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Publication numberUS3816114 A
Publication typeGrant
Publication dateJun 11, 1974
Filing dateMar 13, 1972
Priority dateMar 3, 1972
Publication numberUS 3816114 A, US 3816114A, US-A-3816114, US3816114 A, US3816114A
InventorsFukushima O, Matsumoto S, Sato M
Original AssigneeXerox Corp
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Electro-photographic method
US 3816114 A
Development of an electrostatic latent image on an image carrier with liquid electrophoretic developer and utilizing a closely spaced development electrode, is facilitated by embossing the side edges of the carrier with embossments that project above the image surface of the carrier. These embossments are used to establish and maintain a fixed spacing between the electrode and the image surface.
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United StatesPatent 1191 Fukushima et al.

[ 1 ELECTRO-PHOTOGRAPHIC METHOD [75] Inventors: Osamu Fukushima; MasamichiSato;

Seiii Matsumoto, all of Asaka, Japan [73] Assignee: Xerox Corporation, Stamford,


22 Filed: Mar. 13, 1972 21] Appl. No,: 234,287

[52] US. Cl. 96/1 LY, 117/37 LE, 118/637,

[51] Int. Cl. G03g 13/10, 603g 15/10 [58] Field of Search 117/37 LE, 8, 64 R; 96/1 R, 1 LY; 118/637, DIG. 23; 355/10;

[56] References Cited UNITED STATES PATENTS 12/1931 Jackson 117/8 7/1936 Roscn 156/200 5/1966 Ostensen 117/37 LE I lllllrlalalllllllllz'laal 1,111", "1" ".111,

1111 3,816,114 June 11, 1974 3,271,218 9/1966 Ott et a1 156/201 3.31 1,490 3/1967 Fauser et a1. 3,681,071 8/1972 Donald 3,685,907 8/1972 Sato et al 335/10 3 707,139 12/1972 Fukushima et al. 118/637 3,713,422 1/1973 Sato et a1 118/637 Primary ExaminerWilliam D. Martin Assistant Examiner-M. Sofocleous Attorney, Agent, or Firm-James J. Ralabate 5 7] ABSTRACT Development of an electrostatic latent image on an image carrier with liquid electrophoretic developer and utilizing a closely spaced development electrode, is facilitated by embossing the side edges of the carrier with embossments that project above the image surface of the carrier. These embossments are used to establish and maintain a fixed spacing between the electrode and the image surface.

2 Claims, 7 Drawing Figures PATENTEUJUH I m4 FIG. 3


FIG. 7

INTRODUCTION AND BRIEF DESCRIPTION OF INVENTION The present invention relates to the development of electrostatic latent images, and more particularly to the development of such images by the use of liquid electrophoretic developers, such as those comprising a suspension of minute colored toner particles in an electrically'insulating liquid vehicle.

The process of developing electrostatic latent images by immersing the image surface of an electrostatic image carrier in a liquid electrophoretic developer solution, is well known. There are also a number of well known methods for obtaining electrostatic latent images. One such method is to apply a uniform electrostatic charge over a photoconductive electrically insulating surface layer carried on a conductive paper backing. The charged surface is then exposed to an optical image, which causes the charge to be dissipated or discharged in the light struck areas in accordancewith the intensity of the light impinging thereon, leaving an electrostatic latent image of the applied optical image on the surface of the photoconductive layer.

In the liquid electrophoretic development process, it is conventional to utilize a development electrode, arranged so that as the latent image carrier passes through the developer solution, the image surface passes in close proximity to the development electrode surface, while the conductive backing of the carrier is 2 web carriers without resorting to complicated feed control mechanisms. I

And still another object of the present invention is to provide for said control by utilizing the carrier itself to maintain the requisite spacing at each incremental length thereof. 1

Other objects and advantages of the present invention will become apparent to those skilled in the art from a consideration of the following detailed description of illustrative embodiments of the invention, had in conjunction with the accompanying drawings, in which like reference characters refer to like or corresponding parts, and wherein:

' electrophotographic apparatus;

in contact with a ground element. The development electrode contributes to a uniform development action, that is, a deposit of toner in a density closely related to the charge potential present at each incremental area of the image surface. The closer the electrode, the more uniform is the development effect, and the lesser is the tendency to produce edge effects in which toner deposits preferentially at the edges of areas carrying high charge densities. For optimum effects, it is preferred that the development electrode be spaced only about 50 to 500 microns from the image surface.

On the other hand, the closer the electrode is positioned to the image surface, the greater is the problem of feed control to prevent contact between the electrode and the image surface. Such contact is deleterious to the quality of the development, because it discharges image charge in the areas of contact and smudges toner already deposited.

The present invention is directed to overcoming these problems, and enabling an image carrier, particularly a paper or other flexible sheet or web carrier, to be fed through a development station in very close proximity to a development electrode, while retaining a controlled spacing between the image carrier and the electrode. In general, this result is accomplished by embossing the marginal non-image side edges of the carrier, and relying on these embossments to maintain the requisite spacing of a floating electrode from the image surface of the carrier.

Accordingly, it is one object of the present invention to'provide for the control of the spacing between a development electrode and the image surface of an electrostatic latent image carrier.

Another object of the present invention is to provide for said control with paper or other flexible sheet or FIG. 2 is an enlarged exploded perspective view of a pair of embossing rolls utilized in the practice of the present invention;

FIG. 3 is an enlarged vertical sectional view of the embossing rolls of FIG. 2 in operative relation with an electrostatic latent image carrier sheet; and

FIGS. 4-7 are representations of alternate embodiments of the embossing rolls of FIGS. 2 and 3.

DETAILED DESCRIPTION Referring to FIG. 1, numeral 1 designates a supply roll of conventional electrophotographic paper, comprising a electrically conductive paper backing, having an electrically insulating photoconductive surface layer, such as photoconductive zinc oxide particles in a resin binder. Electrophotographic paper is fed from the supply roll by feed rolls 2,2, and cut into a desired sheet length by cutter 3,3. The cut sheet is fed through the apparatus along the path indicated by the dashed line 17 andv in the direction of arrow 17a. From the cutter, the sheet is carried by endless belt conveyor 5 driven by end rolls 6,6, first under the charging station 7 where its photosensitive surface receives a uniform electrostatic charge, and then to exposure station 8 where the optical image of a subject 8a is projected by lens 8b on the photoconductive sheet. Belt 5 is electrically grounded, so that areas on the photoconductive sheet that are struck by light from subject 8a are discharged, leaving an electrostatic latent image of the subject on the image surface of the sheet.

From belt 5, the electrophotographic sheet 1 is conveyed by rolls 9,9 under a prewash nozzle 18 to embossing rolls 10,10. Rolls 9 and 10, to the extent that they contact the latent image surface of the sheet 1 are electrically insulating, so as not to discharge the electrostatic image on the photoconductive surface of the sheet-Nozzle 18 sprays the sheet 1 with an insulating liquid, preferably the same as that used in the developer, but free of toner. The purpose of this spray is to wet the sheet 1 so that it will not absorb developer during development and obtain a coloration simply as a result of mechanical absorption. The structure andfunction of the embossing rolls 10,10 will be considered subsequently, after the following brief description of the developing apparatus.

From the embossing rolls, the latent image sheet 1 passes between a series of roll type development electrodes ll, 11, 11'', and 11", and their respective backing rolls 12, 12, 12", and 12". The development electrodes and their backing rolls are mounted to befreely separable by an amount required by the passage of sheet 1 therebetween, such as may be obtained by mounting the axles of rolls 11-11 so that they may move upwardly freely. Between each adjacent pair of development rolls 11-11 is a nozzle 19, 19', or 19" adapted to spray the image surface of the electrophotographic sheet 1 with liquid electrophoretic developer. The toner in the developer deposits on the image surface of the sheet in accordance with the electrostatic charge pattern thereon, as is well understood in the art. Rolls 11-11 are development electrodes, and therefore they are preferably electrically conductive rolls, although they may each have an insulating surface coating, if desired. Each backing roll 12-12 in contact with the conductive back side of sheet 1 is likewise preferably a conductive roll. When the sheet 1 emerges from the development area, it passes through the squeeze rolls 13,13 for removal of excess developer solution.

Development electrode rolls 11-11 should be maintained out of contact with the image surface of sheet 1 for the reasons previously explained; and at the same time, to obtain the most effective action, these rolls should be positioned very close to the image surface of sheet 1, preferably with a spacing of only about 50 to about 500 microns. The embossing rolls 10,10 enable attainment of these results. The embossing rolls are configured to create a continuous raised embossment along the side edges of the sheet 1, i.e., the edges extending in the direction of travel of the sheet, in the marginal areas of the sheet outside the image area. The development rolls are thereby held this fixed distance away from the image surface on sheet 1. In this way, a desired close spacing of the development electrodes to the image surface of the sheet being processed can be had, with assurance that at each increment of travel of the sheet the development electrodes will be held out of contact with the image area of the sheet.

One form of embossing rolls 10, is shown in FIGS. 2 and 3. As shown in the exploded view of FIG. 2, roll 10 is formed with annular groove 22 adjacent one end of the roll and an annular groove 22 adjacent the opposite end, while the companion roll 10 has a corresponding pair of mating annular protuberances or ridges 23 and 23' adjacent the ends of that roll. As shown in the sectional view of FIG. 3, when a sheet 1 is fed between these two rolls, the two longitudinal marginal edges of the sheet are pressed between the ridges 23,23 and the mating annular grooves 22,22 to form the continuous ridges 20,20. The embossed ridges 20,20 thereafter function as spacers when the sheet 1 passes between the development electrode rolls ll-ll' and their respective backing rolls 12-12, causing the rolls ll-ll' to ride up with their floating axles to maintain a fixed spacing of the height of the embossedridges 20,20 from the image area between these two embossed ridges on the upper surface of sheet 1. Optimum results are obtained with embossed ridges 20,20 having a base dimension of between about 0.2-3 mm. and a height of between about microns and about 1.0 mm.

The cross sectional shape of the embossed ridges 20,20 shown in FIG. 3 is substantially triangular. Other shapes could be employed. such as trapezoidal, shown in embossed ridges 21,21 in FIG. 4, or the stepped embossment shown at 26,26 in FIG. 5.

As mentioned previously, it is important that the embossing cylinder 10 that is juxtaposed with the upwardly facing image surface of the sheet 1 not discharge the electrostatic latent image charge on the sheet 1. It was therefore previously suggested that this roll be made of electrically insulating material, or that it be covered with a layer of insulating material. Alternatively, the roll 10 may be formed with a concave cylindrical surface over the portion corresponding to the image area of sheet 1, as shown in FIG. 4, thereby avoiding contact between roll 10 and the image surface of sheet 1. A similar structure is suggested as an alternative by the dotted lines 29 in FIG. 5.

The embodiments heretofore described all provide continuous embossed ridges along the edges of sheet 1. Instead of continuous ridges, the embossments may be closely spaced intermittent protuberances, such as would be obtained by using the rolls l0 and 10 illustrated in FIG. 6, having spaced knob-like protuberances 31 and 31 on roll 10 designed to mate with the correspondingly spaced depressions 30 and 30 in roll 10.

Each of the foregoing embodiments provides for the embossment of upwardly directed spacers on sheet 1, so as to maintain the development electrode rolls 11-11' a desired distance from the image surface of sheet 1. As a further feature of the invention, this sheet embossing technique can be utilized likewise to space the back side of the sheet 1 from the backing roll 12-12'. This result can be obtained with the embossing rolls 10 and 10' configured, for example, as shown in FIG. 7. In this embodiment the ends of roll 10 are formed both with annular recesses 32 and 32' and with annular ridges 33 and 33'. Roll 10' is likewise provided at its ends with annular ridges 34 and 34', and with annular recesses 35 and 35, which are designed to mate with the opposed ridges and recesses in roll 10. A sheet I pressed between these rolls will be embossed with continuous upwardly and downwardly facing continuous ridges along its opposite side edges, thereby spacing both the image and back surfaces of the sheet from the electrode rolls 11-11 and their respective backing rolls 12-12. Spacing of the back surface of sheet 1 from the rolls 12-12' protects the back surface from being smudged with toner that may accumulate on the backing rolls.

Thus, it will be appreciated that the present invention provides a convenient and economical way to insure a fixed and close spacing between an electrostatic image and the electrode elements ofan electrophoretic developing system, while preventing the electrode elements from contacting the image areas. This objective is accomplished by embossing the edge portions of the electrostatic image carrier with surface projections which function as spacers to establish an appropriate spacing between the carrier and the electrode elements. It is apparent that various forms of embossments may be employed for the purposes of the present invention, and several illustrative forms have been shown. Other embossment forms, and other variations and modifications of the invention will become apparent to those skilled in the art. Accordingly, the present invention is not limited to the details of the foregoing specific embodiments, and such variations and modifications as are embraced by the spirit and scope of the appended claims are contemplated as being within the purview of the present invention.

trode contacting said embossments, whereby the electrode is spaced from the image surface by the height of said embossments.

2. A method as set forth in claim 1, further comprising embossing said carrier along its opposite side edges to form raised embossments that project from the back surface of the carrier, whereby a backing element for said electrode is also spaced from the back surface of said carrier by the height of the latter embossments.

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Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3862619 *Dec 10, 1973Jan 28, 1975Rank Xerox LtdElectro-photographic apparatus
US3870514 *Jun 18, 1973Mar 11, 1975Xerox CorpLiquid development for the electronic photography
US3893417 *Jan 17, 1974Jul 8, 1975Eastman Kodak CoApparatus for liquid development of electrostatic images
US3921580 *Jun 12, 1974Nov 25, 1975Varian AssociatesLiquid development of electrostatic images
US3970043 *Oct 7, 1974Jul 20, 1976Xerox CorporationElectrophotographic device for liquid development
US4021110 *Apr 30, 1975May 3, 1977Xerox CorporationPhotocopying camera and processing device
US4141317 *Oct 5, 1977Feb 27, 1979Honeywell Information Systems Inc.Multiple applicator roller toner station
US4264182 *May 10, 1979Apr 28, 1981Eastman Kodak CompanyElectrographic apparatus having improved development structure
US5313256 *Feb 10, 1993May 17, 1994Xerox CorporationElectrophotographic printer with associated embossing device
US5854960 *Apr 25, 1997Dec 29, 1998Indigo N.V.Squeegee roller for imaging systems
US5930578 *Apr 30, 1998Jul 27, 1999Xerox CorporationMoisturizing rolls with end grooves for eliminating water spill from their ends
U.S. Classification430/103, 430/118.3, 399/239
International ClassificationG03G15/10
Cooperative ClassificationG03G15/101
European ClassificationG03G15/10C