KR20090086738A - Organic light emitting diode display - Google Patents

Abstract

An organic light emitting diode display device is provided to protect a display panel from the external impact by mounting a reinforcing member between a display panel and a bezel. A first substrate(12) includes a display area and a pad area. A second substrate(14) is opposite to the first substrate. A sealing member couples the first substrate and the second substrate. A bezel(20) accommodates the first substrate and the second substrate. A reinforcing member(30) is mounted between the sealing member and the bezel. The edge part of the second substrate is deviated from the edge part of the first substrate. The mounting space is formed between the second substrate and the bezel. The reinforcing member is mounted on the mount space.

Description

Organic light emitting display device {ORGANIC LIGHT EMITTING DIODE DISPLAY}

The present invention relates to an organic light emitting display device, and more particularly, to an organic light emitting display device having a module.

Recently, display panels using organic light emitting diodes (OLEDs) have been attracting attention due to rapidly developing semiconductor technologies among various display panels applied to display devices.

In an active driving type organic light emitting display using organic light emitting diodes, pixels, which are basic units of image expression, are arranged on a substrate in a matrix manner, and thin film transistors (TFTs) and organic light emitting diodes are disposed for each pixel. Control the pixels independently. Here, the organic light emitting device is composed of a hole injection electrode, an organic light emitting layer and an electron injection electrode, by the energy generated when the exciton generated by combining electrons and holes in the organic light emitting layer falls from the excited state to the ground state Light emission is achieved.

In this manner, the organic light emitting diode display has a self-luminous property and, unlike the liquid crystal display, does not require a separate light source, thereby reducing thickness and weight. In addition, the organic light emitting diode display has high quality characteristics such as low power consumption, high luminance, and high response speed, and thus is suitable for use in mobile electronic devices.

In general, an organic light emitting diode display includes a display panel including two substrates fixed by a sealing member, a bezel coupled to the display panel, and a printed circuit board electrically connected to the display panel through a flexible circuit board. Configure

Unlike the liquid crystal display device in which a structure such as a backlight unit is positioned between the display panel and the bezel, there is no other structure between the display panel and the bezel. There is a problem that the display panel can be easily damaged as it is transmitted to the display panel.

An organic light emitting display device according to an embodiment of the present invention is to provide an organic light emitting display device having excellent mechanical strength characteristics so as to prevent damage to a display panel even when an external impact occurs.

An organic light emitting diode display according to an exemplary embodiment includes a first substrate including a display area and a pad area, a second substrate disposed opposite to the first substrate, and disposed between the first substrate and the second substrate. A sealing member joining the first substrate and the second substrate, a bezel accommodating the first substrate and the second substrate, and a reinforcing member mounted between the sealing member and the bezel, wherein an edge portion of the second substrate is formed in the first substrate. It is disposed to be offset from the edge of the substrate to form a mounting space between the bezel, the reinforcing member may be mounted in the mounting space.

The second substrate includes a first side portion corresponding to the pad region and a second side portion, third side portion, and fourth side portion not corresponding to the pad region, and the second side portion, the third side portion, and the fourth side portion include the first substrate. It can be placed inside of.

The reinforcing member may be one or more materials selected from the group consisting of epoxy, turpy and silicone. The reinforcing member may be mounted to be in contact with the bezel and the sealing member. The reinforcing member may be mounted on the bottom of the reinforcing member and the side surface may be in contact with the bezel and the second substrate. The reinforcing member may extend in the direction in which the three rod members intersect while being continuous.

The bezel may include a bottom portion and a cut portion protruding from an edge of the bottom portion. The bezel may include a material selected from the group consisting of stainless steel (SUS), cold plate cold commercial (SPCC), aluminum and nickel-silver alloys. Display devices can be used in portable products.

According to an exemplary embodiment of the present invention, a mechanical reinforcing member may be mounted between the display panel and the bezel to prevent the shock from being directly transmitted to the display panel even when an external shock occurs, thereby effectively protecting the display panel. Can be.

Hereinafter, an organic light emitting diode display according to an exemplary embodiment will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the present embodiments are intended to complete the disclosure of the present invention and to those skilled in the art to fully understand the scope of the invention. It is provided to inform you.

1 is an exploded perspective view of an organic light emitting diode display according to an exemplary embodiment, and FIG. 2 is a combined perspective view of FIG. 1.

1 and 2, the organic light emitting diode display 100 includes a display panel 10 displaying an image, a bezel 20 housing the display panel 10, and a display panel 10 and a bezel. And a reinforcing member 30 mounted between the 20 to protect the display panel 10.

The display panel 10 may be used for mobile, for example, a cell phone. In addition, the display panel 10 may be used for a large display such as a television in addition to the mobile.

The display panel 10 includes a first substrate 12 including a display area DA and a pad area PA, and a second substrate 14 disposed to face the first substrate 12. The display area DA of the display panel 10 is a portion where actual image display is performed. For example, when the display device 100 has an active matrix (AM) structure, the organic light emitting diode and the thin film transistors driving the organic light emitting diode and the organic light emitting diode may be formed on the first substrate 12 corresponding to the display area DA. Electrically connected wiring can be formed. In addition, a pad region PA is formed in the first substrate 12 as a portion extending from the second substrate 14, and in the pad region PA, pads (not shown) extending from wirings of the display area DA are formed. Is located. The pads are electrically connected to the printed circuit board 16 through the flexible circuit board 19.

The integrated circuit chip 18 is mounted in the pad area PA of the first substrate 12 to control the display panel 10. The integrated circuit chip 18 generates a plurality of timing signals for applying the data driving signal and the gate driving signal at an appropriate time. The signals are applied to the data line and the gate line of the display panel 10, respectively. A protective film 11 is formed around the integrated circuit chip 18 to protect the integrated circuit chip 18.

Electronic components (not shown) for processing driving signals are mounted on the printed circuit board 16, and connectors (not shown) for transmitting external signals to the printed circuit board 16 are provided. As shown in FIG. 2, the flexible printed circuit board 19 fixed to the display panel 10 in the state in which the display panel 10 is accommodated in the bezel 20 is bent to the rear of the bezel 20, so that the printed circuit board 16 is located at the rear of the bezel 20.

Meanwhile, subpixels are arranged in a matrix form in the display area DA of the first substrate 12, and the subpixels are disposed between the display area DA and the sealing member 13 (shown in FIG. 5) or outside the sealing member 13. A scan driver (not shown) and a data driver (not shown) for driving the pixels are located. Pad electrodes PA for transmitting electrical signals to the scan driver and the data driver are positioned in the pad area PA of the first substrate 12.

3 is a diagram illustrating a subpixel circuit structure of the display panel illustrated in FIG. 1, and FIG. 4 is a partially enlarged cross-sectional view of the display panel illustrated in FIG. 1.

3 and 4, the subpixel of the display panel 10 includes the organic light emitting element L1 and the driving circuit unit. The organic light emitting diode L1 includes an anode electrode 21, an organic emission layer 23, and a cathode electrode 25, and the driving circuit unit includes at least two thin film transistors and at least one storage capacitor C1. The thin film transistor basically includes a switching transistor T1 and a driving transistor T2.

The switching transistor T1 is connected to the scan line SL1 and the data line DL1, and converts the data voltage input from the data line DL1 into the driving transistor T2 according to the switching voltage input to the scan line SL1. send. The storage capacitor C1 is connected to the switching transistor T1 and the power supply line VDD and stores a voltage corresponding to a difference between the voltage received from the switching transistor T1 and the voltage supplied to the power supply line VDD.

The driving transistor T2 is connected to the power supply line VDD and the storage capacitor C1 to output an output current I _OLED proportional to the square of the difference between the voltage stored in the storage capacitor C1 and the threshold voltage. ) And the organic light emitting element L1 emits light by the output current I _OLED . The driving transistor T2 includes a source electrode 27, a drain electrode 29, and a gate electrode 22, and the anode electrode 21 of the organic light emitting element L1 is connected to the drain electrode 29 of the driving transistor T2. ) Can be connected. The configuration of the subpixel is not limited to the above-described example, and can be variously modified.

The second substrate 14 is bonded to the first substrate 12 at a predetermined interval by the sealing member 13 to seal and protect the driving circuit parts and the organic light emitting elements formed on the first substrate 12 from the outside. . A polarizing plate (not shown) that suppresses reflection of external light may be positioned outside the display area DA of the second substrate 14, and an absorbent material (not shown) may be attached to an inner surface of the second substrate 14. Can be.

1 and 2, the bezel 20 accommodates the display panel 10 and is fixedly installed in a case of a product that is actually applied.

The bezel 20 includes a bottom portion 24 corresponding to the size of the display panel 10 and a cut portion 26 formed at a right angle with a predetermined height from an edge of the bottom portion 24. Here, the cut part 26 on the side where the flexible circuit board 19 is disposed is cut in consideration of its size so that the flexible circuit board 19 can be positioned without interference.

The bezel 20 may be formed of a material having a high strength to protect the display panel 10. For example, the bezel 20 may be made of a metal material such as stainless steel having a certain strength, stainless plate cold commercial (SPCC), aluminum, and a nickel-silver alloy. . Therefore, the display panel 10 can be effectively protected from external shock. Of course, the material of the bezel 20 is not limited to the above. The double-sided tape 28 may be positioned between the bottom 24 of the bezel 20 and the display panel 10 to fix the display panel 10 to the bezel 20.

In the present exemplary embodiment, the reinforcing member 30 is disposed between the bezel 20 and the display panel 10. As shown in FIG. 5, a mounting space A is formed between the display panel 10 and the bezel 20 to arrange the reinforcing member 30. A process in which the mounting space A for mounting the reinforcing member 30 is formed between the bezel 20 and the display panel 10 will be described in more detail below.

As described above, the display panel 10 includes the first substrate 12 including the display area DA and the pad area PA, and the second substrate 14 disposed to face the first substrate 12. Include. In the present exemplary embodiment, the second substrate 14 is positioned inside the first substrate 12 at an edge portion thereof that does not correspond to the pad area PA, away from the edge of the first substrate 12. A mounting space A is formed between the 14 and the bezel 20.

More specifically, the second substrate 14 may include a first side portion 12a corresponding to the pad area PA, a second side portion 12b not corresponding to the pad area PA, and a third side portion 12c. And a fourth side portion 12d, wherein the second side portion 12b, the third side portion 12c, and the fourth side portion 12d are separated from the edge of the first substrate 12 to form an interior of the first substrate 12. Is placed on.

That is, in the second substrate 14, the second side portion 12b, the third side portion 12c, and the fourth side portion 12d are disposed in the inner direction of the first substrate 12 so that the entirety of the second substrate 14 may be formed. As the area is reduced, a mounting space A for mounting the reinforcing member 30 is formed between the bezel 20 and the second side portion 12b, the third side portion 12c, and the fourth side portion 12d. The position where the second side portion 12b, the third side portion 12c and the fourth side portion 12d are disposed in the inner direction of the first substrate 12 may be disposed at a position close to the mounting position of the sealing member 13. Can be.

As shown in FIG. 1, the reinforcing member 30 has three rod members continuous along the second side portion 12b, the third side portion 12c, and the fourth side portion 12d of the second substrate 14. It can be connected in the cross direction leading to. However, the shape of the reinforcing member 30 is not limited to the above-described shape, it may be formed of a combination of a plurality of rod shape.

The mounting of the reinforcing member 30 will be described in more detail with reference to FIG. 5. The bottom surface of the reinforcing member 30 is seated on the upper side of the first substrate 12, and the side surfaces of the reinforcing member 30 are formed on the bezel 20 and the second substrate ( 14) to be in contact with each other. In addition, the reinforcing member 30 may be mounted to contact the sealing member 13, and may also serve as a sealing material.

The material of the reinforcing member 30 may be epoxy, silicon, or turpy to form a mechanical form. In addition, although not shown in the reinforcing member 30, irregularities may be formed to more smoothly absorb external shocks. Even though external impact is applied to the bezel 20 through the mounting of the reinforcing member 30, the display panel 10 may be easily protected by the reinforcing member 30.

The present invention has been described above with reference to the embodiments shown in the drawings. However, the present invention is not limited thereto, and various modifications or other embodiments falling within the scope equivalent to the present invention are possible by those skilled in the art. Therefore, the true scope of protection of the present invention should be defined by the following claims.

1 is an exploded perspective view of an organic light emitting diode display according to an exemplary embodiment.

FIG. 2 is a combined perspective view of FIG. 1.

3 is a diagram illustrating a subpixel circuit of the display panel illustrated in FIG. 1.

4 is a partially enlarged cross-sectional view of the display panel shown in FIG. 1.

5 is a cross-sectional view taken along the line VV of FIG. 2.

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

10 ... Display panel 12 ... 1st board

13.Sealing member 14 ... Second substrate

20 Bezel 30 Reinforcement

Claims (9)

A first substrate including a display area and a pad area; A second substrate disposed opposite the first substrate; A sealing member disposed between the first substrate and the second substrate to couple the first substrate and the second substrate; A bezel accommodating the first substrate and the second substrate; And Reinforcement member mounted between the sealing member and the bezel Including; The edge portion of the second substrate is disposed off the edge portion of the first substrate to form a mounting space between the bezel, and the reinforcing member is mounted in the mounting space. The method of claim 1, The second substrate, A first side part corresponding to the pad area and a second side part, a third side part, and a fourth side part not corresponding to the pad area; The second side portion, the third side portion, and the fourth side portion are disposed in the first substrate. The method of claim 1, The reinforcement member is mounted to be in contact with the bezel and the sealing member. The method of claim 1, The bottom of the reinforcing member is mounted on the upper side of the first substrate, the side surface is mounted so as to contact the bezel and the second substrate. The method of claim 1, The reinforcement member is an organic light emitting display device in which three rod-shaped members are connected in a row while crossing each other. The method of claim 1, The reinforcing member is at least one material selected from the group consisting of epoxy, turpy, and silicon. The method of claim 1, The bezel, Bottom, And a cut portion protruding from an edge of the bottom portion. The method of claim 1, The bezel, An organic light emitting display device comprising a material selected from the group consisting of stainless steel (SUS), cold plate cold commercial (SPCC), aluminum and nickel-silver alloys. The method of claim 1, The display device is an organic light emitting display device used in a portable product.

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