SU1145266A1 - Stand for testing building structures - Google Patents

Abstract

A METHOD FOR TESTING CONSTRUCTION STRUCTURES, including vertical loading of the structure, lateral loading and application of a torque, characterized in that, in order to improve the efficiency of the tests, the structure is applied to vibration and the lateral loading is produced by static and dynamic forces located in two planes and directed at an angle to the vertical axis, with vertical loading first, then lateral loading by static forces and application of a torsion oment, after which lateral loading is performed. (The application of dynamic force to the ipods. There is a vibration load.

Description

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The invention relates to the construction, in particular to the testing of building structures.

There is a known method for testing building structures, which includes vertical loading of the structure and lateral loading by static forces located in two planes Cl.

However, this method is not sufficiently effective 10, since, in its implementation, it is not possible to create dynamic and vibration loads and torque that the structure experiences during operation.

The closest to the invention is a method for testing building structures including a vertical loading of a structure, a lateral loading 20 and the application of a torque C.

This method is also not effective enough, since its implementation does not ensure the creation of 25 dynamical and vibration loads by forces located in two buildings that can be tested during operation.

The purpose of the invention is to increase the efficiency of the tests. . The goal is achieved

the fact that according to the method of testing of building structures, including the vertical: loading the structure,. 35 lateral loading and application of torque, a vibration load is applied to the structure, and the bonding load is produced by static and dynamic forces placed in two planes and directed at an angle to the vertical axis, while first loading lateral loading by static forces 15 and the application of torque, after which lateral loading is made by dynamic force and a vibration load is applied.

FIG. 1 shows the structure 50 during the tests (general view) and the elements of the device used in the tests of FIG. 2 shows section A-A in FIG. one .

When testing, a device is used; 5 roystvo, which includes the following elements: anchors 1, lanyards 2, energizers 3, earrings 4, mass 5,

the bolts 6, the bolts 7, placed in the holes of the console 8, the bottom plate 9, the fixing bolts 10. The test structure 11 is mounted on the plate 9.

In addition, there is a top plate 12 with an opening 13, nuts and locknuts 14, rods 15 with devices for transmitting force to the plate 12 in the form of bushings 16, dynamometers 17, a crosspiece 18 with elastic shock absorbers 19, a disk 20 on a rotating rod 21 with a hinge 22, shock absorbers 23, a gearbox 24 with a shaft 25 having a bearing 26. The shaft 25 has a sprocket, an asterisk 27 with a chain 28. In the test structure 11, energy absorbers 29 are placed in the window openings, and a vibrating machine 30 is mounted on the top plate 12. effort there is a flexible connection 31 Insert inset. The device for testing the structure also includes components and parts that are not conventionally designated, namely: the foundation, the bottom plate, the clamps, the ladder, the supports, the electric motor, the pumping station and others.

The method of testing the structure is carried out as follows.

Vertical loading of the structure is first performed. In doing so, the vertical load on the structure 11 is transmitted through the plate 12 by the sleeves 16 mounted on the rods 15 by means of portable jacks. The loads in the rods 15, according to which the force transmitted to the structure 11 can be calculated, are measured by dynamometers 17. Then, in order to test the bending in two planes, lateral loading is performed by static forces directed at an angle to the vertical axis. In this case, the forces are created by means of the exciters 3 and transmitted to the structure 11 via the plate 12 by the wires 6. The forces transmitted by the wires 6 can be transmitted to the building simultaneously or sequentially and monitored by gauges of pumping stations, p. with the help of which energizers 3, and messers 5 work.

A torque is then applied to the structure, which is created by rotating the chain 28 with an electric motor and is fed to the structure 11.

through sprocket 27, shaft 25, gearbox 24, rod 21, cross 18. and plate 12. The hinge 22 of the rod 21 and the shock absorbers 23 do not interfere with the development of deformations of the structure in structure 11. Thereafter, lateral loading of the structure 11 with the dynamic force created by the tension of the flexible coupling 31 is performed by breaking the tensile insert or instantly weakening the tension of the flexible joint 31. At the same time, in building 11, oscillations are excited in the horizontal and partially in the vertical planes. A vibration load is then applied to the structure 11, which is created

when the vibrator 30 is turned on and which increases the vibrations of the structure 11.

Using the invention, the structure is loaded before the destruction or the achievement of predetermined stresses at the same time by static and dynamic forces located in two planes and directed at an angle to the vertical axis, twisted by moment and vibration load, which makes it possible to increase the efficiency of testing due to more accurate reproduction loads that the structure is subjected to during operation.

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Claims (1)

'METHOD FOR TESTING CONSTRUCTION STRUCTURES, including vertical loading of the structure, lateral loading and applying torque, characterized in that, in order to increase the efficiency of the tests, a vibration load is applied to the structure, and lateral loading is carried out withTatigical and dynamic forces located in two planes and directed at an angle to the vertical axis, in which case vertical loading is first performed, then lateral loading by static forces and application of torque, p After which they produce lateral loading. dynamic force and apply a vibration load. SU „1145266> 1 1145266 '2