Liquid crystal display unit and method of manufacturing the same

The invention claimed is: 1. A method of manufacturing a liquid crystal display unit comprising the steps of: forming a first alignment film including a polymer compound comprising a main chain and a side chain having a crosslinkable functional group bonded to the main chain; forming a second alignment film on a second substrate; arranging the first and second substrates so that the first alignment film and the second alignment film are opposed to each other, and sealing a liquid crystal layer containing a liquid crystal molecule having positive dielectric constant anisotropy between the first alignment film and the second alignment film; and bridging the polymer compound through the crosslinkable functional group of the polymer compound to give pretilt to the liquid crystal molecule after sealing the liquid crystal layer, wherein, bridging of the polymer compound occurs through the crosslinkable functional group of the side chain from a different main chain or the same main chain of the polymer. 2. The method of manufacturing a liquid crystal display unit according to claim 1 , wherein while the liquid crystal molecule is aligned by applying predetermined electric field to the liquid crystal layer, the side chain of the polymer compound is cross-linked by radiating ultraviolet. 3. A method of manufacturing a liquid crystal display unit comprising the steps of: forming a first alignment film including a polymer compound having a photosensitive functional group as a side chain on a first substrate; forming a second alignment film on a second substrate; arranging the first and second substrates so that the first alignment film and the second alignment film are opposed to each other, and sealing a liquid crystal layer containing a liquid crystal molecule having positive dielectric constant anisotropy between the first alignment film and the second alignment film; and deforming a portion of the polymer compound through the photosensitive functional group polymer compound to give pretilt to the liquid crystal molecule after sealing the liquid crystal layer, wherein, the deforming of the polymer compound through the photosensitive functional group polymer compound occurs between a side chain to a main chain or a side chain to a side chain of the polymer. 4. The method of manufacturing a liquid crystal display unit according to claim 3 , wherein while the liquid crystal molecule is aligned by applying predetermined electric field to the liquid crystal layer, the side chain of the polymer compound is deformed by radiating ultraviolet. 5. A method of manufacturing a liquid crystal display unit comprising the steps of: forming a first alignment film including a polymer compound having a crosslinkable functional group or a photosensitive functional group as a side chain on a first substrate; forming a second alignment film on a second t substrate; arranging the first and second substrates so that the first alignment film and the second alignment film are opposed to each other, and sealing a liquid crystal layer containing a liquid crystal molecule having positive dielectric constant anisotropy between the first alignment film and the second alignment film; and bridging or deforming the polymer compound by radiating energy to the polymer compound to give pretilt to the liquid crystal molecule after sealing the liquid crystal layer. 6. The method of manufacturing a liquid crystal display unit according to claim 5 , wherein while the liquid crystal molecule is aligned by applying predetermined electric field to the liquid crystal layer, ultraviolet as the energy line is irradiated to the polymer compound. 7. The method of manufacturing a liquid crystal display unit according to claim 1 , wherein: the polymer compound includes a side chain compound represented by Formula (1): -R1-R2-R3, and (a) R1 represents a straight chain or branched chain bivalent organic group with the carbon number of 3 or more, and is bonded to a main chain of the polymer compound, (b) R2 represents a bivalent organic group containing a plurality of ring structures, and one of atoms composing the ring structures is bonded to R1, and (c) R3 represents a hydrogen atom, a halogen atom, an alkyl group, an alkoxy group, and a monovalent group having a carbonate group, or a derivative thereof. 8. The method of manufacturing a liquid crystal display unit according to claim 1 , wherein: the polymer compound includes a side chain compound represented by Formula (2) -R11-R12-R13-R14, and (a) R11 represents a straight chain or branched chain bivalent organic group with the carbon number from 1 to 20 both inclusive, that may contain an ether group or an ester group, and is bonded to a main chain of the polymer compound or R11 represents an ether group or an ester group, and is bonded to the main chain of the polymer compound, (b) R12 represents a bivalent group containing one structure of chalcone, cinnamate, cinnamoyl, coumarin, maleimide, benzophenone, norbornene, orizanol, and chitosan, or an ethynylene group, (c) R13 represents a bivalent organic group containing a plurality of ring structures, and (d) R14 represents a hydrogen atom, a halogen atom, an alkyl group, an alkoxy group, and a monovalent group having a carbonate group or a derivative thereof. 9. The method of manufacturing a liquid crystal display unit according to claim 1 , wherein: a compound obtained by bridging the polymer compound includes a side chain bonded to a main chain, the side chain includes a cross-linked section, an end structure section is bonded to the cross-linked section, and the liquid crystal molecule is located along the end structure section or is sandwiched between the end structure sections. 10. The method of manufacturing a liquid crystal display unit according to claim 3 , wherein: a compound obtained by deforming the polymer compound includes a side chain bonded to a main chain, the side chain includes a deformed section, an end structure section bonded to the deformed section, and the liquid crystal molecule is located along the end structure section or is sandwiched between the end structure sections. 11. The method of manufacturing a liquid crystal display unit according to claim 5 , wherein: a compound obtained by radiating energy line to the polymer compound includes a side chain bonded to a main chain, the side chain includes a cross-linked section, a deformed section or both, an end structure section is bonded to the cross-linked section, the deformed section, or both, and the liquid crystal molecule is located along the end structure section or is sandwiched between the end structure sections. 12. The method of manufacturing a liquid crystal display unit according to claim 1 , wherein: a compound obtained by bridging the polymer compound includes a side chain bonded to a main chain, the side chain includes a cross-linked section and a mesogenic group bonded to the cross-linked section. 13. The method of manufacturing a liquid crystal display unit according to claim 3 , wherein: a compound obtained by deforming the polymer compound includes a side chain bonded to a main chain, the side chain includes a deformed section, and a mesogenic group bonded to the deformed section. 14. The method of manufacturing a liquid crystal display unit according to claim 5 , wherein: a compound obtained by radiating energy line to the polymer compound includes a side chain bonded to a main chain, the side chain includes a cross-linked section, a deformed section, or both, a mesogenic group is bonded to a part of the cross-linked section, the deformed