SU1758158A2 - Pressure meter - Google Patents

Abstract

Use: study of physical and mechanical properties of soils during engineering and geological surveys in construction. SUMMARY OF THE INVENTION: The pressiometer comprises a working tip in the form of a wedge, pressure sensors mounted in the tip flush with its working surface and placed along its height with a constant pitch. The lateral faces of the wedge have in cross-section symmetrical double-sided bevels, the surfaces of which smoothly adjoin the working surfaces of the wedge. 3 silt

Description

The invention relates to devices for studying the physicomechanical properties of soils during engineering surveys in construction.

A pressiometer is known that includes a wedge-shaped working tip, the cross section of which decreases from bottom to top, pressure sensors mounted flush with its working surface and placed in height with constant pitch, connecting shank and communication cable.

The drawback of the device is the insufficient accuracy of measurement, due to the unevenness of the contact diagram of normal pressures in the plane of the working surface of the wedge.

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

This goal is achieved by the fact that in a pressiometer that includes a wedge-shaped working tip, the cross section of which decreases from bottom to top, pressure sensors that are installed flush with its working surface and are located at a height with constant pitch

the wedges have in cross-section symmetrical double-sided bevels, the surfaces of which smoothly adjoin the working surfaces of the wedge.

Figure 1 shows a general view of the pressure gauge, a section; figure 2 is a view of the pressure gauge from the side of its working surface; on fig.Z - section aa in figure 2.

The pressiometer contains a threaded connecting shank 1, a working tip 2 made in the form of a wedge, the angle between the working faces of which is less than or equal to 6 °, and the width of the working part of the face b and the maximum thickness of the wedge t are related by the ratio b 52,5t.

On the working surface of the wedge, three strain-gauge chambers 4 hermetically sealed with a lid are placed with a constant pitch 3, strain gages 6 connected to cable 7 with recording devices are glued to a sensitive membrane 5.

The distance between the strain gauge chambers 4 corresponds to a discrete sampling interval and is recommended for

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convenience of work to assign the same and multiple, for example, 0.05 m. The distance from the tip of the wedge to the first measuring level is assigned to the smallest of the conditions for the possibility of placing switching wires and the lid of the strain gauge chamber.

The presiometer is provided with lateral cutting edges 8 formed by symmetrical double-sided bevels 9, the surfaces of which smoothly adjoin the working surfaces 10 of the wedge, while the distance between points of the abutment is limited to a flat portion of the working surface equal to b.

Pressiometer works as follows.

Using a hydraulic cylinder, for example a static sounding installation, by means of the shank 1, the working tip 2 is immersed in the soil under study at a constant speed. As immersed, the wedge-shaped tip deforms

soil by an amount uniformly increasing from the bottom up. At the same time, the pressure of the soil in the plane of the working surface of the wedge due to the smooth forms of its lateral faces will have a uniform contact diagram, which provides an increase in the measurement accuracy.

The load cells 6 record the pressure of the soil, deformed by a known value for each sensor, the value of which is recorded by the devices.

From the known values of the soil deformation under the strain gauges and the obtained values of the soil pressure, the soil deformation module is determined.

Claims (1)

Invention Formula Pressiometer auth. No. 1645364, due to the fact that, in order to improve the measurement accuracy, the side faces of the wedge have in cross-section symmetrical double-sided bevels, the surfaces of which smoothly adjoin the working surfaces of the wedge. To the instrument Flash I ffnfjufofly FIG. 2 Figz