Organic light emitting diode display

What is claimed is: 1 . An organic light emitting diode (OLED) display device, comprising: a flexible substrate bent in a first direction and having a pixel region; an organic light emitting diode of a pixel in the pixel region arranged on the flexible substrate; a driving thin film transistor connected to the organic light emitting diode and including a driving channel area extending in a second direction that crosses the first direction; at least one additional thin film transistor comprising a semiconducting layer connected to a semiconductor layer of the driving thin film transistor and at least one additional channel area extending in the second direction; and an organic insulation layer covering a first gate electrode, wherein the at least one additional thin film transistor is a switching thin film transistor of the pixel in the pixel region. 2 . The OLED display device of claim 1 , wherein: the flexible substrate has a rectangular shape, and the first direction is a parallel direction to a long side of the flexible substrate. 3 . The OLED display device of claim 1 , the organic insulation layer covering the driving channel area and the at least one additional channel area, respectively. 4 . The OLED display device of claim 3 , the organic insulation layers having an island shape. 5 . The OLED display device of claim 1 , further comprising: a first scan line extending in the second direction on the flexible substrate; a second scan line spaced apart from the first scan line and extending in the second direction; an initial power supply line spaced apart from the second scan line and extending in the second direction; a light emission control line spaced apart from the initial power supply line and extending in the second direction; a data line extending in the first direction on the flexible substrate; and a driving power supply line spaced apart from the data line and extending in the first direction. 6 . The OLED display device of claim 5 , wherein: the at least one additional thin film transistor includes a plurality of additional thin film transistors, the driving thin film transistor includes the first gate electrode arranged on the driving channel area, the plurality of additional thin film transistors include: a second thin film transistor including a second gate electrode connected to the first scan line and a second channel area connecting the data line to the driving channel area and extending in the second direction; a third thin film transistor including a third gate electrode connected to the first scan line and a third channel area connecting the driving channel area to the first gate electrode of the driving thin film transistor and extending in the second direction; a fourth thin film transistor including a fourth gate electrode connected to the second scan line and a fourth channel area connecting the initial power supply line to the first gate electrode and extending in the second direction; a fifth thin film transistor including a fifth gate electrode connected to the light emission control line and a fifth channel area connecting the driving power supply line to the driving channel area and extending in the second direction; and a sixth thin film transistor including a sixth gate electrode connected to the light emission control line and a sixth channel area connecting the driving channel area to the organic light emitting diode and extending in the second direction. 7 . The OLED display device of claim 1 , wherein: the OLED includes a first electrode connected to the driving thin film transistor; an organic emission layer arranged on the first electrode; and a second electrode arranged on the organic emission layer, wherein the organic insulation layer is arranged between the OLED and the flexible substrate. 8 . The OLED display device of claim 1 , the second direction being orthogonal to the first direction. 9 . An organic light emitting diode (OLED) display device, comprising: a flexible substrate bent in a first direction and having a pixel region; an organic light emitting diode of a pixel in the pixel region arranged on the flexible substrate; a driving thin film transistor connected to the organic light emitting diode and including a driving channel area extending in a second direction that crosses the first direction; at least one additional thin film transistor comprising a semiconducting layer connected to a semiconductor layer of the driving thin film transistor and at least one additional channel area extending in the second direction; a first inorganic insulating layer covering the driving channel area and each of the at least one additional channel area; and a second inorganic insulating layer arranged on the first inorganic insulating layer, wherein the at least one additional thin film transistor is a switching thin film transistor of the pixel in the pixel region. 10 . The OLED display device of claim 9 , each of the driving thin film transistor and the additional thin film transistors including a gate electrode arranged over a channel area, the first inorganic insulating layer being interposed between the gate electrode and the channel area of each of the driving and additional thin film transistors. 11 . The OLED display device of claim 1 , the flexible substrate being comprised of polyimide. 12 . The OLED display device of claim 1 , the first direction being a longitudinal direction of the flexible substrate, when the flexible substrate is bent in the first direction, a bending line extending along the second direction of the flexible substrate and being parallel to a lengthwise direction of each of the driving channel area and the at least one additional channel areas. 13 . The OLED display device of claim 12 , the second direction is orthogonal to the first direction.