SU1013565A1 - Pressiometer - Google Patents

Abstract

A PRESSIOMETER, including a housing, an elastic sheath connected to a source of working medium, and a measuring unit with probes, characterized in that, in order to increase the test accuracy by increasing the tightness of the elastic sheath with increasing pressure of the working medium, the housing is made with a channel and provided with bushings through which the probes are freely passed, and the elastic shell is made of a composite of separate sections communicating with the channel of the housing body, between which the bushes are located.

Description

FIG.

The invention relates to the construction, in particular, to a technique for studying the physicomechanical properties of a soil, and can be used in engineering geological surveys.

A pressiometer is known that contains a cylindrical frame covered with a rubber casing and measuring sensors made of conductive rubber and located inside the rubber casing 1.

The disadvantage of the pressure meter is the low measurement accuracy due to the deformations of the sensors themselves when creating the working pressure between the frame and the rubber sheath.

Closest to the invention to the technical essence and the achieved result is a pressure meter, comprising a housing, an elastic shell connected to a source of working medium, and a measuring unit with probes 2.

However, this pressiometer has a low measurement accuracy in strong rocks and an insufficient reliability of operation at high operating pressures, due to the fact that the test probes are drawn out through an elastic sheath, violating its tightness.

The purpose of the invention is to increase the accuracy of the tests by increasing the tightness of the elastic shell with increasing pressure of the working medium.

The goal is achieved by the fact that in a pressiometer that includes a body, an elastic sheath connected to a source of working medium and a measuring unit with probes, the body is made with a channel and provided with bushings through which the probes freely pass, and the elastic sheath is made of individual components communicated with channel housing sections, between which are located the bushings.

FIG. 1 shows the device, a general view; in fig. 2 shows section A-A in FIG. one.

The pressiometer consists of a housing 1, with a channel 2 for supplying the working medium to the elastic composite of the shell sections 3, the measuring unit 4, the test probes 5, passed through the sleeve 6, between which the shell sections 3 are located.

The device works as follows.

A pressiometer pre-filled with a liquid, for example, an alcohol-glycerin mixture, is installed in the well under study (not shown) and connected to the pump and recording device (not shown). When liquid 0 is supplied through channel 2 into the shell 3, the pressure in the latter increases. The elastic sheath 3 is expanded, fits snugly against the walls of the wells and transmits pressure to them. The movement of the borehole walls is fixed with the help of the probes 5, which transmit these movements to the measuring unit 4.

Removing the instrument from the well is done after relieving the pressure in the system. Shell 3 takes on its original shape and size and does not prevent the pressiometer from being removed from the well.

The use of the proposed pressiometer significantly broadens the range of the soils studied, in particular rocky soils, due to the increased tightness of the elastic shell.

Claims (1)

PRESSIOMETER, comprising a housing, an elastic shell connected to a source of the working medium, and a measuring unit with probes, characterized in that, in order to increase the accuracy of the tests by increasing the tightness of the elastic shell with increasing pressure of the working medium, the housing is made with a channel and is equipped with bushings through which the probes are freely passed, and the elastic shell is made up of separate sections connected with the channel of the housing, between which the bushings are located.