SU1725099A1 - Ground sample test device - Google Patents

Abstract

Use: construction, static test of the soil sample. SUMMARY OF THE INVENTION: The device comprises a working chamber with side walls made in the form of packages of rectangular plates, levers of proportionality with rods and sleeves. The levers of proportionality are connected by rods with each of the plates. Load devices are connected to the base plates of the clips and levers of proportionality. 2 Il.

Description

The invention relates to the construction, in particular, to devices for static testing of a soil sample with the possibility of rotating the axes of main stresses during the test.

The aim of the invention is to improve the accuracy of research.

Figure 1 shows the device, side view; figure 2 - the same. plan.

A device for testing a sample of soil contains a working chamber 1 in the form of a triangular prism mounted on the base 2, closed from above by an aperture 3. The base 2 is rigidly connected to the cover 3 by means of the racks 4. The base 2 and the cover 3 are provided with rubber jackets 5 contacting the soil sample filled with incompressible fluid. Each of the side walls of the working chamber 1 is made in the form of packages of metal rectangular plates 6, framed by the plate 7 and the main plate 8. The plates 7 and 8 of the adjacent walls are interconnected by

cylindrical hinges 9. Packages of plates 6, as well as plate 7 are enclosed in cages, each of which consists of rigidly connected main 8 and supporting 10 plates. The yoke, preventing an increase in the transverse size of the plate pack 6, allows for mutual longitudinal displacement of the individual plates 6 and plates 7 relative to each other, as well as relative to the base 8 and the base 10 plates of the sleeve.

At the ends of the main plates 8 by means of cylindrical hinges installed levers 11 proportionality. The ends of the proportional levers 11 are connected to a load device representing the cargo screws 12 with handles 13 connected by means of two ball joints 14 to the support plates 10. The cargo nuts 15 are rigidly connected to the proportional levers 11. Proportional levers 11 are articulated with rods 16 to each rectangular plate 6, as well as to plate 7.

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The hinge joints of the rods 16 on the proportional lever 11 are selected based on the condition of constant mating with the plane of all the ends of the rectangular plates 6. In the grooves near the cylindrical hinges 9 along the plate 7 and the main plate 8, strain gauges 17 are applied to determine the normal strain gauges and the tangential components of the total effort from the soil sample. Indicators are installed between the cargo nut 15 and the handle 13 to determine the position of the respective proportional arms 11, which are unambiguously related to the deformation of the corresponding wall, as well as the angle of inclination of the rectangular plates 6 to it. the lower inner side of the rubber jacket 5 of the circular plate 19, rigidly connected to the stem 20, which is connected to the bellows cover 21. The movement of the bellows cover 21 is controlled by a pressure gauge 22.

The inner part of the bellows 21 is filled with an incompressible fluid under the same pressure as the rubber jacket 5, which is measured by a pressure gauge 22. A choke 23 serves to supply the fluid.

The device works as follows.

In the working chamber 1 while removing the lid 3, the ground is laid, after which the lid 3 is closed. In accordance with the test program, rotating the handle 13 deforms the soil sample in directions parallel to the base 2. The deformation value is monitored using an indicator 18. The deformation of the side walls of chamber 1 is controlled using a pressure gauge 22. When the sample height is reduced by a value of 0.01 mm, the process of deforming the side walls is interrupted and, by opening the valve at the nozzle 23, returns the readings of the manometer 2 to zero. When the sample height is increased by a value of 0.01 mm, on the contrary, when the valve is opened, the liquid is pumped through the fitting 23 by the pump until the gauge 22 returns to zero.

Further, the process of deforming the walls of chamber 1 continues until the next deflection of the pressure gauge 22. Normal and tangential forces appear between the soil and the walls of the working chamber 1, which are perceived by the cylindrical hinge 9. According to tensometry using resistance strain gages 17 and the indications of indicators 18 by the appropriate formulas values of principal stresses and the position of their axes in the soil sample,

Claims (1)

The invention The device for testing a soil sample, containing a working chamber made in the form of a triangular prism with side walls pivotally interconnected, a base and a cover with gaskets, and load devices, characterized in that it is equipped with levers to increase the accuracy of research. proportions with rods, plate, and each of the side walls is provided with a yoke consisting of rigidly connected main and base plates, and loading device, the side walls are made in the form of a pack rectangular plates, while the plate and rectangular plates are connected to the rods of the levers of proportionality and to the main plates of the clips,