KR100893085B1 - The transparent light emitting apparatus - Google Patents

Abstract

In the present invention, when a character or graphic is expressed on both sides by using a transparent plate coated with a transparent electrode, the character or graphic can be implemented while maintaining uniform brightness, and the production, handling and maintenance of high reliability and productivity are possible. It is an object of the present invention to provide a transparent electroluminescent device that is easy to repair.

In order to achieve the above object, the present invention is arranged in a matrix structure between the first transparent plate, the second transparent plate formed to be spaced apart a predetermined interval facing the first transparent plate, the first and second transparent plate A transparent electronic display panel comprising a plurality of LEDs and a transparent electrode forming a circuit pattern surface for supplying power to each of the LEDs on a surface of the both surfaces of the first transparent plate facing the second transparent plate; And a control board for controlling the respective LEDs of the transparent display board to display characters or graphics, wherein the control board includes a correction resistor for uniformly controlling the brightness of each LED. And correspondingly connected between the input terminal and the correction resistor in a matrix wiring structure in order to minimize the input terminal of the control signal for displaying a character or graphic, and the correction electrode of the transparent electrode and the control board. It provides a transparent electroluminescent device comprising a; connecting portion for connecting the wiring to the flexible circuit board.

Description

Transparent lighting device {THE TRANSPARENT LIGHT EMITTING APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transparent light emitting device, and more particularly, to a transparent light emitting device capable of displaying moving characters or graphics using both surfaces while blinking a plurality of LEDs having a dot matrix structure.

Signboards using light emitting devices, such as light emitting diodes (LEDs), are widely used in simple lighting, advertisement signs, and interiors with aesthetics, and provide various colors of letters and graphics.

In such an electronic board, a transparent electronic board for applying a transparent electrode to a transparent plate made of a transparent material, and attaching the chip LED to a circuit pattern formed by dividing the coated transparent electrode into a surface, so that both sides of the electronic board can be viewed from both sides of the dot LED. Each chip LED performs the function of one pixel for character or graphic representation.

Here, the transparent plate constituting the transparent electronic sign, the surface conductor is formed by applying a transparent electrode layer (hereinafter referred to as "ITO transparent electrode layer"), such as indium-tin oxide (ITO) or indium-zinc oxide (IZO) on the glass The basic structure is to do.

However, since the transparent plate functions as a surface conductor only on a single side, it cannot be used on both sides using through holes, for example, like a general PCB substrate.

In addition, since the ITO transparent electrode layer forming the surface conductor has a large inherent resistivity, the resistance values are different depending on the line width and thickness of the pattern when constructing the circuit, which is the line width and the width of the transparent plate having the ITO transparent electrode layer. When the pattern is cut to measure the resistance value along the length, the line width is thick and the length is short, and the resistance value is significantly low. The thinner and longer the line width is, the larger the resistance value is.

From this, when designing a dot matrix structure wiring with full-color 3-chip LED on a transparent plate having an ITO transparent electrode layer and using it as a display or screen capable of realizing a video, the transparent plate having the ITO transparent electrode layer has Since the design of the single-sided wiring and its specific resistivity are large, the transparent electrode pattern should be as thick as possible. Therefore, it is difficult to form a pattern freely as thin and thin as in the case of a general PCB copper foil pattern. The same is true for one-chip LEDs.

In addition, even when the dot matrix structure wiring is implemented with a full-color three-chip LED on a transparent plate having an ITO transparent electrode layer, due to the intrinsic resistance value which varies only by the difference according to the overall size, line width and length, A problem arises in that the light of each LED cannot be kept evenly throughout.

Furthermore, when patterning a structure of a dot matrix with a 3-chip LED on a transparent plate having an ITO transparent electrode layer, for example, when implementing a dot matrix wiring with 16 X 16 LEDs on a transparent plate having an ITO transparent electrode layer, The total number of LEDs is 256, and full color (multicolor) 3-chip LEDs have 4 electrodes, so the total number of wires coming from the transparent plate is 256 X 4 patterns = 1,024, and mono color (monochrome) 1-chip LEDs are 2 Since there are two electrodes, the total number of wires coming out from the transparent plate becomes 256 X 2 patterns = 512, which is not only undesirable in terms of workability or quality of the product, but also the overall size of the product. There is a problem that is difficult to install and maintain.

From this, the present invention is to solve the above problems at once, and when using a transparent plate coated with a transparent electrode to express the characters or graphics on both sides, it is possible to implement a moving character or graphics while maintaining uniform brightness. In addition, it aims to provide a transparent light emitting device that is easy to manufacture, handle and maintain with high reliability and productivity.

In order to achieve the above object, the present invention is arranged in a matrix structure between the first transparent plate, the second transparent plate formed to be spaced apart a predetermined interval facing the first transparent plate, the first and second transparent plate A transparent electronic display panel comprising a plurality of LEDs and a transparent electrode forming a circuit pattern surface for supplying power to each of the LEDs on a surface of the both surfaces of the first transparent plate facing the second transparent plate; And a control board for controlling the respective LEDs of the transparent display board to display characters or graphics, wherein the control board includes a correction resistor for uniformly controlling the brightness of each LED. And correspondingly connected between the input terminal and the correction resistor in a matrix wiring structure in order to minimize the input terminal of the control signal for displaying a character or graphic, and the correction electrode of the transparent electrode and the control board. It provides a transparent electroluminescent device comprising a; connecting portion for connecting the wiring to the flexible circuit board.

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According to the transparent electroluminescence device of the present invention having the above configuration, when the power is supplied to each LED through the transparent electrode of the transparent display plate, the control board is controlled so that the resistance value of the transparent electrode connected to each LED becomes uniform. By providing a corresponding correction resistor for each LED, it is possible to express characters or graphics while maintaining uniform brightness without being affected by the intrinsic resistance value of the transparent electrode on the transparent plate, and display characters or graphics on the control board. By connecting between the input terminal of the control signal and the correction resistor in a matrix wiring structure, it is possible to represent various types of characters or graphics as a video without restriction of the transparent electrode formed only on the cross section on the transparent plate, The flexible electrode and the compensating resistor of the control board Reliability and productivity to create high by connecting wires and is able to effect that enables easy handling and maintenance after installation.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to be described in detail so that those skilled in the art can easily implement the present invention. It does not mean that the technical spirit and scope of the present invention is limited.

FIG. 1 schematically illustrates a transparent light emitting device according to an embodiment of the present invention, and FIG. 2 specifically illustrates a circuit diagram of the transparent light emitting device of FIG. 1.

As illustrated in FIGS. 1 and 2, the transparent electroluminescent device 100 according to an embodiment of the present invention may include a transparent electroluminescent plate 110, a control board 130, a transparent electroluminescent plate 110, and a control board ( It is composed of a flexible circuit board 120 as a connection portion for connecting 130.

The transparent light emitting plate 110 includes a first transparent plate 111, a second transparent plate 112, an LED 113, and a transparent electrode 114.

The first transparent plate 111 serves as a basis for holding the overall shape of the transparent light emitting plate 110, and is made of a transparent material such as a transparent glass having a plate shape having a substantially square shape, and the purpose of installing the transparent light emitting device and In consideration of the position, it is also applicable to have a PC (Poly Carbonate) of a transparent material or an acrylic plate shape.

The second transparent plate 112 is made of a transparent material having a shape and a size corresponding to the shape of the first transparent plate 111, and is formed to face the first transparent plate 111 at a predetermined interval.

The LED 113 is disposed in a dot matrix structure between the first transparent plate 111 and the second transparent plate 112 to be used as a light source of the transparent light emitting plate 110. Chips of the Surface Mount Device type can be used to improve transparency.

Here, the LED 113 is not only a 2-pin monochromatic LED, but also emits colors in R, G, and B according to a state in which each electrode terminal is connected to a power source through the transparent electrode 114, and can be expressed in various forms of characters or graphics. 4-pin 3-chip full color LEDs are used.

The transparent electrode 114 may be coated with an indium-tin oxide (ITO) or indium-zinc oxide (IZO) on a surface of the both sides of the first transparent plate 111 that faces the second transparent plate 112. A circuit pattern surface for supplying power to each LED 113 is formed, and one region of the transparent electrode is removed and divided into a plurality of electrically separated electrode regions.

Here, the electrode terminal of each of the LED 113 and the transparent electrode 114 is adhesively connected with a conductive adhesive of a material having excellent adhesion, such as a silver conductor or silver paste and low surface resistance.

The flexible circuit board 120 is a connection part for forming a wiring connecting the transparent LED board 110 and the control board 130, and a transparent electrode connected to the electrode terminal of each LED 113 of the transparent LED board 110. Many types of wires, such as cables used to connect 114 and the correction resistor 131 of the control board 130, are simplified and simplified by the connection wiring 121.

As described above, when designing a structure of a dot matrix with three chip LEDs on a transparent plate to enable various characters or graphics, for example, 16 X 16 LEDs on a transparent plate having an ITO transparent electrode layer When implemented with dot matrix wiring, the total number of LEDs is 256 and full color (multicolor) 3-chip LEDs have 4 electrodes, so the total number of wires coming from the transparent plate is 256 X 4 patterns = 1,024, and mono Since the color (monochrome) single-chip LED has two electrodes, the total number of wires coming out of the transparent plate is 256 X 2 patterns = 512, which is practical in terms of workability and product quality in order to realize this by soldering. Not only is it undesirable, but the overall size of the product is larger, the installation and maintenance was also difficult, the wiring by the flexible circuit board 120 It can be manufactured with high reliability and productivity by efficiently connecting the parts to the parts, and can be easily handled and maintained after installation.

In this case, when the flexible printed circuit board 120 is connected to the transparent electronic board 110, the pattern thickness of the ITO transparent electrode layer cannot be thinned, unlike in the case of a general PCB, and thus a hole in the flexible printed circuit board 120 is provided. When the transparent electrode connection terminal 122 formed by drilling the transparent electrode 114 and the connection wiring 121 of the transparent display board 110 with silver paste, the contact surface is secured and the contact force is reinforced, thereby making it more rigid. To be bonded.

In addition, the flexible circuit board 120 is easily connected and connected to the control board 130 and the correction resistance connection connector 123. In this case, the flexible circuit board 120 may be flexibly installed by utilizing the characteristics of the flexible flexible circuit board 120. have.

The control board 130 uniformly corrects the current flowing differently to the LED 113 by the resistance value of each transparent electrode 114, which varies according to the difference of the transparent electronic sign 110, and displays various characters or graphics. A matrix wiring structure for achieving this is realized.

To this end, the control board 130 is provided with a correction resistor 131 for each of the LEDs 113 to uniformly control the brightness of the LEDs 113.

That is, the resistance value of the transparent electrode 114 connected to each of the LEDs 113 having different resistance values according to the difference of the line width and length in the transparent light emitting plate 110 is corrected in the control board 130. It is possible to uniformly correct the current flowing through each LED 113 by attaching each, thereby extending the life while equalizing the brightness of LEDs.

In this case, the sum of the resistance value of each of the correction resistors 131 of the control board 130 and the resistance value of the corresponding transparent electrode 114 is the same, thereby making the current flowing through each LED constant. .

In addition, the control board 130 displays various characters or graphics by connecting the input terminal 133 of the control signal and the correction resistor 131 in a matrix wiring 132 structure using a pattern on a general PCB.

The power supplied to the transparent electroluminescent device 100 according to the embodiment of the present invention is supplied or cut off to each LED 113 through the transparent electrode 114 according to the control signal of the input terminal 133 of the control signal. Express various characters or graphics.

From this, a transparent electroluminescent device having a dot matrix structure with a chip LED, which is impossible or hardly practical due to the design of only the single-sided wiring, which is a general characteristic of the transparent plate having an ITO transparent electrode layer, and its own specific resistance value is large. 130 and the flexible circuit board (1200).

3 and 4 specifically illustrate an overall circuit diagram of a transparent electroluminescent device according to other embodiments of the present invention.

In the transparent electroluminescent devices 200 and 300 according to other exemplary embodiments of the present invention, as illustrated in FIGS. 3 and 4, the transparent electroluminescent plates 210 and 310 are formed of a matrix of common electrodes. Each row or column of the structure is connected so that the number of transparent electrodes can be reduced to contribute to increasing the number of pixels of the LED dot matrix or reducing the total number of wirings.

First, as illustrated in FIG. 3, the transparent electroluminescent device 200 according to another embodiment of the present invention connects the transparent electroluminescent plate 210 to each column unit of the matrix structure of the common electrode. The transparent display board 210 forms a pattern surface such that the cathode, which is a common electrode, of the transparent electrodes for supplying power to each LED is connected in the vertical direction.

From this, in the transparent display board 210 of the same size, it is possible to put more LEDs by reducing the dot pitch interval than in the case of the transparent display board 110 according to an embodiment of the present invention to increase the overall resolution.

Here, the flexible printed circuit board 220 and the control board 230 need only connect one transparent electrode in which the cathode, which is the common electrode, is connected in the vertical direction, and the transparent electronic display board 110 according to an embodiment of the present invention. ) Is simplified.

Next, in the transparent electroluminescent device 300 according to another embodiment of the present invention, as shown in Figure 4, the common electrode of the transparent electrode is connected to each row unit of the matrix structure of the transparent electrode, The transparent display board 310 connects the common electrodes using wire bonding or general wires such that the cathode, which is the common electrode, of the transparent electrodes for supplying power to each LED is connected in the horizontal direction.

Here, the flexible printed circuit board 320 and the control board 330 need only connect one transparent electrode to which the cathode, which is the common electrode, is connected in the horizontal direction, so that the transparent electronic display board 110 according to the embodiment of the present invention is connected. Is simplified than in the case.

This invention is not limited to the above embodiments, various modifications are possible within the scope of the invention described in the claims, and such modifications are also included within the scope of the invention.

1 schematically illustrates a transparent light emitting apparatus according to an embodiment of the present invention,

2 illustrates a circuit diagram of the transparent electroluminescent device of FIG. 1 in detail;

3 and 4 specifically illustrate an overall circuit diagram of a transparent electroluminescent device according to other embodiments of the present invention.

<Explanation of symbols for the main parts of the drawings>

100, 200, 300: transparent light emitting device according to embodiments of the present invention

110, 210, 310: transparent electric sign 111: first transparent plate

112: second transparent plate 113: LED

114: transparent electrode

120, 220, 320: flexible circuit board 121: connection wiring

122: transparent electrode connection terminal

123: compensation resistor connection connector

130, 230, 330: control board 131: compensation resistor

132: matrix wiring 133: control signal input terminal

Claims (3)

A first transparent plate, a second transparent plate formed to be spaced apart from the first transparent plate at a predetermined interval, a plurality of LEDs arranged in a matrix structure between the first and second transparent plates, and the first transparent plate A transparent electronic display panel comprising a transparent electrode for forming a circuit pattern surface for supplying power to each of the LEDs on a surface of the two surfaces of which faces the second transparent plate; A control board for controlling the respective LEDs of the transparent display board to display a character or graphics; The control board is provided with a correction resistor for controlling the brightness of each LED uniformly for each LED, and the input terminal and the correction to minimize the input terminal of the control signal for displaying characters or graphics Connects the resistors in a matrix wiring structure, And a connection part connecting the transparent electrode of the transparent display board and the correction resistor of the control board to a flexible circuit board. delete delete

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