Weaving control device for articulated robot

The invention claimed is: 1. A weaving control device for an articulated robot which drives a plurality of joint axes so that a tool attached to the articulated robot traces a desired weaving trajectory, the control device comprising: a signal computation unit that computes a target position signal for each axis of the articulated robot based on the weaving trajectory; a filter computation unit that performs low-pass filter processing on the computed target position signal to remove a natural frequency component of the articulated robot, and computers a filter-processed target instruction signal for each axis of the articulated robot; and a motor control unit that drives each axis of the articulated robot with the filter-processed target instruction signal as input; wherein the frequency characteristics of gain at the motor control unit are configured approximately flat; and wherein the signal computation unit computes a gain-corrected target position signal. 2. The control device according to claim 1 , wherein the motor control unit includes a position feedback unit and a speed feedback unit and a speed feed-forward unit; and wherein the signal computation unit computes a gain-corrected target position signal based on filter characteristics at the filter computation unit and the weaving trajectory. 3. The control device according to claim 2 , wherein the motor control unit further includes a feed-forward control unit which predicts inertia force, gravity, and friction force acting on an own axis by the own axis accelerating/decelerating, and adds these to a torque instruction value output from the speed feedback unit. 4. The control device according to claim 3 , wherein the motor control unit further includes a feed-forward control unit which predicts inertia force and centrifugal/Coriolis force acting on the own axis by another axis accelerating/decelerating, and adds these to a torque instruction value output from the speed feedback unit. 5. The control device according to claim 1 , wherein the filter used for the low-pass filter processing is the same for all axes; and wherein the signal computation unit computes a gain-corrected target position signal by multiplying the target position signal by an inverse of a filter gain in a weaving frequency obtained from filter characteristics of the filter computation unit. 6. The control device according to claim 1 , wherein the signal computation unit computes a target position signal subjected to phase compensation, in addition to gain correction, based on filter characteristics of the filter computation unit and weaving frequency obtained from filter characteristics of the filter computation unit.