RU2574239C1 - Plant for testing of earth foundations by axisymmetric foundation models - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: plant for testing of earth foundations by axisymmetric foundation models with the purpose to research their deformability by the visual observation of fixed point movements in the earth foundation through a transparent screen in the process of submersion (withdrawal) of the axisymmetric foundation models comprises a working tray of a cylindrical shape, made of a half of a pipe, produced as a result of a solid pipe cutting into halves along the axis of symmetry, to which a transparent detachable vertical wall is attached, made of thickened organic glass with framing metal elements reinforced in the upper part by a horizontal truss. The stiff base for installation is a bed plate made of two horizontal channels. In order to exclude glass deformations in the process of testing a press frame and a press truss are installed and fixed on the vertical wall before the start of the experiment. The load at the axisymmetric foundation model is transmitted with the help of an operating lever through a load-aligning accessory, comprising a vertical guide and a power accessory, moving along the guide, providing for the installation of two force measure devices (or other recording instruments). As a reference system for the fixation of deflectometers, a frame structure is used, not connected to the elements of structures participating in loading of the axisymmetric foundation model. In the structure there is a rotary hinged joint to rotate the tray up to 90 degrees.

EFFECT: provision of visual observation over movements of fixed points in an earth foundation in the process of submersion of the axisymmetric models of foundations during the research of their deformability.

3 dwg

Description

The invention relates to the field of construction and is intended to study the deformability of soil bases when loaded with axisymmetric models of foundations.

As axisymmetric models of foundations in the plan, dies of various shapes and configurations in depth, structural elements of models of plate-pile and pile foundations consisting of prismatic, pyramidal and conical piles in longitudinal section, working on pressing or pulling loads, can be used. As modifications of soil bases, sand-reinforced pillows with geosynthetic materials and reinforcing elements can be used.

Axisymmetric foundation models are understood as foundation models in ratios from 1:10 to 1:20 to the actual size of real foundations cut in half along their vertical axis of symmetry under the conditions of an axisymmetric problem.

Of the known technical solutions, the closest to the proposed is the installation for testing the strength of pavements and soil foundations, containing a soil channel with pavement, a hydraulic or mechanical jack with a dynamometer, a round hard stamp, indicators and a thrust beam. For testing, the soil channel is divided into compartments, each of which is filled with a certain type of soil, on top of which pavements are arranged. Anchor posts are placed on the sides of the channel, to which guides are fixed for moving the thrust beam over the soil base or pavement [RU 2338827 C1, IPC 6 E01C 23/07, publ. November 20, 2008].

The main disadvantages of this installation are as follows: the design of the soil channel does not allow studies of the deformability of soil bases when loaded with axisymmetric models of foundations, the loading of the stamp with a jack through the thrust beam excludes the possibility of testing for pulling loads, the design of the installation does not allow visual monitoring of the movement of fixed points of the soil bases in the process of immersion (extraction) of the stamp.

The task to which the claimed technical solution is directed is to develop a plant design that eliminates the identified shortcomings of the known technical solution.

The technical result of the invention is to develop a new design of the installation for testing soil foundations with axially symmetric models of foundations for pressing and pulling loads in order to study their deformability by visually observing the movement of fixed points in the soil foundation through a transparent screen during the immersion (extraction) of axisymmetric models of foundations.

The required technical result is achieved due to the structural elements of the proposed installation for testing. The installation consists of a cylindrical working tray made of half a pipe formed by cutting a whole pipe into half along the axis of symmetry, to which a removable vertical transparent wall made of thickened organic glass with framing metal elements is attached. In the upper part (at the place of maximum pressures), the removable wall is reinforced with a horizontal truss. A rigid base for installation is a bed made of two horizontal channels. The force of pressing the vertical wall to the soil placed in the working capacity can be regulated. In order to exclude glass deformation during the experiment, in advance of the experiment, a clamping frame and a clamping frame are mounted and fixed on a vertical wall. The pressing or pulling load on the axisymmetric model of the foundation is transmitted by means of a working pre-balanced lever. The load from the lever is transferred to a special device consisting of a vertical guide and a power device that moves along the guide and transfers the load from the lever to the foundation model, which includes the installation of spring dynamometers (or other recording devices) to measure the force of pushing or pulling. A frame construction is used as a reference system for fixing the deflection gauges on the tray. In order to ensure the necessary accuracy in determining the vertical displacements of the foundation model, the reference system is not connected with the structural elements of the tray involved in loading the axisymmetric foundation model. In the case of testing the soil base folded with loose soil (or soil with a low coefficient of adhesion), the swivel design is provided in the design of the tray, by means of which the tray is rotated up to 90 degrees using two hydraulic jacks attached to the frame of two channels located symmetrically under the bottom of the working tray .

 The invention is illustrated by drawings.

In FIG. 1 shows a top view of the installation, FIG. 2 is a longitudinal section of FIG. 1, in FIG. 3 is a cross-sectional view of FIG. one.

The installation consists of a work tray 1, a rigid base - a bed 2, a vertical wall 3, a horizontal truss 4, a clamping frame 5 and a clamping truss 6, a working lever 7, centering the load of the device 8 with a vertical guide 9 and a power tool 10 moving along the vertical guide 9 and involving the installation of dynamometers (or other recording devices) 11 for measuring the force of pressing in or pulling out, a reference system 12 for fixing deflection meters 13, which is not connected with structural elements Tray tions involved in the loading, an axisymmetric model of the foundation. In the case of working with loose soil (or soil with a low coefficient of adhesion), the design of the tray has a swivel joint 14, with which the tray is rotated along the working axis of the installation up to 90 degrees with two hydraulic jacks 15 attached to a rigid base - bed 2 of two channels located symmetrically under the bottom of the working tray 1.

Claims (1)

Installation for testing soil bases with axisymmetric models of foundations in order to study their deformability by visually observing the movement of fixed points in the soil base through a transparent screen during immersion (extraction) of axisymmetric models of foundations, characterized in that it consists of a cylindrical working tray made of half pipe formed as a result of cutting the whole pipe in half along the axis of symmetry, to which a transparent removable cable is attached a vertical wall made of thickened organic glass with framing metal elements, reinforced in the upper part with a horizontal truss, a rigid base for installation is a frame made of two horizontal channels, in order to prevent glass deformation during the vertical wall test, it was installed and fixed before the experiment clamping frame and clamping truss, the load on the axisymmetric model of the foundation is transferred using the operating lever through the centering load an enclosure consisting of a vertical guide and a power device moving along the guide, which provides for the installation of two dynamometers (or other recording devices), a frame structure that is not connected with structural elements involved in loading the axisymmetric foundation model is used as a reference system for fixing the deflection meters, also the design provides a swivel joint to rotate the tray up to 90 degrees.

Images