Method of blocking a portion of illumination rays generated by a countertop-supported digital imaging system, and preventing illumination rays from striking the eyes of the system operator or nearby consumer during operation of said countertop-supported digital image capture and processing system installed at a retail point of sale (POS) station

1. A method of blocking a protion of illumination rays generated by an automatically-triggered countertop-supported digital imaging system, and preventing illumination rays from striking the eyes of the system operator or nearby consumers during operation thereof at a retail point of sale (POS) station, said method comprising the steps of:

• (a) supporting an automatically-triggered digital image capture and processing system upon a countertop surface of a point of sale (POS) environment where a human operator and customers happen to be present during object illumination and imaging operations, wherein said automatically-triggered digital image capture and processing system includes(1) a housing including an imaging window having upper and lower edge portions, and provided with a light ray blocking shroud portion disposed immediately above said upper edge portion,(2) an image formation and detection subsytem, disposed in said housing, and having image formation optics for projecting a field of view (FOV) through said imaging window and onto an area-type image detection array, for forming and detecting 2D digital images of an object in said FOV, during object illumination and imaging operations,(3) an automatic object detection subsystem, disposed in said housing, for detecting the presence of object in said FOV and automatically generating a trigger event signal in response thereto,(4) an illumination subsytem, disposed in said housing, having a single array of LEDs, disposed behind said upper edge portion of said imaging window, for generating a field of visible illumination that reflects off an object within said FOV and is transmitted back through said imaging window and onto said area-type image detection array to form one or more 2D digital images of said object.(5) an image capturing and buffering subsystem, disposed in said housing , for capturing and buffering 2D digital images detected by said image formation and detection subsytem,(6) a digital image processing subsystem, disposed in said housing, for processing 2D digital images captured and buffered by said image capturing and buffering subsystem and reading one or more 1D and/or 2D code sysmbols graphically represented therein, and generating symbol character data representative of said read 1D and/or 2D code symbols, and(7) a system control subsystem, disposed in said housing and responsive to said trigger event signal, for controlling and/or coordinating one or more said subsytems during object illumination and imaging operation so that an object present in said FOV will be automatically illuminated and imaged by said system;
  
  (b) adjusting said housing relative to said countertop surface so rthat said field of visible illumination generated from said single array of LEDs, is confined below the field of view of the system operator and customers who happeen to be present during object illumination and imaging operations; and
  
  (c) presenting an object bearing a code symbol, within said FOV so that (i) said automatic object;
  
  detection subsystem automatically detects said object and generates said trigger event signal, (ii) said illumination subsystem automatically illuminates said object within said FOV while said light ray blocking shroud portion blocks a portion of illumination rays generated from said single array of LEDs and projected above and outside of said FOV, and prevents said illumination rays from striking the eyes of the system operator or nearby consumers during object illumination and imaging operations, (iii) said image formation and detection subsystem automatically forms and detects one or more 2D digital images of the illuminated object, (iv) said image capturing and buffering subsystem automatically captures and buffers the 2D digital images, and (v) said digital image processing subsystem automatically processes said buffered 2D digital images in an attempt to read one or more 1D and/or 2D code symbols graphically represented therein and generate symbol character data representative of code symbols read.