Low-pressure casting apparatus and low-pressure casting method using the same

What is claimed is: 1. A low-pressure casting apparatus comprising: a casting die having inside a cavity shaped to conform to an outer shape of a casting; a holding furnace provided below the casting die which heats and holds molten metal; and a guiding unit which guides the molten metal inside the holding furnace into the cavity, the low-pressure casting apparatus which fills the cavity with the molten metal through the guiding unit by introducing gas into the holding furnace to apply pressure to a surface of the molten metal, wherein the holding furnace includes a metal casing, a furnace body accommodated in the metal casing, and a refractory layer disposed between the metal casing and the furnace body, the refractory layer having a pore structure, and the low-pressure casting apparatus is provided with a first gas supply unit which supplies to the furnace body the gas to apply pressure to the molten metal and a second gas supply unit which supplies gas to the refractory layer. 2. The low-pressure casting apparatus according to claim 1 , wherein the low-pressure casting apparatus is provided with a plurality of the second gas supply units. 3. The low-pressure casting apparatus according to claim 1 , wherein the first gas supply unit and the second gas supply unit are each provided with an independent gas supply source. 4. The low-pressure casting apparatus according to claim 1 , wherein the first gas supply unit and the second gas supply unit are provided with a common gas supply source. 5. The low-pressure casting apparatus according to claim 1 , wherein the first gas supply unit is provided with a first gas supply passage for supplying gas to the furnace body and a first electromagnetic valve opening and closing the first gas supply passage, the second gas supply unit is provided with a second gas supply passage for supplying the gas to the refractory layer and a second electromagnetic valve opening and closing the second gas supply passage, and further, the low-pressure casting apparatus is provided with a control device controlling opening of each of the electromagnetic valves with a corrected applied voltage in which a correction value is added to an applied voltage so that an amount of the air supplied by each of the gas supply units is proportional to the applied voltage when each of the electromagnetic valves are opened by gradually increasing voltages applied to the respective electromagnetic valves. 6. A low-pressure casting method using a low-pressure casting apparatus, the low-pressure casting apparatus including: a casting die having inside a cavity shaped to conform to an outer shape of a casting; a holding furnace provided below the casting die for heating and holding molten metal; and a guiding unit guiding the molten metal inside the holding furnace into the cavity, the holding furnace having a metal casing, a furnace body accommodated in the metal casing, and a refractory layer disposed between the metal casing and the furnace body, the refractory layer having a pore structure, the low-pressure casting apparatus having a first gas supply unit for supplying to the furnace body gas to apply pressure to the molten metal and a second gas supply unit for supplying gas to the refractory layer, the cavity being filled with the molten metal through the guiding unit by supplying the gas into the holding furnace through the first gas supply unit to apply pressure to a surface of the molten metal, and the low-pressure casting method comprising: a step of detecting that a pressure inside the refractory layer is at atmospheric pressure; a step of supplying the gas to the refractory layer through the second gas supply unit and supplying the gas to the furnace body through the first gas supply unit as long as the pressure inside the refractory layer is detected to be at the atmospheric pressure; a step of filling the cavity with the molten metal through the guiding unit by applying pressure to the surface of the molten metal as long as the pressure inside the refractory layer is detected to be equal to a pressure inside the furnace body; a step of stopping the supply of the gas by the first gas supply unit and the second gas supply unit when it is detected that the pressure inside the refractory layer and the pressure inside the furnace body have reached a predetermined pressure to keep the surface of the molten metal in a pressurized state; and a step of releasing the pressure in the furnace body after the molten metal filled in the cavity cools down, and taking the casting out of the cavity.