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A method for preparing micro-nano structure on ps light guide plate

A technology of micro-nano structure and light guide plate, applied in the field of light guide plate, can solve the problems of poor durability and abrasion resistance of micro-nano structure, high cost of micro-nano structure, low production efficiency, etc., and achieve durability and abrasion resistance Good, low production cost, high production efficiency

Active Publication Date: 2018-05-04
SHENZHEN TIANNUOTONG OPTOELECTRONICS TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a method for preparing micro-nano structures on PS light guide plates, aiming to solve the problems of high cost, low production efficiency, environmental pollution and micro-nano structures on PS light guide plates in the prior art. Problems with poor durability and scratch resistance

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0040] S11. The computer designs the planar projection of the micro-nano structure, and prints the planar projection of the micro-nano structure on the copper foil using an inkjet printer;

[0041] S12. Etch the copper foil printed with the planar projection diagram of the micro-nano structure in 1mol / L ferric chloride etching solution for 5 minutes to obtain a copper foil model, and put the copper foil model in a mixture of acetone and alcohol Soak in solvent (acetone: alcohol = 1:0.5) for 30 minutes to remove printing ink on the surface of copper foil;

[0042] S13. Electroplating a layer of 0.1 μm chromium metal layer and nickel metal layer on the surface of the copper foil model in sequence to obtain a working template with the micro-nano structure;

[0043] S14. Install the working template on the roller of the molding machine, and apply a pressure of 3Mpa on the surface of the PS light guide plate substrate at a temperature of 100°C, so that the micro-nano structure on t...

Embodiment 2

[0045] S21. The computer designs the planar projection of the micro-nano structure, and prints the planar projection of the micro-nano structure on the copper foil using an inkjet printer;

[0046] S22. Etch the copper foil printed with the planar projection of the micro-nano structure in 0.1mol / L ferric chloride etching solution for 60 minutes to obtain a copper foil model, and place the copper foil model in a mixture of acetone and alcohol Soak in a mixed solvent (acetone: alcohol = 1:1) for 30 minutes to remove the printing ink on the surface of the copper foil;

[0047] S23. Electroplating a layer of 1 μm chromium metal layer and nickel metal layer sequentially on the surface of the copper foil model to obtain a working template with the micro-nano structure;

[0048] S24. Install the working template on the roller of the molding machine, and apply a pressure of 0.5Mpa on the surface of the PS light guide plate substrate at a temperature of 180°C, so that the micro-nano st...

Embodiment 3

[0050] S31. The computer designs the planar projection of the micro-nano structure, and prints the planar projection of the micro-nano structure on the copper foil using an inkjet printer;

[0051] S32. Etch the copper foil printed with the planar projection diagram of the micro-nano structure in 0.5mol / L ferric chloride etching solution for 50 minutes to obtain a copper foil model, and place the copper foil model in a mixture of acetone and alcohol Soak in a mixed solvent (acetone: alcohol = 1:2) for 30 minutes to remove the printing ink on the surface of the copper foil;

[0052] S33. Electroplating a layer of 0.5 μm chromium metal layer and nickel metal layer sequentially on the surface of the copper foil model to obtain a working template with the micro-nano structure;

[0053] S34. Install the working template on the roller of the molding machine, and apply a pressure of 1Mpa on the surface of the PS light guide plate substrate at a temperature of 150° C., so that the mic...

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PUM

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Abstract

The invention applies to the light guide plate field, and provides a method for preparing micron and nanometer structures on a PS (polystyrene) light guide plate. The method for preparing the micron and nanometer structures on the PS light guide plate includes following steps: using a computer to design a plane projection drawing of the micron and nanometer structures, and using an ink jet printer to print the plane projection drawing of the micron and nanometer structures on copper foil; etching the copper foil with the plane projection drawing of the micron and nanometer structures printed in ferric chloride etchant so as to obtain a copper foil model, and dipping the copper foil model in a mixed solvent which contains acetone and ethyl alcohol; sequentially electroplating the copper foil model after being dipped with a chrome metal layer and a nickel metal layer so as to obtain a work template with the micron and nanometer structures; using hot press treatment to press the micron and nanometer structures of the work template into the surface of the PS light guide plate, wherein accuracy of the ink jet printer ranges from 1000dpi (dots per inch) to 3000dpi, and the ink jet printer uses waterproof printing ink to print. The method for preparing the micron and nanometer structures on the PS light guide plate has the advantages of being low in cost, high in production efficiency, environmentally friendly, and good in durability and scuff resistance of the micron and nanometer structures.

Description

technical field [0001] The invention belongs to the field of light guide plates, in particular to a method for preparing micro-nano structures on PS light guide plates. Background technique [0002] In recent years, with the colorization and enlargement of liquid crystal displays, their application fields are more extensive, such as notebook computers, various desktop computers and LCD TVs, etc. Since liquid crystal itself cannot emit light, it is necessary to use a light source system as a light source for liquid crystal displays , such as the backlight module, wherein the light guide plate is an important component in the backlight module, mainly used to guide the transmission direction of the light beam emitted from the light source, and transform the line light source or point light source into a surface light source. [0003] In order to improve the uniformity of light emission, a plurality of dots, micro-lattice patterns or micro-nano structures are generally arranged ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02B6/00
CPCG02B6/0041G02B6/0065
Inventor 袁志庆庄壮坤
Owner SHENZHEN TIANNUOTONG OPTOELECTRONICS TECH