Vibration actuator with movable body with tip part of the core oscillating and a shaft part supporting the movable body on a side of a base

The invention claimed is: 1. A vibration actuator, comprising: a movable body including a core that is bar-shaped, a coil wound around on a bobbin externally applied between a tip part and a base end part of the core, the core extending on the coil axis of the coil, a fixed body including one or more magnets disposed away from and facing the tip part of the core; and a shaft part rotatably supporting the movable body at a position shifted from a longitudinal center of the core to a side of the base end part of the core, the vibration actuator generating vibration by oscillation of the tip part of the core around the shaft part with respect to the one or more magnets by energizing the coil, wherein the one or more magnets are arranged in an oscillation direction of the movable body, each of the one or more magnets including two magnetic poles magnetized in a direction facing the tip part of the core, the one or more magnets, and the core forming a magnetic spring, the magnetic spring energizes the tip part of the core to be located at a position facing a switching position of the two magnetic poles and serving as a reference position, and the core and the one or more magnets are disposed such that the magnetic spring has a spring constant that is largest when the tip part of the core is located at the reference position with respect to the one or more magnets, and that becomes smaller as the tip part of the core becomes away from the reference position by oscillation. 2. The vibration actuator according to claim 1 , wherein the spring constant when the tip part of the core oscillates from the reference position and is located at a position of a maximum oscillation angle is between 0.9 and 0.95 in a case where the spring constant when the tip part of the core is located at the reference position is set to 1. 3. The vibration actuator according to claim 1 , wherein the magnetic spring causes a frequency response in which a frequency at a resonance point of a resonance frequency is higher than a frequency when rising occurs from a low frequency side. 4. An electronic apparatus on which the vibration actuator according to claim 1 is mounted. 5. The vibration actuator according to claim 1 , wherein the two magnetic poles are arranged in the axial direction of the coil with respect to the core and toward the tip of the core. 6. The vibration actuator according to claim 1 , wherein the switching position is arranged to be opposite the center of the magnetic poles at the tip of the core. 7. The vibration actuator according to claim 1 , wherein the magnet has a first magnet and a second magnet arranged so that the core is sandwiched in the axial direction of the coil. 8. The vibration actuator according to claim 1 , wherein the bobbin is composed of a plurality of divided bobbin bodies that are attached to the core from the outside to sandwich the core. 9. The vibration actuator according to claim 1 , wherein the bobbin is composed of a resin material. 10. The vibration actuator according to claim 1 , wherein the fixed body is provided with buffer parts with which the tip part of the core contacts. 11. The vibration actuator according to claim 1 , wherein the spring constant when the tip part of the core oscillates from the reference position and is located at a position of a maximum oscillation angle is less than or equal to 0.9 in a case where the spring constant when the tip part of the core is located at the reference position is set to 1. 12. The vibration actuator according to claim 11 , wherein the spring constant when the tip part of the core oscillates from the reference position and is located at the position of the maximum oscillation angle is greater than or equal to 0.3 and not greater than 0.6 in a case where the spring constant when the tip part of the core is located at the reference position is set to 1.