SU779533A1 - Dynamic damper of construction vibrations - Google Patents

Description

one

The invention relates to construction and is intended to reduce the amplitude of vibrations of high-rise structures of bridge bridges and other things, which ensures their normal operation and durability.

A dynamic damper of the mantling type is known, containing a mass of a damper and Cables connecting the mass to the oscillating object 1.

The disadvantage of this extinguisher is that it is capable of damping oscillations of one frequency, whereas for sufficiently high structures, it is diminished, pipes can cause dangerous resonant modes at several frequencies, and therefore for effective 1 several oscillations the latter requires the installation of several absorbers with parameters that correspond to each oscillation waveform, which leads to an increase in installation costs for installing absorbers.25

The closest to the proposed one is a dynamic damper for a stake of structures of structures, inclusive, located at intervals of one relative to another mass of a given value.

associated with the suspension, one end of which is attached to the structure. The masses are fixed on a spring in the form of several springs or on a steel rope. The specified damper can dampen vibrations of various frequencies and is designed to work in the region of relatively high frequencies to protect objects with a relatively small mass of 2.

However, due to the fact that the masses are located in it on a spring or a piece of rope on both sides of the suspension axis, the damper is limited to the distance from the masses to the axis of suspension because the spring (or piece of rope) performs the function of a cantilever rod and, therefore, must have a certain stiffness. Since the rigidity of such a cantilever rod is limited, this restricts the mass suspension arm and the magnitude of the latter.

Claims (2)

At the same time, when damping vibrations in high-altitude structures, there is usually a need for a quencher to weigh heavily (up to several tons); in addition, the first frequencies of the high-altitude structures are much lower. than in the wires of the ZHAE reyoyoruch lines, which, in turn, requires an increase in the length of the mass suspension ™ ng | 1 ate r- ::; ::; The purpose of the invention is the possibility of using a damper for structures with a large mass and increasing the efficiency of its efficiency. This goal is played by the one in the dynamic oscillation damper of the structure, including with an interval of one relative to the other mass of a given value, connected to the suspension, one end of which is attached to the structure1 mass taken up with the increase of its value to the other. and attached to it at a distance of Škjk1) which is attached to the structure. Figure 1 schematically shows the sold absorber, general view; figure 2 - section aa in figure 1. The Schochian damper includes masses 1-3, reinforced with an interval - apart from each other on suspension 4, in the key and cadeiG nZHGSjyk ropes, built with construction 5. Masses 1-zaimeyut times JSNGHSHynyu, Yosleyvatgelno increase the free movement, a free freedom, extends the free freedom, the free freedom, the free freedom, the free freedom, the free freedom, the free freedom, . mass 3 is greater than mass 2, which is greater than mass 1. For a damper suppressant at the frequency of oscillations of the divided structure, it is equipped with devices 6, regulating the distance between masses 1-3 and the distance from the mass 1 to the structure 5. Parameters of the oscillation damper - 1 КKL1 a1аtsyё ratio vieJitsy values of individual masses and the distance between them, as a result of the fact that the frequency of the oscillations of the asi-body B is close to the frequency of the clock with the oscillations of the general oscillations of the Tystem. The IMPROVEMENT of these paragrams is given in accordance with the method which is generalized cheap; tasks with oscillator damper parameters. multi-mass distinctive feature of the proposed i str5; cDI is the ability of the absorber to work efficiently, despite the large mass of the structure, without special dampers, since energy dissipation occurs due to dry friction between the strands and the wires when the ropes bend, not only in the place of the suspension, but also in several places of their attachment to the Masses, as well as along the length of the suspension when the maize absorber is in opposite phase with each other. Each of the damper masses, which is BASIC for damping the corresponding oscillation frequency, oscillates in antiphase with the structure, and the remaining masses, contributing more or less to damping this frequency, can oscillate both in antiphase and in the same phase with the oscillations . The use of a damper of this design makes it possible to use it to dampen vibrations of structures with a large mass and, instead of several dampers, install only one on the structure, which significantly reduces the cost of installation work; besides, the volume of the room for the location of the extinguisher is saved. DETAILED DESCRIPTION OF THE INVENTION A dynamic oscillation damper of structures, including one predetermined mass of spaced apart, is connected with a suspension, one end of which is attached to the structure 1C, which also means that with the aim of increasing efficiency The extinguisher, the masses are made with an increase in their size to the free end of the suspension and are attached to it at a given distance from the point of attachment to the structure. Sources of information, pry; yo yo in the examination 1. The author's certificate of the USSR 386i80, cl. F 16 F 15/28, 1971. 2. Authors certificate of the USSR 94725, cl. And 02 G 7/14, 1950.  /// / ////// // -L h .CL