JP2017068031A - Information display medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information display medium capable of preventing a conductive adhesive from projecting from a base substrate without providing a dummy electrode when a transparent common electrode and a control electrode are electrically connected by the conductive adhesive.SOLUTION: An information display medium 1 includes a closed space part 40 surrounded by an information display layer 23 and an adhesive layer 30 in an area facing a control electrode 14 of a circuit unit 10 by removing the information display layer 23 and the adhesive layer 30 in a display unit 20, a conductive adhesive 50 filled in the closed space part 40 electrically connects a transparent electrode 22 of the display unit 20 to the control electrode 14.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an information display medium in which a plurality of display electrodes and a transparent common electrode are arranged to face each other via an information display layer in which display is switched according to a potential difference between the plurality of display electrodes and the transparent common electrode. In particular, the present invention relates to a structure for applying a voltage to a transparent common electrode.

  Conventionally, as a display device for displaying information, a CRT display, a liquid crystal display, a plasma display, or the like is used. These are used for a television receiver to display a television image transmitted from a television station or a personal computer. By being used as a display, it is possible to display information stored in a personal computer or information distributed via the Internet.

  In recent years, in addition to the display devices as described above, thin information display media that display digital information on a thin display medium such as paper have begun to spread. As such a thin information display medium, for example, a circuit unit in which a plurality of display electrodes are formed on one surface of a base substrate, and a transparent common electrode is formed on one surface of a transparent substrate. A display unit in which an information display layer in which display is switched according to a potential difference between the display electrode and the transparent common electrode is stacked on the common electrode, and a plurality of display electrodes and the transparent common electrode are interposed via the information display layer. What was overlapped and comprised so that it might be opposingly arranged is put in practical use.

  In such an information display medium, it is necessary to apply a voltage not only to a plurality of display electrodes but also to the transparent common electrode in the circuit unit. Therefore, in the circuit unit, a control electrode is formed on the base substrate in addition to the display electrode, and this control electrode is electrically connected to the transparent common electrode by a conductive adhesive. At this time, since the information display layer is interposed between the circuit unit and the transparent common electrode, for example, the control electrode and the transparent common electrode are electrically connected by a conductive adhesive around the information display layer. Will be.

  By the way, in the information display medium configured by superimposing the circuit unit and the display unit as described above, the circuit unit and the display unit are overlapped, and then the circuit unit and the display unit are pressure-bonded. There is much to be done. In that case, there is a possibility that the conductive adhesive flows during the pressure bonding and protrudes from the base substrate. If the conductive adhesive protrudes from the base substrate, after the conductive adhesive has hardened, cavities and bubbles will form in the portion protruding from the base substrate, causing deterioration of the control electrode and the transparent common electrode. , There is a possibility that the base substrate and the surroundings may become dirty due to the protruding conductive adhesive. In particular, when silver is used for the electrode, the deterioration of the electrode becomes significant.

  Here, in a display element in which a plurality of electrodes are formed side by side on a substrate, a dummy electrode that does not contribute to driving the display element is formed outside at least one of the electrodes formed at both ends of the plurality of electrodes. Thus, for example, Patent Document 1 discloses a technique for preventing the conductive adhesive from protruding from the substrate. By using this technique, it is possible to avoid that the conductive adhesive protrudes from the base substrate and the electrode is deteriorated or the surroundings are soiled.

JP 2009-26044 A

  However, when the dummy electrode is provided as described above, a space corresponding to the dummy electrode is required, which hinders downsizing the outer shape of the product. In addition, there is a problem in that the cost is increased due to the additional material costs for the dummy electrode and the base material that has been enlarged to provide the dummy electrode.

  The present invention has been made in view of the problems of the prior art as described above, from a circuit unit in which a plurality of display electrodes and control electrodes are formed on a base substrate, via an information display layer. When the transparent common electrode and the control electrode are electrically connected by a conductive adhesive to apply a voltage to the transparent common electrode disposed opposite to the display electrode, the conductive adhesive is not provided with a dummy electrode. An object of the present invention is to provide an information display medium capable of avoiding protruding from the base material.

In order to achieve the above object, the present invention provides:
A circuit unit in which a control electrode and a plurality of display electrodes are formed on one surface of a base substrate, and a transparent common electrode to which a voltage is applied by the control electrode are formed on one surface of a transparent substrate. A display unit in which an information display layer that switches display according to a potential difference between the display electrode and the transparent common electrode is stacked on the electrode, and the plurality of display electrodes and the transparent common electrode are configured to display the information. In an information display medium bonded by an adhesive layer in a state of being opposed to each other via a layer,
In the region facing the control electrode, the information display layer and the adhesive layer are removed, and a closed space portion surrounded by the information display layer and the adhesive layer is provided.
The transparent common electrode is electrically connected to the control electrode by a conductive adhesive filled in the closed space.

  In the present invention configured as described above, the voltage for displaying information on the information display layer of the display unit is a circuit by electrically connecting the transparent common electrode to the control electrode by the conductive adhesive. It is applied from the unit to the transparent common electrode of the display unit, but the information display layer and the adhesive layer are removed in a region facing the control electrode, and a closed space portion surrounded by the information display layer and the adhesive layer is provided. In addition, since the transparent common electrode is electrically connected to the control electrode by the conductive adhesive filled in the closed space portion, even if the circuit unit and the display unit are crimped at the time of manufacturing the information display medium, the conductive As a result, the conductive adhesive remains inside the closed space, so that the conductive adhesive for electrically connecting the transparent common electrode and the control electrode can be used without a dummy electrode. It is avoided that protrudes.

  According to the present invention, the information display layer and the adhesive layer are removed in a region facing the control electrode, and the closed space portion surrounded by the information display layer and the adhesive layer is provided. Since the transparent common electrode is electrically connected to the control electrode by the adhesive, the circuit unit in which a plurality of display electrodes are formed on the base substrate is arranged to face the display electrode through the information display layer. When the transparent common electrode and the control electrode formed on the base substrate are electrically connected by a conductive adhesive in order to apply a voltage to the transparent common electrode, the conductive property can be obtained without providing a dummy electrode. It is possible to avoid the adhesive from protruding from the base substrate.

It is a figure which shows one Embodiment of the information display medium of this invention, (a) is a surface figure, (b) is AA 'sectional drawing shown to (a), (c) is a surface figure of a display unit. (D) is a figure which shows the lamination | stacking surface with the display unit of a circuit unit. FIG. 2 is a cross-sectional view illustrating in detail a structure of a connection portion between the circuit unit and the display unit of the information display medium illustrated in FIG. 1, (a) is a diagram illustrating a configuration of the display unit, and (b) is a circuit unit and the display unit. It is a figure which shows the state to which and were connected. It is a figure for demonstrating the manufacturing method of the information display medium shown in FIG.1 and FIG.2.

  Embodiments of the present invention will be described below with reference to the drawings.

  1A and 1B are diagrams showing an embodiment of an information display medium according to the present invention, in which FIG. 1A is a front view, FIG. 1B is a cross-sectional view taken along line AA ′ shown in FIG. FIG. 4D is a front view of the unit 20, and FIG. FIG. 2 is a cross-sectional view showing in detail the structure of the connecting portion between the circuit unit 10 and the display unit 20 of the information display medium 1 shown in FIG. 1, (a) is a diagram showing the configuration of the display unit 20, b) is a diagram showing a state in which the circuit unit 10 and the display unit 20 are connected.

  As shown in FIG. 1, the present embodiment is an information display medium 1 in which a circuit unit 10 and a display unit 20 are laminated, and the circuit unit 10 and the display unit 20 are bonded together by an adhesive layer 30 that is thermally melted. .

  In the circuit unit 10, a plurality of display electrodes 12a to 12g and a control electrode 14 are formed on one surface of a flexible substrate 11 made of a resin such as PET as a base substrate, and the display electrodes 12a to 12g and Wiring electrodes 13a to 13g, 15 connected to each of the control electrodes 14 are formed. The display electrodes 12a to 12g are formed in a pattern corresponding to information displayed on the display unit 20, and a voltage is selectively applied through the wiring electrodes 13a to 13g. The control electrode 14 is for applying a voltage to the transparent electrode 22 of the display unit 20, and supplies the voltage applied via the wiring electrode 15 to the transparent electrode 22. A control circuit (not shown) is connected to the wiring electrodes 13a to 13g and 15 at the end opposite to the display electrodes 12a to 12g and the control electrode 14, and the wiring electrodes 13a to 13g are controlled by the control of the control circuit. A voltage is applied to each of the display electrodes 12a to 12g and the control electrode 14 through 13g and 15.

  In the display unit 20, a transparent electrode 22 such as ITO serving as a transparent common electrode is laminated on the entire surface of one surface of the transparent substrate 21, and the transparent electrode 22 and the display electrodes 12 a to 12 g are disposed on the transparent electrode 22. An information display layer 23 in which the display is switched by changing the visually recognized color according to the potential difference is laminated. As the information display layer 23, a general type such as an electrophoretic type, an electronic powder type, or an electrochromic is used.

  The circuit unit 10 and the display unit 20 configured as described above are bonded by the adhesive layer 30 in a state where the display electrodes 12a to 12g and the transparent electrode 22 are arranged to overlap each other with the information display layer 23 interposed therebetween. Yes.

  In addition, as shown in FIG. 2, the information display layer 23 and the adhesive layer 30 are removed in the region facing the control electrode 14, whereby the circuit unit 10 and the display unit 20 are bonded by the adhesive layer 30. In this state, a closed space 40 surrounded by the information display layer 23 and the adhesive layer 30 is formed. The transparent electrode 22 is applied with a voltage from the control electrode 14 by being connected to the control electrode 14, but the closed adhesive 40 is filled with the conductive adhesive 50 applied on the control voltage 14. Thus, the control electrode 14 and the transparent electrode 22 are electrically connected by the conductive adhesive 50.

  In the information display medium 1 configured as described above, two different voltages are selected for the display electrodes 12a to 12g in a state where a predetermined voltage is applied to the transparent electrode 22 via the control electrode 14. Applied to the display electrodes 12a to 12g and the transparent electrode 22, the visible color of the information display layer 23 is changed by the potential difference generated between the display electrodes 12a to 12g and the transparent electrode 22. Will be switched. In this embodiment, by selectively applying a voltage to the display electrodes 12a to 12g, a region facing the display electrode to which one of the two types of voltages is applied, and two types of voltages Of these, the visible color differs depending on the region facing the display electrode to which the other voltage is applied, and the display unit 20 can display numbers “0” to “9”.

  Below, the manufacturing method of the information display medium 1 mentioned above is demonstrated.

  FIG. 3 is a view for explaining a method of manufacturing the information display medium 1 shown in FIGS. 1 and 2 and shows a cross section including the closed space 40.

  When manufacturing the information display medium 1 shown in FIGS. 1 and 2, first, as shown in FIG. 3A, the display electrodes 12 a to 12 g and the control electrode 14 are formed on one surface of the flexible substrate 11. The conductive adhesive 50 is formed on the control electrode 14 with respect to the circuit unit 10 formed with the wiring electrodes 13a to 13g and 15 connected to the display electrodes 12a to 12g and the control electrode 14, respectively. Apply. The display electrodes 12a to 12g, the control electrode 14, and the wiring electrodes 13a to 13g and 15 may be formed by printing using conductive ink in which conductive particles such as silver are dispersed and contained in a resin binder.

  Next, as shown in FIG. 3B, the display unit 20 in a state where the adhesive layer 30 is laminated on the surface of the information display layer 23 opposite to the transparent electrode 22 is replaced with the display electrode 12 a of the circuit unit 10. ˜12 g, superimposed on the control electrode 14 and the wiring electrodes 13 a ˜ 13 g, 15 side.

  Here, in the information display layer 23 of the display unit 20, the region facing the control electrode 14 is removed, and also in the adhesive layer 30, the region facing the control electrode 14 is removed. Since only the region facing the control electrode 14 is removed from the information display layer 23 and the adhesive layer 30, a closed space surrounded by the information display layer 23 and the adhesive layer 30 is included in the region facing the control electrode 14. A portion 40 is formed. Therefore, when the display unit 20 is superimposed on the display electrodes 12a to 12g, the control electrode 14 and the wiring electrodes 13a to 13g, 15 side of the circuit unit 10, the control electrode 15 and the conductive adhesive applied thereon are provided. The agent 50 enters the closed space 40.

  When the circuit unit 10 and the display unit 20 are overlapped with each other as described above, when the circuit unit 10 and the display unit 20 are sandwiched with a certain pressure while being heated by a hot roll laminator (not shown) or the like, FIG. ), The adhesive layer 30 is thermally melted, and the adhesive layer 30 is subsequently cured while the display electrodes 12a to 12g and the information display layer 23 are in contact with each other, so that the circuit unit 10 and the display unit 20 are Bonding is performed by the adhesive layer 30.

  At this time, the conductive adhesive 50 flows when the circuit unit 10 and the display unit 20 are sandwiched at a constant pressure by a hot roll laminator or the like, but the conductive adhesive 50 includes the information display layer 23 and the adhesive layer 30. Since the conductive adhesive 50 that has flowed stays inside the closed space 40, the conductive adhesive 50 is filled in the closed space 40.

  Then, the control electrode 14 and the transparent electrode 22 are electrically connected by the conductive adhesive 50 filled in the closed space 40, and a voltage is applied from the control electrode 14 to the transparent electrode 22. Become.

  Thus, since the control electrode 14 and the transparent electrode 22 are electrically connected by the conductive adhesive 50 filled in the closed space 40, the conductive adhesive 50 is removed from the flexible substrate 11. The control electrode 14 and the transparent electrode 22 are electrically connected by the conductive adhesive 50 without protruding. Further, thereby, a dummy electrode is provided so as to surround the display electrodes 12 a to 12 g in order to prevent the conductive adhesive 50 for electrically connecting the control electrode 14 and the transparent electrode 22 from protruding from the flexible substrate 11. There is no need.

  Further, the control electrode 14 and the transparent electrode 22 are electrically connected by the conductive adhesive 50 filled in the closed space portion 40, thereby being connected to the display electrodes 12a to 12g and this. It is possible to prevent the wiring electrodes 13a to 13g and the control electrode 14 from being electrically short-circuited.

  As described above, in this embodiment, a closed space surrounded by the information display layer 23 and the adhesive layer 30 by removing the information display layer 23 and the adhesive layer 30 in the region facing the control electrode 14 of the circuit unit 10. The portion 40 is formed, and the conductive adhesive 50 applied on the control electrode 14 is filled in the closed space portion 40 so that the control electrode 14 and the transparent electrode 22 of the display unit 20 are electrically connected. Therefore, a voltage is applied from the circuit unit 10 in which the plurality of display electrodes 12a to 12g are formed on the flexible substrate 11 to the transparent electrode 22 disposed to face the display electrodes 12a to 12g via the information display layer 23. When the transparent electrode 22 and the control electrode 14 are electrically connected by the conductive adhesive 50 in order to apply the It can be avoided that protrude from the reluctance substrate 11.

DESCRIPTION OF SYMBOLS 1 Information display medium 10 Circuit unit 11 Flexible base material 12a-12g Display electrode 13a-13g, 15 Wiring electrode 14 Control electrode 20 Display unit 21 Transparent substrate 22 Transparent electrode 23 Information display layer 30 Adhesive layer 40 Closed space part 50 Conductive adhesion Agent

Claims (1)

A circuit unit in which a control electrode and a plurality of display electrodes are formed on one surface of a base substrate, and a transparent common electrode to which a voltage is applied by the control electrode are formed on one surface of a transparent substrate. A display unit in which an information display layer that switches display according to a potential difference between the display electrode and the transparent common electrode is stacked on the electrode, and the plurality of display electrodes and the transparent common electrode are configured to display the information. In an information display medium bonded by an adhesive layer in a state of being opposed to each other via a layer,
In the region facing the control electrode, the information display layer and the adhesive layer are removed, and a closed space portion surrounded by the information display layer and the adhesive layer is provided.
The information display medium, wherein the transparent common electrode is electrically connected to the control electrode by a conductive adhesive filled in the closed space.

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