Electric tool and control method thereof

What is claimed is: 1. An electric tool comprising: a motor with a rotating shaft; a drive shaft coupled to the rotating shaft; a torque sensing module adapted to sense a torque on the drive shaft; and a control device electrically connected to the motor and the torque sensing module; wherein the control device drives the motor to rotate the rotating shaft in a direction of rotation; when the control device determines that an increase in the torque sensed by the torque sensing module occurs, the control device drives the motor in a plurality of first start-stop cycles; each of the plurality of first start-stop cycles has a first cycle time, wherein the first cycle time includes a first enabling time and a first ending time; the control device drives the motor to rotate the rotating shaft during the first enabling time and stops the rotating shaft of the motor from rotating during the first ending time; the plurality of first cycle time of the plurality of first start-stop cycles gradually increase, and the plurality of first enabling time of the plurality of first start-stop cycles gradually increase; then, when the control device determines that the torque sensed by the torque sensing module has increased to a first predetermined torque and is less than a second predetermined torque, the control device drives the motor in a plurality of second start-stop cycles; each of the plurality of second start-stop cycles has a second cycle time, wherein the second cycle time includes a second enabling time and a second ending time; the control device drives the rotating shaft of the motor to rotate during the second enabling time and stops the rotating shaft of the motor from rotating during the second ending time; the plurality of second cycle time of the plurality of second start-stop cycles remain fixed, while the plurality of second enabling time of the plurality of second start-stop cycles gradually increase and the plurality of second ending time of the plurality of second start-stop cycles gradually decrease. 2. The electric tool as claimed in claim 1 , wherein the plurality of first cycle time and the plurality of first enabling time of the plurality of first start-stop cycles increase gradually with the increase in the torque sensed by the torque sensing module; the plurality of second enabling time increase gradually with the increase in the torque sensed by the torque sensing module, while the plurality of second ending time gradually decrease with the increase in the torque sensed by the torque sensing module. 3. The electric tool as claimed in claim 2 , wherein a degree of an increase in the plurality of second enabling time along with the increase in the torque sensed by the torque sensing module is greater than a degree of an increase in the plurality of first enabling time along with the increase in the torque sensed by the torque sensing module. 4. The electric tool as claimed in claim 1 , wherein each of the plurality of first start-stop cycles has a first duty cycle; the first duty cycle of each of the plurality of first start-stop cycles is the same; each of the plurality of second start-stop cycles has a second duty cycle; the second duty cycle of each of the plurality of second start-stop cycles gradually increases. 5. The electric tool as claimed in claim 1 , wherein the plurality of first ending time of the plurality of first start-stop cycles gradually increase. 6. The electric tool as claimed in claim 5 , wherein when the control device determines that the torque sensed by the torque sensing module has not reached the first predetermined torque and the first cycle time of any one of the plurality of first start-stop cycles has already increased to an upper limit cycle time, the control device maintains the first cycle time of the plurality of first start-stop cycles, which are subsequent, at the upper limit cycle time and no longer increases the first enabling time of the subsequent plurality of first start-stop cycles. 7. The electric tool as claimed in claim 5 , wherein a first corresponding relationship is established in the control device; the first corresponding relationship is related to a change in the torque sensed by the torque sensing module and a change in the plurality of first cycle time; the control device obtains the first cycle time of each of the plurality of first start-stop cycles based on the torque sensed by the torque sensing module and the first corresponding relationship, and the control device obtains the first enabling time of each of the plurality of first start-stop cycles by subtracting the corresponding first ending time from the obtained first cycle time. 8. The electric tool as claimed in the claim 5 , wherein a first corresponding relationship is established in the control device; the first corresponding relationship is related to a change in the torque sensed by the torque sensing module and a change in the plurality of first enabling time; the control device obtains the first enabling time of each of the plurality of first start-stop cycles based on the torque sensed by the torque sensing module and the first corresponding relationship. 9. The electric tool as claimed in claim 1 , wherein a second corresponding relationship is established in the control device; the second corresponding relationship is related to a change in the torque sensed by the torque sensing module and a change the plurality of second enabling time; the control device obtains the second enabling time of each of the plurality of second start-stop cycles based on the torque sensed by the torque sensing module and the second corresponding relationship, and the control device obtains the second ending time of each of the plurality of second start-stop cycle by subtracting the obtained second enabling time from the corresponding second cycle time. 10. The electric tool as claimed in claim 1 , wherein when the control device determines that the second enabling time of any one of the plurality of second start-stop cycles has reached an upper limit enabling time or the second ending time of any one of the plurality of second start-stop cycles has reached a lower limit ending time, the control device maintains the second enabling time of the plurality of second start-stop cycles, which are subsequent, at the upper limit enabling time and maintains the second ending time of the subsequent plurality of second start-stop cycles at the lower limit ending time. 11. The electric tool as claimed in claim 1 , wherein when the control device determines that the torque sensed by the torque sensing module reaches a target torque, the control device stops the rotating shaft of the motor from rotating. 12. The electric tool as claimed in claim 1 , wherein when the control device determines that the torque sensed by the torque sensing module has increased to the second predetermined torque, the control device drives the motor in a plurality of third start-stop cycles and then the control device drives the motor to increase a rotational speed of the rotating shaft of the motor in the direction of rotation when the control device assesses a decrease in the torque sensed by the torque sensing module; each of the plurality of third start-stop cycles has a third cycle time; wherein the third cycle time includes a third enabling time and a third ending time; the control device drives the rotating shaft of the motor to rotate during the third enabling time and stops the rotating shaft of the motor from rotating during the third ending time; the third cycle time is equal to the second cycle time; the third enabling time is equal to the second enabling time of one of the plurality of second start-stop cycl