SU1375734A2 - Apparatus for determining strength and strain properties of soil sample - Google Patents

Abstract

The invention relates to the construction, in particular to devices for determining the strength and deformation characteristics of a soil sample under laboratory conditions. The aim of the invention is to increase the accuracy of determining the volumetric strain (W $ O) oo el 00 N)

Description

of the sample by taking into account the temperature influence of the environment. The device comprises a chamber with a sleeve, which has a prrthbchku 13, a rod 3 connected to the stamp A, a volumeter connected to the lower end with the camera 1 and an additional volumetric meter. Additional volumeter bottom end

connected to the over-piston cavity of the hydraulic cylinder 17, the rod 18 of which is equipped with a linear displacement meter 19. The compressed air supply control unit 10 is connected via pipelines to the groove 13 of the sleeve 2 and to the upper ends of the volumeter and additional volumetric meter. 1 il.

one

The invention relates to the construction, namely, devices for determining the strength and deformative characteristics of a soil sample under laboratory conditions, and is an improvement of the invention according to the author. No. 1040037.

The aim of the invention is to improve the accuracy of determining the volumetric strain of the sample by taking into account the temperature effect of the environment.

The drawing shows the device, a longitudinal section.

The device consists of a chamber 1 with a sleeve 2 and a stem 3 connected to a gesture {stamp 4. The test sample 5 of the soil is enclosed in a rubber sheath 6. A highway 7 connects the chamber with a volumeter consisting of a glass tube 8 with a scale 9. Volumometer connected to the compressed air line 10. A separator tank is connected to the same highway. 11, which is connected to line 13 by a groove 13, and an additional volumeter connected to the same line by its upper end, consisting of a glass tube 14 with a scale of 15. An additional volumetric meter is connected to the piston over-piston cavity 17 by means of a lower end through trunk 16 18 which has a meter 19 linear displacements.

The inner diameter and length of the glass tube 8 is equal to the inner diameter and length of the glass tube .1 The volume of fluid in the glass tube 14, line 16, the hydraulic cylinder 17 must be equal to the volume of the liquid in chamber 1, line 7, the glass tube 8.

The device works as follows.

After charging sample 5 in a rubber casing 6 into chamber 1, the device is filled with liquid. The linear displacement meter 19 fixes the amount of movement of the rod 18 of the hydraulic cylinder 17, which for a known area

the piston allows the hydraulic cylinder 17, the main 16 and the glass tube 14 to be filled with liquid, the volume of which is equal to the volume of liquid in the chamber 1, the main 7 and the glass tube 8. The same initial positions of the liquid levels in the glass tubes 8 and 14 are set on scales 9 and 15. When pressure is applied from line 10 in chamber 1, groove 13, hydraulic cylinder

17 creates equal pressure. The equality of pressures in chamber 1 and groove 13 prevents fluid from flowing through the contact of sleeve 2 and rod 3. Equality of pressures in chamber 1 and hydraulic cylinder 17 allows to take into account the error in determining volumetric deformations of the soil sample when the temperature changes during the test. From the position of the liquid level in the glass tube 8 with a scale of 9, volumetric deformations of the sample are determined by the volume of the liquid entered or displaced from chamber 1. As the temperature changes, a change in volume occurs.

fluids in chamber 1 and volumeter, as well as in an additional volumeter and hydraulic cylinder 17, which, with equal volumes of fluid and equality of pressures, will be the same. The magnitude of the change in the volume of a liquid with a change in temperature can be set by the glass tube 14 with a scale of 15, which makes it possible to take into account the error 3,13,5734

due to the temperature-volume deformation of the sample by

The expansion or contraction of the fluid, taking into account the temperature effect of the P1I environment, is used to measure the volumetric deformation of the Antarctic environment; it is equipped with an additional sample 5 of the soil. volumeter and hydraulic cylinder,

The formula of the invention, the stock of which has a gauge line. A device for determining durable displacements, while the complementary and deformation characteristic volumetric meter with the upper end

The tick of the soil sample according to aut.S.No. 104003 is connected to the compressed main line by the fact that, with xa, and the lower one - with the piston belt, it is increased in accuracy by determining the hydraulic cylinder.

Claims (1)

Formula and inventions A device for determining the strength and deformation characteristics of a soil sample according to Authors.№ 104003 ^ characterized in that, in order to increase the accuracy of determining <volumetric deformation of the sample by taking into account the temperature influence of the environment, it is equipped with an additional volume meter and a hydraulic cylinder, stock which has a linear displacement meter, while an additional volume meter is connected with the upper end to the compressed air main and the lower end with the piston cavity of the hydraulic cylinder. Compiled by L. Tronin Editor L. Langazo Tehred M. Khodanich Corrector S. Shekmar Order 751 / βΟ Circulation 636 Subscribed VNIIIPI of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and printing company, Uzhhorod, st. Project, 4