Optical: systems and elements – Deflection using a moving element – Using a periodically moving element
Reexamination Certificate
1999-06-16
2001-04-03
Phan, James (Department: 2872)
Optical: systems and elements
Deflection using a moving element
Using a periodically moving element
C359S871000, C359S198100
Reexamination Certificate
active
06211990
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to optical scanning devices, and more particularly to a laser bar code scanner which folds the scan beam to generate a straight scan beam and increase scan beam width near the scanner.
BACKGROUND OF THE INVENTION
Laser bar code scanners employ a focused beam of light to repetitively scan across a bar code label. Typically, the scanning is produced by dynamic deflection of the source beam off of a rotating polygon reflector. Laser light reflections containing information from the scanned bar code are sensed in a photodetector. The bar code label encodes information as a series of bars of various widths formed on a contrasting background. The difference between the reflectance of the bars compared to the spaces produces a modulated optical signal. The detected optical signal representing reflections from the label is then converted into an electrical signal by the photodetector and that signal is further processed and then decoded.
A general and long known problem with laser bar code scanners is that the width of the scanning beam becomes narrower the closer the scanned object is to the scanner. The narrowing of the scanning area often requires that the item to be scanned be positioned carefully in a predetermined target area to ensure that the bar code is properly scanned.
One solution to reducing the above targeting constraint is to increase the distance between the object to be scanned and the scanner. This may not always be desirable. Also, there are circumstances in which proximity between the scanner and the object to be scanned is essential. Another solution is to increase the optical path within the scanner so that the exiting scan beam is wider. While this method is effective, it usually requires increasing the dimensions of the scanning device which is usually undesirable, and can make the device entirely impractical for a number of applications.
One solution to the problem of widening the scanning area close to the scanner is to use a beam folding mirror to increase the optical path within the scanner housing, thereby increasing the scanning width, without commensurate increase in size of the scanner. However, while folding mirrors work quite well in other applications, including cameras and telescopes, mirrors introduce optical path distortion when used in conjunction with scanning reflectors (e.g. rotating polygon scan reflectors). One of the most serious problems is the generation of a curved scanning beam.
The curved scanning beam is commonly referred to as either a “sad” or “smile” face scan beam pattern. The “sad” or “smile” face scan pattern is generated by the distance translation of a rotating polygon reflector and a flat fold mirror about the polygon.
There is a need for a compact laser bar code scanner that produces a wide scanning area even when object to be scanned is placed close to the scanner. There is a further need that the beam have a flat, non-distorted scanning beam that can be produced by a compact laser bar code scanner that is reliable and economical to manufacture.
SUMMARY OF THE INVENTION
In accordance with one aspect of the present invention, a retroreflector is incorporated after a moving reflector so as to increase the width of the scanning beam and eliminate the curvature of the scan pattern. The retroreflector increases the scanning area width by folding, thereby effectively lengthening, the optical path within the scanner housing. Through the use of this technique it is possible to produce a compact scanner which, for example, can produce a scan width of 4 inches at a distance of 2 inches from the scanner.
The retroreflector may, for example, be a 90 degree prism, a corner cube, or two plane mirrors forming 90 degrees. A dynamically reflected beam from a moving reflector enters the retroreflector in one plane and exits in another plane in the opposite direction and parallel to the entering beam. Thus, the input beam from a light source forming a 90 degree angle with the vertical side of the scanning reflector facet will exit at 90 degrees after folding from the retroreflector and without any scanning beam curvature.
In the preferred embodiment the optical component of the present invention are held in position by a unitary mounting structure, also referred to as an “optical bench”, which eliminates the need for adjusting the optical system. The optical bench not only eliminates the need for tuning the optical system but increases the stability of the system over time. The optical bench may be manufactured from any number of well known materials including metals, plastics, and ceramics. An additional benefit is that the optical bench can be die cast or injection molded which reduces the fabrication costs.
As discussed, the laser scanning system is based upon a rotating polygon. In the preferred embodiment the laser is of a type having a multiple quantum well design. The size of the polygon is dictated by the type of motor used, and the particular dimensions will depend upon rotation speed of the motor and the desired scan width. In the preferred embodiment the polygon has between 8 and 12 facets.
The present invention significantly improves upon the prior art by allowing the construction of a compact scanning device with a folded optical path providing an increased scanning width without suffering beam curvature. These and other features of the present invention will be more fully appreciated when considered in light of the following detailed description and drawings.
REFERENCES:
patent: 5457550 (1995-10-01), Baba et al.
Chin Wai-Fai
Scharf Bruce R.
Thomas James E.
Graybeal Jackson Haley LLP
Microscan Systems Incorporated
Phan James
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