Abstract:
A panel or reel strip of a gaming device that selectively enables light to shine through the panel or reel strip and enables the intensity of the light to be varied. The present invention also provides an efficient and productive method for developing and producing the panel or reel strip, and which provides a bright and rich color quality. In one embodiment, a transparent medium has a digital image produced on one side and has a layer of silk-screened ink placed on the opposite side. The non-inked areas enable back-lighting to make matching colors of the digital image appear to glow, that is, let a high amount of light pass through the medium. The inked areas enable outside light to reflect off the matching colors of the digital image, brightening such colors and making them appear rich and full of color.

Description:
PRIORITY CLAIM  
         [0001]    This application is a non-provisional application which claims the benefit of U.S. Patent Provisional Application Serial No. 60/329,807, filed Oct. 15, 2001.  
         COPYRIGHT NOTICE  
         [0002]    A portion of the disclosure of this patent document contains or may contain material which is subject to copyright protection. The copyright owner has no objection to the photocopy reproduction by anyone of the patent document or the patent disclosure in exactly the form it appears in the Patent and Trademark Office patent file or records, but otherwise reserves all copyright rights whatsoever.  
         BACKGROUND OF THE INVENTION  
         [0003]    The present invention relates to gaming devices. More particularly, the present invention relates to a gaming device having a multicolored display panel and a method for making gaming devices.  
           [0004]    Gaming device manufacturers provide gaming machines such as slot machines employing a plurality of reels which each have a plurality of symbols. In these gaming machines, the player spins the reels, which produce a random generation of a combination of symbols. If the generated combination or a portion of the combination matches one of a number of predetermined award producing or winning combinations, the player receives an award. The award is commonly one or more credits that the player can play or redeem for money.  
           [0005]    Gaming device manufactures also provide video poker games that generate credits for the player. The player can either use the awarded credits to play more poker hands or redeem the credits for money. These examples as well as many other types of gaming machines award credits to the player.  
           [0006]    To increase player enjoyment and excitement, and to increase the popularity of the gaming machines, gaming device manufacturers constantly strive to make their gaming devices as fun, exciting and attractive as possible. Certain manufactures therefore go to great lengths in creating artwork that provides a distinct look and feel to each gaming machine and that also conveys a theme for the machine. When a player is deciding which machine to play, the player may pick the one that “looks” like the most fun or looks the most attractive.  
           [0007]    Historically, gaming device manufacturers have used a well known silk screening process to color the glass or plastic that often resides above and in front, below the reels or video displays and other controls of the gaming device. While silk screening provides relatively satisfactory results, it has certain disadvantages. For example, a separate screen must be made for each color that is to be applied to the glass or plastic. The manufacturer brings a first screen into registry with the glass or plastic to apply the first color. The first color must dry before a second color is applied and so on. The preparation of a silk-screened, multicolored gaming device panel is therefore time consuming and cumbersome. Another disadvantage with known silk-screening techniques is that certain colors or shades of colors known such as flesh tones or halftones have typically not been suitably achieved.  
           [0008]    One solution to the problems associated with silk-screening is to use digital imaging instead of silk screening to create a design on the glass or plastic panel. There are many devices that produce digital images on a clear media. This media can be adhered to a piece of glass, plastic or mirror. These devices include standard color printers or more advanced dry film printers or drum-type printers. A problem with digital imaging is that the colors produced by the digital printers are typically not rich as colors produced by conventional screen printing. That is, too much light shines through the imaged surface and the images do not reflect outside light well.  
           [0009]    For gaming devices, while digital imaging is flexible, repeatable and efficient, silk-screening typically provides a richer looking panel. A need therefore exists to provide an apparatus and method that combines the benefits individually provided by silk-screening and digital images in the production of gaming device displays.  
         SUMMARY OF THE INVENTION  
         [0010]    The present invention provides a panel, reel strip or other display of a gaming device that selectively enables light to shine through the panel or reel strip and enables the intensity of the light to be varied. The present invention also provides an efficient and productive method for developing and producing the panel, reel strip or other display and which provides a bright and rich color quality. In one embodiment of the present invention, a transparent medium has a digital image produced on one side and has a layer of silk-screened ink placed on the opposite side. The non-inked areas enable back-lighting to make matching colors of the digital image appear to glow (i.e., let a high amount of light pass through). The inked areas enable outside light to reflect off the matching colors of the digital image, brightening such colors and making them appear rich or full of color.  
           [0011]    The process to produce the panel, reel strip or display is efficient, flexible, repeatable and is less costly than typical silk-screening processes that require multiple stencils or screens and multiple inking sessions and cure periods. The process often only requires one layer of silkscreen ink, which in one embodiment is white to enable some light to pass through the matching colors of the digital image. For certain designs, the present invention may require more than one layer of ink, but less than the layers required for silk-screening the same designs. The layer of white ink makes portions of the transparent medium non-transparent. Other portions of the transparent medium are left transparent, where the designer wishes the panel or reel strip to glow. The designer can alternatively silkscreen darker and darker or even black ink, or combinations thereof, to make the digital image colors appear more and more opaque. Also, if the digital image produces dark blue or black colors, the corresponding areas having these colors can appear virtually opaque.  
           [0012]    In another embodiment, a plurality of silkscreen layers are applied, which selectively make portions of the panel, reel strip or display opaque or translucent. Here, a white silkscreen layer is applied to a reverse side of the transparent medium from the digital image. The white layer makes the transparent medium translucent. A dark or black layer of ink is selectively silk-screened onto the white ink layer, making those areas opaque. In this embodiment, the entire panel, reel strip or display appears rich and bright due to the initial layer of white ink.  
           [0013]    The portions of the white silk-screened side of the medium that are not additionally silk-screened with dark colors enable some back lighting to shine through and cause selected symbols or indicia to be highlighted relative to the opaque colors. The portions of the white silkscreen side of the medium that do have additional silk-screened layers appear even fuller or richer. In this alternative arrangement, certain areas of the medium can be left transparent to further highlight selected areas. It should be appreciated that the two or three silk-screened layers of this embodiment still provide a substantial reduction in time, cost and energy from registering silk-screening and multiple colors as is presently known.  
           [0014]    Each of the above embodiments preferably includes a protective coating, which protects the silk-screened ink from environmental hazards and from damage due to handling. Also, each of the above embodiments can include a layer of adhesive or other device for enabling the medium to adhere or attach to a panel or substrate, such as a piece of glass or plastic.  
           [0015]    It is therefore an advantage of the present invention to provide a gaming device display produced by a method that combines the benefits individually provided by silk-screening and digital imaging.  
           [0016]    Another advantage of the present invention is to provide a method that efficiently produces multicolored gaming device displays.  
           [0017]    A further advantage of the present invention is to provide repeatable multicolored gaming device displays.  
           [0018]    Yet another advantage of the present invention is to provide a method that fosters flexibility, complexity and versatility in the design of multicolored gaming device displays.  
           [0019]    Still another advantage of the present invention is to provide a method for producing multicolored gaming device displays that reduces the cost, development time, prototyping time and lead time associated with silk-screening.  
           [0020]    An additional advantage of the present invention is to provide a method for producing multicolored gaming device displays that increases the productivity of silk-screened displays.  
           [0021]    Still a further advantage of the present invention is to provide a multicolored gaming device display that has enhanced color saturation, color richness and color reflectivity.  
           [0022]    Still another advantage of the present invention is to provide a multicolored gaming device display having translucently colored areas.  
           [0023]    Additional features and advantages of the present invention are described in, and will be apparent from, the following Detailed Description of the Invention and the figures. 
       
    
    
     BRIEF DESCRIPTION OF THE FIGURES  
       [0024]    [0024]FIGS. 1A and 1B are perspective views illustrating alternative embodiments of the gaming device of the present invention.  
         [0025]    [0025]FIG. 2 is an exploded perspective view illustrating an improved panel or display produced according to one embodiment of a method of the present invention.  
         [0026]    [0026]FIG. 3 is an exploded perspective view illustrating an improved reel strip or display produced according to one embodiment of a method of the present invention.  
         [0027]    [0027]FIG. 4 is a schematic process flow diagram illustrating one embodiment of a method of the present invention. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
     Gaming Device and Electronics  
       [0028]    Referring now to the drawings, and in particular to FIGS. 1A and 1B, gaming device  10   a  and gaming device  10   b  illustrate two possible cabinet styles and display arrangements and are collectively referred to herein as gaming device  10 . The gaming device of the present invention has the controls, displays and features of a conventional gaming machine. The player may operate the gaming device while standing or sitting. Gaming device  10  also includes slant top style gaming device (not shown), which a player operates while sitting.  
         [0029]    The gaming device  10  may include any slot, poker, blackjack, keno, or other base or primary game. The gaming device  10  may also include any secondary or bonus triggering events, bonus or secondary games as well as any progressive game coordinating with these base or bonus games. The symbols and indicia used for any of the base, bonus and progressive games include mechanical, electronic, electrical or video symbols and indicia.  
         [0030]    The gaming device  10  preferably includes monetary input devices. FIGS. 1A and 1B illustrate a coin slot  12  for coins or tokens and/or a payment acceptor  14  for cash money. The payment acceptor  14  may also include other devices for accepting payment, such as readers or validators for credit cards, debit cards or smart cards, tickets, notes, etc. When a player inserts money in gaming device  10 , a number of credits corresponding to the amount deposited is shown in a credit display  16 . After depositing the appropriate amount of money, a player begins the game by pulling arm  18  or pushing play button  20 .  
         [0031]    As shown in FIGS. 1A and 1B, gaming device  10  also includes a bet display  22  and a bet one button  24 . The player places a bet by pushing the bet one button  24 . The player increases the bet by one credit each time the player pushes the bet one button  24 . When the player pushes the bet one button  24 , the number of credits shown in the credit display  16  decreases by one, and the number of credits shown in the bet display  22  increases by one. A player may “cash out” by pushing a cash out button  26  to receive coins or tokens in the coin payout tray  28  or other forms of payment, such as an amount printed on a ticket or credited to a credit card, debit card or smart card.  
         [0032]    Gaming device  10  also includes one or more display devices. The embodiment shown in FIG. 1A includes a central display device  30 , and the alternative embodiment shown in FIG. 1B includes a central display device  30  as well as an upper display device  32 . The display devices display any visual representation or exhibition, including but not limited to movement of physical objects such as mechanical reels and wheels, dynamic lighting and video images. The display device includes any viewing surface such as glass, a video monitor or screen, a liquid crystal display or any other static or dynamic display mechanism. In a video poker, blackjack or other card gaming machine embodiment, the display device includes displaying one or more cards. In a keno embodiment, the display device includes displaying numbers.  
         [0033]    If the primary game is a slot game, the slot base game of gaming device  10  preferably displays a plurality of reels  34  such as three to five reels  34  in mechanical or video form on one or more of the display devices. Each reel  34  displays a plurality of indicia such as bells, hearts, fruits, numbers, letters, bars or other images or symbols which preferably correspond to a theme associated with the gaming device  10 . If the reels  34  are in video form, the display device displaying the video reels  34  is preferably a video monitor. Each gaming device  10  includes speakers  36  for making sounds or playing music as described below.  
         [0034]    With reference to the slot machine base game of FIGS. 1A and 1B, to operate the gaming device  10 , the player inserts the appropriate amount of tokens or money in the coin slot  12  or the payment acceptor  14  and then pulls the arm  18  or pushes the play button  20 . The reels  34  then begin to spin. Eventually, the reels  34  come to a stop. As long as the player has credits remaining, the player can spin the reels  34  again. Depending upon where the reels  34  stop, the player may or may not win additional credits.  
         [0035]    In addition to winning base game credits, the gaming device  10  may also include one or more bonus games that give players the opportunity to win credits. The gaming device  10  may employ a video-based display device  30  or  32  for the bonus games. The bonus games include a program that automatically begins when the player achieves a qualifying condition in the base game.  
         [0036]    In FIG. 1A, the reels  34  in an embodiment are simulated and the display device  30  is a video monitor. In certain instances the video display device  30  does not display the reels  34 . For example, if a bonus game is triggered, the reel display discontinues and the bonus game display begins. The video display  30  may therefore include a touch screen that enables a player to input decisions into the gaming device  10  by sending a discrete signal based on the area of the touch screen that the player touches or presses. When the bonus game ends, gaming device  10  redisplays the reels  34 .  
         [0037]    In FIG. 1B, the reels  34  are mechanical and the central display device  30  is a mechanical display device having back lighting and any other features commonly found in connection with mechanical reels. To display a bonus game in combination with the mechanical reels  34  of the FIG. 1B, the upper display device  32  displays the bonus game. In such a case, the display device  32  is in an embodiment a video monitor and may include a touch screen. Here, the upper display device  32  remains blank or displays other indicia until a bonus game is triggered, whereby the video display device  32  displays the bonus game. When the bonus game ends, the upper display device  32  returns to a blank screen or screen having other indicia.  
         [0038]    Any exposed area on the cabinet of gaming device  10 , especially exposed areas facing the front of the gaming device, which are not consumed by one of the display devices  30  or  32  or the other functional components described above, may include the panels or displays of the present invention. In particular, the lower panel  38  on both the embodiments  10   a  and  10   b  of FIGS. 1A and 1B comprises a panel of one embodiment of the present invention. In FIG. 1A, one or both the lower panel  38  and the upper panel  40  are panels of the present invention.  
         [0039]    Referring now to FIG. 2, one embodiment of an improved panel or display  38  or  40  of the present invention is illustrated. While the panels or displays  38  and  40  are illustrated in FIGS. 1A and 1B as being lower front and upper front panels, respectively, panels or displays  38  and  40  may be disposed in any open location on the gaming device  10 . The panel or display  38  or  40  includes a medium  42  having a positive image or indicia  44 . In this case, the positive image  44  is the word “NEON.” The positive image or indicia may be any image or indicia including words, objects, symbols, people, characters, structures, scenes, places, etc. Positive image  44  is produced by a digital imaging device and therefore may have any number of different colors including flesh tones and halftones.  
         [0040]    The medium  42  includes any suitable clear film or plastic, which exposes or enables the image  44  to be displayed. In a simplified embodiment, the medium  42  can be a clear plastic sheet that is sent through a color printer. The medium  42  in one embodiment is translucent. In a preferred embodiment, however, the medium  42  is transparent, so that a maximum amount of light passes through the medium.  
         [0041]    In a preferred embodiment, the imaged medium  42  is a DURACLEAR™ display material by KODAK™. The DURACLEAR™ display material has a clear-base color transparency material  42   a,  which is polyester of approximately 7 mils in thickness. The DURACLEAR™ display material has a layer of emulsion  42   b  of approximately 1 mil thickness. The image  44  is produced by an RA-4 process known to those of skill in the art. The RA-4 process generally involves the use of specialized chemicals, such as KODAK EKTACOLOR RA™ chemicals. Processing these materials in continuous roller transport processors, in trays, rotary tube processors or drum processors is know to those of skill in the art.  
         [0042]    For the panels  38  and  40 , a layer of double sided adhesive  46  is placed on the imaged side  42   b  of the medium  42 . The double sided adhesive  46  can be any such adhesive known to those of skill in the art. The double sided adhesive  46  is in one embodiment transparent and has a thickness of approximately three mils. The double sided adhesive  46  in an embodiment has a release liner  47 , which is disposed on the opposite side of the adhesive  46  from the medium  42 . Release liner  47  enables an operator to handle the double sided adhesive  46  and properly place it over the image  44  of the medium  42 . It should be appreciated that the adhesive  46  is only necessary when the medium  42  is to be adhered to a substrate, such as the substrate  52 .  
         [0043]    A silkscreen layer  48  is applied to the back of medium  42 . That is, silkscreen layer  48  adheres to the transparency material  42   a  in the preferred embodiment. The silkscreen layer  48  is applied through any suitable method of silk-screening known to those of skill in the art. In a preferred embodiment, the layer  48  is a UV ink that is sent through a UV reactor to be cured.  
         [0044]    The silkscreen layer  48  defines the same image  44  that appears as a positive image on the emulsion layer  42   b  of the medium  42 . In a preferred embodiment, the silkscreen layer  48  is white and has the effect of making the transparent medium  42  translucent. The image  44  of the silkscreen layer  48  includes no UV ink, so that the light from light source  54  passes through the image  44  of the silkscreen layer  48 . The overall effect is that a color  45  of the medium  42  appears richer and brighter because of the silkscreen layer  48  and the light shining through the image  44  of the medium  42  appears to make the image  44  glow or shine. The image  44  is thereby highlighted with respect to the surrounding color  45 .  
         [0045]    In this manner, the designer can selectively pick areas of the panel  38  or  40  that are more brightly back lit than other areas of the panel  38  or  40 . By starting with a transparent material  42   a,  the white silkscreen layer  48  is selectively applied in the areas that the designer does not wish to be as brightly back lit. These areas however will reflect light from a source  56  outside of the gaming device  10  more readily than will the image  44  of the medium  42 . In a preferred embodiment, the areas such as the image  44  that are not covered with silkscreen layer  48  and thereby made to be transparent are relatively small in area, such as the word “NEON”. If the transparent area becomes too large, the panel  38  or  40  may begin too look washed out or dull.  
         [0046]    A layer of laminate  50  covers the back of the panel  48 , including the preferably white silkscreen of the layer  48  and the area of the non-inked image  44 . The laminate  50  in one embodiment is optically clear polyester of approximately 1.5 mils. The transparent layer  50  enables all light from the light source  54  to pass through the layer. The layer  50  is applied for the purpose of protecting the silkscreen layer  48 . That is, the laminate  50  keeps the silkscreen ink from being scratched or peeled off and protects the silkscreen ink from environmental exposure and handling damage.  
         [0047]    In one embodiment, the imaged medium  42 , the double sided adhesive  46 , the silkscreen layer  48  and the laminate  50  are applied to a substrate  52  to produce the panel  38  or  40 . The substrate  52  may be any clear glass or plastic known to those of skill in the art. In one embodiment, substrate  52  is {fraction (3/16)} inch (4.8 millimeters) thick. In a preferred embodiment, the substrate  52  is glass, which may be tempered.  
         [0048]    Referring to FIG. 3, one embodiment of an improved reel or reel strip  34  of the present invention is illustrated. The reel strip  34  includes a medium  58  having a positive image  60 . In this case, the positive image  60  is the letter “7.” The image or indicia  60 , which is a symbol of the reel  34 , may be any image including words, objects, symbols, people, characters, structures, scenes, places, etc. The image  60  has again been produced by a digital imaging device and therefore may have any number of different colors including flesh tones and half tones.  
         [0049]    The medium  58  again includes any clear film or plastic that exposes or enables the image or indicia  60  to be displayed. In a preferred embodiment, the medium  58  is transparent, however, in an alternative embodiment the medium  58  is translucent.  
         [0050]    The imaged medium  58  in a preferred embodiment is a DURACLEAR™ material. The DURACLEAR™ display material of the reel  34  has a clear-base color transparency material  58   a  which is polyester of approximately 7 mils in thickness. The DURACLEAR™ display material also has the emulsion layer  58   b  of approximately one mil thickness. The image  60  is in one embodiment produced by the RA-4 process known to those of skill in the art.  
         [0051]    For reference, a portion of separate symbols  62  and  64  are illustrated. The symbol  62  resides above the image  60 . The symbol  64  resides below the image  60 . Both the symbol  62  and the symbol  64  are produced through the RA-4 process described above.  
         [0052]    Because the medium  58  does not mount to a substrate, such as the substrate  52  of FIG. 2, the double sided adhesive layer  46  of FIG. 2 is not necessary. Instead, the medium  58  receives two silkscreen layers  64  and  66 . In the art of silk-screening, it is well known to apply a plurality of different colors using various screens, wherein one screen is used for each different color. Typically, a first color is applied and cured before a second color is applied, and so on.  
         [0053]    Here a first layer of silkscreen ink  64  adheres to the back of the transparency material  58   a  of the medium  58 . The silkscreen ink  64  is again preferably UV ink that is cured in a UV reactor. The UV ink layer  64  is preferably white. The white layer enables light emanating from light source  56  outside of the gaming device  10  to more readily reflect off of the colors of the image  60  and the symbols  62  and  64 . That is, the symbols appear more rich and more brightly when the white silkscreen layer  64  adheres to the back of the medium  58 .  
         [0054]    The second silk screen layer  66  adheres to and resides on the first silkscreen layer  64  except in areas where the designer wishes back light from a light source  54  behind the reel  34  to shine through to the front of the gaming device  10 . In this instance, the designer wishes the back light  54  to shine through and highlight the lucky 7 image  60  of the reel  58 . Therefore, the silkscreen layer  66  is not applied in the area of image  60 , which defines the number 7. In one embodiment, the second silkscreen layer  66  is black UV ink, which absorbs all of the back light from source  54 . Other dark colors, such as dark blue, would also serve the purpose of absorbing most of the back light  54 . The lucky 7 image  60  is thereby highlighted with respect to the other symbols  62  and  64  of the reel strip  34 .  
         [0055]    In alternative embodiments, a portion of the medium  58  is not inked so that a portion of the reel  34  remains transparent to further highlight selected areas. Further, alternatively, the embodiment of FIG. 3 can be produced using a translucent medium, such as DURATRANS™ day and night media by KODAK, instead of a transparent medium. Here, only a single dark or black silk-screened ink is selectively applied to produce the translucent and non-translucent image. Still further alternatively, a panel  38  or  40  can be made according to the dual inking process disclosed in connection with FIG. 3 and a reel  34  can be made according the single inking process disclosed in connection with FIG. 2.  
         [0056]    As with the panel  38  or  40  of FIG. 2, the silkscreen layers  64  and  66  of the reel strip  34  are also in a preferred embodiment protected by a layer of laminate  68 . The laminate  68  is again in one preferred embodiment a layer polyester of approximately 1.5 mils thickness. The polyester layer protects the silkscreen layers  64  and  66  from scratching, tearing and moisture.  
         [0057]    Referring now to FIG. 4, one embodiment of a method  100  for the present invention is illustrated. The method  100  includes both embodiments for producing either a panel or a reel strip. The first step is to create a file for the digital image, as indicated by block  102 . Typically, a designer draws and/or renders the digital image on a computer screen using known drawing software. The present invention includes any type of drawing software, image enhancement system, as well as PC and Macintosh™ files.  
         [0058]    The next step is to take the digital image in the format created by the designer and to convert that format to the proper format for the imaging device, as indicated by block  104 . Depending upon the imaging device, the format of the digital file may or may not need to be changed or converted. For example, if the digital image is created using a drawing package that outputs a .dwg file, the drawing may be sent directly to a printer or plotter that produces the digital image without having to convert the file. The preferred imaging device described in more detail below requires that the drawing file be converted to a 24 bit Tiff file.  
         [0059]    The designer then sends the digital image to the imaging device, as indicated by block  106 . The digital imaging device can be any device known to those of skill in the art that produces a color image on a transparent or translucent film. The imaging device therefore includes laser printers, ink jet printers, plotters, scanners, dry film printers, drum-type printers or any other device capable of producing a multicolored image on a transparent or translucent substrate.  
         [0060]    In the preferred embodiment, the digital imaging device includes a Durst Lambda™ 130 photographic imager. The Durst Lambda™ 130 imager outputs media up to 50 inches (127 cm) wide. The Durst Lambda™ 130 imager is a direct digital photographic printer that exposes a digital image directly from a computer file without the need for a negative or transparency. The Durst Lambda™ prints onto the emulsion layers  42   b  and  58   b  described above in connection with FIGS. 2 and 3, which include photographic silver-halide materials (color negative papers).  
         [0061]    The photographic imager in an embodiment uses lasers including red, green and blue lasers to form a single calibrated beam of white light to expose the emulsion. The photographic imager can expose up to 200 ft (60 m) of the medium. Digital images having resolutions between 200 and 400 ppi (pixel per inch) may be achieved. Each color pixel is specified by one of 256 distinct levels of red, green and blue information and is imaged as one continuous tone point, achieving 16.7 million possible colors.  
         [0062]    As indicated by block  108 , the preferred photographic imaging device of the present invention includes two sub-steps indicated by blocks  108   a  and  108   b.  In the step indicated by block  108   a,  the digital image is sent to the photographic printer. The photographic printer which is in a preferred embodiment the Durst Lambda™ printer described above, includes a plurality of feed rolls of unexposed medium such as the DURACLEAR™ medium described above in connection with the medium  42  and the medium  58 . The printer in an embodiment includes five of such rolls. The rolls may be of different sizes, for example, be capable of receiving a digital image of up to 50 inches (127 cm).  
         [0063]    The panels  38  and  40  in one embodiment are 30 inches (76.2 cm) or 40 inches (101.6 cm) wide. The designer or operator selects one of the turrets or rolls from which to expose the digital image and also a number of digital images to print. The selected feed roll or turret unwinds the necessary medium, and a take-up roll receives the medium after the film has been exposed. The imaging machine cuts the film after the defined number of digital images have been exposed.  
         [0064]    In the step indicated by block  108   b,  the take-up roll is removed from the photographic printer and transported to a photographic developer. The imaging device of the preferred embodiment therefore includes the photographic printer and the photographic developer. The process of exposing the image onto the medium with the layer of emulsion and transporting the exposed medium to the photographic developer is done in the dark so as not to prematurely develop the exposed medium, as is well known to those of skill in the art. A suitable photographic developer may be obtained from Colex Imaging Inc., Paramus, N.J. The Colex photographic processor is used to perform the RA-4 process. The photographic developer accepts the roll of exposed medium, unrolls the roll and develops the exposed image via the RA-4 process. The digital image then appears as a positive set of colors on the transparent material and is no longer light sensitive.  
         [0065]    If the imaged medium is eventually displayed on a panel  38  or  40 , the imaged medium is mounted to a substrate or glass, as indicated by diamond  110 . If the imaged medium is eventually displayed on a reel strip  34 , the imaged medium is not mounted to a substrate or glass as also indicated by diamond  110 .  
         [0066]    When the imaged medium is to be mounted on a reel strip, the next step is to cut the imaged medium to the proper reel strip size, as indicated by block  114 . Next, an operator silk-screens the non-imaged side of the imaged medium with a first color, as indicated by block  116 . As described above, the first layer of silk-screened ink is preferably white and covers all of or most of the non-imaged side of the medium. The operator then sends the medium having the first silkscreen layer of ink through a UV reactor, as indicated by block  120 . The UV reactor cures the first layer of silk-screened ink as is well known. The operator then silk-screens selected areas of the non-imaged side of the medium with a second color, as indicated by block  122 . As described above, the second layer of silk-screened ink is preferably light absorbing and most preferably black. The imaged medium then passes through the UV reactor another time with the second layer of silk-screened ink to cure the second layer, as indicated by block  124 .  
         [0067]    It should be appreciated that any number of layers of silk-screened ink may be applied to the non-imaged side of the medium, however, one of the advantages of the present invention is that the normal process of silk-screening is greatly simplified. First, only two layers of silk-screened ink are applied. Second, the first layer is applied to all or substantially all of the digitally imaged medium, so that the silkscreen process is greatly simplified. Also, the first layer is made without precisely registering the medium in any particular position. Further, FIG. 3 illustrates that the second layer of silk-screened ink  66  is also relatively simple and serves to highlight certain symbols on the reel strip, such as symbols that may represent a large award for the player.  
         [0068]    The reel strip  34 , with the multiple layers of silk-screened ink and the digitized image, receives a protective coating  68  to protect the silk-screened ink, as indicated by block  126 . As described above, the protective coating in one preferred embodiment is a 1.5 mil layer of polyester. In other embodiments, any type of clear protective film or plastic may be used.  
         [0069]    Referring now to the panel embodiment, after the image is developed onto the medium, an operator applies the preferably double sided adhesive to the imaged side of the medium, as indicated by block  112 . The operator cuts the image to the proper size as indicated by block  114 . As stated above, in one preferred embodiment, the width of the panel is 40 inches (101.6 cm), which is established by the width of the selected feed roll. The operator then cuts the medium to the proper height. If the medium contains a number of different images, the operator cuts or separates the images.  
         [0070]    The non-imaged side of the medium receives a layer of silk-screened ink, as indicated by block  118 . In the panel  38  or  40 , as described above, the silkscreen blocks the ink from adhering to certain areas that the designer wishes to have enhanced back lighting. These areas in one preferred embodiment are relatively small and are limited to words or special symbols. The layer of silk-screened ink in an embodiment is white, which lets some back light through the panel, but also enables outside light to reflect and produce a rich and bright image on the front of the glass.  
         [0071]    The operator in an embodiment only applies a single silkscreen layer, which makes certain areas of the transparent medium translucent. In alternative embodiments, the operator may apply multiple layers of silk-screened ink that overlap each other or reside in registry with one another. A polymer based protective coating is applied to the one or more layers of silk-screened ink, as indicated by block  126 . The protective coating protects the silkscreen ink as described above.  
         [0072]    The imaged medium, with one or more layers of silk-screened ink and a layer of adhesive, mounts to a desired substrate, as indicated by block  128 . In one preferred embodiment the double sided adhesive includes a release liner that the operator removes to mount the medium to the substrate, such as glass. The release liner resides on the outside of the adhesive layer, so that the operator can readily remove the release liner to adhere the medium to the substrate.  
         [0073]    The present invention also contemplates making the screens for the silk-screening using a similar process to that described above for making the digital image. That is, the screens are made using the photographic printer and the photographic developer. The silkscreen is first created by the designer on a computer screen. The designer sends a drawing file containing the silkscreen design in the proper format to the photographic printer. The photographic printer exposes the image onto a medium, for example, the same medium used for the panels and the reel strip. The photographic developer develops the exposed medium to produce a negative/black image of the silkscreen.  
         [0074]    The image is attached to the screen, wherein the screen is coated with a layer of emulsion. The silkscreen having the attached image is then exposed to UV light, which creates a negative of the image. Once the screen is exposed to UV light, the operator washes the screen to remove the image from the screen. When the screen dries, the operator removes any unwanted portions or imperfections from the screen, wherein the screen is then ready for printing.  
         [0075]    It should be understood that various changes and modifications to the presently preferred embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present invention and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.