Vibration reduction device and vibration reduction method

The invention claimed is: 1. A vibration reduction device comprising: a frame structure suitable for being coupled to an object of vibration reduction; a first elastic body coupled to a first end of said frame structure, said first elastic body being disposed in said frame structure; a second elastic body coupled to a second end of said frame structure, said second elastic body being disposed in said frame structure; a dynamic mass coupled to said frame structure through said first elastic body and said second elastic body and disposed in said frame structure; a third elastic body; a controllable mass disposed in said dynamic mass and coupled to said dynamic mass through said third elastic body; and an actuator configured to cause said controllable mass to move with respect to said dynamic mass, wherein said actuator includes: a piezoelectric element configured to cause said controllable mass to move; and a piezo-driver configured to apply a voltage to said piezoelectric element such that said controllable mass moves with respect to said dynamic mass, and wherein said piezoelectric element is directly or indirectly joined to said controllable mass. 2. The vibration reduction device according to claim 1 , wherein said controllable mass is supported by said dynamic mass such that said controllable mass is rotatable around a rotation axis fixed to said dynamic mass, and wherein said actuator causes said controllable mass to rotate around said rotation axis. 3. The vibration reduction device according to claim 2 , further comprising: an acceleration sensor configured to measure an acceleration of said object of vibration reduction; and a control device configured to control said actuator based on said acceleration. 4. The vibration reduction device according to claim 2 , further comprising: a rotation frequency sensor configured to measure a rotation frequency indicating how many times a rotating body provided in said object of vibration reduction rotates per unit time, wherein said control device further controls said actuator based on said rotation frequency. 5. A helicopter comprising: a vibration reduction device; and at least one rotor configured to generate thrust force by rotating blades, wherein said vibration reduction device includes: a frame structure suitable for being coupled to an object of vibration reduction; a first elastic body coupled to a first end of said frame structure, said first elastic body being disposed in said frame structure; a second elastic body coupled to a second end of said frame structure, said second elastic body being disposed in said frame structure; a dynamic mass coupled to said frame structure through said first elastic body and said second elastic body and disposed in said frame structure; a third elastic body; a controllable mass disposed in said dynamic mass and coupled to said dynamic mass through said third elastic body; and an actuator configured to cause said controllable mass to move with respect to said dynamic mass, wherein said actuator includes: a piezoelectric element configured to cause said controllable mass to move; and a piezo-driver configured to apply a voltage to said piezoelectric element such that said controllable mass moves with respect to said dynamic mass, and wherein said piezoelectric element is directly or indirectly joined to said controllable mass. 6. A vibration reduction method, comprising: providing a vibration reduction device that includes: a frame structure suitable for being coupled to an object of vibration reduction; a first elastic body coupled to a first end of said frame structure, said first elastic body being disposed in said frame structure; a second elastic body coupled to a second end of said frame structure, said second elastic body being disposed in said frame structure; a dynamic mass coupled to said frame structure through said first elastic body and said second elastic body and disposed in said frame structure; a third elastic body; a controllable mass disposed in said dynamic mass and coupled to said dynamic mass through said third elastic body; and an actuator configured to cause said controllable mass to move with respect to said dynamic mass, wherein said actuator includes: a piezoelectric element configured to cause said controllable mass to move; and a piezo-driver configured to apply a voltage to said piezoelectric element such that said controllable mass moves with respect to said dynamic mass, measuring an acceleration of said object of vibration reduction; and controlling said actuator based on said acceleration. 7. The vibration reduction method according to claim 6 , further comprising: measuring a rotation frequency indicating how many times a rotating body provided in said object of vibration reduction rotates per unit time, wherein said actuator is further controlled based on said rotation frequency. 8. The helicopter according to claim 5 , wherein said controllable mass is supported by said dynamic mass such that said controllable mass is rotatable around a rotation axis fixed to said dynamic mass, and wherein said actuator causes said controllable mass to rotate around said rotation axis. 9. The helicopter according to claim 8 , wherein said vibration reduction device further includes: an acceleration sensor configured to measure an acceleration of said object of vibration reduction, and a control device configured to control said actuator based on said acceleration. 10. The helicopter according to claim 9 , wherein said vibration reduction device further includes: a rotation frequency sensor configured to measure a rotation frequency indicating how many times a rotating body provided in said object of vibration reduction rotates per unit time, wherein said control device further controls said actuator based on said rotation frequency.