SU711229A1 - Unit for investigating physical and mechanical properties of soil - Google Patents

Description

I

The invention relates to the field of construction, more precisely to the study of the foundation soils for foundations and can be used to determine the deformative and strength characteristics of soils in pits in field conditions when performing geotechnical surveys on construction sites.

A device for determining the strength properties of a soil is known, which contains horizontal and vertical load aggregates, power and measuring devices 1. With the help of this device, it is possible to determine the shear force for some horizons to the horizon and in one direction in azimuth.

The closest technical solution is an installation for investigating the deformable and strength properties of a soil, containing interconnected horizontal and vertical telescopic jacks with a chip, as well as a source of pressure and measuring devices 2. The disadvantage of the installation is that when investigating a soil in schurf construction site to obtain indicators of its mechanical properties

In all directions, it is necessary to consistently apply two or three different installations. At the same time, the results obtained are not always reliable and require correction of comparative tests.

In addition, the change of different installations in the study of the soil at the construction site will require considerable time and resources associated with the need to drill several mine workings.

The purpose of the invention is to increase the productivity of work and unification of the installation.

It is achieved by the fact that in an installation for studying the physicomechanical properties of soil containing interconnected horizontal and vertical telescopic jacks with punches, as well as a source of pressure and measuring devices, the rods of horizontal jacks are made of telescopically mounted elements, and the stamp of each jack is composite. from concentrically located sections and provided with stops, one end of each stop being connected to a pair of concentric sections, and the other end

with the corresponding element of the telescopic rod.

In FIG. 1 depicts a hurt type of installation without transferring the load unit; on fkg. 2 same in the plan without overlapping; in fig. 3 - load unit in the section.

The installation for studying the physicomechanical properties of the soil includes radial and axial load aggregates 1 with a stamp 2 on each, power and measuring devices.

All load units 1 are mounted on a rigid spatial farm 3 made absolutely identical and are interchangeable.

The force part of the load assembly 1 is a telescopic jack, and the die 2 consists of three concentric sections 4, 5 and 6. In this case, the sections of sections 4 and 5 are 2500 cm each, and the area of section 6 is 5000 cm. Section 4 is fastened to the rod 7, in which a channel .8 for transferring fluid under the piston 9 is made. Sec. 5 and 6 with the aid of the struts 10 and 11 to the fastening, respectively, with its own piston rods 12 and 13.

To the farm 3, the loading unit 1 is fastened with the aid of an external 1 cylinder 14, the front part of which is clamped by a clip 15 fixed on the farm and its rear part attached to

the central frame is 16 cubic. The cavities of the stem 7, 12, 3 and the outer cylinder 14 can be connected by means of a crane 17 (18, 19 or 20) to either the high pressure line 2 or the low pressure line 22. The pressure of the fluid supplied to the cavity is regulated by the reducer 23, and the pressure control is exercised. Pressure gauge 24.

On the struts 10 and 11 of the 2S and 26, the extensions are elongated so that they are located nepeKpiiearoT adjacent axes and. This allows you to push the weight of stamp 2 (sections 4, 5 and 6) with an area of 10,000 cm with pressure applied only into the cavity of the outer cylinder 14 and separately with an area of 5000 cm (sections 4 and 5) with pressure applied only into the cavity of rod 13 an area of 2500 cm (section 4) when feeding distance only into the cavity of the rod 9. The elongated pitas 25 and 26 of the struts 10 and 11 increase the overall rigidity of the stamp 2.

To support the punch 2 when transporting and cleaning the walls of the hole when the installation is lowered onto the farm 3, plates 27 are fixed. To prevent the soil from getting to the installation when it is removed from the hole, a slope is mounted on the upper part of the installation 28. Suspension of the installation to the ring

When it is lowered and removed from the hole, it is carried out with the help of cables 29, which are closed at the farm 3.

The installation works as follows.

On all outdoor units, deflectors are installed to measure the precipitation of dies 4, 5 and 6 and the pumping station is connected. The installation prepared for operation with the help of a crane is lowered into a pre-made

3 ground hole. The studies begin with measurements of parameters in a horizontal plane, and then, using horizontal load units 1 as spacer jacks, the soil is tested with a vertical load unit.

Depending on the strength properties of the soil, a stamp of the appropriate area is selected. Let us consider in more detail the work of each stamp.

In the initial position, the taps 18, 19, 20 and 21 are connected to the return line 22. When the crane 18 is connected to the working highway 17, the fluid under high (calculated) pressure through channel 8 in the rod 7 reaches under the piston 9 and sections 4 with an area of 2500 cm are pressed into pit walls. For returning stamps sections

4 in the initial position of the valve 18 is connected

to return pipe 22, and valve 19 - to working line 17, i.e., pressure is supplied to the piston super-piston cavity 12. If necessary, apply a stamp of 5000 cm to the working line 17 connect valve 20. In this case, the piston rod 12 is of a high type pressure moves section 5 and under the help, and the elongated spot 25 of the strut 10 carries section 4.

The total area of sections 4 and 5 is 5000 cm. To return sections 4 and 5 to the initial position, the valve 20 is turned on for low pressure, and the valve 18 is on high, and after the rod 12 is returned to its initial position} the valve 18 is switched to low pressure and crane 19 is high. In the same way, all three sections 4, 5 and 6 return to the initial position. In this case, section 5 with the help of an elongated pin 26 of the strut 11 carries section 6 to its initial position.

By activating a crane 21 for high pressure, the entire die 2 with an area of 100 is used (10 cm. Under a high pressure, a plunger-type rod 13 moves section 6 with an area of 5000 cm. Section 6 moves through section 5 and section 5 through the extended section 26 and section 5 through elongated ptu 25 of the strut 10 carries section 4 along with it.

Claims (2)

. Similarly, the study of the carrying capacity of the soil is carried out using a vertical 57112 but fixed on farm 3 loading unit 1 with a punch 2. Using the installation will significantly speed up and reduce costs in the study of the mechanical properties of soils at the construction site in any areas of the USSR. The installation for the study of the mechanical properties of the soils of the proposed design is universal, easy to manufacture and operate. The universality of the installation lies in the fact that it can be used to determine all the deformative and strength characteristics of any soils with one immersion of the installation into the hole, since it is equipped with loading units in the horizontal and vertical planes and a set of imps of various sizes. The proposed installation allows for shear testing. In this case, on horizontal load units, instead of the usual dies, dies are installed to perform shear tests. In addition, the identity of the design of the load aggregates allows you to quickly replace any faulty 25 25 1C 15 9 Formula of the Invention The installation for studying the physical and mechanical properties of the soil containing interconnected horizontal and vertical telescopic jacks with dies, as well as a pressure source and measuring devices that differ the fact that, in order to increase the productivity of work and the unification of the installation, the rods of horizontal jacks are made of telescopically specific elements, each jack ashtamp - RS concentrically raspelozhegshyh composite sections and is provided with abutments, with one end of each block connected to a pair of concentric sections, and the other - with the corresponding element of the telescopic rod. Sources of information taken into account during the examination 1. The author's certificate of the USSR N 348916, cl. E 02 D 1/00, 1970. 2. USSR author's certificate ff 394693, cl. E 02 D J / 00, 971.