SU844680A1 - Pressiometer - Google Patents

Description

The invention relates to the construction, in particular to devices for determining the compressibility of argillaceous, sandy and; coarse soils by the depth of the array in the wells, and can be used to calculate the bearing capacity of foundations.

A pressure meter is known, including the case of an elastic shell, a power drive and a measuring device l.

The disadvantage of this pressiometer is that when testing coarsely chopped soils, fragments of which have sharp protrusions, perforation of the elastic shell is possible, because when testing such soils it is necessary to create a high pressure in the inner cavity of the pressiometer (ro 25 kgf / cm). In addition, the unevenness of the deformation of the elastic sandwich along the length of the loading section of the well significantly affects the measurement accuracy. ,

Closest to the invention is a pressiometer, a housing, a rod, semi-cylinders, a power drive, a pusher and a measuring device sj.

The disadvantage of this pressiometer is the complexity of its manufacture.

and assembly, due to the presence of contacting eccentric internal surfaces, provided with balls placed in the grooves of one of the surfaces. In addition, the transfer of the force of rotation of the rod deforms it, reducing the reliability and service life of the device, and also affects the accuracy of the readings.

ten

The aim of the invention is to increase the reliability of the pressure meter and reduce the complexity of the test.

15

This is achieved by the fact that in the pressiometer e, in the key of the cord to, rigid stamps in the form of semi-cylinders connected by a pipeline with a source of pressure, and measuring instruments.

20 ryles, the core consists of a double-acting power cylinder placed along the axis of the pressure gauge, the piston rods of which are provided with cantilever pushers attached to the riliM

25 rollers, and on the inner surface of each stamp the lower and upper tides are filled in the form of wedges facing each other, with the surface of each tide in contact

30 with rollers pusher.

FIG. 1 shows a pressure meter, a longitudinal section; in fig. 2 - section A-A of FIG. one; in fig. 3 - pressure gauge in the unlocked position.

The pressiometer contains a hollow core 1-, inside of which pistons 2 with rods 3 are placed. To the latter, pushers 4 with rottka 5 are attached to the console. in such a way as to simultaneously provide the necessary amount of thrust of the dies and the least resistance when rolling the rollers 5. The optimum angle of the wedge surfaces is 8-11. Depending on the chosen direction of the wedge surfaces of the tides 7, the direction of the working stroke of the pistons 2 with the rods 3, provided with the pushers 4 with the rollers 5, can be reversed (i.e., the portions 2 can either approach or diverge).

The shtamp 6 at the ends is in contact with the flanges 8 of the core 1 through the rolling bodies 9. Inside the core there are springs 10 for returning the pistons 2 to their initial position after the pressure has been released. A flexible hose 11 is attached to the core at the top of the pressure meter. The measuring device is made in the form of strings 12 attached to the dies inside and passed to the defibomers through the blocks 13 and the holes on the upper end of the dies.

The pressiometer works in the following way.

A well is drilled to a predetermined depth. Then, a pressure gauge is lowered to the test site and, through a flexible hose 11, working fluid is injected into the core 1 between the pistons 2, which simultaneously opens them and thereby moves the rods 3 in the opposite direction. The rods 3, in turn, move the console and the pushers 4 rigidly fixed on them from the roller 1 of the roller 5. The latter are rolled along the wedge surfaces of the tides 7 and the stamps b are moved (bursting) in the horizontal direction, pressing them into the borehole walls. At the same time, the ends of the dies are rolled over rolling bodies 9 on the flanges 8 of the core 1 to eliminate friction.

The pressure that is transmitted by the working fluid to the dies is determined by the pressure source pressure gauge. The amount of soil deformation (horizontal movement of the dies) is judged by the movement of the string 12 connected to a measuring device.

At the end of the test, the pressure in the hydraulic system is released. At the same time, the springs 10, unclenching, return the pistons 2 to the initial position and thereby unload the dies. B.

The use in engineering geological surveys of the proposed ncsiometer will allow testing not only clay and sand; but also large block soils. The test of the latter is not. Regulated by GOST 20276-74 Soils. The method of field determination of the deformation modulus by pressometers, as it relates only to pressometers from elastic shells.

The invention significantly increases the reliability of the pressure meter and reduces the laboriousness of the test due to the fact that there is no need to use the drill rods, assembling and disassembling them when transmitting pressure on the dies through them.

Claims (2)

1. USSR author's certificate number 429311, cl. G 01 N 3/10, 1971. 2. USSR author's certificate number 571735, cl. G 01 N 3/10, 1973.