US3215116A - Vapor fusing apparatus - Google Patents

Vapor fusing apparatus Download PDF

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US3215116A
US3215116A US217027A US21702762A US3215116A US 3215116 A US3215116 A US 3215116A US 217027 A US217027 A US 217027A US 21702762 A US21702762 A US 21702762A US 3215116 A US3215116 A US 3215116A
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vapor
web
solvent
chamber
roll
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Harold E Clark
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Xerox Corp
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Xerox Corp
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G15/00Apparatus for electrographic processes using a charge pattern
    • G03G15/20Apparatus for electrographic processes using a charge pattern for fixing, e.g. by using heat
    • G03G15/2096Apparatus for electrographic processes using a charge pattern for fixing, e.g. by using heat using a solvent

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  • This invention relates to improved apparatus for fusing powder images onto the surface of support material. More particularly, the invention relates to xerography and to apparatus for vapor fusing .of powder images loosely formed Xerographically onto a continuous support web.
  • the powder image is rendered a tacky cohesive mass while in the presence of the atmosphere of the solvent vapor and usually while still tacky is removed to ambient air for evaporation of the solvent, leaving the image bonded to the support member.
  • the solvent vapor process is referred to in the art as vapor fixing.
  • Vapor fixing of powder images by means of a solvent vapor has also been put to a practical use and found to form dense, blacker images than formed by heat fusing.
  • most solvents suitable for use in conjunction with these resins generally used in toners are characterized by various orders of undesirability such as obnoxious odor, toxicity, etc.
  • one such solvent found particularly suited for fusing xerographic images is tr1- chloroethylene, which happens to be characterized by objectional odor and a degree of toxicity which can raise to an objectionable level if allowed to escape to the room at a high rate.
  • Apparatus therefore, employing trichloroethylene as a fusing solvent, and vapor fusing in general has encountered restricted and intermittent use and has generally been employed only on low volume output equipment.
  • FIG. l is a schematic arrangement of an automatic xerographic apparatus incorporating one embodiment of the fuser apparatus of the invention.
  • FIG. la is a front View of the door mechanism of FIG. l;
  • FIG. 2 is an isometric view of a second embodiment of fusing apparatus in accordance with the invention.
  • FIG. 3 is a sectional elevation through the embodiment illustrated in FIG. 2.
  • FIG. l For a general understanding of the xerographic process ing system by which the invention is being illustrated, reference is had to FIG. l in which the various system components :are schematically illustrated.
  • a light radiation image of copy to be reproduced is projected onto the sensitized surface of a xerographic plate to form an electrostatic latent image.
  • the latent image is usually developed with oppositely charged developing material to form a xerographic powder image, corresponding to the latent image, on the plate surface.
  • the powder image is then generally electrostatically transferred to a support surface to which it is usually fused by a fusing device causing the image to permanently adhere to the support surface.
  • an expendable type plate as, for example, a commercially marketed plate of zinc oxide in a suitable binder on a exible support
  • the powder image is formed and fused directly thereon. Therefore, for purposes of illustration, the invention will be described in connection with the reusable type of xerographic plate in which the transferred image i-s to be fused to a secondary support surface. lt is to be understood, however, that the fusing apparatus of the invention has utility with any form of web surface on which the image is contained including the expendable type xerographic plate.
  • the xerographic apparatus described herein typically may be of the type disclosed in copending application, Serial No. 837,173, led August 31, 1959, in the names of A. J. Cerasani et al., now Patent U.S. 3,076,392.
  • Opaque copy to be reproduced is placed on a support tray 10 from which it is fed onto a transport mechanism generally designated 11.
  • Suitable drive means are provided for the transport mechanism from motor 12 to endless belts 13 whereby copy is moved past the optical axis of projection lens system 14 and illuminated by a projection lamp LMP-1.
  • the image of the copy is reflected by mirror 15 through an adjustable objective lens 16 and then reflected by mirror 17 downwardly through a variable slit aperture assembly 18 and onto the surface of a xerographic plate inthe form of drum 19.
  • Xerographic drum 19 includes a cylindrical member mounted in suitable bearings in the frame of the machine and is driven in a clockwise direction by a motor 24 at a constant rate that is proportional to the transport rate of the copy, whereby the peripheral rate of the drum surface is identical to the rate of movement of the reflected light image.
  • the drum surface comprises a layer of photoconductive material on a conductive backing that is sensitized prior to exposure by means of a cortona generating device 25 energized from a suitable high potential source.
  • the exposure of the drum to the light image discharges the photoconductive layer in the areas struck by light, whereby there remains on the drum a latent electrostatic image in image configuration corresponding to the light image projected from the copy.
  • the electrostatic latent image passes through a developing station 26 at which a twocomponent developing material 27, which may be of the type disclosed in US. Patents 2,618,552 and 2,638,416, is cascaded over the drum surface by means of developing apparatus 28 which may be of the type disclosed in copending application, Serial No. 393,058, led November 19, 1953, in the names of C. R. Mayo et al.
  • developing material is carried by conveyor 29 driven by suitable driven means from motor 30 and is released onto chute 31 and cascades down over the drum surface.
  • the toner component of the developer is partially consumed in developing.
  • Additional toner 32 is stored in dispenser 33 and is released in amounts controlled by gate 34 to the developer to replenish and assure uniform development.
  • the xerographic powder image After developing, the xerographic powder image passes a discharge station 41 at which the drum surface is illuminated by a lamp LMP-2, whereby residual charges on the non-image areas of the drum surface are discharged. Thereafter, the powder image passes through an image transfer station 42 at which the powder image is electrostatically transferred to a support surface web 43 by means of a second corona generating device 44.
  • the support surface to which the powder image is transferred may be paper, vellum, card stock, etc., that is, continuous and as stated above, may optionally comprise an expendable continuous type xerographic plate on which the powder image is directly formed.
  • the support surface is obtained from a supply roll 45 and is fed over suitably grounded guide rolls 46 and 47, and over suitable tensioning rolls being directed into surface contact with the drum in the immediate vicinity of transfer corona generating device 44. After transfer, the support surface is separated from the drum surface and guided into the fusing apparatus of the invention 50, to be described, whereby the powder image is permanently affixed to the support surface.
  • the fusing apparatus has been of the heat fusing type as, for example, disclosed in Crumine Patent U.S. 2,852,651.
  • a corona generating device 54 may direct negative electrostatic charge to the residual powder image on the drum surface.
  • the xcrographic drum surface passes through a cleaning station 55 at which its surface is brushed by a cleaning brush assembly 56, rotated by a motor 57, whereby residual developing material remaining on the drum is removed.
  • the drum surface then passes through a second discharge station 58 at which it is illuminated by a fluorescent lamp LMP-3, whereby the drum surface in this region is completely flooded with light to remove any electrostatic charge that may remain thereon.
  • Suitable light traps are provided in the system to prevent any light rays from reaching the drum surface, other than the projected image, during the period of drum travel immediately prior to sensitization by corona generating device 25 until after the drum surface is completely passed through the developing station 26.
  • a vapor of a solvent for the solvent soluble component of the powder image is effective to amx the powder image to the support web.
  • the solvent employed must of necessity be an easily volatilized solvent for the material constituting the powder image and for obvious reasons should be nonexplosive.
  • the particular solvent employed depends on the properties of the particular image material and/or base on which the image is to be supported. Trichloroethylene is one solvent particularly suited for image material of the type referred to above.
  • Suitable solvents include chloroforrn, carbon tetrachloride, and other chlorinated solvents; the various Freons (believed to be fluorinated lower alkalines); aromatic and aliphatic hydrocarbons Stich as benzene, toluene, gasoline and gasoline fractions; oxygenated solvents such as ethanol, acetone, ethyl acetate and other alcohols, ketones, esters and the like. In all cases, the particular solvent is appropriately selected for the particular combination of material compositions employed.
  • the various solvents are characterized by various degrees of toxicity and the problems of minimizing dilution 1n the ambient atmosphere should be appreciated.
  • the concentrations are expressed in parts per million (ppm.) and as listed include trichloroethylene at 200 ppm.; chlorethene at 500 ppm.; Freon 112 at 1000 p.p.m.; Freon 11 at 1000 ppm.; and Inhibisol at 500 ppm.
  • the fuser apparatus is comprised of a box-like structure forming a vapor charnber 70 into which the web 43 is continuously passed for windup onto take-up roll 52 shown completely enclosed in the chamber.
  • the chamber is constructed substantially vapor-tight, and is formed of a front wall 71, side walls 72 and 77 and bottom, top, and rear Walls 73, 74 and 75, respectively. Defined in front wall 71 is a narrow opening 76 through which the web enters the chamber.
  • the take-up roll is mounted on an axle 60 journaled for rotation between a pair of parallel extending arm supports 62 secured at their opposite end to a shaft 67 journaled in the side walls.
  • the shaft 67 is under control of a rotary solenoid 68 which when energized causes the take-up roll to be supported within the chamber.
  • the solenoid When de-energized, as for machine shutdown, the solenoid causes the arms to rock to the position shown dotted against a bumper 69 passing the take-up roll through a two-way swinging split door 64.
  • the door is made up of two separate sections each secured via a spring hinge 65 to front wall 71 and which contain overlapping flexible seal members 123 and 124 of silicone impregnated fiber glass strips to provide a substantially vapor tight joint along the line of contact.
  • Each door section is separately comprised of two individual sections hinged together via a spring hinge 122 to permit the roll to pass through the door free and clear after which the door snaps back to close off the chamber. Additional seals 125 secured to the front wall along the side edges of the door sections further prevent the escape of vapor during operational periods. Openings 126 and 127 in the top section each covered by a split seal 127 permit arms 69 to protrude through the door.
  • Rotation of the take-up roll is effected via a motor 53 through a slip-clutch 63 adapted to maintain Windup at a uniform linear speed. Actual connection is via a belt, not shown, that becomes slack when the take-up roll is advanced out of the chamber by the arm supports 62.
  • a reservoir 80 for containing liquid solvent 81 for the solvent soluble component of the powder image to be fused Supported on a shelf on the bottom Wall is a reservoir 80 for containing liquid solvent 81 for the solvent soluble component of the powder image to be fused. Since a ⁇ certain quantity of solvent is consumed in the process of fusing, the level of liquid solvent is maintained substantially level and constant by means of makeup solvent contained in a dispenser bottle 82 which flows solvent to the rreservoir 80 via conduit 83 connected to the reservoir 8i) below the liquid level.
  • the generation of vapor within the chamber is effected by means of a solvent wick 9i) formed of felt, cloth, blotting paper or the like.
  • the lower end of the wick is rolled into a wad at the bottom of the reservoir to draw up solvent in the wick and generate a vapor atmosphere along the path of movement of web 43 moving therepast.
  • the wick is arranged and supported to be substantially parallel or otherwise contoured to the path of web movement from the vicinity of opening 76 to the vicinity of its windup onto the take-up roll.
  • the web continues to advance from transfer station 42 on approaching the fuser apparatus 50, it passes first through opening 76, then over guide roll 92 and then up onto the take-up roll 52. From the time of entering the chamber and while still being wound onto the take-up roll, the web is caused to be exposed to a saturated atmosphere of the vapor of the solvent 82.
  • the web passes with the image bearing surface facing toward the Wick member to effect maximum exposure to the vaporized solvent.
  • the unit can be stopped as by interrupting the operation and the roll is automatically removed out from the chamber by the action of solenoid 68 through the door 64 outwardly against the tension of pivot 65.
  • an opening can be provided in the front wall through which the wound roll can be unwound directly in place and severed into desired length usually corresponding to dimensions of the reproductions contained thereon.
  • take-up roll 52 supported on axle 60 is driven via a motor 85 which through gears 86 and 87 drives a timing belt 88 engaging pulley 89.
  • the pulley is secured to a shaft end of a slip clutch 99.
  • a shaft 91, extending from the clutch, is journaled for rotation in support 93 and has a splined end to receive the axle 60.
  • the take-up roll in this embodiment is adapted to be exposed at least partially exterior of the chamber at a relatively large opening 94 in the front wall.
  • the web enters near the top of the opening adjacent a lip 95 and then is directed past a wick similarly as above being stretched across the opening onto the take-up roll.
  • one end of the roll abuts the side wall 77 while a guide plate 101 having a turned end ange 109 supports the axle and abuts the other end of the roll.
  • the guide plate is positioned by means of a crank handle 113. Since the vapor generated in the chamber is substantially heavier than air, it tends to settle towards the bottom of the chamber.
  • a roller 96 adapted to contact lightly against the image-bearing surface of web 43 being wound on take-up roll 52.
  • the roller is mounted for rotation in a bracket 97 in turn mounted on a pair of pistons 98 each adapted for vertical movement in guideways 102 ange mounted on a shelf plate 112.
  • the pistons are urged upward to urge the roller against the web being wound by means of resilient, compressed, light tension springs 103.
  • its periphery contains or is formed of an adhesive material such as Teflon to which a thin coating of silicon oil may be dispensed from a dispensing roll 110 also supported in bracket 97.
  • a manifold or reservoir 104 having a plurality of uniformly spaced separate dispensing nozzles 107 dispenses oil 111 through tubing 105 and a control valve 106 to the drip nozzle 107.
  • the oil drips onto roll 110 and uniformly distributes itself over the periphery during rotation thereof and is then presented into contact against the peripheral surface of roll 96.
  • a drip pan 108 collects excess oil off roll 110. By this means, a substantial vapor seal is effected along the underside of the take-up roll without smudging the image being contained thereon.
  • an auxiliary heater 116 may be provided.
  • the heater is supported on a bracket 120 pivotally mounted on a rod 121 so that the heater can be placed into operative or inoperative relation relative to the web surface on the roll.
  • the heater is comprised of radiant coils 117 energized from a potential source 118 and is adapted to heat the web and evaporate absorbed solvent contained on the web and its image prior to its being overlapped upon during its windup onto the take-up roll.
  • a suitable blower may be provided to carry off vaporized solvent, vaporized by the effect of heater 116.
  • axle 60 is withdrawn to disconnect from shaft 91 after which take-up roll 52 may be raised from its mounting.
  • web 43 wound on roll 52 may be unwound from the chamber directly in place and severed into prescribed lengths as required.
  • Minimum width of the chamber may be a function of web width although wider fusers may be employed with narrow webs while height and path length within the chamber may be controlled by solvent, speed of transport, developer material or the like.
  • solvent employed, rate of web movement, developer comy position, etc.
  • Minimum width of the chamber may be a function of web width although wider fusers may be employed with narrow webs while height and path length within the chamber may be controlled by solvent, speed of transport, developer material or the like.
  • the materials of construction for the various elements should preferably not be subjected to chemical attack for the solvent employed.
  • trichloroethylene various materials such as stainless steel or nylon have been found suitable.
  • thermoenergy consumption is far less than required for heat fusing in the absence of vapor.
  • a temperature of about degrees Fahrenheit is adequate to drive olf condensed vapor of the trichloroethylene whereas for heat fusing, the web ordinarily attains a temperature on the order of approximately 240 degrees F.
  • a xerographic apparatus including means to form a powder image reproduction having a solvent soluble component loosely supported on a continuous web support surface, and fusing means adapted to afx the powder image substantially permanently onto said support surface, the improvement comprising improved fusing means comprising in combination:
  • drive means adapted to rotate said roll to provide substantially uniform winding of the web there- 2.
  • the improvement in the apparatus according to claim 1 including openable closure means forming part of said chamber enclosure and means operative on power interruption to pass said roll through said closure means substantially exterior of said vapor chamber.
  • a xerographic apparatus including means to form a powder image reproduction having a solvent soluble component loosely supported on a continuous web support surface, and fusing means adapted to afx the powder image substantially permanently onto said support surface, the improvement comprising improved fusing means comprising in combination:
  • wick means for generating a vapor of the solvent liquid in the path of said web, said wick means being immersed at one end into liquid contained in said reservoir and extending therefrom substantially contoured at least partially about the web from about the vicinity of said opening until winding onto said roll;
  • (t) means enabling removal of said roll from its support after a predetermined length of web containing fused powder images has been wound thereon.
  • the apparatus according to claim 4 including heating means exterior of said chamber adapted to apply heat to vaporize absorbed solvent vapor prior to the web being overlapped upon.
  • a Xerographic apparatus including means to form a powder image reproduction having a solvent soluble component loosely supported on a continuous web support surface, and fusing means adapted to aiiix the powder image substantially permanently onto said support surface, the improvement comprising improved fusing means comprising in combination:
  • support means to support a power driven roll at least partially within said chamber, said roll being adapted to rotate on the support means to receive the continuous web supporting powder image reproductions through said opening for windup thereon into overlapping relation;
  • wick means for generating a vapor of the solvent liquid in the path of said web, said wick means being immersed at one end into liquid contained in said reservoir and extending therefrom substantially contoured at least partially about the web from about the vicinity of said rst opening until winding onto said roll;
  • closure means pressure -openable and adapted to close oi said second opening
  • a xerographic apparatus including means to form a powder image reproduction having a solvent soluble component loosely supported on a continuous web support surface, and fusing means adapted to atiix the powder image substantially permanently onto said support surface, the improvement comprising improved fusing means comprising in combination:
  • support means to support a power driven roll at least partially within said chamber, said roll being adapted to rotate on its support means to receive the continuous web supporting powder image reproductions through said opening for windup thereon int-o overlapping relation;
  • wick means for generating a Vapor of the solvent liquid in the path of said web, said wick means being immersed at one end into liquid contained in said reservoir and extending therefrom substantially contoured at least partially about the web from about the vicinity of said lirst opening until winding onto said roll;
  • closure means pressure openable and adapted t-o t over said second opening
  • solenoid means connected to said roll support means operative in response to a power interruption to advance said roll through said second opening and said closure means to exterior of said chamber.

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Description

Nov. 2, 1965 H. E. CLARK 3,215,116
VAPOR FUSING APPARATUS Filed Aug. 15, 1962 2 Sheets-Sheet l INVENTOR. 3 HAROLD E. CLARK A 7'7' ORNE Y Nov. 2, 1965 H. E. CLARK 3,215,116
vAPoR FUSING APPARATUS Filed Aug. 15, 1962 2 Sheets-sheet 2 INVENTOR. HAROLD E. CLARK United States Patent O 3,215,116 VAPOR FUSING APPARATUS Harold E. Clark, Penlield, N.Y., assignor to Xerox Corporation, Rochester, N.Y., a corporation of New York Filed Aug. 15, 1962, Ser. No. 217,027 7 Claims. (Cl. 118-637) This invention relates to improved apparatus for fusing powder images onto the surface of support material. More particularly, the invention relates to xerography and to apparatus for vapor fusing .of powder images loosely formed Xerographically onto a continuous support web.
In the process of xerography, as first disclosed, for example, in Carlson Patent U.S. 2,297,691, a previously formed electrostatic latent image on the surface of a xerographic plate is rendered visible by developing with a powder deposited on the plate surface. Commercial forms of powder used for developing are usually of a pigmented resin such as disclosed in Rheinfrank et al. Patent U.S. 2,788,288 and Carlson Patent U.S. Reissue 25,136. The powder image t-hus formed is then aiixed to the surface upon which it has been deposited or onto the surface of another support material to which it may have been transferred by techniques known to those skilled in the art.
Conventionally there are two usual methods by which a powder image is iafiixed. The first of these methods is with the application of heat in which case the powder image or its support must be formed of a thermo-responsive material, such as a heat fusible resin, which iiows without image distortion when heated and coalesces when cooled to lambient temperature. The second of these methods is to introduce the imagebearing support material into an atmosphere of the vapor of a solvent for the developing powder as disclosed in Carlson Patent U.S. 2,776,907. In the solvent vapor process, the powder image is rendered a tacky cohesive mass while in the presence of the atmosphere of the solvent vapor and usually while still tacky is removed to ambient air for evaporation of the solvent, leaving the image bonded to the support member. The solvent vapor process is referred to in the art as vapor fixing.
While heat fusing has been put to wide scale commercial use in automatic machines, it is recognized that improvements are possible. For example, most commercially marketed machines employ a thin layer of vitreous selenium as the photoconductor. Continuous heat exposure is known to have a deleterious effect on the photoconductive properties lof selenium. Dissipation or insulating of the heat, therefore, must be carefully controlled. When the image is to be fused to paper, cellulose acetate, or other base having a relatively low charring or combustion temperature, as is usually the case, the powder must be made of material which becomes adhesive `at a temperature below that which will cause damage to the base. This imposes limitations on the choice of resins which make it difficult to meet other desirable characteristics in the powder composition. Furthermore, certain paper stocks, such as used in record controlled accounting cards, have controlled moisture contents which are decreased at high temperature destroying cards for their intended purpose. Moreover, it has become diilicult to reach an entirely satisfactory design of heat fuser with regard to a short warm-up time, low electric current requirements, adequate heat insulating and uniform heat distribution particularly at high operating speeds without the attendant disadvantage of fire hazard associated with fusers employing heat as the fusing media.
,. ICC
Vapor fixing of powder images by means of a solvent vapor has also been put to a practical use and found to form dense, blacker images than formed by heat fusing. However, most solvents suitable for use in conjunction with these resins generally used in toners are characterized by various orders of undesirability such as obnoxious odor, toxicity, etc. For example, one such solvent found particularly suited for fusing xerographic images is tr1- chloroethylene, which happens to be characterized by objectional odor and a degree of toxicity which can raise to an objectionable level if allowed to escape to the room at a high rate.
Operation of vapor fusing devices heretofore has 1neluded removal or emergence of the image-bearing support surface from the vapor chamber such that the support surface contained not only absorbed vapor but also was accompanied by vapor dragout, i.e., a layer of solvent vapor accompanying the moving support surface. rThis dragout not only has contributed to the inefficiency of the system but its effect on air dilution has caused general uncomfortableness for the operators of the apparatus in attendance not to mention the inherent toxic dangers. Where there is likely to be large volumes of copy to be fused, as is usual with automatic xerographic machines operated continuously, expensive and bulky ventilation equipment has been required to avoid atmospheric contamination.
Apparatus, therefore, employing trichloroethylene as a fusing solvent, and vapor fusing in general has encountered restricted and intermittent use and has generally been employed only on low volume output equipment.
Now in yaccordance with the instant invention, there is provided improved apparatus employing solvent vapor for continuous fusing operation particularly suited for automatic xerographic apparatus with continuous web support members and adapted for high speed operation.
It is, therefore, an object of the invention to provide novel apparatus for vapor fixing of powder images onto surfaces of continuous support material on which the powder image is loosely supported.
It is a further object of the invention to provide improved vapor xing apparatus for continuous xing of the xerographic powder images to moving support material.
It is a further object of the invention to achieve vapor fixing of xerographic powder images .onto a continuous support web by improved apparatus resulting in substantially reduced solvent consumption and vapor dnagout as compared to other such devices of the prior art.
It is a further object of the invention to provide novel vapor fusing apparatus for a continuous web in which vapor dragout to ambient atmosphere is `substantially eliminated.
These and other iobjects will appear clearly in the following specilication when read in connection with the drawings, the novel features being pointed out in the claims at the end of the specification.
In the drawings:
FIG. l is a schematic arrangement of an automatic xerographic apparatus incorporating one embodiment of the fuser apparatus of the invention;
FIG. la is a front View of the door mechanism of FIG. l;
FIG. 2 is an isometric view of a second embodiment of fusing apparatus in accordance with the invention; and,
FIG. 3 is a sectional elevation through the embodiment illustrated in FIG. 2.
For a general understanding of the xerographic process ing system by which the invention is being illustrated, reference is had to FIG. l in which the various system components :are schematically illustrated. As in most xerographic systems based on the concept disclosed in the i above-cited Carlson patent, a light radiation image of copy to be reproduced is projected onto the sensitized surface of a xerographic plate to form an electrostatic latent image. Thereafter, the latent image is usually developed with oppositely charged developing material to form a xerographic powder image, corresponding to the latent image, on the plate surface. In one common system of the reusable type, i.e., one in which the xerographic plate is recycled, the powder image is then generally electrostatically transferred to a support surface to which it is usually fused by a fusing device causing the image to permanently adhere to the support surface.
In another well known type of system utilizing an expendable type plate as, for example, a commercially marketed plate of zinc oxide in a suitable binder on a exible support, the powder image is formed and fused directly thereon. Therefore, for purposes of illustration, the invention will be described in connection with the reusable type of xerographic plate in which the transferred image i-s to be fused to a secondary support surface. lt is to be understood, however, that the fusing apparatus of the invention has utility with any form of web surface on which the image is contained including the expendable type xerographic plate.
The xerographic apparatus described herein typically may be of the type disclosed in copending application, Serial No. 837,173, led August 31, 1959, in the names of A. J. Cerasani et al., now Patent U.S. 3,076,392. Opaque copy to be reproduced is placed on a support tray 10 from which it is fed onto a transport mechanism generally designated 11. Suitable drive means are provided for the transport mechanism from motor 12 to endless belts 13 whereby copy is moved past the optical axis of projection lens system 14 and illuminated by a projection lamp LMP-1. The image of the copy is reflected by mirror 15 through an adjustable objective lens 16 and then reflected by mirror 17 downwardly through a variable slit aperture assembly 18 and onto the surface of a xerographic plate inthe form of drum 19.
Xerographic drum 19 includes a cylindrical member mounted in suitable bearings in the frame of the machine and is driven in a clockwise direction by a motor 24 at a constant rate that is proportional to the transport rate of the copy, whereby the peripheral rate of the drum surface is identical to the rate of movement of the reflected light image. The drum surface comprises a layer of photoconductive material on a conductive backing that is sensitized prior to exposure by means of a cortona generating device 25 energized from a suitable high potential source.
The exposure of the drum to the light image discharges the photoconductive layer in the areas struck by light, whereby there remains on the drum a latent electrostatic image in image configuration corresponding to the light image projected from the copy. As the drum surface continues its movement, the electrostatic latent image passes through a developing station 26 at which a twocomponent developing material 27, which may be of the type disclosed in US. Patents 2,618,552 and 2,638,416, is cascaded over the drum surface by means of developing apparatus 28 which may be of the type disclosed in copending application, Serial No. 393,058, led November 19, 1953, in the names of C. R. Mayo et al.
In the developing apparatus, developing material is carried by conveyor 29 driven by suitable driven means from motor 30 and is released onto chute 31 and cascades down over the drum surface. The toner component of the developer is partially consumed in developing. Additional toner 32 is stored in dispenser 33 and is released in amounts controlled by gate 34 to the developer to replenish and assure uniform development.
After developing, the xerographic powder image passes a discharge station 41 at which the drum surface is illuminated by a lamp LMP-2, whereby residual charges on the non-image areas of the drum surface are discharged. Thereafter, the powder image passes through an image transfer station 42 at which the powder image is electrostatically transferred to a support surface web 43 by means of a second corona generating device 44.
The support surface to which the powder image is transferred may be paper, vellum, card stock, etc., that is, continuous and as stated above, may optionally comprise an expendable continuous type xerographic plate on which the powder image is directly formed. The support surface is obtained from a supply roll 45 and is fed over suitably grounded guide rolls 46 and 47, and over suitable tensioning rolls being directed into surface contact with the drum in the immediate vicinity of transfer corona generating device 44. After transfer, the support surface is separated from the drum surface and guided into the fusing apparatus of the invention 50, to be described, whereby the powder image is permanently affixed to the support surface. In most known commercial machines of the type being described, the fusing apparatus has been of the heat fusing type as, for example, disclosed in Crumine Patent U.S. 2,852,651.
After separation of the support surface from the drum, a corona generating device 54 may direct negative electrostatic charge to the residual powder image on the drum surface. Thereafter, the xcrographic drum surface passes through a cleaning station 55 at which its surface is brushed by a cleaning brush assembly 56, rotated by a motor 57, whereby residual developing material remaining on the drum is removed. The drum surface then passes through a second discharge station 58 at which it is illuminated by a fluorescent lamp LMP-3, whereby the drum surface in this region is completely flooded with light to remove any electrostatic charge that may remain thereon. Suitable light traps are provided in the system to prevent any light rays from reaching the drum surface, other than the projected image, during the period of drum travel immediately prior to sensitization by corona generating device 25 until after the drum surface is completely passed through the developing station 26.
Referring now to the fuser apparatus there is illustrated the apparatus of the invention in which a vapor of a solvent for the solvent soluble component of the powder image is effective to amx the powder image to the support web. The solvent employed must of necessity be an easily volatilized solvent for the material constituting the powder image and for obvious reasons should be nonexplosive. The particular solvent employed depends on the properties of the particular image material and/or base on which the image is to be supported. Trichloroethylene is one solvent particularly suited for image material of the type referred to above. Other suitable solvents include chloroforrn, carbon tetrachloride, and other chlorinated solvents; the various Freons (believed to be fluorinated lower alkalines); aromatic and aliphatic hydrocarbons Stich as benzene, toluene, gasoline and gasoline fractions; oxygenated solvents such as ethanol, acetone, ethyl acetate and other alcohols, ketones, esters and the like. In all cases, the particular solvent is appropriately selected for the particular combination of material compositions employed.
The various solvents are characterized by various degrees of toxicity and the problems of minimizing dilution 1n the ambient atmosphere should be appreciated. The following list taken from various handbooks such as the Handbook of Organic Industrial Solvents, published by the National Association of Mutual Casualty Companies, indicates a summary of allowable maximum concentrations in the atmosphere of sample solvents to maintain the atmosphere below unsafe levels of toxicity. The concentrations are expressed in parts per million (ppm.) and as listed include trichloroethylene at 200 ppm.; chlorethene at 500 ppm.; Freon 112 at 1000 p.p.m.; Freon 11 at 1000 ppm.; and Inhibisol at 500 ppm. These solvents have each been found to accord various degrees of fusing when used in conjunction with developer of a type described, for example, in Patents 2,618,552; 2,638,- 416; 2,659,670; 2,753,308; 2,788,288; 2.892.794 and Reissue 25,136 as well as commercially marketed products such as 914 Copier Toner which is a trademark of Xerox Corporation of Rochester, New York. It is not intended, however, that the named solvents should in any way constitute a limitation relevant to the instant invention.
The fuser apparatus, as illustrated in FIGURE 1, is comprised of a box-like structure forming a vapor charnber 70 into which the web 43 is continuously passed for windup onto take-up roll 52 shown completely enclosed in the chamber. The chamber is constructed substantially vapor-tight, and is formed of a front wall 71, side walls 72 and 77 and bottom, top, and rear Walls 73, 74 and 75, respectively. Defined in front wall 71 is a narrow opening 76 through which the web enters the chamber.
The take-up roll is mounted on an axle 60 journaled for rotation between a pair of parallel extending arm supports 62 secured at their opposite end to a shaft 67 journaled in the side walls. The shaft 67 is under control of a rotary solenoid 68 which when energized causes the take-up roll to be supported within the chamber. When de-energized, as for machine shutdown, the solenoid causes the arms to rock to the position shown dotted against a bumper 69 passing the take-up roll through a two-way swinging split door 64.
The door is made up of two separate sections each secured via a spring hinge 65 to front wall 71 and which contain overlapping flexible seal members 123 and 124 of silicone impregnated fiber glass strips to provide a substantially vapor tight joint along the line of contact. Each door section is separately comprised of two individual sections hinged together via a spring hinge 122 to permit the roll to pass through the door free and clear after which the door snaps back to close off the chamber. Additional seals 125 secured to the front wall along the side edges of the door sections further prevent the escape of vapor during operational periods. Openings 126 and 127 in the top section each covered by a split seal 127 permit arms 69 to protrude through the door. On startup, as the take-up roll is positioned for operation, the doors are caused to swing inwardly before snapping into their closing position. By this means, excessive solvent absorption in the web as well as vapor escape to the ambient atmosphere is prevented in the event of a power failure or other machine shutdown.
Rotation of the take-up roll is effected via a motor 53 through a slip-clutch 63 adapted to maintain Windup at a uniform linear speed. Actual connection is via a belt, not shown, that becomes slack when the take-up roll is advanced out of the chamber by the arm supports 62.
Supported on a shelf on the bottom Wall is a reservoir 80 for containing liquid solvent 81 for the solvent soluble component of the powder image to be fused. Since a `certain quantity of solvent is consumed in the process of fusing, the level of liquid solvent is maintained substantially level and constant by means of makeup solvent contained in a dispenser bottle 82 which flows solvent to the rreservoir 80 via conduit 83 connected to the reservoir 8i) below the liquid level.
The generation of vapor within the chamber is effected by means of a solvent wick 9i) formed of felt, cloth, blotting paper or the like. The lower end of the wick is rolled into a wad at the bottom of the reservoir to draw up solvent in the wick and generate a vapor atmosphere along the path of movement of web 43 moving therepast. Preferably, although not necessarily, the wick is arranged and supported to be substantially parallel or otherwise contoured to the path of web movement from the vicinity of opening 76 to the vicinity of its windup onto the take-up roll.
Therefore as the web continues to advance from transfer station 42 on approaching the fuser apparatus 50, it passes first through opening 76, then over guide roll 92 and then up onto the take-up roll 52. From the time of entering the chamber and while still being wound onto the take-up roll, the web is caused to be exposed to a saturated atmosphere of the vapor of the solvent 82.
As can be seen7 the web passes with the image bearing surface facing toward the Wick member to effect maximum exposure to the vaporized solvent.
As the web winds onto the take-up roll, it does so in spiral-like fashion with each added layer of periphery overlapping against the previously added layer. After a predetermined length of web has been wound, the unit can be stopped as by interrupting the operation and the roll is automatically removed out from the chamber by the action of solenoid 68 through the door 64 outwardly against the tension of pivot 65. Alternatively, an opening can be provided in the front wall through which the wound roll can be unwound directly in place and severed into desired length usually corresponding to dimensions of the reproductions contained thereon.
Whereas it would be expected that `the powder image, softened by exposure to the vapor atmosphere of the solvent from the solvent soluble component of the powder image, would continue on windup to absorb solvent to become increasingly soft as to offset onto a surface against which it came into contact, it has been found in accordance with the invention that surprisingly little and only a negligible amount of the softened powder does,.in fact, offset. This has been found to be true for either line copy or continuous tone subjects throughout a wide range of operating speeds up to about twelve inches per second. Some variation was found to exist dependent on the texture of surface with the rougher texture papers according lower offset. In any case, the amount of offsetting was found not to smear the image or damage the paper in any Way. At the same time, a strong fused bond resulted between the powder image and the web. By this means, therefore, it was found possible to operate the web at speeds in the range of from virtually ze-ro up to on the order of twelve inches per second and above without significant offsetting between adjacent overlapping layers of a wound web, and in all cases, without any smudging of the image previously formed.
On unwinding the web in order to effect severing for its ultimate disposition, it was found that relatively little ventilation was required as compared to such prior art devices, since only vapor absorbed by the web and the powder released into the atmosphere as compared to the larger amounts of vapor of the prior art devices that included both dragout and the absorbent release. Thus, by the instant invention, the solvent consumption per unit of copy has been found to be substantially reduced having completely eliminated the effect of vapor dragout. This has resulted in a more ecient, more economical and yet higher speed vapor fusing method and apparatus as compared to any known devices of the prior art.
Referring now to FIGS. 2 and 3, there is illustrated a variation of the apparatus as described above in connection with FIG. 1. In this embodiment, take-up roll 52 supported on axle 60 is driven via a motor 85 which through gears 86 and 87 drives a timing belt 88 engaging pulley 89. The pulley is secured to a shaft end of a slip clutch 99. A shaft 91, extending from the clutch, is journaled for rotation in support 93 and has a splined end to receive the axle 60. The take-up roll in this embodiment is adapted to be exposed at least partially exterior of the chamber at a relatively large opening 94 in the front wall. The web enters near the top of the opening adjacent a lip 95 and then is directed past a wick similarly as above being stretched across the opening onto the take-up roll. In order further to maintain the chamber substantially sealed against leakage of vapor to the surrounding atmosphere, one end of the roll abuts the side wall 77 while a guide plate 101 having a turned end ange 109 supports the axle and abuts the other end of the roll. The guide plate is positioned by means of a crank handle 113. Since the vapor generated in the chamber is substantially heavier than air, it tends to settle towards the bottom of the chamber.
In order to provide a vapor seal along the bottom of the take-up roll, there is provided a roller 96 adapted to contact lightly against the image-bearing surface of web 43 being wound on take-up roll 52. The roller is mounted for rotation in a bracket 97 in turn mounted on a pair of pistons 98 each adapted for vertical movement in guideways 102 ange mounted on a shelf plate 112. The pistons are urged upward to urge the roller against the web being wound by means of resilient, compressed, light tension springs 103. By this means, the roller 96 is always in contact against the drum surface but as the roll diameter increases, by virtue of the winding of the web, roller 96 is caused to move downward against the urgence of the springs.
To prevent offsetting of the image material to the roller 96, its periphery contains or is formed of an adhesive material such as Teflon to which a thin coating of silicon oil may be dispensed from a dispensing roll 110 also supported in bracket 97. A manifold or reservoir 104 having a plurality of uniformly spaced separate dispensing nozzles 107 dispenses oil 111 through tubing 105 and a control valve 106 to the drip nozzle 107. The oil drips onto roll 110 and uniformly distributes itself over the periphery during rotation thereof and is then presented into contact against the peripheral surface of roll 96. A drip pan 108 collects excess oil off roll 110. By this means, a substantial vapor seal is effected along the underside of the take-up roll without smudging the image being contained thereon.
When using the fuser for excessively high speeds of operation, an auxiliary heater 116 may be provided. The heater is supported on a bracket 120 pivotally mounted on a rod 121 so that the heater can be placed into operative or inoperative relation relative to the web surface on the roll. The heater is comprised of radiant coils 117 energized from a potential source 118 and is adapted to heat the web and evaporate absorbed solvent contained on the web and its image prior to its being overlapped upon during its windup onto the take-up roll. A suitable blower may be provided to carry off vaporized solvent, vaporized by the effect of heater 116.
For removal of the take-up roll 52 from the chamber, axle 60 is withdrawn to disconnect from shaft 91 after which take-up roll 52 may be raised from its mounting. Optionally, web 43 wound on roll 52 may be unwound from the chamber directly in place and severed into prescribed lengths as required.
It should be apparent that the size of elements may be controlled by various factors including web dimensions,
solvent employed, rate of web movement, developer comy position, etc., in order to achieve a required vapor eX- posure prior to overlapping the web. Minimum width of the chamber may be a function of web width although wider fusers may be employed with narrow webs while height and path length within the chamber may be controlled by solvent, speed of transport, developer material or the like. Typically, it has been found that for an eleven inch web at speeds of 20 feet per minute, employing developer as described in Carlsons Reissue 24,135 and with trichloroethylene as the solvent, images fuse in about 11/2 seconds of exposure before being overlapped onto the take-up roll. The materials of construction for the various elements should preferably not be subjected to chemical attack for the solvent employed. For trichloroethylene, various materials such as stainless steel or nylon have been found suitable.
By means of the invention, therefore, there is provided high speed apparatus for vapor fusing xerographic powder images onto a continuous support web on which substantially only that solvent absorbed in the image material and to a minor degree, the web, if of an absorbent material, ever leaves from the chamber. It is to be noted that heat, as here employed, is not essential to the invention and further that the temperature and thermoenergy consumption is far less than required for heat fusing in the absence of vapor. For example, though not in any way to be regarded as an imitation, a temperature of about degrees Fahrenheit is adequate to drive olf condensed vapor of the trichloroethylene whereas for heat fusing, the web ordinarily attains a temperature on the order of approximately 240 degrees F.
Therefore, the elimination of vapor dragout, in accordance with the invention, has resulted not only in a much lower dilution to the atmosphere, reducing ventilation requirements, annoying odors, etc., but also the consumption of solvent attributable per unit of surface being fused has been found to be substantially reduced. Thus, by means of the instant invention ambient toxicity is so substantially reduced below safe levels that vapor fusing may now be used on commercial equipment more readily and more safely and in a more economical manner, while at the same time, speeds previously unattainable and impractical for heat fusing or vapor fusing may now be effected by using a vapor fixing technique. This increased efficiency, therefore, produces both economic, comfort and speed advantages not enjoyed by the prior art devices such as to provide a vapor fuser adapted for continuous operation with a moving web.
Since many changes can be made in the above construction and many apparently widely different embodiments of this invention could be made without departing from the scope thereof, it is intended all matter contained in the drawings and specification shall be interpreted illustratively and not in a limiting sense.
What is claimed is:
1. In a xerographic apparatus including means to form a powder image reproduction having a solvent soluble component loosely supported on a continuous web support surface, and fusing means adapted to afx the powder image substantially permanently onto said support surface, the improvement comprising improved fusing means comprising in combination:
(a) a chamber substantially enclosed;
(b) vapor generating means in said chamber adapted to generate an atmosphere of solvent vapor of the solvent soluble component of the powder image supported on the web;
(c) an opening defined in said chamber for the web to pass into said atmosphere of vapor;
(d) a roll supported for rotation at least partially Within the atmosphere of vapor of said chamber spaced from said opening to receive the continuous web supporting powder image reproductions in said vapor atmosphere for windup thereon into overlapping relation; and
(e) drive means adapted to rotate said roll to provide substantially uniform winding of the web there- 2. The improvement in the apparatus according to claim 1 including openable closure means forming part of said chamber enclosure and means operative on power interruption to pass said roll through said closure means substantially exterior of said vapor chamber.
3. In a xerographic apparatus including means to form a powder image reproduction having a solvent soluble component loosely supported on a continuous web support surface, and fusing means adapted to afx the powder image substantially permanently onto said support surface, the improvement comprising improved fusing means comprising in combination:
(a) walls defining a substantially enclosed vapor chamber;
(b) a liquid solvent reservoir in said chamber adapted to contain solvent liquid of the solvent soluble component of the powder image;
(c) an opening dened in one wall for the web to pass into said chamber;
(d) a roll supported at least partially within said chamber and adapted for rotation to receive the continuous web supporting powder image reproductions through said opening for windup thereon into overlapping relation;
(e) wick means for generating a vapor of the solvent liquid in the path of said web, said wick means being immersed at one end into liquid contained in said reservoir and extending therefrom substantially contoured at least partially about the web from about the vicinity of said opening until winding onto said roll; and,
(t) means enabling removal of said roll from its support after a predetermined length of web containing fused powder images has been wound thereon.
4. The apparatus according to claim 3 in which said roll supports the wound web totally within said chamber.
5. The apparatus according to claim 4 including heating means exterior of said chamber adapted to apply heat to vaporize absorbed solvent vapor prior to the web being overlapped upon.
6. In a Xerographic apparatus including means to form a powder image reproduction having a solvent soluble component loosely supported on a continuous web support surface, and fusing means adapted to aiiix the powder image substantially permanently onto said support surface, the improvement comprising improved fusing means comprising in combination:
(a) walls defining a substantially enclosed vapor chamber;
(b) a liquid solvent reservoir in said chamber adapted to contain solvent liquid of the solvent soluble cornponent of the powder image;
(c) a first opening dened in a wall for the web to pass into said chamber;
(d) support means to support a power driven roll at least partially within said chamber, said roll being adapted to rotate on the support means to receive the continuous web supporting powder image reproductions through said opening for windup thereon into overlapping relation;
(e) wick means for generating a vapor of the solvent liquid in the path of said web, said wick means being immersed at one end into liquid contained in said reservoir and extending therefrom substantially contoured at least partially about the web from about the vicinity of said rst opening until winding onto said roll;
(f) a seoond opening defined in a wall;
(g) closure means pressure -openable and adapted to close oi said second opening; and,
(h) means connected to said roll support means operative in response to a power interruption to advance said roll through said second opening and said closure means to exterior of said chamber.
7. In a xerographic apparatus including means to form a powder image reproduction having a solvent soluble component loosely supported on a continuous web support surface, and fusing means adapted to atiix the powder image substantially permanently onto said support surface, the improvement comprising improved fusing means comprising in combination:
(a) walls defining a substantially enclosed vapor chamber;
(b) a liquid solvent reservoir in said chamber adapted to contain solvent liquid of the solvent soluble cornponent of the powder image;
(c) a rst opening deiined in a wall for the web to pass into said chamber;
(d) support means to support a power driven roll at least partially within said chamber, said roll being adapted to rotate on its support means to receive the continuous web supporting powder image reproductions through said opening for windup thereon int-o overlapping relation;
(e) wick means for generating a Vapor of the solvent liquid in the path of said web, said wick means being immersed at one end into liquid contained in said reservoir and extending therefrom substantially contoured at least partially about the web from about the vicinity of said lirst opening until winding onto said roll;
(f) a second opening defined in a wall;
(g) closure means pressure openable and adapted t-o t over said second opening;
(h) seals about said closure means adapted to prevent vapor leakage through the tit of said closure means and said second opening; and,
(i) solenoid means connected to said roll support means operative in response to a power interruption to advance said roll through said second opening and said closure means to exterior of said chamber.
References Cited bythe Examiner l UNITED STATES PATENTS 254,439 2/82 Hyatt 34-153 X 2,271,192 1/42 Hinz lil7-63 X 2,562,182 7/51 Godley 1l7-l07.1 2,702,760 2/55 Barth 117-107.1 2,726,166 l2/55 Greaves 117--21 2,776,907 11/57 Carlson 117-175 2,909,971 10/59 Barber 95-1.7 2,946,682 7/60 Lauriello 96-1 2,947,625 8/60 Bertelsen 96-1 2,968,553 tl/6l Gundlach 96-1 3,009,402 1l/6l Crumrine et al. 95 1.7 3,062,110 1l/62 Shepardson et al. 95-l.7 3,132,047 5/64 Van Dorn 1117-21 X CHARLES A WILLMUTH, Primary Examiner.
NORMAN G. TORCHIN, WILLIAM D. MARTIN,
Examiners.

Claims (1)

1. IN A XEROGRAPHIC APPARATUS INCLUDING MEANS TO FORM A POWDER IMAGE REPRODUCTION HAVING A SOLVENT SOLUBLE COMPONENT LOOSELY SUPPORTED ON A CONTINUOUS WEB SUPPORT SURFACE, AND FUSING MEANS ADAPTED TO AFFIX THE POWDER IMAGE SUBSTANTAILLY PERMANENTLY ONTO SAID SUPPORT SURFACE, THE IMPROVEMENT COMPRISING IMPROVED FUSING MEANS COMPRISING IN COMBINATION: (A) A CHAMBER SUBSTANTAILLY ENCLOSED; (B) VAPOR GENERATING MEANS IN SAID CHAMBER ADAPTED TO GENERATE AN ATMOSPHERE OF SOLVENT VAPOR OF THE SOLVENT SOLUBLE COMPONENT OF THE POWDER IMAGE SUPPORTED ON THE WEB; (C) AN OPENING DEFINED IN SID CHAMBER FOR THE WEB TO PASS INTO SAID ATMOSPHERE OF VAPOR; (D) A ROLL SUPPORTED FOR ROTATION AT LEAST PARTAILLY WITHIN THE ATMOSPHERE OF VAPOR OF SAID CHAMBER SPACED FROM SAID OPENING TO RECEIVE THE
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0328889A1 (en) * 1988-02-17 1989-08-23 Siemens Nixdorf Informationssysteme Aktiengesellschaft Cold-fixing unit for electrophotography

Citations (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US254439A (en) * 1882-02-28 John w
US2271192A (en) * 1937-11-18 1942-01-27 Sherka Chemical Co Inc Process of treating plastic sheets
US2562182A (en) * 1948-08-04 1951-07-31 Nat Res Corp Metal coating by vapor deposition
US2702760A (en) * 1951-04-25 1955-02-22 Western Electric Co Method of applying metallic stripes to a web of paper
US2726166A (en) * 1953-12-30 1955-12-06 Ibm Method for fixing xerographic prints
US2776907A (en) * 1952-07-18 1957-01-08 Battelle Development Corp Method of fixing electrostatic powder image
US2909971A (en) * 1954-03-29 1959-10-27 Ibm Printing machine
US2946682A (en) * 1958-12-12 1960-07-26 Rca Corp Electrostatic printing
US2947625A (en) * 1955-12-21 1960-08-02 Ibm Method of manufacturing printed circuits
US2968553A (en) * 1958-03-03 1961-01-17 Haloid Xerox Inc Xerographic apparatus and method
US3009402A (en) * 1957-06-03 1961-11-21 Xerox Corp Xerographic processing apparatus
US3062110A (en) * 1959-07-02 1962-11-06 Xerox Corp Exposure station apparatus
US3132047A (en) * 1961-06-29 1964-05-05 Xerox Corp Xerographic fixing apparatus

Patent Citations (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US254439A (en) * 1882-02-28 John w
US2271192A (en) * 1937-11-18 1942-01-27 Sherka Chemical Co Inc Process of treating plastic sheets
US2562182A (en) * 1948-08-04 1951-07-31 Nat Res Corp Metal coating by vapor deposition
US2702760A (en) * 1951-04-25 1955-02-22 Western Electric Co Method of applying metallic stripes to a web of paper
US2776907A (en) * 1952-07-18 1957-01-08 Battelle Development Corp Method of fixing electrostatic powder image
US2726166A (en) * 1953-12-30 1955-12-06 Ibm Method for fixing xerographic prints
US2909971A (en) * 1954-03-29 1959-10-27 Ibm Printing machine
US2947625A (en) * 1955-12-21 1960-08-02 Ibm Method of manufacturing printed circuits
US3009402A (en) * 1957-06-03 1961-11-21 Xerox Corp Xerographic processing apparatus
US2968553A (en) * 1958-03-03 1961-01-17 Haloid Xerox Inc Xerographic apparatus and method
US2946682A (en) * 1958-12-12 1960-07-26 Rca Corp Electrostatic printing
US3062110A (en) * 1959-07-02 1962-11-06 Xerox Corp Exposure station apparatus
US3132047A (en) * 1961-06-29 1964-05-05 Xerox Corp Xerographic fixing apparatus

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0328889A1 (en) * 1988-02-17 1989-08-23 Siemens Nixdorf Informationssysteme Aktiengesellschaft Cold-fixing unit for electrophotography

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