Friction stir welding apparatus with an L-shaped support

The invention claimed is: 1. A friction stir welding apparatus for joining together workpieces abutting each other by friction stir welding, comprising: a rotating shaft, on which a thread for friction stirring is formed; a rotating shoulder fixed to a distal end of the rotating shaft and configured to rotate together with the rotating shaft to generate frictional heat between the rotating shoulder and back surfaces of the workpieces; a drive unit rotatably supporting the rotating shaft on a front surface side of the workpieces, the drive unit including a motor configured to rotate the rotating shaft; a pushing mechanism configured to push the rotating shoulder against the back surfaces of the workpieces; an L shaped support slidably connected to the drive unit in an axial direction of the rotating shaft, a horizontal portion of the L-shaped support having an opening therein through which the rotating shaft extends; and a stationary shoulder penetrated by the rotating shaft and configured to hold the workpieces in a sandwiching manner together with the rotating shoulder, the stationary shoulder being non-rotatably mounted to the horizontal portion of the L-shaped support. 2. The friction stir welding apparatus according to claim 1 , further comprising an urging member configured to push the stationary shoulder against front surfaces of the workpieces. 3. The friction stir welding apparatus according to claim 1 , further comprising a detector configured to detect a pushing force of the rotating shoulder against the back surfaces of the workpieces, wherein the pushing mechanism is configured to operate in accordance with a detection value of the detector. 4. The friction stir welding apparatus according to claim 1 , wherein the pushing mechanism is configured to operate in accordance with a current value of the motor. 5. The friction stir welding apparatus according to claim 1 , wherein the thread is further formed on a part of the rotating shaft where the rotating shaft overlaps the stationary shoulder, and a wire-feeding groove, through which a wire made of a material that is able to be stirred together with the workpieces is fed to the thread, is formed in a surface of the stationary shoulder, the surface facing the rotating shoulder, such that the wire-feeding groove extends from a central hole, through which the rotating shaft is inserted, and the wire-feeding groove extends in a joining direction, the joining direction being a direction in which the rotating shaft is moved along a boundary between the workpieces. 6. The friction stir welding apparatus according to claim 5 , further comprising a pushing roller disposed in the joining direction relative to the stationary shoulder and configured to push the wire against front surfaces of the workpieces. 7. The friction stir welding apparatus according to claim 1 , wherein a shaping die is formed in or on a surface of the stationary shoulder, the surface facing the rotating shoulder, such that the shaping die extends from a central hole, through which the rotating shaft is inserted, and the shaping die extends in a direction opposite to a joining direction, the joining direction being a direction in which the rotating shaft is moved along a boundary between the workpieces. 8. The friction stir welding apparatus according to claim 1 , wherein the L-shaped support and the drive unit are movable relative to each other in the axial direction of the rotating shaft, the pushing mechanism moves the drive unit relative to the L-shaped support, and the stationary shoulder is mounted to the L-shaped support.