Superconducting magnet

The invention claimed is: 1. A superconducting magnet comprising: a superconducting coil; a coolant container containing the superconducting coil in a state where the superconducting coil is immersed in liquid coolant; a radiation shield surrounding the coolant container; a vacuum container containing the superconducting coil, the coolant container, and the radiation shield; a refrigerator for cooling the radiation shield and inside of the coolant container; a current lead electrically connected to the superconducting coil; a first pipe passing through the vacuum container and the radiation shield and leading to the inside of the coolant container to form a flow path of vaporized coolant, the first pipe including a mounting opening in which the refrigerator is inserted and fixed; a second pipe passing through the vacuum container and the radiation shield and leading to the inside of the coolant container to form another flow path of vaporized coolant, the second pipe including a lead-out opening through which the current lead passes to be led out; a flow rate ratio maintaining mechanism connected to a downstream side of the mounting opening of the first pipe and a downstream side of the lead-out opening of the second pipe, the flow rate ratio maintaining mechanism allowing the vaporized coolant to flow through the first pipe and the second pipe at a constant flow rate ratio corresponding to a ratio between an amount of heat intrusion in the first pipe and an amount of heat intrusion in the second pipe; and a vent valve provided downstream of the flow rate ratio maintaining mechanism, the vent valve allowing the vaporized coolant that flows through the first pipe and the vaporized coolant that flows through the second pipe to be vented together. 2. The superconducting magnet according to claim 1 , wherein the flow rate ratio maintaining mechanism comprises a hand valve provided on each of the first pipe and the second pipe. 3. The superconducting magnet according to claim 2 , the superconducting magnet further comprising: a first thermometer disposed in the radiation shield to measure a temperature of the first pipe; and a second thermometer disposed in the radiation shield to measure a temperature of the second pipe. 4. The superconducting magnet according to claim 1 , wherein the flow rate ratio maintaining mechanism comprises an orifice provided in each of the first pipe and the second pipe.