A device for stabilizing movements of two parts of a human body region and/or of a sports appliance which are movable relative to each other is provided, the device comprising a receptacle, which is fixable on a first part of a human body region and/or of a sports appliance, wherein the receptacle is filled with a filling medium, and wherein the receptacle comprises a receptacle opening; an interaction element fixable on a second part of the same human body region and/or of the same sports appliance, which is at least partially accommodated displaceably in the receptacle and extends through the receptacle opening, wherein the part of the interaction element that is located in the receptacle is in contact with the filling medium.

A spring configured to be fixed to a housing and nested within a dial that is rotatable about the spring. The dial has a plurality of spaced apart inwardly facing teeth that are adjacent the spring. The spring is configured to facilitate rotation of the dial about the spring. The spring includes a central body having at least one anchor configured to connect the spring to the housing. The spring also includes at least one arm having a first end connected to the central body. The spring also includes a second end of the arm that is connected to a bulb. The bulb can be enclosed and include an exterior surface with a node that is on distal from the central body. The node is sized to fit in a space between adjacent teeth. The enclosed bulb biases the node toward the spaces between the teeth.

The invention relates to an oscillation damper which is in particular suitable for wind turbines and which is based on the eddy current principle and is temperature-controlled in such a way that it can not only effectively dissipate the heat generated by the eddy current but can also effectively and self-adjustingly compensate for the damping loss occurring at higher temperatures.