Friction stir welding device, friction stir welding system, and friction stir welding method

1 . A friction stir welding device comprising: a machining tool; a rotary drive motor configured to rotate the machining tool; a support member configured to support the machining tool and the rotary drive motor; a support member actuator configured to displace the support member; and a controller configured to control the rotary drive motor and the support member actuator; wherein, when, in a state in which the machining tool while rotating is pressed in an axial direction thereof with respect to a first member to be welded and a second member to be welded, the machining tool is moved linearly or curvilinearly to thereby continuously weld together the first member to be welded and the second member to be welded, the controller executes a counterforce compensation control configured to control an output of the support member actuator so as to cancel out a counterforce that acts on the machining tool accompanying rotation of the machining tool. 2 . The friction stir welding device according to claim 1 , wherein the controller calculates a direction of the counterforce based on a direction of rotation of the machining tool and a target direction of advancement or an actual direction of advancement of the machining tool. 3 . The friction stir welding device according to claim 1 , wherein the controller calculates a magnitude of the counterforce based on an actual output or a target output of the rotary drive motor. 4 . The friction stir welding device according to claim 1 , wherein: the support member includes an articulated arm, and a jig configured to support the machining tool and the rotary drive motor; the support member actuator includes a plurality of arm motors that are provided inside the articulated arm; and the jig is attached to a distal end of the articulated arm. 5 . The friction stir welding device according to claim 4 , wherein: the jig is a C-shaped member; the machining tool and the rotary drive motor are disposed on one end side of the C-shaped member; and a guided member is disposed on another end side of the C-shaped member, the guided member being guided by a guide member formed on a welded member support unit configured to support the first member to be welded and the second member to be welded. 6 . The friction stir welding device according to claim 5 , wherein the distal end of the articulated arm is attached to a center of the C-shaped member. 7 . The friction stir welding device according to claim 1 , wherein the controller: executes the counterforce compensation control when an output of the rotary drive motor exceeds an output threshold; and stops the counterforce compensation control when the output of the rotary drive motor does not exceed the output threshold. 8 . The friction stir welding device according to claim 4 , wherein the controller: converts an actual current value or a target current value of the rotary drive motor into a magnitude of the counterforce; converts the magnitude of the counterforce into a deflection compensation amount of the articulated arm in a direction of the counterforce; and compensates a posture of the articulated arm depending on the deflection compensation amount. 9 . The friction stir welding device according to claim 1 , wherein, in a case that welding of the first member to be welded and the second member to be welded is carried out linearly, the controller: sets a target start point and a target end point of the machining tool; during movement of the machining tool from the target start point to the target end point, calculates a direction of the target end point with respect to a current position of the machining tool; and moves the machining tool in the direction of the target end point. 10 . A friction stir welding system comprising: a friction stir welding device; and a welded member support unit configured to support a first member to be welded and a second member to be welded, wherein the friction stir welding device comprises: a machining tool; a rotary drive motor configured to rotate the machining tool; a support member configured to support the machining tool and the rotary drive motor; a support member actuator configured to displace the support member; and a controller configured to control the rotary drive motor and the support member actuator, and wherein, when, in a state in which the machining tool while rotating is pressed in an axial direction thereof with respect to the first member to be welded and the second member to be welded, the machining tool is moved linearly or curvilinearly to thereby continuously weld together the first member to be welded and the second member to be welded, the controller executes a counterforce compensation control configured to control an output of the support member actuator so as to cancel out a counterforce that acts on the machining tool accompanying rotation of the machining tool. 11 . A friction stir welding method using a friction stir welding device comprising a machining tool, a rotary drive motor configured to rotate the machining tool, a support member configured to support the machining tool and the rotary drive motor, a support member actuator configured to displace the support member, and a controller configured to control the rotary drive motor and the support member actuator; wherein, when, in a state in which the machining tool while rotating is pressed in an axial direction thereof with respect to a first member to be welded and a second member to be welded, the machining tool is moved linearly or curvilinearly to thereby continuously weld together the first member to be welded and the second member to be welded, the controller executes a counterforce compensation control configured to control an output of the support member actuator so as to cancel out a counterforce that acts on the machining tool accompanying rotation of the machining tool.