SU1262014A1 - Dynamic dampener of oscillations of pendulum type - Google Patents

Abstract

The invention may be used to dampen vibrations of high-rise structures. The aim of the invention is to increase the efficiency of quenching due to the expansion of its operating frequency range. The mass of the damper is made of separate parts, each of which is attached to the structure by a separate suspension, and the parts of the mass of the damper are interconnected by a rigid bond. The device for changing the angle of inclination of the suspensions is installed on a rigid connection, the suspensions of the masses are rigid and attached to the structure through a flexible insert. The damper can be equipped with at least one additional mass located above the main absorber parts and connected to the structure by means of a rigid rod, the attachment point to the structure is located below the additional weight on the vertical axis, the passage w, through the joint point of the main suspension parts. . The invention will allow to expand the range of operating frequencies of the quencher and its scope. 4 hp f-ly, 6 ill.

Description

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Claims (5)

The invention relates to the field of construction and can be used in high-rise structures such as masts, towers, chimneys, etc. to reduce the amplitude of oscillations, which ensures the normal and trouble-free operation of structures and their durability. The purpose of the invention is to increase the efficiency of the quencher by expanding the range of its operating frequencies, providing the possibility of damping oscillations in mutually perpendicular directions with different frequencies and providing the possibility of installation in the design position with one additional mass. FIG. 1 shows a dynamic oscillation damper for the case of reducing the level of oscillations in one direction; in fig. 2 — dynamic oscillation damper for structures with the same vibration frequencies in all directions, plan; in fig. 3 - the same, with different oscillation frequencies in the direction of the main axes of inertia, plan; in fig. 4 — dynamic oscillation damper for a flexible structure with a very low oscillation frequency; in fig. 5 - element of the dynamic damper oscillations; in fig. 6 shows a dynamic vibration reducer for a flexible structure with a very low vibration frequency. A dynamic oscillation damper, used when the structure oscillations level decreases in one direction, consists of two masses 1, rigid suspensions 2 attached to a short steel cable 3 that is attached to the construction of Mass 1 interconnected by rigid connections 4, equipped with adjusting clutches 5, with which it is possible to change the angle of inclination of the suspensions and the distance between the masses and thereby adjust the vibration damper. The short steel rope 3 plays the role of both the joint and the damper. The cause of the damping forces (with mass fluctuations) is the internal friction in the rope, which is created when the latter bends. A dynamic oscillation damper of the type for the construction with the same frequencies in all directions consists of three masses 1 located at the vertices of a regular triangle. In order to provide the possibility of damping oscillations in mutually perpendicular planes (along the direction of the main axes of inertia) with different frequencies of the part of the mass 1 of the damper in these directions are located at different distances from one another. In the case of a high frequency of vibrations of the flexible structure, the steel cable 3 is replaced with a steel rod. There are several possible solutions for the dynamic vibration damper for a flexible structure with a very low vibration frequency (less than 0.1 Hz). In order to significantly reduce the frequency of oscillations, modifications are made to the damper from parts of mass 1 suspended from the structure and additional masses 6 connected to the structure by means of rigid rods 7. The rods 7 are pivotally connected to the structure by one end, and the other parts freely pass through a loop of 8 parts of mass 1. Each of the additional masses 6 is located above the corresponding part of the main mass 1 extinguisher, the point of attachment of its rod 7 to the structure is below the most additional mass and is located on the vertical 2 parts of mass 1 passing through the point of connection of rigid suspensions. A dynamic damper for a flexible structure with a very low oscillation frequency can be made with one additional mass 6 located on the rigid rod 7 passing through the auxiliary device 9 in the form of a ring connected by additional rigid rods 10 with parts of the mass 1. The rods 10 are hingedly connected to the additional device and parts of the mass 1. The proposed invention allows to expand the frequency range of the damper, and therefore its scope. In addition, by placing one or several masses above the rest, it is possible to significantly reduce the operating frequency of the extinguisher, which increases its efficiency. Claim 1. Dynamic-type oscillation damper, including weight, weight pendants at an angle to the vertical, and a device for changing the angle of inclination of the suspensions, characterized in that, in order to increase the efficiency of damping, by expanding its operating frequency range , the mass is made of separate parts, each of which is attached to the structure by a separate suspension, and parts of the damper mass are interconnected by a rigid bond, and the device for changing the angle of inclination of the suspensions is set to tight coupling with the possibility of changing the distance between parts of the mass. 2. A damper according to claim I, characterized in that the suspensions are rigid and attached to the structure through a flexible insert. 3. A damper according to claim 1, characterized in that, in order to provide the possibility of damping oscillations in mutually perpendicular directions with equal frequencies, parts of the mass in these directions are set at different distances from one another. 4. The damper according to claim 1, characterized in that it is provided with at least one additional mass located above the parts of the main mass of the damper and connected to the structure by means of a rigid rod, whose attachment point to the structure is located below the additional mass on the vertical axis, parts through the base of the main absorber, the rigid rod is connected to one of the main parts of the main absorber with the possibility of axial movement ./ 5. A damper according to claim 4, characterized in that, in order to enable installation in the design position with one additional mass, it is equipped with additional rigid rods with adjusting devices connecting the rigid additional shaft with parts of the main mass of the damper. /////// ////// figure 1 6 1