KR101285533B1 - Display device capable of restraing a radiation of heat - Google Patents

Abstract

The present invention discloses a display element having a structure in which heat generated during driving is not transmitted to a member in contact with a user's skin. According to an aspect of the present invention, a display device includes: a first substrate having an active region formed on a first surface thereof; And a second substrate positioned in front of the second surface of the first substrate and fixed to the first substrate at predetermined intervals. Here, a plurality of rods having a predetermined height are fixed to the second surface of the first substrate, and the second substrate is fixed to the end of each rod.

Display elements

Description

Display device capable of reducing the radiation of internal heat

1 is a plan view of an organic electroluminescent device.

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

3 is a cross-sectional view showing the internal configuration of the individualized device after the glass substrate cutting process is finished.

4 is a cross-sectional view of an organic electroluminescent device according to the present invention.

The present invention relates to a display element, and more particularly to a display element having a structure capable of suppressing external emission of heat generated during driving.

Organic electroluminescence is a kind of display element, and electrons and holes injected through a cathode and an anode are recombined into an organic (low molecular or polymer) thin film to form excitons, and energy from the excitons formed. Is a phenomenon in which light of a specific wavelength is generated. Referring to the structure and manufacturing steps of the organic EL device using this phenomenon as follows.

1 is a plan view of an organic electroluminescent element, and FIG. 2 is a cross-sectional view of the organic electroluminescent element taken along the line A-A of FIG.

The organic electroluminescent element includes an ITO layer 2 arranged on the transparent substrate 1, an organic electroluminescent layer 3 formed on the ITO layer 2 (hereinafter referred to as an "organic EL layer"), and an organic EL layer 3 It consists of the metal layer 4 formed on it.

Each step of manufacturing the organic EL device having the structure as described above will be described briefly with reference to the drawings.

First, a plurality of ITO layers 2 are formed on the glass substrate 1, and the insulating film 4a is formed in the entire region except for a part of the ITO layer 2 (light emitting region composed of an organic EL layer and a metal layer). . Thereafter, a plurality of barrier ribs 5 are formed in the form of crossing the ITO layer 2, and then the organic EL layer 3 and the metal layer 4 are sequentially formed on the entire structure including the barrier ribs 5. .

Regions (hereinafter, referred to as "active regions") having a structure as shown in Figs. 1 and 2 are formed on the glass substrate 1. Subsequently, a wiring process and a cap attaching process are performed for each ITO layer 2 and the metal layer 4 in each active region, and a glass substrate cutting process for individual element formation is finally performed.

FIG. 3 is a cross-sectional view showing the internal structure of the individualized device after the glass substrate cutting process is finished. For convenience, the active region R formed on the substrate 1 is shown as a block.

In FIG. 3, reference numeral “C” denotes a cap attached to the glass substrate 1 through the sealant S to isolate the active region R from the outside, and “G” denotes a cap C inside. Each represents a getter that absorbs the water present in the space.

The organic electroluminescent device having the structure shown in FIGS. 1 to 3 is a self-luminous device, and when driven, a large amount of heat is generated, particularly in the active region R, and the generated heat is externally transmitted through the glass substrate 1. Is released.

On the other hand, the light (image) generated in the active region (R) also proceeds to the outside through the glass substrate 1 is displayed on the glass substrate (1). As such, the heat generated inside the device is transferred to the glass substrate 1 on which the image is displayed, so that the user can feel the heat. In particular, when the device is applied to the main window of the mobile communication terminal, the user's skin may be uncomfortable due to heat since the glass substrate 1 directly contacts the user's skin during a call.

On the other hand, a polarizer in the form of a thin film is attached to the surface of the glass substrate 1 of the individualized device, and therefore, the heat transferred to the glass substrate 1 can greatly affect the function of the polarizer.

Accordingly, the present invention is to solve the above-described problems caused by the heat generated when the display element is driven, the present invention provides a display element having a structure in which the heat generated during the drive is not transmitted to the member in contact with the user's skin. The purpose is.

According to an aspect of the present invention, a display device includes: a first substrate having an active region formed on a first surface thereof; And a second substrate positioned in front of the second surface of the first substrate and fixed to the first substrate at predetermined intervals. Here, a plurality of rods having a predetermined height are fixed to the second surface of the first substrate, and the second substrate is fixed to the end of each rod.

Hereinafter, the display device according to the present invention will be described by taking an organic electroluminescent device as an example.

4 is a cross-sectional view showing the configuration of the organic electroluminescent device according to the present invention. The active region of the device is not shown in FIG. 4 because the configuration of the active region is the same as that shown in FIGS.

In FIG. 4, reference numeral “R” denotes an active region, “C” denotes a cap attached to the glass substrate 10 through a sealant S to isolate the active region R from the outside, and “G”. Denotes getters that absorb moisture present in the inner space of the cap C, respectively. In addition, since the structure of the active region R, the functions of the cap C and the getter G in the present invention are the same as those of the active region of the general organic EL device, the functions of the cap and the getter, the description thereof is omitted. do.

In the organic electroluminescent device according to the present invention, an active region R is formed on the first surface of the first substrate 10, a cap C is attached, and a second surface front that is the opposite surface of the first surface. The second substrate 20 is located at predetermined intervals.

That is, one end of the plurality of rods 40 having a predetermined height is fixed to the outer edge of the second surface of the first substrate 10, and the surface of the second substrate 20 has another end of each rod 40. It is fixed at. As a result, the second substrate 20 remains fixed to the second surface of the first substrate 10 at a predetermined interval 30 by the plurality of rods 40.

The function of the organic EL device having such a structure will be described below.

When the organic electroluminescent device is driven, a large amount of heat is generated, particularly in the active region R, and the generated heat is transferred to the first substrate 10 and released to the outside. That is, heat transferred to the first substrate 10 is dissipated through the second surface to the gap formed between the first substrate 10 and the second substrate 20, that is, the air layer 30, and as a result, the heat is generated. 2 is not transferred to the substrate 20.

Thus, for example, when applied to the main window of the mobile communication terminal, the heat is not transmitted to the second substrate 20 in contact with the user's skin during the call, so that the user does not have a discomfort caused by the heat. In addition, when a polarizer in the form of a thin film is attached to the second substrate 20, deterioration of the polarizer due to heat may be prevented.

On the other hand, the light generated in the active region (R) of the device proceeds to the outside through the first substrate 10 and the second substrate 20, so that the user observes the image through the second substrate (20). Therefore, no foreign matter should exist in the central portions of the first substrate 10 and the second substrate 20.

Each rod 40 may be installed at a central portion of the first substrate 10 instead of at an outer portion thereof. However, in such a structure, a plurality of rods 40 pass through the first substrate 10 and then block light traveling to the second substrate 20 to affect the image displayed on the second substrate 20. Inevitably, the plurality of rods 40 are most preferably fixed to the outermost portion of the first substrate 10.

The display device according to the present invention as described above has a structure having a first substrate having an active region and a second substrate having a predetermined distance from the first substrate. By such a structure, heat generated when the device is driven is not transferred to the second substrate in contact with the user's skin, so that the user does not receive an unpleasant feeling due to heat.

The exemplary embodiments described above are intended to be illustrative, not limiting, in all aspects of the invention. Accordingly, the present invention is capable of many modifications and implementations that can be made by those skilled in the art from the description contained herein. All such modifications and variations are considered to be within the scope and spirit of the invention as defined by the following claims.

Claims (3)

In the display element, A first substrate having an active region formed on a first surface thereof; And A second substrate positioned in front of the second surface of the first substrate, the second substrate being fixed to the first substrate at predetermined intervals, wherein the second substrate is made of the same material as the first substrate; A plurality of rods having a predetermined height are fixed to the second surface of the first substrate, wherein the plurality of rods include rods installed at the center of the first substrate, and the second substrate is fixed to the end of each rod. And the light generated in the active region travels from the first substrate to the second substrate. delete The display device of claim 1, wherein a portion of the plurality of rods is fixed to the outermost portion of the second surface of the first substrate.

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