Screw fastening device and screw fastening method

The invention claimed is: 1. A screw fastening apparatus for fastening a screw member having a bearing surface with respect to a member to be fastened by rotating the screw member from a theoretical seating point to a target rotational angle, comprising: a rotational angle sensor which senses rotational angle values of the screw member for fastening the screw member; a torque detector which detects torque values for fastening the screw member, the theoretical seating point being obtained by extrapolating a torque increased ratio, which is a quotient obtained by dividing a torque value difference between a first torque value and a second torque value by a predetermined unit rotational angle; a torque value difference detector which detects a number of torque value differences, each of the torque value differences being a difference of the torque values detected at intervals of a constant rotational angle; a slip detector which detects a slip of the screw member with respect to the member to be fastened, from an average of the torque value differences; and a screw fastening discontinuing unit which instructs to discontinue the screw fastening when the slip is detected by the slip detector. 2. The screw fastening apparatus as claimed in claim 1 , wherein the slip detector comprises: a moving average calculation unit which calculates a moving average value of the plurality of torque value differences; and a slip determination unit which determines that a slip of the screw member has occurred, when the moving average value calculated by the moving average calculation unit is on or below a predetermined threshold value. 3. The screw fastening apparatus as claimed in claim 2 , wherein the slip determination unit determines that a slip of the screw member has occurred, after the torque value differences, which are successively detected by the torque value difference detector, are continuously lowered. 4. The screw fastening apparatus as claimed in claim 2 , wherein the number of the plurality of torque value differences used for obtaining the moving average thereof by the moving average calculation unit is variable. 5. The screw fastening apparatus as claimed in claim 1 , further comprising a control unit, the control unit comprising therein the torque value difference detector, the slip detector, and the screw fastening discontinuing unit. 6. The screw fastening apparatus as claimed in claim 5 , wherein the control unit further comprises a central processing unit (CPU) and a memory unit connected to the central processing unit, the memory unit storing the torque values detected by the torque detector, and outputting the detected torque values to the torque value difference detector. 7. The screw fastening apparatus as claimed in claim 1 , wherein the slip detector determines that a slip of the screw member has occurred, after the torque value differences, which are successively detected by the torque value difference detector, are continuously lowered. 8. The screw fastening apparatus as claimed in claim 1 , wherein the number of the plurality of torque value differences used for obtaining the average thereof by the slip detector is variable. 9. A screw fastening apparatus for fastening a screw member having a bearing surface with respect to a member to be fastened by rotating the screw member from a theoretical seating point to a target rotational angle, comprising: a rotational angle sensor configured to detect rotational angle of the screw member for fastening the screw member; a torque detector configured to detect torque values for fastening the screw member; and a processor configured to: obtain the theoretical seating point by extrapolating a torque increased ratio, which is a quotient obtained by dividing a torque value difference between a first torque value and a second torque value by a predetermined unit rotational angle of the screw member; detect a number of torque value differences, each of the torque value differences is a difference of the torque values detected at intervals of a constant rotational angle of the screw member; detect a slip of the screw member, with respect to the member to be fastened, from an average of the torque value differences; and instruct to discontinue the screw fastening when the slip is detected. 10. A screw fastening method for fastening a screw member having a bearing surface with respect to a member to be fastened by rotating the screw member from a theoretical seating point to a target rotational angle, the method comprising: sensing rotational angle values of the screw member for fastening the screw member by a rotational angle sensor; detecting torque values for fastening the screw member by a torque detector; obtaining the theoretical seating point being obtained by extrapolating a torque increased ratio, which is a quotient obtained by dividing a torque value difference between a first torque value and a second torque value by a predetermined unit rotational angle; detecting a number of torque value differences by a torque value difference detector, each of the torque value differences is a difference of the torque values detected at intervals of a constant rotational angle; detecting a slip of the screw member with respect to the member to be fastened by a slip detector, from an average of the torque value differences; and instructing to discontinue the screw fastening by a screw fastening discontinuing unit when the slip is detected by the slip detector. 11. The screw fastening method as claimed in claim 10 , wherein the slip detector comprises: a moving average calculation unit which calculates a moving average value of the plurality of torque value differences; and a slip determination unit which determines that a slip of the screw member has occurred, when the moving average value calculated by the moving average calculation unit is on or below a predetermined threshold value. 12. The screw fastening apparatus as claimed in claim 11 , wherein the slip determination unit determines that a slip of the screw member has occurred, after the torque value differences, which are successively detected by the torque value difference detector, are continuously lowered. 13. The screw fastening method as claimed in claim 11 , wherein the number of the plurality of torque value differences used for obtaining the moving average thereof by the moving average calculation unit is variable. 14. The screw fastening method as claimed in claim 10 , further comprising a control unit, the control unit comprising therein the torque value difference detector, the slip detector, and the screw fastening discontinuing unit. 15. The screw fastening method as claimed in claim 14 , wherein the control unit further comprises a central processing unit (CPU) and a memory unit connected to the central processing unit, the memory unit storing the torque values detected by the torque detector, and outputting the detected torque values to the torque value difference detector. 16. The screw fastening method as claimed in claim 10 , wherein the slip detector determines that a slip of the screw member has occurred, after the torque value differences, which are successively detected by the torque value difference detector, are continuously lowered. 17. The screw fastening method as claimed in claim 10 , wherein the number of the plurality of torque value differences used for obtaining the average thereof by the slip detector is variable.