SU1081276A1 - Testing unit for determining static and dynamic parameters of soil foundations - Google Patents

Abstract

TESTING COMPLEX FOR DETERMINATION OF STATIC AND DYNAMIC PARAMETERS OF SOFTWARE TASKING GROUPS, including the model of foundations, vibrators and sensors of dynamic displacements and stresses, characterized by the fact that the complex is equipped with a removable loading device, static soil gauges, in order to improve the accuracy of measurements, the complex is equipped with a removable loading device, static sockets and stresses. at the same time, the removable loading device is made in the form of a bridge, and the foundation models are pairwise identical configuration, static soil dynamometers are installed Under the models of foundations, the defibomers and indicators are located on the models of foundations. 11 h 6 /. a 11

Description

SECTION 1O812 The invention relates to the construction, more specifically to the study of foundation soils on a construction site, and may find application in the design and construction of foundations, I test-5

11ShH dynamic loads.

A known installation for determining soil parameters under a foundation, including a model foundation, a vibro-exciter, dynamic ground dynamometers, displacement sensors and recording equipment YI.

The disadvantage of this setup is the determination of only one parameter of the elastic uniform hedgehog coefficient. 15 The closest to the invention is a test complex for determining the static and dynamic parameters of soil bases, including foundation models, vibrators, sensors of dynamic displacements and stresses 21, The disadvantages of the known complex are low accuracy of determining the elastic characteristics of the soil and the limited use of them. The purpose of the invention is to increase the accuracy of measurements. The goal is achieved by the fact that the test complex for determining static and dynamic parameters of soil foundations, including models of foundations, vibrators and sensors of dynamic displacements and voltages, is equipped with a removable loading device, static soil dynamometers, software and indicators and a removable loading device made in the form of a bridge, and the foundation models are pairwise identical configurations, static soil dynamometers are installed under the foundation models, and prohibiomers and Indicators are located on foundation models. I FIG. 1 shows the complex in plan; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 1. The test complex consists of foundation models 1-4, with corresponding dimensions in terms of 1.5 1.5 2x2, 3x3, 4x4 and placed on a concrete preparation 5 of the pit 6. In oio concrete preparation 5, under the foundations 1-4 there is measuring equipment , consisting of static and dynamic ground dynamometers 7. On models of foundations 1-4, the distribution is in area and mass, the static voltage under foundations 1 and 2 is the same, similar to foundations 3 and 4.

10 For static loading} ha of each of the experimental fusion materials 1-4, there is a removable loading portable device 10 made in the form of a steel bridge. The boot set of the wife's prohibitors 8 and indicators 9. The models of pvdamets 1 and 2 have the same configuration, the models of foundations 3 and 4 are also made of the same configuration. Therefore, despite the arrangement 10, it is supported on foundations 11. Ferro-concrete blocks 12 with a total weight of up to 200 tons are used as a ballast layer. Dynamic loading of foundations 1-4 is carried out with directional vibrators 13, the oscillation frequency of the vibrator varying from 3 to 50 Hz. The sediments of foundations 1-4 are measured by loading and unloading using defibomers and indicators 9. Static tests show the coefficient K for a bed according to the formula K, where is the static stress of the soil under the foundation, determined by static ground dynamometers ; 2 - Foundation sediment. The value of the modulus E of the soil elasticity for square foundations 1-4 is determined by the formula E 0.94 {1-m) „. where M is the Poisson’s ratio; O - side of the square basement; P is the effective load; 2 - sediment f in the deposition. For dynamic testing of foundation models 1-4, dynamic contact stresses are measured, and the fluctuation fluctuations of the foundations and the soil surface in the vicinity of the foundations. According to the results of tests with horizontal-rotational oscillations of the foundation, the coefficient C (p (t) of the elastic non-infinite) is calculated (FAIT - ..- 31 g) where the ground dynamic tension under the control is the amplitude of the vertical oscillations of the foundation. From the elastic uniform shear of the soil, the horizontal oscillations of the foundation G are determined (t - iLb X A where 1ood ,, is the averaged tangential dynamic stress of the soil beneath the base of the foundation; 76 A is the amplitude of the horizontal oscillations of the foundation. The property of the invention compared to the known one is that when using a test complex, more accurate rpywrcte characteristics are defined that have unlimited use, in particular for the construction of unique foundations with a sole area measuring thousands of square meters.

2

Claims (1)

TEST COMPLEX FOR DETERMINING STATIC AND DYNAMIC PARAMETERS OF GROUND BASES, including foundation models, vibrators and sensors of dynamic displacements and stresses, characterized in that, in order to improve the accuracy of measurements, the complex is equipped with a removable loading device, static soil dynamometers, deflection meters and indicators, while the removable loading device is made in the form of the bridge, and the foundation models' - in pairs of the same configuration, static soil dynamometers are installed under the foundation models, and the deflection meters and indicators based on foundation models. <g Figure 1