Imaging zoom lens assembly for an imaging-based bar code reader
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06K-007/10
G06K-007/14
출원번호
UP-0044724
(2008-03-07)
등록번호
US-7793840
(2010-10-04)
발명자
/ 주소
Vinogradov, Igor
출원인 / 주소
Symbol Technologies, Inc.
인용정보
피인용 횟수 :
6인용 특허 :
11
초록▼
A variable focus imaging lens assembly for an imaging-based bar code reader for imaging a target bar code within a field of view of the imaging system, the imaging lens assembly comprising a simplified zoom lens assembly or system that provides for both focusing and adjustment of focal length of the
A variable focus imaging lens assembly for an imaging-based bar code reader for imaging a target bar code within a field of view of the imaging system, the imaging lens assembly comprising a simplified zoom lens assembly or system that provides for both focusing and adjustment of focal length of the imaging lens assembly with movement of a single group of movable lenses using one motor. The zoom lens assembly includes a stationary lens group comprising a plurality of stationary lenses and a movable lens group comprising a plurality of movable lenses movable with respect to a sensor array of the imaging system. The movable lens group is driven by a motor along a path of travel parallel to an optic axis of the imaging lens assembly, at least one lens of the plurality of stationary lenses being intermediate a pair of lenses of the plurality of movable lenses.
대표청구항▼
I claim: 1. A variable focus imaging lens assembly for an imaging system of an imaging-based bar code reader for imaging a target object within a field of view of the imaging system, the imaging system generating image frames of the field of view and including an imaging sensor array, the variable
I claim: 1. A variable focus imaging lens assembly for an imaging system of an imaging-based bar code reader for imaging a target object within a field of view of the imaging system, the imaging system generating image frames of the field of view and including an imaging sensor array, the variable focus imaging lens assembly defining an optical axis and comprising: a zoom lens assembly projecting light from the field of view onto the sensor array; the zoom lens assembly including a stationary lens group comprising a plurality of stationary lenses stationary with respect to the sensor array and a movable lens group comprising a plurality of movable lenses movable with respect to the sensor array in the imaging-based bar code reader, the movable lens group movable together along a path of travel parallel to the optic axis, at least one lens of the plurality of stationary lenses being intermediate a pair of lenses of the plurality of movable lenses; as the movable lens group moves in a first direction along the path of travel, a focal length of the imaging lens assembly increasing and an angle of the field of view decreasing and, as the movable lens group moves in a second direction, opposite the first direction, along the path of travel, the focal length of the imaging lens assembly decreasing and the angle of the field of view increasing, an image plane of the imaging lens assembly remaining substantially aligned with the sensor array during movement of the movable lens group; and a drive mechanism comprising a single drive motor to drive the movable lens group along the path of travel. 2. The variable focus imaging lens assembly of claim 1 wherein the stationary lens assembly includes a first lens comprising a biconcave lens having a negative optic power and a spaced apart second lens comprising an achromatic doublet functioning as a field curvature corrector, the second lens being closer to the sensor array and the first lens being closer to the target bar code. 3. The variable focus imaging lens assembly of claim 2 wherein the movable lens group includes a first lens an achromatic double having a positive optic power and a spaced apart second lens comprising a biconvex lens having a positive optic power, the second lens being closer to the sensor array and the first lens being closer to the target bar code. 4. The variable focus imaging lens assembly of claim 3 wherein the lens assembly includes an aperture stop including an aperture in proximity to the first lens of the stationary lens group. 5. The variable focus imaging lens assembly of claim 4 wherein the aperture stop is stationary with respect to the sensor array. 6. The variable focus imaging lens assembly of claim 4 wherein the aperture stop moves with the movable lens group. 7. The variable focus imaging lens assembly of claim 1 wherein as the movable lens group moves in the first direction along the path of travel, a horizontal angle of the field of view decreases and, as the movable lens group moves in the second direction, opposite the first direction, along the path of travel, the horizontal angle of the field of view increases. 8. The variable focus imaging lens assembly of claim 1 wherein at least one lens of the stationary lens group and the movable lens group is fabricated from red plastic to filter out bandwidths of visible light other than light in the red portion of the visible light spectrum. 9. The variable focus imaging lens assembly of claim 1 wherein the aperture of the aperture stop is circular in shape. 10. The variable focus imaging lens assembly of claim 2 wherein the motor is a synchronous DC motor. 11. 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, the imaging system generating image frames of the field of view of the imaging system and including an imaging sensor array; and a variable focus imaging lens assembly for projecting light from the field of view onto the sensor array, the variable focus imaging lens assembly defining an optical path and including: a zoom lens assembly projecting light from the field of view onto the sensor array; the zoom lens assembly including a stationary lens group comprising a plurality of stationary lenses stationary with respect to the sensor array and a movable lens group comprising a plurality of movable lenses movable with respect to the sensor array in the imaging-based bar code reader, the movable lens group movable together along a path of travel parallel to the optic axis of the lens assembly, at least one lens of the plurality of stationary lenses being intermediate a pair of lenses of the plurality of movable lenses; as the movable lens group moves in a first direction along the path of travel, a focal length of the imaging lens assembly increasing and an angle of the field of view decreasing and, as the movable lens group moves in a second direction, opposite the first direction, along the path of travel, the focal length of the imaging lens assembly decreasing and the angle of the field of view increasing, an image plane of the imaging lens assembly remaining substantially aligned with the sensor array during movement of the movable lens group; and a drive mechanism comprising a single drive motor to drive the movable lens group along the path of travel. 12. The imaging-based bar code reader of claim 11 wherein the imaging system includes a focusing system for energizing the drive mechanism to drive the moving lens along the path of travel and analyzing successive image frames to determine an decodable image of the target bar code. 13. The imaging-based bar code reader of claim 11 wherein the stationary lens assembly includes a first lens comprising a biconcave lens having a negative optic power and a spaced apart second lens comprising an achromatic doublet functioning as a field curvature corrector, the second lens being closer to the sensor array and the second lens being closer to the target bar code. 14. The imaging-based bar code reader of claim 13 wherein the movable lens group includes a first lens an achromatic double having a positive optic power and a spaced apart second lens comprising a biconvex lens having a positive optic power, the second lens being closer to the sensor array and the first lens being closer to the target bar code. 15. The imaging-based bar code reader of claim 14 wherein the lens assembly includes an aperture stop including an aperture in proximity to the first lens of the stationary lens group. 16. The imaging-based bar code reader of claim 15 wherein the aperture stop is stationary with respect to the sensor array. 17. The imaging-based bar code reader of claim 15 wherein the aperture stop moves with the movable lens group. 18. The imaging-based bar code reader of claim 11 wherein as the movable lens group moves in the first direction along the path of travel, a horizontal angle of the field of view decreases and, as the movable lens group moves in the second direction, opposite the first direction, along the path of travel, the horizontal angle of the field of view increases. 19. The imaging-based bar code reader of claim 11 wherein at least one lens of the stationary lens group and the movable lens group is fabricated from red plastic to filter out bandwidths of visible light other than light in the red portion of the visible light spectrum. 20. The imaging-based bar code reader of claim 10 wherein the motor is a synchronous DC motor. 21. A method of imaging a target object utilizing an imaging-based bar code reader, the steps of method comprising: providing an imaging system comprising a camera assembly including a variable focus imaging lens assembly and a sensor array for focusing an image of a target object within a field of view of the camera assembly onto the sensor array; providing the variable focus imaging lens assembly for focusing light from the field of view onto the sensor array, the variable focus imaging lens assembly defining an optical path and including: a zoom lens assembly focusing light from the field of view onto the sensor array; the zoom lens assembly including a stationary lens group comprising a plurality of stationary lenses stationary with respect to the sensor array and a movable lens group comprising a plurality of movable lenses movable with respect to the sensor array in the imaging-based bar code reader, the movable lens group movable together along a path of travel parallel to the optic axis of the lens assembly, at least one lens of the plurality of stationary lenses being intermediate a pair of lenses of the plurality of movable lenses; as the movable lens group moves in a first direction along the path of travel, a focal length of the imaging lens assembly increasing and a horizontal angle of the field of view decreasing and, as the movable lens group moves in a second direction, opposite the first direction, along the path of travel, the focal length of the imaging lens assembly decreasing and a horizontal angle of the field of view increasing, an image plane of the imaging lens assembly remaining substantially aligned with the sensor array during movement of the movable lens group; and a drive mechanism comprising a single drive motor to drive the movable lens group along the path of travel; and energizing imaging system and imaging the target object. 22. A variable focus imaging lens assembly for an imaging system of an imaging-based bar code reader for imaging a target object within a field of view of the imaging system, the imaging system generating image frames of the field of view and including an imaging sensor array, the variable focus imaging lens assembly defining an optical axis and comprising: a zoom lens assembly means focusing light from the field of view onto the sensor array; the zoom lens assembly means including a stationary lens group means comprising a plurality of stationary lenses stationary with respect to the sensor array and a movable lens group means comprising a plurality of movable lenses movable with respect to the sensor array in the imaging-based bar code reader, the movable lens group means movable together along a path of travel parallel to the optic axis, at least one lens of the plurality of stationary lenses being intermediate a pair of lenses of the plurality of movable lenses, as the movable lens group means moves in a first direction along the path of travel, a focal length of the imaging lens assembly increasing and a horizontal angle of the field of view decreasing and, as the movable lens group means moves in a second direction, opposite the first direction, along the path of travel, the focal length of the imaging lens assembly decreasing and a horizontal angle of the field of view increasing, an image plane of the imaging lens assembly remaining substantially aligned with the sensor array during movement of the movable lens group; and a drive mechanism means comprising a single drive motor to drive the movable lens group along the path of travel.
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