KR101831669B1 - Manufacturing method of polymer light emitting sheet of fixed form or non-fixed form - Google Patents

Abstract

The present invention relates to a method for manufacturing a regular or irregular polymer light emitting sheet divided into halves by the same area, which can have an optimally stable electrode by preventing a short circuit phenomenon in laminated printing of a letter or a drawing. To this end, the method comprises the steps of: (S1) forming an ITO film layer (11) to which a current is applied by having a transparent electrode; (S2) forming a fluorescent layer (12) emitted by the current applied to a lower surface of the ITO film layer (11); (S3) forming a dielectric layer (13) having a polarity separated into a positive charge and a negative charge as an electrically non-conductive layer on a lower surface of the fluorescent layer (12); (S4) forming a silver layer (14) connected to a wire (5) to apply a current to a lower surface of the dielectric layer (13) to form a ground (14a) connected to any one of the positive and negative electrodes; and (S5) forming an insulating layer (15) on a lower surface of the silver layer (14) except the ground (14a) to expose the ground (14a) so as to prevent the short circuit phenomenon.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method for manufacturing a polymer light emitting sheet,

More particularly, the present invention relates to a method of manufacturing a flat or amorphous polymeric luminescent sheet which is divided into two areas by the same area. More specifically, (+) And (-) polarities are applied to each divided side so that the character layer or the pattern layer is divided into two by the same area, Or a method of manufacturing a stereolithography or non-shaping polymeric luminescent sheet which is divided into two areas by the same area so that the overall brightness of the pattern layer is equalized.

In recent years, efforts have been made to replace the non-light emitting direction indicator plates used in fire fighting evacuation facilities, road traffic signs, road tunnels, railway tunnels, etc. with luminescent materials. Especially, in relation to the improvement of the government 's safety management system, the evacuation route, a fire - fighting evacuation facility, has become obsolete, and the corresponding industries are expanding to other industries such as the Gosiwon and postpartum care centers. Especially, The application field is expanding.

Therefore, in the case of a fire evacuation line, which is a fire evacuation facility requiring a light emitting function in the direction display, it is expected that when a fire occurs in a building, the display of the direction of the luminescent function in a foggy or dark state can minimize the disaster of the victim.

As shown in FIG. 1B, the conventional polymer light emitting sheet is a planar light source in the form of a back electrode formed on the back surface of the light emitting portion and side electrodes 122 and 124 having no light emitting function.

In this case, the side electrodes 122 and 124, which do not function to emit light in addition to the back electrodes formed on the back surface of the light emitting portion, are formed. In order to provide electrical stability, the side electrodes 122 and 124 must be formed to have a large area, There has been a problem that the application power is deteriorated due to the limitation.

In the case of a polymer light emitting sheet having the same light emitting area as that of the conventional polymer light emitting sheet structure, the current of the polymer light emitting sheet having the same light emitting area as that of the conventional polymer light emitting sheet structure is 3 times It is possible to use the same brightness, so that the energy saving effect is excellent, and in particular, the product using the battery can show its merit.

Unexplained reference numerals 116 and 126 denote both back-side electrodes or boundary lines separating the back-side electrodes and the side electrodes.

Registration Utility Model No. 20-0428231

SUMMARY OF THE INVENTION Accordingly, the present invention has been devised in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a light emitting device, (+) Or (-) polarity is applied to each divided side so that the character layer or the design layer is divided into two by the same area, The present invention has been accomplished on the basis of a method for producing a flat or irregular polymer light-emitting sheet which is divided into two areas by an area.

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According to an aspect of the present invention, there is provided a method of manufacturing an organic light emitting display, comprising: forming an ITO film layer (11) having a transparent electrode to which current is applied; (S2) forming a fluorescent layer (12) which is emitted by a current applied to the lower surface of the ITO film layer (11); Forming a dielectric layer (13) having a polarity separated by a positive charge and a negative charge as an electrically non-conductive layer on the lower surface of the fluorescent layer (12); Forming a silver layer 14 connected to the wire 5 to apply a current to the lower surface of the dielectric layer 13 and forming a ground 14a connected to one of the (+) and (-) electrodes S4); And a step S5 of finishing the insulating layer 15 on the lower surface of the silver layer 14 except for the ground 14a so that the ground 14a is exposed to prevent a short circuit phenomenon, A character layer or a pattern layer is formed on the insulating layer 15 by the dielectric layer 13 and the fluorescent layer 12 and the character layer or the pattern layer formed by the dielectric layer 13 and the fluorescent layer 12 have the same area (+) And (-) polarities are applied to the respective divided sides so that the overall brightness of the character layer or the pattern layer is made to be the same, and the fluorescent layer 12 and the dielectric layer 13 are formed so as to have the character layer The silver layer 14 is formed to have a smaller area than that of the fluorescent layer 12 and the dielectric layer 13 so that the silver layer 14 is formed to be smaller than the area of the fluorescent layer 12 and the dielectric layer 13 An enlarged spacing portion 17 extending from the spacing portion 16 is provided, (+) And (-) polarities are formed on the silver layer 14 by forming the insulating layer 15 on the lower surface of the silver layer 14 except for the ground 14a portion so that the silver layer 14a is exposed, A conductive line 5 is formed between the electrode plates 2 formed on both sides in the longitudinal direction of the silver layer 14 and the conductive line 5 is connected to the ground 14a And the connection conductor 6 is formed between the conductor 5 and the ground 14a so as to connect the phosphor layer 12 and the dielectric layer 13 to each other. , A program for calculating and comparing the areas of both sides, and then dividing the area into the same area regardless of whether it is a regular or irregular shape. Then, based on the divided area, the one side polymeric luminescent sheet 10a and the other side And the polymeric luminescent sheet (10b). It provides a surface for a two-division method of manufacturing a shaped or amorphous polymer light emitting sheet to emit light.

At this time, the lead wire 5 is formed on the surface of the insulating layer 15 of the polymer luminescent sheet and a finish insulating layer is further coated to cover the upper surface of the lead wire 5 for insulation of the lead wire 5 .

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According to the present invention, it is possible to prevent the occurrence of a short circuit in the laminated printing of a character or a pattern, thereby achieving optimum stability of the electrode. In addition, the present invention can reduce current consumption (+) And (-) polarities are applied to the divided sides of the character layer or the pattern layer so as to divide the character layer or the pattern layer into two equal areas, thereby achieving the same brightness of the character layer or the entire pattern layer.

In addition, since two printing plates can be manufactured, the structure and the manufacturing process can be simplified, and manufacturing cost can be reduced.

In addition, the current of the polymer luminescent sheet having the same light emitting area as that of the conventional polymer luminescent sheet structure is improved more than three times at the same brightness, so that the energy saving effect is excellent when using the same brightness, There is an effect.

In addition, since there is no need for a boundary line separating both the back electrode and the back electrode or the side electrode, it is possible to clearly and clearly display the characters or the design.

FIG. 1 is an exemplary diagram of a conventional polymer light emitting sheet
Fig. 2 is a view showing an example of a polymer light-emitting sheet of a regular shape that is divided into two areas by the same area according to the present invention
3 is a cross-sectional view of an example of a polymer luminescent sheet according to the present invention
Fig. 4 is a view showing an example of an amorphous polymer luminescent sheet which is divided into two areas by the same area according to the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention can prevent the occurrence of a short-circuit phenomenon in the laminated printing of letters or drawings, thereby achieving optimum stability of the electrodes, and can reduce the current consumption without being adversely affected by the shape of the surface light- (+) And (-) polarities are applied to the respective divided sides so that the brightness of the character layer or the entirety of the pattern layer is made the same, 2 to 4, the ITO film layer 11, the fluorescent layer 12, the dielectric layer 13, the silver layer 14, and the insulating layer 15 are laminated .

The ITO film layer 11 is an Indium-Tin Oxide (ITO) film, which is mainly used for a matrix-driven display, and is used for a thin flat display such as PDP and LCD. In the present invention, So as to implement a function of applying an electric current to the electrode. At this time, current is applied to the ITO film layer 11 to irradiate light to the fluorescent layer 12 to be described later.

The phosphor layer 12 formed on the lower surface of the ITO film layer 11 is a phosphor, and is a material mainly used for changing the color of light emitted from the LCD chip. Since the LCD chip emits light of a specific wavelength (color) depending on the energy level difference of the constituent compounds, a phosphor is required to obtain the desired color of light. For example, phosphors composed of three primary colors such as red, green, and blue are applied to the inner wall of a cathode ray tube such as a TV or a computer monitor, and white LEDs for illumination are applied to a blue light emitting LCD chip using a yellow phosphor to realize white .

The dielectric layer 13 formed on the lower surface of the fluorescent layer 12 is configured to have a polarity separated into a positive charge and a negative charge as an electrically non-conductive layer.

The silver layer 14 formed on the lower surface of the dielectric layer 13 is formed with a ground 14a to apply a current as shown in Figure 2. The ground 14a is connected to the lead 5, ), And (-) electrodes. At this time, a conductive line 5 is formed in a straight line between the electrode plates 2 formed on both sides in the longitudinal direction of the silver layer 14 constituting the polymer light emitting sheet 10, and the conductive line 5 and the ground 14a A connecting wire 6 is formed between the wire 5 and the ground 14a so as to be connected.

The insulating layer 15 formed on the lower surface of the silver layer 14 is formed on the bottom side so as to constitute the polymer light emitting sheet 10 of the present invention as shown in FIG. The insulating layer 15 is a base layer for insulating the ITO film layer 11, the fluorescent layer 12, the dielectric layer 13 and the silver layer 14 stacked as described above. It is possible to prevent a short-circuit phenomenon on the polymer light-emitting sheet 10 by forming it on the lower surface of the silver layer 14 having the ground 14a, so that the electrode can be optimally stabilized.

As described above, the polymer light emitting sheet 10 of the present invention is formed by laminating the ITO film layer 11, the fluorescent layer 12, the dielectric layer 13, the silver layer 14 and the insulating layer 15 from the upper side, At this time, it is preferable that each layer is coated and mutually coated. A character layer or a pattern layer is formed on the insulating layer 15 by the dielectric layer 13 and the fluorescent layer 12, and the dielectric layer 13, (+) And (-) polarities are applied to the two divided sides through the electrode plate 2 so that the character layer or the pattern layer formed by the layer 12 is divided into two by the same area, The ground 14a is configured such that the ground 14a is connected to each of the two divided sides by the conductive wire 5 as shown in Figs. 2A and 2B.

3 (a), the fluorescent layer 12 and the dielectric layer 13 of the polymer light-emitting sheet 10 of the present invention may be formed as a single layer or a multi- And the silver layer 14 is formed to have an area smaller than the area of the fluorescent layer 12 and the dielectric layer 13 so as to be spaced apart from each other by an extended gap portion 17 and the insulating layer 15 is formed on the lower surface of the silver layer 14 except for the ground 14a so that the ground 14a is exposed. ) May be configured so that the ground 14a connected by the conductive wire 5 is formed.

3 (b), the fluorescent layer 12 and the dielectric layer 13 are provided with spacing portions 16 for forming character layers or pattern layers, The silver layer 14 is formed to have the same area as the fluorescent layer 12 and the dielectric layer 13 and the lower part of the silver layer 14 except for the ground 14a is exposed so that the ground 14a is exposed. The ground layer 14a may be formed on the silver layer 14 by forming the insulating layer 15 on the surface of the silver layer 14 so that the (+) and (-) polarities are connected by the conductive wire 5.

3 (a) and 3 (b), the lead 5 is formed on the surface of the insulating layer 15 of the polymeric luminescent sheet 10, A finishing insulation layer may be further coated to cover the upper surface of the conductor 5 for insulation.

In addition, when the area of the fluorescent layer 12 and the dielectric layer 13 in which the character layer or the pattern layer is formed is divided into two areas, the areas are divided by the same area by a program for calculating and comparing the areas on both sides, It is preferable that the character layer or the pattern layer is divided into two regions, one side of the polymeric luminescent sheet 10a and the other side of the polymeric luminescent sheet 10b having the same area as shown in Fig. At this time, a program for calculating and comparing the areas of both sides is implemented in various ways for calculating and comparing areas, which is not limited to the present invention.

The method of manufacturing the polymer light emitting sheet 10 using the polymer light emitting sheet structure of the present invention having a uniform or irregular shape, which is divided into two parts by the same area, comprises the steps of forming an ITO film layer 11 having a transparent electrode, (S1); (S2) forming a fluorescent layer (12) which is emitted by a current applied to the lower surface of the ITO film layer (11); Forming a dielectric layer (13) having a polarity separated by a positive charge and a negative charge as an electrically non-conductive layer on the lower surface of the fluorescent layer (12); Forming a silver layer 14 connected to the wire 5 to apply a current to the lower surface of the dielectric layer 13 and forming a ground 14a connected to one of the (+) and (-) electrodes S4); And a step S5 of finishing the insulation layer 15 on the lower surface of the silver layer 14 except for the ground 14a so that the ground 14a is exposed to prevent a short circuit phenomenon, A character layer or a pattern layer is formed on the insulating layer 15 by the dielectric layer 13 and the fluorescent layer 12 and the character layer or the pattern layer formed by the dielectric layer 13 and the fluorescent layer 12 have the same area (+) And (-) polarities are applied to the respective divided sides so that the overall brightness of the character layer or the pattern layer is made to be the same, and the fluorescent layer 12 and the dielectric layer 13 are formed so as to have the character layer The silver layer 14 is formed to have a smaller area than that of the fluorescent layer 12 and the dielectric layer 13 so that the silver layer 14 is formed to be smaller than the area of the fluorescent layer 12 and the dielectric layer 13 An enlarged spacing portion 17 extending from the spacing portion 16 is provided, (+) And (-) polarities are formed on the silver layer 14 by forming the insulating layer 15 on the lower surface of the silver layer 14 except for the ground 14a portion so that the silver layer 14a is exposed, A conductive line 5 is formed between the electrode plates 2 formed on both sides in the longitudinal direction of the silver layer 14 and the conductive line 5 is connected to the ground 14a And the connection conductor 6 is formed between the conductor 5 and the ground 14a so as to connect the phosphor layer 12 and the dielectric layer 13 to each other. , A program for calculating and comparing the areas of both sides, and then dividing the area into the same area regardless of whether it is a regular or irregular shape. Then, based on the divided area, the one side polymeric luminescent sheet 10a and the other side And the polymeric luminescent sheet 10b.

At this time, the lead wire 5 is formed on the surface of the insulating layer 15 of the polymer luminescent sheet and a finish insulating layer is further coated to cover the upper surface of the lead wire 5 for insulation of the lead wire 5 Can be configured.

According to the method for manufacturing a flat or non-flat type polymeric luminescent sheet, which is divided into two areas by the same area according to the present invention as described above, it is possible to prevent a short phenomenon in stack printing of characters or designs, (+) Or (-) polarity is applied to each divided side so that the character layer or the design layer is divided into two equal areas, without being influenced by the visual form, So that the overall brightness of the layer can be made equal.

In addition, since it is possible to manufacture with two printing plates, the structure and the manufacturing process can be simplified, the manufacturing cost can be reduced, and the current of the polymer light emitting sheet having the same light emitting area as that of the existing polymer light emitting sheet structure can be three times It is possible to use the same brightness, so that the energy saving effect is excellent, and in particular, the product using the battery can show its merit.

In contrast to the conventional art shown in FIG. 1, since the boundary lines 116 and 126 for separating the back electrode and the back electrode from the back electrode are unnecessary, the characters or the pattern can be clearly and clearly displayed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be clarified. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

5: lead 11: ITO film layer
12: fluorescent layer 13: dielectric layer
14: Silver layer 14a: Ground
15: insulating layer 16:

Claims (8)

delete delete delete delete delete (S1) forming an ITO film layer (11) having a transparent electrode to which an electric current is applied; (S2) forming a fluorescent layer (12) which is emitted by a current applied to the lower surface of the ITO film layer (11); Forming a dielectric layer (13) having a polarity separated by a positive charge and a negative charge as an electrically non-conductive layer on the lower surface of the fluorescent layer (12); Forming a silver layer 14 connected to the wire 5 to apply a current to the lower surface of the dielectric layer 13 and forming a ground 14a connected to one of the (+) and (-) electrodes S4); And forming an insulating layer 15 on the lower surface of the silver layer 14 except for the ground 14a so as to expose the ground 14a to prevent a short circuit phenomenon,
A character layer or a pattern layer is formed on the insulating layer 15 by the dielectric layer 13 and the fluorescent layer 12 and the character layer or the pattern layer formed by the dielectric layer 13 and the fluorescent layer 12 are the same (+) And (-) polarities are applied to the respective divided sides so that the overall brightness of the character layer or the pattern layer is made the same, and the fluorescent layer 12 and the dielectric layer 13 are constituted by characters The silver layer 14 may be formed to have a smaller area than that of the fluorescent layer 12 and the dielectric layer 13 in order to form a layer or a pattern layer, An insulating layer 15 is formed on the lower surface of the silver layer 14 except for the grounding portion 14a so that the extended spacing portion 17 extended from the spacing portion 16 is formed on the insulating layer 14 and the grounding portion 14a is exposed. (+) And (-) polarities of which are connected to each other by a conductor (5) on the silver layer (14) A conductive line 5 is formed between the electrode plates 2 formed on both sides in the longitudinal direction of the silver layer 14 and the conductive line 5 is formed so as to connect the conductive line 5 and the ground 14a. The area of both sides of the fluorescent layer 12 and the dielectric layer 13 in which the character layer or the pattern layer is formed is divided into two areas by calculation and contrast Based on the divided areas, the one side polymeric luminescent sheet 10a and the second polymeric luminescent sheet 10b, which have the same area as the character layer or the design layer, Wherein the light emitted from the light emitting device is divided into two areas by the same area.
The method according to claim 6,
The lead 5 is formed on the surface of the insulating layer 15 of the polymer luminescent sheet and the finish insulating layer is further coated so that the upper surface of the lead 5 is covered for insulation of the lead 5 Wherein the light emitted from the light source is divided into two light beams having the same area.
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