Although I am now closer to the solution, I have not yet managed to solve my problem. I will try to describe my model in detail. The curve representing the trajectory is on part A, which in turn is fixed with the ground. The curve marker is obviously also on part A; the solid that has to move along the curve is part B. I have bound B with the curve marker of A via a spherical joint. Now I should define the motion of the curve marker. Joint motion is not applicable in this case and if I use point motion on the curve marker it does not work. Does anyone have an example?
Although I am now closer to the solution, I have not yet managed to solve my problem. I will try to describe my model in detail. The curve representing the trajectory is on part A, which in turn is fixed with the ground. The curve marker is obviously also on part A; the solid that has to move along the curve is part B. I have bound B with the curve marker of A via a spherical joint. Now I should define the motion of the curve marker. Joint motion is not applicable in this case and if I use point motion on the curve marker it does not work. Does anyone have an example?
