Casting method and casting device

The invention claimed is: 1. A casting method for molding a product based on low-pressure casting by using a casting device in which a mold with a cavity is disposed over a holding furnace storing molten metal, comprising the steps of: raising the molten metal to a vicinity of a gate of the cavity by increasing a pressure in the holding furnace and thereafter filling the cavity with the molten metal by decreasing a pressure in the cavity by suction and simultaneously further increasing pressure applied to the holding furnace to increase the pressure in the holding furnace; stopping decompression of the cavity after a preset filling time; and stopping compression of the holding furnace when solidification of the molten metal is completed, and wherein in the step of filling the cavity with the molten metal by decreasing the pressure in the cavity by suction and simultaneously further increasing pressure applied to the holding furnace, the pressure of the holding furnace increases more rapidly than during the step of raising the molten metal to the vicinity of the gate of the cavity by increasing the pressure in the holding furnace. 2. The casting method according to claim 1 , further comprising the steps of: using a molten metal sensor for detecting completion of filling the cavity with the molten metal; and stopping decompression of the cavity when the molten metal sensor detects completion of filling with the molten metal within the preset filling time. 3. The casting method of claim 1 , further comprising: providing a plurality of casting units, each comprising a holding furnace configured to store molten metal, a mold with a cavity and a compression part configured to increase a pressure in the holding furnace; and providing a decompression part configured to decrease a pressure in the cavity of each of the plurality of casting units by suction, wherein the decompression part comprises a vacuum tank with a suction pipe at an inlet side and a discharge pipe at an outlet side, a vacuum pump connected to the discharge pipe of the vacuum tank, branch pipes that are branched from the suction pipe of the vacuum tank and are respectively communicated with the cavity of each of the plurality of casting units and on-off valves configured to open and close the respective branch pipes. 4. The casting method according to claim 3 , wherein the cavity of the mold is a casting space configured for molding a suspension member of a car. 5. The casting method according to claim 3 , wherein the cavity of the mold is a casting space configured for molding a cylinder head of an internal combustion engine. 6. The casting device method according to claim 3 , wherein the cavity of the mold is a casting space configured for molding a motor case. 7. A casting method for molding a product based on low-pressure casting by using a casting device in which a mold with a cavity is disposed over a holding furnace storing molten metal, comprising the steps of: raising the molten metal to a vicinity of a gate of the cavity by increasing a pressure in the holding furnace and thereafter filling the cavity with the molten metal by decreasing a pressure in the cavity by suction and simultaneously further increasing pressure applied to the holding furnace to increase the pressure in the holding furnace; stopping decompression of the cavity after a preset filling time; and stopping compression of the holding furnace when solidification of the molten metal is completed, wherein a first rate at which the pressure in the holding furnace increases during the step of raising the molten metal to the vicinity of the gate of the cavity is slower than a second rate at which the pressure in the holding furnace increases during the step of filling the cavity with the molten metal by decreasing the pressure in the cavity by suction and simultaneously further increasing pressure applied to the holding furnace. 8. The casting method according to claim 7 , further comprising the steps of: using a molten metal sensor for detecting completion of filling the cavity with the molten metal; and stopping decompression of the cavity when the molten metal sensor detects completion of filling with the molten metal within the preset filling time. 9. The casting method of claim 7 , further comprising: providing a plurality of casting units, each comprising a holding furnace configured to store molten metal, a mold with a cavity and a compression part configured to increase a pressure in the holding furnace; and providing a decompression part configured to decrease a pressure in the cavity of each of the plurality of casting units by suction, wherein the decompression part comprises a vacuum tank with a suction pipe at an inlet side and a discharge pipe at an outlet side, a vacuum pump connected to the discharge pipe of the vacuum tank, branch pipes that are branched from the suction pipe of the vacuum tank and are respectively communicated with the cavity of each of the plurality of casting units and on-off valves configured to open and close the respective branch pipes.