Broadband antireflective and antistatic coating for CRT

US 5,572,086 A
Filed: 05/18/1995
Issued: 11/05/1996
Est. Priority Date: 05/18/1995
Status: Expired due to Term

First Claim

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1. A method of applying an antireflective/antistatic coating to a glass video display panel comprising the steps of:

preheating the display panel;

applying a conductive metal salt coating to the heated display panel;

applying a water soluble organic or inorganic salt antireflective coating or a polymer antireflective coating to the display panel over said conductive metal salt coating; and

washing said organic or inorganic salt coating with water or said polymer coating with toluene so as to partially dissolve the organic or inorganic salt coating or the polymer coating and form pores in the antireflective coating, whereby the light refractive index of the antireflective coating is established by the extent of pore formation in said coating.

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Abstract

The outer surface of the glass display panel of a cathode ray tube (CRT) is first coated with an antistatic conductive metal salt solution. A water or organic solvent soluble antireflective coating is then applied by conventional means such as spinning, spraying or dipping to the glass display panel over the first coating. The antireflective coating is comprised of either an organic or an inorganic salt, or a polymer. The coated display panel is then baked, followed by thorough washing with either water in the case of an organic or inorganic salt or water soluble polymer antireflective coating, or toluene in the case of a non-water soluble polymer antireflective coating. Washing the display panel partially dissolves the salt or polymer in the antireflective coating more on the outer surface of the coating than on the inner portion of the coat adjacent the glass facelate. Dissolution of a portion of the salt or polymer in the coating produces pores in the coating and variations in coating thickness, thus changing the light refractive index of the coating. A continuous decreasing dissolution rate determined by the extent of washing of the coated display panel provides the coating with a continuous decreasing light refractive index and broadband antireflection (400-700 nm) with a minimum reflectance of 1.0% in the range of 560-650 nm. Knowing the light refractive index of the glass substrate and that of air (typically 1.0), the refractive index of the salt or polymer coating may be established by the extent of dissolution of the coating during washing.

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16 Claims

1. A method of applying an antireflective/antistatic coating to a glass video display panel comprising the steps of:
- preheating the display panel;
  
  applying a conductive metal salt coating to the heated display panel;
  
  applying a water soluble organic or inorganic salt antireflective coating or a polymer antireflective coating to the display panel over said conductive metal salt coating; and
  
  washing said organic or inorganic salt coating with water or said polymer coating with toluene so as to partially dissolve the organic or inorganic salt coating or the polymer coating and form pores in the antireflective coating, whereby the light refractive index of the antireflective coating is established by the extent of pore formation in said coating.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The method of claim 1 wherein said water soluble organic salt is comprised of maleic anhydride and maleic acid.
  - 3. The method of claim 1 wherein said water soluble inorganic salt comprises NaCl, CuSO₄ or CaCl₂.
  - 4. The method of claim 1 wherein said polymer is comprised of polyvinyl alcohol, polyvinyl pyridine or polyacrylate.
  - 5. The method of claim 1 further comprising the step of adding said organic or inorganic salt or said polymer to a solution of 6.0 wt % tetraethoxy silane, 10 wt % water, 1 wt % HNO₃, and balanced with an alcohol mixture.
  - 6. The method of claim 5 wherein the display panel is preheated to a temperature of 40°
    - C.
  - 7. The method of claim 6 further comprising the step of reheating the display panel to a temperature of 40°
    - C. prior to applying said organic or inorganic salt or said polymer antireflective coating to the display panel.
  - 8. The method of claim 7 further comprising the step of baking the display panel after said organic or inorganic salt or said polymer antireflective coating is applied at a temperature in the range of 110°
    - -180°
      
      C. for 20-40 minutes.
  - 9. The method of claim 1 wherein said conductive metal salt coating is applied by spinning or spraying onto the display panel.
  - 10. The method of claim 1 wherein said antireflective coating is applied by spinning, spraying or dipping onto the display panel.

11. For use on an outer surface of a glass display panel of a cathode ray tube (CRT), a multi-layer coating comprising:
- a first conductive grounded inner coating disposed on the outer surface of the display panel, said first conductive inner coating including a metal salt; and
  
  a second outer coating disposed on said first inner coating and having a characteristic light refractive index, said second outer coating comprised of a water soluble organic or inorganic salt or polymer, or a polymer soluble in an organic solvent, said outer coating having a plurality of pores of various depths therein for providing said outer coating with a range of light refractive indexes determined by the depths of said pores for reducing light reflection from the display panel over the visible light spectrum.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The coating of claim 11 wherein said first inner coating comprises Sb-SnO₂.
  - 13. The coating of claim 11 wherein said second outer coating includes a water soluble organic salt comprised of maleic anhydride and maleic acid.
  - 14. The coating of claim 11 wherein said second outer coating includes a water soluble inorganic salt comprised of NaCl, CuSO₄ or CaCl₂.
  - 15. The coating of claim 11 wherein said second outer coating includes a polymer comprised of polyvinyl alcohol, polyvinyl pyridine or polyacrylate.
  - 16. The coating of claim 11 wherein said organic or inorganic salt or said polymer is in a solution of 6.0 wt % tetraethoxy silane, 10 wt % water, 1 wt % HNO₃ and balanced with an alcohol mixture.

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Current Assignee
CPT Technology (Group) Co., Ltd., Endress+Hauser GmbH+Co (ENDRESS)
Original Assignee
Chunghwa Picture Tubes Limited (Tatung Co., Ltd.)
Inventors
Hu, Chun-Min, Tong, Hua-Sou, Yu, Yu-Chung
Primary Examiner(s)
PATEL, NIMESHKUMAR D

Application Number

US08/443,440
Time in Patent Office

537 Days
Field of Search

313/110, 313/112, 313/478, 313/479, 445/24, 445/58, 427/126.1, 427/126.2, 427/106, 427/108, 427/110, 427/256, 427/343, 427/344, 427/352, 427/353, 427/331, 359/577, 359/580
US Class Current

313/478
CPC Class Codes

H01J 2229/0733   characterised by the material

H01J 2229/0777   Coatings

H01J 9/20   Manufacture of screens on o...

Broadband antireflective and antistatic coating for CRT

First Claim

3 Assignments

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Abstract

Citations

16 Claims

Specification

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Broadband antireflective and antistatic coating for CRT

First Claim

3 Assignments

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Accused Products

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Abstract

Citations

16 Claims

Specification

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Solutions

Use Cases

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