SU924240A1 - Apparatus for testing soil under triaxial load - Google Patents

Description

The invention relates to the construction of woo, to the technique for testing materials and. Can be used to determine the characteristics of deformability and strength of soils, rocks and other solids.

A device is known for testing cylindrical Samples under conditions of three-axial loading, comprising a housing, a lateral pressure chamber of transparent material, inside which a sample is labeled, a pneumohydraulic system for creating pressure in the chamber, a device for transferring the load on the specimen from the ends, containing dies and stem ( or plunger) passing through the gland in the chamber lid and measuring device. The measuring device includes a support frame, a sensor and marks mounted on the surface of the sample. To estimate the volumetric strain, these devices are sometimes equipped with a volumetric meter.

2

Naiboleee is closest to the proposed apparatus for testing soil, comprising high pressures Lenia chamber, the working chamber with elastic ^- shell loading and metering device {2}.

The disadvantages of the known devices for the triaxial testing of the soil are the limited amount of information obtained on the sample deformations, namely the ability to measure the sample surface movements only at the points where the pads are installed and the deformations are determined in the areas between these points ^ the laboriousness and complexity of obtaining data necessary and sufficient to determine sample shaping characteristics; the impossibility of automating measurements and recording deformations of the sample, low accuracy of measurements, due not only to the indicated drawbacks of the device, but also due to the influence of string friction in the gland, temperature, pressure in the chamber, etc.

3 924240 4

The chain of the invention is to improve the accuracy of measurements of soil deformations.

The supplied chain is achieved by the fact that in a device for testing soils under three-axial loading conditions, incl> 5, a pressure chamber, a working chamber with an elastic shell, an upper and lower cover, a load and measuring device, a measuring device is installed in the lower cover of the U chamber, and made in the form of a limb with a stand having guides and a carriage with a strain sensor located in the rack guides with the possibility of interaction of the strain sensor with the “5 elastic shell of the working chamber, while The gate and limb are equipped with a drive, respectively, of their movement and rotation.

The drawing shows the proposed 20 device.

The device includes a housing 1, a chamber 2 with an upper 3 and lower 4 lids, a pressure source containing a cylinder 5 with water and a cylinder b with air, 25 loading device 7 for transmitting pressure to the ends of sample 8 and a measuring device.

The measuring device contains a limb 9 mounted in the bottom cover with a vertical 9O stand 1O, in the guides of which a carriage 11 is installed, carrying a strain gauge 12 on it. Shoop biased sensor 13 and the shell 14. As for the elastic Ka Roethke ₃₅ moves in the rack rails by the actuator 15. Rotation of the dial 16 is carried a drive, on a shaft 17 which is fixed a gear wheel 18 meshing with teeth ₄₀ ·

limba.

The device works as follows.

Sample 8 is stirred in chamber 2, hermetically sealed the chamber with covers of 3 ₄ $ and 4, and the deformation sensor 12 is brought to the working position, 'connected to the recording equipment, its spring-loaded probe 13 is released and set between the sample and the carriage 11. the drive 15, the carriage with the sensor moves in the guides of the rack 10 and stops at any height (intended for measurement) with the help of the drive 16 by moving the sensor circumferentially around the sample. This ability to move the sensor allows you to measure the deformation of the radius and diameter of the sample at any point on its surface, and the measurement and registration of deformations during testing can be performed continuously as the sensor moves or discretely in accordance with the selected points for measurement.

Claims (1)

Claim A device for testing soils under triaxial loading conditions, including a pressure chamber, a working chamber with an elastic shell, an upper and lower cover, a load and measuring device, characterized in that, in order to improve the accuracy of measuring soil deformations, the measuring device is installed in the lower chamber cover and made in the form of a limbus with a stand having guides and carriages with a strain gauge placed in the guides of the stand with the possibility of interaction of the strain gauge with an elastic "sheath chkoy working chamber, wherein the carriage and the limb are provided with actuators respectively their displacement and rotation.