Grounding circuit and grounding method

What is claimed is: 1. A grounding circuit used for connecting a feeding path to a ground, the grounding circuit comprising: a first relay, a second relay, and a third relay; a first resistance that is connected in series with the first relay and is capable of connecting the feeding path to the ground by using the first relay; and a voltage divider connected in series with the second relay and the third relay and is connectable in such a way as to divide voltage between the feeding path and the ground, wherein: the third relay is disposed at a point at which the voltage is divided; upon the feeding path being to be connected to the ground, the first to third relays are controlled in such a way that the feeding path is connected to the ground via the first resistance by the first relay, the voltage divider is connected in parallel with the first relay and the first resistance by the second and third relays, and a connection to the ground by the first resistance is cut off by the first relay; and upon a connection of the feeding path to the ground being to be disconnected, the first to third relays are controlled in such a way that a ground current is cut off by the third relay. 2. The grounding circuit according to claim 1 , wherein: one end of the first relay is connected to the feeding path, another end of the first relay is connected to one end of the first resistance, and another end of the first resistance is connected to the ground; and the voltage divider includes a second resistance and a third resistance, one end of the second relay is connected to the feeding path, another end of the second relay is connected to one end of the second resistance, another end of the second resistance is connected to one end of the third relay, another end of the third relay is connected to one end of the third resistance, and another end of the third resistance is connected to the ground. 3. A submarine branching unit comprising: the grounding circuit according to claim 1 that includes a function of grounding a feeding path from a land station by connecting the feeding path to a sea earth; an optical/electrical (O/E) converter configured to receive an optical signal including a relay control signal from the land station and convert the optical signal to an electrical signal; a relay controller configured to regenerate the relay control signal from the electrical signal; and a relay driver configured to drive a relay provided in the grounding circuit, based on the relay control signal. 4. A power feeding system comprising: the submarine branching unit according to claim 3 , a controller configured to generate a relay control signal for controlling a relay of a grounding circuit provided in the submarine branching unit; and a land station that is connected to the submarine branching unit and configured to transmit the relay control signal generated by the controller to the submarine branching unit. 5. The power feeding system according to claim 4 , wherein the controller further includes a function of detecting a voltage potential of a feeding path of the submarine branching unit, and, upon the voltage potential being equal to or greater than a predetermined value, controls the first to third relays. 6. A grounding method for connecting a feeding path to a ground, the method comprising: connecting a first relay with a first resistance in series; connecting a second relay with a voltage divider and a third relay in series; disposing the third relay at a point at which voltage between the feeding path and the ground is divided by the voltage divider; upon the feeding path being to be connected to the ground, controlling the first to third relays in such a way as to, by the first relay, connect the feeding path to the ground via the first resistance, by the second and third relays, connect the voltage divider with the first relay and the first resistance in parallel, and by the first relay, cut off only a connection to the ground by the first resistance; and upon a connection of the feeding path to the ground being to be disconnected, controlling the first to third relays in such a way as to cut off a ground current by the third relay. 7. The grounding method according to claim 6 , comprising connecting one end of the first relay to the feeding path, connecting another end of the first relay to one end of the first resistance, and connecting another end of the first resistance to the ground, wherein the voltage divider includes a second resistance and a third resistance, and the method comprises: connecting one end of the second relay to the feeding path, connecting another end of the second relay to one end of the second resistance, connecting another end of the second resistance to one end of the third relay, connecting another end of the third relay to one end of the third resistance, and connecting another end of the third resistance to the ground. 8. A tangible and non-transitory recording medium on which a control program for a computer used in a grounding circuit that includes a function of connecting a feeding path to a ground is recorded, wherein the grounding circuit includes a first relay, a second relay, a third relay, a first resistance that is connected in series with the first relay and is capable of connecting the feeding path to the ground by the first relay, and a voltage divider that is connected in series with the second relay and the third relay and is connectable in such a way as to divide voltage between the feeding path and the ground, the third relay being disposed at a point at which the voltage is divided, and the control program causes the computer to perform procedures of: upon the feeding path being to be connected to the ground, controlling the first to third relays in such a way that the feeding path is connected to the ground via the first resistance by the first relay, the voltage divider is connected in parallel with the first relay and the first resistance by the second and third relays, and further, a connection to the ground by the first resistance is cut off by the first relay; and upon a connection of the feeding path to the ground being to be disconnected, controlling the first to third relays in such a way that a ground current is cut off by the third relay. 9. A submarine branching unit comprising: the grounding circuit according to claim 2 that includes a function of grounding a feeding path from a land station by connecting the feeding path to a sea earth; an optical/electrical (O/E) converter configured to receive an optical signal including a relay control signal from the land station and convert the optical signal to an electrical signal; a relay controller configured to regenerate the relay control signal from the electrical signal; and a relay driver configured to drive a relay provided in the grounding circuit, based on the relay control signal. 10. A power feeding system comprising: the submarine branching unit according to claim 9 , a controller configured to generate a relay control signal for controlling a relay of a grounding circuit provided in the submarine branching unit; and a land station that is connected to the submarine branching unit and configured to transmit the relay control signal generated by the controller to the submarine branching unit. 11. The power feeding system according to claim 10 , wherein the controller further includes a function of detecting a voltage potential of a feeding path of the submarine branching unit, and, upon the voltage potential being equal to or greater than a predetermined value, controls the first to third relays.