Gas supply system

The invention claimed is: 1. A gas supply system that supplies a gas after making confluence of flows of the gas from a plurality of gas containers in which the gas is contained, comprising: a supply pressure detector that detects supply pressure that is a post-confluence pressure of the gas that occurs following the confluence in a supply channel of the gas; and a controller that permits a gas supply-destination apparatus to which the gas is supplied to be activated if the supply pressure detected by the supply pressure detector at a time point of elapse of a predetermined determination time following a time point at which the gas starts to be supplied is greater than or equal to a predetermined threshold pressure, and that prohibits the gas supply-destination apparatus from being activated if the supply pressure detected at the time point of elapse of the predetermined determination time is less than the threshold pressure, wherein the controller uses a first determination time as the determination time if it is determined that internal pressures each of which is pressure of the gas contained in a corresponding one of the plurality of gas containers are not imbalanced between the plurality of gas containers, and uses a second determination time that is longer than the first determination time as the determination time if it is determined that the internal pressures of the plurality of gas containers are imbalanced between the plurality of gas containers. 2. A gas supply system that supplies a gas after making confluence of flows of the gas from a plurality of gas containers in which the gas is contained, comprising: a supply pressure detector that detects supply pressure that is a post-confluence pressure of the gas that occurs following the confluence in a supply channel of the gas; and a controller that permits a gas supply-destination apparatus to which the gas is supplied to be activated if the supply pressure detected by the supply pressure detector at a time point of elapse of a predetermined determination time following a time point at which the gas starts to be supplied is greater than or equal to a predetermined threshold pressure, and that prohibits the gas supply-destination apparatus from being activated if the supply pressure detected at the time point of elapse of the predetermined determination time is less than the threshold pressure, wherein the controller uses a first threshold pressure as the threshold pressure if it is determined that internal pressures each of which is pressure of the gas contained in a corresponding one of the plurality of gas containers are not imbalanced between the plurality of gas containers, and uses a second threshold pressure that is lower than the first threshold pressure as the threshold pressure if it is determined that the internal pressures of the plurality of gas containers are imbalanced between the plurality of gas containers. 3. A gas supply system that supplies a gas after making confluence of flows of the gas from a plurality of gas containers in which the gas is contained, comprising: a supply pressure detector that detects supply pressure that is a post-confluence pressure of the gas that occurs following the confluence in a supply channel of the gas; and a controller that permits a gas supply-destination apparatus to which the gas is supplied to be activated if the supply pressure detected by the supply pressure detector at a time point of elapse of a predetermined determination time following a time point at which the gas starts to be supplied is greater than or equal to a predetermined threshold pressure, and that prohibits the gas supply-destination apparatus from being activated if the supply pressure detected at the time point of elapse of the predetermined determination time is less than the threshold pressure, wherein the controller uses a first determination time as the determination time and uses a first threshold pressure as the threshold pressure if it is determined that internal pressures each of which is pressure of the gas contained in a corresponding one of the plurality of gas containers are not imbalanced between the plurality of gas containers, and uses a second determination time that is longer than the first determination time as the determination time and uses a second threshold pressure that is lower than the first threshold pressure as the threshold pressure if it is determined that the internal pressures of the plurality of gas containers are imbalanced between the plurality of gas containers. 4. The gas supply system according to claim 1 , wherein: a first time-dependent transition of the supply pressure following the time point at which the gas starts to be supplied during a state in which the internal pressures of the plurality of gas containers are not imbalanced between the plurality of gas containers is measured beforehand, and the first determination time is determined on the basis of the first time-dependent transition; and a second time-dependent transition of the supply pressure following the time point at which the gas starts to be supplied during a state in which the internal pressures of the plurality of gas containers are imbalanced between the plurality of gas containers is measured beforehand, and the second determination time is determined on the basis of the second time-dependent transition. 5. The gas supply system according to claim 1 , wherein the first determination time and the second determination time are set based on pressure increase speed that is rate of increase of the supply pressure occurring during a specific length of time after the time point at which the gas starts to be supplied. 6. The gas supply system according to claim 5 , wherein the first determination time and the second determination time are set shorter as the pressure increase speed is greater, and set longer as the pressure increase speed is smaller. 7. The gas supply system according to claim 1 , further comprising an internal pressure detector that detects the internal pressures of at least two gas containers of the plurality of gas containers, wherein the first determination time and the second determination time are set based on a difference (ΔPi) between the internal pressures of the at least two gas containers that are detected by the internal pressure detector. 8. The gas supply system according to claim 7 , wherein the first determination time and the second determination time are set based on the difference between the internal pressures before the gas starts to be supplied. 9. The gas supply system according to claim 7 , wherein the first determination time and the second determination time are set shorter as the difference in the internal pressure is smaller, and are set longer as the difference in the internal pressure is greater. 10. The gas supply system according to claim 2 , wherein: a first time-dependent transition of the supply pressure following the time point at which the gas starts to be supplied during a state in which the internal pressures of the plurality of gas containers are not imbalanced between the plurality of gas containers is measured beforehand, and the first threshold pressure is determined based on the first time-dependent transition; and a second time-dependent transition of the supply pressure following the time point at which the gas starts to be supplied during a state in which the internal pressures of the plurality of gas containers are imbalanced between the plurality of gas containers is measured beforehand, and the second threshold pressure is determined on the basis of the second time-dependent transition. 11. The gas supply system according to claim 2 ,