A liquid crystal panel of any type is improved in display quality by adjusting a gap size with high accuracy and uniformity, a liquid crystal display and a liquid crystal projector adopting the liquid crystal panel of the present invention. A manufacturing method for such a liquid crystal panel at a
A liquid crystal panel of any type is improved in display quality by adjusting a gap size with high accuracy and uniformity, a liquid crystal display and a liquid crystal projector adopting the liquid crystal panel of the present invention. A manufacturing method for such a liquid crystal panel at a low cost with high productivity is also disclosed. The liquid crystal panel is composed generally of first and second substrates opposed to each other with a given gap defined therebetween and a liquid crystal layer filling this given gap. One surface of the first substrate adjacent to the liquid crystal layer is formed with a planarizing film having a flat surface on the liquid crystal layer side. A plurality of pixels in the form of a matrix are formed on the flat surface of the planarizing film, and a light shielding region is formed between any adjacent ones of the pixels by a black matrix and a signal line. A projection for defining the given gap between the first and second substrates is formed on the flat surface of the planarizing film at a position just over the black matrix so as to abut against an innermost surface of the second substrate adjacent to the liquid crystal layer. The projection is formed by a TFT process.
대표청구항▼
1. A liquid crystal panel comprising:a first substrate having one surface formed with a planarizing film, a plurality of pixels, and a light shielding region present between any adjacent ones of said plurality of pixels;a second substrate bonded to said first substrate with a given gap defined there
1. A liquid crystal panel comprising:a first substrate having one surface formed with a planarizing film, a plurality of pixels, and a light shielding region present between any adjacent ones of said plurality of pixels;a second substrate bonded to said first substrate with a given gap defined therebetween;a liquid crystal layer filling said given gap;a pixel electrode located on said planarizing film adjacent said liquid crystal layer;said second substrate having an opposing electrode formed on said planarizing film opposite said pixel electrode; andwherein said planarizing film has a flat surface formed with a projection formed through said pixel electrode film and abutting against an innermost surface of said second substrate adjacent to said liquid crystal layer to define said given gap between said first substrate and said second substrate, said projection being located in said light shielding region; andwherein said flat surface of said planarizing film is formed with a common electrode portion for allowing said first substrate to have a common potential with respect to said second substrate. 2. A liquid crystal panel according to claim 1, wherein said projection is formed of the same material as that of said planarizing film. 3. A liquid crystal panel according to claim 1, wherein said projection is formed of a material different from that of said planarizing film. 4. A liquid crystal panel according to claim 1, wherein said electrode is located on a flat surface of said planarizing film not covering said projection in a region corresponding to each pixel. 5. A liquid crystal panel according to claim 1, wherein said projection has an end surface having an area that is about ½ of the area of said light shielding region. 6. A liquid crystal panel according to claim 1, wherein said innermost surface on the liquid crystal side of said second substrate is provided with at least one of a color filter and a microlens. 7. A liquid crystal panel according to claim 1, wherein said projection is formed of an organic material. 8. A liquid crystal panel according to claim 7, wherein said organic material is a photosensitive or nonphotosensitive acrylic resin or a material containing said acrylic resin as a primary component. 9. A liquid crystal panel according to claim 3, wherein said planarizing film is formed of an inorganic material, and said projection is formed of an organic material. 10. A manufacturing method for a liquid crystal panel, comprising the steps of:preparing a first substrate and a second substrate;forming a plurality of pixels in the form of matrix on one surface of said first substrate;forming a light shielding region between any adjacent ones of said plurality of pixels on said one surface of said first substrate;forming a planarizing film on said one surface of said first substrate;forming a pixel electrode on a surface of said planarizing film;forming a projection on a flat surface of said planarizing film through said pixel electrode at a position in said light shielding region;bonding said first substrate and said second substrate opposed to each other with a given gap defined therebetween and said projection abutting against an innermost surface of said second substrate; andfilling said given gap with a liquid crystal layer in a hermetically sealed condition; andsaid step of forming said projection includes the step of forming a second projection similar to said projection on said flat surface of said planarizing film at a position outside of an effective pixel portion formed by the matrix of said pixels; andsaid step of forming said pixel electrode includes the step of forming a conductive film for said pixel electrode and covering said second projection with said conductive film to thereby form a common electrode portion composed of said second projection and said conductive film for allowing said first substrate to have a common potential with respect to said second substrate. 11. A manufacturing method according to claim 10, wherein said projection is formed of the same material as that of said planarizing film. 12. A manufacturing method according to claim 11, wherein said step of forming said planarizing film is the same as said step of forming said projection. 13. A manufacturing method according to claim 10, wherein said projection is formed of a material different from that of said planarizing film. 14. A manufacturing method according to claim 10, comprising the step of forming said pixel electrode on said flat surface of said planarizing film in a region for forming each pixel at a position not covering said projection, after said step of forming said planarizing film and said projection and before said step of bonding said first substrate and said second substrate. 15. A manufacturing method according to claim 10, further comprising the step of forming said pixel electrode on said flat surface of said planarizing film in a region for forming each pixel, after said step of forming said planarizing film and before said step of forming said projection. 16. A manufacturing method according to claim 10, wherein said innermost surface of said second substrate adjacent to said liquid crystal layer is provided with at least one of a color filter and a microlens. 17. A manufacturing method according to claim 10, wherein said step of forming said projection employs an organic material for said projection. 18. A manufacturing method according to claim 17, wherein said organic material is a photosensitive or nonphotosensitive acrylic resin or a material containing said acrylic resin as a primary component. 19. A manufacturing method according to claim 13, wherein said step of forming said planarizing film employs an inorganic material, and said step of forming said projection employs an organic material. 20. A liquid crystal display having a liquid crystal panel according to claim 1. 21. A liquid crystal projector having a liquid crystal panel according to claim 1. 22. The liquid crystal panel according to claim 1, further comprising at least one switch located in the light shielding region, the switch adapted to energize and de-energize at least one of said pixels, wherein the switch is positioned in the light shielding region. 23. A liquid crystal panel comprising:a first substrate having one surface formed with a planarizing film, a plurality of pixels, and a light shielding region present between any adjacent ones of said plurality of pixels;a second substrate bonded to said first substrate with a given gap defined therebetween;a liquid crystal layer filling said given gap;a pixel electrode located on said planarizing film adjacent said liquid crystal layer;said second substrate having an opposing electrode formed on said planarizing film opposite said pixel electrode; andwherein said planarizing film has a flat surface formed with a projection formed through said pixel electrode film and abutting against an innermost surface of said second substrate adjacent to said liquid crystal layer to define said given gap between said first substrate and said second substrate, said projection being located in said light shielding region; andwherein said projection has an end surface having an area that is about ½ of the area of said light shielding region. 24. A liquid crystal panel according to claim 23, wherein said projection is formed of the same material as that of said planarizing film. 25. A liquid crystal panel according to claim 23, wherein said projection is formed of a material different from that of said planarizing film. 26. A liquid crystal panel according to claim 23, wherein said electrode is located on a flat surface of said planarizing film not covering said projection in a region corresponding to each pixel. 27. A liquid crystal panel according to claim 23, wherein said innermost surface on the liquid crystal side of said second substrate is provided with at least one of a color filter and a microlens. 2 8. A liquid crystal panel according to claim 23, wherein said projection is formed of an organic material. 29. A liquid crystal panel according to claim 28, wherein said organic material is a photosensitive or nonphotosensitive acrylic resin or a material containing said acrylic resin as a primary component. 30. A liquid crystal panel according to claim 25, wherein said planarizing film is formed of an inorganic material, and said projection is formed of an organic material.
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