Electrostatic neutral ink printer

US 4,138,686 A
Filed: 04/06/1977
Issued: 02/06/1979
Est. Priority Date: 04/06/1977
Status: Expired due to Term

First Claim

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1. An ink printer which comprises a structure which produces a number of ink streams, which streams eventually break into separate droplets of ink,the ink of said ink streams contacting a surface of a first solid, upon which the ink from said ink streams is in droplet form during some interval,which said printer causes a first set of selected ink droplets to each maintain motion on a trajectory on which the droplet continually touches said surface of said first solid until beyond a region in which the ink droplet would normally fly permanently off the surface of said first solid due to forces such as inertial forces and air pressure forces overcoming other forces such as adhesion and possibly air pressure forces,each said trajectory on which each selected droplet continually touches the surface of said first solid until beyond said region being maintained as a result of sufficient voltages being applied on geometrical surfaces at a small depth interior from and parallel to selected portions of the surface of said first solid, said motion on any such said trajectory being caused in part by the addition of sufficiently large electrostatic forces being caused by said sufficient voltages, said electrostatic forces acting almost exclusively at contacting surfaces of each selected ink droplet and of individual ones of said selected portions of the surface of said first solid,and which printer causes the remaining ink droplets selectively less affected by electrostatic fields to fly permanently off the surface of said first solid in said region in which the ink droplets would normally fly permanently off the surface due to forces such as inertial forces and air pressure forces overcoming other forces acting toward said first solid such as adhesion and possibly air pressure,said surface of said first solid containing a number of portions of the surface, each of said number of portions of the surface having an associated geometrical surface at some small depth interior to the portion and parallel to that portion, and each said associated geometrical surface being controllable to exist in any of at least two voltage states at any future instant, assuming that appropriate control signals are given during any interval shortly preceding and including that instant.

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Abstract

An electronically-controlled ink stream printer is disclosed which selects the ink used to produce an image by the controllable presence or absence of electrostatic forces acting mainly between portions of ink surface and portions of a solid surface. If the ink is electrically conducting then parts of the ink surface act as capacitor plates with parts of the solid surface forming complimentary plates. If the ink is a dielectric then parts of the ink surface develop a charge proportional to that induced on the contiguous solid surface. Various portions of the solid surface can have voltages applied independently.

The solid surfaces may resemble rotating drums, flat surfaces, or curved surfaces. Droplet paths are affected by an interplay between controllable electrical forces and uncontrollable but predictable forces such as inertia, adhesion, air pressure, surface pressure, and aerodynamics. The path of a droplet determines whether it will become part of an output image. Various embodiments are described using one drum, two drums, a stationary surface, and a drum and a stationary surface.

Also described are a means to prevent ink solids from precipitating and clogging any ink printer and a means to deflect the impact points of streams of selected droplets by discrete distances perpendicular to motion of the output means. This deflection of impact points can simulate a closer spacing between multiple ink jets.

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34 Claims

1. An ink printer which comprises a structure which produces a number of ink streams, which streams eventually break into separate droplets of ink,the ink of said ink streams contacting a surface of a first solid, upon which the ink from said ink streams is in droplet form during some interval,which said printer causes a first set of selected ink droplets to each maintain motion on a trajectory on which the droplet continually touches said surface of said first solid until beyond a region in which the ink droplet would normally fly permanently off the surface of said first solid due to forces such as inertial forces and air pressure forces overcoming other forces such as adhesion and possibly air pressure forces,each said trajectory on which each selected droplet continually touches the surface of said first solid until beyond said region being maintained as a result of sufficient voltages being applied on geometrical surfaces at a small depth interior from and parallel to selected portions of the surface of said first solid, said motion on any such said trajectory being caused in part by the addition of sufficiently large electrostatic forces being caused by said sufficient voltages, said electrostatic forces acting almost exclusively at contacting surfaces of each selected ink droplet and of individual ones of said selected portions of the surface of said first solid,and which printer causes the remaining ink droplets selectively less affected by electrostatic fields to fly permanently off the surface of said first solid in said region in which the ink droplets would normally fly permanently off the surface due to forces such as inertial forces and air pressure forces overcoming other forces acting toward said first solid such as adhesion and possibly air pressure,said surface of said first solid containing a number of portions of the surface, each of said number of portions of the surface having an associated geometrical surface at some small depth interior to the portion and parallel to that portion, and each said associated geometrical surface being controllable to exist in any of at least two voltage states at any future instant, assuming that appropriate control signals are given during any interval shortly preceding and including that instant.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. The ink printer of claim 1 wherein the said surface of said first solid is penetrated by holes.
  - 3. The ink printer of claim 1 wherein the said first solid is a series of wires held together by a common base.
  - 4. The ink printer of claim 1 wherein air pressure is used to lift ink from the surface of said first solid at some point beyond the said region in which the ink would normally permanently fly off.
  - 5. The ink printer of claim 1 contains a means which protects ink contacting surfaces normally exposed to air from ink evaporation and accompanying solid precipitation onto said surfaces, by passing a stream of air substantially saturated with ink base substance, for example water, over said surfaces.
  - 6. The ink printer of claim 1 wherein said surface of said first solid is stationary and flat except for minor undulations and has substantially parallel insulated conducting strips thereon, which strips may have separate controlled voltages impressed on them, and wherein air exit slits are located between certain pairs of conducting strips to remove ink not held electrostatically to the strips.
  - 7. The ink printer of claim 1 wherein said sufficient voltages whenever being particularly applied to affect the trajectory of any particular droplet contain simultaneously at least one voltage higher than the average voltage of said particular droplet and at least one voltage lower than the average voltage of said particular droplet, said average being a volume average over the volume of the droplet.
  - 8. The ink printer of claim 1 wherein the said surface of said first solid is in motion.
  - 9. The ink printer of claim 8 wherein said surface of said first solid is substantially a circular cylinder when averaged over surface irregularities.
  - 10. The ink printer of claim 8 wherein said first solid is composed of a series of washers put together like stacked phonograph records, with centers along a common straight line, and wherein at least some of the washers each have many separate areas which can be separately charged and discharged and retain electric charge during the intervals between charging and discharging.
  - 11. The ink printer of claim 8 wherein air pressure is used to lift ink from said surface of said first solid when the ink is beyond said region in which the ink would normally permanently fly off the surface.
  - 12. The ink printer of claim 8 wherein the velocity of the surface of said first solid is approximately equal to the velocity of the ink at the first point of contact between the two.
  - 13. The ink printer of claim 12 wherein the ink hits the moving surface in the form of at least one stream at least some of which separates into droplets on the surface of the said first solid, because of non-uniform environment, for example irregularities in surface terrain and irregularities in surface voltage.
  - 14. The ink printer of claim 1 wherein the said surface of said first solid is stationary and has at least one curved section resembling the curved surface of a pie-shaped wedge taken out of a circular cylinder, except for possible minor holes and undulations, which curved section can have separate voltages impressed barely beneath the surface thereof along selected curved conducting strips.
  - 15. The ink printer of claim 14 wherein said curved conducting strips are located side by side and oriented so that the plane containing the center line of any selected curved strip is substantially perpendicular to the axis of said circular cylinder of which said curved section resembles a partial surface.
  - 16. The ink printer of claim 14 wherein said curved conducting strips are arranged in at least two successive side by side groupings such that the plane containing the center line of any selected strip is substantially perpendicular to the axis of said circular cylinder, and so that each successive side by side grouping is further around on the curved surface. pg,37
  - 17. The ink printer of claim 14 wherein any globule of ink while moving along said curved strips touches simultaneously the surfaces above more than one curved strip except at the ends of strips.
  - 18. The ink printer of claim 14 wherein the said curved strips are shaped in their smallest cross-section to stabilize the path of any ink droplet traveling along a planned path in which the droplet continuously touches part of the surface above at least one particular strip, said planned path being in a plane parallel to the plane containing the center line of the strip above which it is continuously touching.
  - 19. The ink printer of claim 18 wherein a number of ink streams at least partially formed into strings of droplets are projected toward the solid surface and each droplet is then stabilized in advance by surface irregularities to meet said curved strips with a stable position and velocity combination for possible further travel touching continuously the surfaces above one pair of electrifiable strips.

20. An ink printer which comprises a structure which produces a number of ink streams, which streams eventually break into separate ink droplets,said ink printer further comprising a first and second ink guiding surface, said surfaces guiding ink during contact with the ink, said first and second surfaces being mutually exclusive, anda transfer region being the only region under normal operation in which ink may selectively transfer between the surfaces,said ink printer causing a first set of selected ink droplets to maintain motion touching said first ink guiding surface beyond said transfer region in which the selected ink droplets could have transferred between the firt ink guiding surface and said second ink guiding surface if they had been selected contrariwise to do so, such maintaining of motion touching said first surface being due to the actions of forces such as for example inertial forces, electrostatic forces, aerodynamic forces, surface adhesion forces, and others,said printer causing the remainder of the ink droplets to maintain contact with the second ink guiding surface beyond said transfer region as a result of forces such as for example inertial, electrostatic, aerodynamic, surface adhesion, and others,said printer having a number of selected portions of surface, said portions of surface being portions of at least one of said first ink guiding surface and said second ink guiding surface, each one of said portions of surface having an associated geometrical surface at some small depth interior to the portion, and each said geometrical surface being controllable to exist at any of at least two voltages at any instant during normal operation after warm up, by giving appropriate control signals during an interval shortly preceding and including that instant,the determining over a period of time of voltages, one associated with each of said selected portions, in turn determining which ink will remain on the first surface and which ink will remain on the second surface beyond the transfer region, the voltage associated with any selected portion of surface acting through electrostatic forces, which in turn act predominantly at the contacting surface between the ink droplets and the selected portion of surface, whenever voltage differs between the associated geometrical surface and the contacting ink.
- View Dependent Claims (21, 22, 23, 24)
- - 21. The ink printer of claim 20 wherein at least one of the ink guiding surfaces rotates continuously during operation.
  - 22. The ink printer of claim 20 which contains a means which protects ink contacting surfaces normally exposed to air from ink evaporation and accompanying solid precipitation onto said ink contacting surfaces, by passing a stream of air substantially saturated with ink base substance, for example water, over said surfaces.
  - 23. The ink printer of claim 20 wherein air pressure is used to lift ink from one of the ink guiding surfaces when the ink is beyond said transfer region.
  - 24. The ink printer of claim 20 wherein said voltages of said geometrical surfaces each associated with one of said number selected portions of surface act in groups with respect to particular droplets at any given instant, a given group of voltages being applied at a given instant to affect which said ink guiding surface a particular droplet will contact after leaving said transfer region, said given group at any instant containing at least one voltage higher at the given instant than the average voltage of said particular droplet and at least one voltage lower at the given instant than the average of said particular droplet at the given instant, said average being a volume average over the volume of the droplet.

25. An ink printer which comprises a structure which produces a number of ink streams, which streams eventually break into separate droplets of ink, the ink of said ink streams contacting a surface of a first solid upon which the ink from said ink streams is in droplet form during some interval,which said printer causes a first set of selected ink droplets to maintain motion touching continually the surface of the first solid, said motion touching continually the surface of said first solid being maintained for the selected droplets until beyond an air pressure interacting region, as a result of sufficient voltages being selectively applied on associated geometrical surfaces at a small depth interior from and parallel to selected portions of the surface of said first solid, said first set of selected ink droplets being forced to maintain contact with the surface by a combination of sufficiently large electrostatic forces and other forces, said electrostatic forces acting almost exclusively at contacting surfaces of said selected ink droplets and said selected portions of the surface of said first solid,and which printer causes the remaining ink droplets to leave permanently the surface of said first solid in the air pressure interacting region, due to forces selectively unopposed by sufficient voltages and resulting electrostatic forces,said surface of said first solid containing a number of portions of the surface, each one of said portions of surface having an associated geometrical surface as some small depth interior to the portion, and each said geometrical surface being controllable to exist in any of at least two voltage states at any instant, assuming that appropriate signals are given during an interval shortly preceding and including that instant.
- View Dependent Claims (26, 27, 28, 29)
- - 26. The ink printer of claim 25 wherein the forces due to air in said air pressure interacting region tend to remove ink from the surface of said at least one solid.
  - 27. The ink printer of claim 25 wherein the forces due to air in said air pressure interacting region tend to preserve contact between the ink and the surface of said at least one solid.
  - 28. The ink printer of claim 25 which contains at least one means which protects ink contacting surfaces normally exposed to air from ink evaporation and accompanying solid precipitation onto said ink contacting surfaces, by passing a stream of air substantially saturated with ink base substance, for example water, over said surfaces.
  - 29. The ink printer of claim 25 wherein said sufficient voltages whenever being particularly applied to affect the trajectory of any particular droplet contain simultaneously at least one voltage higher than the average voltage of said particular droplet and at least one voltage lower than the average voltage of said particular droplet, said average being a volume average over the volume of the droplet.

30. A printer which comprises a structure which produces a number of ink streams, which streams eventually break into separate droplets of ink,the ink of said ink streams contacting a surface of at least one solid, said surface of at least one solid containing a number of portions of the surface, each one of said number or portions of the surface having an associated geometrical surface at some small depth interior to and parallel to the portion, and each said associated geometrical surface being controllable to exist at any of at least two voltages at any instant during normal operation, assuming that appropriate control signals are given during an interval shortly preceding and including that instant,the voltages associated with said number of selected portions of said surface causing selectively altered motion of said droplets of ink through the action of electrostatic forces acting predominantly at contacting surfaces between the droplets of ink and the said number of portions of said surface and acting whenever voltage differs between a given droplet of ink and the associated geometrical surface of a contacting given portion belonging to said number of portions of said surface,said selectively altered motion causing a certain desired portion of the ink to form a pattern on an output surface, said pattern being determined by the pattern of controlled voltage states associated with said number of selected portions of the said surface of at least one solid over a period of time.
- View Dependent Claims (31, 32, 33)
- - 31. The printer of claim 30 wherein said voltages whenever being particularly applied to selectively alter motion of any particular droplet contain simultaneously at least one voltage higher than the average voltage of said particular droplet and at least one voltage lower than the average voltage of said particular droplet, said average being a volume average over the volume of the droplet.
  - 32. The ink printer of claim 30 wherein all the ink leaves said surface of at least one solid substantially at the same boundary but with a spread of velocities.
  - 33. The ink printer of claim 32 further having a number of features taken from the group containing conducting strips, a curved ink guiding surface, a flat ink guiding surface, a rotating ink guiding surface, more than one ink guiding surface, air pressure interacting with ink motion, and means to counteract ink solid precipitation.

34. A printer which comprises a structure which produces a number of ink streams, which streams eventually break into separate droplets of ink,some of said droplets being selected to form a pattern on a given output surface and the rest of said droplets never reaching the given output surface,each droplet contacting at least one surface of said printer at a location at which an electrostatic force acting predominantly at the contacting surface of the droplet can be selectively controllably applied to the droplet,the determination of whether or not a given droplet will ever reach said given output surface being made by the pattern of strong application versus not strong application of electrostatic forces which when applied act predominantly only at surfaces of contact between said given droplet and selected portions of surface of said printer,and wherein said electrostatic forces, acting predominantly only at surfaces of contact between selected droplets and selected portions of surface, are caused by voltages applied on associated geometrical surfaces located at some small depth interior from and parallel to said selected portions of surface, each voltage never acting alone but acting in a group whenever acting on a particular droplet, such that each group acting simultaneously on a particular droplet contains at least one voltage higher and at least one voltage lower than the average voltage of the particular droplet, said average being a volume average over the volume of the droplet.

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Current Assignee
Ronald E. Graf
Original Assignee
Ronald E. Graf
Inventors
Graf, Ronald E.
Primary Examiner(s)
Miller, Jr., George H.

Application Number

US05/785,083
Time in Patent Office

671 Days
Field of Search

346/75
US Class Current

347/74
CPC Class Codes

B41J 2/03   by pressure

B41J 2/18   Ink recirculation systems

B82Y 15/00   Nanotechnology for interact...

Electrostatic neutral ink printer

First Claim

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Abstract

20 Citations

34 Claims

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Electrostatic neutral ink printer

First Claim

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Accused Products

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Abstract

20 Citations

34 Claims

Specification

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Solutions

Use Cases

Quick Links