RU2733339C1 - Device for measuring shear deformations of soil relative to surface of concrete structure - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely, to soil deformation measuring devices. Device for measuring shear deformations of soil relative to surface of concrete structure includes bench in form of pipe with side longitudinal through slot, sensitive element connected to transfer rod, bushing, meter of linear displacements. To provide axial movement of the transfer rod is located in bushings, one of which is made in form of detachable cover, and other is fixedly installed in internal cavity of reference point above side longitudinal through slot, and in lower part is pivotally connected along its axis with sensitive element in its middle part, and transmission rod upper part is equipped with linear displacement meter. One end of the sensitive element is pivotally connected to the reference mark and the other end is inserted into the side longitudinal through slot of the reference mark in order to enable its displacement into the ground beyond the outer surface of the reference mark of not less than 15 mm in the initial position perpendicular to the axis of the transfer rod, or for partial exit from soil in turned position, or for complete entry into reference cavity through side longitudinal through slot in extreme turned position.

EFFECT: technical result consists in improvement of accuracy and reliability of measurement results of shear deformations of soil relative to surface of concrete structure.

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Description

The invention relates to construction, and in particular to devices for measuring soil deformations.

A device for measuring soil deformations is known, comprising a hollow stand, a sensing element designed to perceive shear forces when the soil is displaced, and a recording device including a measuring part designed to measure the change in the position of the sensitive element under the action of shearing forces when the soil is displaced, and connected to it recording equipment designed to convert the change in the position of the sensitive element under the action of shear forces into the amount of soil displacement, the sensitive element is made in the form of a rod with a conical tip and is installed in a hollow rack, while the sensitive element is equipped with a retainer designed to hold the rod in a vertical position after immersion racks with a sensitive element in the well and mounted on a rod with the ability to move it along the rod and with the ability to ensure free deflection of the rod from its initial position under the action With the shearing forces of the soil, the measuring part of the recording device is a horizontal plate with measuring sensors installed on it for measuring the angles of inclination of the rod relative to the borehole axis, while the horizontal plate of the recording device is fixed on the rod of the sensitive element above the clamp of the sensitive element (RF Patent No. 2529214, IPC E02D 1/02, 2014, # 27).

The disadvantages of the known device are:

- the impossibility of measuring the shear deformations of the soil near the building structure and in direct contact with it, which are needed for calculating soil friction in contact with the wall (1. Guidelines for the design of retaining walls and basement walls for industrial and civil construction / TsNIIPromzdaniy Gosstroy USSR. - M. : Stroyizdat, 1984. - 117 p .; 2. Dalmatov B.I., Bronin V.N., Golly A.V. Designing foundations of buildings and underground structures. Textbook / Edited by B.I.Dalmatov, 2 ed. - M .: Publishing house ASV; SPb .: SPbGASU, 2001. - 440 p.];

- low accuracy of measuring the displacements of marks due to the large arm of the rod of the sensitive element, in relation to the arms of the points of measurement of displacements by sensors on the horizontal plate;

- low reliability of the results of measurements of soil displacements due to the drift of the ends of their measuring rods on the surface of the horizontal plate;

- the reliability of the installation of the latch that holds the sensitive element in a given position on the ground is not ensured.

Closest to the claimed invention is a device for measuring soil deformations, containing a hollow benchmark, a flexible cord with a mark at the end, a tube with a through slot and a sleeve located inside it, the tube is installed on the outer surface of the benchmark near the through groove made in the wall of the benchmark and is identical to the through slots in the tube, the device is also equipped with a hollow measuring rod located inside the benchmark and the lower end rigidly connected to the rod with a plate at the end passing through the hole in the bushing, and the flexible cord passes through the hole in the bushing and the measuring rod (RF Patent No. 2164979, IPC E02D 1/00, 2001, No. 10 - prototype).

The disadvantages of the known device are:

- the impossibility of measuring the shear deformations of the soil near the building structure and in direct contact with it, which are needed for calculating the soil friction in contact with the wall [1) Guidelines for the design of retaining walls and basement walls for industrial and civil construction / TsNIIPromzdaniy of the USSR State Construction Committee. - M .: Stroyizdat, 1984 .-- 117 p .; 2) Dalmatov B.I., Bronin V.N., Golly A.V. Design of foundations of buildings and underground structures. Textbook. allowance / Ed. B.I. Dalmatova, 2nd ed. - M .: Publishing house ASV; SPb .: SPbGASU, 2001. - 440 p.];

- low accuracy of measuring the displacements of marks due to their connection with the measuring part with a flexible cord and unstable console placement of the measuring rod in the benchmark on the sensitive rod;

- low reliability of the results of measurements of soil displacements due to resistance to movement of the flexible cord at the bend of the hollow measuring rod;

- additional labor costs for installing a tube on the outside of the benchmark and driving for this additional pit, which violates the established soil composition and reduces the reliability of the results;

- additional labor costs for waterproofing the benchmark;

- the inability to use at great depths.

The objective of the invention is to provide the possibility of measuring the shear deformations of the soil relative to the surface of the concrete structure.

The technical result of the invention is to improve the accuracy and reliability of the measurement results of shear deformations of the soil relative to the surface of the concrete structure.

The technical result is achieved by the fact that in a device for measuring shear deformations of the soil relative to the surface of a concrete structure, including a reference in the form of a pipe with a lateral longitudinal through groove, a sensitive element connected to a transfer rod, a bushing, a linear displacement meter, according to the invention, to ensure axial displacement of a transfer the rod is placed in bushings, one of which is made in the form of a removable cover, and the other is fixedly installed in the inner cavity of the benchmark above the lateral longitudinal through groove, and in the lower part is pivotally connected along its axis with the sensitive element in its middle part, and the upper part of the transfer rod equipped with a meter of linear displacements, while the sensing element is pivotally connected to the benchmark at one end, and is inserted into the lateral longitudinal through slot of the benchmark at the other end to enable its movement into the ground beyond the outer surface of the benchmark at least 15 mm in the initial position, perpendicular to the axis of the transfer rod, or for partial exit from the ground in a rotated position, or for full entry into the benchmark cavity through the lateral longitudinal through slot in the extreme rotated position.

The novelty of the proposed technical solution lies in the fact that the sensing element in the initial position protrudes into the ground beyond the outer surface of the benchmark, and in the rotated position it leaves the ground, acting through the transfer rod on the linear displacement meter, and also in the fact that it can be used for direct measurements of shear deformation of soil of any given orientation on the surface of a concrete structure, which increases the accuracy and reliability of measurement of shear deformations.

Thus, the totality of these distinctive features is the essence of the invention, which ensures its novelty, inventive step and industrial applicability.

The claimed device for measuring shear deformations of the soil relative to the surface of a concrete structure and explanations for its operation are schematically shown in: FIG. 1 is a general sectional view of a device for measuring shear deformations of the soil relative to the surface of a concrete structure; fig. 2 is also a top view in section A-A; fig. 3 - detailing the installation of a sensitive element (type I) of a device for measuring shear deformations of the soil relative to the surface of a concrete structure; fig. 4 is a side view (view B) of a device for measuring shear deformations of soil relative to the surface of a concrete structure.

The device for measuring the shear deformations of the soil relative to the surface of the concrete structure consists of a reference 1 in the form of a pipe with a lateral longitudinal through groove 2, a sensitive element 3, a transfer rod 4 and a meter 5 of linear displacements.

The sensing element 3 is pivotally connected to the transfer rod 4 by a hinge 6 on the axis of the transmission rod, on the upper part of which a linear displacement meter is installed 5. One end of the sensing element 3 is connected to the reference 1 by a hinge 7, and the other end of the sensing element 3 is inserted into the lateral longitudinal through groove 2 and in the initial position, perpendicular to the axis of the transfer rod, protrudes into the ground beyond the outer surface of the benchmark by at least 15 mm, and in the rotated position it partially leaves the ground, and in the extreme turned position completely enters the cavity of the benchmark 1 through the lateral longitudinal through groove.

The transfer rod 4 is placed with the possibility of axial movement in the bushings 8 and 9. The bushing 8 is fixedly installed in the inner cavity of the reference frame 1 above the lateral longitudinal through groove 2, and the bushing 9 is made in the form of a removable cover.

The axis of the hinge 6 is able to move in the lateral longitudinal through groove 10 made in the sensitive element 3.

The lower part of the bench 1 is closed with a fixed bottom 11.

The linear displacement meter 5 is made in the form of a displacement sensor capable of converting the movements of the transfer rod 4 into signals for automatic registration.

The device for measuring the shear deformations of the soil relative to the surface of the concrete structure operates as follows.

The device for measuring the shear deformations of the soil relative to the surface of the concrete structure is installed in a mine working (borehole, pit or foundation pit), passed in the soil massif, pressed with the lateral vertical groove 2 to the wall of the mine working, rigidly fastened to the reinforcement of the building structure and the building structure is concreted.

Before lowering the device into the mine, the transfer rod 4 is raised and fixed in the extreme rotated position, in which the free end of the sensing element 3 is inside the reference 1 (Fig. 3), and the lateral longitudinal through groove 2 is sealed with an easily breakable material, for example, thin foil, to prevent the ingress of soil and concrete into the cavity of the benchmark 1.

The length of the benchmark 1 is taken depending on the position of the measurement point relative to a given point of the structure. After concreting the building structure, the transfer rod 4 is lowered to its original position. In this case, the sensitive element 3 rotates relative to the hinge 7 along the vertical through groove 2, and its free end cuts through the protective film, makes a groove in the wall of the mine, descends all the way into the bottom 11 and takes its original position, protruding into the ground beyond the outer surface of the benchmark 1 not less than 15 mm.

On the benchmark 1, a linear displacement meter 5 is installed and brought it up to contact with the transfer rod 4.

When the soil moves relative to the concrete structure (or concrete structure relative to the ground) along the axis of the benchmark 1, the free end of the sensitive element 3 remains in the soil mass in the same place. In this case, the sensitive element 3 rotates relative to the hinge 7 and through the articulated joint 6 raises the transfer rod 4. The movement of the transfer rod 4 relative to the reference 1 is monitored by the linear displacement meter 5. In this case, the magnitude of the shear deformation of the soil relative to the surface of the concrete structure along the axis of the benchmark is determined by the formula

where S and x - respectively, the shear deformation of the soil relative to the lateral surface of the concrete structure and the movement of the measuring rod, mm;

L is the distance from the axis of the hinge joint 7 of the sensitive element 3 with the benchmark 1 to the outer surface of the benchmark, mm;

l is the distance from the axis of the pivot joint 7 of the sensitive element with the reference to the axis of the transfer rod 6, mm.

Thus, the claimed device makes it possible to measure the shear deformations of the soil relative to the lateral surface of the concrete structure in direct contact with it and with a higher accuracy and reliability than in the known devices.

Shear deformations of the soil relative to the lateral surface of the concrete structure provide boundary conditions for its calculation, therefore, their direct measurement makes it possible to increase the reliability of the calculation of the structure on the ground. Measurement of shear deformations of the soil relative to the lateral surface of a concrete structure allows monitoring the interaction of the structure with the soil during surveys for construction using test piles and dies, during the construction of the structure and during its operation.

The claimed device is technically simpler than known devices, it is easy to implement, requires a simple setup, therefore it can be massively used in concrete structures: foundations, piles, walls of underground structures, retaining walls, incl. located in watered soils. It can be used when testing a structure, during its construction and when monitoring its condition during operation.

Measurements of the shear deformations of the soil relative to the lateral surface of the concrete pile are of great importance for calculating the resistance of the soil to the movement of the pile.

Claims (1)

A device for measuring shear deformations of the soil relative to the surface of a concrete structure, including a benchmark in the form of a pipe with a lateral longitudinal through groove, a sensitive element connected to a transfer rod, a bushing, a linear displacement meter, characterized in that to ensure axial movement, the transfer rod is placed in bushings, one of which is made in the form of a removable cover, and the other is fixedly installed in the inner cavity of the benchmark above the lateral longitudinal through groove, and in the lower part is pivotally connected along its axis with the sensitive element in its middle part, and the upper part of the transfer rod is equipped with a linear displacement meter, in this case, the sensing element is pivotally connected to the benchmark at one end, and is inserted into the lateral longitudinal through groove of the benchmark at the other end, to ensure its movement into the ground beyond the outer surface of the benchmark at least 15 mm in the initial position perpendicular to the axis of the transfer rod, or for partial exit from the ground in a rotated position, or for full entry into the benchmark cavity through the lateral longitudinal through slot in the extreme rotated position.

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