I think you didn't really want to assume that your spacetime is flat (also in your previous question) because of what Greg and Ryan say. In a non-inertial frame the speed of light might be non-constant and so the light cone might be curved, but still its projection onto the simultaneous hyperplane of the observer ("simultaneous" from the viewpoint of the inertial observer who sits on the trefoil) would be a homeomorphism. For that reason even the non-inertial observer would see a trefoil in his light cone.
On the other hand, if you allow curved spacetime, then light cones may bend, but still project homeomorphically onto the "horizontal" hyperspace unless the observer is within the event horizon of a black hole. Things get more interesting if the poor observer did get into such a place. Then his light cone is bent far enough that it can surely happen to contain the closed knot that is the connected sum of a trefoil with its mirror image. There is an issue however that if the trefoil is a physical rope it will not stay at rest in that position because of the black hole gravity.
I would think that in the case of one black hole this is all you can get: either a long trefoil or the closed connected sum of the trefoil and its reflection. As you approach the event horizon from within (maybe not physically but in a thought experiment), the reflected trefoil goes off to infinity, ending up with long trefoil in the limit. I have no idea how things might work with two black holes, one within the event horizon of the other.