CA1190425A - Film processor - Google Patents
Film processorInfo
- Publication number
- CA1190425A CA1190425A CA000422694A CA422694A CA1190425A CA 1190425 A CA1190425 A CA 1190425A CA 000422694 A CA000422694 A CA 000422694A CA 422694 A CA422694 A CA 422694A CA 1190425 A CA1190425 A CA 1190425A
- Authority
- CA
- Canada
- Prior art keywords
- film
- sheet material
- kit
- processing liquid
- processing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
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- Photographic Developing Apparatuses (AREA)
Abstract
ABSTRACT
An apparatus for in situ processing of a roll of film by means of processing fluid applied from a rupturable container to a strip of sheet material which is then brought into superposition with the film. The apparatus is provided with means for rupturing the container of processing fluid, means for storing the film in superposition on the sheet material and means for separating the film from the sheet material after processing.
An apparatus for in situ processing of a roll of film by means of processing fluid applied from a rupturable container to a strip of sheet material which is then brought into superposition with the film. The apparatus is provided with means for rupturing the container of processing fluid, means for storing the film in superposition on the sheet material and means for separating the film from the sheet material after processing.
Description
æ~
FILM PROCESSOR
Technical Field This invention relates to apparatus for processing rolls of 35mm transparency film.
Background Art The present inven~ion relates to apparatus for processing a roll of 35mm transparency film and, more particularly, to such apparatus which is compact, inexpensive, easy to use and especiàlly attractive to the amateur photographer who desires to process his own filmO
Lately, interest has been expressed in such appara~us. Eor example~ UOS. Patent Nos.
4,309,100, 4,307,955, 4,272,178, 4,212,527 and 4,167,318 show ilm processing apparatus which are adapted for use in the processing of rolls of 35mm transparency film Also, see pages 53 and 54 of RE5EARCH DISCLOSURE, dated January 1981O ~hile these apparatus have desirable features, they do not pro-vide for low cost and ease of operation. For ~Lg~Z~
example, the apparatus disclosed in the U.S.patents, with the exception of the one taught b~
U.S. Patent ~,167,318, require a cutter for severing the film from its attachment to its film spool, thereby adding to its cost. Further, only the appa-ratus of U.S. Patent 4,307,955 recognizes the advan-tages of simplicity of loading, the apparatus being designed for use with a processing kit. Still further examples are the apparatus described in U.S. Patent 4,212,527 which includes an extendable dark chamber for receiving the film after it has been treated with a processing composition, thereby adding to its cost and overall si~e. The apparatus described in U.S. Patent 4,167,318 is rather large in comparison to the si2e of the film cassette used therein. Its operation requires the complete removal of the film from the film cassette before it can be processed. This adds to the cost of the apparatus as it requires a control circuit for the detection of the trailing end of the exposed film with its associated con-tainer of processing composition.
From the above, it can be seen that there i5 a need for a compact apparatus for processing rolls of 35mm film which is simple to use~ The appa-ratus should be easy to load, and it should auto-matically protect the film before and during processing. For example, the loading door of the apparatus should be loc~ed in its closed position to insure the lighttightness of the apparatus before the film is withdrawn from its cassette and during its processing; and, withdrawal of the film from the cassette should be prevented until the processing liquid is ready to be used in the process. Still further, to keep its cost as low as possible the apparatus should be manually operable, rather than by an electrical motor.
DISCLOSURE OF THE INVENTION
The invention relates to apparatus for processing a photographic film assemblage of the type which includes a film cassette containing therein a roll of 3Smm transparency film. The film cassette is preferably configured to be readily insertable into a conventional 35mm still camera.
The apparatus includes a lighttight housing having a loading door which is pivotally mounted for movement between open and closed positions. The housing is constr~cted to receive a film processing kit which comprises a housing o two sections movable between open and closed positions, a roller having a length of flexible sheet material wound thereupon, a container of processing liquid, and a dispenser. The apparatus also includes structure for supporting a film cassette containing a roll of exposed film, and a take-up roller which receives the free ends of the sheet material and the film to wind in superposition onto the take-up roller.
Mounted along one side of the housing of the apparatus is a gearbox containing a power trans-mission system including a plurality of gears,clutches and drives. One of the drives is adapted to drive the take-up roller during a processing opera-tion while the drive is disconnected from the ilm spool and the roller of the sheet material. Con-versely, two of the drives are adapted to drive thefilm spool and sheet material roller during a post processing operation while allowing the take-up roller to freewheel.
The apparatus further includes a rack and sector gear arrangement which incorporates a lost ~L~9()~
- ~ -motion feature. After the film cassette and film processing kit have b~en loaded into the apparatus and the leading or free ends of the film and sheet material have been attached to the take~up roller, the loading door is closed to render the apparatus lighttight. A manually operable lever is then rota-ted through an angle of approximately ninety-five degrees into a processing position. During the first part of such rotation, the sector gear drives the rack in a rearward direction relati~e to the take-up roller. The rac]c includes an inwardly extending arm which was located within a recess in one of the two sections of the kit housing during loading of the kit into the processor. As the rack moves rearwardly, its arm moves the one section in a corresponding direction thereby opening the kit and exposing the container of processing liquid. Con-tinued rotation of the lever results in a roller being pivoted into an opening incresing in size as the housing section of the kit continues its rear-ward movement. The roller is pivoted into engage-ment with the container and ruptures it; thus the viscous processing liquid flows into the dispenserO
Simultaneously with the rearward movement of the rack, the loading door is locked in its closed position and the power transmission system is controlled such that any subsequent power input by a manually operable crank is directed to the take-up roller. Rotation of the crank drives the take-up roller in a direction which unwinds the sheet material from its roller and the film from its spoo~. As the sheet material is unwound from its spool, it passes beneath the dispenser where a coating of the processing liquid is applied to a gelatin coated surface of the sheet material. That coated surface is then moved into engagement with the emulsion side of the exposed film and directed between a pair of pressure applying rollers to form a laminate which is subsequently wound upon the take-up roller. The laminate remains wrapped upon the take-up roller for a period of time sufficient to form visible images in the laminate, preferably on the film.
After the period of time has elapsed, the operator rotates the lever in an opposite direction to its original position. Such rotation moves the roller out of the kit and the rack forwardly into its original position. During forward movement of the rack its arm moves the one housing section of the kit into closing relation with the other housing section as the roller moves out of the kit. At the same time the rack unlatches the loading door and shifts the power transmission system so that any power input from the crank is transmitted to the sheet material roller and the film spool rather than to the take-up roller. The crank is rotated in the same direction as during the processing operation.
The rotation drives the sheet material roller and the film spool in directions which unwind the laminate from the take-up rollerO The film is stripped from the sheet material and both are rewound upon their spool and roller, respectively.
Thereafter the loading door of the processor may be opened, the kit containing the used sheet material and any residue of the processing operation may be removed and safely discarded, and the processed film may be removed from its cassette. The individual frames of the processed film may then be cut and mounted in frames for viewing.
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An object of the invention is to provide apparatus for receiving a film processing kit for processing of a strip of film, the appara-tus being adapted to open the kit after the app-aratus has been rendered lighttight.
Another object of the invention is to provide apparatus for processing a strip of exposed film, which apparatus is unable to withdraw the film from its cassette until a loading door of the apparatus has rendered the apparatus lighttight by being latched in a closed position.
Ano-ther object of the invention is to provide an app-aratus of the type described with means for assuring that a series of steps can only be performed in a predetermined sequence.
Other objects of the invention will in part be obvious and will in part appear hereinafter.
According to a broad aspect of the present invention, there is provided apparatus for receiving a film cas~ette contain-ing a roll of exposed, self-developing type -transparency film preparatory to processing -the film, the roll of filrn being wound upon a rotatable spool wi-th one end of the film being secured to the spool and its opposite second end being adapted to extend to the exl:erior of the film cassette via a film withdrawal slot, said apparatus comprising: a housing defining a lighttight enclo-sure in which photographically exposed film is adapted -to be processed, said housing including a loading door providing access to the interior of said housing; means for locating a film pro-cessing kit within said housing, the kit including a housing -6a-containing a strip of flexible sheet material wo~nd abou-t a rota-table drum wi-th a :Eirst end at-tached to the drum and i.ts oppo-~i.te second end extending to the exterior of the kit, a ruptur-able container enclosing a supply o:E processing l.iquid, and a processing liquid dispenser which is adapted to apply a coating of processlng liquid to one side of the sheet material`as it is being withdrawn from the kit; means for suppor-ting the film casset-te containing the exposed roll of film; means for releas-ably receiving -the second ~nds of the film and sheet material, said receiving means being adap-ted to be driven in a direc-tion so as to withdraw the film ~nd sheet material from -the f:Llm cas-sette and the kit's housing, respectively, and orientate them in superposition; rupturing means mounted for movement into the kit's housing and into engagement with the container ~-f processing liquid when the kit is at said positioning means, and said loading door is closecl, so as to rup-ture the container and thereby enab].e the processing liquid to flow to the processing liquid dispenser and thence onto the sheet ma-terial prior to it being superposed with the film; means movable from a first posi.-tion to a second ~0 position for opening the housing of the kit; and manually operable means drivingly coupled to said rupturing means and said movable means in .-1 manner which insures that s~id movable means opens the kit's housing prior to said rupturing means being moved into~
the kit's housing.
J
BRIEF DESCRIPTION OF THE DRAWINGS
For a fuller understanding of the nature and objects of the invention, references should be had to the following detailed description taken in connection with the accompanying drawings wherein:
Figure 1 is a perspective view of a preferred embodiment of the invention;
Fig. 2 is a side el~vational view o~ the apparatus of Fig. 1 r the apparatus being shown with its loading door in a closed position, certain parts being omitted or sectioned for clarity;
Fig. 3 is an enlarged side elevational view, partly in section, of a portion of the apparatus of Fig. l;
Fig. ~ is an exploded perspective view of a lost motion system;
Fig. 5 is a schematic representation of the apparatus' power transmission system and its relation to various other elements which are part of or usable with the instant invention;
Fig. 6 is a partly exploded perspective view of a disposable film processing kit which is especially adapted ~or use with the apparatus shown in Fig. l; and Fig. 6a is a side elevational view of a portion of the film processing kit.
BEST MODE FOR CARRYING OUT THE INVENTION
Figs. 1 and 2 show a preferred fo~m of apparatus 10 for processing a roll of exposed film the film preferably being of the 35mm transparency film. The apparatus 10 comprises a housing 12 having a loading door 1~ pivotally coupled at one end by a pair of pins 16 (only one shown) which extend outwardly from opposite side walls 18 and 2Q
of the housing 12 and are received by apertures 22 (only one shown) in the loading door 14. Movement of the loading door 14 into its closed position (Fig. 2) renders the housing 12 lighttight.
A generally planar support 24 extends between the side wall 18 and a side wall 26 of a gearbox 28O The support is provided with a first opening 30 through which a spring-biased plate 32 extends, a second opening 34 through which a portion of a roller 36 per-etrates, and a third opening 38 through which a portion of a take-up roller 40 extends. The roller 36 and the take-up roller 40 are mounted for rotation about their axes by means not shown.
The apparatus 10 also includes means for locating a film processing kit 42 into its proper position relative to other elements of the apparatus 10. These means include an L-shaped flangè 44 which extends inwardly from the side wall 26, an arm 46 which extends at a right angle to a rack 48 (Fig.
4) t a pair of cams 50 (only one shown) located adja-cent opposite sides of the horizontal support 24, and a plate 52 which extends along the side wall 18.
The film processing kit (Fig. 6) includes a housing consisting of a first section 54 and a second section 56 which telescopically receives the first section 54. The first section includes a top wall 58, an end wall 60, and a bottom wall 62. The end wall 60 (Fig. 2) includes a passageway 64 formed by a generally horizontal flange 66 and a vertical flange 68 for receiving the arm 46 of the rack 48.
The bottom wall 62, which has a length slightly less than half that of the top wall 58, includes a laterally spaced pair of fingers 70 and 72 the ends of which are provided with tapered latching members 74 and 76, respectively.
~9~2~
_9 The second section 56 includes a pair of side walls 78 and 80 interconnected at one end by an end wall 82. A ~ently curving wall 84 extends between the side walls 78 and 80 and slopes down-wardly from the top of the end wall 82 to a pointwhere it terminates in a generally vertical wall 86.
Two flanges 88 and 90 extend from the side wall 78 to a point where they are interconnected by a wall 92 (Fig. 6a). The wall 92 has a U shaped opening 94 therein. A pair of resilient fingers 96 and 98 integral with the wall 92, extend illtO the U-shaped opening. The fingers 96 and 98 may be spread apart so that the end of a roller 100 can be pushed between them into the U-shaped opening 94. The fingers 96, 98 then snap back and exert a drag force on the end of the roller 100. Two flanges 102 and 104 extend from the opposite side wall 80 to a point where they are interconected by a wall 106 having a U-shaped opening (not shown) therein for receiving the opposite end of the roller 100. The roller 100 has a pair of annular flanges 108 and 110 which may be positioned be~ween the walls 92 and 106. A strip of sheet material 112, e.g.0 a polyester film having a gelatin coating on one side, is coiled about the roller 100~ One end of the strip is secured to the roller 100 and the other end 114 may be releasably attached to an exterior surface o~ the end wall 82.
An opening (not shown) is located in wall 80 in alignment with the end of the roller 100 so that a drive member may protrude through the opening into engagement with the roller 100.
Also mounted in the second section 56 is a processing liquid dispenser 116. The dispenser has a nozzle 118 and a pair of laterally spaced flanges 120 and 122 which restrain sidewise movement of the ~v~
sheet material 112 as it passes beneath the nozzle 118. The nozzle 118 has a length which is less than the width of the sheet material 112 and is approxi-mately e~ual to the distance between laterally spaced sprocket holes in a strip of 35mm film, i.e.
FILM PROCESSOR
Technical Field This invention relates to apparatus for processing rolls of 35mm transparency film.
Background Art The present inven~ion relates to apparatus for processing a roll of 35mm transparency film and, more particularly, to such apparatus which is compact, inexpensive, easy to use and especiàlly attractive to the amateur photographer who desires to process his own filmO
Lately, interest has been expressed in such appara~us. Eor example~ UOS. Patent Nos.
4,309,100, 4,307,955, 4,272,178, 4,212,527 and 4,167,318 show ilm processing apparatus which are adapted for use in the processing of rolls of 35mm transparency film Also, see pages 53 and 54 of RE5EARCH DISCLOSURE, dated January 1981O ~hile these apparatus have desirable features, they do not pro-vide for low cost and ease of operation. For ~Lg~Z~
example, the apparatus disclosed in the U.S.patents, with the exception of the one taught b~
U.S. Patent ~,167,318, require a cutter for severing the film from its attachment to its film spool, thereby adding to its cost. Further, only the appa-ratus of U.S. Patent 4,307,955 recognizes the advan-tages of simplicity of loading, the apparatus being designed for use with a processing kit. Still further examples are the apparatus described in U.S. Patent 4,212,527 which includes an extendable dark chamber for receiving the film after it has been treated with a processing composition, thereby adding to its cost and overall si~e. The apparatus described in U.S. Patent 4,167,318 is rather large in comparison to the si2e of the film cassette used therein. Its operation requires the complete removal of the film from the film cassette before it can be processed. This adds to the cost of the apparatus as it requires a control circuit for the detection of the trailing end of the exposed film with its associated con-tainer of processing composition.
From the above, it can be seen that there i5 a need for a compact apparatus for processing rolls of 35mm film which is simple to use~ The appa-ratus should be easy to load, and it should auto-matically protect the film before and during processing. For example, the loading door of the apparatus should be loc~ed in its closed position to insure the lighttightness of the apparatus before the film is withdrawn from its cassette and during its processing; and, withdrawal of the film from the cassette should be prevented until the processing liquid is ready to be used in the process. Still further, to keep its cost as low as possible the apparatus should be manually operable, rather than by an electrical motor.
DISCLOSURE OF THE INVENTION
The invention relates to apparatus for processing a photographic film assemblage of the type which includes a film cassette containing therein a roll of 3Smm transparency film. The film cassette is preferably configured to be readily insertable into a conventional 35mm still camera.
The apparatus includes a lighttight housing having a loading door which is pivotally mounted for movement between open and closed positions. The housing is constr~cted to receive a film processing kit which comprises a housing o two sections movable between open and closed positions, a roller having a length of flexible sheet material wound thereupon, a container of processing liquid, and a dispenser. The apparatus also includes structure for supporting a film cassette containing a roll of exposed film, and a take-up roller which receives the free ends of the sheet material and the film to wind in superposition onto the take-up roller.
Mounted along one side of the housing of the apparatus is a gearbox containing a power trans-mission system including a plurality of gears,clutches and drives. One of the drives is adapted to drive the take-up roller during a processing opera-tion while the drive is disconnected from the ilm spool and the roller of the sheet material. Con-versely, two of the drives are adapted to drive thefilm spool and sheet material roller during a post processing operation while allowing the take-up roller to freewheel.
The apparatus further includes a rack and sector gear arrangement which incorporates a lost ~L~9()~
- ~ -motion feature. After the film cassette and film processing kit have b~en loaded into the apparatus and the leading or free ends of the film and sheet material have been attached to the take~up roller, the loading door is closed to render the apparatus lighttight. A manually operable lever is then rota-ted through an angle of approximately ninety-five degrees into a processing position. During the first part of such rotation, the sector gear drives the rack in a rearward direction relati~e to the take-up roller. The rac]c includes an inwardly extending arm which was located within a recess in one of the two sections of the kit housing during loading of the kit into the processor. As the rack moves rearwardly, its arm moves the one section in a corresponding direction thereby opening the kit and exposing the container of processing liquid. Con-tinued rotation of the lever results in a roller being pivoted into an opening incresing in size as the housing section of the kit continues its rear-ward movement. The roller is pivoted into engage-ment with the container and ruptures it; thus the viscous processing liquid flows into the dispenserO
Simultaneously with the rearward movement of the rack, the loading door is locked in its closed position and the power transmission system is controlled such that any subsequent power input by a manually operable crank is directed to the take-up roller. Rotation of the crank drives the take-up roller in a direction which unwinds the sheet material from its roller and the film from its spoo~. As the sheet material is unwound from its spool, it passes beneath the dispenser where a coating of the processing liquid is applied to a gelatin coated surface of the sheet material. That coated surface is then moved into engagement with the emulsion side of the exposed film and directed between a pair of pressure applying rollers to form a laminate which is subsequently wound upon the take-up roller. The laminate remains wrapped upon the take-up roller for a period of time sufficient to form visible images in the laminate, preferably on the film.
After the period of time has elapsed, the operator rotates the lever in an opposite direction to its original position. Such rotation moves the roller out of the kit and the rack forwardly into its original position. During forward movement of the rack its arm moves the one housing section of the kit into closing relation with the other housing section as the roller moves out of the kit. At the same time the rack unlatches the loading door and shifts the power transmission system so that any power input from the crank is transmitted to the sheet material roller and the film spool rather than to the take-up roller. The crank is rotated in the same direction as during the processing operation.
The rotation drives the sheet material roller and the film spool in directions which unwind the laminate from the take-up rollerO The film is stripped from the sheet material and both are rewound upon their spool and roller, respectively.
Thereafter the loading door of the processor may be opened, the kit containing the used sheet material and any residue of the processing operation may be removed and safely discarded, and the processed film may be removed from its cassette. The individual frames of the processed film may then be cut and mounted in frames for viewing.
z~
An object of the invention is to provide apparatus for receiving a film processing kit for processing of a strip of film, the appara-tus being adapted to open the kit after the app-aratus has been rendered lighttight.
Another object of the invention is to provide apparatus for processing a strip of exposed film, which apparatus is unable to withdraw the film from its cassette until a loading door of the apparatus has rendered the apparatus lighttight by being latched in a closed position.
Ano-ther object of the invention is to provide an app-aratus of the type described with means for assuring that a series of steps can only be performed in a predetermined sequence.
Other objects of the invention will in part be obvious and will in part appear hereinafter.
According to a broad aspect of the present invention, there is provided apparatus for receiving a film cas~ette contain-ing a roll of exposed, self-developing type -transparency film preparatory to processing -the film, the roll of filrn being wound upon a rotatable spool wi-th one end of the film being secured to the spool and its opposite second end being adapted to extend to the exl:erior of the film cassette via a film withdrawal slot, said apparatus comprising: a housing defining a lighttight enclo-sure in which photographically exposed film is adapted -to be processed, said housing including a loading door providing access to the interior of said housing; means for locating a film pro-cessing kit within said housing, the kit including a housing -6a-containing a strip of flexible sheet material wo~nd abou-t a rota-table drum wi-th a :Eirst end at-tached to the drum and i.ts oppo-~i.te second end extending to the exterior of the kit, a ruptur-able container enclosing a supply o:E processing l.iquid, and a processing liquid dispenser which is adapted to apply a coating of processlng liquid to one side of the sheet material`as it is being withdrawn from the kit; means for suppor-ting the film casset-te containing the exposed roll of film; means for releas-ably receiving -the second ~nds of the film and sheet material, said receiving means being adap-ted to be driven in a direc-tion so as to withdraw the film ~nd sheet material from -the f:Llm cas-sette and the kit's housing, respectively, and orientate them in superposition; rupturing means mounted for movement into the kit's housing and into engagement with the container ~-f processing liquid when the kit is at said positioning means, and said loading door is closecl, so as to rup-ture the container and thereby enab].e the processing liquid to flow to the processing liquid dispenser and thence onto the sheet ma-terial prior to it being superposed with the film; means movable from a first posi.-tion to a second ~0 position for opening the housing of the kit; and manually operable means drivingly coupled to said rupturing means and said movable means in .-1 manner which insures that s~id movable means opens the kit's housing prior to said rupturing means being moved into~
the kit's housing.
J
BRIEF DESCRIPTION OF THE DRAWINGS
For a fuller understanding of the nature and objects of the invention, references should be had to the following detailed description taken in connection with the accompanying drawings wherein:
Figure 1 is a perspective view of a preferred embodiment of the invention;
Fig. 2 is a side el~vational view o~ the apparatus of Fig. 1 r the apparatus being shown with its loading door in a closed position, certain parts being omitted or sectioned for clarity;
Fig. 3 is an enlarged side elevational view, partly in section, of a portion of the apparatus of Fig. l;
Fig. ~ is an exploded perspective view of a lost motion system;
Fig. 5 is a schematic representation of the apparatus' power transmission system and its relation to various other elements which are part of or usable with the instant invention;
Fig. 6 is a partly exploded perspective view of a disposable film processing kit which is especially adapted ~or use with the apparatus shown in Fig. l; and Fig. 6a is a side elevational view of a portion of the film processing kit.
BEST MODE FOR CARRYING OUT THE INVENTION
Figs. 1 and 2 show a preferred fo~m of apparatus 10 for processing a roll of exposed film the film preferably being of the 35mm transparency film. The apparatus 10 comprises a housing 12 having a loading door 1~ pivotally coupled at one end by a pair of pins 16 (only one shown) which extend outwardly from opposite side walls 18 and 2Q
of the housing 12 and are received by apertures 22 (only one shown) in the loading door 14. Movement of the loading door 14 into its closed position (Fig. 2) renders the housing 12 lighttight.
A generally planar support 24 extends between the side wall 18 and a side wall 26 of a gearbox 28O The support is provided with a first opening 30 through which a spring-biased plate 32 extends, a second opening 34 through which a portion of a roller 36 per-etrates, and a third opening 38 through which a portion of a take-up roller 40 extends. The roller 36 and the take-up roller 40 are mounted for rotation about their axes by means not shown.
The apparatus 10 also includes means for locating a film processing kit 42 into its proper position relative to other elements of the apparatus 10. These means include an L-shaped flangè 44 which extends inwardly from the side wall 26, an arm 46 which extends at a right angle to a rack 48 (Fig.
4) t a pair of cams 50 (only one shown) located adja-cent opposite sides of the horizontal support 24, and a plate 52 which extends along the side wall 18.
The film processing kit (Fig. 6) includes a housing consisting of a first section 54 and a second section 56 which telescopically receives the first section 54. The first section includes a top wall 58, an end wall 60, and a bottom wall 62. The end wall 60 (Fig. 2) includes a passageway 64 formed by a generally horizontal flange 66 and a vertical flange 68 for receiving the arm 46 of the rack 48.
The bottom wall 62, which has a length slightly less than half that of the top wall 58, includes a laterally spaced pair of fingers 70 and 72 the ends of which are provided with tapered latching members 74 and 76, respectively.
~9~2~
_9 The second section 56 includes a pair of side walls 78 and 80 interconnected at one end by an end wall 82. A ~ently curving wall 84 extends between the side walls 78 and 80 and slopes down-wardly from the top of the end wall 82 to a pointwhere it terminates in a generally vertical wall 86.
Two flanges 88 and 90 extend from the side wall 78 to a point where they are interconnected by a wall 92 (Fig. 6a). The wall 92 has a U shaped opening 94 therein. A pair of resilient fingers 96 and 98 integral with the wall 92, extend illtO the U-shaped opening. The fingers 96 and 98 may be spread apart so that the end of a roller 100 can be pushed between them into the U-shaped opening 94. The fingers 96, 98 then snap back and exert a drag force on the end of the roller 100. Two flanges 102 and 104 extend from the opposite side wall 80 to a point where they are interconected by a wall 106 having a U-shaped opening (not shown) therein for receiving the opposite end of the roller 100. The roller 100 has a pair of annular flanges 108 and 110 which may be positioned be~ween the walls 92 and 106. A strip of sheet material 112, e.g.0 a polyester film having a gelatin coating on one side, is coiled about the roller 100~ One end of the strip is secured to the roller 100 and the other end 114 may be releasably attached to an exterior surface o~ the end wall 82.
An opening (not shown) is located in wall 80 in alignment with the end of the roller 100 so that a drive member may protrude through the opening into engagement with the roller 100.
Also mounted in the second section 56 is a processing liquid dispenser 116. The dispenser has a nozzle 118 and a pair of laterally spaced flanges 120 and 122 which restrain sidewise movement of the ~v~
sheet material 112 as it passes beneath the nozzle 118. The nozzle 118 has a length which is less than the width of the sheet material 112 and is approxi-mately e~ual to the distance between laterally spaced sprocket holes in a strip of 35mm film, i.e.
2.5 cm.
A container 124 having a rupturable end 126 is supported on the wall 84, e.g., by adhesive tape 128. The container 124 holds a supply of vis-cous processing liquid 130 in a quantity sufficientto coat substantially the entire length of the sheet material 112.
Flanges 132 extend inwardly from the bottom of the side walls 78 and 80 (only one shown).
They function to guide the lateral edges of the bottom wall 62 as the second section 56 is mated with the first section 54 or closing the kit 42.
recessed area 134 extends around portions of the side walls 78 and 80 and the end wall 82 and cooper-ates with the tops of the flanges 88, 90, 102 and104 to receive the edges of the top wall 58. As the edge of the top wall 58 moves into engagement with the end wall 82, the latching members 74 and 76 are first squeeze~ toward each other by two flanges 136 (only one shown) which respectively protrude from the side walls 73 and 80. The members 74 and 76 then spring outwardly to grab the right side ~Fig. 2) of the flanges 136 thereby loc~ing the two sections 54 and 56 in the closed position, with the bottom wall 62 holding the sheet material 112 in sealing rela-tion to the nozzle 118. The latching members 74 and 76 may be disengaged from the flanges 136 by the cams 50 in the apparatus 10 as the kit is being loaded into the apparatus. During loading the cams 50 enter into a pair of apertures 138 (only one ,9~
shown~ located respectively in the side walls 78 and 80, and force the latching members 74 and 76 inwardly toward each~
The apparatus 10 fur~her includes means 5 for supporting a film cassette 140 in which a roll of developable transparency film 142 is wound upon a rotatable film spool 144. One end of the film is secured to ~he film spool 14~; the opposite end 146 extends to the exterior of the cassette through a 10 withdrawal slot 1~8. The sup~ort means include a rounded flange 150 for receiving one end of the generally cylindrical film cassette 140, and a pair of supports 152 and 154.
A power transmission 156 is mounted within 15 the gearbox 28. The transmission (Fig. 5) 156 com-prises a first power path including a gear 158 fixedly attached to a shaft 160 which, in turn, is fixedly connected with the take-up roller 40. It also comprises a second power path including gears .
20 162, 164 (compound), 166, 168 and 170. A gear 172 is mounted on a shaft 174 for limited axial movement between a first position wherein it is in drivable engagement with the second power path and a second position (shown in Fiy. 5) wherein it is in drivable 25 engagement with the first power path. The gear 172 is normally biased into engagement with the gear 158 and may be moved in the direction of the arrow 176 into engagement with the gear 162 by a bell crank 178. A slotted drive member 180 extends from the 30 .ace of the gear 170 and protrudes through an opening 182 in the wall 26 of the gearbox 28 where it may drivingly engage a pair of tabs 184 and 186 (Fig. 2) integrally formed with the roller 100~ A
similar drive member 188 extends from the face of 35 the gear 166 and protrudes through an aperture in -12~ ~ Z ~
the side wall 26 where it may drivingly engage the end of the film spool 14~. A clutch 190 is coupled between the gear 166 and its drive member 188 to allow slippage therebetween when the roller 100 and film spool 144 are driven, to co~pensate for differences in the increasing diameters of the roll of sheet material 112 and of the film 142. The gear 168 is mounted for limited linear movement along its shaft 192. The gear is biased out o engagement with the gear 166 when the take~up roller 40 is driven and it may be moved in the direction of the arrow 194 into driving engagement with the gear 166 by a cam 196 on the side of the rack 48 as will be explained. The input to the transmission 156 includes a hand crank 198 attached to the shaft 174 where the shaft 174 protrudes through the side wall 20 of the apparatus 10.
The operation of the bell crank 178 will now be described with reference to Fig. 3. The take-up roller 40 is shown in phantom lines. The bell crank 178 and a juxtaposed link 200 are located within the gearbox 28. The transmission 156, except for its gear 172, has been omitted for clarity. The bell crank 178 and the link 200 interrelate with the rack 48 to provide a plurality of functions. The bell crank 178 is pivotally coupled to a wall of the gearbox 28 by a pin 202 which extends outwardly from the bell crank 178. One arm 204 of the bell crank 178 includes a latching surface 206 which is movable into engagement with a lip 208 formed on the interior surface of an end wall 210 of the loading door 14 to lock it in its closed position. Another arm 212 of the bell crank 178 includes a pair of downwardly converging legs 214 and 216 which are joined at their ends where there is provided a cam -13~
follower 218. The cam follower 218 extends at a right angle to a plane containing the legs 214 and 216 through an arcuate slot (not shown) in a side wall 220 to a point where its end terminates in a cam slot 222 provided in the rack 48. The upper left end of the arm 212 includes a U-shaped portion 224 with inclined camming surfaces 226. The U-shaped portion 224 serves to move the gear 172 against its sprlng bias out of engagement with the gear 158 and into engagement with the gear 162 when the bell crank 178 is rotated in a clockwise direc-tion about its pivot pin 202. The link 200 is pivotally mounted intermediate its ends on a pin 228 which extends between the side walls 26 and 220 of the gearbox 28. One end of the link 200 has a cam follower 230 which extends at right angles thereto.
The cam follower 230 protrudes through another arcuate slot (not shown3 in the side wall 220 and terminates at a location within a second cam slot 232 in the rack 48. The rack 48 is supported by means (not shown) between the side wall 220 and a side wall 234 of the loading door 14. One end of the rack 48 is cut away at 236 to avoid the shaft 74 of the crank 198 when the rack 48 is moved into the position shown in Fig. 3.
The rack 4 8 may be moved between a first position (FigO 3) and a second position (Figs. 2 and 5). The mechanism for moving the rack 48 comprises a manually operable lever 238 which is connected with a sector gear 240. Both lever 238 and gear 240 may be freely rotated on a shaft 242 which is journaled in the side walls 234 and 244 of the loading door 14. The teeth of the sector gear 240 may mesh with a set of teeth 246 in the top edge of the rack 48 when the loading door 14 is in its closed position.
9~
The sector gear 240 is provided with an aperture 248 adapted to receive a pin 250 which extends radially from the shaft 242 to define a lost motion connec~
tion between the lever 238 and a .processing fluid container rupturing mechanism 252. The mechanism 252 is integrally ~ormed with the shaft 242 and com~
prises a pair of arms 254 and 256 which rotatably support a roller 258 between them.
In the operation of the apparatus 10 a closed kit 42 is positioned illtO it in such a manner that the drive member 180 engages the d~ive 1anges 184 and 186 of the sheet material roller 100, the arm 46 of the rack 48 extends into the passageway 64, and the cams 50 enter the apertures 138 in the side walls 78 and 80 of the second section 56. The cams 50 thus release the latching members 74 and 76 from their respective flanges. The leading end 114 of the sheet material is detached from the end wall 82 of the kit 42 and is trailed across the roller.36.
and attached to a pin 260 which extends from a se~-tion 262 of the take-up roller 40. Fig. 1 shows that the section 262 is pivotally connected by a hinge 264 to a second section 266 of the take-up roller 40. The second section 266 includes flanges 268 and 270 at opposite ends thereof for guiding the sheet material 112 and the film 142 onto the take-up spool 40 during clockwise rotation of the latter. Next, the film cassette 140 with the exposed roll of film 142 is loaded into the apparatus 10 such that the drive member 188 engages the end of the film spool 144 and the members 152 and 154 support the film cassette 14G as shown in Fig. 2. The leading end 146 of the film 142 is then attached to the pin 260 in such a manner that the emulsion side of the film 142 faces the gelatin coated surface of the sheet ~0~5 material 112. The leading ends 114 and 146 of the sheet material ]12 and the film 142, respectively, are each provided with an aperture (not shown) for attachment to the pin 260. The leading ends 114 and 146 are fastened to the pin 260 by pivoting the second section 266 into superposition with the first section 262 such that an aperture 287 in the first section receives the pin 260. The loading door is then closed which moves a roller 272 into engagement with the film 142 and presses it against the sheet material 112 so that both are pressed against the roller 36. The journals 27~ of the roller 272 are suitably supported in the ends of a pair of sup-porting arms 278 and 280 extending from the loading door 14. The closing of the loading door 14 also moves the teeth of the sector gear 240 into mesh with the gear teeth 246, and a latch pin 282 e~-tending from the loading door 14 into the gearbox 28 through an opening 28~ therein. When the loading door 14 is closed, the inside of the apparatus is rendered lighttight and the components assume the position shown in Fig. 3. The gearbox 28 is recessed at 243 to accommodate the shaft 242, and the door 14 is cut away at 245 to provide clearance for the shaft of the crank 198 when the door 14 is in the closed position.
Processing of the film 142 is initiated by turning the lever 238 from its idle position shown in ~ig. 3 to a processing position shown in Fig. 2.
Initial rotation of the lever 238 towards the pro cessing position is immediately transferred to the rack 48 by way of the teeth of the sector gear 240 and the rack 48 is moved to the left, or rearwardly, as viewed in Figs. 2 and 3. As the rack 48 moves to 3S the left, the cam slots 222 and 232 therein cause -16- ~ 2~
the bell crank 178 and the link 200 to rotate in a counterclockwise direction about their respective pivots 202 and 228. The rotation of the bell crank 178 results in its U-shaped portion 224 moving down-wardly out of engagement with~the gear 172. The gear172 under its spring bias thus returns to its posi-tion in engagement with the gear 158 (Fig. 5). At the same time the latching surface 206 of the bell crank 178 rotates through an opening 285 in the gearbox 28 into latching relationship with the lip 208 thereby precluding accidental opening of the loading door 14. The rotation of the link 200 moves a pawl 286 integral with the link 200, out of engagement with the teeth oE the gear 172 to free it for subsequent counterclockwise rotation. The pawl 286 is held out of engagement with the gear 172 by the latch pin 282 which enters a recess 290 in the top of the link 200, until the latching door 14 is opened. Clockwise rotation of the gear 172 is pre-vented by a second pawl 288 which extends from thetop wall of the gearbox 28 into engagement with the teeth of the gear 172. The rearward movement of the rack 48 also moves the cam 196 to enable the gear 168 to move under its spring bias, along the shaft 192 to a position where it is disengaged from the gear 166. Furthermore, the rearward movement of the rack 48 causes its arm 46 to move the first section 54 of the kit 42 away from the second section 56 to open the kit before the rupturing mechanism 252 is rotated toward the container 124. The second section 56 is kept in its position by the cams 50.
After the lever 238 has been rotated through approximately twenty-three degrees, the right side (Fig. 2) of the aperture 248 in the sector gear 240 engages the pin 2500 Continued rotation of the lever 23S toward the processing position not only continues the rearward movement of the rack 48 but also commences rotation of the rup-turing mechanism 252 toward its position shown in Fig. 2, Because of the lost motion connection between the lever 238 and the pin 250, the roller 258 moves into the kit 42 as its top wall 58 mo~es out of interference therewith. The roller 258 engages the container 124 and by increasing the pressure on the processing liquid 130 causes the end 126 of the container to rupture. Further clockwise rotation of the roller 258 about its pivot pin 242 forces the processing liquid from the container 124 into the dispenser 116.
Once the lever 238 is in the position, shown in Fig. 2f the crank 198 is rotated in the direction of the arrow 292 thereby driving the gear 153 to rotate the take-up roller 40 in a clockwise direction (Fig. 2). As the take-up roller 40 rotates the sheet material 112 is withdrawn from its roller 10G, moves past the nozzle 118 of the dispenser 116, against which it is resiliently urged by the plate 32 so that a uniform coating of the processing liquid 130 may be applied thereto, and then toward the bite of the rollers 36 and 272 where it is married with the film 142 which is being withdrawn from its cassette 140 at the same time. The rollers 36 and 272 press the gelatin coated surface of the sheet material 112 into engagement with the emulsion side of the exposed film 142 to form a laminate com-prised of a layer of processing liquid 130 sand-wiched between the sheet material 112 and the exposed film 142. The laminate is then wound upon the take-up roller 40. When the shee~ material 112 and/or the film 142 have been completely uncoiled from their respective supports, but not detached therefrom, the resultant increase in tension in the laminate is automatically fed back to the crank 198 thereby signaling the operator to stop rotating the S crank 198. To prevent any damage to the apparatus 10 or the laminate, a slip clutch 294 may be coupled between the shaft 17~ and the crank 198 so that further rotation of the crank 19~ by the operator is not transferred to the shaft 174. The laminate is then allowed to remain upon the take-up roller 40 for a time, e.g. one minute, sufficient for visible images to be formed in the laminate, preEerably in the film 142.
After the processing of the visible images within the laminate has been substantially com-pleted, the lever 238 is rotated in a counterclock-wise direction (Fig. 2) toward its non-processing or idle position. The rotation immediately drives the rack 48 forwardly toward the take-up roller 40 while moving the first section 54 of the kit 42 back into closing relationship with the second section 56. The initial rotation of the lever 238 is not transferred to the rupturing mechanism 252 because of the lost motion connection; the mechanism 252 is moved, however, by an edge 298 of the top wall 58 of the first section 54 engaging the undersurface 296 of the mechanism and pivoting it upwardly until the left side of the aperture 248 engages the pin 250 and completes the movement of the rupturing mechanism 252 out of the kit 42 before it closes.
An edge 298 of the bottom wall 62 of the first section 54 is beveled to cooperate with a radius 300 on the spring biased plate 32 so as to urge the plate 32 downwardly so that the edge 298 may pass to a point where the bottom wall 62 seals the nozzle 2~
--lg--118. Movement of the rack 48 ko its forward or post processing position shown in Fig. 3, also results in clockwise rotation o the bell crank 173 due to the cam slot 222 and cam follower 218 relationship. Thus the end 206 of the arm 204 pivo~s out of latching relation with the lip 208 and the U-shaped section 224 moves upwardly into contact with the gear 172, the cam surface 226 of section 224 moving the gear 172 out o engagement with the gear 15~ and into engagement with the gear 162. Furthermore, the cam 196 on the rack returns the gear 168 into its en-gagement with the gear 166. The position of the link 200 remains unchanged, however, since the pin 290 maintains it in a position where the pawl 286 is held, against the bias of the free end 306 of a spring, out of engagement with the teeth of the gear 172.
When the lever 238 has reached its post processing position, the crank 198 may be rotated in the same direction as before, i.e., in the direction of the arrow 292. This power input is directed to the second power path through the gear 172 thereby rotating the sheet material roller 100 and the film spool 144 in a clockwise direction (Fig. 5). The rotation of the roller 100 and the film spool 144 withdraws or unwinds the laminate from the take~up roller 40. As the laminate emerges from the left side (Fig. 2) of the rollers 36 and 272, the film 142 is stripped from the sheet material 112 and rewound upon the film spool 144 and the sheet material 112 is rewound upon its roller 100. As described in U.S. Patent 4,309,100, in a preferred type of film the photosensitive or emulsion layer of the film 142 exhibits greater adhesion to the sheet material 112 than to the next adjacent layer of the -20~
film. Thus stripping the sheet material 112 from the film 142 removes the emulsion layer as well, increasing visual acuity and brightness of the resultant positive transparency and enhancing its stability by virtue of the removal of any residual processing reagent in the emulsion. For further details of the film, reference may be had to U~S.
Patent No. 3,682,637.
Withdrawiny the laminate from the take-up roller 40 causes the latter to rotate in a counter-clockwise direction, as viewed in Fig. 2. As the last convolution of the laminate is removed from the take-up roller 40, the portion of the laminate ex-tending between the bite of the rollers 3~ and 272 and the free end of the second section 266 of the take-up roller 40 assumes an angle which would pivot the second section 266 about the hinge 264 and free the ends 114 and 146 of the sheet material 112 and the film 142 from attachment to the take-up roller ~0. Rotation of the crank 198 is continued for a few turns aEter the operator feels the release of the end of the laminate from the take-up roller 40 so as to completely rewind the end 114 of the sheet mate-rial 112 into the kit 42. The loading door 14 ma~
then be opened thereby releasing the link 200 for movement back into the position shown in Fig. 3.
The kit 42 may be removed and safely discarded with all materials used in the processing of the film 142 being safely enclosed in the kit. At this time, the film cassette 140 may be removed from the apparatus and the processed film removed therefrom for subse-quent cutting and mounting of the individual scenes.
In an alternative embodiment, the visible images could be formed in the sheet material. In that case the ~ilm would comprise a photosensitive ~v~
layer through which the exposure would be made, and a base which may or may not be transparent. The sheet material would comprise a transparent base and an image receiving layer. After exposure o~ the fil~, the surface of the sheet material containing the image receiving layer would be coated with the processing liquid and brought into superposition with the side of the film through which the exposure had been made. This may involve reversing the orientation of the film cassette from the position shown in Fig. 2 to place the image receiving layer into contact with the emulsion side of the film.
After the sheet material has been rewound on its spool, the spool could be removed and the individual scenes in the sheet material would be cut and mounted for subsequent viewing.
Since certain changes may be made in the above apparatus without departing from the scope of the invention herein involved, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.
A container 124 having a rupturable end 126 is supported on the wall 84, e.g., by adhesive tape 128. The container 124 holds a supply of vis-cous processing liquid 130 in a quantity sufficientto coat substantially the entire length of the sheet material 112.
Flanges 132 extend inwardly from the bottom of the side walls 78 and 80 (only one shown).
They function to guide the lateral edges of the bottom wall 62 as the second section 56 is mated with the first section 54 or closing the kit 42.
recessed area 134 extends around portions of the side walls 78 and 80 and the end wall 82 and cooper-ates with the tops of the flanges 88, 90, 102 and104 to receive the edges of the top wall 58. As the edge of the top wall 58 moves into engagement with the end wall 82, the latching members 74 and 76 are first squeeze~ toward each other by two flanges 136 (only one shown) which respectively protrude from the side walls 73 and 80. The members 74 and 76 then spring outwardly to grab the right side ~Fig. 2) of the flanges 136 thereby loc~ing the two sections 54 and 56 in the closed position, with the bottom wall 62 holding the sheet material 112 in sealing rela-tion to the nozzle 118. The latching members 74 and 76 may be disengaged from the flanges 136 by the cams 50 in the apparatus 10 as the kit is being loaded into the apparatus. During loading the cams 50 enter into a pair of apertures 138 (only one ,9~
shown~ located respectively in the side walls 78 and 80, and force the latching members 74 and 76 inwardly toward each~
The apparatus 10 fur~her includes means 5 for supporting a film cassette 140 in which a roll of developable transparency film 142 is wound upon a rotatable film spool 144. One end of the film is secured to ~he film spool 14~; the opposite end 146 extends to the exterior of the cassette through a 10 withdrawal slot 1~8. The sup~ort means include a rounded flange 150 for receiving one end of the generally cylindrical film cassette 140, and a pair of supports 152 and 154.
A power transmission 156 is mounted within 15 the gearbox 28. The transmission (Fig. 5) 156 com-prises a first power path including a gear 158 fixedly attached to a shaft 160 which, in turn, is fixedly connected with the take-up roller 40. It also comprises a second power path including gears .
20 162, 164 (compound), 166, 168 and 170. A gear 172 is mounted on a shaft 174 for limited axial movement between a first position wherein it is in drivable engagement with the second power path and a second position (shown in Fiy. 5) wherein it is in drivable 25 engagement with the first power path. The gear 172 is normally biased into engagement with the gear 158 and may be moved in the direction of the arrow 176 into engagement with the gear 162 by a bell crank 178. A slotted drive member 180 extends from the 30 .ace of the gear 170 and protrudes through an opening 182 in the wall 26 of the gearbox 28 where it may drivingly engage a pair of tabs 184 and 186 (Fig. 2) integrally formed with the roller 100~ A
similar drive member 188 extends from the face of 35 the gear 166 and protrudes through an aperture in -12~ ~ Z ~
the side wall 26 where it may drivingly engage the end of the film spool 14~. A clutch 190 is coupled between the gear 166 and its drive member 188 to allow slippage therebetween when the roller 100 and film spool 144 are driven, to co~pensate for differences in the increasing diameters of the roll of sheet material 112 and of the film 142. The gear 168 is mounted for limited linear movement along its shaft 192. The gear is biased out o engagement with the gear 166 when the take~up roller 40 is driven and it may be moved in the direction of the arrow 194 into driving engagement with the gear 166 by a cam 196 on the side of the rack 48 as will be explained. The input to the transmission 156 includes a hand crank 198 attached to the shaft 174 where the shaft 174 protrudes through the side wall 20 of the apparatus 10.
The operation of the bell crank 178 will now be described with reference to Fig. 3. The take-up roller 40 is shown in phantom lines. The bell crank 178 and a juxtaposed link 200 are located within the gearbox 28. The transmission 156, except for its gear 172, has been omitted for clarity. The bell crank 178 and the link 200 interrelate with the rack 48 to provide a plurality of functions. The bell crank 178 is pivotally coupled to a wall of the gearbox 28 by a pin 202 which extends outwardly from the bell crank 178. One arm 204 of the bell crank 178 includes a latching surface 206 which is movable into engagement with a lip 208 formed on the interior surface of an end wall 210 of the loading door 14 to lock it in its closed position. Another arm 212 of the bell crank 178 includes a pair of downwardly converging legs 214 and 216 which are joined at their ends where there is provided a cam -13~
follower 218. The cam follower 218 extends at a right angle to a plane containing the legs 214 and 216 through an arcuate slot (not shown) in a side wall 220 to a point where its end terminates in a cam slot 222 provided in the rack 48. The upper left end of the arm 212 includes a U-shaped portion 224 with inclined camming surfaces 226. The U-shaped portion 224 serves to move the gear 172 against its sprlng bias out of engagement with the gear 158 and into engagement with the gear 162 when the bell crank 178 is rotated in a clockwise direc-tion about its pivot pin 202. The link 200 is pivotally mounted intermediate its ends on a pin 228 which extends between the side walls 26 and 220 of the gearbox 28. One end of the link 200 has a cam follower 230 which extends at right angles thereto.
The cam follower 230 protrudes through another arcuate slot (not shown3 in the side wall 220 and terminates at a location within a second cam slot 232 in the rack 48. The rack 48 is supported by means (not shown) between the side wall 220 and a side wall 234 of the loading door 14. One end of the rack 48 is cut away at 236 to avoid the shaft 74 of the crank 198 when the rack 48 is moved into the position shown in Fig. 3.
The rack 4 8 may be moved between a first position (FigO 3) and a second position (Figs. 2 and 5). The mechanism for moving the rack 48 comprises a manually operable lever 238 which is connected with a sector gear 240. Both lever 238 and gear 240 may be freely rotated on a shaft 242 which is journaled in the side walls 234 and 244 of the loading door 14. The teeth of the sector gear 240 may mesh with a set of teeth 246 in the top edge of the rack 48 when the loading door 14 is in its closed position.
9~
The sector gear 240 is provided with an aperture 248 adapted to receive a pin 250 which extends radially from the shaft 242 to define a lost motion connec~
tion between the lever 238 and a .processing fluid container rupturing mechanism 252. The mechanism 252 is integrally ~ormed with the shaft 242 and com~
prises a pair of arms 254 and 256 which rotatably support a roller 258 between them.
In the operation of the apparatus 10 a closed kit 42 is positioned illtO it in such a manner that the drive member 180 engages the d~ive 1anges 184 and 186 of the sheet material roller 100, the arm 46 of the rack 48 extends into the passageway 64, and the cams 50 enter the apertures 138 in the side walls 78 and 80 of the second section 56. The cams 50 thus release the latching members 74 and 76 from their respective flanges. The leading end 114 of the sheet material is detached from the end wall 82 of the kit 42 and is trailed across the roller.36.
and attached to a pin 260 which extends from a se~-tion 262 of the take-up roller 40. Fig. 1 shows that the section 262 is pivotally connected by a hinge 264 to a second section 266 of the take-up roller 40. The second section 266 includes flanges 268 and 270 at opposite ends thereof for guiding the sheet material 112 and the film 142 onto the take-up spool 40 during clockwise rotation of the latter. Next, the film cassette 140 with the exposed roll of film 142 is loaded into the apparatus 10 such that the drive member 188 engages the end of the film spool 144 and the members 152 and 154 support the film cassette 14G as shown in Fig. 2. The leading end 146 of the film 142 is then attached to the pin 260 in such a manner that the emulsion side of the film 142 faces the gelatin coated surface of the sheet ~0~5 material 112. The leading ends 114 and 146 of the sheet material ]12 and the film 142, respectively, are each provided with an aperture (not shown) for attachment to the pin 260. The leading ends 114 and 146 are fastened to the pin 260 by pivoting the second section 266 into superposition with the first section 262 such that an aperture 287 in the first section receives the pin 260. The loading door is then closed which moves a roller 272 into engagement with the film 142 and presses it against the sheet material 112 so that both are pressed against the roller 36. The journals 27~ of the roller 272 are suitably supported in the ends of a pair of sup-porting arms 278 and 280 extending from the loading door 14. The closing of the loading door 14 also moves the teeth of the sector gear 240 into mesh with the gear teeth 246, and a latch pin 282 e~-tending from the loading door 14 into the gearbox 28 through an opening 28~ therein. When the loading door 14 is closed, the inside of the apparatus is rendered lighttight and the components assume the position shown in Fig. 3. The gearbox 28 is recessed at 243 to accommodate the shaft 242, and the door 14 is cut away at 245 to provide clearance for the shaft of the crank 198 when the door 14 is in the closed position.
Processing of the film 142 is initiated by turning the lever 238 from its idle position shown in ~ig. 3 to a processing position shown in Fig. 2.
Initial rotation of the lever 238 towards the pro cessing position is immediately transferred to the rack 48 by way of the teeth of the sector gear 240 and the rack 48 is moved to the left, or rearwardly, as viewed in Figs. 2 and 3. As the rack 48 moves to 3S the left, the cam slots 222 and 232 therein cause -16- ~ 2~
the bell crank 178 and the link 200 to rotate in a counterclockwise direction about their respective pivots 202 and 228. The rotation of the bell crank 178 results in its U-shaped portion 224 moving down-wardly out of engagement with~the gear 172. The gear172 under its spring bias thus returns to its posi-tion in engagement with the gear 158 (Fig. 5). At the same time the latching surface 206 of the bell crank 178 rotates through an opening 285 in the gearbox 28 into latching relationship with the lip 208 thereby precluding accidental opening of the loading door 14. The rotation of the link 200 moves a pawl 286 integral with the link 200, out of engagement with the teeth oE the gear 172 to free it for subsequent counterclockwise rotation. The pawl 286 is held out of engagement with the gear 172 by the latch pin 282 which enters a recess 290 in the top of the link 200, until the latching door 14 is opened. Clockwise rotation of the gear 172 is pre-vented by a second pawl 288 which extends from thetop wall of the gearbox 28 into engagement with the teeth of the gear 172. The rearward movement of the rack 48 also moves the cam 196 to enable the gear 168 to move under its spring bias, along the shaft 192 to a position where it is disengaged from the gear 166. Furthermore, the rearward movement of the rack 48 causes its arm 46 to move the first section 54 of the kit 42 away from the second section 56 to open the kit before the rupturing mechanism 252 is rotated toward the container 124. The second section 56 is kept in its position by the cams 50.
After the lever 238 has been rotated through approximately twenty-three degrees, the right side (Fig. 2) of the aperture 248 in the sector gear 240 engages the pin 2500 Continued rotation of the lever 23S toward the processing position not only continues the rearward movement of the rack 48 but also commences rotation of the rup-turing mechanism 252 toward its position shown in Fig. 2, Because of the lost motion connection between the lever 238 and the pin 250, the roller 258 moves into the kit 42 as its top wall 58 mo~es out of interference therewith. The roller 258 engages the container 124 and by increasing the pressure on the processing liquid 130 causes the end 126 of the container to rupture. Further clockwise rotation of the roller 258 about its pivot pin 242 forces the processing liquid from the container 124 into the dispenser 116.
Once the lever 238 is in the position, shown in Fig. 2f the crank 198 is rotated in the direction of the arrow 292 thereby driving the gear 153 to rotate the take-up roller 40 in a clockwise direction (Fig. 2). As the take-up roller 40 rotates the sheet material 112 is withdrawn from its roller 10G, moves past the nozzle 118 of the dispenser 116, against which it is resiliently urged by the plate 32 so that a uniform coating of the processing liquid 130 may be applied thereto, and then toward the bite of the rollers 36 and 272 where it is married with the film 142 which is being withdrawn from its cassette 140 at the same time. The rollers 36 and 272 press the gelatin coated surface of the sheet material 112 into engagement with the emulsion side of the exposed film 142 to form a laminate com-prised of a layer of processing liquid 130 sand-wiched between the sheet material 112 and the exposed film 142. The laminate is then wound upon the take-up roller 40. When the shee~ material 112 and/or the film 142 have been completely uncoiled from their respective supports, but not detached therefrom, the resultant increase in tension in the laminate is automatically fed back to the crank 198 thereby signaling the operator to stop rotating the S crank 198. To prevent any damage to the apparatus 10 or the laminate, a slip clutch 294 may be coupled between the shaft 17~ and the crank 198 so that further rotation of the crank 19~ by the operator is not transferred to the shaft 174. The laminate is then allowed to remain upon the take-up roller 40 for a time, e.g. one minute, sufficient for visible images to be formed in the laminate, preEerably in the film 142.
After the processing of the visible images within the laminate has been substantially com-pleted, the lever 238 is rotated in a counterclock-wise direction (Fig. 2) toward its non-processing or idle position. The rotation immediately drives the rack 48 forwardly toward the take-up roller 40 while moving the first section 54 of the kit 42 back into closing relationship with the second section 56. The initial rotation of the lever 238 is not transferred to the rupturing mechanism 252 because of the lost motion connection; the mechanism 252 is moved, however, by an edge 298 of the top wall 58 of the first section 54 engaging the undersurface 296 of the mechanism and pivoting it upwardly until the left side of the aperture 248 engages the pin 250 and completes the movement of the rupturing mechanism 252 out of the kit 42 before it closes.
An edge 298 of the bottom wall 62 of the first section 54 is beveled to cooperate with a radius 300 on the spring biased plate 32 so as to urge the plate 32 downwardly so that the edge 298 may pass to a point where the bottom wall 62 seals the nozzle 2~
--lg--118. Movement of the rack 48 ko its forward or post processing position shown in Fig. 3, also results in clockwise rotation o the bell crank 173 due to the cam slot 222 and cam follower 218 relationship. Thus the end 206 of the arm 204 pivo~s out of latching relation with the lip 208 and the U-shaped section 224 moves upwardly into contact with the gear 172, the cam surface 226 of section 224 moving the gear 172 out o engagement with the gear 15~ and into engagement with the gear 162. Furthermore, the cam 196 on the rack returns the gear 168 into its en-gagement with the gear 166. The position of the link 200 remains unchanged, however, since the pin 290 maintains it in a position where the pawl 286 is held, against the bias of the free end 306 of a spring, out of engagement with the teeth of the gear 172.
When the lever 238 has reached its post processing position, the crank 198 may be rotated in the same direction as before, i.e., in the direction of the arrow 292. This power input is directed to the second power path through the gear 172 thereby rotating the sheet material roller 100 and the film spool 144 in a clockwise direction (Fig. 5). The rotation of the roller 100 and the film spool 144 withdraws or unwinds the laminate from the take~up roller 40. As the laminate emerges from the left side (Fig. 2) of the rollers 36 and 272, the film 142 is stripped from the sheet material 112 and rewound upon the film spool 144 and the sheet material 112 is rewound upon its roller 100. As described in U.S. Patent 4,309,100, in a preferred type of film the photosensitive or emulsion layer of the film 142 exhibits greater adhesion to the sheet material 112 than to the next adjacent layer of the -20~
film. Thus stripping the sheet material 112 from the film 142 removes the emulsion layer as well, increasing visual acuity and brightness of the resultant positive transparency and enhancing its stability by virtue of the removal of any residual processing reagent in the emulsion. For further details of the film, reference may be had to U~S.
Patent No. 3,682,637.
Withdrawiny the laminate from the take-up roller 40 causes the latter to rotate in a counter-clockwise direction, as viewed in Fig. 2. As the last convolution of the laminate is removed from the take-up roller 40, the portion of the laminate ex-tending between the bite of the rollers 3~ and 272 and the free end of the second section 266 of the take-up roller 40 assumes an angle which would pivot the second section 266 about the hinge 264 and free the ends 114 and 146 of the sheet material 112 and the film 142 from attachment to the take-up roller ~0. Rotation of the crank 198 is continued for a few turns aEter the operator feels the release of the end of the laminate from the take-up roller 40 so as to completely rewind the end 114 of the sheet mate-rial 112 into the kit 42. The loading door 14 ma~
then be opened thereby releasing the link 200 for movement back into the position shown in Fig. 3.
The kit 42 may be removed and safely discarded with all materials used in the processing of the film 142 being safely enclosed in the kit. At this time, the film cassette 140 may be removed from the apparatus and the processed film removed therefrom for subse-quent cutting and mounting of the individual scenes.
In an alternative embodiment, the visible images could be formed in the sheet material. In that case the ~ilm would comprise a photosensitive ~v~
layer through which the exposure would be made, and a base which may or may not be transparent. The sheet material would comprise a transparent base and an image receiving layer. After exposure o~ the fil~, the surface of the sheet material containing the image receiving layer would be coated with the processing liquid and brought into superposition with the side of the film through which the exposure had been made. This may involve reversing the orientation of the film cassette from the position shown in Fig. 2 to place the image receiving layer into contact with the emulsion side of the film.
After the sheet material has been rewound on its spool, the spool could be removed and the individual scenes in the sheet material would be cut and mounted for subsequent viewing.
Since certain changes may be made in the above apparatus without departing from the scope of the invention herein involved, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.
Claims (20)
1. Apparatus for receiving a film cassette containing a roll of exposed, self-developing type transparency film preparatory to processing the film, the roll of film being wound upon a rotatable spool with one end of the film being secured to the spool and its opposite second end being adapted to extend to the exterior of the film cassette via a film withdrawal slot, said apparatus comprising:
a housing defining a lighttight enclosure in which photographically exposed film is adapted to be processed, said housing including a loading door providing access to the interior of said housing;
means for locating a film processing kit within said housing, the kit including a housing containing a strip of flexible sheet material wound about a rotatable drum with a first end attached to the drum and its opposite second end extending to the exterior of the kit, a rupturable container enclosing a supply of processing liquid, and a pro-cessing liquid dispenser which is adapted to apply a coating of processing liquid to one side of the sheet material as it is being withdrawn from the kit;
means for supporting the film cassette containing the exposed roll of film;
means for releasably receiving the second ends of the film and sheet material, said receiving means being adapted to be driven in a direction so as to withdraw the film and sheet material from the film cassette and the kit's housing, respectively, and orientate them in superposition;
rupturing means mounted for movement into the kit's housing and into engagement with the con-tainer of processing liquid when the kit is at said positioning means, and said loading door is closed, so as to rupture the container and thereby enable the processing liquid to flow to the processing liquid dispenser and thence onto the sheet material prior to it being superposed with the film;
means movable from a first position to a second position for opening the housing of the kit;
and manually operable means drivingly coupled to said rupturing means and said movable means in a manner which insures that said movable means opens the kit's housing prior to said rupturing means being moved into the kit's housing.
a housing defining a lighttight enclosure in which photographically exposed film is adapted to be processed, said housing including a loading door providing access to the interior of said housing;
means for locating a film processing kit within said housing, the kit including a housing containing a strip of flexible sheet material wound about a rotatable drum with a first end attached to the drum and its opposite second end extending to the exterior of the kit, a rupturable container enclosing a supply of processing liquid, and a pro-cessing liquid dispenser which is adapted to apply a coating of processing liquid to one side of the sheet material as it is being withdrawn from the kit;
means for supporting the film cassette containing the exposed roll of film;
means for releasably receiving the second ends of the film and sheet material, said receiving means being adapted to be driven in a direction so as to withdraw the film and sheet material from the film cassette and the kit's housing, respectively, and orientate them in superposition;
rupturing means mounted for movement into the kit's housing and into engagement with the con-tainer of processing liquid when the kit is at said positioning means, and said loading door is closed, so as to rupture the container and thereby enable the processing liquid to flow to the processing liquid dispenser and thence onto the sheet material prior to it being superposed with the film;
means movable from a first position to a second position for opening the housing of the kit;
and manually operable means drivingly coupled to said rupturing means and said movable means in a manner which insures that said movable means opens the kit's housing prior to said rupturing means being moved into the kit's housing.
2. Apparatus as defined in claim 1 further including means for locking the loading door in the closed position so as to render the housing lighttight, the locking means being moved into locking relation with the loading door in response to movement of the movable means into the second position.
3. Apparatus as defined in claim 1 further including means for rotating the receiving means so as to wind the film and processing liquid coated sheet material in superposition thereupon, and means for preventing operation of the rotating means until after the rupturing means has ruptured the container of processing liquid.
4. Apparatus as defined in claim 3 wherein the means for preventing operation of the rotating means is rendered inoperative in response to the movement of the movable means into its second position.
5. Apparatus as defined in claim 1 further including power transmission means operatively connectible to the receiving means when the movable means is in the second position for driving the receiving means in a direction to withdraw the sheet material from the roller and move it past the liquid dispenser whereat a layer of processing liquid is applied thereto and to withdraw the film from the cassette and superpose it with the liquid coated surface of the sheet material to form a laminate which is then wound upon the receiving means where the laminate is allowed to stay until a visible image has been formed in the laminate, and disconnectible from the receiving means and connectible in driving engagement with the roller and the film spool when the movable means is in the first position whereby rotation of the roller and film spool is effective to remove the superposed sheet material and film from the receiving means and strip one from the other as they are rewound upon the drum and the film spool, respectively.
6. Apparatus as defined in claim 5 wherein the power transmission means includes first and second power paths, the first power path transmitting power to the receiving means only when the movable means is in its second position, and the second power path transmitting power to the roller and film spool only when the movable means is in its first position.
7. Apparatus as defined in claim 6 wherein the power transmission means further includes an element movable into and out of driving engagement with the first and second power paths, and the apparatus further includes a cam for moving the element during movement of the movable means.
8. Apparatus as defined in claim 7 wherein the cam moves the element out of driving relation with the first power path and into driving relation with the second power path as the movable means moves into its first position.
9. Apparatus as defined in claim 8 wherein the power transmission means includes a crank manually rotatable in the same direction during transmission of power to either of said first or second power paths.
10. Apparatus for processing a roll of transparency film wound upon a rotatable spool in a cassette with one end of the film secured to the spool and its opposite end extending to the exterior of the cassette through a film withdrawal slot, the apparatus comprising:
a housing defining a lighttight enclosure in which the film is processed, the housing including a loading door providing access to the interior of the housing;
means for locating a film processing kit in the housing, the kit containing a strip of flexible sheet material wound on a rotatable drum with a first end attached to the drum and its opposite end extending to the exterior of the kit, a rupturable container enclosing a supply of processing liquid, and a processing liquid dispenser for applying a coating of processing liquid to one side of the sheet material as it is withdrawn from the kit;
means for supporting the cassette containing the roll of film;
means for releasably receiving the opposite ends of the film and of the sheet material, the receiving means being drivable in a direction to withdraw the film and the sheet material from the film cassette and the kit, respectively, and orientate them in superposition;
rupturing means mounted for movement into the kit and into engagement with the container of processing liquid when the kit is located in the positioning means and the loading door is closed so as to rupture the container and thereby enable the processing liquid to flow to the dispenser for coating a surface of the sheet material before superposition with the film;
means for locking the loading door in its closed position;
means for rotating the receiving means to wind the sheet material and the film in superposi-tion thereupon with a layer of processing liquid located therebetween;
stop means normally mounted in engagement with the rotating means for rendering the rotating means inoperative to rotate the receiving means;
movable means coupled to the locking means and the stop means for moving the locking means into latching engagement with the loading door and the stop means out of engagement with an element of the rotating means as the movable means is moved from a first position to a second position; and manually operable means drivingly coupled to the rupturing means and the movable means in a manner that the rupturing means is moved into engagement with the container of processing liquid to rupture the latter and allow its contents to flow into the dispenser prior to the movable means being moved into the second position, thereby insuring that the container of processing liquid has been ruptured prior to the sheet material and the film being wound upon the receiving means under the influence of the rotating means, and that the loading door cannot be opened during the period that such winding is taking place.
a housing defining a lighttight enclosure in which the film is processed, the housing including a loading door providing access to the interior of the housing;
means for locating a film processing kit in the housing, the kit containing a strip of flexible sheet material wound on a rotatable drum with a first end attached to the drum and its opposite end extending to the exterior of the kit, a rupturable container enclosing a supply of processing liquid, and a processing liquid dispenser for applying a coating of processing liquid to one side of the sheet material as it is withdrawn from the kit;
means for supporting the cassette containing the roll of film;
means for releasably receiving the opposite ends of the film and of the sheet material, the receiving means being drivable in a direction to withdraw the film and the sheet material from the film cassette and the kit, respectively, and orientate them in superposition;
rupturing means mounted for movement into the kit and into engagement with the container of processing liquid when the kit is located in the positioning means and the loading door is closed so as to rupture the container and thereby enable the processing liquid to flow to the dispenser for coating a surface of the sheet material before superposition with the film;
means for locking the loading door in its closed position;
means for rotating the receiving means to wind the sheet material and the film in superposi-tion thereupon with a layer of processing liquid located therebetween;
stop means normally mounted in engagement with the rotating means for rendering the rotating means inoperative to rotate the receiving means;
movable means coupled to the locking means and the stop means for moving the locking means into latching engagement with the loading door and the stop means out of engagement with an element of the rotating means as the movable means is moved from a first position to a second position; and manually operable means drivingly coupled to the rupturing means and the movable means in a manner that the rupturing means is moved into engagement with the container of processing liquid to rupture the latter and allow its contents to flow into the dispenser prior to the movable means being moved into the second position, thereby insuring that the container of processing liquid has been ruptured prior to the sheet material and the film being wound upon the receiving means under the influence of the rotating means, and that the loading door cannot be opened during the period that such winding is taking place.
11. Apparatus as defined in claim 10 wherein the laminate comprised of the sheet material, the film, and the interposed layer of processing liquid remains wound upon the receiving means for a predetermined period of time during which a visible image is formed in either the film or the sheet material.
12. Apparatus as defined in claim 11 further including means coupled to the drum of the processing kit and to the film spool for rotating them in a direction progressively to remove the laminate from the receiving means and strip the film from the sheet material while rewinding the film and the sheet material upon the film spool and the drum, respectively, the element of the rotating means being moved out of driving relation with the receiving means and into driving relation with the coupled means in response to the manually operable means moving the movable means from the second position to the first position.
13. Apparatus as defined in claim 12 wherein the rotating means includes a crank manually rotatable in the same direction during rotation of the receiving means or the film spool and the drum.
14. Apparatus for processing a roll of transparency film, the roll of film being wound upon a rotatable spool with one end of the film being secured to the spool and its opposite end extending to the exterior of the film cassette through a film withdrawal slot, the apparatus comprising:
a housing defining a lighttight enclosure in which photographically exposed film may be processed, the housing including a loading door providing access to the interior of the housing;
means for locating a film processing kit in the housing, the kit containing a strip of flexible sheet material wound about a rotatable drum with a first end attached to the drum and its second end extending to the exterior of the kit, a ruptur-able container enclosing a supply of processing liquid, and a processing liquid dispenser for applying a coating of processing liquid to one side of the sheet material as it is withdrawn from the kit;
means for supporting the film cassette containing the roll of film;
means for releasably receiving the opposite ends of the film and the sheet material, the receiving means being drivable in a direction to withdraw the film and the sheet material from the cassette and the kit, respectively, and orientate them in superposition;
rupturing means mounted for movement into the kit and into engagement with the container of processing liquid when the kit is in the posi-tioning means so as to rupture the container and thereby enable the processing liquid to flow to the processing liquid dispenser and thence onto the sheet material prior to it being superposed with the film;
power transmission means including a first power path for transmitting rotative power to the receiving means, a second power path for trans-mitting rotative power to the drum and to the film spool, and an element mounted for movement between a first position wherein it is in drivable engagement with the second power path and a second position wherein the element is in drivable engagement with the first power path;
power input means coupled to the element;
means for moving the element from the second position to the first position; and manually operable means mounted for movement into a film processing position during which it drives the rupturing means into engagement with the container so as to cause its rupture and the flow of the processing liquid into the dis-penser, and the element moving means in a direction which permits the element to be moved from its first position into its second position wherein it will direct power from the power input means to the receiving means so as to rotate the receiving means in a manner which withdraws the sheet material from the kit as a coating of processing liquid is being applied to one surface thereof and superposes that surface with the film as it is being unwound from its spool thereby to form a laminate which is wound upon the receiving means where the laminate is allowed to stay until a visible image has been formed in the laminate.
a housing defining a lighttight enclosure in which photographically exposed film may be processed, the housing including a loading door providing access to the interior of the housing;
means for locating a film processing kit in the housing, the kit containing a strip of flexible sheet material wound about a rotatable drum with a first end attached to the drum and its second end extending to the exterior of the kit, a ruptur-able container enclosing a supply of processing liquid, and a processing liquid dispenser for applying a coating of processing liquid to one side of the sheet material as it is withdrawn from the kit;
means for supporting the film cassette containing the roll of film;
means for releasably receiving the opposite ends of the film and the sheet material, the receiving means being drivable in a direction to withdraw the film and the sheet material from the cassette and the kit, respectively, and orientate them in superposition;
rupturing means mounted for movement into the kit and into engagement with the container of processing liquid when the kit is in the posi-tioning means so as to rupture the container and thereby enable the processing liquid to flow to the processing liquid dispenser and thence onto the sheet material prior to it being superposed with the film;
power transmission means including a first power path for transmitting rotative power to the receiving means, a second power path for trans-mitting rotative power to the drum and to the film spool, and an element mounted for movement between a first position wherein it is in drivable engagement with the second power path and a second position wherein the element is in drivable engagement with the first power path;
power input means coupled to the element;
means for moving the element from the second position to the first position; and manually operable means mounted for movement into a film processing position during which it drives the rupturing means into engagement with the container so as to cause its rupture and the flow of the processing liquid into the dis-penser, and the element moving means in a direction which permits the element to be moved from its first position into its second position wherein it will direct power from the power input means to the receiving means so as to rotate the receiving means in a manner which withdraws the sheet material from the kit as a coating of processing liquid is being applied to one surface thereof and superposes that surface with the film as it is being unwound from its spool thereby to form a laminate which is wound upon the receiving means where the laminate is allowed to stay until a visible image has been formed in the laminate.
15. Apparatus as defined in claim 14 further including stop means mounted in engagement with the element for prohibiting rotation of the element until the loading door is in a closed position thereby rendering the housing lighttight and the manually operable means is in the processing position.
16. Apparatus as defined in claim 15 further including means for latching the loading door in the closed position while the manually operable means is in the processing position.
17. Apparatus as defined in claim 14 wherein the second power path includes a gear normally spring biased out of the second power path when the manually operable means is in the pro-cessing position thereby reducing the drag on the rotatable drum and the film spool as the sheet material and film, respectively, are being unwound therefrom.
18. Apparatus as defined in claim 17 wherein the manually operable means includes a cam for engaging the gear and moving it back into the second power path as the manually operable means is moved from the processing position to a non-processing position.
19. Apparatus as defined in claim 14 wherein the manually operable means is movable from the processing position to a non-processing position during which movement it drives the element moving means in a direction to move the element from its second position to its first position wherein it is in driving relation with the second power path whereby power from the power input means is directed to the drum and the film spool so as to rotate them in a manner which removes the laminate from the receiving means and strips the sheet material from the film while rewinding the sheet material upon the drum and the film upon the film spool.
20. Apparatus as defined in claim 14 wherein the power input means includes a hand crank which is rotatable in the same direction to rotate the receiving means as it is to rotate the drum and film spool.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000422694A CA1190425A (en) | 1983-03-02 | 1983-03-02 | Film processor |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000422694A CA1190425A (en) | 1983-03-02 | 1983-03-02 | Film processor |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1190425A true CA1190425A (en) | 1985-07-16 |
Family
ID=4124692
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000422694A Expired CA1190425A (en) | 1983-03-02 | 1983-03-02 | Film processor |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1190425A (en) |
-
1983
- 1983-03-02 CA CA000422694A patent/CA1190425A/en not_active Expired
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