SU1328457A1 - Dynamic oscillation damper - Google Patents

Abstract

The invention relates to the construction - to the dampers of vibrations of high-rise structures. The aim of the invention is to improve performance. For this, the inertial mass is made in the form of a pair of containers 7 of a laminated profile filled with liquid. The containers 7 are mounted on the damping elements 6. The latter are fixedly mounted on the supporting device 2 attached to the structure rotatably, or the elastic-damping elements 6 are attached to the supporting device rotatably about their own axes together with the containers 7, and the supporting device is fixed attached to the structure. 6 Il. S f & (L FIG.G

Description

The invention relates to construction and is intended to dampen vibrations of high connections, mainly chimneys, radio towers and towers oscillating under the influence of technological, seismic and especially wind loads.

The purpose of the invention is to increase work efficiency.

FIG. 1 shows a dynamic vibration damper with two levels of attachment of elastic elements, a general view; in fig. 2 shows a section A-A in FIG. 1 in FIG. 3 - vibration damper with beam springs lying in the same level with inertial masses, plan; in fig. 4 - the same, with cylindrical springs; in fig. 5 - the same, with the rotation of the containers relative to their own axes; in fig. 6 is a section BB in FIG. five.

On the structure, for example the trunk. 1 high chimney; a support device 2 is fixed with a platform 3 on the brackets 4. The support device 2 can be fixed on the structure rotatably. In this case, between the brackets 4 through the supporting units 5 of the dry friction, elastic damping elements are fixed in the form of beam springs 6, on which two containers 7 with liquid are mounted. The axes of the laminated sections of the containers 7 in the plan are directed tangentially to the circumferences described by the support nodes 5. In Figs. 1 and 2, the beam elastic elements 6 are arranged vertically, in Figs. 3 - horizontally. FIG. 4, cylindrical springs 8 are used instead of beam, and supporting platform 3 is conventionally not shown.

In the case of autonomous axes of rotation for the containers 7 with the non-rotary support device 9, the beam elastic damping elements 6 are fixed with the help of flanges 10 and local support-rotary units 11 on the support device 9 rotatably with containers 7 relative to the axes of the supporting flanges 10 in the nodes eleven.

On the platform 3 is installed a reservoir 12 with a liquid and a winch 13 with a cable moving mass for loop 14,

When acting on a wind construction, it begins, as a rule, to oscillate across the wind

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called wind resonance). In this case, the containers 7 unfold the platforms 3, that their mid-section is minimal. The direction of oscillations of the structure at wind resonance (across the wind flow) now corresponds to possible oscillations of inertial masses on the more flexible in this direction elastic damping elements 6 or 8. With a precise tuning of the oscillation damper, the masses increase sharply, and the structure oscillations decrease. The inaccuracy in adjusting the gas gauge is compensated by the operation of a dry friction damper in a bolted joint 5.

Under the action of the wind in any direction (Fig. 5 and 6), the support device 9 remains fixedly attached to the barrel 1, -a tank 7, fixed with the help of elastic-damping elements 6 and flanges 10 in the turn-turn units 11, due to the vane effect rotates about their own axes. The transverse oscillations of the structure cause intense oscillations of absorbers, i.e. masses on the elastic-damping elements 6, oriented already in non-. walkable direction.

All variants of the device utilize a feathering effect arising in the presence of an eccentricity between the axis of rotation of the body (or the system of bodies) and the axis passing through the centers of aerodynamic drag.

In order to reduce the stiffness of the damper of the tank 7 by means of the movement mechanism (winch) 13, they move closer to the average cross section of the elements 6. To increase the rigidity, the tanks are shifted closer to the supports of the elements 6.

To increase the mass of the quencher in the tank 7, the liquid is pumped from the additional tank 12. A tightly mounted on the liquid the cap of the tank 7 moves depending on the level, which eliminates the fluctuations of the liquid in the tank.

Thus, the effectiveness of the proposed oscillation damper lies in the fact that both of its dynamic absorbers constantly work in the direction most dangerous from the point of view of the wind resonance oscillations of the structure.

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An oscillation damper with a special selection of rigidity of the elastic elements in different directions can further reduce the amplitude of the torsional vibrations of the structure, and when installing another pair of dampers in a mutually perpendicular direction, reduce the oscillations under seismic effects.

Claims (1)

Invention Formula A dynamic oscillation damper of structures containing a support device j attached to the structure, inertial mass to the elastic-damping elements, which extends so that, in order to increase efficiency, the inertial mass is made in the form of a pair of laminated profile-filled tanks with a lid filled with liquid, while the tanks are mounted on elastic-damping elements, the latter being fixed on a supporting device attached to the structure rotation, or the elastic-damping elements are attached to the support device with the possibility of rotation about their own axes together with the containers, and the support device is fixedly attached to weapons. ation fig.Z fi§ Compiled by G.Smirenna Editor I.Gorna Tehred I.Veres 1328457 Corrector S.Cherni Zykaz 3460/33 Circulation 666 Subscription VNII11I State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4