Ingot pressing apparatus and ingot slicing apparatus including the same

What is claimed is: 1. A pressing head of an ingot slicing apparatus, the pressing head separated into a plurality of portions, the pressing head comprising: a head main body in which a plurality of pneumatic supply ports configured to supply compressed air are formed so that pressure on each of the portions of the pressing head are separately controlled; a plurality of pressing units installed on a lower end of the head main body, each of the pressing units located to correspond to a separate one of the pneumatic supply ports, and each of the pressing units is configured to apply pressure to a side surface of an ingot by the compressed air separately supplied through the corresponding one of the pneumatic supply ports; pneumatic correction units each separately installed on a lower surface of one of the pressing units and the pneumatic correction units configured to control pressure deviation among different ones of the plurality of pressing units; an adhesive plate installed to be in contact with lower side surfaces of the pneumatic correction units so that a lower surface of the adhesive plate is in direct contact with and presses the side surface of the ingot when the ingot is present; and a coupling support unit configured to couple and support the head main body, the pressing units, the pneumatic correction units, and the adhesive plate. 2. The pressing head of claim 1 , wherein: the pressing units are disposed in a concentric shape from a center of the pressing head in a radial direction; and each of the pneumatic supply ports is separately connected to a corresponding one of the pressing units and separately supplies the compressed air. 3. The pressing head of claim 2 , wherein: an upper end of a specific one of the pressing units disposed flat the center of the pressing head is provided with a groove in the center of the pressing head, through which the compressed air is introduced, and a lower end of the specific one of the pressing units is formed to have a wider plate form in a circular shape than the upper end of the specific one of the pressing units; an upper end portion of each of the pressing units around the specific one of the pressing units is provided with an upper surface in which airflow grooves are formed along a circumference thereof so that the compressed air is introduced therethrough, and a lower end of each of the pressing units is formed in a wider disk shape than an upper end of the corresponding one of the pressing units; and the head main body is provided with a convexo-concave portion formed in a concentric shape, into which the upper end portion of each of the pressing units is inserted. 4. The pressing head of claim 3 , wherein an outer side surface of the upper end of each of the pressing units is provided with a sealing unit for preventing a leakage of the compressed air and prevents the compressed air from leaking through a contact portion between the convexo-concave portion of the head main body and the upper end of the pressing units. 5. The pressing head of claim 4 , wherein each of the sealing units includes a rubber packing. 6. The pressing head of claim 3 , wherein the pneumatic correction unit includes: a pneumatic balloon pressed against and installed on the lower surface of each of the pressing units and configured to correct the pressure deviation among the different ones of the pressing units; and an elastic sheet pressed against a lower side surface of the pneumatic balloon and formed of an elastic material. 7. The pressing head of claim 6 , further comprising an additional sheet disposed under the elastic sheet and configured to cover the elastic sheet. 8. The pressing head of claim 6 , wherein an airflow hole is separately formed under each of the airflow grooves and the compressed air is supplied to the pneumatic balloon through the respective airflow hole. 9. A pressing head of an ingot slicing apparatus, the pressing head separated into a plurality of portions, the pressing head comprising: a head main body in which a plurality of pneumatic supply ports configured to supply compressed air are formed so that pressure on each of the portions of the pressing head are separately controlled; a plurality of pressing units installed on a lower end of the head main body, each of the pressing units located to correspond to a separate one of the pneumatic supply ports, disposed in a concentric shape from a center of the pressing head in a radial direction, connected to the pneumatic supply ports, and each of the pressing units configured to apply pressure to a side surface of an ingot; pneumatic correction units each separately installed on a lower surface of one of the pressing units and the pneumatic correction units configured to control pressure deviation among different ones of the plurality of pressing units; an adhesive plate installed to be in contact with lower side surfaces of the pneumatic correction units so that a lower surface of the adhesive plate is in direct contact with and presses the side surface of the ingot when the ingot is present; and a coupling support unit configured to couple and support the head main body, the pressing units, the pneumatic correction units, and the adhesive plate. 10. The pressing head of claim 9 , wherein: the plurality of pressing units includes a plurality of pressing blocks; and the pressing blocks apply different pressures to regions of the side surface of the ingot, wherein the regions are different from each other. 11. The pressing head of claim 9 , wherein: an upper end of a specific one of the pressing units disposed at the center of the pressing head is provided with a groove in the center of the pressing head, through which the compressed air is introduced, and a lower end of the specific one of the pressing units is formed to have a wider plate form in a circular shape than the upper end of the specific one of the pressing units; an upper end portion of each of the pressing units around the specific one of the pressing units is provided with an upper surface, in which airflow grooves are formed along a circumference thereof so that the compressed air is introduced therethrough, and a lower end of each of the pressing units is formed in a wider disk shape than an upper end of the corresponding one of the pressing units; and the head main body is provided with a convexo-concave portion formed in a concentric shape, into which the upper end portion of each of the pressing units is inserted. 12. The pressing head of claim 11 , wherein an outer side surface of the upper end of each of the pressing units is provided with a sealing unit for preventing a leakage of the compressed air and prevents the compressed air from leaking through a contact portion between the convexo-concave portion of the head main body and the upper end of the pressing units. 13. The pressing head of claim 12 , wherein each of the sealing units includes a rubber packing. 14. The pressing head of claim 11 , wherein the pneumatic correction unit includes: a pneumatic balloon pressed against and installed on the lower surface of the pressing unit and configured to correct the pressure deviation among different ones of the pressing units; and an elastic sheet pressed against a lower side surface of the pneumatic balloon and formed of an elastic material. 15. The pressing head of claim 14 , further comprising an additional sheet disposed under the elastic sheet and configured to cover the elastic sheet. 16. The pressing head of claim 14 , wherein an airflow hole is separately formed under each of the airflow