Variable spacer dots for touch screen

US 20060102462A1
Filed: 11/12/2004
Published: 05/18/2006
Est. Priority Date: 11/12/2004
Status: Active Grant

First Claim

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1. A touch screen comprising:

a) a substrate;

b) a first conductive layer located on the substrate;

c) a flexible sheet comprising a substantially planar surface and integral compressible spacer dots formed thereon, each integral compressible spacer dot having a base closest to the substantially planar surface and a peak furthest from the substantially planar surface; and

d) a second conductive layer located on the substantially planar surface of the flexible sheet, the peaks of the integral compressible spacer dots extending beyond the second conductive layer located on the substantially planar surface;

wherein the first and second conductive layers are positioned towards each other and separated by the integral compressible spacer dots, whereby, when a minimum required activation force is applied to the touch screen at the location of one of the compressible spacer dots,;

the compressible spacer dot is compressed to allow electrical contact between the first and second conductive layers, and further wherein the integral compressible spacer dots are sized and positioned in a pattern that establishes at least one of differentiated minimum required activation forces and differentiated durability for selected areas of the touch screen.

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Abstract

A touch screen comprising: a) a substrate; b) a first conductive layer located on the substrate; c) a flexible sheet comprising a substantially planar surface and integral compressible spacer dots formed thereon, each integral compressible spacer dot having a base closest to the substantially planar surface and a peak furthest from the substantially planar surface; and d) a second conductive layer located on the substantially planar surface of the flexible sheet, the peaks of the integral compressible spacer dots extending beyond the second conductive layer located on the substantially planar surface; wherein the first and second conductive layers are positioned towards each other and separated by the integral compressible spacer dots. The integral compressible spacer dots are sized and positioned in a pattern that establishes at least one of differentiated minimum required activation forces and differentiated durability for selected areas of the touch screen.

Citations

40 Claims

1. A touch screen comprising:
- a) a substrate;
  
  b) a first conductive layer located on the substrate;
  
  c) a flexible sheet comprising a substantially planar surface and integral compressible spacer dots formed thereon, each integral compressible spacer dot having a base closest to the substantially planar surface and a peak furthest from the substantially planar surface; and
  
  d) a second conductive layer located on the substantially planar surface of the flexible sheet, the peaks of the integral compressible spacer dots extending beyond the second conductive layer located on the substantially planar surface;
  
  wherein the first and second conductive layers are positioned towards each other and separated by the integral compressible spacer dots, whereby, when a minimum required activation force is applied to the touch screen at the location of one of the compressible spacer dots,;
  
  the compressible spacer dot is compressed to allow electrical contact between the first and second conductive layers, and further wherein the integral compressible spacer dots are sized and positioned in a pattern that establishes at least one of differentiated minimum required activation forces and differentiated durability for selected areas of the touch screen.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36)
- - 2. The touch screen of claim 1, wherein the integral compressible spacer dots are sized and positioned in a pattern that establishes differentiated minimum required activation forces for selected areas of the touch screen.
  - 3. The touch screen of claim 1, wherein the integral compressible spacer dots are sized and positioned in a pattern that establishes differentiated durability for selected areas of the touch screen.
  - 4. The touch screen of claim. 1, wherein the integral compressible spacer dots are sized and positioned in a pattern that establishes differentiated minimum required activation forces and differentiated durability for selected areas of the touch screen.
  - 5. The touch screen of claim 1, further wherein the integral compressible spacer dots are sized and positioned in a pattern that establishes differentiated accuracy for selected areas of the touch screen.
  - 6. The touch screen of claim 1, wherein the spacer dots have variable heights between 2 and 50 micrometers.
  - 7. The touch screen of claim 1, wherein the spacer dots have a variable spacing of between 0.25 and 25 millimeters.
  - 8. The touch screen of claim 1 wherein the spacer dots provide elastic deformation for greater than 1 million actuations.
  - 9. The touch screen of claim 1 wherein the spacer dots have variable elastic deformation.
  - 10. The touch screen of claim 9 wherein the touch screen contains at least one area of higher durability comprising spacer dots that provide elastic deformation for greater than 4 million actuations.
  - 11. The touch screen of claim 1 wherein the spacer dots have variable shapes.
  - 12. The touch screen of claim 1 wherein the touch screen contains at least one area of higher sensitivity comprising spacer dots with smaller heights than spacer dots in other areas of the touch screen.
  - 13. The touch screen of claim 1 wherein the touch screen contains at least one area of higher accuracy comprising spacer dots with smaller spacing than spacer dots in other areas of the touch screen.
  - 14. The touch screen of claim 1 wherein at least one of the shape or spacing of the spacer dots varies by more than 10 percent in two different locations of the touch screen.
  - 15. The touch screen of claim 1 wherein at least one of the shape or spacing of the spacer dots varies by more than 50 percent in two different locations of the touch screen.
  - 16. The touch screen of claim 1 wherein at least one of the shape or spacing of the spacer dots varies between different areas according to a gradient pattern.
  - 17. The touch screen of claim 1 wherein at least one of the shape or spacing of the spacer dots varies along the width or height of the touch screen.
  - 18. The touch screen of claim 1 wherein at least one of the shape or spacing of the spacer dots varies from the geometric center to the perimeter of the touch screen.
  - 19. The touch screen of claim 1 wherein at lest one of the shape or spacing of the spacer dots varies along the perimeter of the touch screen.
  - 20. The touch screen of claim 1 wherein at least one of the shape or spacing of the spacer dots varies according to a repeating pattern.
  - 21. The touch screen of claim 1, wherein the substrate, first conductive layer, flexible cover sheet, and second conductive layer are transparent.
  - 22. The touch screen of claim 1, wherein the flexible sheet comprises one of the group including:
    - polymer, polyolefin polymer, polyester, polycarbonate, and a blend of polyester and polycarbonate.
  - 23. The touch screen of claim 1, wherein the integral compressible spacer dots comprise cylinder-shaped dots, cube-shaped dots, pyramid-shaped dots, cone-shaped dots, or sphere-shaped dots.
  - 24. The touch screen of claim 1, wherein said spacer dots and cover sheet have a % visible light transmission greater than 92%.
  - 25. The touch screen of claim 1 wherein the spacer dots comprise polymer with between 1 and 5% weight addition of an inorganic particle having an aspect ratio of at least 10 to 1, a lateral dimension of between 0.01 μ
    - m and 5 μ
      
      m, and a vertical dimension between 0.5 nm and 10 nm.
  - 26. The touch screen of claim 1, wherein said flexible cover sheet is further provided with a pressure sensitive adhesive opposite said spacer dots.
  - 27. The touch screen of claim 1, wherein the second conductive layer comprises an electrically conductive polymer.
  - 28. The touch screen of claim 27, wherein the conductive polymer comprises one of the group including polypyrrole styrene sulfonate, 3,4-dialkoxy substituted polypyrrole styrene sulfonate, and 3,4-dialkoxy substituted polythiophene styrene sulfonate, poly(3,4-ethylene dioxythiophene styrene sulfonate.
  - 29. The touch screen of claim 27, wherein the conductive polymer comprises polythiophine.
  - 30. The touch screen claimed in claim 1 wherein the substrate is flexible.
  - 31. The touch screen claimed in claim 1 wherein the substrate is rigid.
  - 32. The touch screen of claim 1 wherein the touch screen substrate is a cover or substrate of a flat-panel display device.
  - 33. The touch screen claimed in claim 32, wherein the flat-panel display device is an OLED display device.
  - 34. The touch screen claimed in claim 32, wherein the flat-panel display device is a liquid crystal display device.
  - 35. The touch screen of claim 1 wherein the touch screen substrate is a cover or substrate of a flat-panel lamp.
  - 36. The touch screen claimed in claim 35, wherein the flat-panel lamp is an OLED lamp.

37. A method of making a resistive touch screen, comprising the steps of:
- a) providing a substrate;
  
  b) forming a first conductive layer on the substrate;
  
  c) providing a flexible cover sheet comprising a substantially planar surface and integral compressible spacer dots formed thereon, each integral compressible spacer dot having a base closest to the substantially planar surface and a peak furthest from the substantially planar surface;
  
  d) forming a second conductive layer on the substantially planar surface of the flexible cover sheet, where the peaks of the integral compressible spacer dots extend beyond the second conductive layer formed on the substantially planar surface; and
  
  e) locating the flexible cover sheet over the substrate such the first and second conductive layers are positioned towards each other and separated by the integral compressible spacer dots, whereby, when a minimum required activation force is applied to the touch screen at the location of one of the compressible spacer dots, the compressible spacer dot is compressed to allow electrical contact between the first and second conductive layers, wherein the integral compressible spacer dots are sized and positioned in a pattern that establishes at least one of differentiated minimum required activation forces and differentiated durability for selected areas of the touch screen.
- View Dependent Claims (38, 39, 40)
- - 38. The method claimed in claim 37, wherein the flexible sheet is provided as a web in a continuous roll, the integral spacer dots are molded in the continuous roll in accordance with the pattern, and the sheet is cut from the roll.
  - 39. The method claimed in claim 37, wherein the spacer dots are formed in the flexible sheet in accordance with the pattern by injection roll molding.
  - 40. The method claimed in claim 37, wherein the spacer dots are formed in the flexible sheet in accordance with the pattern by applying heat and pressure to the flexible sheet by a mold including a reverse image of the spacer dots.

Specification

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Current Assignee
Eastman Kodak Company
Original Assignee
Eastman Kodak Company
Inventors
Bourdelais, Robert P., Cok, Ronald S., Brickey, Cheryl J.

Granted Patent

US 7,199,322 B2
Time in Patent Office

Days
Field of Search
US Class Current

200/512
CPC Class Codes

G06F 3/045   using resistive elements, e...

H01H 13/702   with contacts carried by or...

H01H 2209/002   Materials

H01H 2211/02   Pins forming part of substrate

H01H 2211/026   without separate element

H01H 2221/002   integral with membrane

H01H 2229/044   Injection moulding

H01H 2239/064   Simulating the appearance o...

H01H 2239/074   Actuation by finger touch

Y10T 29/49105   Switch making

Variable spacer dots for touch screen

First Claim

9 Assignments

0 Petitions

Accused Products

Abstract

Citations

40 Claims

Specification

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Variable spacer dots for touch screen

First Claim

9 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

Citations

40 Claims

Specification

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Solutions

Use Cases

Quick Links