SU1530659A1 - Arrangement for model investigation of soil pressure upon the walls of cellular mooring post - Google Patents

Abstract

The invention relates to the construction, in particular to the determination of the pressure of the soil on the walls of cellular floors in laboratory conditions. The purpose of the invention is to improve the accuracy and reliability of measurement results. The cylindrical cell is made in the form of concentrically arranged shells 1 and 3. The inner sheath 3 is rigid and the outer 1 is flexible. The space between shells 1 and 3 is filled with bulk material 4. The outer sheath 1 is provided with a tip 5 in the form of a rigid ring that rests on the inner sheath 3 with the possibility of sliding. The outer shell 1 is equipped with soil pressure sensors 8 and tearing force sensors 7, which are mounted at the site of its opening. 2 Il.

Description

ate

oo

about

05

ate

The invention relates to the construction and can be used to study the pressure of the soil on the walls of cellular fires in laboratory conditions.

The purpose of the invention is to improve the accuracy and reliability of measurement results.

Ma FIG. 1 shows the device section; in fig. 2 shows section A-A in FIG. I.

The device contains an outer shell 1, made of a flat steel sheet 2, inner shell 3, located along the same axis of symmetry with the outer one, while the space between the outer and inner coatings is filled with bulk material 4, tip in the form of a rigid ring 5, joining the outer shell 1 with an inner sheath 3. Flat steel dowels 2 are interconnected by locks 6, One of the locks 6 remains open to be installed over the entire height of the sensors 7 by breaking forces.

In the composition of the three points located in diametrically opposite directions, the sensors 8 of the ground pressure are mounted. In addition, the remaining dowels are provided with soil pressure sensors 9 at three levels at a distance of 0.2 N (where H is high) and fell from the top to the bottom mark, as well as in the middle part of the dowel.

Outside the envelope, sensors 10 are installed at the indicated levels to determine the de (|

The device works as follows.

Collect the sheath of the tongue by pic, ice, 1n their immersion at a depth of zappa. One of the locking connections is left open and sensors of breaking force 7 are installed along its height. Then set the inner hard shell 3 and the cap 5 fell. In this position, the models record the zero readings of all sensors and instruments. When the space between shells is filled with a gap, the device shows the value of the force pressure. 1p1 soil vertically and corresponding tearing forces, as well as a uniform distribution of pressure diagrams

0

0

five

0

five

0

soil in three horizontal sections fell. In this case, the hermetic form of the elements does not change.

With the application of a horizontal load P on the top structure of the pala, an increase in the stress state of the backfill soil along the entire height occurs, which leads to an increase in the values of the soil pressure and breaking forces with their redistribution along the walls of the structure. In the transverse horizontal cross sections of the pala. The pressure diagrams are also redistributed with concentration in the direction of the application of force P, which leads to a change in the circular outline of the collapse into an ellipsoid.

The device makes it possible to determine the magnitude and distribution of the soil pressure not only along vertical, but also along horizontal sections, breaking up the efforts along the height of the tongue tongue joints, horizontal mixes of the upper part of the pala, as well as horizontal loads.

Claims (1)

Invention Formula A device for testing soil pressure patterns on the cell walls, including a ground tray and a cylindrical cell made of flat steel sheet piles with locking joints, characterized in that, in order to improve the accuracy and reliability of the measurement results, the cylindrical cell is made in the form of two concentrically arranged shells: internal rigid and external flexible, the space between which is filled with bulk material, and the external shell is rolled out open in one of the castle joints and abzhena head part in the form of a rigid ring simply supported on the inner sheath slidably and equipped with pressure sensors soil; the size of the height of the outer shell, as well as the sensor. I break off the forces that are mounted in the open-ended lock connection of the outer shell. YU Ftg.g