SU706485A1 - Perssiometer - Google Patents

Description

(54) PRESSIOMETER

Claims (2)

I.Invention. Contains construction, in particular, devices that allow the study of soils by the method of pressure testing in engineering and geological exploration. A device is known for determining the compressibility of soils, including an I-section body with recesses in shelves in which rubber chambers are placed, are equipped with rigid plates — rectangular dies, loading and measuring devices and a set of rods 1 on the outside. However, this device has considerable resistance to penetration into the ground due to the crushing of the soil, between the shelves of the I-shaped case, the rubber chambers do not have sufficient strength and do not allow the deformation of g Unt widely. The system for measuring deformations and loads under the plates and dies is complex, cumbersome and makes it impossible to measure with high accuracy. Closest to the invention, the technical solution is a pressiomet containing a body with a rigidly fixed tip, a tubular element covering a rod connected to dies, a pressure source and measuring devices 2. The disadvantage of this pressiometer is low measurement accuracy. This is due to the fact that, due to the heterogeneity of the mechanical properties of the soil in the horizontal and vertical directions, or in the presence of rigid inclusions in the soil, the elastic plates of the dies may be diverted relative to the body not strictly in the radial direction, which complicates the problem of determining the modulus of the soil mass deformation and introduces inaccuracies . The purpose of the invention is to improve the measurement accuracy. This is achieved by the fact that in a pressiometer comprising a body with a rigidly fixed tip, a tubular element encompassing a rod connected to the dies, a pressure source and measuring devices, the body is made Z-shaped, and the dies are hinged in its corners so that they can be rotated. FIG. Figures 1 and 2 show the pressure meter; look around; in FIG. ., 3 - section A-A in FIG. one. . The device comprises a rigid Z-shaped body 1, Ejected with a ferrule, a tubular element 2 covering the rod 3 connected to the dies 4 pivotally fixed in the corners of the case from one side, by means of sliders 5, levers 6 and 7 with the rod 3. Pressuremeter works as follows. When assembled, it is pushed by the pointed side of the housing 1 through the tubular element 2 into the ground to the required depth. To the rod 3 parades, a certain value of the force T is fixed and the value S is fixed. Its vertical movement. When this lever 7 is rigidly connected to the rod 3, there is no slider 5 connected to it through the levers 6 that move along the slope the planes in the slots x 8 the 2-image Hofo of the body, abut with a force P in the dies 4 and at the same time create their rotation by an angle 4 from the cavity of the casing 1. The soil under the dies 4 is compacted by the value 6. Using the measured value S, the dependence due to the magnitude 6 of the soil deformation, and the specified value of the applied load T, the dependence related to the force P, the strain modulus E of the soil under study is calculated. According to the eye, the device is folded by moving the telescopic rod. 3 downwardly, the sliders 5 move in the end grooves of the dies 4, and along the inclined plane of the slits 8, they return the dies 4 to their original position. To prevent the ingress of soil into the inner region behind the dies 4, the device provides & elastic plates stretched between the front, upper and lower edges of the dies 4. The proposed pressiometer allows -. There is no need to improve the process of measuring soil deformation and to set the exact values of the applied force on the working part of the device. The design of the pressure meter is simple and hope in operation. The presence of inclined slots in the shelves of the pressiometer provides, thanks to the slider-lever device, the creation of a significant moment for turning the dies and the expansion of the pressure range required for soil investigation. The pressure gauge of the described design can be used on weak and mineralized soils. Claims of Invention A pressiometer comprising a body with a fixed tip, a tubular element comprising: (a string connected to dies, a pressure source and measuring devices, distinguished by the fact that, in order to improve measurement accuracy, the body is Z-shaped and the dies are hinged in its corners with the possibility of turning.,. Sources of information taken into account during the examination 1. USSR author's certificate No. 511407, class E 02 D 1/00, 1976. 2. The author's certificate of the USSR 619570, cl. E 02 D 1/00, 1977.