Power generator, input device, and lock device with sensor

The invention claimed is: 1. A power generator comprising a stationary member; a movable member configured to be movable in a predetermined direction between a first position and a second position with respect to the stationary member; an operating member configured to be movable with respect to the stationary member separately from the movable member; a permanent magnet configured to generate magnetic attraction to hold the movable member at each of the first position and the second position; a power generating unit including a mover moving in conjunction with the movable member and configured to convert kinetic energy of the mover into electrical energy; and a spring member held by the movable member and configured to transmit force from the operating member to the movable member, the movable member including a first holding portion and a second holding portion, which are spaced apart from each other in the predetermined direction and which are located closer to the first position and the second position, respectively, the movable member being configured to hold the spring member by interposing the spring member between the first holding portion and the second holding portion, the operating member including a first pressing portion and a second pressing portion, which are spaced apart from each other in the predetermined direction and which are located closer to the first position and the second position, respectively, the first pressing portion being arranged at such a position as to interpose the spring member between the first pressing portion itself and the second holding portion when the movable member is located at the first position, the second pressing portion being arranged at such a position as to interpose the spring member between the second pressing portion itself and the first holding portion when the movable member is located at the second position, the spring member being configured to, as the operating member moves in such a direction that the first pressing portion comes closer toward the second holding portion while the movable member is located at the first position, be compressed by the first pressing portion and the second holding portion and generate restoring force that causes the movable member to move toward the second position, the spring member being configured to, as the operating member moves in such a direction that the second pressing portion comes closer toward the first holding portion while the movable member is located at the second position, be compressed by the second pressing portion and the first holding portion and generate restoring force that causes the movable member to move toward the first position. 2. The power generator of claim 1 , wherein the spring member is a leaf spring having a first end portion and a second end portion at both ends thereof in the predetermined direction, and the spring member further includes a curved portion, of which curvature makes the spring member raised in its thickness direction, and which is located between the first end portion and the second end portion. 3. The power generator of claim 1 , wherein the first holding portion includes a pair of first holding pieces spaced apart from each other in a width direction perpendicular to the predetermined direction, the first holding portion being configured to make the pair of first holding pieces come into contact with the spring member, the second holding portion includes a pair of second holding pieces spaced apart from each other in the width direction, the second holding portion being configured to make the pair of second holding pieces come into contact with the spring member, the first pressing portion is located between the pair of first holding pieces in the width direction, and the second pressing portion is located between the pair of second holding pieces in the width direction. 4. The power generator of claim 1 , wherein the movable member is held by the stationary member so as to be movable linearly in the predetermined direction. 5. The power generator of claim 1 , wherein the operating member is held by the stationary member so as to be rotatable between a first operating position and a second operating position, the operating member is configured to move from the first operating position to the second operating position in such a direction that the first pressing portion comes closer toward the second holding portion and that the second pressing portion goes away from the first holding portion, and the operating member is configured to move from the second operating position to the first operating position in such a direction that the second pressing portion comes closer toward the first holding portion and that the first pressing portion goes away from the second holding portion. 6. The power generator of claim 5 , wherein the operating member is configured to be movable with respect to the stationary member so as to move the first pressing portion and the second pressing portion in an operating direction intersecting with the predetermined direction, the first pressing portion has a first sloped surface, which is sloped with respect to the operating direction and located at such a position as to face the second holding portion in the predetermined direction such that as the first pressing portion moves in the operating direction, distance to the second holding portion changes in the predetermined direction, and the second pressing portion has a second sloped surface, which is sloped with respect to the operating direction and located at such a position as to face the first holding portion in the predetermined direction such that as the second pressing portion moves in the operating direction, distance to the first holding portion changes in the predetermined direction. 7. The power generator of claim 1 , wherein the power generating unit further includes: a core; and a coil wound around the core, and the power generating unit is configured to generate power from the coil by causing a direction of magnetic flux passing through the core to change as the mover moves. 8. The power generator of claim 7 , wherein the mover includes a first movable piece and a second movable piece, which are located on both sides of the core in the predetermined direction, the first movable piece is configured to be in contact with the core when the movable member is located at the first position, the second movable piece is configured to be in contact with the core when the movable member is located at the second position, and the permanent magnet includes a first magnet secured to the first movable piece and a second magnet secured to the second movable piece. 9. The power generator of claim 1 , further comprising a handle rotatable between a first rotational position and a second rotational position, wherein the handle includes a fulcrum serving as a rotational axis of the handle, a point of load located at a first distance from the fulcrum, and a point of effort located at a second distance, which is longer than the first distance, from the fulcrum, and the handle is configured to, when force is applied at the point of effort, turn from the first rotational position to the second rotational position, apply force to the operating member at the point of load, and thereby move the operating member. 10. An input device comprising: the power generator of claim 1 ; and a signal processing circuit electrically connected to the power generating unit, and configured to output a signal by using the electrical energy generated by the power generating unit in response to operation of the operating member. 11. A lock device with sensor