JP3179401U - Conductive glass substrate type electronic paper display device - Google Patents

Abstract

A conductive glass substrate type electronic paper display device that has a simple structure, can be made light and thin, and can effectively reduce manufacturing costs.
A substrate 20 having an upper surface formed thereon and an ITO layer formed on the upper surface of the substrate 20, conductive glass is formed from the ITO layer and the substrate 20, a pattern etching section 31, and an electrical connection section 32. And an etching conductive layer 30 formed, an electronic paper body formed in the pattern etching section 31 of the etching conductive layer 30, an insulating layer 50 provided between the electronic paper body and the pattern etching section 31, and etching. And a drive circuit module 60 that is electrically connected to the electrical connection section of the conductive layer 30.
[Selection] Figure 2

Description

  The present invention relates to a display device, and more particularly to a conductive glass substrate type electronic paper display device.

  An electrophoretic display device (Electrophoresis Display, EPD) is a novel display device developed in recent years, and is currently applied to electronic paper, electronic books, electronic signs, electronic labels, and the like. The electrophoretic display device is a reflective display device, and displays an image by reflecting light rays. Therefore, the electrophoretic display device is a backlight compared with a thin film transistor liquid crystal display (TFT LCD). Video can be displayed in the absence of

  As shown in FIG. 1, the conventional electronic paper device is a display that uses the electrophoretic principle and drives charged dyed particles by an electric field to generate a contrast between facial colors, and includes a driving substrate 11, an electronic paper main body 12, and the like. ,including. The electronic paper main body 12 is provided on the drive substrate 11. The drive substrate 11 includes a patterned pixel electrode layer 111 and a lower substrate 112. The electronic paper main body 12 includes an upper substrate 121, a transparent electrode layer 122, an electrophoretic substance 123, and an adhesive layer 124. The electrophoretic substance 123 is sealed between the upper substrate 121 and the adhesive layer 124, and includes a plurality of charged dye particles C1 and a dielectric solution L1. On the other hand, the transparent electrode layer 122 is formed on one side of the upper substrate 121 and is provided to face the pixel electrode layer 111.

  By applying a voltage between the pixel electrode layer 111 and the transparent electrode layer 122, the charged dyed particles C1 move to the pixel electrode layer 111 or the transparent electrode layer 122 whose charge polarity is opposite to that of the charged dyed particles C1, and the electrodes By selectively applying a voltage to the layers 111 and 122, it is determined whether to display the face color of the dielectric solution L1 or the charged dyed particle C1, and by applying a reverse voltage, the display of the face color can be changed.

  In particular, the pixel electrode layer 111 of the electronic paper device 10 displays a full-color pattern, and a color filter is formed on the electronic paper body 12 to achieve the purpose of displaying the full-color pattern. By aligning the driving substrate 11, the pattern of these color filters is aligned with the pixel electrode layer 111 on the driving substrate 11. In this way, a full color pattern can be displayed.

  However, when the electronic paper device 10 is applied to a display that displays a single color character or pattern, a complicated manufacturing process of the electrophoretic substance, or these color filters and the driving substrate 11 can be accurately aligned. Since it is necessary, the production cost of the electronic paper device 10 increases wastefully.

  The main object of the present invention is to provide a conductive glass substrate type electronic paper display device (G-Paper Display) that can be simplified in structure and reduced in weight, and that can effectively reduce the manufacturing cost.

  The next object of the present invention is to provide an insulating and cover structure between the conductive glass substrate and the electronic paper body by providing an insulating layer, so that the circuit layout of the etched conductive layer can be reliably covered or etched. In accordance with the pattern design in the conductive layer, the insulating glass can cover the entire surface or part of the surface of the etched pattern in the etched conductive layer, thus achieving the purpose of diversifying the conductive glass substrate type electronic paper It is to provide a display device.

  The conductive glass substrate type electronic paper display device of the present invention includes a substrate having an upper surface formed thereon and an ITO layer formed on the upper surface of the substrate. The conductive glass is formed from the ITO layer and the substrate, An electrically conductive section, an etching conductive layer formed, an electronic paper body formed in the pattern etching section of the etching conductive layer, an insulating layer provided between the electronic paper body and the pattern etching section, and etching And a drive circuit module electrically connected to the electrical connection section of the conductive layer.

  According to the conductive glass substrate type electronic paper display device of the present invention, the electronic paper main body includes an electrophoretic substance layer and a package layer provided on the insulating layer to package the electrophoretic substance layer inside the electronic paper main body. And a transparent electrode layer and a substrate are provided on the electrophoretic substance layer.

  According to the conductive glass substrate type electronic paper display device of the present invention, the insulating layer covers the entire surface or a part of the surface of the pattern etching section of the etching conductive layer.

  According to the conductive glass substrate type electronic paper display device of the present invention, the pattern electrode is etched in advance in the pattern etching section of the etching conductive layer, and the insulating layer shields the entire surface or part of the pattern electrode. To do.

  According to the conductive glass substrate type electronic paper display device of the present invention, an etching conductive layer formed on the upper surface of the substrate, having a pattern etching section and an electrical connection section, and an etching conductive layer. An electrophoretic material layer formed on the layer, and a package layer provided on the pattern etching area of the etching conductive layer and packaging the electrophoretic material layer inside the electronic paper body, The electrophoretic material layer includes an electronic paper body provided with a transparent electrode layer and a substrate, and a drive circuit module electrically connected to an electrical connection section of the etching conductive layer. To do.

  According to the conductive glass substrate type electronic paper display device of the present invention, the substrate is a sheet made of glass.

  According to the conductive glass substrate type electronic paper display device of the present invention, the drive circuit module is a semiconductor circuit unit, has two terminals, and is electrically connected to the electrical connection section of the etching conductive layer. And

  According to the conductive glass substrate type electronic paper display device of the present invention, a terminal unit is provided in the electrical connection section of the etching conductive layer, the drive circuit module has a flexible circuit board, and the flexible circuit board has one end connected to the terminal unit. The printed circuit board is electrically connected, the other end is electrically connected to the printed circuit board, and a semiconductor circuit unit is provided on the printed circuit board.

The conductive glass substrate type electronic paper display device of the present invention has the following effects.
(1) The structure is simple and light, and the production cost can be effectively reduced.

  (2) By providing an insulating layer, an insulating and cover structure is formed between the conductive glass substrate and the electronic paper body, and the circuit layout of the etched conductive layer can be reliably covered, or the pattern on the etched conductive layer In accordance with the design, the whole or part of the surface of the pattern etching section of the etching conductive layer can be covered with the insulating layer. Thus, the purpose of diversifying patterns can be achieved.

It is a schematic diagram which shows the structure of the conventional electrophoretic electronic paper apparatus. It is a perspective view which shows the structure of one Example of this invention. It is a side view which shows the structure of one Example of this invention. 1 is a side view showing a structure in which a printed circuit board is provided in an embodiment of the present invention. It is a side view which shows another Example of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
Please refer to FIG. 2, FIG. 3 and FIG.
The conductive glass substrate type electronic paper display device (G-Paper Display) of the present invention includes a substrate 20, an etching conductive layer 30, an electronic paper body 40, an insulating layer 50, and a drive circuit module 60.

Please refer to FIG. 2 and FIG.
FIG. 2 is a perspective view showing the structure of one embodiment of the present invention, and FIG. 3 is a side view showing the structure of one embodiment of the present invention. In the conductive glass substrate type electronic paper display device of the present invention, an upper surface 21 is formed on a substrate 20, and an etching conductive layer 30 is provided on the upper surface 21. The etching conductive layer 30 is an ITO layer, and a pattern etching section 31 and an electrical connection section 32 are formed. In the pattern etching section 31, the pattern electrode 311 is etched in advance.
The electronic paper body 40 is formed on the pattern etching section 31 of the etching conductive layer 30. An insulating layer 50 is provided between the electronic paper main body 40 and the pattern etching section 31. The insulating layer 50 can shield the pattern electrode 311 and other circuit layouts from being exposed to the outside by shielding the entire surface or a part of the pattern etching region 31, thus protecting the circuit in the pattern etching region 31. it can. The drive circuit module 60 is electrically connected to the electrical connection section 32 of the etching conductive layer 30.

As shown in FIGS. 2 and 3, the substrate is a sheet made of glass.
In the etching conductive layer 30, a pattern electrode 311 is previously formed in the pattern etching section 31 by an etching technique. The pattern electrode 311 can be formed into a letter shape, a trademark, a pattern, or the like according to the needs of the user. The electronic paper main body 40 includes an electrophoretic substance layer 41 and a package layer 42 that is provided on the insulating layer 50 and packages the electrophoretic substance layer 41 inside the electronic paper main body 40.
On the electrophoretic substance layer 41, a transparent electrode layer 43 and a substrate 44 are provided. The drive circuit module 60 is a semiconductor circuit unit 61 having two terminals 611 and is electrically connected to the electrical connection section 32 of the etching conductive layer 30.

In particular, the insulating layer 50 provided on the surface of the pattern etching section 31 of the etching conductive layer 30 covers the whole or part of the pattern etching section 31 depending on the form of the etched pattern electrode 311 on the pattern etching section 31. it can.
In the case where the insulating layer 50 covers a part of the pattern etching section 31, the insulating layer 50 is permeable to the pattern electrode 311 or is permeable to different shapes, whereby different driving patterns can be formed. When the insulating layer 50 covers the entire surface of the pattern etching section 31 and a current is passed through the pattern electrode 311, an electric field is generated between the electronic paper main body 40 and the etching conductive layer 30, and the electronic paper main body 40 is generated by the electric field. The inner electrophoretic material layer 41 is driven.

However, the electrophoretic material of the electronic paper body 40 and the pattern electrode 311 of the etching conductive layer 30 are completely separated by the insulating layer 50, and the electrophoretic material is driven only by the electric field, resulting in a slower response speed. Therefore, the insulating layer 50 may be watermarked depending on the form of the pattern electrode 311.
In this way, the patterned electrode 311 comes into contact with the electrophoretic substance layer 41, and the response speed is increased. On the other hand, the insulating layer 50 may partially shield the part corresponding to the pattern electrode 311 through the part. As described above, the electrophoretic substance in the electrophoretic substance layer 41 can be simultaneously driven by electric fields having different intensities to diversify the pattern.

After starting the drive circuit module 60, the semiconductor circuit unit 61 controls the electric field between the pattern etching section 31 of the etching conductive layer 30 and the transparent electrode layer 43 of the electronic paper body 40 via the etching conductive layer 30. The conductive particles in the electrophoretic substance layer 41 inside the electronic paper main body 40 are moved.
Thereby, a character shape, a pattern, or the like previously provided in the pattern etching section 31 is displayed on the substrate 44 of the electronic paper main body 40. As described above, it is possible to provide a conductive glass substrate type electronic paper display device that has a simple structure, can be reduced in weight, and can effectively reduce the manufacturing cost.

  Further, according to the present invention, a terminal unit 33 may be provided in the electrical connection section 32 of the etching conductive layer 30 as necessary. The terminal unit 33 can be connected to a drive circuit module 60 of a different form. As shown in FIG. 4, the drive circuit module 60 has a flexible circuit board 62. One end of the flexible circuit board 62 is electrically connected to the terminal unit 33, the other end is electrically connected to the printed circuit board 63, and the semiconductor circuit unit 61 is provided on the printed circuit board 63.

  In particular, in the present invention, as shown in FIG. 5, the electronic paper main body 40 may be provided directly on the etching conductive layer 30. Thereby, since the package layer 42 of the electronic paper main body 40 is affixed to the pattern etching area 31, a manufacturing process can be reduced and production cost can be reduced.

10: Electronic paper device 11: Driving substrate 12: Electronic paper body 20: Substrate 21: Upper surface 30: Etching conductive layer 31: Pattern etching section 32: Electrical connection section 33: Terminal unit 40: Electronic paper body 41: Electrophoretic property Material layer 42: Package layer 43: Transparent electrode layer 44: Substrate 50: Insulating layer 60: Drive circuit module 61: Semiconductor circuit unit 62: Flexible circuit board 63: Printed circuit board 111: Pixel electrode layer 112: Lower substrate 121: Upper Substrate 122: Transparent electrode layer 123: Electrophoretic substance 124: Adhesive layer 311: Pattern electrode 611: Terminal C1: Charged dyed particle L1: Dielectric solution

Claims (8)

A substrate having a molded upper surface;
An ITO layer formed on the upper surface of the substrate, a conductive glass is formed from the ITO layer and the substrate, a pattern etching region, and an electrically conductive region, an etching conductive layer,
An electronic paper body formed in the pattern etching section of the etching conductive layer;
An insulating layer provided between the electronic paper body and the pattern etching section;
A drive circuit module electrically connected to the electrical connection section of the etching conductive layer;
A conductive glass substrate type electronic paper display device comprising: The electronic paper body includes an electrophoretic substance layer,
A package layer provided on the insulating layer and packaging the electrophoretic material layer inside the electronic paper body;
Have
On the electrophoretic material layer, a transparent electrode layer;
A substrate,
The conductive glass substrate type electronic paper display device according to claim 1, wherein:   The conductive glass substrate type electronic paper display device according to claim 1, wherein the insulating layer covers the entire surface or a part of the surface of the pattern etching section of the etching conductive layer.   The conductive glass according to claim 1, wherein a pattern electrode is previously etched in the pattern etching section of the etching conductive layer, and the insulating layer shields the entire surface or a part of the pattern electrode. Substrate type electronic paper display device. A substrate having a molded upper surface;
An etching conductive layer formed on the upper surface of the substrate and having a pattern etching section and an electrical connection section;
An electrophoretic material layer formed on the etching conductive layer, and a package layer provided on the pattern etching section of the etching conductive layer and packaging the electrophoretic material layer inside the electronic paper body An electronic paper main body provided with a transparent electrode layer and a substrate on the electrophoretic substance layer,
A drive circuit module electrically connected to the electrical connection section of the etching conductive layer;
A conductive glass substrate type electronic paper display device comprising:   The conductive glass substrate type electronic paper display device according to claim 1, wherein the substrate is a sheet made of glass.   6. The drive circuit module according to claim 1, wherein the drive circuit module is a semiconductor circuit unit, has two terminals, and is electrically connected to the electrical connection section of the etching conductive layer. Conductive glass substrate type electronic paper display device.   A terminal unit is provided in the electrical connection section of the etching conductive layer, the drive circuit module has a flexible circuit board, and the flexible circuit board has one end electrically connected to the terminal unit and the other end The conductive glass substrate type electronic paper display device according to claim 1, wherein the printed circuit board is electrically connected and a semiconductor circuit unit is provided on the printed circuit board.

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