Control device and control method for induction motor

What is claimed is: 1. A control device for an induction motor, comprising: a magnetizing current adjusting unit, used for calculating a magnetizing voltage instruction; a torque current adjusting unit, used for calculating a torque voltage instruction; a flux linkage instruction angle generating unit, calculating a flux linkage instruction angle according to a lower limit a ω 1th of a preset stator frequency, a stator frequency ω 1 , and a flux linkage estimation angle ∠{circumflex over (ψ)} r ; and a motor stator voltage instruction calculating unit, calculating, according to the magnetizing voltage instruction, the torque voltage instruction, and the flux linkage instruction angle, a stator voltage instruction for controlling a stator of the motor. 2. The control device for an induction motor according to claim 1 , wherein the flux linkage instruction angle generating unit comprises: a frequency difference calculating unit, calculating a difference value between the lower limit ω 1th of the preset stator frequency and the stator frequency ω 1 ; an integral unit, integrating the difference value to obtain a flux linkage instruction angle correction amount; and a correction unit, correcting the flux linkage estimation angle ∠{circumflex over (ψ)} r by using the flux linkage instruction angle correction amount to obtain the flux linkage instruction angle. 3. The control device for an induction motor according to claim 2 , wherein a minimum value of the flux linkage instruction angle correction amount is 0. 4. The control device for an induction motor according to claim 1 , wherein the control device further comprises: a flux linkage estimation angle calculating unit, performing arctan calculation on flux linkages {circumflex over (ψ)} ra and {circumflex over (ψ)} rb based on an α-β coordinate system calculated based on a stator voltage signal, a stator current signal, and a speed estimation value of the motor to obtain the flux linkage estimation angle ∠{circumflex over (ψ)} r . 5. The control device for an induction motor according to claim 1 , wherein the control device further comprises: a stator frequency calculating unit, deriving the flux linkage estimation angle ∠{circumflex over (ψ)} r with respect to time to obtain the stator frequency ω 1 . 6. The control device for an induction motor according to claim 1 , wherein the control device further comprises: a stator frequency calculating unit, performing arctan calculation on currents I a and I b based on an α-β coordinate system obtained based on a stator current flowing into the motor to obtain a current vector angle ∠I and performing a differential operation on the current vector angle ∠I next to obtain the stator frequency ω 1 . 7. The control device for an induction motor according to claim 1 , wherein the control device further comprises: a speed instruction correction amount calculating unit, used for calculating a speed instruction correction amount according to the lower limit ω 1th of the preset stator frequency and the stator frequency ω 1 , wherein the speed instruction correction amount is used for adjusting a speed instruction value, so as to calculate the torque voltage instruction. 8. The control device for an induction motor according to claim 7 , wherein the speed instruction correction amount calculating unit comprises: a first calculating unit, used for calculating a difference value between the lower limit ω 1th of the preset stator frequency and the stator frequency ω 1 ; and a first determining unit, determining the speed instruction correction amount according to the difference value calculated by the first calculating unit. 9. The control device for an induction motor according to claim 8 , wherein the speed instruction correction amount calculating unit further comprises: a first proportional integral (PI) adjusting unit, performing a proportional integral operation according to the difference value calculated by the first calculating unit and outputting a proportional integral operation result, wherein the first determining unit determines that the speed instruction correction amount is 0 when the proportional integral operation result is less than 0, wherein the first determining unit determines that the speed instruction correction amount is the proportional integral operation result when the proportional integral operation result is greater than or equal to 0. 10. A control method for an induction motor, comprising: calculating a magnetizing voltage instruction; calculating a torque voltage instruction; calculating a flux linkage instruction angle according to a lower limit of a preset stator frequency, a stator frequency, and a flux linkage estimation angle; and calculating, according to the magnetizing voltage instruction, the torque voltage instruction, and the flux linkage instruction angle, a stator voltage instruction for controlling stator operation of the motor.