Charging station and charging station guide for autonomously navigating utility vehicle

What is claimed is: 1. A charging station for charging a battery installed on an autonomously navigating utility vehicle equipped with a prime mover powered by the battery to travel about a working area delineated by a boundary wire in order to perform work autonomously, comprising: a pair of charging terminals installed on the station to be spaced apart from each other via a first midpoint, the pair of charging terminals on the station being capable of connecting with a pair of charging terminals installed on the vehicle; a first wire installed on the station at a location inside or outside of the working area and being formed as a circular shape having a center; and a second wire installed on the station to project toward the location of the first wire, the second wire being connected to the boundary wire and being formed as a shape that is symmetrical with respect to a first center line obtained by connecting the first midpoint of the pair of charging terminals on the station and the center of the first wire. 2. The charging station according to claim 1 , wherein the first wire has a circular shape portion and line segments connected to the circular shape portion. 3. The charging station according to claim 2 , wherein the second wire is formed as a shape of a trapezoid having an inner area, and the circular shape portion of the first wire is installed on the station at a position outside of the inner area of the second wire. 4. The charging station according to claim 1 , further including: an electric current supplier that supplies electric current to the first wire to generate a magnetic field of a first pattern around the first wire and supplies electric current to the second wire to generate a magnetic field of a second pattern around the second wire, the second pattern being different from the first pattern generated around the first wire. 5. The charging station according to claim 4 , further comprising: a first magnetic sensor installed on the vehicle at a location on a second center line extending from a second midpoint of the pair of charging terminals installed on the vehicle in a forward direction of the vehicle, the first magnetic sensor being adapted to produce an output indicating the magnetic field generated by the electric current supplied to the first wire; a pair of second magnetic sensors installed on the vehicle to be spaced apart from each other and symmetrically with respect to the second center line, the pair of second magnetic sensors being adapted to produce outputs indicating the magnetic field generated by the electric current supplied to the first wire and the second wire; and a travel controlling unit that controls operation of the prime mover to make the vehicle move to bring the second center line into coincidence with the first center line based on the outputs of the first magnetic sensor and the pair of second magnetic sensors, such that the pair of charging terminals on the station connect with the pair of charging terminals on the vehicle. 6. The charging station according to claim 5 , wherein the travel controlling unit comprises: a first guiding unit that controls operation of the prime mover to guide the vehicle to a position where the first magnetic sensor is placed on the center of the first wire; a second guiding unit that controls operation of the prime mover to guide the vehicle to turn around the first magnetic sensor such that the second center line is brought into coincidence with the first center line when the vehicle is guided to the position; and a third guiding unit that controls operation of the prime mover to guide the vehicle toward the pair of charging terminals on the station when the second center line is brought into coincidence with the first center line. 7. The charging station according to claim 5 , wherein the second wire is formed as the shape of a trapezoid that is symmetrical with respect to the first center line, and the pair of second magnetic sensors is installed on the vehicle to be spaced apart from each other by a first distance that is smaller than a second distance between two legs of the trapezoid in a direction perpendicular to the second center line. 8. The charging station according to claim 5 , wherein the first wire has a circular shape portion and line segments connected to the circular shape portion, the second wire is formed as the shape of a trapezoid having an inner area, and the circular shape portion of the first wire is installed on the station at a position outside of the inner area of the second wire. 9. A charging station for charging a battery installed on an autonomously navigating utility vehicle equipped with a prime mover powered by the battery to travel about a working area delineated by a boundary wire in order to perform work autonomously, the charging station comprising: a base having a longitudinal center line perpendicular to the boundary wire; a pair of charging terminals installed on the charging station to be spaced apart from each other via the center line, and configured to connect with a pair of charging terminals installed on the vehicle; and a first wire and a second wire installed in the base at vertically-offset levels so the first wire does not intersect with the second wire; the first wire is not connected to the boundary wire and has a circular shape, wherein a center point of first wire is aligned with the center line and is spaced from the boundary wire by a first distance; the second wire is connected to the boundary wire and has a shape that is symmetrical with respect to the center line, the second wire comprising a first wire segment and a second wire segment extending substantially perpendicular from the boundary wire, and a third wire segment that connects the first wire segment to the second wire segment; wherein the third wire segment is spaced from the boundary wire by a second distance that is less than the first distance. 10. A charging station for charging a battery installed on an autonomously navigating utility vehicle equipped with a prime mover powered by the battery to travel about a working area delineated by a boundary wire in order to perform work autonomously, the charging station comprising: a base having a longitudinal center line; a pair of charging terminals installed on the charging station to be spaced apart from each other via the center line; a first wire and a second wire installed in the base at vertically-offset levels so the first wire does not intersect with the second wire; and an electric current supplier that supplies electric current to the first wire to generate a magnetic field of a first pattern around the first wire to guide the vehicle to a target position, and supplies electric current to the second wire to generate a magnetic field of a second pattern around the second wire to align the vehicle with the center line and guide the vehicle so that a pair of charging terminals installed on the vehicle connect with the charging terminals installed on the charging station.