SU1070273A2 - Pressiometer - Google Patents

Abstract

PRESSIOMETER on auth. St. No. 844680, characterized in that, in order to expand its functionality, the pressiometer is equipped with an inertial vibration exciter and sensors measuring the static displacements and vibration velocities of longitudinal vibrations, while the inertia vibration exciter is rigidly mounted on the core, and the sensors on the dies. @ yu

Description

The invention relates to the construction, in particular, to devices for determining the statistical and dynamic characteristics of soils in wells, and can be used in engineering-geological surveys.

According to the main author. St. No. 844680 known pressiometer ^ containing a core, rigid dies in the form of half cylinders connected by a pipeline to a pressure source, and measuring devices [11 A disadvantage of the known device is the low accuracy of determining the dynamic characteristics, due to the need for their indirect determination by the results of statistical tests on transient dependencies.

The purpose of the invention is the expansion of functionality

This goal is achieved by the fact that the pressiometer is equipped with an inertial vibration exciter and sensors for measuring static displacements and longitudinal vibration velocity, while the inertial vibration exciter is rigidly mounted on the core, and the sensors on the dies.

The drawing shows a pressiometer, a longitudinal section.

2Q

The device comprises a hollow core 1, inside of which pistons 2 with rods 3 are placed. Pushers 4 with rollers 5 are cantilevered to the rods. The inner surface of the hard dies 6 has tides 7 in the form of wedges facing each other in contact with the pusher rollers. The optimal angle of the wedge surfaces is 8-11 °. The stamps at the ends 35 are in contact with the flanges 8 of the core 1 through the rolling bodies 9. Springs 10 are placed inside the core to return the pistons 2 to their original position after depressurizing. A flexible hose is attached to the core at the top of the pressiometer

11. As measuring instruments for determining the magnitude of the movement of the dies under static load, remote sensors 12 are used, mounted at the top and bottom on the inner surface of the dies 6, 45, and remote sensors 13 are used to measure the kinematic parameters of vibration 13. On the core 1 inertia is rigidly fixed vibration exciter 14 directional action along the longitudinal axis of the pressiometer.

The device operates as follows.

A pressiometer is lowered into a previously drilled well to a predetermined depth. Through a flexible hose 11, a working fluid is injected into the hydraulic cavity between the pistons 2 into the core 1 under pressure, which simultaneously bursts them and moves the rods 3 in the opposite direction, compressing the springs 10. The rods 3, in turn, move the pushers fixed on them with rollers 5. The latter roll along the wedge surfaces of tides Ί and move the dies 6 in the horizontal direction, pressing them with static pressure into the walls of the well. Static pressure is determined by the pressure gauge of the pressure source. The amount of soil deformation from static pressure is judged by the readings of the remote sensors 12.

The dynamic characteristics of soils are determined at a given constant static pressure on the dies 6, including the inertial vibration exciter 14, which tells the dies dynamic vibrations directed along the longitudinal axis of the pressiometer. In this case, the remote sensors 13 generate signals proportional to the speed of vibrational movement of the dies along the longitudinal axis of the presiometer, which are recorded by measuring instruments placed on the day surface (not shown).

By setting different engine speeds, tests are carried out at different frequencies of oscillations of the pressiometer dies, which are used to calculate the stiffness and damping coefficients during elastic shear.

After testing, the exciter 14 is turned off and the pressure in the hydraulic system is released. In this case, the springs 10, unclenching, return the pistons 2 to their original position and thereby unload the dies.

The use of the proposed device for engineering and geological surveys allows more accurately and differentially to determine the dynamic characteristics of soils with a significantly lower complexity of testing along the depth of the array and thereby contributes to a more economical design of foundations working with dynamic loads.

Claims (1)

PRESSIOMETER St. No. 844680, characterized in that, in order to expand the functionality, the pressiometer is equipped with an inertial vibration exciter and sensors for measuring static displacements and longitudinal vibration velocity, while the inertial vibration exciter is rigidly mounted on the core, and the sensors are mounted on dies. ί