SU555312A1 - Stand for testing samples and elements of building structures for seismic resistance - Google Patents

Description

The invention relates to construction and is intended for testing in laboratory conditions of models of building structures and material samples for seismic resistance.

A stand for testing structures for seismic resistance is known, including a housing, unbalanced shafts, actuators, and an elastic bond. In this stand, dynamic force is created by debalansing w, the rotation of which is carried out by electric motors.

Also known stand id building kopstruktschIY for seismic resistance, including buildings; impact weight and shaft located under the body and support for the test specimen.

A disadvantage of the known stands is the difficulty in manufacturing and exploited. Besides. on these installations, the nature of the dynamic, the load does not match the nature of the seismic loads.

The purpose of the invention is to increase the range of measurement of periods of oscillations and the nature of the loads.

This is achieved by the fact that the casing is made in the form of a bunker with a shock mass in the form of spheres located in it and is equipped with a pipe that is outgoing from its bottom, on which a ring equipped with the incoming hoppers is movably mounted outside

Ipyr micron of various lengths, and the shaft is made in the form of a cantilever cam, the free end of which is fastened with a support for the test shaped.

On f) -. G.1 depicting the stand; in fig. 2 - section of the bunker and top view.

The construction includes a housing in the form of a bunker 1, mounted on a stand 2 attached to the base 3, a torsion shaft in the form of a cantilever beam 4 mounted on a hinge 5, on the free end of which a support 6 for the sample is fixed. The bunker is divided by partitions 7 (see fig. 2) into sections; in KOTOpbDc there is a mass in the form of balls 8 and is equipped with a pipe 9. different lengths.

Bench tests were carried out as follows.

The test specimen is secured to the support 6 of the cantilever beam 4. Balls 8 of a certain weight are loaded into the hopper. By moving the ring 10 down through the pipe 9 (manually, mechanically or electrically) with the set speed, the pins 11 release balls in sections that, skusas through the pipe, fall on the cantilever beam and create it

hesitation. The oscillations of beam 4 are transmitted to the sample. A given speed of movement, different length of pins and different mass of balls create a wide range of loads in terms of strength and frequency. Changing cantilever beams with different diameters increases the range of measurement of oscillation periods.

Claims (1)

Invention Formula Stand for testing samples and elements of building structures for seismic resistance, including a housing, impact weight and location under the housing, a shaft and a support for the test sample, characterized in that, in order to increase the measurement range of the oscillation periods and the nature of the loads, the housing is filled in the form of a bunker with balls in it and supplied with waste a pipe from which the ring is mounted on the outside, equipped with pins of various lengths entering the bunker, and the shaft is made in the form of a cantilever beam, on the free end of which there is a support for the test specimen . V 7 (7