RU209420U1 - SHOCK ABSORBER FOR REDUCING SEISMIC IMPACT - Google Patents

Abstract

The utility model relates to mechanical engineering and can be used in technological equipment, earthquake-resistant buildings and structures, vibration protection of structures both separately and in depreciation systems. The shock absorber for seismic impact reduction comprises a base, a movable platform for fastening the shock-absorbing object, between which there is an elastic element held in grooves, a rod, one end of which is rigidly connected to the base, and the other end is passed through the movable platform, while the elastic element is made in the form coiled metal spring. The rod has a smooth surface. A thrust bearing with a spacer is placed between the base and the lower part of the spring. The movable platform is rigidly connected to the guide passed through the rod.

Description

The utility model relates to mechanical engineering and can be used in process equipment, earthquake-resistant buildings and structures, vibration protection of structures both separately and in depreciation systems.

A low-resonance shock absorber is known, designed to prevent resonant oscillation modes (RU 2660190 C1, publ.: 07/05/2018, Bull. No. 19).

The disadvantages of such a device are

low amplitude of work;

low perceived dynamic loads.

Closest to the proposed device is the Shock Absorber (ed. St. SU No. 1840815 A1, publ.: 03/27/2011), containing a base, a movable platform for attaching a shock-absorbing object and elastic elements located between them, made in the form of a plate. One end of the rod with stops is rigidly connected to the base, the other end of which is passed through the movable platform. The distance between the stops of the rod is chosen so that the maximum deflection of the plates is limited by the area of elastic deformations, and the minimum one ensures their preloading. On the surfaces of the base and the movable platform facing each other, grooves are made for installing plates in them. Elastic elements can be made in the form of a package of plates.

The known device under high dynamic loads is characterized by low reliability indicators, since, in the case of a lateral impact, the movable platform is displaced relative to the axis of the rod, as a result of which the elastic elements pop out of the grooves.

The objective of the utility model is to create a shock absorber to reduce seismic impact, with increased reliability at high dynamic loads.

The problem is solved, and the required technical result is achieved by the fact that the shock absorber for reducing the seismic impact, containing a base, a movable platform for attaching a shock-absorbing object, between which there is an elastic element held in grooves, a rod, one end of which is rigidly connected to the base, and the other end passed through a movable platform, characterized in that the elastic element is made in the form of a metal twisted spring, and the rod has a smooth surface, the device is additionally equipped with a support bearing with a spacer located between the base and the lower part of the spring, and a movable platform guide passed through the rod and rigidly connected to the platform itself.

In FIG. 1 shows a shock absorber for damping seismic effects.

The seismic damper contains a metal spring 1, a base 2 with a support bearing 3 and a spacer 4, a movable platform 5 with a guide 6, a rod 7 with a stop 8. The spacer 4 and the movable platform 5 have grooves 9 to hold the spring 1.

Shock absorber seismic impact works as follows.

Under seismic impact and impulse transfer from the support to the shock-absorbing object, the spring 1 is compressed and straightened together with the movable platform 5 to the required amplitude, and in the case of a horizontal impact, the support bearing 3 is triggered, which allows the device to be rotated around the axis of the rod 7.

The advantages of the proposed shock absorber for damping seismic effects are to increase the reliability indicators, since the proposed shock absorber uses an elastic element in the form of a metal spring, which has a wide area of elastic deformation, which does not pop out of the grooves due to the presence of a support bearing and a guide movable support, which allow rotation of the movable supports with an elastic element around the rod relative to the fixed support, thereby preventing the displacement of the movable support.

Thus, the inventive shock absorber to reduce the seismic impact ensures the achievement of the required technical result, which consists in increasing the reliability indicators.

The development, design and implementation of a shock absorber for damping seismic effects does not present any structural, technical and technological difficulties, which implies compliance with the criterion of "industrial applicability".

Claims (1)

Seismic impact reduction shock absorber, comprising a base, a movable platform for attaching a shock-absorbing object, between which there is an elastic element held in grooves, a rod, one end of which is rigidly connected to the base, and the other end is passed through the movable platform, characterized in that the elastic element is made in the form of a metal twisted spring, and the rod has a smooth surface, the device is additionally equipped with a support bearing with a spacer located between the base and the lower part of the spring, and a movable platform guide passed through the rod and rigidly connected to the platform itself.

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