Active guide roller and elevator device

The invention claimed is: 1. An active guide roller, comprising: a guide lever, which is provided to a car provided in a hoistway and configured to go up and down along a guide rail extending in an up-and-down direction, and is provided so as to be pivotable about a first shaft orthogonal to the up-and-down direction; a guide roller provided to the guide lever so as to be turnable about a second shaft parallel to the first shaft; a spring member configured to urge the guide roller into contact with the guide rail; and an actuator including: an actuator fixed portion to be fixed to the car; and an actuator movable portion configured to be driven by pivoting of the guide lever, wherein one of the actuator movable portion and the actuator fixed portion includes: a yoke, which includes a middle leg portion and a pair of side leg portions arranged so as to be opposed to each other across the middle leg portion, and forms a closed magnetic circuit; and a pair of magnets, which are provided on respective surfaces of the pair of side leg portions opposed to the middle leg portion, and are configured to generate a magnetic field intersecting a pivot plane of the guide lever orthogonal to the first shaft, wherein another one of the actuator movable portion and the actuator fixed portion includes: a bobbin including a winding barrel portion into which the middle leg portion is inserted; and a coil, which is wound around the winding barrel portion, and is arranged within the magnetic field, wherein the active guide roller is configured to suppress vibration of the car with use of a Lorenz force generated by application of a current through the coil, wherein the actuator is configured to avoid contact between the coil and the magnet by allowing the bobbin and the magnet to be brought into contact with each other or allowing the bobbin and the yoke to be brought into contact with each other when the actuator movable portion is displaced in a direction perpendicular to the pivot plane, and wherein, in a state in which the winding barrel portion and the middle leg portion are coaxially arranged, when a minimum gap between the coil and the magnet in the direction perpendicular to the pivot plane is represented by A, and a minimum gap between the winding barrel portion and the middle leg portion in the direction perpendicular to the pivot plane is represented by C, the A and C satisfy A>C. 2. The active guide roller according to claim 1 , wherein the bobbin includes a coil contact preventing member configured to be brought into contact with the magnet or the yoke when the actuator movable portion is displaced in the direction perpendicular to the pivot plane, and wherein, in a state in which the winding barrel portion and the middle leg portion are coaxially arranged, when a minimum gap between the coil and the magnet in the direction perpendicular to the pivot plane is represented by A, and a smaller one of a minimum gap between the coil contact preventing member and the side leg portion and a minimum gap between the coil contact preventing member and the magnet in the direction perpendicular to the pivot plane is represented by B, the A and B satisfy A>B. 3. The active guide roller according to claim 2 , wherein the coil contact preventing member comprises a flange portion which projects from an end portion of the winding barrel portion toward the side leg portion. 4. An elevator device, comprising: a car provided in a hoistway and configured to go up and down along a guide rail extending in an up-and-down direction; a guide lever provided to the car so as to be pivotable about a first shaft orthogonal to the up-and-down direction; a guide roller provided to the guide lever so as to be turnable about a second shaft parallel to the first shaft; a spring member configured to urge the guide roller into contact with the guide rail; and an actuator including: an actuator fixed portion to be fixed to the car; and an actuator movable portion configured to be driven by pivoting of the guide lever, wherein one of the actuator movable portion and the actuator fixed portion includes: a yoke, which includes a middle leg portion and a pair of side leg portions arranged so as to be opposed to each other across the middle leg portion, and forms a closed magnetic circuit; and a pair of magnets, which are provided on respective surfaces of the pair of side leg portions opposed to the middle leg portion, and are configured to generate a magnetic field intersecting a pivot plane of the guide lever orthogonal to the first shaft, wherein another one of the actuator movable portion and the actuator fixed portion includes: a bobbin including a winding barrel portion into which the middle leg portion is inserted; and a coil, which is wound around the winding barrel portion, and is arranged within the magnetic field, wherein the elevator device is configured to suppress vibration of the car with use of a Lorenz force generated by application of a current through the coil, wherein the actuator is configured to avoid contact between the coil and the magnet by allowing the bobbin and the magnet to be brought into contact with each other or allowing the bobbin and the yoke to be brought into contact with each other when the actuator movable portion is displaced in a direction perpendicular to the pivot plane, and wherein, in a state in which the winding barrel portion and the middle leg portion are coaxially arranged, when a minimum gap between the coil and the magnet in the direction perpendicular to the pivot plane is represented by A, and a minimum gap between the winding barrel portion and the middle leg portion in the direction perpendicular to the pivot plane is represented by C, the A and C satisfy A>C. 5. The elevator device according to claim 4 , wherein the bobbin includes a coil contact preventing member configured to be brought into contact with the magnet or the yoke when the actuator movable portion is displaced in the direction perpendicular to the pivot plane, and wherein, in a state in which the winding barrel portion and the middle leg portion are coaxially arranged, when a minimum gap between the coil and the magnet in the direction perpendicular to the pivot plane is represented by A, and a smaller one of a minimum gap between the coil contact preventing member and the side leg portion and a minimum gap between the coil contact preventing member and the magnet in the direction perpendicular to the pivot plane is represented by B, the A and B satisfy A>B. 6. The elevator device according to claim 5 , wherein the coil contact preventing member comprises a flange portion which projects from an end portion of the winding barrel portion toward the side leg portion.