RU163044U1 - SOIL AND SOIL Sampler - Google Patents

Abstract

A soil and soil sampler containing a vertically arranged round cross-sectional body with a through cavity, handles are mounted on the top of the body, a cutting edge is made around the cavity at the bottom of the cavity, characterized in that the intake hole is made in the form of a truncated oblique circular cone, the center of the lower base the cone coincides with the axis of the housing, the center of the upper base of the cone coincides with the axis of the bore, the axis of which is parallel to the axis of the housing, the distance L between the axis of the housing and the axis of the passage the hole is larger than the radius R of the passage hole, the passage hole communicates with the bottom hole of the glass installed in the body cavity, the glass is fixed with a fastening element in the body, the insert with two or more receiving channels is mounted rotatably around the axis of the body, recesses are made on the insert for fixing in the sampling position and the recess for fixing in the transportation position of the sample by the locking element of the receiving channels relative to the bottom hole in the glass, the insert is made oyatka.

Description

The utility model relates to devices for sampling soils and soils and can be used for laboratory studies of their physico-mechanical and chemical properties.

Known "Sampler" according to the patent of the Russian Federation for invention No. 2399723, containing a cup holder with a removable sampling sleeve made with the possibility of fixing on the end of the rod equipped with a handle, while the sampling sleeve is made of thin elastic spring steel and cut along the generatrix, while the end of the sampling sleeve provided with a L-shaped slot, at least one, and the inner surface of the cup holder is equipped with a protrusion made with the possibility of interaction with the named slot.

The disadvantages of the famous "Sampler" according to the patent of the Russian Federation for the invention No. 2399723 are:

- the possibility of rash or loss of the sample from a removable sampling sleeve when it is removed from loose soil or soil;

- sampling of the analyzed soil or soil in one place, which may lead to unreliability of the results of analyzes and measurements;

- the inability to take multiple samples of soil or soil from different depths for one installation of the sampler.

It is known "Device for sampling soil" according to the patent of the Russian Federation for invention No. 2534139, adopted as the closest analogue, including a cylindrical pipe with a sharp cutting edge, a three-rod fork, handles, while it is equipped with an intake cylindrical glass with a sharp cutting edge in its lower part and a device for extracting a sample containing an ejector located inside the intake nozzle, rigidly connected by a fork of three rods freely passing through the openings of the nozzle cover to the flange with the sleeve above glass at an angle of 120 ° relative to each other, having the ability to move along the shaft of the device, moreover, the installation on the soil surface and removal from it is carried out using the handles of the shock tip attached to the upper part of the shaft of the device, and the sampling glass is filled with a sample and removed by impacts on the tip of the rod and on the flange of the device for extracting samples, fixed on the lower edge of its sleeve relative to the marks of the measuring scale applied to the rod of the device.

The disadvantages of the known "Device for sampling soil" according to the patent of the Russian Federation for the invention No. 2534139, are:

- the possibility of rash or precipitation of the sample from the cylindrical sampling cup when it is removed from the loose soil;

- sampling of the analyzed soil in one place, which can lead to unreliability of the results of analyzes and measurements;

- the inability to take multiple soil samples from different depths for one installation of the device.

The claimed utility model has the task of sampling loose soils and soils in several places or several samples of loose soils and soils from different depths for one installation of the sampler.

The problem in the claimed utility model is solved due to the fact that the soil and soil sampler contains a vertically arranged round cross-sectional body with a through cavity, handles are installed on the top of the body, a cutting edge is made around the cavity at the bottom, and a sampling hole is made in the bottom of the cavity in the form of a truncated oblique circular cone, the center of the lower base of the cone coincides with the axis of the casing, the center of the upper base of the cone coincides with the axis of the bore, the axis of which is parallel to C housing, the distance L between the axis of the housing and the axis of the bore is greater than the radius R of the bore, the bore is in communication with the bottom hole of the glass installed in the cavity of the body, the glass is fixed by a fastener in the body, and an insert with two or more receiving channels, recesses are made on the insert for fixation in the sampling position and recesses for fixing in the transportation position of the sample by the locking element of the receiving channels relative to tionary bottom opening in a glass, is formed in the inset handle.

The claimed utility model differs from the well-known “Soil Sampling Device” according to RF patent for invention No. 2534139 in that the intake hole is made in the form of a truncated oblique circular cone at the bottom, the center of the lower base of the cone coincides with the axis of the housing, the center of the upper base of the cone coincides with the axis of the bore, the axis of which is parallel to the axis of the casing, the distance L between the axis of the casing and the axis of the bore is greater than the radius R of the bore, the bore is in communication with the bottom hole of the glass installed in the body cavity, the glass is fixed by a fastening element in the body, the insert with two or more receiving channels is mounted with the possibility of rotation around the axis of the body in the glass, recesses are made on the insert for fixation in the sampling position and holes for fixation in the transport position of the sample with a locking element receiving channels relative to the bottom hole in the glass, a handle is made on the insert.

The indicated difference made it possible to obtain a technical result, namely, it provided the sampling of loose soils and soils in several places or several samples of loose soils and soils from different depths for one installation of the sampler.

In FIG. 1 shows a longitudinal section through a sampler, an insert in the sampling position.

In FIG. 2 is a view along arrow A in FIG. one.

In FIG. 3 shows a longitudinal section through a sampler, an insert in the sample extraction position.

The soil and soil sampler (Fig. 1) contains a housing 1 vertically arranged round in cross section with a through cavity 2, handles 3 are mounted on the housing 1 above, a cutting edge 4 is made around the cavity 2 from the housing 1, and a sampling hole is made from the cavity 2 below 5 in the form of a truncated oblique circular cone 6, the center 7 of the lower base 8 of the cone 6 coincides with the axis 9 of the housing 1, the center 10 of the upper base 11 of the cone 6 coincides with the axis 12 of the through hole 13, the axis 12 of which is parallel to the axis 9 of the housing 1, the distance L between 9 axis and 1 and the axis 12 of the bore 13 is larger than the radius R of the bore 13, the bore 13 communicates with the bottom hole 14 of the glass 15 installed in the cavity 2 of the housing 1, the glass 15 is fixed by a fastener 16 in the housing 1, in the glass 15 is mounted for rotation around the axis 9 of the housing 1, the insert 17 with two receiving channels 18, recesses 19 are made on the insert 17 for fixing in the sampling position (Fig. 1, 2) and recesses 20 for fixing in the transportation position of the sample (Fig. 3) by the locking element 21 of the receiving channels 18 relative to the bottom hole 14 in the glass 15, a handle 22 is made on the insert 17.

The sampler of soils and soils works as follows. Before starting work, rotating around the axis 9 of the housing 1, the insert 17 is exposed in the glass 15 so that one receiving channel 18 is in communication with the bottom hole 14. The insert 17 is fixed in the glass 15 with a locking element 21, which enters the recess 19 for fixing in position sampling performed on insert 17 (Fig. 1). The sampler is installed vertically, with a cutting edge 4 on the soil or ground. Using the handles 3, the housing 1 is pressed into the soil or soil. The soil or soil enters the intake hole 5 of the through cavity 2 of the housing 1. The intake hole 5 is made in the form of a truncated oblique circular cone 6, the center 7 of the lower base 8 of the cone 6 coincides with the axis 9 of the housing 1, the center 10 of the upper base 11 of the cone 6 coincides with the axis 12 of the inlet 13, the axis 12 of which is parallel to the axis 9 of the housing 1. Then the soil or soil through the inlet 13 and the bottom hole 14 in the glass 15 enters the receiving channel 18 of the insert 17 fixed in the glass 15. Two sampler options are then possible: selectionVuh samples in two places or selecting two samples from different depths.

When sampling soil or soil in two places, the indentation of the housing 1 is stopped when the amount of filling with soil or soil of the first receiving channel 18 is sufficient. Then the locking element 21 is removed from the recess 19 for fixing in the sampling position, made on the insert 17. The insert 17 is rotated around the axis 9 of the housing 1 and combine the empty receiving channel 18 with the bottom hole 14 in the glass 15. In this case, the receiving channel filled with the first breakdown 18 does not communicate with the bottom hole 14 in the glass 15. The insert 17 is fixed in the glass 15 with a locking element 21, which enters the recess 19 for fixing in the sampling position, made on the insert 17. The sampler for handles 3 is removed from the soil or soil and installed by selecting the next place the second sample. Press the sampler into the soil or ground. The indentation of the housing 1 is stopped when the amount of soil or soil filling of the second receiving channel 18 is sufficient. After that, the locking element 21 is removed from the recess 19 for fixing in the sampling position, made on the insert 17. The insert 17 is rotated around the axis 9 of the housing 1 and set to the transport position of the sample, in which the receiving channels 18 filled with the samples do not communicate with the bottom hole 14 in beaker 15. The insert 17 is fixed in the beaker 15 with a locking element 21, which enters the recess 20 for fixing in the transport position of the sample (Fig. 3), made on the insert 17. The sampler for handles 3 is removed from the soil or soil. The fastener 16 is removed and the beaker 15 is released. By the handle 22 on the insert 17 in which the samples are located, the beaker 15 is removed from the cavity 2 of the housing 1. The selected samples are taken from the receiving channels 18 and sent for analysis to the laboratory. The glass 15 with the insert 17 is installed in the cavity 2 of the housing 1 and fixed with a fastener 16. The sampler is ready for further operation.

When taking two samples of soil or soil from different depths, the indentation of the housing 1 is stopped when the amount of soil or soil filling of the first receiving channel 18 is sufficient. Then the locking element 21 is removed from the recess 19 for fixing in the sampling position, made on the insert 17. The insert 17 is rotated around the axis 9 of the housing 1 and combine the empty receiving channel 18 with the bottom hole 14 in the glass 15. In this case, the receiving channel filled with the first breakdown 18 does not communicate with the bottom hole 14 in the glass 15. The insert 17 is fixed in the glass 15 with a locking element 21, which enters the recess 19 for fixing in the sampling position, made on the insert 17. Resume the sampler is pressed by the handles 3 into the soil or soil t for the second sample. The indentation of the housing 1 is stopped when the amount of soil or soil filling of the second receiving channel 18 is sufficient. After that, the locking element 21 is removed from the recess 19 for fixing in the sampling position, made on the insert 17. The insert 17 is rotated around the axis 9 of the housing 1 and set to the transport position of the sample, in which the receiving channels 18 filled with the samples do not communicate with the bottom hole 14 in beaker 15. The insert 17 is fixed in the beaker 15 with a locking element 21, which enters the recess 20 for fixing in the transport position of the sample (Fig. 3), made on the insert 17. The sampler for handles 3 is removed from the soil or soil. The fastener 16 is removed and the beaker 15 is released. By the handle 22 on the insert 17, in which the selected samples are located, the beaker 15 is removed from the cavity 2 of the housing 1. The samples taken from different depths are taken from the receiving channels 18 and sent for analysis to the laboratory. The glass 15 with the insert 17 is installed in the cavity 2 of the housing 1 and fixed with a fastener 16. The sampler is ready for further operation.

The utility model allowed us to obtain a technical result, namely, it provided sampling of loose soils and soils in several places or several samples of loose soils and soils from different depths for one installation of the sampler.

Claims (1)

A soil and soil sampler containing a vertically arranged round cross-sectional body with a through cavity, handles are mounted on the top of the body, a cutting edge is made around the cavity at the bottom of the cavity, characterized in that the intake hole is made in the form of a truncated oblique circular cone, the center of the lower base the cone coincides with the axis of the housing, the center of the upper base of the cone coincides with the axis of the bore, the axis of which is parallel to the axis of the housing, the distance L between the axis of the housing and the axis of the passage the hole is larger than the radius R of the passage hole, the passage hole communicates with the bottom hole of the glass installed in the body cavity, the glass is fixed with a fastening element in the body, the insert with two or more receiving channels is mounted rotatably around the axis of the body, recesses are made on the insert for fixing in the sampling position and the recess for fixing in the transportation position of the sample by the locking element of the receiving channels relative to the bottom hole in the glass, the insert is made oyatka.

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