SU1247465A1 - Compressiometer - Google Patents

Description

The invention relates to engineering geology, in particular, to instruments for studying the mechanical properties of soils in the vicinity of direct sampling of soil from an array during engineering geological surveys.

The aim of the invention is to reduce the time of testing a soil sample.

The drawing shows a compression meter, a general view.

The compression gauge contains two perforated sleeves 1 and 2, made in the form of glasses with longitudinal through slots in the walls, perforated heads 3 and 4, and removable caps 5 and 6. Guides 7 are installed in the slot of the sleeve 1 and interact with the slots 8 in the slot of the sleeve 2. The lid 5 has a hook-hook 9, and the lid b is a clamp (not shown in the drawing) for fastening the meter 10 of the indicator deformation, the leg 11 is resting on the bottom 3 of the sleeve 1. The sleeve 1 is provided with lugs 12 with holes for cables 13 with tension nuts 14 related to the sector 15 leverage load device with levers 16 mounted on a rigid frame 17, rigidly connected to the sleeve 12 at the level of the bottom 4.

Compressometer works as follows.

A soil sample 18, cut from a monolith of a non-damaged structure by the cutting ring method, is placed on the bottom 3 of the sleeve 1. The sleeve 2 is turned upside down into the sleeve 1 so that the side walls of the grooves 8 along the ends slide along the longitudinal guides 7 of the sleeve 1 and fit tightly in its through slots

side surface of the walls. The end edges of the sleeves 1 and 2 with external thread are screwed respectively with a lid 5 having a hook 9 and a lid 6. A screw clamp (not shown) does not fix the gauge 10 on the lid 6 so that the measuring head on the leg 11 abuts against the bottom 3 of the sleeve 1. The device is suspended from the hook 9. The levers 16 of the load-carrying device are bobbed up; the wires 13 are fixed on sectors 15 and the nuts 3 are fixed on the bottom of the sleeves 3.

According to the calibration schedule, a load level is assigned to compress the soil sample 18 and the necessary weights are set on the weights of the lever load device (not shown). The weighting plumb force is transmitted through the levers 16 and the sectors 15 to the wires 13 and the sleeves 1 and 2 are tightened by the bottoms 3 and 4 towards each other. The movements of the bottoms 3 and 4 and the precipitation of the soil sample 18 are measured by measuring device 10.

The use of the proposed compressor meter allows refusing the transportation of soil samples from the sampling site to the laboratory and carrying out tests in the immediate vicinity of the well, which guarantees the safety of the undisturbed soil structure.

At the same time, the Compressiometer is simple in design, has small dimensions and weight. In addition, the compression of the soil sample over the ends on both sides allows for faster distribution of compressive stresses over the entire sample of the soil under study and, thus, shortens the testing time.

Claims (2)

1. COMPRESSIOMETER, including a perforated sleeve for soil sample, lever loading device and strain gauge, characterized in that, in order to reduce the time for testing the soil sample, it is equipped with an additional perforated sleeve, the sleeves are equipped with removable covers, one of which has a suspension, and is made in the form of glasses with longitudinal through slots in the walls and guides in one of the sleeves installed in its slot, while the sleeves are installed coaxially, the guides of one sleeve interact with slots of the other, and a strain gauge is mounted on one of the covers. 2. Compressiometer according to π. 1, characterized in that one of the sleeves is equipped with a frame rigidly fixed to it at the bottom level, and the other with eyes connected by means of a flexible connection with a lever loading device mounted on the frame.