Machining head

The invention claimed is: 1. A machining head comprising: a base body; a turret, support by the base body and provided with multiple rotating tools, that rotates about an axis such that one of the multiple rotating tools for performing machining is positioned at a specific position; and a single motor supported by the base body, wherein, during the machining, the single motor performs both rotation of the multiple rotating tools and rotation of the turret, wherein the turret includes a cylindrical tubular portion positioned such that a central axis thereof coincides with the axis of rotation of the turret, the machining head further comprising: a main spindle rotatably held by the tubular portion in a state of being coaxially inserted into the tubular portion and rotated by rotation of a motor shaft as a rotary shaft of the motor; multiple tool holding shafts rotatably held by the turret and respectively holding the multiple rotating tools; a tool rotation transmission mechanism that transmits the rotation of the main spindle to each of the multiple tool holding shafts as rotation of the respective tool holding shafts; and a switchable turret rotation transmission mechanism capable of transmitting the rotation of the motor shaft to the turret as the rotation of the turret and releasing the transmission of the motor shaft to the turret such that the turret does not rotate, and wherein the switchable turret rotation transmission mechanism includes: a rotary tube externally fitted with the tubular portion of the turret and rotated about the axis by the rotation of the motor shaft: a relative moving device moving one of the rotary tube and the tubular portion of the turret with respect to the other between a first position and a second position in an axial direction as a direction in which the axis extends; and a spline mechanism configured to have a spline formed in an inner peripheral portion of the rotary tube and a spline formed in an outer peripheral portion of the tubular portion of the turret, the splines meshing with each other in a state where one of the rotary tube and the tubular portion of the turret is positioned at the first position, and the splines not meshing with each other in a state where one of the rotary tube and the tubular portion of the turret is positioned at the second position. 2. The machining head according to claim 1 , wherein each of the spline formed in the inner peripheral portion of the rotary tube and the spline formed in the outer peripheral portion of the tubular portion of the turret is shaped such that multiple toothless portions with no tooth over the entire periphery and multiple toothed portions with teeth over the entire periphery are alternately aligned at an equal pitch in the axial direction, and wherein the spline mechanism is configured such that the multiple toothed portions of the spline formed in the inner peripheral portion of the rotary tube and the multiple toothed portions of the spline formed in the outer peripheral portion of the tubular portion of the turret are positioned at positions matching with each other in the axial direction in a state where one of the rotary tube and the tubular portion of the turret is positioned at the first position by the relative moving device, and the multiple toothed portions of one of the spline formed in the inner eripheralperipheral portion of the rotary tube and the spline formed in the outer peripheral portion of the tubular portion of the turret are positioned at positions matching with the multiple toothless portions of the other in the axial direction and the multiple toothless portions of the one are positioned at positions matching with the toothed portions of the other in the axial direction in a state where one of the rotary tube and the tubular portion of the turret is positioned at the second position by the relative moving device. 3. The machining head according to claim 1 , wherein the main spindle includes an extending portion extending in the axial direction from the tubular portion of the turret, the rotary tube has a facing portion opposite an outer peripheral portion of the extending portion in the inner peripheral portion, and the main spindle is configured to rotate by the motor by the extending portion and the facing portion of the rotary tube meshing with each other via another spline mechanism. 4. The machining head according to claim 1 , wherein the motor shalt, the main spindle, the tubular portion of the turret, and the rotary tube are coaxially arranged. 5. The machining head according to claim 1 , wherein the turret is supported to be capable of moving in the axial direction with respect to the base body and the rotary tube is not capable of moving relative to the motor shaft in the axial direction, and wherein the relative moving device is configured to move the tubular portion of the turret with respect to the rotary tube in the axial direction and between the first position and the second position by moving the the turret in the axial direction. 6. The machining head according to claim 5 , further comprising a switchable connection mechanism between the turret and the base body such that the rotation of the turret with respect to the base body is allowed in a state where the tubular portion of the turret is positioned at the first position, and the rotation of the turret with respect to the base body is prohibited in a state where the tubular portion of the turret is positioned at the second position.