KR100849481B1 - Organic Light Emitting Diode Assembly - Google Patents

Abstract

The present invention relates to an organic light emitting diode assembly, the organic light emitting diode assembly of the present invention comprises: a circuit board having a plurality of connection terminal portions; A plurality of organic light emitting diode modules (OLED modules) are arranged adjacent to each other in a matrix form on the circuit board, and electrically connected to the connection terminal part of the circuit board at one side thereof to protrude a connector for transmitting and receiving signals. Characterized in that configured.

According to the present invention, since a plurality of organic light emitting diode modules are detachably arranged in a matrix form on a circuit board to configure a display device or a backlight unit, there is an advantage that a large display device or a backlight unit can be easily implemented. .

Organic light emitting diode assembly, OLED, organic light emitting diode module

Description

Organic Light Emitting Diode Assembly

1 is a perspective view showing the structure of an embodiment of an organic light emitting diode assembly according to the present invention

2 is a plan view of an organic light emitting diode module applied to the organic light emitting diode assembly of FIG.

3 is a cross-sectional view illustrating main parts of the organic light emitting diode assembly of FIG. 1.

4 is a plan view showing the structure of another embodiment of an organic light emitting diode assembly according to the present invention;

5 is a plan view showing the structure of another embodiment of an organic light emitting diode assembly according to the present invention

Explanation of symbols on the main parts of the drawings

10: circuit board 11: connection terminal portion

20: organic light emitting diode module 21: connector

22 substrate 23 anode electrode

24: organic electroluminescent unit 25: cathode electrode

26: case 31: adhesive

32: fixing means

The present invention relates to an organic light emitting diode assembly, and more particularly, to an organic light emitting diode assembly in which a plurality of organic light emitting diode modules are arranged in a matrix to realize a display device having a large area.

As is well known, an organic light emitting diode (OLED) recombines electrons and holes injected through an anode and a cathode into an organic thin film to form excitons, and light of a specific wavelength is generated by energy from the formed excitons. Self-luminous display device using the phenomenon.

A typical organic light emitting diode (OLED) is made through the following process.

After depositing the ITO metal on the glass substrate, the electrode is patterned to a desired shape through a photoresist process to form an anode electrode to which a positive power is applied, and to have a predetermined chromophore in the screen display area where the screen is displayed. The organic material is deposited to form an organic electroluminescent unit that emits light by the flow of current.

Subsequently, a cathode electrode is formed by depositing an electrode material, such as a cathode forming metal, that is, aluminum (Al), magnesium (Mg), or the like, on the upper surface of the organic electroluminescent portion.

The organic light emitting diode is a self-luminous device that does not need an additional surface light source such as a backlight unit, and has an advantage of wide viewing angle, fast response speed, and thin thickness.

However, although the conventional organic light emitting diode has such excellent characteristics as described above, since the electrode is formed to be considerably long when implemented in a large area, the resistance of the electrode increases, thereby increasing the voltage drop width.

In addition, when the organic light emitting diode is implemented in a large area, it is difficult to uniformly form a thickness over the entire area in the process of photoresist-depositing the organic electroluminescent unit. If the thickness of the organic electroluminescent portion is formed unevenly, a problem arises in that the image quality of the uniform color cannot be realized over the entire surface of the organic light emitting diode.

In addition, when a problem occurs in any part of the organic light emitting diode, there is a disadvantage in terms of cost since the entire large area of the organic light emitting diode must be discarded.

The present invention is to solve the above problems, an object of the present invention is to provide an organic light emitting diode assembly that is easy to manufacture in a large area and can provide a uniform and excellent image quality over the entire surface.

Another object of the present invention is to pixelate the organic light emitting diode module so that when a problem occurs on any part of the screen, it is possible to replace only the part where the problem occurs without replacing the entire screen, thereby simplifying maintenance and minimizing waste of cost. It is to provide an organic light emitting diode assembly that can be.

The present invention for achieving the above object is a circuit board having a plurality of connection terminal portion; A plurality of organic light emitting diode modules (OLED Module) is arranged adjacent to each other in a matrix form on the circuit board, the connector is electrically connected to the connection terminal portion of the circuit board on one side to protrude a connector for transmitting and receiving signals. The organic light emitting diode assembly is provided.

According to the present invention, since a plurality of organic light emitting diode modules are detachably arranged in a matrix form on a circuit board to configure a display device or a backlight unit, there is an advantage that a large display device or a backlight unit can be easily implemented. .

Hereinafter, exemplary embodiments of the organic light emitting diode assembly according to the present invention will be described in detail with reference to the accompanying drawings.

First, referring to FIGS. 1 to 3, an organic light emitting diode assembly of the present invention includes a circuit board 10 such as a PCB having an area corresponding to the screen size to be implemented, and a matrix on the circuit board 10. Fixing the organic light emitting diode module 20 and the organic light emitting diode module 20 and the organic light emitting diode module 20 which are arranged adjacent to each other in a shape and electrically connected to the circuit board 10. Fastening means (32).

The circuit board 10 is provided with a connection terminal portion 11 for electrical connection at the position where each organic light emitting diode module 20 is to be placed. The connection terminal part 11 is formed of, for example, a land formed on the circuit board 10 or the like.

Each of the organic light emitting diode modules 20 is provided with a connector 21 connected to the connection terminal 11 of the circuit board 10 to transmit and receive electrical signals. Here, the connector 21 is made of a flexible printed circuit board (FPCB), and extends to the outside through one side portion of the organic light emitting diode module 20 and then folded to the lower side to connect with the connection terminal portion 11. Connected.

As shown in FIG. 3, the connector 21 is connected to the connection terminal 11 of the circuit board 10 by an adhesive 31.

In the organic light emitting diode module 20, an anode electrode 23, an organic electroluminescent unit 24, and a cathode electrode 25 are sequentially deposited on a substrate 22 made of glass or transparent synthetic resin. ) Is sealed in the structure and the contact with air is blocked. The connector 21 is installed to penetrate one side of the case 26 to transmit an electrical signal to the anode electrode 23 and the cathode electrode 25. A portion through which the connector 21 penetrates is preferably coated with a sealing material such as a photocurable resin to maintain airtightness.

As described above, when the connector 21 of the organic light emitting diode module 20 is folded to the lower side of the organic light emitting diode module 20 and connected to the connection terminal 11, the gap between the organic light emitting diode modules 20 may be reduced. It can be arranged in close contact with each other while minimizing. Therefore, it is possible to prevent the dark portion from occurring due to the interval between the organic light emitting diode modules 20.

On the other hand, the organic light emitting diode module 20 may be detachably fixed to the circuit board 10 by a separate fixing means (32). Here, the fixing means 32 may be a double-sided tape, an adhesive, a hook or the like.

The organic light emitting diode assembly configured as described above operates as follows.

Although not shown in the drawing, the circuit board 10 may be equipped with various electronic components such as a drive IC for controlling a screen to be implemented. When a predetermined control signal is transmitted through the drive IC (not shown), the control signal is transmitted to the organic light emitting diode modules 20 through the connection terminal unit 11 and the connector 21.

Accordingly, each of the organic light emitting diode modules 20 emits a predetermined light through each pixel, and a desired screen is realized through the entire organic light emitting diode assembly by the combination of the emitted light.

As described above, in the organic light emitting diode assembly of the present invention, a plurality of organic light emitting diode modules 20 are arranged in a matrix form on the circuit board 10 to easily implement a screen having a desired size.

In addition, when a problem occurs in any one of the organic light emitting diode modules 20, the organic light emitting diode module 20 is separated from the circuit board 10, and the new organic light emitting diode module 20 is removed. By attaching to the organic light emitting diode module can be used semi-permanently without having to replace or discard the entire organic light emitting diode assembly.

On the other hand, in the embodiment of the organic light emitting diode assembly described above, in order to minimize the gap between the organic light emitting diode module 20, the connection terminal portion 11 is formed directly below each organic light emitting diode module 20, the connector 21 is folded to the lower side of the organic light emitting diode module 20 and is configured to be connected to the connection terminal portion 11.

Alternatively, as shown in another embodiment of FIG. 4, the odd-numbered organic light emitting diode module 20 and the even-numbered organic light emitting diode module 20 are arranged to be spaced apart from each other by a predetermined distance, and the connection terminal part therebetween ( The connector 21 of each organic light emitting diode module 20 may be connected to a connection terminal part (not shown) while extending in the direction of each other.

In addition, as shown in FIG. 5, the organic light emitting diode modules 20 in each row are arranged at regular intervals, and a connection terminal part (not shown) is formed outside one side of the organic light emitting diode modules 20 in each row. The connector 21 of the organic light emitting diode module 20 may be connected.

Of course, in the above-described second embodiment and the third embodiment, the distance between the vertical organic light emitting diode modules 20 is spaced apart and the connector 21 is electrically connected. Alternatively, the distance between the horizontal rows of the organic light emitting diode modules 20 is different. May be spaced a certain distance apart and the connector 21 may be electrically connected.

Meanwhile, the above-described embodiments of the organic light emitting diode assemblies are implemented as a display device that outputs a desired screen on its own, but may alternatively be implemented as a backlight unit that provides a surface light source behind the liquid crystal panel of the liquid crystal display device. .

As described above, according to the present invention, since a plurality of organic light emitting diode modules are detachably arranged in a matrix form on a circuit board to configure a display device or a backlight unit, a large display device or a backlight unit can be easily implemented. There is an advantage.

In addition, since each organic light emitting diode module is manufactured in a small size, it is easy to manufacture, and it is easy to maintain a constant thickness of the organic light emitting unit, and there is an advantage of improving luminance uniformity.

In case an abnormality occurs in any part of the organic light emitting diode assembly, the organic light emitting diode module of the organic light emitting diode assembly can be easily removed from the circuit board and replaced with a new one, thus maintaining the organic light emitting diode assembly at low cost and effort. There are also benefits to manage.

Claims (5)

A circuit board on which a plurality of connection terminals are formed; It includes a plurality of organic light emitting diode module (OLED) is arranged adjacent to each other in a matrix form on the circuit board, the connector is electrically connected to the connection terminal portion of the circuit board on one side to protrude a connector for transmitting and receiving a signal; Configured; The organic light emitting diode modules of the organic light emitting diode modules arranged on the circuit board, the columns of the nth row of the organic light emitting diodes and the n + 1th organic light emitting diode modules of the organic light emitting diode module, characterized in that extending in the direction of each other connected to the connection terminal portion Light emitting diode assembly. The organic light emitting diode assembly of claim 1, wherein the connector is made of a flexible printed circuit board (FPCB). delete delete The organic light emitting diode assembly of claim 1, further comprising fixing means for detachably fixing the organic light emitting diode module to a circuit board.

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