A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention relates to a spatial mass pendulum comprising a pendulum mass (12) and at least three, preferably four pendulum rods (14). The pendulum rods (14) are arranged distributed around the pendulum mass (12) and are each coupled to the object (10) at a first coupling point and to a lower section of the pendulum mass (12) at a second coupling point. At least two pendulum rods (14) are dimensioned and arranged spread apart in such a way that the distance between the first coupling points thereof is greater than the distance between the second coupling points thereof such that, when the pendulum mass (12) moves, the center of gravity of the pendulum mass is guided on the surface of a virtual ellipsoid by the pendulum rods (14).
The invention relates to a spatial mass pendulum comprising a pendulum mass (12) and at least three, preferably four pendulum rods (14). The pendulum rods (14) are arranged distributed around the pendulum mass (12) and are each coupled to the object (10) at a first coupling point and to a lower section of the pendulum mass (12) at a second coupling point. At least two pendulum rods (14) are dimensioned and arranged spread apart in such a way that the distance between the first coupling points thereof is greater than the distance between the second coupling points thereof such that, when the pendulum mass (12) moves, the center of gravity of the pendulum mass is guided on the surface of a virtual ellipsoid by the pendulum rods (14).
Compact spatial ellipsoid mass pendulum
DAHL BURKHARD (author)
2021-12-09
Patent
Electronic Resource
English