Registers – Coded record sensors – Particular sensor structure
Reexamination Certificate
1998-12-07
2001-04-10
Lee, Michael G (Department: 2876)
Registers
Coded record sensors
Particular sensor structure
C235S462010, C235S462400
Reexamination Certificate
active
06213397
ABSTRACT:
BACKGROUND OF THE INVENTION
The field of the present invention generally relates to bar code scanning apparatus. More particularly, the field of the present invention relates to a method and apparatus for preferentially aligning the surfaces of an item with respect to a predetermined locus of positions defining an optimal scanning path for decoding a bar code label and a system for providing display of alphanumeric data and/or pictorial images or the like corresponding to the item being scanned.
Bar code scanners are well known for scanning the universal product code (“UPC”) and other types of bar codes on packages or containers, particularly in retail stores. Generally, in retail stores, bar code scanners are set up at check-out stands or are built into a horizontal check-out counter so that a laser beam is scanned up through a transparent window, defining a number of different scan lines. Normally, packages are placed by the customer on a counter, deck or conveyor. A check-out person then takes each package, visually locates the UPC or other bar code label on a surface of the package and moves the package through the laser's scanning area. One disadvantage of this technique is that the label must first be found and then the package must be held in a particular orientation in order to effect an accurate reading by the laser scanner decoding the bar code lines as the bar code moves through the scanning area. Misalignment of the bar code lines, or inadvertent movement of the package during the scanning operation can result in a misreading (or a non-read) of the bar code.
Conventional attempts to minimize or eliminate the participation of check-out personnel include a device such as described in U.S. Pat. No. 4,939,355. There, an item transported by a moving conveyor is subjected to a complex series of different scan patterns approaching from different sides of the item. This scanning requires a large depth of field for the scan beams. The item to be scanned is placed in any orientation on the scan belt. A scanning means generates scan lines in an X configuration for reading the object in virtually any orientation. Due to the infinite variations in product sizes, irregularities of shapes and differing locations of a bar code label on an item, conventional scanning methods too frequently fail to achieve a first successful read on the pass of the item scanned, which requires rescanning to obtain the data associated with the bar code label being decoded.
Additionally, conventional methods for bar code scanning provide the customer with an itemized listing, such as receipt list, of the items which were scanned. There is a time lag between the time that the items are scanned and the point at which the customer receives the itemized list. This time lag often results in a lack of customer recognition of the items and their associated prices. The lack of recognition inherent in a list, disassociated from the items as they are moving on a scanning path, may lead to customer misunderstanding and may slow down the check-out process at a retail point of sale.
Another problem associated with conventional automated scanning systems involves security. For example, in the method described in U.S. Pat. No. 4,676,343, the customer must look for each label and then scans the item in the conventional manner. The item is then placed on a conveyor belt for transport and item verification. This system is very slow because of the inexperience of the customer and because of the difficulty in finding the label. This method also does not provide adequate security because the customer can place a higher priced similar item on the belt.
An additional problem in a conventional automated scanning system is a substantial number of “no reads” when an item is not positioned properly in the scanning region. When an item has an irregularly shaped surface, the rate of no-reads tends to be higher for conventional automatic scanning systems.
SUMMARY OF THE INVENTION
One aspect of the present invention is directed to a data reading system and a method for data reading. In a preferred configuration, the data reading system, such as a bar code scanner, includes a scanner housing; a plurality of surfaces facing a scan volume; and sets of pattern mirrors positioned adjacent the respective surfaces, the housing being constructed to have at least a portion thereof positioned above the scan volume. In one embodiment, the housing contains a single scanning mechanism for producing scanning beams which are routed to the pattern mirrors and out through the respective surfaces into the scan volume. In another embodiment, the housing contains a multiple beam source for generating a plurality of laser beams which are routed to the pattern mirrors and out through the respective surfaces into the scan volume.
According to another embodiment, the bar code scanning system provides an improved through-put such as may be used in a checker-less retail checkout for scanning a bar code label on at least two surfaces of an item moving along an item path and through a scanning region.
According to another embodiment, a transporter moves an item along an item path and through a scanning region wherein the focal plane of a laser scanner is automatically oriented in optimal coplanar alignment with a surface of the item being scanned. The transporter may comprise a first belt having a surface for moving the item along the item path and a second belt disposed substantially at 90° to the first belt and moving in a parallel direction. The belts are preferably tilted at approximately 30° to the horizontal so that an item placed on either belt will have at least two surfaces stably registered by gravity, one surface to each supporting surface of the belt.
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Cyr Daniel St.
Lee Michael G
Lyon & Lyon LLP
PSC Scanning Inc.
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