SU502093A1 - Installation for laboratory studies of the stability of slopes - Google Patents

Description

one

The invention relates to construction equipment, to the field of soil mechanics, as well as to the mechanics of loose poorly coupled media.

A known apparatus for laboratory studies of the stability of slopes, comprising a pivoting structure in the form of side, rear walls and the bottom of plexiglass mounted on a rigid metal welded frame.

The known installation does not allow testing by breaking down slopes with given, strictly fixed angles of inclination to the horizon.

The aim of the invention is to improve the accuracy of measurement of studies of the stability of slopes with given angles of inclination.

The goal is achieved by the fact that the installation is equipped with lower and middle quadrangular and upper triangular shapes mounted on the frame, three-dimensional blocks arranged one above the other, the middle and upper blocks being detachable, and the front walls of the lower and middle blocks are made of separate rigid planks.

FIG. 1 shows the proposed installation in the initial position after loading; in fig. 2 - the same in the working position (after the collapse of the slope); in fig. 3 - the same, in the initial position; in fig. 4 shows triangular blocks for angles of 80, 70 and 60 ° slope slope with the horizontal position of their ridges; in fig. 5 is a triangular block for an angle of 70 ° slope slope.

The installation is mounted on a horizontal frame 1, made of corners, connected by electric welding. The frame is attached to the cover of a special table with screws. The frame is directly supported by the lower main unit 2 of the installation, consisting of a rigid metal welded frame made of corners, bottom, two side and rear walls of organic glass. On the lower unit, an upper removable unit 3 is installed, consisting of two side and rear walls of organic

glass In the corners of the wall are glued and reinforced with steel corners, which are attached to the walls with screws. In block 2, grooves are made in the corners between the walls of the installation and the rear pillars of the frame, into which the protruding parts of the corners of block 3 are inserted. In addition, blocks 2 and 3 are additionally joined by four special corner elements 4 on the screws. When testing inclined slopes from above, one is additionally mounted

from triangular blocks 5, 6, 7 and 8, respectively, for slope angles to the horizon 80, 70, 60 ° with the horizontal position of its crest. The same blocks can also be used when the ridge of the slope is inclined. So, for example, block 6 can be used when testing a vertical slope with an angle of inclination of the ridge ridge (surface of the medium) to a horizon of 20 °, to test an inclined slope with an angle of 80 ° and an angle of inclination of its crest 10 °, to test the slope with an angle of slope 70 ° and the horizontal position of its crest.

Similar blocks can be made for other slope angles to the horizon. The triangular blocks are connected to the block 3 by means of four corner elements 4 on screws and have vertical reinforcement corners in the corners, and blocks 6 and 7 are provided with horizontal stiffener angles. For a 60 ° angle, the block is assembled from two elements.

Dividing the installation by height into blocks allows the medium to be filled from a low height.

The working wall of the installation, retaining the slope, is assembled at a height of individual rigid horizontal strips 9.

The bottom plate rests on the projecting part of the bottom of the installation. Each strip is pressed against the edges of the side walls of the installation using two rubber rings 10, which are mounted on the ends of the strip, which are fixed in the slots of the edges of the front pillars of the frame of block 2 and special lateral corners of block 3. The tension of the rubber rings must exceed the support response from the lateral pressure of the ground on a working surface of a level. Joints using rubber rings ensure quick installation and removal of each strip. One of the slats (strip 11) of the corner profile has a sharp cutting wall that cuts through the flow of falling particles during backfilling.

The installation can be rotated around the axis 12. The installation is rotated using removable levers 13, which are inserted into special stops located on the frame legs.

The installation position at the desired angle is fixed by means of a swinging frame 14 and two cotter pins inserted into the holes 15 on the frame uprights and the holes in the frame. The position of the hole in the frame strictly defines the specified angle of inclination of the slope. The collapse surface 16 in the drawings is represented by a dotted line.

The installation works as follows.

The lower unit 2 is always installed in its original vertical position, which ensures uniformity of laying the environment at the working wall. Within the height of this block, a working wall is assembled from horizontal bars 9 and upper bar 11. Then block 2 is loaded with modeling medium to such a height that bar 11 is not filled. Before installing block 3, bar 11 is removed and replaced with a usual horizontal bar 9. Block 3 with the working wall pre-assembled within its height is mounted on block 2 and held together with it, after which the medium continues to be loaded into block 3. When testing vertical slopes, the surface of the medium in block 3 is cleaned.

When testing an inclined slope on top of block 3, one of the blocks shown in FIG. 2 is installed, depending on the angle of inclination of the slope. 4. Thereafter,

media loading within the height of this block. The surface is cleaned. Then, the removable levers 13 are installed, the installation is rotated to the desired angle, and its fixation with the help of the frame 14. Then the levers are removed.

The stability test is performed by successive removal from top to bottom of the horizontal strips 9 of the working wall, as a result of which the

surface slope. The critical height of the slope, at which its collapse occurs, is determined by the total height of the removed strips of the working wall. FIG. 2 shows the working position of the installation when the part

the strip has been removed, a slope collapse has occurred and the surface 16 of the collapse is visible.

After the collapse, sampling, removal of the medium and development of the installation are carried out in reverse order. Before the next one

The experience setting is reset to its original upright position.

Claims (1)

Invention Formula Installation for laboratory studies of the stability of slopes, including a rotating structure in the form of side, rear walls and bottom made of organic glass mounted on a rigid metal welded frame, characterized in that, in order to improve the accuracy of measurement and conduct studies of the stability of slopes with specified inclination angles, supplied with mounted on the frame of the lower and middle quadrangular and upper - triangular shaped volume blocks arranged one above the other, and the middle and upper blocks are removable, and the front walls lower and middle blocks are made of separate rigid planks. if sg  g Fig Lj -Q . five