Power tool and operating method for use on the power tool

The invention claimed is: 1. A power tool, comprising: a housing; a motor being disposed in the housing for outputting rotary power; an output shaft having an accommodating hole for holding a tool bit; a transmission mechanism being disposed between the motor and the output shaft for transmitting rotary power from the motor to the output shaft; a tool bit supporting assembly for holding at least two tool bits; a connecting member being disposed in the housing and movable relatively to the tool bit supporting assembly between a working position where torque transmission from the motor to one of the at least two tool bits, which one tool bit is held by the accommodating hole, is enabled and a release position where torque transmission from the motor to any of the at least two tool bits is disenabled; and an operating member is movably arranged on the housing; wherein the power tool further includes an automatic shifting means for adjusting a position of the tool bit supporting assembly in response to movement of the operating member, and wherein the tool bit supporting assembly enables one of the at least two tool bits, which one tool bit is held by the tool bit supporting assembly, to move from one position to another under action of the automatic shifting means. 2. The power tool according to claim 1 , wherein the connecting member is movable along an axis between the working position and the release position. 3. The power tool according to claim 1 , wherein the tool bit supporting assembly includes at least two chambers each having a respective longitudinal axis disposed in parallel to one another, each of the at least two chambers for correspondingly holding a respective one of the at least two tool bits, the connecting member passes through one of the at least two chambers when the connecting member is at the working position, and wherein to accommodate one of the tool bits in the one chamber, the connecting member exits and separates from the one of the at least two chambers when the connecting member is at the release position. 4. The power tool according to claim 3 , wherein the connecting member moves so as to be separated from the one of the at least two chambers, the operating member drives the automatic shifting means in order to move the tool bit supporting assembly to a position such that another one of the chambers has the respective longitudinal axis thereof in alignment with the longitudinal axis of the output shaft, so that positions of the at least two tool bits have been changed. 5. The power tool according to claim 1 , wherein the operating member is movable along the axial direction of the output shaft to drive the connecting member and the automatic shifting means. 6. The power tool according to claim 1 , wherein the automatic shifting means is connected between the operating member and the tool bit supporting assembly. 7. The power tool according to claim 1 , wherein the automatic shifting means includes a movement conversion assembly being connected between the operating member and the tool bit supporting assembly, and the movement conversion assembly is used to convert the movement of the operating member to the movement of the tool bit supporting assembly. 8. The power tool according to claim 7 , wherein the movement conversion assembly includes a driving member being connected between the operating member and the tool bit supporting assembly, and the operating member is moved along a movement direction and drives the driving member to move from a first position to a second position in order to drive the tool bit supporting assembly to move along a direction perpendicular to a longitudinal axial direction of the output shaft. 9. The power tool according to claim 8 , wherein the tool bit supporting assembly includes at least two chambers each having a respective longitudinal axis being disposed in parallel to one another, each of the at least two chambers for correspondingly holding a respective one of the at least two tool bits, the connecting member passes through one of the at least two chambers when the connecting member is at the working position, and wherein to accommodate one of the tool bits in the one chamber the connecting member exits and separates from the one of the at least two chambers when the connecting member is at the release position, the driving member is connected with the operating member, the operating member moves along the movement direction and controls movement of the connecting member until the connecting member is at least partially overlapped with the one chamber, when the connecting member is at least partially overlapped with the one chamber, the tool bit supporting assembly is fixed relative to the housing and the driving member is moved from the second position to the first position. 10. The power tool according to claim 8 , wherein the movement conversion assembly further includes a sliding groove arranged on the operating member, one end of the driving member is movably connected with the tool bit supporting assembly, the other end of the driving member is fixed with a sliding pin which moves along the sliding groove to drive the driving member to move. 11. The power tool according to claim 10 , wherein the driving member is configured to be a swing plate, the sliding pin is arranged at one end of the swing plate and moves along the sliding groove to drive the swing plate to rotate around an axis perpendicular to the axial direction of the output shaft. 12. The power tool according to claim 10 , wherein the sliding groove has two opposing oblique edges oblique with respect to the axial direction of the output shaft, and has two straight edges being connected with the oblique edges and parallel to the axial direction of the output shaft. 13. The power tool according to claim 8 , wherein the movement conversion assembly further includes a sliding groove arranged on the operating member, the sliding groove having two opposing oblique edges oblique with respect to the axial direction of the output shaft and having two straight edges being connected with the oblique edges and parallel to the axial direction of the output shaft, wherein the driving member comprises a sliding pin, and wherein two rib plates parallel to the two straight edges are arranged in the sliding groove respectively and the sliding pin is movable in the track formed between the two rib plates and the two straight edges. 14. The power tool according to claim 13 , wherein a guide plate is arranged in the sliding groove, wherein the guide plate is rotatable around an axis perpendicular to the axial direction of the output shaft, the operating member is movable to make the sliding pin contact the guide plate, and the sliding pin generates a displacement which is perpendicular to the axial direction of the output shaft under the action of the guide plate. 15. The power tool according to claim 1 , wherein the automatic shifting means includes a movement track selection means being connected to the operating member, and the operating member moves along an axis to make the tool bit supporting assembly moving cyclically between two positions via the movement track selection means. 16. The power tool according to claim 1 , wherein during movement of the operating member, there are at least two travels, wherein, the operating member moves relative to the housing together with the connecting member in the first travel; and the connecting member is fixed relative to the housing and the operating member moves relative to the housing in the second travel. 17. The power