3d printing apparatus

1 . A 3D printing apparatus comprising: a liquid tank unit having an accommodation space defined therein; a nozzle unit vertically movable in the accommodation space of the liquid tank unit, the nozzle unit being configured to spray a building source for building a 3D object; a control unit configured to control the nozzle unit; and a supplemental liquid provided in the accommodation space of the liquid tank for supporting the 3D object. 2 . The 3D printing apparatus according to claim 1 , wherein the liquid tank unit comprises: a first liquid tank defining an outer appearance of the liquid tank unit; and a second liquid tank defining the accommodation space, the second liquid tank disposed inside the first liquid tank and configured to communicate with the first liquid tank. 3 . The 3D printing apparatus according to claim 2 , wherein the nozzle unit comprises: a nozzle head for spraying the building source; a nozzle base on which the 3D object is layered according to the spray of the building source; a driving part for vertically moving the nozzle base; and a driving shaft through which the driving part is connected to at least one of the nozzle head and the nozzle base, the driving shaft configured to vertically move according to an operation of the driving part. 4 . The 3D printing apparatus according to claim 3 , wherein the supplemental liquid is provided in the accommodation space at a height less than that of an upper end of the nozzle base when the nozzle unit is not driven. 5 . The 3D printing apparatus according to claim 4 , wherein the nozzle unit operates in at least one of a first layering mode in which the 3D object is layered from an upper side of the accommodation space and a second layering mode in which the 3D object is layered from a lower side of the accommodation space. 6 . The 3D printing apparatus according to claim 5 , wherein, in the first layering mode, the driving shaft connects the nozzle base to the driving part. 7 . The 3D printing apparatus according to claim 6 , wherein, in the first layering mode, the nozzle base moves to the lower side of the accommodation space and is disposed in the supplemental liquid, and wherein a portion of the 3D object is disposed in the supplemental liquid so that the 3D object is supported by the supplemental liquid. 8 . The 3D printing apparatus according to claim 7 , wherein a portion of the supplemental liquid overflows into the first liquid tank according to descent of the nozzle base in a state where the supplemental liquid is filled up to a position that is adjacent to an upper end of the accommodation space. 9 . The 3D printing apparatus according to claim 8 , wherein an amount of supplemental liquid overflowing into the first liquid tank is determined by volumes of the nozzle base and the 3D object to be layered. 10 . The 3D printing apparatus according to claim 8 , further comprising a supplemental liquid tank disposed in the first liquid tank for accommodating the supplemental liquid overflowing from the second liquid tank . 11 . The 3D printing apparatus according to claim 10 , wherein the supplemental liquid tank surrounds the second liquid tank and has an upper end that is higher than an upper end of the second liquid tank. 12 . The 3D printing apparatus according to claim 5 , wherein, in the second layering mode, the driving shaft connects the nozzle head to the driving part. 13 . The 3D printing apparatus according to claim 12 , wherein, in the second layering mode, the nozzle head moves to the upper side of the accommodation space while spraying the building source, and wherein a portion of the 3D object is disposed in the supplemental liquid so that the 3D object is supported by the supplemental liquid. 14 . The 3D printing apparatus according to claim 13 , wherein the supplemental liquid is accommodated in the first liquid tank, and wherein the supplemental liquid accommodated in the first liquid tank overflows into the second liquid tank when the 3D object is layered. 15 . The 3D printing apparatus according to claim 2 , further comprising a pump unit disposed in the first liquid tank and connected to the control unit to allow the supplemental liquid to flow into the second liquid tank. 16 . The 3D printing apparatus according to claim 2 , further comprising a liquid level adjustment sensor disposed in the second liquid tank and connected to the control unit to adjust a level of the supplemental liquid. 17 . The 3D printing apparatus according to claim 2 , further comprising a filter unit disposed in the first liquid tank for filtering impurities from the second liquid tank. 18 . The 3D printing apparatus according to claim 17 , further comprising a connection passage through which the first liquid tank is connected to the second liquid tank, wherein the filter unit is disposed in the connection passage. 19 . The 3D printing apparatus according to claim 1 , wherein the supplemental liquid has a polarity different from that of the building source. 20 . The 3D printing apparatus according to claim 1 , wherein the supplemental liquid is an incombustible material.