A light-emitting display device 1 of the present invention includes: a base material 10 having a light source 11 mounted thereon; and a foam layer 30 that transmits and diffuses the light from the light source 11 and has at least a portion of the light source 11 embedded therein. According to the present invention, a light-emitting display device that can effectively utilize light from the light source is provided with a simplified component configuration.

A light-emitting display device 1 of the present invention includes: a base material 10 having a light source 11 mounted thereon; and a foam layer 30 that transmits and diffuses the light from the light source 11 and has at least a portion of the light source 11 embedded therein. According to the present invention, a light-emitting display device that can effectively utilize light from the light source is provided with a simplified component configuration.

According to an embodiment of the present disclosure, a display module comprises: a substrate including a mounting surface on which a thin film transistor (TFT) layer is formed, a side surface, and a rear surface disposed on the opposite side of the mounting surface; a plurality of inorganic light-emitting elements mounted on the mounting surface; an anisotropic conductive layer electrically connecting the TFT layer and the plurality of inorganic light-emitting elements, and disposed on the upper surface of the TFT layer; a front cover covering the front surface of the anisotropic conductive layer; a side cover surrounding the side surface of the anisotropic conductive layer; and a side end member comprising a non-conductive material configured to seal the outer end of the side cover. The side end of the front cover extends to an area outside the mounting surface, the side end of the anisotropic conductive layer extends to the area outside the mounting surface so as to be disposed at a position corresponding to the side end of the front cover, the side cover is provided to contact the lower surface of the anisotropic conductive layer corresponding to the area outside the mounting surface, and the side end member is configured to seal an adhesive portion of the side end of the front cover and the side end of the anisotropic conductive layer.

According to an embodiment of the present disclosure, a display module comprises: a substrate including a mounting surface on which a thin film transistor (TFT) layer is formed, a side surface, and a rear surface disposed on the opposite side of the mounting surface; a plurality of inorganic light-emitting elements mounted on the mounting surface; an anisotropic conductive layer electrically connecting the TFT layer and the plurality of inorganic light-emitting elements, and disposed on the upper surface of the TFT layer; a front cover covering the front surface of the anisotropic conductive layer; a side cover surrounding the side surface of the anisotropic conductive layer; and a side end member comprising a non-conductive material configured to seal the outer end of the side cover. The side end of the front cover extends to an area outside the mounting surface, the side end of the anisotropic conductive layer extends to the area outside the mounting surface so as to be disposed at a position corresponding to the side end of the front cover, the side cover is provided to contact the lower surface of the anisotropic conductive layer corresponding to the area outside the mounting surface, and the side end member is configured to seal an adhesive portion of the side end of the front cover and the side end of the anisotropic conductive layer.

Disclosed is a display apparatus capable of selectively controlling a viewing angle and improving optical characteristics. An apparatus includes a pixel array including a pixel circuit and a plurality of subpixels including first and second light emitting elements connected to the pixel circuit. The apparatus includes an encapsulation layer on the pixel array to seal a light emitting element layer. The apparatus includes a touch sensor array including a black matrix, a sensor electrode and a dummy electrode on the encapsulation layer and overlapping the non-emission area of the pixel array. The apparatus includes a light control array on the touch sensor array. The sensor electrode may be disposed in a non-emission area of a first type subpixel among the plurality of subpixels, and the dummy electrode may be disposed in a non-emission area of a second type subpixel and a third type subpixel among the plurality of subpixels.

Disclosed is a display apparatus capable of selectively controlling a viewing angle and improving optical characteristics. An apparatus includes a pixel array including a pixel circuit and a plurality of subpixels including first and second light emitting elements connected to the pixel circuit. The apparatus includes an encapsulation layer on the pixel array to seal a light emitting element layer. The apparatus includes a touch sensor array including a black matrix, a sensor electrode and a dummy electrode on the encapsulation layer and overlapping the non-emission area of the pixel array. The apparatus includes a light control array on the touch sensor array. The sensor electrode may be disposed in a non-emission area of a first type subpixel among the plurality of subpixels, and the dummy electrode may be disposed in a non-emission area of a second type subpixel and a third type subpixel among the plurality of subpixels.

A display device includes a circuit substrate, a blocker, a first and second pad located on the circuit substrate, a light-emitting element, and a first and second connecting portion. The blocker is located on the circuit substrate, and has an opposite first and second side and an opposite third and fourth side. The first pad is adjacent to the first side of the blocker. The second pad is adjacent to the second side of the blocker. The light-emitting element is located on the blocker and the first and second pads, and includes a first and second electrode. The first connecting portion is connected to the first electrode and the first pad. The second connecting portion is connected to the second electrode and the second pad. The third and fourth sides of the blocker are aligned with a side of each of the first and second connecting portions.

A display device includes a circuit substrate, a blocker, a first and second pad located on the circuit substrate, a light-emitting element, and a first and second connecting portion. The blocker is located on the circuit substrate, and has an opposite first and second side and an opposite third and fourth side. The first pad is adjacent to the first side of the blocker. The second pad is adjacent to the second side of the blocker. The light-emitting element is located on the blocker and the first and second pads, and includes a first and second electrode. The first connecting portion is connected to the first electrode and the first pad. The second connecting portion is connected to the second electrode and the second pad. The third and fourth sides of the blocker are aligned with a side of each of the first and second connecting portions.

The present disclosure discloses a light emitting module including at least one light emitting device, the light emitting device comprising a first conductivity type semiconductor layer, a second conductivity type semiconductor layer, an active layer disposed between the first conductivity type semiconductor layer and the second conductivity type semiconductor layer.

The present disclosure discloses a light emitting module including at least one light emitting device, the light emitting device comprising a first conductivity type semiconductor layer, a second conductivity type semiconductor layer, an active layer disposed between the first conductivity type semiconductor layer and the second conductivity type semiconductor layer.