Lens drive device

What is claimed is: 1. A lens drive device for driving a lens, comprising: a base member; an X-axis movable object that overlaps the base member in a direction of an optical axis of the lens circumferentially around the optical axis: an X-axis actuator (1) attached to the base and (2) that engages and moves the X-axis movable object in an X-axis direction relative to the base and orthogonal to the direction of the optical axis of the lens; a Y-axis movable object that (1) overlaps the X-axis movable object in the direction of the optical axis circumferentially around the optical axis and (2) is located on a side of the X-axis movable object that is opposite from a side of the X-axis movable object that faces the base member in the direction of the optical axis of the lens; a Y-axis actuator (1) attached to the X-axis movable object and (2) that engages and moves the Y-axis movable object in a Y-axis direction relative to the X-axis movable object, orthogonal to the direction of the optical axis of the lens, and crossing the X-axis direction; a lens carrier that (1) overlaps the Y-axis movable object in the direction of the optical axis circumferentially around the optical axis, (2) is located on a side of the Y-axis movable object that is opposite from a side of the Y-axis movable object that faces the X-axis movable object in the direction of the optical axis of the lens, and (3) holds the lens; a carrier actuator (1) attached to the Y-axis movable object and (2) that engages and moves the lens carrier in the direction of the optical axis of the lens; a position sensor (1) attached to the Y-axis movable object and (2) that detects a position of the lens carrier relative to the Y-axis movable object; a conductive first suspension wire that (a) connects (1) an electric wiring line of the Y-axis movable object connected to the carrier actuator or an electric wiring line of the Y-axis movable object connected to the position sensor and (2) an electric wiring line of the base member and (b) has a first length between connections of the conductive first suspension wire to the electric wiring line of the Y-axis movable object and the electric wiring line of the base member; and a conductive second suspension wire that (a) connects an electric wiring line of the X-axis movable object connected to the Y-axis actuator and the electric wiring line of the base member and (b) has a second length between connections of the conductive second suspension wire to the electric wiring line of the X-axis movable object and the electric wiring line of the base member; wherein the first length and the second length are substantially the same to stably move the X-axis movable object and the Y-axis movable object by the conductive first suspension wire and the conductive second suspension wire despite differences in elastic influence on the X-axis movable object and the Y-axis movable object from the conductive first suspension wire and the conductive second suspension wire. 2. The lens drive device according to claim 1 , further comprising: an X-axis movable object holding portion configured to be provided at a position facing the X-axis actuator with the optical axis of the lens between the X-axis movable object holding portion and the X-axis actuator in the base member and to hold the X-axis movable object to be movable in the X-axis direction with respect to the base member; and a Y-axis movable object holding portion configured to be provided at a position facing the Y-axis actuator with the optical axis of the lens between the Y-axis movable object holding portion and the Y-axis actuator in the X-axis movable object and to hold the Y-axis movable object to be movable in the Y-axis direction with respect to the X-axis movable object. 3. The lens drive device according to claim 1 , wherein the X-axis actuator has an X-axis piezoelectric element expanding and contracting in the X-axis direction and an X-axis drive shaft fixed on one end portion of the X-axis direction in the X-axis piezoelectric element, the X-axis movable object has an X-axis friction engagement portion frictionally engaging with outer circumference of the X-axis drive shaft, the Y-axis actuator has a Y-axis piezoelectric element expanding and contracting in the Y-axis direction and a Y-axis drive shaft fixed on one end portion of the Y-axis direction in the Y-axis piezoelectric element, the Y-axis movable object has a Y-axis friction engagement portion frictionally engaging with outer circumference of the Y-axis drive shaft, the carrier actuator has a Z-axis piezoelectric element expanding and contracting in the direction of the optical axis of the lens and a Z-axis drive shaft fixed on one end portion of the direction of the optical axis in the Z-axis piezoelectric element, and the lens carrier has a Z-axis friction engagement portion frictionally engaging with outer circumference of the Z-axis drive shaft. 4. The lens drive device according to claim 1 , wherein the X-axis movable object has an upright portion that overlaps a side of the Y-axis movable object perpendicular to the optical axis, the electric wiring line of the X-axis movable object connected to the Y-axis actuator is located on a surface of the upright portion, and a connection position of the second suspension wire and the electric wiring line provided in the upright portion is located in the same side with the lens carrier against a surface of the Y-axis movable object at the side of the X-axis movable object, in the direction of the optical axis of the lens. 5. The lens drive device according to claim 1 , further comprising: a conductive third suspension wire configured to connect a first electric wiring line provided in the Y-axis movable object connected to the position sensor and the electric wiring line provided in the base member; and a conductive fourth suspension wire configured to connect a second electric wiring line provided in the Y-axis movable object connected to the position sensor and the electric wiring line provided in the base member, wherein the first suspension wire connects the electric wiring line connected to the carrier actuator and the electric wiring line provided in the base member, the base member has an approximately rectangular shape having four corner portions, when viewed from the direction of the optical axis of the lens, and the first suspension wire, the second suspension wire, the third suspension wire, and the fourth suspension wire are located in the four corner portions in the base member, respectively.