US3656676A - Film transport roller system - Google Patents

Film transport roller system Download PDF

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US3656676A
US3656676A US94823A US3656676DA US3656676A US 3656676 A US3656676 A US 3656676A US 94823 A US94823 A US 94823A US 3656676D A US3656676D A US 3656676DA US 3656676 A US3656676 A US 3656676A
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rollers
film
mule
guides
roller
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Henry E Hope
Stephen F Hope
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03DAPPARATUS FOR PROCESSING EXPOSED PHOTOGRAPHIC MATERIALS; ACCESSORIES THEREFOR
    • G03D3/00Liquid processing apparatus involving immersion; Washing apparatus involving immersion
    • G03D3/08Liquid processing apparatus involving immersion; Washing apparatus involving immersion having progressive mechanical movement of exposed material
    • G03D3/13Liquid processing apparatus involving immersion; Washing apparatus involving immersion having progressive mechanical movement of exposed material for long films or prints in the shape of strips, e.g. fed by roller assembly
    • G03D3/132Liquid processing apparatus involving immersion; Washing apparatus involving immersion having progressive mechanical movement of exposed material for long films or prints in the shape of strips, e.g. fed by roller assembly fed by roller assembly

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  • ABSTRACT A film transport roller system for conveying an elongate web of filmthrough processing tanks including a plurality of juxtaposed rack assemblies, each having a plurality of pairs of rol- .lers and film guides which cooperate to drive the film through the processing tanks without tensioning or otherwise stressing the film.
  • the medial section of one roller of each pair of cooperating rollers is fabricated to a reduced diameter to form an annular film receiving area, wherein the film may be guided through the various processing tanks without stress.
  • the transverse ends of the pairs of cooperating rollers tangentially coact to automatically thread the film through rack assemblies.
  • the present invention relates graphic developing. equipment, to a film transport roller system elongate configuration.
  • the presently available rackassemblies include only top and bottom pairs of driving and driven rollers with no intermediate guiding apparatus of any kind. Accordingly, when the end of the film passes the top roller of a rack assembly, the end is then free and falls into the tank where it may become scratched, tangled, fouled, or otherwise harmed. Additionally, it is now the present practice to thread each rack assembly individually by lifting the rack assembly from its associated tank and then manually threading the film through the upper and lowerrollers. This procedure is regenerally to the field of photomore particularly, is directed for use in developing film in peated from tank to tank and then until the entire system has been properly threaded. Of course. in precise developing techniques such as color developing, it is probable that chemicals from one tank will splash into the next adjacenttank to thereby present a source of contamination, all of which resultedin the need for frequent chemical changes in order to maintain satisfactory quality standards of development.
  • the film transport roller system of the present invention incorporates rack assemblies which include cooperating pairs of rollers in tangential rolling contact at the transverse ends.
  • One of the pairs of rollers is medially fabricated to a reduced diameter to provide an annular film receiving area.
  • a mule or leader of width sufficient to engage the nip of the tangentially touching areas of the cooperating pairs of rollers afiixes to the leading edge of the film to pull the film automatically through the various cooperating pairs of rollers without requiring any manual threading of the rack assemblies.
  • the cooperating rollers and mule eliminate the need to remove the rack assemblies from their associated processing tanks during the film threading operation.
  • the system further includes a plurality of discretely positioned guides which facilitate movement of the mule through the various pieces ofapparatus within the processing equipment.
  • the guides are fabricated to a width less than the overall width of the pairs of rollers, and generally position in vertical alignment with the tangentially touching portions of the rollers for guidance of the mule through the equipment. It will be noted that the film itself travels through the annular space between the rollers and does not contact the rollers or the guides during the course of travel through the equipment. By avoiding direct contact with either the rollers or the guides, any tendency to scratch or otherwise damage the film surface during the transportation through the equipment has been completely eliminated.
  • FIG. 1 is an exploded, perspective view of the invention showing a length of film travelling through a rack assembly.
  • FIG. 2 is an enlarged, partial, side elevational view showing :1 preferred gearing arrangement for driving the various rolers.
  • FIG. 3 is an enlarged perspective view showing a modified type of mule configuration.
  • FIG. 4 is a cross sectional view showing two rack assemblies in horizontal juxtaposed relationship and a length of film feeding through the rack assemblies.
  • a plurality of vertically spaced large diameter segmented rollers 18 and bottom segmented roller 19 medially position between the right and left side plates 14, 16 and have their respective shafts 20, 21 journalled through the side plates in well known manner.
  • One end of each of the respective shafts 20, 21 extends through the side plate 16 a sufficient distance to receive a driving gear 30 for roller rotation purposes.
  • a power gear 24 rotates in conventional.
  • a power source such as an electric motor (not shown) and meshes with respective roller gears 24, 26.
  • the gear 24 meshes with the upper larger roller gear 30 to rotate the upper roller18 in response to rotative power supplied by the driving gear 22.
  • the large roller gear 30 in turn meshes with the intermediate gear 32 which turns the next lower large roller 18 through its respective shaft affixed gear 30.
  • all of the large rollers 18 rotate simultaneously through the gear train comprising the. meshing of alternate roller gears 30 and intermediate gears 32.
  • the upper small rollers 46, 48, 50 are formed to the same general diameter as the solid small rollers 34 and turn about their respective shafis 52, 54, 56 which journal within the right and left side plates 14, 16 in the usual manner.
  • Each of the rollers 46,48, 50 is fabricated with right 7 and left, spaced, transversely positioned, cylindrical segments solid roller 34 positions on the feed-in side of the upper large ,cooperates with the upper large roller 18 and positions diametrically opposite from the solid roller 34.
  • the upper small roller shaft 52 journals within the side plates 14, 16 and fixedly receives a gear39 at one end thereof.
  • the gear 39 meshes with the large roller driving gear 30 to thereby also simultaneously rotate the rollers 18, 52.
  • All of the lower large diameter segmented rollers 18 rotate in unison with the upper large roller- 19 through the gear train comprising the large roller gears 30 and the intermediate gears 32.
  • Each segmented roller 18 forms a vertically spaced, film guiding group, with a respective pair of diametrically opposed right and left small solid rollers 34, 35.
  • Each segmented roller 18 turns about its shaft 20 which is'rotated by its associated driving gear 30.
  • the driving gear 30 meshes with the small roller gears 37, 38 which are affixed to the respective small roller shafts 35, 36 to thereby also rotate the small rollers 34, 35.
  • the lower solid roller 64 and the lowest segmented roller 19 can be geared into the system in well known manner for rotative purposes.
  • rotative power supplied by the driving gear 22 is transmitted throughout the gear train to rotate all of the various rollers within the film transport rack assembly 10.
  • Each large diameter segmented roller 18 is fabricated with an axially aligned shaft 20 and a pair of spaced, laterally positioned right and left roller segments 4.0, 42 of cylindrical configuration which define a medial annular space 44 about the roller shaft 20.
  • the annular space 44 provides an open area between the large diameter roller shaft 20 and the adjacent solid small diameter rollers 34 to permit unrestricted, unstressed passage of the film web 12 therethrough as hereinafter more fully set forth.
  • the lowest roller 19 is similarly formed and defines an annular space 43 between the lowest roller shaft 19 and the large solid roller 64.
  • each central section 62 freely rotates about its associated shaft and is not rotated by the gear driven rotation of the respective shafts 52, 54 and 56.
  • a large diameter, solid roller 64 positions immediately above the lowest large diameter segmented roller 18 and tangentially contacts the right and left segments 40, 42 of the segmented roller 19 for film threading purposes.
  • the large diameter solid roller64 affixes to its shaft 66 which rotatively journals within the right and left sideplates 14, 16 in the usual manner.
  • An externally positioned gear (not shown) connects with the gear train extending from the driving gear 22 to rotate the large roller 64 simultaneously with the rotation of the other rollers within the system. It will be noted that the annular space about'the'lowest segmented roller 18 provides an area for film travel between the lowest segmented roller 19 and the large diameter solid roller 64, without tensioning,
  • the film transport rack assembly 10 generally includes a plurality of spaced groups of rollers each including a large diameter segmented roller 18 which is centrally positionedand a pair of laterally positioned, small diameter solid rollers 34, which tangentially contact the right and left segments 40, 42 of the roller 18 for film threading purposes as hereinafter more fully set forth.
  • the gear train extending from the driving gear 22 powers all of the rollers within the system simultaneously and at constant speed in accordance with well known principles of gear train design.
  • each of the guides illustrated extends transversely inwardly with respect to the rack assembly 10 a distance approximately equal to the length of each right and left roller segment 40, 42 and 58, 60.
  • the film guides define a medial area between the respective right and left guide members which is substantially equal in width to the width between the respective right and left roller segments 40, 42, 58, 60.
  • a top curve guide 68 receives the film and directs it to the nip of the upper cooperating pair of large segmented roller and small diameter solid roller 18, 34 for travel downwardly at the front of the rack assembly 10.
  • a bottom positioned curved guide 70 turns the film web and directs it to the nip of the cooperating lower pair of rollers 19, 64.
  • the rollers 19, 64 urge the film rearwardly toward the rear bottom curved guide 72 which functions to direct the film web upwardly to the nip of the lowest pair of large diameter segmented roller 18 and its associated, cooperating rear small diameter solid roller 35.
  • the cooperating pairs of large segmented rollers 18 and rear solid rollers 35 urge the film upwardly within the film transport rack assembly 10 to the small diameter, segmented guide rollers 46, 48 and 50 which cooperate with the top, curved, rear guide 74 to direct the film into the next adjacent film transport rack assembly 10.
  • a plurality in generally rectangular mid-rack guides 76 project inwardly from the respective side plates l4, 16 to direct the film to the nip of the respective cooperating pairs of front small rollers 34 and the associated large segmented rollers 18 and the rear solid rollers 34 and the associated, large diameter segmented rollers 18. It will be observed in FIG. 4 that the medially positioned mid-rack guides 78 incline between the vertically spaced large diameter roller 18 and serve to direct the film both downwardly at the front of the rack assembly and upwardly at the rear of the rack assembly.
  • a mule or lead strip 80 is provided of thin, strong, sheet material such as polyester of width sufficient to overlie the spaced segments 40, 42 and 58, 60.
  • the leading edge of the film web 12 affixes to the trailing edge 82 of the mule 80, which may be in the form of a film receiving tab 84.
  • The'film may be removably affixed to the trailing edge 82 in any well known, secure manner, such as by plastic or cellophane tape.
  • the leading edge 86 of the mule 80 feeds into the rack assembly 12 at the upper topcurve guide 68 into the nip of the upper rollers 18, 34.
  • all of the rollers within the system are power driven by the gear train so that the upper rollers 18, 34, nip the lateral edges 88, 90 of the mule between thelateral edges of the solid small roller'34 and the spaced right and left segments 40, 42 of thelarge diameter segmented roller 18 to direct the mule downwardly through the rack assembly 10.
  • the downwardly positioned pairs of rollers 18, 34 urge the muleand the affixed film web 12 through the apparatus to the bottom curve guide assembly when then directs the mule 80 to the nip of the cooperating pairof rollers 64,18.
  • the right and left lateral edges88, 90 are driven between the lateral portions of the large diameter solid roller 64 and the transversely spaced segments 40, 42 of the bottom roller 18.
  • the rollers 18, 64 direct the mule to the rear bottom curved guide 72 which directs the mule upwardly to the nip of the various small diameter rear solid rollers 35 and each associated large diameter segmented roller 18.
  • the lateral edges 88, 90 of the mule are driven through the apparatus and the film itself travels in the annular space 44 without contacting any of the various small diameter solid rollers and large diameter segmented rollers, and so these rollers can place no tension or other stress upon the film web 12.
  • the mid-rack guides 76 serves to direct the mule through the nip of the various cooperating pairs of rollers without requiring any'manual adjustments whatsoever.
  • the three upper rollers 46, 48, 50 having the freely rotatable central sections 62 facilitate the travel of the :film web to the next adjacent rack assembly 10.
  • the large diameter solid roller 64 positions near the bottom of the rack assembly and receives the film web in direct contact without the need for any manual operations. This roller serves to drive the film web forwardly through the system, continuously after the mule has passed out of contact with the roller, 64.
  • FIG...3 we show a modified mule 92 having a plurality of rearwardly positioned tabs 94, 96 for attaching a plurality of film webs 12, 12' for leading the plurality of film webs simultaneously through the film transport rack assembly. It is the purpose of this invention to construct the central roller section 62, and the annular spaces 44, wide enough to accommodate the widest available film. Of course, as narrower films are employed within the apparatus, such as l6 mm, 35 mm. or even microfilm, more than one film web may be simultaneously processed.
  • a second film web may be simultaneously introduced by affixing the second web to a mule 80, or 92 in a position laterally offset from the already processing film web and then introducing the second mule to the apparatus at the upper top curve guide 68.
  • the second mule will automatically feed through the apparatus and simultaneously with the first film web to thereby automatically and simultaneously feed the second or even a third web through the apparatus.
  • a rack assembly including a pair of spaced, side plates
  • rollers being vertically spaced
  • said second rollers being segmented to form cylindrical sections which define an annular space, 2.said cylindrical sections respectively rotatively contacting portions of the said first rollers to form rotative drive areas;
  • each of said third rollers including a shaft journalled within the said side plates and a pair of laterally spaced, cylindrical sections affixed to the said shaft, the said third rollers further including a medially positioned central section of cylindrical configuration positioned between the cylindrical sections, the said central section being free to rotate about its said shaft.
  • claim lar guides serve to direct the mule both vertically downwardly and vertically upwardly within the rack assembly.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Registering, Tensioning, Guiding Webs, And Rollers Therefor (AREA)
  • Photographic Processing Devices Using Wet Methods (AREA)

Abstract

A film transport roller system for conveying an elongate web of film through processing tanks including a plurality of juxtaposed rack assemblies, each having a plurality of pairs of rollers and film guides which cooperate to drive the film through the processing tanks without tensioning or otherwise stressing the film. The medial section of one roller of each pair of cooperating rollers is fabricated to a reduced diameter to form an annular film receiving area, wherein the film may be guided through the various processing tanks without stress. The transverse ends of the pairs of cooperating rollers tangentially co-act to automatically thread the film through rack assemblies.

Description

22 Filed:
United States Patent Hope et al.
[54] FILM TRANSPORT ROLLER SYSTEM [72] Inventors: Henry E. Hope, 195 Welsh Road,
Huntingdon Valley, Pa. 19006; Stephen F. Hope, 2321 Wyandotte Road, Willow Grove, Pa. 19090 Dec. 3, 1970 [21] Appl. No.: 94,823
[52] U.S. Cl ..226/92, 226/189 [51] Int. Cl. ..G03d 3/12 [58] Field of Search ..95/93, 94; 226/189, 118, 119, 226/188, 92 [56] 3 References Cited UNITED STATES PATENTS 1,809,830 6/1931 Cobb ..95/94 2,913,973 11/1959 Bull etal ..226/189 X [15] 3,656,676 [451 Apr. 18, 1972 3,078,024 2/1963 Sardeson ..226/189 X 3,127,079 3/1964 Allander ..226/92 1,919,926 7/1933 Bodan ..95/94 R Primary Examiner-Allen N. Knowles Attorney-Karl L. Spivak [57] ABSTRACT A film transport roller system for conveying an elongate web of filmthrough processing tanks including a plurality of juxtaposed rack assemblies, each having a plurality of pairs of rol- .lers and film guides which cooperate to drive the film through the processing tanks without tensioning or otherwise stressing the film. The medial section of one roller of each pair of cooperating rollers is fabricated to a reduced diameter to form an annular film receiving area, wherein the film may be guided through the various processing tanks without stress. The transverse ends of the pairs of cooperating rollers tangentially coact to automatically thread the film through rack assemblies.
10 Claims, 4 Drawing Figures PATENTEDAPR 18 m2 3 6 5 6 67 6 SHEET 1 BF 2 INVENTORS. 72 64 HENRYEHOPE 2| STEPHEN F.HOPE
ATTORNEY 1 FILM TRANSPORT ROLLER SYSTEM BACKGROUND OF THE INVENTION The present invention relates graphic developing. equipment, to a film transport roller system elongate configuration. I
It is the present practice to develop elongate film, such as 16 millimeter, 35 millimeter, and 70. millimeter film automatically by utilizing a plurality of 'side by side processing tanks and by employing film rack assemblies in conjunction with the processing tanks to direct the film through the various stages of the development process. The presently available rack assemblies all utilize pairs of cooperating driving and driven rollers to lead the film through the various development stages. Lengths of film extendingl,000 feet or more are common in present practice and accordingly, any small variation in the diameter of any of the film rollers will result in great inaccuracies over the length of the film. For instance, if one roller was manufactured one thousandth of an inch oversize with respect to the remaining rollers in the system, this inaccuracy when multiplied by a web 1,000 feet or more in length could result in a discrepancy of 1 inch. or more over the length of the web. Accordingly, the rollers utilized in conjunction with prior'art rack assemblies had to be carefully machined and fabricated with precision to keep the accumulated inaccuracy to a minimum. Even under careful manufacturing techniques and modern quality control procedures, this has proved to be a difficult and costly operation. The expenses required to produce rollers to such close tolerances has greatly increased the cost of prior art devices.
Additionally, all prior art rack assemblies of which we are familiar had built in operational difficulties in that it was both time consuming and tedious to thread the length of film through the rollers of the various rack assemblies located within the processing tanks. In order to thread the presently available equipment, one must attach each succeeding length of film to the trailing edge of the proceeding film to thereby utilize each length of film to pull'the next succeeding length of film through the apparatus. In cases where continuous operation is not contemplated, it is now the practice to affix a trailing length of material to the trailing edge of the film so that this length of material will remain threaded within the apparatus for attachment of the film when it is desired to again use the apparatus. This would mean that a leader must be kept threaded through the apparatus at all times when the equipment was not being used.
Because of the difficulty of threading film through all prior art developing systems, the presently available rackassemblies include only top and bottom pairs of driving and driven rollers with no intermediate guiding apparatus of any kind. Accordingly, when the end of the film passes the top roller of a rack assembly, the end is then free and falls into the tank where it may become scratched, tangled, fouled, or otherwise harmed. Additionally, it is now the present practice to thread each rack assembly individually by lifting the rack assembly from its associated tank and then manually threading the film through the upper and lowerrollers. This procedure is regenerally to the field of photomore particularly, is directed for use in developing film in peated from tank to tank and then until the entire system has been properly threaded. Of course. in precise developing techniques such as color developing, it is probable that chemicals from one tank will splash into the next adjacenttank to thereby present a source of contamination, all of which resultedin the need for frequent chemical changes in order to maintain satisfactory quality standards of development.
SUMMARY OF THE INVENTION novel film transport The film transport roller system of the present invention incorporates rack assemblies which include cooperating pairs of rollers in tangential rolling contact at the transverse ends. One of the pairs of rollers is medially fabricated to a reduced diameter to provide an annular film receiving area. A mule or leader of width sufficient to engage the nip of the tangentially touching areas of the cooperating pairs of rollers afiixes to the leading edge of the film to pull the film automatically through the various cooperating pairs of rollers without requiring any manual threading of the rack assemblies. The cooperating rollers and mule eliminate the need to remove the rack assemblies from their associated processing tanks during the film threading operation.
The system further includes a plurality of discretely positioned guides which facilitate movement of the mule through the various pieces ofapparatus within the processing equipment. The guides are fabricated to a width less than the overall width of the pairs of rollers, and generally position in vertical alignment with the tangentially touching portions of the rollers for guidance of the mule through the equipment. It will be noted that the film itself travels through the annular space between the rollers and does not contact the rollers or the guides during the course of travel through the equipment. By avoiding direct contact with either the rollers or the guides, any tendency to scratch or otherwise damage the film surface during the transportation through the equipment has been completely eliminated.
It is therefore an object of the present invention to provide a novel film transport roller system of the type set forth.
It is another object of the present invention to provide a novel film transport roller system including cooperating pairs of rollers functioning within rack assemblies, one of the rollers of the pair being medially fabricated to a decreased diameter.
It is a further object of the present invention to provide a at the lateral ends thereof for film directing purposes.
It is another object of the present invention to provide a novel film transport roller system incorporating roller means of width greater than the film and a carrying mule cooperating with the rollers to pull an elongate length of film automatically through the apparatus.
It is another object of the present invention to provide a novel film transport roller system, including cooperating pairs ters refer to similar parts throughout the several views and in which:
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded, perspective view of the invention showing a length of film travelling through a rack assembly.
FIG. 2 is an enlarged, partial, side elevational view showing :1 preferred gearing arrangement for driving the various rolers.
FIG. 3 is an enlarged perspective view showing a modified type of mule configuration.
FIG. 4 is a cross sectional view showing two rack assemblies in horizontal juxtaposed relationship and a length of film feeding through the rack assemblies.
system which incorporates cooperating pairs of rollers which are fabricated to tangentially touch only DESCRIPTION OF THE PREFERRED EMBODIMENT OF THE INVENTION Although specific terms are used in the following description for the-sake of clarity, these terms are intended to refer only to the particular structure of our invention selected for illustration in the drawings and are not intended to define or the rack assembly 10. a
A plurality of vertically spaced large diameter segmented rollers 18 and bottom segmented roller 19 medially position between the right and left side plates 14, 16 and have their respective shafts 20, 21 journalled through the side plates in well known manner. One end of each of the respective shafts 20, 21 extends through the side plate 16 a sufficient distance to receive a driving gear 30 for roller rotation purposes. As
best seen in FIG. 2, a power gear 24 rotates in conventional.
manner through a power source, such as an electric motor (not shown) and meshes with respective roller gears 24, 26.
The gear 24 meshes with the upper larger roller gear 30 to rotate the upper roller18 in response to rotative power supplied by the driving gear 22. The large roller gear 30 in turn meshes with the intermediate gear 32 which turns the next lower large roller 18 through its respective shaft affixed gear 30. Similarly, all of the large rollers 18 rotate simultaneously through the gear train comprising the. meshing of alternate roller gears 30 and intermediate gears 32.
Ascan best be observed in FIGS. 1 and 4, a small diameter,
As observed in FIG. 4, the upper small rollers 46, 48, 50 are formed to the same general diameter as the solid small rollers 34 and turn about their respective shafis 52, 54, 56 which journal within the right and left side plates 14, 16 in the usual manner. Each of the rollers 46,48, 50 is fabricated with right 7 and left, spaced, transversely positioned, cylindrical segments solid roller 34 positions on the feed-in side of the upper large ,cooperates with the upper large roller 18 and positions diametrically opposite from the solid roller 34. The upper small roller shaft 52 journals within the side plates 14, 16 and fixedly receives a gear39 at one end thereof. The gear 39 meshes with the large roller driving gear 30 to thereby also simultaneously rotate the rollers 18, 52. All of the lower large diameter segmented rollers 18 rotate in unison with the upper large roller- 19 through the gear train comprising the large roller gears 30 and the intermediate gears 32. Each segmented roller 18 forms a vertically spaced, film guiding group, with a respective pair of diametrically opposed right and left small solid rollers 34, 35. Each segmented roller 18 turns about its shaft 20 which is'rotated by its associated driving gear 30. The driving gear 30 meshes with the small roller gears 37, 38 which are affixed to the respective small roller shafts 35, 36 to thereby also rotate the small rollers 34, 35. Similarly, the lower solid roller 64 and the lowest segmented roller 19 can be geared into the system in well known manner for rotative purposes. Thus, rotative power supplied by the driving gear 22 is transmitted throughout the gear train to rotate all of the various rollers within the film transport rack assembly 10.
Each large diameter segmented roller 18 is fabricated with an axially aligned shaft 20 and a pair of spaced, laterally positioned right and left roller segments 4.0, 42 of cylindrical configuration which define a medial annular space 44 about the roller shaft 20. The annular space 44 provides an open area between the large diameter roller shaft 20 and the adjacent solid small diameter rollers 34 to permit unrestricted, unstressed passage of the film web 12 therethrough as hereinafter more fully set forth. The lowest roller 19 is similarly formed and defines an annular space 43 between the lowest roller shaft 19 and the large solid roller 64.
58, 60 which securely adhere to their respective shafts 52, 54, 56 for rotation as the shafts rotate. A central section 62 of cylindrical configuration, having a diameter equal to the diameter of the spaced segments 58, 60 positions between the spaced segments and is fabricated with an axially aligned central bore of diameter greater than the diameter of the respective associated roller shafts 52, 54, 56. Thus, each central section 62 freely rotates about its associated shaft and is not rotated by the gear driven rotation of the respective shafts 52, 54 and 56. r
A large diameter, solid roller 64 positions immediately above the lowest large diameter segmented roller 18 and tangentially contacts the right and left segments 40, 42 of the segmented roller 19 for film threading purposes. The large diameter solid roller64 affixes to its shaft 66 which rotatively journals within the right and left sideplates 14, 16 in the usual manner. An externally positioned gear (not shown) connects with the gear train extending from the driving gear 22 to rotate the large roller 64 simultaneously with the rotation of the other rollers within the system. It will be noted that the annular space about'the'lowest segmented roller 18 provides an area for film travel between the lowest segmented roller 19 and the large diameter solid roller 64, without tensioning,
binding, or other film stressing forces being imposed upon the film web 12. It will be observed that the film transport rack assembly 10 generally includes a plurality of spaced groups of rollers each including a large diameter segmented roller 18 which is centrally positionedand a pair of laterally positioned, small diameter solid rollers 34, which tangentially contact the right and left segments 40, 42 of the roller 18 for film threading purposes as hereinafter more fully set forth. The gear train extending from the driving gear 22 powers all of the rollers within the system simultaneously and at constant speed in accordance with well known principles of gear train design.
Referring now to FIGS. 1 and 4, a plurality of right and left film guides 68, 70, 72, 74, 76, 78 will be observed extending inwardly from each side plate 14, 16. It will beappreciated that each of the guides illustrated extends transversely inwardly with respect to the rack assembly 10 a distance approximately equal to the length of each right and left roller segment 40, 42 and 58, 60. In this manner, the film guides define a medial area between the respective right and left guide members which is substantially equal in width to the width between the respective right and left roller segments 40, 42, 58, 60. A top curve guide 68 receives the film and directs it to the nip of the upper cooperating pair of large segmented roller and small diameter solid roller 18, 34 for travel downwardly at the front of the rack assembly 10. A bottom positioned curved guide 70 turns the film web and directs it to the nip of the cooperating lower pair of rollers 19, 64. The rollers 19, 64 urge the film rearwardly toward the rear bottom curved guide 72 which functions to direct the film web upwardly to the nip of the lowest pair of large diameter segmented roller 18 and its associated, cooperating rear small diameter solid roller 35. The cooperating pairs of large segmented rollers 18 and rear solid rollers 35 urge the film upwardly within the film transport rack assembly 10 to the small diameter, segmented guide rollers 46, 48 and 50 which cooperate with the top, curved, rear guide 74 to direct the film into the next adjacent film transport rack assembly 10. A plurality in generally rectangular mid-rack guides 76 project inwardly from the respective side plates l4, 16 to direct the film to the nip of the respective cooperating pairs of front small rollers 34 and the associated large segmented rollers 18 and the rear solid rollers 34 and the associated, large diameter segmented rollers 18. It will be observed in FIG. 4 that the medially positioned mid-rack guides 78 incline between the vertically spaced large diameter roller 18 and serve to direct the film both downwardly at the front of the rack assembly and upwardly at the rear of the rack assembly.
In order to use our invention, a mule or lead strip 80 is provided of thin, strong, sheet material such as polyester of width sufficient to overlie the spaced segments 40, 42 and 58, 60. The leading edge of the film web 12 affixes to the trailing edge 82 of the mule 80, which may be in the form of a film receiving tab 84. The'film may be removably affixed to the trailing edge 82 in any well known, secure manner, such as by plastic or cellophane tape. The tab 84'positions upon the mule 80 to lead the film 12 through the film transport rack within the annular spaces 44 provided between the various rollers. The leading edge 86 of the mule 80 feeds into the rack assembly 12 at the upper topcurve guide 68 into the nip of the upper rollers 18, 34. As hereinbefore set forth all of the rollers within the system are power driven by the gear train so that the upper rollers 18, 34, nip the lateral edges 88, 90 of the mule between thelateral edges of the solid small roller'34 and the spaced right and left segments 40, 42 of thelarge diameter segmented roller 18 to direct the mule downwardly through the rack assembly 10. Generally the downwardly positioned pairs of rollers 18, 34 urge the muleand the affixed film web 12 through the apparatus to the bottom curve guide assembly when then directs the mule 80 to the nip of the cooperating pairof rollers 64,18. Similarly, the right and left lateral edges88, 90 are driven between the lateral portions of the large diameter solid roller 64 and the transversely spaced segments 40, 42 of the bottom roller 18. The rollers 18, 64 direct the mule to the rear bottom curved guide 72 which directs the mule upwardly to the nip of the various small diameter rear solid rollers 35 and each associated large diameter segmented roller 18. As before, the lateral edges 88, 90 of the mule are driven through the apparatus and the film itself travels in the annular space 44 without contacting any of the various small diameter solid rollers and large diameter segmented rollers, and so these rollers can place no tension or other stress upon the film web 12. The mid-rack guides 76 serves to direct the mule through the nip of the various cooperating pairs of rollers without requiring any'manual adjustments whatsoever. The three upper rollers 46, 48, 50 having the freely rotatable central sections 62 facilitate the travel of the :film web to the next adjacent rack assembly 10. It will be noted that the large diameter solid roller 64 positions near the bottom of the rack assembly and receives the film web in direct contact without the need for any manual operations. This roller serves to drive the film web forwardly through the system, continuously after the mule has passed out of contact with the roller, 64.
Referring now to FIG..3, we show a modified mule 92 having a plurality of rearwardly positioned tabs 94, 96 for attaching a plurality of film webs 12, 12' for leading the plurality of film webs simultaneously through the film transport rack assembly. It is the purpose of this invention to construct the central roller section 62, and the annular spaces 44, wide enough to accommodate the widest available film. Of course, as narrower films are employed within the apparatus, such as l6 mm, 35 mm. or even microfilm, more than one film web may be simultaneously processed. Additionally, once a film web has been started through the film processing equipment, a second film web may be simultaneously introduced by affixing the second web to a mule 80, or 92 in a position laterally offset from the already processing film web and then introducing the second mule to the apparatus at the upper top curve guide 68.
The second mule will automatically feed through the apparatus and simultaneously with the first film web to thereby automatically and simultaneously feed the second or even a third web through the apparatus.
We claim:
1. In a film transport roller system for directing elongate film webs by the leading edge through processing'equipment, the combination of A. a rack assembly including a pair of spaced, side plates;
B. A plurality of first rollers journalled within the said side plates,
1. said rollers being vertically spaced;
C. a plurality of vertically spaced second rollers respectively cooperating with the the said first rollers and journalled within the said side plates,
1. said second rollers being segmented to form cylindrical sections which define an annular space, 2.said cylindrical sections respectively rotatively contacting portions of the said first rollers to form rotative drive areas;
D. a mule of thin, strong material driven by the said first and second rollers, 1. said mule being sufficiently wide to be driven by-the said rotative drive areas, 2.' said mule pulling the leading edge of the film web through the apparatus, a. said mule positioning the web within the said annular space.
2. The invention of claim 1 wherein the said rotative drive areas transversely nip the lateral edges of the mule to drive the mule through the rack assembly.
3. The invention of claim 2 wherein the cylindrical sections are laterally spaced a distance greater than .the width of the film web.
4. The invention of claim 1 and a plurality of third rollers, each of said third rollers including a shaft journalled within the said side plates and a pair of laterally spaced, cylindrical sections affixed to the said shaft, the said third rollers further including a medially positioned central section of cylindrical configuration positioned between the cylindrical sections, the said central section being free to rotate about its said shaft.
5. The invention of claim 3 and a plurality of film guides projecting transversely inwardly from the said side plates, said film guides projecting inwardly a distance not greater than the width of the said cylindrical sections.
6. The invention of claim 5 wherein are curved to turn the mule initial plane of travel.
7. The invention of claim 6 wherein the remainder of said guides are generally rectangular in configuration and direct the mule in the same plane of its'travel.
8. The invention of claim 7 wherein some of said rectangular guides direct the mule vertically downwardly and some of said guides direct the mule vertically upwardly.
9. The invention of claim lar guides serve to direct the mule both vertically downwardly and vertically upwardly within the rack assembly.
10. The invention of claim 3 wherein the said cylindrical sections are laterally spaced a distance greater than the width of two film webs and wherein the said mule is provided with means to simultaneously pull two film webs through the system.
some of the said guides pproximately v degrees from its 8 wherein some of said rectangu-

Claims (12)

1. In a film transport roller system for directing elongate film webs by the leading edge through processing equipment, the combination of A. a rack assembly including a pair of spaced, side plates; B. a plurality of first rollers journalled within the said side plates, 1. said rollers being vertically spaced; C. a plurality of vertically spaced second rollers respectively cooperating with the the said first rollers and journalled within the said side plates, 1. said second rollers being segmented to form cylindrical sections which define an annular space, 2. said cylindrical sections respectively rotatively contacting portions of the said first rollers to form rotative drive areas; D. a mule of thin, strong material driven by the said first and second rollers, 1. said mule being sufficiently wide to be driven by the said rotative drive areas, 2. said mule pulling the leading edge of the film web through the apparatus, a. said mule positioning the web within the said annular space.
2. said cylindrical sections respectively rotatively contacting portions of the said first rollers to form rotative drive areas; D. a mule of thin, strong material driven by the said first and second rollers,
2. said mule pulling the leading edge of the film web through the apparatus, a. said mule positioning the web within the said annular space.
2. The invention of claim 1 wherein the said rotative drive areas transversely nip the lateral edges of the mule to drive the mule through the rack assembly.
3. The invention of claim 2 wherein the cylindrical sections are laterally spaced a distance greater than the width of the film web.
4. The invention of claim 1 and a plurality of third rollers, each of said third rollers including a shaft journalled within the said side plates and a pair of laterally spaced, cylindrical sections affixed to the said shaft, the said third rollers further including a medially positioned central section of cylindrical configuration positioned between the cylindrical sections, the said central section being free to rotate about its said shaft.
5. The invention of claim 3 and a plurality of film guides projecting transversely inwardly from the said side plates, said film guides projecting inwardly a distance not greater than the width of the said cylinDrical sections.
6. The invention of claim 5 wherein some of the said guides are curved to turn the mule approximately 90 degrees from its initial plane of travel.
7. The invention of claim 6 wherein the remainder of said guides are generally rectangular in configuration and direct the mule in the same plane of its travel.
8. The invention of claim 7 wherein some of said rectangular guides direct the mule vertically downwardly and some of said guides direct the mule vertically upwardly.
9. The invention of claim 8 wherein some of said rectangular guides serve to direct the mule both vertically downwardly and vertically upwardly within the rack assembly.
10. The invention of claim 3 wherein the said cylindrical sections are laterally spaced a distance greater than the width of two film webs and wherein the said mule is provided with means to simultaneously pull two film webs through the system.
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Cited By (15)

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Publication number Priority date Publication date Assignee Title
US3771705A (en) * 1973-01-02 1973-11-13 Burroughs Corp Paper tape loading tool
DE2935201A1 (en) * 1978-09-05 1980-04-03 Noritsu Koki Co Ltd CONVEYOR SYSTEM FOR A PHOTO TREATMENT DEVICE FOR LARGE LENGTH PHOTO-SENSITIVE SHEET MATERIALS, WITH PARTS FOR PREVENTING SNAKE SHAPED MOVEMENT
US4239367A (en) * 1979-03-14 1980-12-16 Hope Henry F Continuous-band web transport
US4252429A (en) * 1979-01-26 1981-02-24 Hope Henry F Curvilinear, geared transport roller system
DE2947232A1 (en) * 1979-11-23 1981-06-04 Autopan Heimerdinger & Stäbler GmbH & Co, 7022 Leinfelden -Echterdingen Film drive for processing bath - has pairs of drive rollers separated by fixed guide flanges
US4282997A (en) * 1972-09-22 1981-08-11 Agfa-Gevaert Aktiengesellschaft Apparatus for removing exposed films and backing strips from cassettes
US4295590A (en) * 1980-06-10 1981-10-20 Hope Henry F Apparatus for processing photographic materials
US4307831A (en) * 1980-03-31 1981-12-29 Hope Henry F Transport system for film
US4312470A (en) * 1980-06-10 1982-01-26 Hope Henry F Apparatus for processing photographic materials
US4324354A (en) * 1980-06-13 1982-04-13 Hope Henry F Apparatus for processing photographic materials
US4345832A (en) * 1979-04-11 1982-08-24 Dainippon Screen Seizo Kabushiki Kaisha Automatic film developer having a film guide means
US4352448A (en) * 1979-12-21 1982-10-05 Agfa-Gevaert Aktiengesellschaft Apparatus for drying sheet-like photographic material
US4772907A (en) * 1986-03-24 1988-09-20 Gretag San Marco S.P.A. Unit for collecting developed films in a film developing machine, particularly of industrial kind
US5448326A (en) * 1992-03-24 1995-09-05 Eastman Kodak Company Photographic processing apparatus
DE19724032A1 (en) * 1997-06-06 1998-12-10 Agfa Gevaert Ag Processing equipment for supports with photographic coatings

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US1809830A (en) * 1929-05-01 1931-06-16 Revere Rubber Co Conveyer
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US2913973A (en) * 1955-08-26 1959-11-24 Haloid Xerox Inc Photographic material conveying apparatus
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US3127079A (en) * 1964-03-31 Method for threading the leading end of a weblike material
US1919926A (en) * 1927-10-04 1933-07-25 Photo Review Corp Developing apparatus
US1809830A (en) * 1929-05-01 1931-06-16 Revere Rubber Co Conveyer
US2913973A (en) * 1955-08-26 1959-11-24 Haloid Xerox Inc Photographic material conveying apparatus
US3078024A (en) * 1960-05-11 1963-02-19 Pako Corp Processing apparatus for processing flexible sheet material requiring chemical treatment

Cited By (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4282997A (en) * 1972-09-22 1981-08-11 Agfa-Gevaert Aktiengesellschaft Apparatus for removing exposed films and backing strips from cassettes
US4360138A (en) * 1972-09-22 1982-11-23 Agfa-Gevaert Ag Apparatus for removing exposed films and backing strips from cassettes
US3771705A (en) * 1973-01-02 1973-11-13 Burroughs Corp Paper tape loading tool
DE2935201A1 (en) * 1978-09-05 1980-04-03 Noritsu Koki Co Ltd CONVEYOR SYSTEM FOR A PHOTO TREATMENT DEVICE FOR LARGE LENGTH PHOTO-SENSITIVE SHEET MATERIALS, WITH PARTS FOR PREVENTING SNAKE SHAPED MOVEMENT
US4252429A (en) * 1979-01-26 1981-02-24 Hope Henry F Curvilinear, geared transport roller system
US4239367A (en) * 1979-03-14 1980-12-16 Hope Henry F Continuous-band web transport
US4345832A (en) * 1979-04-11 1982-08-24 Dainippon Screen Seizo Kabushiki Kaisha Automatic film developer having a film guide means
DE2947232A1 (en) * 1979-11-23 1981-06-04 Autopan Heimerdinger & Stäbler GmbH & Co, 7022 Leinfelden -Echterdingen Film drive for processing bath - has pairs of drive rollers separated by fixed guide flanges
US4352448A (en) * 1979-12-21 1982-10-05 Agfa-Gevaert Aktiengesellschaft Apparatus for drying sheet-like photographic material
US4307831A (en) * 1980-03-31 1981-12-29 Hope Henry F Transport system for film
US4312470A (en) * 1980-06-10 1982-01-26 Hope Henry F Apparatus for processing photographic materials
US4295590A (en) * 1980-06-10 1981-10-20 Hope Henry F Apparatus for processing photographic materials
US4324354A (en) * 1980-06-13 1982-04-13 Hope Henry F Apparatus for processing photographic materials
US4772907A (en) * 1986-03-24 1988-09-20 Gretag San Marco S.P.A. Unit for collecting developed films in a film developing machine, particularly of industrial kind
US5448326A (en) * 1992-03-24 1995-09-05 Eastman Kodak Company Photographic processing apparatus
DE19724032A1 (en) * 1997-06-06 1998-12-10 Agfa Gevaert Ag Processing equipment for supports with photographic coatings

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