Coil spring for vehicle suspension

What is claimed is: 1. A vehicle suspension coil spring including a wire formed into a helical shape, and being arranged between a lower spring seat and an upper spring seat, the vehicle suspension coil spring comprising: a lower end turn portion which is in contact with the lower spring seat; an upper end turn portion which is in contact with the upper spring seat; an effective portion having a cylindrical shape and provided between the lower end turn portion and the upper end turn portion; and a force line, which is a straight line, connecting a center of force applied to the lower end turn portion and a center of force applied to the upper end turn portion in a state in which a force which compresses the effective portion is applied to the lower end turn portion and the upper end turn portion, wherein at least one of the lower end turn portion and the upper end turn portion comprises a force-line-controlling taper portion which has a taper length and a taper thickness for approximating the force line to a target position, a thickness of the wire of the force-line-controlling taper portion is reduced in a tapered way from a thickness varying portion, which is provided at an intermediate portion of the corresponding end turn portion, toward a distal end of the wire along its length, and the thickness varying portion is arranged at a position closer to the force line than the cylindrical effective portion. 2. The vehicle suspension coil spring of claim 1 , wherein the force-line-controlling taper portion is formed at the lower end turn portion, the thickness of the wire of the force-line-controlling taper portion is reduced in a tapered way for a first length from a first thickness varying portion, which is provided at an intermediate portion of the lower end turn portion, toward a lower-end-side distal end of the wire along its length, and the first thickness varying portion is arranged close to a lower end of the force line. 3. The vehicle suspension coil spring of claim 1 , wherein the force-line-controlling taper portion is formed at the upper end turn portion, the thickness of the wire of the force-line-controlling taper portion is reduced in a tapered way for a second length from a second thickness varying portion, which is provided at an intermediate portion of the upper end turn portion, toward an upper-end-side distal end of the wire along its length, and the second thickness varying portion is arranged close to an upper end of the force line. 4. The vehicle suspension coil spring of claim 1 , wherein: a first force-line-controlling taper portion is formed at the lower end turn portion, a thickness of the wire of the first force-line-controlling taper portion is reduced in a tapered way for a first length from a first thickness varying portion, which is provided at an intermediate portion of the lower end turn portion, toward a lower-end-side distal end of the wire along its length, and the first thickness varying portion is arranged close to a lower end of the force line, and a second force-line-controlling taper portion is formed at the upper end turn portion, a thickness of the wire of the second force-line-controlling taper portion is reduced in a tapered way for a second length from a second thickness varying portion, which is provided at an intermediate portion of the upper end turn portion, toward an upper-end-side distal end of the wire along its length, and the second thickness varying portion is arranged close to an upper end of the force line. 5. The vehicle suspension coil spring of claim 1 , wherein the force-line-controlling taper portion has a flat tapered shape. 6. The vehicle suspension coil spring of claim 1 , wherein the force-line-controlling taper portion has a round tapered shape. 7. The vehicle suspension coil spring of claim 4 , wherein one of the first force-line-controlling taper portion and the second force-line-controlling taper portion has a flat tapered shape, and the other of the first force-line-controlling taper portion and the second force-line-controlling taper portion has a round tapered shape. 8. The vehicle suspension coil spring of claim 1 , wherein the force-line-controlling taper portion has a polished end face. 9. The vehicle suspension coil spring of claim 1 , wherein the effective portion is hot formed. 10. The vehicle suspension coil spring of claim 2 , wherein in a free shape in which the coil spring is not compressed, the first thickness varying portion is in contact with the lower spring seat and a lower surface of the force-line-controlling taper portion is separated from the lower spring seat, and in a state in which the coil spring is compressed, the lower surface of the force-line-controlling taper portion is in contact with the lower spring seat. 11. The vehicle suspension coil spring of claim 3 , wherein in a free shape in which the coil spring is not compressed, the second thickness varying portion is in contact with the upper spring seat and an upper surface of the force-line-controlling taper portion is separated from the upper spring seat, and in a state in which the coil spring is compressed, the upper surface of the force-line-controlling taper portion is in contact with the upper spring seat.