Control method and control system for screw pump

What is claimed is: 1. A control method for use with a control system to control a screw pump, the control system comprising an electric motor and a motor drive, the electric motor being synchronously rotated with the screw pump, the motor drive controlling an operation of the electric motor, the motor drive comprising a DC/AC converter for converting a DC bus voltage into a driving voltage so as to drive the electric motor, the DC bus voltage being obtained by converting an electrical power from a power source, the control method comprising steps of: (a) monitoring the DC bus voltage; (b) judging whether the DC bus voltage is smaller than a first threshold value, wherein if a judging result of the step (b) indicates that the DC bus voltage is smaller than the first threshold value, a step (c) is performed; (c) allowing a potential energy which is due to an oil load on the screw pump and released by a backspin action to be converted into a regenerative electrical energy, and providing the regenerative electrical energy to the motor drive to maintain a normal operation of the motor drive; (d) allowing the motor drive to drive the electric motor to control the backspin action of the screw pump according to a backspin torque limit strategy; (e) limiting the DC bus voltage to be larger than a second threshold value; (f) judging whether the electrical power from the power source is restored; (g) if a judging result of the step (f) indicates that the electrical power from the power source is not restored, monitoring a level of a reverse regenerative torque; (h) judging whether the level of the reverse regenerative torque is smaller than a preset torque value; and (i) if a judging result of the step (h) indicates that the level of the reverse regenerative torque is smaller than the preset torque value, allowing the backspin action of the screw pump to be stopped freely; wherein the backspin torque limit strategy in the step (d) comprises: (d1) setting a motor rotation speed command to a negative one, wherein when a rotation speed of the electric motor is positive, a forward motor torque limitation is set to zero and a forward regenerative torque limitation is set to a normal value; (d2) when the rotation speed of the electric motor is negative and lower than a preset value, setting a reverse motor torque limitation to zero and setting a reverse regenerative torque limitation to the normal value; (d3) when the rotation speed of the electric motor is negative and larger than the preset value, performing a reverse speed control mode and setting the reverse motor torque limitation and the reverse regenerative torque limitation to the normal values; wherein the step (f) further comprises sub-steps of: (f1) when the motor drive detects that a time period for performing the reverse rotation of the electric motor is longer than a first preset time value, the forward motor torque limitation is returned to the normal value, and the motor rotation speed command is set to a positive one, so that the motor drive is operated at a normal operating mode and a reverse rotation of the electric motor is switched to a forward rotation; (f2) if the DC bus voltage is lower than the first threshold value after the electric motor is switched to the forward rotation, the motor drive judges that the electrical power from the power source is not restored; and (f3) if the DC bus voltage is lower than the first threshold value for a second preset time value and the motor drive judges that the electrical power from the power source is not restored, the step (g) is performed. 2. The control method according to claim 1 , wherein the second threshold value is lower than the first threshold value. 3. The control method according to claim 1 , wherein if the detecting result of the step (b) indicates that the DC bus voltage is not smaller than the first threshold value, the step (a) is repeatedly done. 4. The control method according to claim 1 , wherein if the judging result of the step (f) indicates that the electrical power from the power source is restored, a step (j) is performed so that the electric motor is driven to perform forward rotation and accelerate the rotation speed, and the step (a) is repeatedly done. 5. The control method according to claim 1 , wherein if the judging result of the step (h) indicates that the level of the reverse regenerative torque is not smaller than the preset torque value, the step (c) is repeatedly done. 6. The control method according to claim 1 , wherein in the step (e), a brake device of the control system consumes a portion of the regenerative electrical energy, so that the DC bus voltage is limited to be larger than the second threshold value. 7. A control system for controlling a screw pump, the control system comprising: an electric motor synchronously rotated with the screw pump; and a motor drive electrically connected with a power source and the electric motor, and configured to convert an electrical power from the power source and provide the converted electrical power to the electric motor, wherein the motor drive comprises: a DC/AC converter electrically connected with the electric motor for converting a DC bus voltage into a driving voltage so as to drive the electric motor, wherein the DC bus voltage is obtained by converting the electrical power from the power source; and a controlling unit electrically connected with the DC/AC converter for controlling the DC/AC converter and monitoring the DC bus voltage, wherein if the electrical power from the power source is interrupted and the controlling unit judges that the DC bus voltage is smaller than a first threshold value, a potential energy due to an oil load on the screw pump and released by a backspin action is converted into a regenerative electrical energy to provide the motor drive, and the backspin action of the screw pump is controlled according to a backspin torque limit strategy, wherein the controlling unit comprises: a speed observer electrically connected with the electric motor for estimating a rotation speed of a rotor of the electric motor, thereby generating a rotation speed estimation value; a backspin torque limitation unit electrically connected with the speed observer, wherein the backspin torque limitation unit store the backspin torque limit strategy, and provides a torque limitation according to the rotation speed estimation value; a speed control circuit electrically connected with the backspin torque limitation unit, wherein the speed control circuit provides a torque command according to a rotation speed command and the torque limitation; a torque controller electrically connected with the speed control circuit for converting the torque command into a Q-axis current command; a flux controller for generating a D-axis current command; a current control circuit electrically connected with the torque controller and the flux controller, wherein according to the Q-axis current command and the D-axis current command, the current control circuit generates an alpha current command and a beta current command, respectively; and a pulse width modulation generator electrically connected with the current control circuit and the DC/AC converter, wherein according to the alpha current command and the beta current command, the pulse width modulation generator generates a pulse width modulation signal to control ON/OFF operations of at least one switching element of the DC/AC converter. 8. The control system according to claim 7 , wherein the motor drive further comprises: an AC/DC converter electrically connected with the power source for converting the electrical power from the power source into a DC voltage; and a DC link electrically connected with the AC/DC