Electronic paper display device having slanted bore walls and color filter and manufacturing method thereof

The invention claimed is: 1. An electronic paper display device comprising: a substrate, a first conducting layer on the substrate, and a slanted microbore layer provided on the first conducting layer, wherein the slanted microbore layer comprises display units and each display unit comprises four immediately adjacent slanted microbores of white, electrophoretic display particles are enclosed within the slanted microbores and have different colors from that of the slanted microbores; each of the slanted microbores comprises an orifice, slanted bore walls and a bore bottom, the angle between the slanted bore walls and the substrate is less than 90°, and the vertical projection of the orifice onto the surface of the substrate is located outside of the bore bottom of the slanted microbore; the electrophonic display particles within the four immediately adjacent slanted microbores of each display unit have colors different from one another of red, green, blue, and black, respectively. 2. The electronic paper display device according to claim 1 , wherein the slanted microbores are composed of an insulating material having a resistivity greater than 107Ω.cm. 3. The electronic paper display device according to claim 1 , wherein the shape of the orifice is at least one of square, rectangle, triangle, hexagon and circular. 4. The electronic paper display device according to claim 1 , wherein the slanted microbores are composed of at least one of methacrylic acid esters, ethoxyline resins and urea-formaldehyde resins or is composed of the at least one added with a colorant or a dye. 5. The electronic paper display device according to claim 1 , wherein colorless clear solution is also enclosed within the slanted microbores, and the electrophoretic display particle distributions are dispersed in the colorless clear solution. 6. The electronic paper display device according to claim 1 , wherein each of the slanted microbores is provided with electrophoretic display particles of one color therein. 7. The electronic paper display device according to claim 1 , wherein each of the slanted microbores is provided with electrophoretic display particles of two colors therein; and the slanted microbores each is provided thereon with a first electrode and a second electrode used for driving the electrophoretic display particles of two colors respectively. 8. A method for manufacturing an electronic paper display device, comprising: providing a substrate formed with a first conducting layer; forming a slanted microbore layer on the first conducting layer, wherein the slanted microbore layer comprises display units and each display unit comprises four immediately adjacent slanted microbores of white, and each of the slanted microbores comprises an orifice and slanted bore walls, the angle of the slanted bore walls to the substrate is less than 90°, and the vertical projection of the orifice onto the surface of the substrate is located outside of an bore bottom of the slanted microbore; providing electrophoretic display particles within the slanted microbores, and the electrophoretic display particles having different color from that of the slanted microbores and; enclosing the orifices of the slanted microbores; wherein the electrophonic display particles within the four immediately adjacent slanted microbores of each display unit have colors different from one another of red, green, blue, and black, respectively. 9. The manufacturing method according to claim 8 , wherein forming the slanted microbore layer on the first conducting layer comprises: forming the slanted microbore layer on the first conducting layer by way of printing, angled photoetching or membrane adhering. 10. The manufacturing method according to claim 8 , wherein forming the slanted microbore layer on the first conducting layer by way of printing comprises: coating a curable glue film of a color onto the first conducting layer; forming patterns for the microbores on the curable glue film through cylinder printing; and curing the curable glue film which forms the patterns for the microbores. 11. The manufacturing method according to claim 8 , wherein enclosing the orifices of the slanted microbores comprises: enclosing the orifices of the slanted microbores by an sealing compound enclosing method or a membrane adhering enclosing method. 12. The manufacturing method according to claim 8 , wherein each of the slanted microbores is provided with electrophoretic display particles of two colors therein; and the method also comprises providing a first electrode and a second electrode used for driving the electrophoretic display particles of two colors respectively on the slanted microbore layer. 13. The manufacturing method according to claim 8 , wherein each of the slanted microbores is provided with electrophoretic display particles of one color therein.