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Publication numberUS3457900 A
Publication typeGrant
Publication dateJul 29, 1969
Filing dateFeb 29, 1968
Priority dateFeb 29, 1968
Publication numberUS 3457900 A, US 3457900A, US-A-3457900, US3457900 A, US3457900A
InventorsDrexler Roger A
Original AssigneeEastman Kodak Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Single magnetic brush apparatus for development of electrostatic images
US 3457900 A
Abstract  available in
Images(1)
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Claims  available in
Description  (OCR text may contain errors)

July 29, 1969 R. A. DREXLER 3,457,900

SINGLE MAGNETIC BRUSH APPARATUS FOR DEVELOPMENT OF ELECTROSTATIC IMAGES Filed Feb. 29. 1968 as s as N

ROGER A. DREXLER INVENTOR.

ATTORNEYS United States Patent 3.457,9tltl SlNGLE MAGNETHC BRUSH APPARATUS FOR DEVELOPMENT OF ELECTROSTATIC HMAGES Roger A. Drexler, Rochester, N.Y., assignor to Eastman Kodak Company, Rochester, N.Y., a corporation of New Jersey Filed Feb. 29, 1968, Ser. No. 709,280 llnt. Cl. B051) /02; B036! 1/24 US. Cl. 118-637 3 Claims new,

AlBTRACT OF THE DISCLOSURE CROSS-REFERENCES TO RELATED APPLICATIONS Reference is made to commonly assigned cofiled US. patent application Ser. No. 709,281, entitled Method and Apparatus for Development of Electrostatic Images, in the names of Roger A. Drexler and Conrad Altmann.

BACKGROUND OF THE INVENTION This invention relates to electrostatic images (which term is meant to include all electrostatic charge patterns, regardless of method of formation) and, more specifically, to apparatus for developing electrostatic images carried on an insulating surface.

In electrography, it is common to form an electrostatic image on an insulating surface and to develop that image by applying toner particles thereto. The resulting toner image is then utilized. In the most common commercial applications, the toner is either transferred in image configuration to another surface and then fixed or is fixed to the insulating surface itself. In processes in which the toner is transferred from the insulating surface prior to fixing, the insulating surface generally is reused.

Triboelectric developing systems have been adaped to the general development of electrostatic images. In such systems, finely divided toner particles are held to the surface of much larger carrier particles by electrostatic charges created by triboelectrification, forming a mixture (herein called developer). When the developer is brought into contact with an electrostatic image, the attraction of the image for the triboelectrically charged toner overcomes the attraction of the carrier for the toner and the image is developed.

Among triboelectric developing systems, the most commonly used are cascade systems and magnetic brush systems. In cascade systems, gravity is used to roll developer across the image. Because cascade systems use gravity as their primary moving force, they are necessarily speed limited. In automatic machines, a cascade recirculation system generally requires substantial machine space.

In magnetic brush systems, the carrier particles are ferromagnetic in nature. These ferromagnetic carrier particles are held to an applicator surface, for example, a nonmagnetic cylinder, in bristle formation by magnetic attraction. With the proper use of applicator, one or more magnets and developer, the bristles can be brushed across a surface carrying an electrostatic image. The electrostatic attraction of the toner for the image overcomes the triboelectrically created attraction between toner and ferromagnetic particles and the image is developed. Areas of the image exerting less attractive force on the toner than is exerted by the carrier are cleaned of toner as they are brushed. This is commonly aided by application of an electrical bias to the carrier through the applicating surface of the brush. Magnetic brushes also have been designed to give either fringe or solid area development by adjusting the conductivity of the carrier. They can also be made to tone areas of less charge and clean areas of greater charge giving what is known in the art as a reverse development.

Commercial applications of magnetic brush development have been quite extensive. However, such applications generally have been concentrated in the area of development of electrostatic images formed on a non-reusable insulating surface, such as zinc oxide coated paper. That is, the toner image is fixed to the insulating surface carrying the electrostatic image rather than being transferred prior to fixing.

In applying magnetic brush development to systems in which the surface to be toned is to be reused after utilization of the toner pattern, certain problems are accentuated. For example, repeated rubbing by the fairly coarse bristles of the magnetic brush has a tendency both to scratch the insulating surface and to create a toner scum on it. These problems are particularly severe when the insulating surface is photoconductive, as in xerography, because of difficulties in proper image formation on a scratched or scummed photoconductive surface.

Additionally, a powder transfer process greately increases image degradation caused by carrier carryout. More specifically, small carrier particles are commonly picked up by the insulating surface in the toning operation and have the effect at toner transfer of holding a large area of the transfer surface away from the photosensitive surface thereby inhibiting powder transfer. This problem is much reduced if no transfer of toner is included in the process, as is the case when the powder is fixed to the toner surface.

In the co-filed application in the name of Drexler and Altmann, mentioned above, an apparatus for solving these problems is described in which developer is fed into a cavity adjoining the insulating surface at a faster rate than it is discharged therefrom creating a soft, gently tumbling development medium in contact with the insulating surface. Among structures contemplated for producing this soft, gently tumbling development medium, is a twomagnetic brush system in which one magnetic brush, performing the feed function, rotates faster than the other magnetic brush, performing the discharge function.

SUMMARY OF THE INVENTION According to the invention, the functions of feed and discharge in the apparatus of said Drexler and Altmann application are performed by a single magnetic brush having both a feed portion and a discharge portion.

if. 3,457,900; *3 I Irl'a' preferred" embodiment, the feed"portion has as- BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic cross-sectional viewof a magnetic brush assembly constructed according to the invention.

FIG. 2 is a schematic cross-sectional view'of an alternate arrangement of magnets for the apparatus of FIG. 1.

DESCRIPTION OF THE PREFERRED EMBODIMENT According to FIG. 1, an electrostatic image carried on an insulating surface 2 of a moving web 1 having a conductive backing 3 is to be developed or toned. The surface 2 is moved past a magnetic brush 63. The magnetic brush 63 can be adapted from a variety of designs known in the prior art. According to FIG. 1, a preferred design for this application includes a stationary core 66 of nonmagnetic material around portions of which are placed two magnetic pole pieces 64 and 67 which may be made of soft steel or other magnetic material. Mounted around the circumference of the pole pieces 64 and 67 are two series 61 and 62 of permanent magnets, for example, rubber bonded barium ferrite magnetic strips or poles. Concentric with the arrangement of these elements and on the outside thereof is a rotatable, preferably outside surface roughened, nonmagnetic roller 65. The brush is mounted in a trough 11 or other reservoir means for holding triboelectric developer. Developer in the trough 11 is agitated by a paddle Wheel 21. Toner can be periodically fed into the trough by any suitable toner dispensing mechanism, not shown.

According to FIG. 1, as the roller 65 is rotated in counterclockwise direction, developer is magnetically held to its outer surface and is moved by it. The first series 61 of magnets is located in a feed portion 68 of the brush 63. These magnets are strong enough to aid the roller 65 in moving substantial developer to a cavity 69 formed by the roller 65 and the insulating surface 2. The second series 62 is located in a discharge portion 70 of the brush. These magnets are weaker than those in the feed portion 68. There is, thus, a tendency to discharge less developer than is fed into the cavity 69, creating an accumulation of developer in the cavity until it falls off the ends or back through the feed portion into the trough. This accumulation takes the form of a rollback from the contact of the magnetic brush 63 with the insulating surface 2. If the insulating surface is moved in a direction opposite to that of the roller, the rollback gently tumbles giving excellent mixing and, therefore, excellent triboelectric charging of toner. In addition, it gives a soft toning medium less likely to scratch the insulating surface 2 and less likely to create a scum of toner on it than prior devices using the bristle part of a magnetic brush for toning.

Because the rollback of developer is not closely associated with the magnetic fields of the magnetic brush, there is a tendency toward carrier carryout. This tendency can be ignored in many applications, especially those in which the toner image is fixed to the insulating surface 2. However, for other applications, especially those in which the toner is transferred to another surface, it is advantageous to provide a carrier scavenging mechanism 30. This mechanism includes a strong magnet 31 positioned close to the insulating surface and a carrier receiving surface 32. As carrier carried by the insulating surface 2 comes into close proximity with magnet 31,

the firagaeraraaerr saarcarfierrarvarasarraee szwiiicn is rotating to carry it away, for example, back to the developer trough 11. 7

FIG. 2 shows a different magnet arrangement associated with the feed portion of the magneticbrush. Instead of magnetic'strips, horseshoe magrietsj 7 1are"used."

The invention has been dcscribedin detail with particular reference to preferred embodiments thereof,.,but it will be understood thatvariations and modifications can be effected within the spirit and scope of the'invention as described herinabove and as defined in-the appended claims.

I claim:

1. In a developing apparatus'for use in applying toner to a'moving insulating surface carrying an electrostatic image by contacting said surface with a developer comprising toner particles and ferromagnetic carrier particles, said apparatus including:

means defining a'cavity adjacent to said'in'sulating surface, developer feed means for feeding cavity ata first rate, developer discharge means for discharging dveloper from said cavity at a second rate, and said first and second rates being so chosen to cause a substantial accumulation of developer in said-cav ity in contact with said insulating surface, the improvement wherein said developer feed means and said developer discharge means comprises a single magnetic brushhaving: a feed portion and a discharge portion, each portion being at least partially adjacent said cavity, and

magnetic flux producing means arranged so that the flux produced thereby is stronger in said feed portion than in said discharge portion.

2. In a developing apparatus for use in applying toner to a moving insulating surface carrying an electrostatic developer into said image by contacting said surface with a developer cornprising toner particles and ferromagnetic carrier particles, said apparatus including:

reservoir means for holding said developer, means defining a cavity adjacent said insulating surface, developer feed means for feeding developer from said reservoir means into said cavity at a first rate, developer discharge means for discharging developer from said cavity at a second rate, said first and second rates being so chosen to cause a substantial accumulation of developer in said cavity in'contact with said insulatingsurface', the improvement wherein said developer feed 'means and said developer discharge means comprise a 'single magnetic brush having: i a nonmagnetic, cylindrical applicator-surface forming at least a portion of said cavity defining means, said applicator surface being rotatable through a path having a feed portion extending from'said reservoir into said cavity and a discharge portion extending from said feed portion out of said cavity, and magneticflux producing means arranged so that'the flux produced thereby is stronger in said feed por- -tion than in: said discharge portion whereby, in operation, a substantial accumulation of gently tumbling developer is created in said cavity. 3. A developing apparatus for use in applying toner to a moving'insulating surface carrying an electrostatic image by contacting said surface with a developer comprising toner particles and ferromagnetic carrier particles, said apparatus including: p a i reservoir means for holding said developer, a magnetic brush having:

" a nonmagnetic, cylindrical"applicator surface rotatable through a path from said r'eservoir means into close proximity with saidin'sulating surface in a direction opposite to movement of said insulating surface, said path including a feed portion extending from said reservoir a portion of the distance to said position of close proximity and a discharge portion extending from said feed portion past said position of close proximity,

series of permanent magnets located inside said applicator surface and in close proximity to said feed portion and said discharge portion of said path, said magnets in close proximity to said feed portion being substantially stronger than said magnets in close proximity to said discharge portion, whereby, in operation, a substantial accumulation of developer is created in front of said position of close proximity between said insulating surface and said applicator surface.

References Cited UNITED STATES PATENTS 2,892,446 6/1959 Olden 1l7l75 XR 2,975,758 3/1961 Bird 1l8637 3,040,704 6/1962 Bliss 118-637 3,346,113 10/1967 Lundmark 209232 XR FOREIGN PATENTS 1,051,752 3/1959 Germany.

Primary Examiner US. Cl. X.R.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2892446 *Oct 30, 1956Jun 30, 1959Rca CorpApparatus for developing electrostatic image
US2975758 *Mar 13, 1958Mar 21, 1961Haloid Xerox IncApparatus for developing electrostatic images
US3040704 *Apr 16, 1957Jun 26, 1962Rca CorpApparatus for developing electrostatic printing
US3346113 *Jan 10, 1966Oct 10, 1967Sala Maskingfabriks AbDevice for recovering feebly magnetic material in wet separators
DE1051752B *May 27, 1957Mar 5, 1959Gerd Rayhrer Dr IngMagnetischer Ausscheider von Eisenteilen aus einem Gutstrom
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3575139 *Jun 4, 1969Apr 20, 1971Xerox CorpElectrostatic magnetic developer unit gating apparatus
US3584601 *Oct 28, 1968Jun 15, 1971Xerox CorpMagnetic brush belt development
US3626898 *Feb 6, 1970Dec 14, 1971Addressograph MultigraphHigh-speed magnetic brush developer apparatus
US3640248 *Jun 4, 1969Feb 8, 1972Xerox CorpElectrostatic magnetic developing apparatus
US3641977 *Feb 27, 1970Feb 15, 1972Xerox CorpApparatus for agitating developer material within a housing
US3641980 *Oct 20, 1969Feb 15, 1972Xerox CorpDevelopment apparatus
US3643629 *Oct 20, 1969Feb 22, 1972Minnesota Mining & MfgMagnetic powder applicator
US3654902 *Nov 28, 1969Apr 11, 1972Plastic Coating CorpToner unit for photoelectrostatic reproduction
US3685486 *Oct 20, 1969Aug 22, 1972Xerox CorpFluidized development apparatus
US3739749 *Jun 4, 1971Jun 19, 1973Minnesota Mining & MfgMagnetic powder applicator
US3754526 *Dec 17, 1971Aug 28, 1973IbmElectrophotographic development apparatus
US3783828 *Jul 3, 1972Jan 8, 1974Zellweger Uster AgApparatus for developing latent electrostatic charge images
US3828730 *May 16, 1972Aug 13, 1974Hitachi Metals LtdElectrostatic record developing apparatus
US3839992 *Feb 11, 1972Oct 8, 1974Ricoh KkDiazo type photosensitive sheet developing device
US3849161 *Aug 13, 1973Nov 19, 1974Minnesota Mining & MfgMagnetic toner powder applicator
US3863603 *Jan 7, 1974Feb 4, 1975IbmMagnetic brush roll having resilient polymeric surface
US3897749 *Feb 5, 1973Aug 5, 1975Identicator CorpDry powder fingerprinting apparatus
US3939801 *Aug 23, 1974Feb 24, 1976Minolta Camera Kabushiki KaishaMagnetic brush developing apparatus
US3977361 *May 13, 1975Aug 31, 1976Fuji Xerox Co., Ltd.Magnetic brush developing device
US3985099 *May 13, 1975Oct 12, 1976Fuji Xerox Co., Ltd.Magnetic brush developing device
US3993022 *Aug 1, 1975Nov 23, 1976Addressograph Multigraph CorporationApparatus for removing ferrous particulate matter from copy paper in an electrostatic copier
US4350440 *Jul 9, 1980Sep 21, 1982Canon Kabushiki KaishaDeveloping apparatus
US4833504 *Aug 31, 1987May 23, 1989Xerox CorporationSingle pass highlight color printer including a scavengeless developer housing
US4847655 *Dec 11, 1987Jul 11, 1989Xerox CorporationHighlight color imaging apparatus
US4868600 *Mar 21, 1988Sep 19, 1989Xerox CorporationScavengeless development apparatus for use in highlight color imaging
US4868608 *Jan 4, 1988Sep 19, 1989Xerox CorporationHighlight color imaging apparatus
US4868611 *Dec 10, 1987Sep 19, 1989Xerox CorporationHighlight color imaging with first image neutralization using a scorotron
US4879194 *May 2, 1988Nov 7, 1989Xerox CorporationTri-level, highlight color imaging using ionography
US4994863 *Dec 18, 1989Feb 19, 1991Eastman Kodak CompanyElectrostatic scavenger having magnetic drive disk
US5010367 *Dec 11, 1989Apr 23, 1991Xerox CorporationDual AC development system for controlling the spacing of a toner cloud
US5031570 *Oct 20, 1989Jul 16, 1991Xerox CorporationPrinting apparatus and toner/developer delivery system therefor
US5047807 *Oct 15, 1990Sep 10, 1991Eastman Kodak CompanyDevelopment apparatus having a plate scavenging device
US5144371 *Aug 2, 1991Sep 1, 1992Xerox CorporationDual AC/dual frequency scavengeless development
US5276488 *Aug 31, 1992Jan 4, 1994Xerox CorporationDonor belt and electrode structure supported behind the belt for developing electrostatic images with toner
US5339142 *Jul 30, 1992Aug 16, 1994Xerox CorporationAC/DC spatially programmable donor roll for xerographic development
US5410395 *Dec 2, 1993Apr 25, 1995Xerox CorporationMeans for controlling trilevel inter housing scorotron charging level
US5504563 *Apr 6, 1995Apr 2, 1996Xerox CorporationScavengeless donor roll development
US5515147 *Oct 28, 1994May 7, 1996Eastman Kodak CompanyMechanism for substantially preventing trail edge smear of an image on a receiver member
US5539506 *Oct 31, 1994Jul 23, 1996Xerox CorporationEdge raggedness and background removal by post development member
DE2204709A1 *Feb 1, 1972Aug 9, 1973Rank Xerox LtdTower/tower carrier - for developing latent electrostatic image
DE2810520A1 *Mar 10, 1978Sep 14, 1978Tokyo Shibaura Electric CoEntwicklervorrichtung fuer ein elektrokopiergeraet
Classifications
U.S. Classification399/277, 399/264, 209/223.1
International ClassificationG03G15/09
Cooperative ClassificationG03G15/0921
European ClassificationG03G15/09E