Real-time vibration state monitoring system and monitoring method thereof

What is claimed is: 1. A real-time vibration state monitoring system, comprising: a linear motor including a vibrator which generates vibration and a working coil which interacts with the vibrator to generate induced electromotive force; a signal generating module for outputting a drive signal to drive the linear motor to vibrate; a working parameters feedback module connecting with the linear motor electrically, for monitoring and returning the real-time induced electromotive force of the linear motor; a calculating module connecting with the working parameters feedback module electrically for calculating and outputting the speed, the acceleration and the amplitude of the vibrator in accordance with the induced electromotive force, the power coupling coefficient of the working coil and the initial position of the vibrator; an initial position recording module connecting with the calculating module electrically for recording the initial position of the vibrator, updating the initial position of the vibrator regularly in accordance with the calculation result and outputting the initial position to the calculating module; a signal control module connecting with the linear motor, the calculating module and the signal generating module electrically and respectively for controlling the amplitude of the linear motor by adjusting the drive signal in accordance with the calculation result; a power amplifier which is connected between the signal control module and the linear motor serially for amplifying the drive signal; wherein the linear motor further comprises a detecting coil which is arranged relatively static to the working coil; and the working parameters feedback module monitors the voltages on two ends of the detecting coil, calculates the induced electromotive force and returns it to the calculating module. 2. The real-time vibration state monitoring system as described in claim 1 , wherein the signal control module also inputs a low-frequency detecting signal to the linear motor. 3. The real-time vibration state monitoring system as described in claim 2 , wherein the working parameters feedback module monitors current and voltage of the working coil, calculates the induced electromotive force and returns it to the calculating module. 4. A real-time vibration state monitoring method comprising the following steps of: S 1 , providing a linear motor having a vibrator and a working coil interacting with the vibrator to generate the induced electromotive force; S 2 , providing a drive signal in order to drive the vibrator to vibrate; S 3 , monitoring and returning the real-time induced electromotive force of the linear motor; S 4 , calculating the speed, the acceleration and the amplitude of the vibrator in accordance with the induced electromotive force returned, the power coupling coefficient of the working coil and the initial position of the vibrator and outputting the calculation result; S 5 , controlling the amplitude of the vibrator by adjusting the drive signal in accordance with the calculation result; wherein in the step S 2 , the power amplifier is used for amplifying the drive signal; wherein in the step S 1 the detecting coil which is relatively static to the working coil is installed in the linear motor; wherein in the step S 3 the voltages on two ends of the detecting coil are monitored, and induced electromotive force is calculated, and also the induced electromotive force is returned. 5. The real-time vibration state monitoring method as described in claim 4 , wherein in the step S 2 , a low-frequency detecting signal is provided. 6. The real-time vibration state monitoring method as described in claim 5 , wherein step S 3 further comprises steps of monitoring the current and the voltage of the working coil and calculating and returning the induced electromotive force.