SU479989A1 - Device for studying the dynamic properties of soils - Google Patents

Description

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The invention relates to the field of soil mechanics, in particular, to devices for studying the dynamic properties of soils.

Devices are known for investigating the dynamic properties of soils, including a hydraulic stabilometer with a chamber and a piston, vibrating load and measuring devices. The main disadvantage of these devices is that they allow (To receive only equal in size vertical and horizontal dynamic "components in the sample. The purpose of this invention is to study the dynamic properties of the soil (Applied to it by various and vertical effort.

This is achieved by the fact that the load device is suspended from the lower part of the vibrating Device, which is pivotally connected to the stabilizer piston, the chamber of which is filled with the working medium.

FIG. 1 shows the general view of the device; in fig. 2-section stabilometer.

The proposed device includes a massive foundation I, on which frame 2 is fastened, flooring itself, stabilometer 3 itself. A vertical load is applied to the sample placed in the stabilometer through a par 4, a ball 5 and an upper telescope 6.

The upper crosspiece on two extents 7 with the lower crossbar 8 (vibrator 9 and static load device 10 are suspended (for example, a platform with weights). Cylinder II with

compressed air and water are connected to the working volume of the stabilometer by tube 12. The flow of liquid IB is controlled by the cranes 13 and 14. In some cases, the cylinder 1 i is connected to the stabilometer 3 via a hydraulic throttle 15.

The stabilometer 3 consists of the lower base 16 in the 1st form of a massive disk with a protrusion 17 in the center. On the ledge 17, a sample of the soil 18 IB of a thin rubber shell 10 is installed.

The bottom К | paradise of the shell is hermetically put on the side surface of the protrusion 17. The thin-walled cylindrical glass made of Plexiglas 20 is mounted on a rubber seal on the ring 2-1 located in the pelvis of base 16.

The upper end of the rubber sheath 19 is pulled onto the upper edge of the cup 20, provided with a rubber ring 22.

A top base 23 is installed on the glass with a guide cylinder 24 and a seal ring 25. Three bolts 26 serve to fasten the device for sealing. A hollow piston 27 with a transition tip 28 at the lower end located in the direction of the cylinder 24 rests on the disk.

29 on the upper end of the sample 18. In the cylinder

24 there is a locking screw 30 for fixing the position of the piston 27. The displacement volume 31 of the stabilometer is filled through valve 32 and the channel with liquid (water, glycerin, etc.) and gas (air) at the required ratio of their volumes. The crane 32 is connected to a balloon with compressed air and water.

The device works as follows.

Screw 30 fi Xyrav position of the piston 27 and 1 when the valve 32 is open, in the working volume 31 the pressure rises to the desired value of the horizontal static pressure In the sample. After that, the valve 32 is closed. The platform is loaded with weights to create the necessary vertical static load on the sample. Unscrewing the screw 30 — observe the flow of static deformation of the specimen, simultaneously specifying the pressure in the chamber, according to indications connected to the chamber of the pressure gauge (no measuring devices are shown in the drawings).

At the end of the static deformation, a vibrator is turned on, which creates a vertical alternating force applied to the stabilometer gauge. From the piston, this force is transmitted to the sample, creating a vertical alternating voltage tB, and that liquid and gas (if the diameter of the piston is not equal to the diameter of the sample).

Subject invention

A device for studying the dynamic properties of soils, including a stabilometer with a chamber and a piston, a cylinder that vibrates the load and measuring devices, characterized in that, in order to ensure the study of the dynamic properties of the soil when it is applied by various horizontal and vertical forces, load (device

suspended from the bottom of the vibrating extension, pivotally connected to the piston of the stabilometer, whose chamber is filled with working medium.

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IPU & 7

U 7/7 /// 7777/7 1