Printing of optical elements by electrography

US 7,831,178 B2
Filed: 07/13/2007
Issued: 11/09/2010
Est. Priority Date: 07/13/2007
Status: Expired due to Fees

First Claim

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1. A method for electrographic printing of one or more optical elements upon a receiver, said printing comprising the steps of:

a. depositing a first layer of toner, having first predetermined sized marking particles to form a first layer of a multi-dimensional shape;

b. depositing a second layer of toner, having second, predetermined sized marking particles of a larger size than the first predetermined sized marking particles to form a second layer of a multi-dimensional shape, relative to the first layer of the multi-dimensional shape; and

c. repeating steps a and b as required to form a pattern of the first predetermined sized marking particles and second predetermined sized marking particles having a packing of marking particles controlled to yield, after fusing, a final optical element having a desired multi-dimensional shape through which light can pass to and from the receiver, wherein the light that passes through the optical element is directed according to the multi-dimensional shape of the optical element and an index of refraction of the fused marking particles.

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Abstract

Electrographic printing of one or more optical elements having a particular profile by electrographic techniques. Such electrographic printing comprises the steps of forming a desired print image, electrographically, on a receiver member utilizing predetermined sized marking particles; and, where desired, forming one or more final optical elements utilizing marking particles of a predetermined size or size distribution.

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22 Claims

1. A method for electrographic printing of one or more optical elements upon a receiver, said printing comprising the steps of:
- a. depositing a first layer of toner, having first predetermined sized marking particles to form a first layer of a multi-dimensional shape;
  
  b. depositing a second layer of toner, having second, predetermined sized marking particles of a larger size than the first predetermined sized marking particles to form a second layer of a multi-dimensional shape, relative to the first layer of the multi-dimensional shape; and
  
  c. repeating steps a and b as required to form a pattern of the first predetermined sized marking particles and second predetermined sized marking particles having a packing of marking particles controlled to yield, after fusing, a final optical element having a desired multi-dimensional shape through which light can pass to and from the receiver, wherein the light that passes through the optical element is directed according to the multi-dimensional shape of the optical element and an index of refraction of the fused marking particles.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. Electrographic printing according to claim 1 further registering the first layer multi-dimensional shape relative to the second layer(s) to form an optical element in relation to a registration pattern.
  - 3. Electrographic printing according to claim 1 wherein the predetermined sized marking particles have a particular size distribution of marking particles.
  - 4. Electrographic printing according to claim 3 wherein the particular size distribution of marking particles comprises a volume average diameter greater then 5 microns.
  - 5. Electrographic printing according to claim 1 wherein the particle properties comprise one or more of the following:
    - permanence, clarity, color, form, surface roughness, smoothness, or refractive index.
  - 6. Electrographic printing according to claim 1 wherein the particular size distribution of marking particles comprises a volume average diameter of 6-12 microns for the first layer and a volume average diameter of 12-30 microns for the second layer.
  - 7. Electrographic printing according to claim 1 wherein the particular size distribution of marking particles comprises a first volume average diameter is as small as obtainable on that printer for the first layer and a volume average diameter larger then the first volume average diameter for the second layer shape to give the final optical element.
  - 8. Electrographic printing according to claim 1 wherein predetermined sized marking particles have a volume average diameter of 12-30 μ
    - m.
  - 9. Electrographic printing according to claim 1 wherein the final optical element comprises a total marking particle stack height of at least 20 μ
    - m.
  - 10. Electrographic printing according to claim 1 further comprising an intermediate layer between the first and second layer of toner.
  - 11. Electrographic printing according to claim 1 wherein the final optical element comprises a periodic pattern.
  - 12. Electrographic printing according to claim 1 wherein the final optical element comprises one of an elliptical or circular nature having a predetermined index of refraction.
  - 13. Electrographic printing according to claim 1 further comprising treating the final optical element to give the final optical element additional properties.

14. An electrostatographic printing apparatus for forming a toner image upon a receiver, the apparatus comprising:
- a. an imaging member;
  
  b. a development station for depositing two or more layers of toner using each having a different predetermined sized marking particles to form an optical element;
  
  c. a fuser for fusing the layers of toner;
  
  d. a registration device for registering the first layer multi-dimensional shape to the second layer multi-dimensional shape;
  
  e. a controller for controlling the application of each layer to form a pattern of the first predetermined sized marking particles and a second predetermined sized marking particles having a packing of particles controlled to yield, after fusing an optical element having a desired multidimensional shape; and
  
  f. a treatment device for treating the final optical element to give the final optical element additional properties;
  
  wherein the light that passes through the optical element is directed according to the multi-dimensional shape of the optical element, an index of refraction of the fused marking particles and the treatment applied to the optical element.
- View Dependent Claims (15, 16, 17)
- - 15. The apparatus of claim 14, wherein the predetermined sized marking particles comprises a particular size distribution of marking particles.
  - 16. The apparatus of claim 14, wherein the final optical element comprises specific height, profile including radius of curvature, refractive index.
  - 17. The apparatus of claim 14, wherein the predetermined particle properties comprise one or more of the following:
    - toner viscosity, color, density, surface tension, glass transition temperature (Tg) or melting point.

18. A print on a receiver member, said comprising:
- marking particle coverage on said receiver providing a desired print image, and clear marking particle coverage, in areas of said receiver member where an optical effect is desired, an optical element through which light can pass is formed from clear marking particles fused to the receiver member, wherein the light that passes through the optical element is directed according to the multi-dimensional shape of the optical element and wherein the optical element has a stack height of at least 20 μ
  
  m.
- View Dependent Claims (19, 20, 21)
- - 19. The print on the receiver member according to claim 18 wherein the final optical element is in the foreground of such print and represents at least a part of the printed image.
  - 20. The print on the receiver member according to claim 18 wherein the final optical element is in the background of such print and represents a surface characteristic for the receiver member.
  - 21. The print on the receiver member according to claim 18 wherein the final optical element is in the foreground and background of such print.

22. A method for electrographic printing upon a receiver, said printing comprising the steps of:
- a. depositing a first toner forming a first layer multi-dimensional shape, relative to a registration pattern reference, using predetermined sized clear marking particles having a size greater than 20 microns;
  
  b. depositing a second toner forming a second layer multi-dimensional shape, relative to the registration patterns, using predetermined sized clear marking particles having a size less than 20 microns and having predetermined particle properties; and
  
  c. registering the first layer multi-dimensional shape relative to the second layer multi-dimensional;
  
  d. performing steps a, b, and c as required to form a pattern of the first toner and the second toner having a packing of marking particles arranged so that after fusing, a final optical element having a desired multi-dimensional shape is formed through which light can pass wherein the light that passes is directed relative to the registration pattern according to the desired multi-dimensional shape of the optical element and an index of refraction of the fused clear marking particles.

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Current Assignee
Eastman Kodak Company
Original Assignee
Eastman Kodak Company
Inventors
Tombs, Thomas N., Priebe, Alan R.
Primary Examiner(s)
NGO, HOANG X

Application Number

US11/777,360
Publication Number

US 20090016757A1
Time in Patent Office

1,215 Days
Field of Search

399/231, 399/298, 399/299, 399/301, 399/303
US Class Current

399/231
CPC Class Codes

G02B 3/0012   characterised by the manufa...

G03G 15/0435   by introducing an optical e...

G03G 15/221   Machines other than electro...

G03G 15/321   by charge transfer onto the...

Printing of optical elements by electrography

First Claim

10 Assignments

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Abstract

Citations

22 Claims

Specification

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Printing of optical elements by electrography

First Claim

10 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

22 Claims

Specification

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Solutions

Use Cases

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