Decompression shut-off valve device and method for controlling same

What is claimed is: 1. A decompression shut-off valve device provided in a decompression casting apparatus comprising: an on-off valve which causes a cavity of the decompression casting apparatus to communicate with a decompressing passage in an open state and shuts off the cavity and the decompressing passage in a closed state; a molten metal position detection unit located downstream of the cavity and including a pressure-receiving section displaced by a pressure of a molten metal; an interlocking member which operates the on-off valve by displacement of the pressure-receiving section; a valve chamber which constitutes a part of the decompressing passage and accommodates the on-off valve and an elastic member for urging the on-off valve to an open state side; an accommodating chamber which accommodates the interlocking member; and an operation chamber which accommodates an enlarged diameter section provided in a rod section of the on-off valve, wherein the rod section is slidably held through a partition wall which separates the valve chamber and the accommodating chamber, a rod end portion of the rod section which is an end portion on an accommodating chamber side is connected to the molten metal position detection unit via the interlocking member, in the operation chamber, a small diameter low-pressure chamber in which a working fluid is accommodated, and a large diameter high-pressure chamber in which the working fluid having a higher pressure than the low-pressure chamber is accommodated are partitioned by the enlarged diameter section in the open state, and the interlocking member displaces the rod end portion to a closed state side by displacement of the pressure-receiving section to make the low-pressure chamber and the high-pressure chamber communicate with each other. 2. The decompression shut-off valve device according to claim 1 , wherein the high-pressure chamber has a larger diameter than the low-pressure chamber, and one of surfaces of the enlarged diameter section provided at a boundary surface between the low-pressure chamber and the high-pressure chamber is a spherical surface. 3. The decompression shut-off valve device according to claim 2 , wherein a decompression unit for sucking air and a compression unit for supplying air are connected to the decompressing passage in a switchable manner. 4. The decompression shut-off valve device according to claim 1 , wherein a decompression unit for sucking air and a compression unit for supplying air are connected to the decompressing passage in a switchable manner. 5. A method for controlling a decompression shut-off valve device provided in a decompression casting apparatus, wherein the decompression shut-off valve device includes: an on-off valve which causes a cavity of the decompression casting apparatus to communicate with a decompressing passage in an open state and shuts off the cavity and the decompressing passage in a closed state; a molten metal position detection unit located downstream of the cavity and including a pressure-receiving section displaced by a pressure of a molten metal; an interlocking member which operates the on-off valve by displacement of the pressure-receiving section; a valve chamber which constitutes a part of the decompressing passage and accommodates the on-off valve and an elastic member for urging the on-off valve to an open state side; an accommodating chamber which accommodates the interlocking member; and an operation chamber which accommodates an enlarged diameter section provided in a rod section of the on-off valve, the rod section is slidably held through a partition wall which separates the valve chamber and an accommodating chamber, a rod end portion of the rod section which is an end portion on the accommodating chamber side is connected to the molten metal position detection unit via the interlocking member, in the operation chamber, a small diameter low-pressure chamber in which a working fluid is accommodated, and a large diameter high-pressure chamber in which the working fluid having a higher pressure than the low-pressure chamber is accommodated are partitioned by the enlarged diameter section in the open state, and the controlling method comprises: setting the on-off valve to the open state at a start of casting and decompressing the cavity; setting the high-pressure chamber to a higher pressure than the low-pressure chamber; displacing the pressure-receiving section by a molten metal pressure; displacing the rod end portion to the closed state side by displacing the interlocking member and the pressure-receiving section; displacing the enlarged diameter section by displacing the rod end portion toward the closed state side; and closing the on-off valve by causing the working fluid in the high-pressure chamber to flow into the low-pressure chamber. 6. The method for controlling a decompression shut-off valve device according to claim 5 , wherein a decompression unit for sucking air and a compression unit for supplying air are connected to the decompressing passage in a switchable manner, and the controlling method further comprises: connecting the decompressing passage and the compression unit, after closing the on-off valve; returning the molten metal position detection unit to an initial position by supplying pressurized air; and returning the on-off valve to an initial position by removing pressure in the operation chamber.