Acceleration slip regulation method and device for four-wheel drive electric vehicle

What is claimed is: 1. An acceleration slip regulation method for a four-wheel drive electric vehicle, comprising: detecting wheel speeds of four wheels of the electric vehicle and a depth of depression of an accelerator pedal; estimating a vehicle speed of the electric vehicle according to the wheel speeds of the four wheels, determining a road condition at a location of the electric vehicle according to the wheel speeds of the four wheels and the vehicle speed, and acquiring a required torque of the electric vehicle according to the depth of depression of the accelerator pedal, the road condition comprising a low adhesion starting road, a joint road, and a bisectional road; and performing acceleration slip regulation on the four wheels respectively according to the road condition and the required torque, wherein the step of performing acceleration slip regulation on the four wheels respectively according to the road condition and the required torque further comprises: determining, when a single wheel is located on a low adhesion road, whether the vehicle speed is less than a preset vehicle speed; controlling, when the vehicle speed is less than the preset vehicle speed, the wheel on the low adhesion road to activate acceleration slip; and performing, when the vehicle speed is greater than or equal to the preset vehicle speed, torque limiting on a motor of a wheel on a high adhesion road, which is coaxial with the wheel on the low adhesion road, so as to prevent the electric vehicle from lateral displacement, a drive torque for the motor of the wheel on the high adhesion road, which is coaxial with the wheel on the low adhesion road, being equal to a sum of a drive torque for a motor of the wheel on the low adhesion road and a preset torque limit difference. 2. The acceleration slip regulation method for a four-wheel drive electric vehicle according to claim 1 , wherein the determining a road condition at the location of the electric vehicle according to the wheel speeds of the four wheels and the vehicle speed comprises: determining whether the wheel speeds of the four wheels are greater than the vehicle speed, respectively; determining, when the wheel speeds of the four wheels are all greater than the vehicle speed, that the road condition is the low adhesion starting road; determining, when the wheel speeds of front wheels of the electric vehicle are both equal to the vehicle speed and the wheel speeds of rear wheels are both greater than the vehicle speed, that the road condition is the joint road and the electric vehicle enters a high adhesion road from a low adhesion road; determining, when the wheel speeds of the front wheels are both greater than the vehicle speed and the wheel speeds of the rear wheels are both equal to the vehicle speed, that the road condition is the joint road and the electric vehicle enters a low adhesion road from a high adhesion road; determining, when the wheel speed of only one wheel is greater than the vehicle speed and the wheel speeds of the other three wheels are all equal to the vehicle speed, that the road condition is the bisectional road and the single wheel is located on a low adhesion road; determining, when the wheel speed of one same-side wheel is greater than the vehicle speed and the wheel speed of the other same-side wheel is equal to the vehicle speed, that the road condition is the bisectional road and one same-side wheel is located on a low adhesion road; determining, when the wheel speed of one diagonal wheel is greater than the vehicle speed and the wheel speed of the other diagonal wheel is equal to the vehicle speed, that the road condition is the bisectional road and one diagonal wheel is located on a low adhesion road; and determining, when the wheel speeds of three wheels are greater than the vehicle speed and the wheel speed of the other wheel is equal to the vehicle speed, that the road condition is the bisectional road and the three wheels are located on a low adhesion road. 3. The acceleration slip regulation method for a four-wheel drive electric vehicle according to claim 1 , wherein the step of performing acceleration slip regulation on the four wheels respectively according to the road condition and the required torque comprises: controlling, when the road condition is the low adhesion starting road, the four wheels of the electric vehicle to activate acceleration slip, each wheel being separately controlled by a corresponding motor. 4. The acceleration slip regulation method for a four-wheel drive electric vehicle according to claim 1 , wherein the step of performing acceleration slip regulation on the four wheels respectively according to the road condition and the required torque further comprises: increasing, when the electric vehicle enters a high adhesion road from a low adhesion road, an integral coefficient in a PI controller corresponding to a motor of a front wheel respectively to increase an acceleration slip torque of the front wheel, and controlling the front wheel to exit the acceleration slip when the acceleration slip torque is greater than or equal to the required torque; and controlling, when the electric vehicle enters a low adhesion road from a high adhesion road, the front wheel to activate the acceleration slip, and performing torque decrease on the motor of the front wheel to prevent the front wheel from slipping. 5. The acceleration slip regulation method for a four-wheel drive electric vehicle according to claim 1 , wherein the step of performing acceleration slip regulation on the four wheels respectively according to the road condition and the required torque further comprises: controlling, when one same-side wheel is located on a low adhesion road, the wheel on the low adhesion road to activate acceleration slip, and performing torque limiting on a motor of a wheel on a high adhesion road, so as to prevent the electric vehicle from lateral displacement, a drive torque for the motor of the wheel on the high adhesion road being equal to a sum of a corresponding drive torque for a motor of the wheel on the low adhesion road and a preset torque limit difference. 6. The acceleration slip regulation method for a four-wheel drive electric vehicle according to claim 1 , wherein the step of performing acceleration slip regulation on the four wheels respectively according to the road condition and the required torque further comprises: controlling, when one diagonal wheel is located on a low adhesion road, the diagonal wheel on the low adhesion road to activate acceleration slip, and performing torque decrease on a motor of the diagonal wheel on the low adhesion road. 7. The acceleration slip regulation method for a four-wheel drive electric vehicle according to claim 1 , wherein the step of performing acceleration slip regulation on the four wheels respectively according to the road condition and the required torque further comprises: controlling, when three wheels are located on a low adhesion road, the three wheels on the low adhesion road to activate acceleration slip, and determining whether the vehicle speed is less than a preset vehicle speed; controlling, when the vehicle speed is less than the preset vehicle speed, a drive torque for a motor of a wheel on a high adhesion road to be the required torque; and performing, when the vehicle speed is greater than or equal to the preset vehicle speed, torque limiting on the motor of the wheel on the high adhesion road, so as to prevent the electric vehicle from lateral displacement, the drive torque for the motor of the wheel on the high adhesion road being equal to a sum of a drive torque for a motor of a wheel, which is located on the low adhesion road and coaxial with the wheel on the high adhesion road, and a preset torq