumination assembly selectively actuatable between a first illumination pattern and a second illumination pattern, the first illumination pattern being generated when imaging using the first optical zoom position to illuminate the first field of view and the second illumination pattern being generated when imaging using the second optical zoom position to illuminate the second field of view; an aiming pattern assembly including an illumination source providing an aiming pattern projected toward a target bar code, the aiming pattern assembly selectively actuatable between a first aiming pattern and a second aiming pattern, the first aiming pattern being generated when imaging using the first optical zoom position to facilitate aiming the reader at a center of the first field of view and the second aiming pattern being generated when imaging using the second optical zoom position to facilitate aiming the reader at a center of the second field of view; and wherein the imaging lens assembly comprises a first set of lenses having a first optical axis and defining the first focal length and the first field of view, the first optical axis aligned with the sensor array, and a second set of lenses having a second optical axis laterally offset from the first optical axis and the sensor array and defining the second focal length and the second field of view, the selection drive mechanism including a first light blocker selectively actuatable between a first transparent state wherein light focused through the first set of lenses is projected onto the sensor array and a second blocking state wherein light focused through the first set of lenses is blocked from projection onto the sensor array and a second light blocker selectively actuatable between a first transparent state wherein light focused through the second set of lenses is projected onto the sensor array and a second blocking state wherein light focused through the second set of lenses is blocked from projection onto the sensor array and a prism positioned between the first set of lenses, the second set of lenses and the sensor array to project light focused by either of the first set of lenses or the second set of lenses onto the sensor array at a normal angle, the first blocker being in the first transparent state and the second blocker being in the second blocking state defining the first optical zoom position and the first blocker being in the second blocking state and the second blocker being in the first transparent state defining the second optical zoom position.