Optical film and display device with narrow frame

What is claimed is: 1 . An optical film comprising: four film portions connected to each other to form a hollow rectangle, each film portion comprising a plurality of strip-shaped micro-structures, each micro-structure having a triangular cross-section, and comprising a bottom surface, a first side surface, and a second side surface, the bottom surfaces of the micro-structures connected to each other, the first side surfaces and the second side surfaces of the micro-structures obliquely connected to each other, the second side surface of one micro-structure positioned at an outermost side of each film portion; wherein a first angle θ 1 which is between the first side and bottom surface of each micro-structure is less than a second angle θ 2 which is between the first side surface and the second side surface, and a sum of the first angle θ 1 and the second angle θ 2 is less than 90°. 2 . The optical film of claim 1 , wherein the optical film has a thickness of about 0.025 mm to about 0.3 mm. 3 . A display device with narrow frame comprising: a plurality of smaller display screens each comprising a display panel and a frame, the display panel comprising a center area and four boundaries surrounding the center area, the frame mounted to the boundaries; and a plurality of optical films each formed on one display screen and comprising four film portions connected to each other to form a hollow rectangle, each film portion covering one boundary and the frame mounted to the boundary, and comprising a plurality of strip-shaped micro-structures, each micro-structure having a triangular cross-section, and comprising a bottom surface, a first side surface, and a second side surface, the bottom surfaces of the micro-structures connected to each other, the first side surfaces and the second side surfaces of the micro-structures obliquely connected to each other, the second side surface of one micro-structure positioned at an outermost side of each film portion; wherein a first angle θ 1 which is between the first side and bottom surface of each micro-structure is less than a second angle θ 2 which is between the first side surface and the second side surface, and a sum of the first angle θ 1 and the second angle θ 2 is less than 90°, thus causing light from the display panel to be refracted by the first side surface and to be re-directed towards a connecting surface between two adjacent display screens; 4 . The display device with narrow frame of claim 3 , wherein two film portions opposite to each other are mirror-image symmetrical. 5 . The display device with narrow frame of claim 3 , wherein the optical film 120 has a thickness of about 0.025 mm to about 0.3 mm. 6 . The display device with narrow frame of claim 5 , wherein each display screen further comprises a backlight module; the backlight module comprises at least one backlight source, a circuit board, and a diffusion plate; an underside of the display panel, the frame, and the circuit board cooperatively define a receiving space for receiving the backlight source and the diffusion plate; the backlight source is fixed on and electrically connected to the circuit board; the diffusion plate is positioned closely to and attached to the display panel, and is positioned above the backlight source to direct light emitted from the backlight source towards the display panel. 7 . The display device with narrow frame of claim 3 , wherein the display screens are arranged in a matrix. 8 . The display device with narrow frame of claim 3 , wherein the display screens are liquid crystal display devices. 9 . The display device with narrow frame of claim 3 , wherein the display screens are plasma display devices. 10 . The display device with narrow frame of claim 3 , wherein the frame is made of opaque resin material. 11 . The display device with narrow frame of claim 3 , wherein the backlight source is an LED. 12 . The display device with narrow frame of claim 3 , wherein the backlight source is a diode laser.