Organic electroluminescent display device having bent type or curved surface type display

The invention claimed is: 1. An organic electroluminescent display device comprising: a substrate; a first electrode provided on the substrate; an organic layer comprising a light-emitting layer provided above the first electrode on the substrate; a second electrode provided above the organic layer on the substrate; a reflective layer and a semi-transmissive reflective layer provided to interpose the organic layer on the substrate; and a plurality of sub-pixels of different colors in which light emitted from the organic layer is repeatedly reflected between the reflective layer and the semi-transmissive reflective layer such that light of a specific wavelength is enhanced and emitted; wherein the substrate has at least a first region in which a first normal direction of a display surface faces a first direction and a second region in which a second normal direction of the display surface faces a second direction different from the first direction by being bent or curved, a first optical path length between the reflective layer and the semi-transmissive reflective layer in a first sub-pixel of a predetermined color of the first region is different from a second optical path length between the reflective layer and the semi-transmissive reflective layer in a second sub-pixel of a same color as the predetermined color of the second region, the first region is formed at a central region of the substrate, and the second region is formed at a peripheral region of the substrate. 2. The organic electroluminescent display device according to claim 1 , wherein the organic layer comprises a hole injection layer, and a first layer thickness of the hole injection layer in the first region is different from a second layer thickness of the hole injection layer in the second region such that the first optical path length is different from the second optical path length. 3. The organic electroluminescent display device according to claim 2 , wherein, when the first optical path length is set as tr 1 and the second optical path length is set as tr 2 , tr 1 <tr 2 , and when the first layer thickness is set as tHIL 1 and the second layer thickness is set as tHIL 2 , tHIL 1 <tHIL 2 . 4. The organic electroluminescent display device according to claim 1 , wherein the first electrode comprises a transparent electrode layer, and a first layer thickness of the transparent electrode layer in the first region is different from a second layer thickness of the transparent electrode in the second region such that the first optical path length is different from the second optical path length. 5. The organic electroluminescent display device according to claim 4 , wherein, when the first optical path length is set as tr 1 and the second optical path length is set as tr 2 , tr 1 <tr 2 , and when the first layer thickness is set as tITO 1 and the second layer thickness is set as tITO 2 , tITO 1 <tITO 2 . 6. The organic electroluminescent display device according to claim 1 , wherein a light-emitting layer that emits light of a color corresponding to the first sub-pixel is provided in the first sub-pixel among the plurality of sub-pixels. 7. The organic electroluminescent display device according to claim 6 , wherein third and fourth optical path lengths between the reflective layer and the semi-transmissive reflective layer corresponding to third and fourth sub-pixels of different colors are different from each other. 8. The organic electroluminescent display device according to claim 7 , wherein the organic layer comprises a hole injection layer, and first and second layer thicknesses of the hole injection layer are different for third and fourth sub-pixels of different colors such that third and fourth optical path lengths are different for the third and fourth sub-pixels. 9. The organic electroluminescent display device according to claim 7 , wherein the first electrode comprises a transparent electrode layer, and first and second layer thicknesses of the transparent electrode layer are different for third and fourth sub-pixels of different colors such that third and fourth optical path lengths are different for the third and fourth sub-pixels. 10. The organic electroluminescent display device according to claim 1 , wherein a plurality of light-emitting layers that emit light of different colors are commonly provided over the plurality of sub-pixels, and third and fourth optical path lengths between the reflective layer and the semi-transmissive reflective layer corresponding to third and fourth sub-pixels of different colors are different from each other. 11. The organic electroluminescent display device according to claim 1 , wherein the substrate is curved, and the first optical path length in the central region is different from the second optical path length in the peripheral region. 12. The organic electroluminescent display device according to claim 11 , wherein, when the first optical path length corresponding to the first region is set as tr 1 , a third optical path length in an intermediate region corresponding to the second region, which is a region between the peripheral region and the central region of the substrate, is set as tr 2 , and the second optical path length corresponding to a third region is set as tr 3 , tr 1 <tr 2 <tr 3 , and the organic layer comprises a hole injection layer, and when a first layer thickness of the hole injection layer in the first region is set as tHIL 1 , a second layer thickness of the hole injection layer in the second region is set as tHIL 2 , and a third layer thickness of the hole injection layer in the third region is set as tHIL 3 , tHIL 1 <tHIL 2 <tHIL 3 . 13. The organic electroluminescent display device according to claim 1 , wherein a first brightness is lower than a second brightness in the display surface at the first region, the second brightness being of the first normal direction, the first brightness being of a third direction which is inclined from the first normal direction, and a third brightness is higher than a fourth brightness for at least one color among a predetermined colors in the display surface at the second region, the fourth brightness being of the second normal direction, the third brightness being of at least one direction which is inclined from the second normal direction. 14. The organic electroluminescent display device according to claim 1 , wherein more an angle between the first and second normal directions becomes large, more the second optical path length becomes long.