Built-in piezoelectric-type online dynamic balance actuator

What is claimed is: 1. A built-in piezoelectric type online dynamic balance actuator, comprising a housing ( 40 ), characterized in that: the housing ( 40 ) has two sides connected to a left piezoelectric drive adjustment mechanism and a right piezoelectric drive adjustment mechanism, said left piezoelectric drive adjustment mechanism and said right piezoelectric drive adjustment mechanism have an identical structure and are completely symmetrical in structure; wherein said right piezoelectric drive adjustment mechanism comprises: a right shaft ( 3 ) having a front end of said right shaft ( 3 ) supported inside a right chamber of said housing ( 40 ) through a third bearing ( 11 ), a middle portion of the right shaft ( 3 ) connected to a right end cover ( 7 ) through a second bearing ( 12 ), and a rear end of said right shaft ( 3 ) supported on a right bearing housing ( 1 ) through a first bearing ( 2 ); a right weight mass ( 5 ) coupled to said right shaft ( 3 ) which is positioned between said right end cover ( 7 ) and said right bearing housing ( 1 ), said right weight mass ( 5 ) having one end secured into position by a shoulder of the right shaft ( 3 ) and another end secure into position by a right adjustment sleeve ( 4 ); a right tension sleeve ( 6 ) inside which said weight mass ( 5 ) is disposed, said right tension sleeve ( 6 ) has a right side connected to the right bearing housing ( 1 ) by bolt connection and a left side connected to said right end cover ( 7 ) and the housing ( 40 ) by bolt connection; a first stator ( 8 ) fixedly connected to a left side of said right end cover ( 7 ) by screw thread connection; and a first mover ( 9 ) pressed against a surface of said first stator ( 8 ) through a disk provided at said front end of said right shaft ( 3 ), wherein said left piezoelectric drive adjustment mechanism comprises: a left shaft ( 23 ) having a rear end of said left shaft ( 23 ) supported inside a left chamber of said housing ( 40 ) through a sixth bearing ( 31 ), a middle portion of the left shaft ( 23 ) connected to a left end cover ( 27 ) through a fifth bearing ( 32 ), and a front end of said left shaft ( 23 ) supported on a left bearing housing ( 21 ) through a fourth bearing ( 22 ); a left weight mass ( 25 ) coupled to said left shaft ( 23 ) which is positioned between said left end cover ( 27 ) and said left bearing housing ( 21 ), said left weight mass ( 25 ) having one end secured into position by a shoulder of the left shaft ( 23 ) and another end secure into position by a left adjustment sleeve ( 24 ); a left tension sleeve ( 26 ) inside which said weight mass ( 25 ) is disposed, said left tension sleeve ( 26 ) has a left side connected to the left bearing housing ( 21 ) by bolt connection and a right side connected to said left end cover ( 27 ) and the housing ( 40 ) by bolt connection; a second stator ( 28 ) fixedly connected to a right side of said left end cover ( 27 ) by screw thread connection; and a second mover ( 29 ) pressed against a surface of said second stator ( 28 ) through a disk provided at said rear end of said left shaft ( 23 ). 2. The built-in piezoelectric type online dynamic balance actuator according to claim 1 , characterized in that: vibration of said first stator ( 8 ) and said second stator ( 28 ) is generated by piezoelectric ceramic excitation, which is triggered by a two-phase excitation voltage of a control center, said right weight mass ( 5 ) and said left weight mass ( 25 ) are arranged to be driven by the control center to form a preset angle and then centrifugal force generated by the right weight ( 5 ) and the left weight ( 25 ) during high speed rotational movement of the main shaft combine to form a balance vector to cancel the imbalance vector of the main shaft so that mass distribution of the main shaft is improved. 3. The built-in piezoelectric type online dynamic balance actuator according to claim 1 , characterized in that: each of said right shaft ( 3 ) and said left shaft ( 23 ) is provided with a shoulder ( 777 ) and a disc ( 888 ), said shoulder ( 777 ) is arranged for positioning one side of said right weight mass ( 5 ) and said left weight mass ( 25 ), said disc ( 888 ) is arranged for pressing against and applying preloading force to said first mover ( 9 ) and said second mover ( 29 ). 4. The built-in piezoelectric type online dynamic balance actuator according to claim 1 , characterized in that: a first adjusting gasket ( 10 ) is disposed at a surface between said left shaft ( 3 ) and said third bearing ( 11 ) for adjustment of the preloading force, and a second adjusting gasket ( 30 ) is disposed at a surface between said right shaft ( 23 ) and said sixth bearing ( 31 ) for adjustment of the preloading force. 5. The built-in piezoelectric type online dynamic balance actuator according to claim 1 , characterized in that: each of said right weight mass ( 5 ) and said left weight mass ( 25 ) has a semi-circular construction, and said right shaft ( 3 ) and said left shaft ( 23 ) are connected to said right weight mass ( 5 ) and said left weight mass ( 25 ) by a transition fit respectively. 6. The built-in piezoelectric type online dynamic balance actuator according to claim 1 , characterized in that: said first stator ( 8 ) and said second stator ( 28 ) has a reverse side affixed with piezoelectric ceramics ( 333 ) and a front side opposite to said reverse side provided with stator teeth ( 222 ), and a second tightening screw ( 444 ) is disposed at an inner side of each of said first stator ( 8 ) and said second stator ( 28 ). 7. The built-in piezoelectric type online dynamic balance actuator according to claim 1 , characterized in that: a portion of an upper surface of said first mover ( 9 ) and said second mover ( 29 ) which is in contact with the first stator ( 8 ) and the second stator ( 28 ) respectively are coated with a wear-resistant material ( 555 ), and a lower surface of said first mover ( 9 ) and said second mover ( 29 ) is pasted with a vibration-absorbing material ( 666 ), said wear-resistant material ( 555 ) is made of carbon-carbon composite material and said vibration-absorbing material ( 666 ) is made of high polymer vibration absorbing material. 8. The built-in piezoelectric type online dynamic balance actuator according to claim 1 , characterized in that: said built-in piezoelectric type online dynamic balance actuator is built-in inside an inner hole of the main shaft by transition fit. 9. The built-in piezoelectric type online dynamic balance actuator according to claim 6 , characterized in that: the excitation electric power of the piezoelectric ceramics ( 333 ) is input from outside through a high-speed slip ring.