Apparatus and method for automatically analyzing biological samples

The invention claimed is: 1. An apparatus for automatically analyzing biological samples, the apparatus comprising: a case including an opening structure formed so as to open a predetermined region; a base plate included in the case in such a manner as to be taken out from and inserted into the case through the opening structure; a purification structure including a multi-well plate kit in which a plurality of wells form first to N-th rows and wells in a specific row among the first to N-th rows are embedded with biological samples, and one or more samples or reagents required for purification to purify a target nucleic acid from the biological samples, said multi-well plate kit being detachably provided in the base plate; a nucleic acid amplification structure amplifying the target nucleic acid purified by the purification structure, the nucleic acid amplification structure comprising amplification tubes arranged in one or more rows, the amplification tubes being positioned so as to correspond to wells arranged in a single row in the multi-well plate kit in a transverse direction, respectively; an electrophoresis structure including an electrophoresis body to inspect an amplified product through the nucleic acid amplification structure and to analyze a size of the amplified product, said electrophoresis body being detachably provided in the base plate; a plurality of pipettes included in the case in rows to accommodate the biological samples and move the biological samples to the purification structure, the nucleic acid amplification structure, or the electrophoresis structure; a moving structure included in the case to move the pipettes in length and height directions of the case and adjust an operation of the pipettes, the moving structure comprising a moving structure body, said moving structure body being mounted in the base plate; a control structure controlling the purification structure, the nucleic acid amplification structure, the electrophoresis structure, and the moving structure; and a first sterilization unit comprising an ultraviolet lamp, the first sterilization unit being directly fixed to the moving structure, wherein the plurality of pipettes are mounted on the moving structure body, and wherein the moving structure is configured to move the first sterilization unit to a vicinity of the nucleic acid amplification structure. 2. The apparatus of claim 1 , wherein the first sterilization unit further includes a reflection unit. 3. The apparatus of claim 1 , wherein the purification structure further includes: a magnetic field application structure including a magnet to apply a magnetic field to wells in a specific row in the multi-well plate kit; and a heating structure formed adjacent to the magnetic field application structure to heat the wells in the same specific row. 4. The apparatus of claim 3 , wherein the purification structure further includes a biological sample tube rack, the biological sample tube rack including biological sample tubes putting the biological samples for extracting the target nucleic acid, the biological sample tube rack being detachably provided in the base plate. 5. The apparatus of claim 3 , wherein the magnetic field application structure includes: a magnet mounting structure on which the magnet is mounted; and a lift structure mounted on the lower surface of the case to lift up and down the magnet mounting structure. 6. The apparatus of claim 3 , wherein the one or more samples or reagents required for purification, embedded in wells in the first to N-th rows in the multi-well plate kit include one or more of an enzyme, a cell lysate solution, a nucleic acid binding solution, an aqueous dispersion of magnetic particles, and a washing solution. 7. The apparatus of claim 5 , wherein the magnet mounting structure comprises an insertion groove formed on a surface of the magnet mounting structure on which the magnet is mounted so that a lower portion of a specific row in the multi-well plate kit is inserted, and the base plate further comprises a first exposure hole at which a predetermined region is hollow so that the lower portion of the specific row is seated in the insertion groove at the time of lifting up the magnet mounting structure. 8. The apparatus of claim 7 , wherein the magnet mounting structure is made of a metal material, and the heating structure is a heat generation film formed to contact with the magnet mounting structure. 9. The apparatus of claim 3 , further comprising: a protrusion fixing structure protruding from a lower portion of the multi-well plate kit so as to be positioned between the plurality of wells; and an elastic unit provided on the protrusion fixing structure to thereby be closely adhered to the well, wherein the protrusion fixing structure and the elastic unit are provided in the base plate. 10. The apparatus of claim 6 , further comprising a waste liquid vessel storing waste liquids discarded after being used, wherein the waste liquid vessel is detachably provided in the base plate. 11. The apparatus of claim 3 , wherein the moving structure includes a pipette block capable of mounting and detaching the pipettes, and the apparatus further comprises a pipette rack capable of storing the pipettes that is detachably provided in the base plate. 12. The apparatus of claim 11 , wherein the pipette block of the moving structure comprises: a pipette fixing protrusion structure of which the pipette mounted at a lower portion is formed, wherein the pipette is mounted on the pipette fixing protrusion structure through a pipette mounting structure including a pipette block fixing plate being movable in height direction. 13. The apparatus of claim 12 , wherein the pipette block of the moving structure further comprises: a pipette adjusting structure including pistons formed at an upper portion thereof and a piston fixing plate including the pistons fixed thereto and being movable in the height direction, wherein suction and discharge of the pipette are adjusted by the pipette adjusting structure. 14. The apparatus of claim 13 , wherein the pipette block of the moving structure includes: a pipette extrusion plate having a hollow region corresponding to the pipette fixing protrusion structure and positioned so as to contact between a lower surface of the pipette block fixing plate and an upper surface of the pipette when the pipette is mounted, a pipette extrusion pin fixing plate positioned over the pipette block, and pipette extrusion pins having a length longer than a height of the pipette block and connecting the pipette extrusion plate and the pipette extrusion pin fixing plate to each other, when the pipette extrusion pin fixing plate is moved downwardly by an operation of the pipette adjusting structure, the pipette extrusion pin fixing plate, the pipette extrusion pins, and the pipette extrusion plate being moved downwardly, and the pipette being detached from the pipette fixing protrusion structure. 15. The apparatus of claim 11 , wherein the purification structure further includes a drying structure including a vacuum module capable of being detached from/attached to the moving structure, a vacuum module rack mounted on an inner lower surface of the case to store the vacuum module at a predetermined position, and a vacuum pump connected to the vacuum module through a hose. 16. The apparatus of claim 15 , wherein in the drying structure, a convex structure is formed to protrude from an upper surface of the vacuum module rack, and a concave structure corresponding to the convex structu