Friction stir spot welding apparatus, friction stir spot welding method, and perpendicular-to-plane detection device for use in friction stir spot welding

The invention claimed is: 1. A friction stir spot welding apparatus including a rotary tool that moves forward and backward along a rotational axis, the apparatus pressing a tip of the rotary tool against workpieces and rotating a contacting portion of the tip, the contacting portion being in contact with the workpieces, to soften the workpieces by frictional heat such that the workpieces are stirred and joined together, the friction stir spot welding apparatus comprising: a perpendicular-to-plane detector that detects whether or not the rotary tool is positioned to be in a perpendicular-to-plane state relative to a joining target portion of the workpieces, wherein the perpendicular-to-plane detector includes position sensors that are disposed on a reference plane to which forward and backward movement directions of the rotary tool are normal, the position sensors measuring distances to at least three measurement positions that are set around the joining target portion, and the perpendicular-to-plane detector is configured to detect, based on the distances to the measurement positions, that the rotary tool is positioned to be in the perpendicular-to-plane state relative to the joining target portion of the workpieces. 2. The friction stir spot welding apparatus according to claim 1 , wherein the position sensors included in the perpendicular-to-plane detector are at least three position sensors, and the position sensors are disposed on the reference plane at respective positions that are equally distant from a center of an forward and backward movement path of the rotary tool. 3. The friction stir spot welding apparatus according to claim 1 , comprising: a backing portion provided at a position that is in the forward movement direction of the rotary tool, the backing portion coming into contact with a back surface of the joining target portion; and a frame portion that retains the backing portion and the rotary tool such that the backing portion and the rotary tool face each other, wherein the perpendicular-to-plane detector is integrally provided on the backing portion, or is provided at the position of the backing portion in a replaceable manner. 4. The friction stir spot welding apparatus according to claim 3 , comprising: an arm unit configured to operate in a three-dimensional manner; and an arm control unit that controls operation of the arm unit, wherein the rotary tool and the backing portion are mounted to the arm unit via the frame portion, and the arm control unit controls the operation of the arm unit such that all the distances to the measurement positions, the distances being measured by the perpendicular-to-plane detector, are equal to each other. 5. The friction stir spot welding apparatus according to claim 4 , comprising a contact sensor that is integrally provided on the backing portion or is provided at the position of the backing portion in a replaceable manner, wherein the arm control unit controls the operation of the arm unit until a contact by the contact sensor is detected. 6. The friction stir spot welding apparatus according to claim 3 , comprising a base portion that is set on a floor in a stationary manner, wherein the rotary tool and the backing portion are provided on the base portion via the frame portion. 7. The friction stir spot welding apparatus according to claim 6 , comprising: an arm unit configured to operate in a three-dimensional manner and hold the workpieces; and an arm control unit that controls operation of the arm unit, wherein the arm control unit controls the operation of the arm unit such that all the distances to the measurement positions, the distances being measured by the perpendicular-to-plane detector, are equal to each other. 8. A friction stir spot welding apparatus including a rotary tool that moves forward and backward along a rotational axis, the apparatus pressing a tip of the rotary tool against workpieces and rotating a contacting portion of the tip, the contacting portion being in contact with the workpieces, to soften the workpieces by frictional heat such that the workpieces are stirred and joined together, the friction stir spot welding apparatus comprising: a backing portion provided at a position that is in a forward movement direction of the rotary tool, the backing portion coming into contact with a back surface of the joining target portion; a frame portion that retains the backing portion and the rotary tool such that the backing portion and the rotary tool face each other; and a perpendicular-to-plane detector that detects whether or not the rotary tool is positioned to be in a perpendicular-to-plane state relative to the joining target portion of the workpieces, wherein the perpendicular-to-plane detector includes position sensors that are disposed on a reference plane to which a normal line of a contact surface of the backing portion is normal, the position sensors measuring distances to at least three measurement positions that are set around the joining target portion, and the perpendicular-to-plane detector is configured to detect that the rotary tool is positioned to be in the perpendicular-to-plane state relative to the joining target portion of the workpieces if all the distances to the measurement positions are equal to each other. 9. The friction stir spot welding apparatus according to claim 1 , wherein the position sensors included in the perpendicular-to-plane detector are configured to measure distances to four measurement positions that are set around the joining target portion. 10. The friction stir spot welding apparatus according to claim 1 , wherein the position sensors are configured as non-contact sensors. 11. A friction stir spot welding method including a rotary tool that moves forward and backward along a rotational axis, the method including pressing a tip of the rotary tool against workpieces and rotating a contacting portion of the tip, the contacting portion being in contact with the workpieces, to soften the workpieces by frictional heat such that the workpieces are stirred and joined together, the friction stir spot welding method comprising: measuring distances to at least three measurement positions that are set around the joining target portion on a reference plane to which forward and backward movement directions of the rotary tool are normal; and detecting that the rotary tool is positioned to be in a perpendicular-to-plane state relative to the joining target portion of the workpieces if all the distances to the measurement positions, the distances being measured before or while the workpieces are being joined together at the joining target portion by the rotary tool, are equal to each other. 12. A perpendicular-to-plane detection device for use in friction stir spot welding, the device being provided in a friction stir spot welding apparatus, the friction stir spot welding apparatus including a rotary tool that moves forward and backward along a rotational axis, the apparatus pressing a tip of the rotary tool against workpieces and rotating a contacting portion of the tip, the contacting portion being in contact with the workpieces, to soften the workpieces by frictional heat such that the workpieces are stirred and joined together, the perpendicular-to-plane detection device comprising position sensors that are disposed on a reference plane to which forward and backward movement directions of the rotary tool are normal, the position sensors measuring distances to at least three measurement positions that are set around the joining target portion, wherein the perpendicular-to-plane detection device detects that the rotary tool is posit