SU1673912A1 - Soil sampling probe - Google Patents

Abstract

The invention relates to the construction, in particular to devices for field testing and soil sampling, and can be used in engineering geological surveys. In order to simplify the design, increase reliability and information content due to sampling at arbitrary elevations, operatively selected in the process of static sounding, the probe-soil sampler includes a measuring tip 1 and a device for sampling soil in the form of hollow shells 12 with ceilings 9, and also has the solenoid 2 and the spring 6, which are placed inside the housing 13 and are associated with the overlaps by the hinge rods 7 and 8, while the overlaps are made movable in the slots located in the lower part of the hollow boxes angles and at an angle to the axis of the device, the value of which is not more than 45 °. 4 il.

Description

one

(21) 4731174/26 (22) 08/25/89 (46) 08/30/91. Bul №32

(71) Ural branch of the All-Union State Design and Survey and Research Institute of Energy Systems and Energy Networks Energosetproekt

(72) E.D. Pylaev and A.I. Zyuzin

(53) 543.053 (088.8)

(56) USSR inventor certificate Me 715700.cl. E 02 D 1/00, 1980.

Author's certificate of the USSR No. 1076526, cl. E 02 D 1/00, 1984.

(54) PROBE PROTEST

(57) The invention relates to the construction, in particular to devices for field testing and soil sampling, and may

be used in geological engineering. In order to simplify the design, increase reliability and informativity due to sampling at arbitrary elevations, promptly selected in the process of static sounding, the probe-soil sampler includes a measuring tip 1 and a device for sampling soil in the form of hollow housings 12 with overlaps 9. also provided with a solenoid 2 and a spring 6, which are located inside the housing 13 and are connected to the overlaps by hinge rods 7 and 8, while the overlaps are movable in the slots located in the lower part of the floor x buildings and at an angle to the axis of the device, the value of which is not more than 45 °. 4 il.

AND

(

four

SA) U

YU

The invention relates to construction, in particular to devices for field testing and soil sampling, and may be used in engineering geological surveys.

The purpose of the invention is to simplify the design, increase reliability and information by taking samples at arbitrary elevations, which were promptly selected during the static sounding process.

Figure 1 shows the device, a general view; figure 2 - section aa in figure 1; on fig.Z - section bb in fig, 1; figure 4 - section bb In fig.Z.

The probe of the soil intake consists of a measuring tip 1, above which a solenoid 2 is placed, consisting of an electric winding 3 and a core 4, which is connected by means of a hinge 5 to a spring 6 and connected by 7 to 8 overlaps The overlaps 9 have the ability to move in the grooves 10, which are made in the lower part of the side walls 11 of the hollow soil-collecting buildings 12.

The guide plates 14 are rigidly fixed in the housing 13 for reliable operation of the floors.

The side walls 11 have vertical grooves 15 along their entire height, in which flat removable covers 16 are installed, abutting projections 17 against the stop 18 of the housing 13 and pressed against it by means of a cover 19 and a rod 20.

The inner cavity of the hollow soil collecting housings 12 is made expanding from the bottom upwards in order to avoid the formation of a ground plug. Solenoid 2 is connected by electric wires to a current source on the ground surface (not shown). Valves for air release (not shown) are placed in the upper part of the grab housings.

Probe-sampling works as follows.

Under the action of a static load transmitted to the rod 20, the probe-soil sampler is immersed and the soil is simultaneously tested by static sounding (measuring the soil resistance along the tip is recorded by changing the measured parameters, or at predetermined marks during sounding, soil sampling is performed) .

To do this, the pressing of the device is stopped and a constant voltage is applied to the electric winding 3 of the solenoid 2. The core 4 is drawn into the inside of the solenoid 2, stretching the spring 6. At the same time, overlap 9 of the earth sampler moves along the slots 10 by means of hinges 7 and 8 inside the housing 13, opening the end portion of the hollow soil intake hulls 12. In this position, the probe-ground sampler is pressed into the soil by 0.05-0.1 m. Then, the supply of voltage to the winding 3 of the solenoid 2 is stopped and the overlapping of 9 under the action of the spring 6, moving in the slots 10, cuts off the ground in

soil assembly buildings 12.

Further, the operations are repeated in the same order at the following marks, up to the filling of the soil-collecting buildings 12. At the same time, subsequent samples promote

previous samples in the upper part of the soil intake hulls 12. whose internal cavity is made expanding to avoid friction with the soil.

Since the angle of overlap to the axis

the device is equal to or greater than the maximum possible friction angle of the ground (45 °), the formation of a ground core (plug) before the overlaps 9 during the device diving process is excluded, and therefore a representative sample is introduced into the ground intakes 12 .

After the device has been removed, the rod 20 is twisted to the ground surface. The cover 19 is removed. Then the removable covers 16 of the soil collection housings 12 are pulled out of the grooves 15, opening access to the samples, which are used to identify the soil and describe the geological section.

Claims (1)

The invention of the probe-grouser, including a measuring tip and a device for sampling soil in the form of hollow bodies with floors, characterized in that, in order to simplify the design, increase reliability and informativity, it is equipped with a solenoid and a spring that are placed inside the housing and They are connected with articulated joints by overlaps, and the overlaps are made with the possibility of movement in grooves located in the lower part of hollow housings at an angle to the axis of the device, and the angle should not be 5 over 45 °. // No //YU// Fig.Z ft Yu