US3741766A - Photographic film unit for producing images in color - Google Patents
Photographic film unit for producing images in color Download PDFInfo
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- US3741766A US3741766A US00214664A US3741766DA US3741766A US 3741766 A US3741766 A US 3741766A US 00214664 A US00214664 A US 00214664A US 3741766D A US3741766D A US 3741766DA US 3741766 A US3741766 A US 3741766A
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- Expired - Lifetime
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Images
Classifications
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03C—PHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
- G03C8/00—Diffusion transfer processes or agents therefor; Photosensitive materials for such processes
- G03C8/42—Structural details
- G03C8/44—Integral units, i.e. the image-forming section not being separated from the image-receiving section
- G03C8/46—Integral units, i.e. the image-forming section not being separated from the image-receiving section characterised by the trapping means or gas releasing means
Definitions
- a photographic, self-developing film unit comprising a photosensitive layer including selectively sensitized silver halide emulsions having associated therewith dye imageforming materials, adapted to be exposed and processed to produce a color transfer image.
- the film unit comprises first and second rectangular sheets secured in faceto-face relation at their lateral and trailing end margins by a generally rectangular binding sheet including a medial rectangular opening surrounded by lateral and end marginal portions.
- the binding sheet is secured to the outer surface of one of the sheets and the lateral and end marginal portions are folded around lateral and trailing end edges of the sheet and secured to the outer surfaces of the other sheet.
- a container of processing liquid is attached to the leading end of one of the sheets by a binding strip secured in overlapping relation to the container and leading end margin of the sheet.
- the film unit is adapted to be processed by advancing it, container foremost, relative to and between a pair of juxtaposed pressure-applying members which discharge the liquid contents of the container therefrom and distribute the processing liquid in a layer between the sheets for permeation into the photosensitive layer.
- the external binding sheet functions to control the thickness of the layer of liquid and to provide processing liquid at the edges of the exposed area sufficient to insure complete transfer color image formation to the edges of the area in which the visible image is desired.
- the binding strip includes end sections extending a short distance toward the trailing end of the film unit beyond the leading edge of the opening in the binding sheet for spacing apart the pressure-applying members to insure spreading of sufficient processing liquid between the sheets in this region.
- a film unit of the type with which the present invention is concerned generally includes laminated first and second sheetlike elements and a container of processing liquid including all of the various strata and materials required to produce a positive reflection print, preferably in full color, by a diffusion transfer process.
- Such film units are disclosed, for example, in U.S. Pat. Nos. 3,415,644, 3,415,645, 3,415,646, 3,443,500, 3,573,925, 2,578,840, 3,589,904, 3,594,164, and 3,594,165.
- Such film units are also disclosed in Pat. No. 3,619,192, dated Nov. 9, 1971, which is more specifically concerned with the structural and mechanical aspects of the film unit and their functional cooperation with and relation to the processing liquid, its distribution and permeation mto the various layers of the film laminate to produce an attractive, high quality image.
- the film unit of the invention includes rectangular first and second sheetlike elements arranged 1H superposed face-to-face relation, one of the sheets, preferably the first sheet, comprising a layer of a photosensitive, image-recording material having, as components thereof, selectively sensitized silver halide emulsions having associated therewith, dye image-forming materials.
- the film unit also includes a dyeable, polymeric layer United States Patent ice which may be carried on the other or second sheet in which case the second sheet functions as an image-receiving sheet, or the dyeable, polymeric layer may be supported on the same sheet as the photosensitive layer in which case the other or second sheet may function primarily to aid in the distribution of a liquid processing compositon between the sheets.
- the processing liquid is preferably supplied in a container such as described in U.S. Pat. No. 2,543,181 and in any of the aforementioned patents and applications.
- the container is formed of a rectangular blank of a fluid-impermeable sheet material folded upon itself and sealed at its margins to form a cavity which is filled with the processing liquid.
- the seal at a longitudinal margin of the container is adapted to become unsealed in response to the application of compressive pressure to form a discharge passage for the liquid contents of the container.
- the film unit also includes a generally rectangular binding sheet having lateral and end marginal portions surrounding a generally rectangular medial opening permitting exposure of the photosensitive layer and/or viewing of a color diffusion transfer image formed within the film unit.
- a generally rectangular binding sheet having lateral and end marginal portions surrounding a generally rectangular medial opening permitting exposure of the photosensitive layer and/or viewing of a color diffusion transfer image formed within the film unit.
- both of the first and second sheets is transparent to permit exposure and image viewing, and the rectangular binding sheet is preferably secured to the transparent sheet through which the color transfer image is to be viewed in order q to provide an aesthetically pleasing border surrounding the visible image.
- the lateral and trailing marginal portions are folded around the lateral and marginal edges of both sheets and secured to the outer surface of the other sheet'to retain the superposed sheets in face-to-face relation along three sides thereof.
- the leading end marginal portion of the binding sheet may be secured to the rectangular margin of the container at the discharge passage and thereby function to attach the container to one of the sheets.
- the film unit also includes a narrow, elongated binding strip having substantially parallel, longitudinal edges, secured in overlapping relation to a rectangular marginal portion of the container at the discharge mouth and to the leading edge portion of the sheet to which the end and marginal edges of the binding sheet are secured.
- the binding strip performs at least the dual functions of securing the container to one of the sheets at an edge thereof and providing a passage for conducting the processing liquid contents of the container therefrom between the superposed portion of the first and second sheets.
- the edges of the rectangular opening in the binding sheet i.e., the opening through which the image is viewed, are located inwardly from the corresponding edges of the binding sheet and binding strip.
- the edges of the binding sheet in combination, form another rectangular opening preferably larger than the opening in the binding sheet and located symmetrically with respect thereto.
- One of the functions of the binding sheet is to control the distribution of the processing liquid between the sheets, i.e., the thickness and extent of the layer of liquid.
- this construction permits the processing liquid to spread between the sheets into the region underlying the edges of the smaller opening and thereby provide a reservoir of excess liquid available to prevent liquid starvation and to insure complete processing and color diffusion transfer image-formation in a region extending at least to the edges of the smaller opening.
- This problem is particularly critical in a film structure in which the photosensitive layer includes a plurality of selectively sensitized silver halide emulsions and dye image-forming materials. If any area of one of the emulsions or associated dye image-forming materials is not adequately permeated with the processing liquid, then an image defect is the possible result.
- the present invention is concerned with a novel and improved film unit construction of the type described, designed to provide for distribution of processing liquid at the leading edges of the image-viewing opening sufficient to insure complete processing and image formation in this region particularly near the edges thereof.
- the invention accordingly comprises the product possessing the features, properties and the relation of components which are exemplified in the following detailed disclosure, and the scope of the application of which will be indicated in the claims.
- FIG. 1 is a perspective view, partially in section, showing a film unit embodying the invention
- FIG. 2 is an exploded perspective view of the film unit of FIG. 1;
- FIG. 3 is a somewhat schematic, longitudinal, sectional view of the film unit illustrating the spreading of the processing liquid, the thickness of the materials being exaggerated for purposes of clarity of illustration.
- the preferred form of the film assemblage is designed for the production of a dye reflection print and comprises a photosensitive film unit specifically adapted to be processed in the presence of ambient radiation and the dye reflection print image to be viewed during and subsequent to processing without separation of film unit components.
- first and second sheetlike elements comprising two dimensionally stable layers, at least one of which is transparent; and a multiplicity of layers supported on and between said dimensionally stable layers including a diffusion transfer process dye image-receptive layer; layers of a photoresponsive material each having associated therewith a dye image-providing material which is processing composition dilfusible as a function of the photoexposure of its associated photoresponsive material to produce photographic information recordatin; and an opaque layer.
- One of the dimensionally stable layers constitutes a sheet or element superposed and at least coextensive with the portion of the layer of photoresponsive material supported on the other dimensionally stable layer or support sheet and constituting the first or photosensitive sheet or element.
- the film unit includes a rupturable container of a fluid agent including an opacifying agent adapted to be distributed between the sheetlike elements for reacting with exposed photoresponsive material for forming the image in the image-receptive layer.
- the opacifying agent disposed in the processing composition is adapted to cooperate with the opaque layer to prevent exposure of the photoresponsive material by radiation actinic thereto inicident on the film unit during processing in the light.
- Multicolor images may be obtained using color imageforrning components in the diffusion transfer process of the present invention by several techniques.
- One such technique contemplates obtaining multicolor transfer images utilizing, for example, dye developers as dyeimage-providing materials by employment of an integral, multilayer photosensitive element, such as is disclosed in aforementioned US. Pat. No. 2,983,606, wherein at least two selectively sensitized photosensitive strata, superposed on a single support, are processed, simultaneously and without separation, with a single, common image-receiving layer.
- a suitable arrangement of this type comprises an opaque support carrying a red-sensitive silver halide stratum, a green-sensitive silver halide stratum and a blue-sensitive silver halide stratum, said emulsions having associated therewith, respectively, for example, a cyan dye developer, a magenta dye developer, and a yellow dye developer.
- Each dye developer may be utilized in the silver halide stratum, for example, in the form of particles, or it may be employed as a layer behind the appropriate silver halide strata.
- Each set of silver halide strata and associated dye developer strata are disclosed to be optionally separated from other sets by suitable interlayers, for example, by a layer of gelatin or polyvinyl alochol.
- a yellow filter in front of the green-sensitive emulsion and such yellow filter may be incorporated in an interlayer.
- a yellow dye developer of the appropriate spectral characteristics and present in a state capable of functioning as a yellow filter may be employed.
- a separate yellow filter may be omitted.
- the preferred dye image-provid- :ing materials comprise dyes which are silver halide developing agents, as stated above, for purposes of simplicity and clarity, the present invention will be further described hereinafter in terms of such dyes, without limitation of the invention to the illustrative dyes denoted, and, in addition the photographic film unit structure will be detailed hereinafter employing the last-mentioned preferred structural embodiment, without limitation of the invention to the preferred structure denoted.
- the dye developers are compounds which contain, in the same molecule, both the chromophoric system of a dye and also a silver halide developing function.
- a silver halide developing function is meant a grouping adapted to develop exposed silver halide.
- a preferred silver halide development function is a hydroquinonyl group.
- Other suitable developing functions include orthodihydroxyphenyl and orthoand para-amino substituted hydroxyphenyl groups.
- the development function includes a benzenoid developing function, that is,
- the dye developers are preferably selected for their ability to provide colors that are useful in carrying out subtractive color photography, that is, the previously mentioned, cyan, magenta and yellow.
- the dye developers employed may be incorporated in the respective silver halide emulsion, in a preferred embodiment, or in a separate layer behind the respective silver halide stratum.
- the dye developer may, for example, be in a coating or layer behind or directly disposed in the respective silver halide stratum and such dye developer structure may be applied by use of a coating solution containing about 0.5 to 8%, by weight, of the respective dye developer distributed in a film-forming natural, or synthetic, polymer, for example, gelatin, polyvinyl alcohol, and the like, adapted to be permeated by the chosen diffusion transfer fluid processing composition.
- a coating solution containing about 0.5 to 8%, by weight, of the respective dye developer distributed in a film-forming natural, or synthetic, polymer, for example, gelatin, polyvinyl alcohol, and the like, adapted to be permeated by the chosen diffusion transfer fluid processing composition.
- the film unit is specifically adapted to provide for the production of a multicolor dye transfer image and the photosensitive laminate comprises, in order, at least two selectively sensitized silver halide emulsion strata each having dye image-providing material of predetermined image color subsequent to processing associated therewith which is soluble and diifusible, in alkali, at a cfirst pH, as a function of the photoexposure of its associated silver halide emulsion stratum; an alkaline solution permeable opaque layer; an alkaline solution permeable polymeric layer dyeable by the dye image-providing materials; an alkaline solution permeable polymeric layer containing sufiicient acidifying capacity to effect reduction, subsequent to substantial multicolor transfer dye image formation, of a processing composition having the first pH to a second pH, at which the dye image-providing material is substantially nondiifusible; and the dimensionally stable transparent layer.
- the silver halide emulsions comprising the multicolor photosensitive laminate preferably possess predominant spectral sensitivity to separate regions of the spectrum and each has associated therewith a dye, which is a silver halide developing agent and is, most preferably, substantially soluble in the reduced form only at the first pH, possessing subsequent to photoexposure or processing a spectral absorption range substantially complementary to the predominant sensitivity range of its associated emulsion.
- a dye which is a silver halide developing agent and is, most preferably, substantially soluble in the reduced form only at the first pH, possessing subsequent to photoexposure or processing a spectral absorption range substantially complementary to the predominant sensitivity range of its associated emulsion.
- Specifically preferred dyes comprise dyes which exhibit major spectral absorption outside of the primary regions of the spectrum to which the associated silver halide emulsion is sensitive and a spectral transmission substantially complementary to that absorption, during exposure of the emulsion, and major spectral absorption within the spectral range to which the associated silver halide emulsion is sensitive and spectral transmission substantially complementary to said absortpion, subsequent to exposure or processing of said emulsion, for example, of the type disclosed in US. Pat. No. 3,307,947.
- each of the emulsion strata, and its associated dye may be spaced from the remaining emulsion strata, and their associated dye, by separate alkaline solution permeable polymeric interlayers and the dyeable polymeric layer next adjacent the polymeric acid layer may be separated from that layer by an alkaline solution permeable polymeric spacer layer, most preferably a polymeric spacer layer having decreasing permeability to alkaline soltuion with increasing temperature.
- the silver halide emulsion comprises photosensitive silver halide dispersed in gelatin and is about 0.6 to 6 microns in thickness; the dye itself may be dispersed in an aqueous alkaline solution permeable polymeric binder, preferably gelatin, as a separate layer about 1 to 7 microns in thickness; the alkaline solution permeable polymeric interlayers, preferably gelatin, are about 1 to microns in thickness; the alkaline solution permeable and dyeable polymeric layer is transparent and about 0.25 to 0.4 mil in thickness; the alkaline solution polymeric spacer layer is transparent and about 0.1 to 0.7 mil in thickness; the alkaline solution permeable polymeric acid layer is transparent and about 0.3 to 1.5 mils in thickness; and the dimensionally stable transparent layer is alkaline solution impermeable and about 2 to 6 mils in thickness.
- the relative dimensions recited above may be appropriately modified, in accordance with the desires of the operator, with respect to the speci-
- the preferred dye image-providing materials comprise dyes which are silver halide developing agents, as stated above, the present invention will be further described hereinafter in terms of such dyes without limitation of the invention to the illustrative dyes.
- the respective silver halide/dye developer units of the photosensitive element will be in the form of a tripack configuration which will ordinarily comprise a yellow dye developer/blue-sensitive emulsion unit, a cyan dye developer/red-sensitive emulsion unit and a magenta dye developer/green-sensitive emulsion unit intermediate those units, recognizing that the relative order of such units may be varied in accordance with the desires of the operator.
- either or both the respective yellow and magenta dye developers employed in a preferred tripack configuration which positions the yellow dye developer/blue-sensitive emulsion unit distal the dimensionally stable transparent layer and the cyan dye developer/red-sensitive emulsion unit proximal the transparent layer to provide the multicolor transfer image, comprise a dye developer which exhibits major spectral absorption outside of the primary region of the spectrum to which its associated silver halide emulsion is sensitive and a spectral transmission substantially complementary to that absorption, during exposure of the emulsion, then, in ordinary circumstances, it may be advantageous to incorporate filter agents adapted to insure the correct selective exposure of the respective emulsions less proximal the exposure surface of the laminate.
- a yellow filter agent may advantageously be incorporated intermediate the blue-sensitive emulsion and the remaining greenand red-sensitive emulsions, in order to prevent undesired exposure of the latter emulsions by reason of their inherent sensitvity to actinic radiation within the blue range of the spectrum generally present.
- magenta filter agent may be advantageously incorporated intermedaite the greenand red-sensitive emulsions in instances wherein the red-sensitive emulsion possesses sensitivity to actinic radiation within the green region of the spectrum.
- the yellow dye developer employed in such preferred embodiment also may be disposed in the processing composition retained within the container and distributed contiguous the exposure surface of the bluesensitive emulsion, subsequent to exposure of the photosensitive laminate, during processing of the exposed film unit, to provide the desired multicolor transfer image formation.
- color transfer images and specifically multicolor images may be obtained, employing an integral laminate film unit, which exhibit desired maximum and minimum dye densities; yellow, magenta and cyan dye saturation; red, green and blue hues; and color separation, over an extended period of time, as compared with prior art disclosed film materials.
- Film unit 10 comprises a first or photosensitive sheetlike element 12, a second or image-receiving sheetlike element 14 and a rupturable container 16 holding a quantity of processing liquid 17.
- Sheetlike elements 12 and 14 are preferably rectangular and co-extensive with one another and are arranged in superposed face-to-face contact with at least the lateral edges of each element aligned with the lateral edges of the other.
- Second sheet 14 is substantially longer than sheet 12 and includes a leading end section 24 extending beyond the leading edge of sheet 12 by a distance slightly in excess of the shorter dimension of container 16; and a trailing end section 26 extending a relatively short distance beyond the edge of sheet 12 in a preferred embodiment of the film unit.
- sheets 12 and 14 may be separate and distinct sheets, they are preferably laminated to one another throughout substantially the entire area of their facing surfaces except for a narrow region adjacent the leading edge of sheet 12. This provides for a more stable and easier to handle structure while eliminating the problem of air between the sheets.
- Container 16 is mounted on the leading edge section 24 of sheet 14 adjacent the leading edge of sheet 12 in position to discharge its liquid contents between the photosensitive and second sheets.
- Container 16 is retained in place by portion of lateral edge sections 34 secured to the'ends of the container and leading end section 30 of binding sheet 18 which is folded around the leading edge of sheet 14 and secured to a longitudinal edge of the container.
- a binding or sealing strip 22 is secured to a longitudinal marginal section of the container and the leading end margin of photosensitive sheet 12 and cooperates with the container and sheets to bridge the gap between the container and the photosensitive sheet and form a conduit for conducting the liquid from the container between the photosensitive and second sheets.
- Binding sheet 18 is preferably formed of a light opaque, white material such as, for example, a laminate including a layer of paper, a polymer, and an opaque layer such as metallic coating and/or pigment carried on or within a layer of sheet 18.
- the mask or binding sheet 1 8 is larger than second sheet 14 and includes a leading end section 30, a trailing end section 32, and lateral marginal sections 34 adapted to be folded along the broken lines shown in FIG. 3.
- Sheet 1-8 is adhered to the outer surface of sheet 14 substantially over the entire area of the facing surface of the two sheets surrounding exposure opening 28.
- Lateral marginal sections 34 of sheet 18 are folded around the lateral edges of sheets 12 and 14 and secured to the margins of sheet 12.
- Trailing end section 32 of sheet 18 is folded around the trailing edge of sheet 14 and secured to the outer surface of photosensitive sheet 12 near the trailing edge thereof.
- Container 16 is of the type shown in US. Pat. No. 2,543,181 and is formed by folding a rectangular blank of a fluid impervious sheet material medially and sealing the marginal sections of the blank to one another to form a cavity for containing processing liquid 17. A pair of transverse regions 35 of the container are sealed together so as to divide the liquid-filled cavity into three sections and thereby obtain improved distribution of the processing liquid upon discharge thereof from the container.
- the seal between longitudinal marginal sections 36 of container 16 is weaker than the seals at the ends of the container so that upon the application of a predetermined compressive force to the walls of the container in the region of the liquid-filled cavity, there will be generated within the liquid hydraulic pressure sufi'icient to separate the longitudinal marginal sections 36 throughout the major portion of their length except in regions 35 and in the regions of the end seals, to form three discharged passages extending throughout the length of the cavity and the width of exposure opening 28.
- the most useful and advantageous film unit insofar as packaging, storing, handling, exposure, and processing are concerned, is one characterized by an integral, unitary, laminate form of structure designed so that its integrity may be maintained during and after exposure and processing; and a structure that is sturdy, has some flexibility, resists buckling and warping, remains fiat particularly during exposure, and can be handled and manipulated by mechanical means without damage to produce a useful and attractive photographic print.
- a useful and attractive photographic print can be described as being substantially flat or planar and without a tendency to curl as the result of temperature and humidity changes; as being relatively rigid and inflexible as opposed to being limp or easily bent; as having a uniform white border surrounding a well-defined rectangular image that extends to the border; and a protective coating or covering for the image permitting the print to be handled and stored without the necessity for taking special precautions to avoid damage and deterioration.
- the structure and composition of components of the film unit of the invention combine to provide a film unit meeting these criteria and specially adapted, when processed, to provide a useful and attractive photographic print, preferably in full color, having the foregoing characteristcis.
- At least one of the sheets of the film unit is formed of a transparent material.
- the second or image-receiving sheet is transparent and the photosensitive medium is exposed and the final image is viewed through the image-receiving sheet which functions to protect the image-recording medium prior to and during exposure and to protect the final image during and following formation thereof.
- the photosensitive sheet may be transparent depending upon the manner in which the image-recording medium is exposed and the final image is formed and viewed.
- the transparent image-receiving sheet may be formed of a conventional film base material such as cellulose triacetate coated on its inner surface with one or more layers such as previously described providing an appropriate environment for the formation of a diffusion transfer image.
- the embodiments of the film unit illustrated and described herein are adapted to be exposed in a light-free environment such as in a camera. Processing is then initiated within the light-free environment by spreading the processing liquid between sheets 12 and 14.
- the film unit is moved directly from the camera into the presence of radiation actinic to the photosensitive material immediately as the processing liquid is spread bewteen the sheets.
- the photosensitive layer is required to be protected by opaque layers located on opposite sides of the photosensitive layer.
- one of these opaque layers specifically, the layer located to the side (rear) of the photosensitive layer opposite transparent sheet 12 is formed during the manufacturing process, is in existence at the time of exposure and may retain its opacity subsequent to processing.
- this opaque layer depends upon the location of the layer in which the transparent layer is formed.
- the opaque layer may comprise light absorbing material in the support of sheet 12 and/ or a layer or layers of opaque material coated thereon between the support and photosensitive layer.
- the opaque layer is formed and located (as described in detail hereinafter, between the photosensitive and image-receiving layers and is formed of a material through which the image-forming substances, i.e., dye developers, are diffusible.
- the opaque layer also functions to prevent exposure of a film unit arranged in underlying, stacked relation with a film unit being exposed in a camera.
- the opaque layer is, of course, required to be formed after exposure, specifically, by distributing between the sheets an opaque liquid processing composition such as described hereinafter. If the illustrated binder sheet and strip are also opaque, as stated above, edge leakage of actinic radiation incident on the emulsion or emulsions will also be prevented.
- the opaque layer or layers located between the photosensitive and image-receiving layers should be one providing a background suitable for viewing the dye developer transfer image formed in the dyeable polymeric (image-receiving) layer.
- substantially any permeable opaque layer may be employed in the case where diffusion transfer is through the opaque layer, it is preferred that a layer be selected that will not interfere with the color integrity of the dye transfer image, as viewed by the observer, and, most preferably, a layer which is aesthetically pleasing to the viewer and does not provided a background noise signal degrading, or detracting from, the information content of the image.
- Opaque layers particularly desirable for this purpose will be those providing a white background for viewing the transfer image, and specifically those adapted to be employed to provide background for reflection photographic prints and, especially, those layers possessing the optical properties desired for reflectance of incident radiation. The same properties are also desirable in the embodiment in which the opaque processing liquid provides the background for viewing the dye transfer image.
- the opaque layer may comprise substantially any opacifying agent compatible with the photographic system, such as, for example, barium sulfate, zinc oxide, titanium dioxide, barium stearate, silver flake, silicates, alumina, zirconium oxide, zirconium acetyl acetate, sodium zirconium sulfate, kaolin, mica and the like, which may be distributed in a permeable polymeric matrix or hinder, such as, for example, gelatin, polyvinyl alcohol, and the like.
- opacifying agent compatible with the photographic system such as, for example, barium sulfate, zinc oxide, titanium dioxide, barium stearate, silver flake, silicates, alumina, zirconium oxide, zirconium acetyl acetate, sodium zirconium sulfate, kaolin, mica and the like, which may be distributed in a permeable polymeric matrix or hinder, such as, for example, gelatin, polyvinyl alcohol, and the
- a particularly preferred opaque layer comprises titanium dioxide due to its highly effective reflection properties.
- a coating composition for example, hydroxyethylcellulose, containing suflicient titanium dioxide to provide a percent reflectance of about to 99%, respectively, will be employed. In the most preferred embodiments, the percent reflectance desired thus will be in the order of about 85%.
- an additional opacifying agent such as carbon black, for example, in a concentration of about 1 part carbon black to 100 to 500 parts titanium dioxide may be provided to the layer.
- additional opacifying capacity will be provided by constituting the opacifying layer as a plurality of more or less discrete layers, the layer next adjacent the transparent support comprising a reflection layer and the succeeding layer or layers comprising one or'more opacifying agents possessing greater opacifying capacity than that ordinarily obtained from the reflecting agent or agents employed.
- the opacifying agent dispersed in the processing composition may be any of the multiplicity of such agents known in the art such as carbon black, iron oxide, titanium (III) oxide, titanium (III) hydroxide, and the like.
- the agent or agents should be selected which possess the maximum opacifying capacity per unit weight, is photographically nondeleterious and is substantially non-diflusible throughout the film unit subsequent to distribution.
- a particularly preferred agent has been found to comprise carbon black employed in a concentration effective to provide the opacity required to prevent undesired physical fogging of the emulsion formulations selected and employed by radiation transmitted through the spread processing composition.
- the opaque processing composition provides the background for the visible dye image, it will contain the aforementioned agents designed to provide a white background and a lesser (if any) quan tity of opacifying agents that do not appear White.
- the photosensitive layer comprises a laminate including, in order, a blue-sensitive silver halide emulsion layer containing a yellow dye developer; an mterlayer; a green-sensitive silver halide emulsion layer containing a magenta dye developer; an interlayer; and a red-sensitive silver halide emulsion layer containing cyan dye developer.
- film unit 10 is processed by being passed between a pair of superposed pressure-applymg member such as rollers designated 50 and 52 in FIG. 3 to apply compressive pressure to container 16 to effect rupture of longitudinal seal between portions 36 and distribution of processing the com-position containing an opacifying agent and having a pH at which the cyan, magenta and yellow dye developers are soluble and diffusible, intermediate transparent sheet 14 and the coextensive surface of the blue-sensitive silver halide emulsion layer.
- the processing composition permeates the emulsion layers to initiate development of the latent images contained in the respective emulsions.
- the cyan, magenta and yellow dye developers are immobilized as a function of the development of their respective associated silver halide emulsions, preferably substantially as a result of their conversion from the reduced form to their relatively insoluble and nondiifusible oxidized form, thereby providing imagewise distributions of mobile, soluble and difiusible cyan, magenta and yellow dye developer, as a function of the point-to-point degree of their asso ciated emulsions exposure. At least part of the imagewise distributions of mobile cyan, magenta and yellow dye de- 'veloper transfer, by diffusion, to a processing composition permeable polymeric (image-receiving) layer to provide a multicolor dye transfer image in that layer.
- a sufficient portion of the ions comprising the aqueous composition transfer, by dilfusion, through a permeable spacer layer and to permeable polymeric acid layer both coated on one of the two sheets, whereby the solution decreased in pH, as a function of neutralization, to a pH at which the cyan, magenta and yellow dye developers, in the reduced form, are substantially insoluble and nondiifusible, to provide thereby a stable multicolor dye transfer image viewable through one of dimensionally stable transparent support sheets.
- the pressure-applying members e.g., rollers 50 and 52, initially apply compressive pressure to the container to eject its liquid contents as a mass between the photosensitive and second sheets and then distribute the mass of liquid between the sheets toward the trailing ends thereof to form a layer of substantially uniform predetermined thickness which is continuous and at least coextensive with the area defined by exposure opening 28. While it is desirable to provide a minimum of liquid within the container, in order to insure sufficient processing liquid to form a layer of the requisite area and thickness between the sheets, it is necessary to provide excess processing liquid in container 16.
- the film unit includes trapping means for collecting and retaining excess processing liquid overrun so that it does not escape from the film unit.
- these means comprise trapping an element 20 shown as a narrow strip of a relatively thick sheet material formed with perforations and indentations 38 which occupy a large, e.g., 45% to 55%, portion of trapping element 20.
- the traping element is secured between the trailing end section 32 and the trailing end margins of sheets 12 and 14 with the perforations and indentations 38 cooperating with sheets 12, 14 and 18 to provide spaces for collecting and retaining excess processing liquid overrun.
- the trapping element functions as a spacer as the trailing end portion of the film unit passes between the pressure-applying members preventing the processing liquid from being further advanced thereby in the direction of spreading.
- the processing liquid absorbed into the photosensitive layer must be sufiicient to completely permeate the layer and that this should occur throughout the entire image area in order to effect complete development of the exposed photosensitive material as well as mobilization of the dye image-forming materials required to produce a transfer image having a good color fidelity. If insufiicient processing liquid is absorbed into a particular area of the photosensitive layer, then the diffusion transfer dye image formed from that area will be deficient in the dye imageforming material associated with the particular photosensitive silver halide strata located furthest from the surface against which the processing liquid is distributed for absorption by the photosensitive layer.
- the photosensitive layer comprises, in order, blue-, green-, and red-sensitive emulsions having associated therewith respectively, yellow, magenta, and cyan dye developers and is processed by a liquid distributed in contact with the blue-sensitive emulsion or other stratum closest thereto; insufficient processing liquid will be manifested by a lack of cyan dye in the transfer image resulting in a reddish hue in the corresponding area of the transfer image.
- the thickness of the layer of processing liquid and also its extent are determined by the thickness and extent of binding element 18 which determines the spacing between the medial portions of the pressure-applying members, i.e., rollers 50 and 52, which, in turn, determine the spacing between the portions of elements 12 and 14 which contact the pressure-applying members and between which the processing liquid is distributed.
- the film unit is designed to be employed in photographic apparatus incorporating a pair of pressure-applying members such as rollers 50 and 52 having opposed surfaces defining a convergent passage.
- the surfaces of the pressure members are preferably substantially linear at least at the narrowest point in the passage so that, as in the case of cylindrical rollers, the spacing between the surfaces and, in turn, the spread thickness, is determined primarily by the thickness of binding element 18. This is because the margins of the film unit immediately adjacent the image area where the binding element is of double thickness, constitute the thickest portion of the film unit at least in the region where the image is formed.
- the pressure-applying members engage the binding element adjacent the lateral edges of the image area and are spaced apart by at least the combined thickness of elements 12 nd 14 and two thicknesses of binding element 18.
- This results in a processing liquid spread thickness approximating the two thicknesses of the binding element throughout at least the major portion of the image area defined by opening 28 due to the fact that elements 12 and 14 are forced apart into contact with the pressure-pplying members (rollers 50 and 52) as a result of hydraulic pressure generated within the processing liquid as it is being spread (see FIG. 3).
- a partial solution to this problem is suggested in the 3,619,912 patent, this being to form binding sheet 18 and opening 28 such that the lateral and trailing end edges of the binding sheet are located closer to the edges of the film unit than the corresponding edges of opening 28 through which the transfer image is viewed.
- processing liquid is spread between the photosensitive and second elements beyond the edges of the image area defined by opening 28 thus providing extra processing liquid outside of and immediately adjacent the area in which the visible transfer image is formed.
- This excess liquid is then available to help insure complete permeation of the various layers of the laminate by processing liquid sufiicient to produce a dye transfer image that is complete to the edges of the visible image area.
- the edge of opening 28 extends toward the trailing end of the film unit beyond the edge of binding strip 22 in order to provide for the spreading of processing liquid in the region underlying the binding element near the transverse leading edge of opening 28.
- the object of the present invention i.e., the solution of this problem, is achieved by a novel film structure in which binding strip 22 is provided with end portions 23 which extend beyond the trailing transverse edge of strip 22 a short distance toward the trailing end of the film unit.
- the trailing transverse edge of strip 22 is at least equal to the width of opening 28 and portions 23 have widths which do not exceed the width of marginal sections 34 of binding sheet 18.
- End portions 23 are preferably secured in face-to-face underlying relation to portions, designate-d 34a, of marginal sections 34 and function to increase the thickness of the lateral margins of the film unit in these regions.
- the pressure-applying members, i.e., rollers 50 and 52 pass beyond the trailing transverse edge of strip 22 (as shown in FIG. 3), the rolls continue to be spaced apart by the added thickness resulting from end sections 23, thus providing for additional spacing of sheets 12 and 14 in the regions of the leading edge of the visible image area.
- end portions 23 may be narrower than marginal sections 34 so that the edges of the end portions and the edges of marginal sections 34 are offset from one another. A-lso, depending upon the method of assembly, end portions 23 may be secured to the outer surfaces of marginal sections '34 rather than between the marginal sections and the lateral margins of sheet 12 as shown in FIG. 1.
- the invention provides a simple and inexpensive solution to the serious problem of achieving complete visible image 14 formation adjacent the leading edge of the visible dye transfer image by insuring the distribution of sufficient processing liquid by virtue of the novel structure of a component of the film unit itself.
- a photographic film unit for producing a diffusion transfer process color image comprising, in combination:
- a laminate including a pair of dimensionally stable layers at least one of which is transparent and a plurality of layers therebetween including a photosensitive layer comprising at least two selectively sensitized silver halide strata each having associated therewith a dilfusion transfer process dye imageforming material, and an image-receptive layer adapted to receive said diffusion transfer process dye image-forming materials diffusing thereto, said laminate being substantially rectangular and having lateral and leading and trailing end edges;
- a generally rectangular binding sheet secured to the outer face of said transparent dimensionally stable layer having lateral and trailing edge portions folded around the lateral and trailing edges of said laminate and secured to the lateral and trailing end margins of the other of said dimensionally stable layers, said binding sheet being formed with a rectangular opening defining the boundaries of a dye transfer image visible through said transparent layer;
- a rupturable container of a liquid processing composition for initiating development of photoexposed silver halide and diffusion transfer of dye image-forming materials, solubilized by said processing composition to said image-receptive layer upon distribution-of said processing composition as a layer between layers of said laminate and permeation of at least said liquid processing composition into said photosensitive layer;
- the lastmentioned means including a second binding sheet secured in overlapping relation to a transverse portion of said container and the outer face of the leading transverse edge portion of said other dimensionally stable layer;
- said second binding sheet having a substantially linear trailing edge arranged substantially parallel with the leading transverse edge of said opening in the firstmentioned binding sheet and at least equal in length to the transverse dimension of said opening, and including end sections extending a relatively short distance toward the trailing end of said film unit in face-to-face contact with said lateral margins of said first-mentioned binding sheet.
- each of said selectively sensitized silver halide strata process predominant spectral sensitivity in a separate region of the visible spectrum and the dye imageforming material associated with each of said silver halide strata is adapted to provide a dye transfer image having a spectra absorption range, subsequent to processing, substantially complementary to the predominant sensitivity range of its associated silver halide stratum.
- said photosensitive layer includes, as essential strata, a red-sensitive silver halide emulsion stratum having associated therewith a diffusion transfer process cyan dye image-forming material, a green-sensitive silver halide emulsion stratum having associated therewith a diffusion transfer process magenta dye image-forming material, and
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Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US21466472A | 1972-01-03 | 1972-01-03 |
Publications (1)
Publication Number | Publication Date |
---|---|
US3741766A true US3741766A (en) | 1973-06-26 |
Family
ID=22799972
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US00214664A Expired - Lifetime US3741766A (en) | 1972-01-03 | 1972-01-03 | Photographic film unit for producing images in color |
Country Status (2)
Country | Link |
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US (1) | US3741766A (fr) |
BE (1) | BE787225A (fr) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3833381A (en) * | 1972-10-25 | 1974-09-03 | Polaroid Corp | Photographic products including rupturable containers |
US4242443A (en) * | 1978-10-05 | 1980-12-30 | Agfa-Gevaert, A.G. | Photographic film unit with integral structure |
US4718831A (en) * | 1985-04-13 | 1988-01-12 | Flutec Fluidtechnische Gerate Gmbh | Apparatus for cooling a pressure medium |
US9943861B2 (en) | 2009-10-29 | 2018-04-17 | Alfa Laval Corporate Ab | Centrifugal separator with a control unit for speed control |
-
1972
- 1972-01-03 US US00214664A patent/US3741766A/en not_active Expired - Lifetime
- 1972-08-04 BE BE787225A patent/BE787225A/fr unknown
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3833381A (en) * | 1972-10-25 | 1974-09-03 | Polaroid Corp | Photographic products including rupturable containers |
US4242443A (en) * | 1978-10-05 | 1980-12-30 | Agfa-Gevaert, A.G. | Photographic film unit with integral structure |
US4718831A (en) * | 1985-04-13 | 1988-01-12 | Flutec Fluidtechnische Gerate Gmbh | Apparatus for cooling a pressure medium |
US9943861B2 (en) | 2009-10-29 | 2018-04-17 | Alfa Laval Corporate Ab | Centrifugal separator with a control unit for speed control |
Also Published As
Publication number | Publication date |
---|---|
BE787225A (fr) | 1972-12-01 |
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