SU60530A1 - Master for the study of vertical oscillations - Google Patents

Description

The subject of this author's certificate is a model for the study of vertical vibrations or deformations of engineering structures. If it is impossible to create a fixed point outside the structure under investigation, the spring itself is suspended with a sufficiently large mass taken due to its inertia as a fixed point, and the displacement of the research object is measured relative to it. The indicated mass will be motionless only when the oscillation frequency of the studied object is more than 4-5 times higher than the frequency of its own oscillations. Otherwise, the inertial mass becomes mobile. The frequency of natural oscillations of the inertial mass suspended from the gun should be as low as possible so that with the oscillations of the investigated structure with the lowest frequency and the latter still more than four times the natural frequency of the inertial mass. Since the frequency of natural oscillations of inertial mass is determined: a 1 / l by formula I / t, to reduce the frequency of natural oscillations, one should either increase the mass m or reduce the stiffness of the spring on which the inertial mass is suspended, i.e. tension spring to increment its length. In portable telescopes for the study of vertical oscillations, it is advantageous to reduce the stiffness from the spring on which the inertia is suspended on the mass. According to the invention, the crawler is characterized in that in the study of oscillations of structures, the tension of a wire or spring on which the inertial mass is suspended does not change. Under this condition, as can be seen from the formula, the inertial mass does not oscillate. This excellent. This feature is achieved by the fact that the wire (or cord), by means of which the inertial mass of the mandarin is connected to the structure under study, is cut and the developed ends are wound into two blocks, with a variable radius. FIG. 1 shows the inertial mass of the tiger; on fit. 2 - the central part of the tambourine. In the construction described below, the tambourine is suspended on two towers.