The present invention relates to a photographic processing system which is adapted to achieve a high speed processing utilizing a stacker/drying arrangement.
Conventional photographic systems for processing photographic material generally process the media in processing tanks, wherein the media is conveyed through the tanks so as to be in contact with several distinct processing solutions in each tank. The conveyance of the media essentially utilizes conveying rollers which in most instances touch both the emulsion and non-emulsion side of the photographic media. Further, the utilization of conveying rollers in most instances does not insure that the photographic media is held flat during the processing cycle. These factors generally affect the subsequent processing of the photographic media. Conventional photographic systems are also set forth in an in-line relationship that includes a plurality of processing tanks and a dryer and takes up a large footprint.
The present invention provides for a photographic processing system and method of processing photographic media which is adapted to provide for a high speed processing by utilizing the combination of a stacker/dryer arrangement and a vacuum platen. To achieve a high speed processing and maintain the required amount of developing time necessary for developing photographic media, the stacker/drying arrangement of the present invention is designed to provide enough dwell time for the media in the stacker arrangement to ensure adequate processing of the media.
In the system and method of the present invention, media is fed, then exposed (digitally or optically), on a vacuum platen where developer is applied. The vacuum platen is adapted to deliver the media to a vertical stacker arrangement, which holds the media for the desired developing time. After the developing stage, the media is pushed through a stop solution (if needed) and onto a valve jet bleaching platen to receive the proper amount of bleach. The media is then delivered to another stacker arrangement for the proper amount of bleach time, and then is delivered to a wash station for the proper amount of washing. The media is then delivered back to the first stacker arrangement for final drying and delivery to the exit side of the processing machine.
The present invention therefore relates to a photographic processor or processing machine that comprises a first solution application station adapted to apply a first solution onto photographic media to process the photographic media; a first vertical stacker arrangement adapted to receive the media from the first solution application station, wherein a travel time for the media in the first vertical stacker arrangement corresponds to a first solution processing time and a drying time for the photographic media; a second solution application station adapted to receive the media from the first vertical stacker arrangement and apply a second solution onto a photographic media; and a second vertical stacker arrangement adapted to receive the media from the second solution application station, wherein a travel time for the media in the second vertical stacker arrangement corresponds to a second solution processing time for the photographic media.
The present invention further relates to a method of processing photographic media which comprises the steps of applying a first solution onto photographic media at a first solution application station to process the photographic media; conveying the media having the first solution thereon to a first vertical stacker arrangement which is adapted to receive the media from the first solution application station and transport the media in a first vertical direction to a second solution application station, wherein a travel time for the media in the first vertical stacker arrangement corresponds to a first solution processing time and a drying time for the photographic media; applying a second solution onto the photographic media at the second solution application station which is adapted to receive the media from the first vertical stacker arrangement and apply the second solution onto the photographic media to process the media; and conveying the media having the second solution thereon to a second vertical stacker arrangement which is adapted to receive the media from the second solution application station and transport the media in a second vertical direction, wherein a travel time for the media in the second vertical stacker arrangement corresponds to a second solution processing time for the photographic media.
Referring now to the drawings, wherein like reference numeral designate identical or corresponding parts throughout the several views,
Photographic processor 100 of
Therefore, in order to process an exposed photographic media (preferably a photographic sheet) at first solution application station 102, the sheet is supplied in the direction of arrow 7 onto conveying member 9. The sheet is directed onto top surface 18 of endless belt 11 and passes between the discharge openings of processing solution supply member 17 and surface 18 of belt 11. As the sheet passes between processing solution supply member 17 and top surface 18, processing solution is sprayed and/or supplied onto the top surface of the photographic sheet to process or develop the exposed images on the sheet.
Belt 11 of conveying member 9 includes slots 14 as described above. Therefore, as the solution is sprayed onto the photographic sheet, excess solution which drips off the sheet will fall through slots 14 into a vacuum chamber 20 located below top surface 18 of belt 11. The interior of chamber 20 is illustrated in
During processing at first solution application station 102, it is preferable that the photographic sheet be held in a flat state. With the arrangement of the present invention, a vacuum source in the form of, for example, a vacuum pump 24 is adapted to apply a suction force through a suction path 26 as shown in
Photographic processing solution supplied from supply member 17 will leak down through slots 14 into chamber 20. This raises the possibility of the solution entering suction path 26 and vacuum pump 24 which could adversely affect the operation of pump 24. This is prevented by a wall 30 and a baffle 32 as shown in
Therefore, the combination of wall 30 and baffle 32 prevent processing solution from splashing throughout the processing system, maintains the solution within chamber 20a for drainage to drain 22, and prevents solution from reaching suction path 26 and contacting vacuum pump 24. That is, as shown in
Referring back to
In a feature of the present invention, the length of vertical stacker arrangement 104 or a dwell or travel time of the media on the different media platforms 108 of vertical stacker arrangement 104 can be controlled so as to provide for the proper drying time and proper developing time for the photographic media. That is, the number media platforms 108, the distance that the individual media platforms will travel from a position where it receives the media from first solution application station 9 to a point where it transfers the media to the next station, or the time that the media spends within first vertical stacker arrangement 104 can be controlled so as to provide for a proper developing time and a proper drying time for the media while in first vertical stacker arrangement 104. That is, a travel time for the media in first vertical stacker arrangement 104 corresponds to a proper developing time and/or proper drying time for the media. First vertical stacker arrangement 104 can be designed as an oven, such that media platforms 108 along with belt 106 are provided within an enclosure 104a, and the space within enclosure 104a can be heated by forced heated air, radiant heat or any other type of heating source.
Once media on media platform 108 at location 108a reaches a location or position identified by reference numeral 108a′, the media is determined to have been substantially and/or properly developed and dried. Thereafter, the media can be pushed by any well known type of pushing mechanism from media platform 108 at location 108a′ onto the next stage of the process. In the embodiment illustrated in
Second solution application station 112 is identical to first solution application station 102 and therefore, for the specifics of second solution application station 112, reference is made to
The difference between second solution application station 112 and first solution application station 102 is that the solution applied onto the media by second solution supply member 17 of second solution application station 112 is a bleaching solution. The applied bleaching solution serves to bleach the photographic media as it is conveyed and held flat along conveying member 9 of station 112. It is noted that the particulars for the elements of first solution application 102 and second solution application station 112 are described in the above-noted copending application Ser. No. 10/714,008.
After the application of the bleach solution at station 112, the photographic media is thereafter transported to the next station which is a second vertical stacker arrangement 114. Second vertical stacker arrangement 114 is adapted to transport the media in a second vertical direction, and more specifically in direction 118 as shown. Second vertical stacker arrangement 114 provides for a proper bleach dwell time for the media. Second vertical stacker arrangement 114 includes a plurality of spaced media receiving platforms 116 mounted on or attached to a conveyor belt 120 which is adapted to rotate each of the media receiving platforms 116 about belt 120. Thus, during use, photographic media is transferred from second solution application station 112 onto media platform 116 at location 116a as shown, and thereafter, belt 120 is driven in a direction shown by arrow 600 by a known motor to move media platform 116 at location 116a in downward direction 118; this brings next media platform 116 at location 116b in alignment with second conveying member 9 of second solution application station 112. In the same manner as first vertical stacker arrangement 104, second vertical stacker arrangement 114 can be designed with respect to its dwell time, its length or its number of platforms so as to provide for the proper dwell time for the bleach on the photographic media. That is, a travel time for the media in second vertical stacker arrangement 114 corresponds to a proper bleach processing time for the media. Second vertical stacker arrangement 114 can be optionally enclosed by an enclosure or casing 250.
After platform 116 reaches location or position 116c as shown in
It is noted that first vertical stacker arrangement 104 includes a side 300a where platforms 108 are located so as to receive the media from first solution application station 102. After each of platforms 108 reach a point where the media can be transported to either stop bath 110 or second solution application station 112, belt 106 is effective to rotate each of platforms 108 in direction 150 so that the platforms are now on a side 300b of first vertical stacker arrangement 104. At side 300b, an optional spraying station (not shown) can be utilized to apply washing or rinsing solution onto each of platforms 108 at side 300b. This is effective to remove any residual developer solution from platforms 108. The same operation can be also achieved with respect to second vertical stacker arrangement 114. That is, platforms 116 positioned on side 400 as shown in
The present invention thus provides for a photographic processor which is capable of achieving a rapid processing while holding a sheet flat. The processor further enables a proper development time, drying time and bleaching time for the media. The processor of the present invention is compact as shown in
The invention has been described in detail with particular reference to certain preferred embodiments thereof, but it will be understood that variations and modifications can be effected within the spirit and scope of the invention.
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Number | Date | Country | |
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20050180745 A1 | Aug 2005 | US |