KR102057120B1 - Soil sampling apparatus and sampling method thereof - Google Patents

Abstract

Soil (1) Soil sampling device (A) of the present invention for taking a sample of the cut surface (10) is a pillar portion 100 is formed by coupling a plurality of single pillars 110; A handle part 200 formed in front of the pillar part 100; Is coupled to the rear of the pillar portion 100, a plurality of collecting portions 300 formed at intervals along the longitudinal direction of the pillar portion 100; including, but the collecting portion 300 is in the pillar portion 100 Coupling portion 310 of the 'b' structure to be coupled; And a collecting bin 320 coupled to the coupling unit 310, wherein the collecting bin 320 is a box-type structure in which a rear surface 321 is open, and recovers the soil collected in the collecting bin 320. 322 is opened and closed.
The present invention relates to a soil sampling device (A) for taking a sample of the soil to be inserted toward the cut surface 10 from the side of the cut surface (10).
As shown in FIG. 2, the sampling device A according to the present invention has an advantage in that a plurality of samples can be simultaneously taken using a plurality of sampling tanks 320 installed at intervals along the vertical direction.

Description

SOIL SAMPLING APPARATUS AND SAMPLING METHOD THEREOF

The present invention is a soil sampling device and a soil sampling method using the same.

In order to understand the particle size, particle distribution ratio and characteristics of the soil, it is necessary to take a sample according to the soil depth and to understand the physical and chemical properties of the sample.

In order to collect soil samples, conventionally, soil samples (samples) were collected by using a rod-type rod, a soil auger method, or soil samples (samples) by coring soils. However, it is difficult to secure a sample at a desired position, and there has been a problem in that the sample is stirred with a sample in another layer.

In order to solve the above problems, new sampling devices have been developed, but most of them are tube-type rods. As a result, it is difficult to secure a sample at a desired location, and a problem of continuously agitating with a sample of another layer occurs during sampling. Doing.

The present invention is designed to solve the above problems, and solves the problem that the sample is agitated during sampling, as well as soil sampling device that can collect a plurality of samples by one installation of the soil sampling device. And propose a soil sampling method using the same.

Soil (1) Soil sampling device (A) of the present invention for taking a sample of the cut surface (10) is a pillar portion 100 is formed by coupling a plurality of single columns (110); A handle part 200 formed in front of the pillar part 100; It is coupled to the rear of the pillar portion 100, a plurality of collecting portions 300 formed at intervals along the longitudinal direction of the pillar portion 100; including, The collecting portion 300 is the pillar portion Coupling portion 310 of the 'b' structure coupled to (100); And a collecting bin 320 coupled to the coupling unit 310, wherein the collecting bin 320 is a box-type structure in which a rear surface 321 is opened to recover the collected soil in the collecting bin 320. For this purpose, the upper surface 322 is opened and closed.

The coupling portion 310 is a standing portion 311 which is bolted to the pillar portion 100; And a protrusion 312 having a plate structure protruding rearward from the bottom surface of the standing portion 311, wherein the protrusion 312 is formed to have a width wider than that of the standing portion 311.

A bolt hole 312a is formed in the protrusion 312 along the up and down direction, and a bolt 323a inserted into the bolt hole 312a is protruded downward on the lower surface 323 of the collecting container 320. It is preferable.

In order to open and close the upper surface 322 in a sliding structure, one side 325 and the other side of the upper surface 326 of the collecting container 320 is fitted so that one side and the other edge of the upper surface 322 is fitted. It is preferable that (J) is each formed.

After the upper surface 322 is coupled to the collecting container 320 at the rear end of the fitting portion J, a protrusion J1 supporting the upper rear region of the upper surface 322 is preferably formed.

The protrusion J1 is elastically driven toward the outside while the upper surface 322 is slid along the fitting portion J, and is preferably restored to elastic driving when the sliding coupling is completed.

Soil sampling method using a soil sampling device (A) according to an embodiment of the present invention is a coupling step of coupling the soil sample collection device (A); A sampling step of inserting the soil sample collection device (A) into the cut surface (10) such that the rear surface (321) of the collecting portion (300) faces the cut surface (10); A recovery step of recovering the soil sample collection device (A) from the cut surface (10); An upper surface removing step of removing the upper surface 322 of the collecting container 320; And a sample recovery step of recovering the sample collected in the collection container 320.

In order to facilitate the upper surface removing step, a through hole 322a is formed at a rear edge of the upper surface 322, and the upper surface 322 is formed by using a hook 400 coupled to the through hole 322a. It is desirable to remove.

Soil sampling device of the present invention has the advantage that it is possible to recover a plurality of samples in a single installation.

In addition, the soil sampling device of the present invention has the advantage that can be taken undisturbed sample because it is inserted into the soil from the side of the cut surface.

1 is a view showing that the soil sample collection device according to an embodiment of the present invention is inserted into the cut surface.
Figure 2 is a side view of the soil sample collection device according to an embodiment of the present invention.
Figure 3 is a view showing that the coupling portion and the collecting container coupled to the pillar portion according to an embodiment of the present invention.
Figure 4 is a perspective view of the collecting container according to an embodiment of the present invention.
5 is a perspective view showing a coupling portion formed of a standing portion and a protrusion according to an embodiment of the present invention.
Figure 6 is a view showing that the coupling part and the coupling part by the bolt coupled to the lower surface of the collecting container according to an embodiment of the present invention.
Figure 7 is a view showing that the fitting portion is formed on one side and the other side upper portion of the collecting container according to an embodiment of the present invention.
Figure 8 is a perspective view of the protrusion formed on the rear end of the fitting portion according to an embodiment of the present invention.
9 is a view showing that the upper surface is sliding in the fitting portion according to an embodiment of the present invention, the protrusion is opened by the elastic drive toward the outside.
10 is a view showing that the upper surface is coupled to the fitting portion according to an embodiment of the present invention, the protrusion is restored to the elastic drive.
11 is a view showing a coupling structure of a single column according to an embodiment of the present invention.
12 is a view showing that the hook is coupled to the through-hole formed in the upper surface in accordance with an embodiment of the present invention the upper surface is sliding drive.

An embodiment of a soil sampling device and a soil sampling method using the same according to the present invention will be described in detail with reference to the accompanying drawings. In the following description with reference to the accompanying drawings, the same or corresponding components are the same reference numerals. And duplicate description thereof will be omitted.

In addition, terms such as first and second used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as the first and second components. no.

In addition, the coupling does not only mean a case where the physical contact is directly between the components in the contact relationship between the components, other components are interposed between the components, the components in the other components Use it as a comprehensive concept until each contact.

Hereinafter, a soil sampling apparatus and a soil sampling method using the same will be described in detail with reference to the accompanying drawings.

Soil (1) Soil sampling device (A) of the present invention for taking a sample of the cut surface (10) is a pillar portion 100 is formed by coupling a plurality of single columns (110); A handle part 200 formed in front of the pillar part 100; It is coupled to the rear of the pillar portion 100, a plurality of collecting portions 300 formed at intervals along the longitudinal direction of the pillar portion 100; including, but the collecting portion 300 to the pillar portion 100 Coupling portion 310 of the 'b' structure to be coupled; And a collecting bin 320 coupled to the coupling unit 310, wherein the collecting bin 320 is a box-type structure in which a rear surface 321 is opened, and to recover the soil collected in the collecting bin 320. 322 is opened and closed.

The present invention relates to a soil sampling device (A) that is inserted toward the cut surface 10 from the side of the cut surface 10 to collect a sample of the soil.

As shown in FIG. 2, the sampling device A according to the present invention has an advantage in that a plurality of samples can be simultaneously taken using a plurality of sampling tanks 320 installed at intervals along the vertical direction.

The single pillar 110 is coupled to the structure in which a plurality of single pillars 110 are coupled along the up and down direction, the upper portion of the single pillar 110 installed on the lower side of the pair of single pillars coupled to the neighbor is coupled to the upper side Is coupled to the structure is inserted into the lower portion of another single pillar 110 to be combined, when coupled, the single pillar 110 is formed so as to protrude toward the side in the upper region of the single column 110 is installed on the lower side 110 Fitting into the hole installed in the lower area of the

Coupling portion 310 is a standing portion 311 which is bolted to the pillar portion 100; And a protrusion 312 having a plate structure protruding rearward from the bottom surface of the standing portion 311, wherein the protrusion 312 is formed to have a width wider than that of the standing portion 311.

A bolt hole 312a is formed in the protruding portion 312 along the vertical direction, and a bolt 323a inserted into the bolt hole 312a is protruded downward from the lower surface 323 of the collecting container 320. .

As illustrated in FIG. 5, the coupling part 310 includes a standing part 311 bolted to the pillar part 100 and a protrusion part 312 protruding toward the rear from the bottom surface of the standing part 311.

At this time, the protrusion 312 is formed longer than the width of the standing portion 311 to support the lower surface of the collecting container 320.

The protrusion 312 and the collection container 320 are coupled to each other in a structure in which the bolt 323a is inserted into the bolt hole 312a formed in the protrusion 312 as shown in FIG. 6.

In order to open and close the upper surface 322 by the sliding structure, one side 325 and the other side 326 of the upper side 326 of the collecting container 320, the fitting portion (J) so that one side and the other edge of the upper surface 322 is fitted. It is preferable that each is formed.

At the rear end of the fitting portion J, it is preferable that after the upper surface 322 is coupled to the collecting container 320, a protrusion J1 supporting the upper region of the rear surface of the upper surface 322 is formed.

The protrusion J1 is elastically driven toward the outside while the upper surface 322 is slid along the fitting portion J, and is preferably restored to elastic driving when the sliding coupling is completed.

As shown in FIG. 7, in order to open and close the upper surface 322 in a sliding structure, a fitting portion J is formed inside one side 325 and the other side 326 of the collecting container 320.

Also, when the upper surface 322 is fitted to the fitting portion J, the protrusion J1 coupled to the upper side of the rear portion of the fitting portion J supports the rear surface of the upper surface 322 so that the upper surface 322 is separated backward. Prevent it.

Soil sampling method using a soil sampling device (A) according to an embodiment of the present invention is a coupling step of coupling a soil sample collection device (A); A sampling step of inserting the soil sampling device A into the cut surface 10 such that the rear surface 321 of the collecting part 300 faces the cut surface 10; A recovery step of recovering the soil sampling device (A) from the cut surface (10); An upper surface removing step of removing the upper surface 322 of the collecting container 320; It includes; a sample collection step of recovering the sample collected in the collecting container 320.

In order to facilitate the top surface removing step, a through hole 322a is formed at the rear edge of the top surface 322, and it is preferable to remove the top surface 322 by using the hook 400 coupled to the through hole 322a. Do.

In the present invention, in order to take a sample of the soil, the soil sampling device (A) is inserted toward the cut surface 10 from the side of the cut surface (10).

Therefore, it is possible to prevent the soil agitation by inserting the harvesting device.

In addition, there is an advantage that a plurality of samples can be collected by installing a single sampling device (A).

In addition, the sample collection device (A) of the present invention can be used in places where the cut surface 10 is not constant by varying the installation position of the plurality of collecting containers 320 along the front and rear directions.

In one embodiment, if there is an inclination on the cut surface, the plurality of collecting barrels 320 may be coupled to the pillar portion 100 according to the degree of inclination.

A: soil sampling device J: fitting
J1: protrusion 1: soil
10: cut surface 100: column
110: single column 200: handle portion
300: collecting unit 310: coupling unit
311: standing portion 312: protrusion
312a: bolt hole 320: collecting container
321: rear 322: upper
322a: through hole 323: lower surface
323a: Bolt 325: One side
326: other side 400: hook

Claims (8)

As a sampling device (A) for collecting a sample of the soil (1) cut surface (10),
Pillar portion (100) formed by coupling a plurality of single pillars (110);
A handle part 200 formed in front of the pillar part 100;
Is coupled to the rear of the pillar portion 100, a plurality of collecting portions 300 formed at intervals along the longitudinal direction of the pillar portion 100; includes;
The collecting unit 300 is
A coupling portion 310 having a 'b' structure coupled to the pillar portion 100;
Includes; the collecting container 320 is coupled to the coupling portion 310,
The collecting container 320 is a box-type structure in which the rear surface 321 is opened, and the upper surface 322 is opened and closed to recover the soil sample collected in the collecting container 320.
The coupling portion 310
A standing part 311 that is bolted to the pillar part 100;
And a protrusion 312 having a plate structure protruding toward the rear from the bottom of the standing portion 311.
The protrusion 312 is formed to be wider than the width of the standing portion 311,
The protrusion 312 is formed with a bolt hole 312a in the vertical direction,
The lower surface 323 of the collecting container 320 is formed with a bolt 323a inserted into the bolt hole 312a protruding downward,
In order to open and close the upper surface 322 in a sliding structure,
One side 325 and the other side 326 of the upper side of the collecting container 320 inside the fitting portion (J) is formed so that one side and the other edge portion of the upper surface 322 is fitted, respectively,
At the rear end of the fitting portion J
Soil sampling device characterized in that the protrusion (J1) for supporting the upper region of the rear surface of the upper surface (322) is formed after the upper surface (322) is coupled to the collecting container (320).
delete delete delete delete The method of claim 1,
The protrusion J1 is
While the upper surface 322 is slid along the fitting portion (J) to the outer side toward the elastic drive,
Soil sampling device characterized in that restored to the elastic drive when the sliding coupling is completed.
A soil sampling method using the soil sampling device (A) of claim 1 or 6,
Coupling step of coupling the soil sample collection device (A);
A sampling step of inserting the soil sample collection device (A) into the cut surface (10) such that the rear surface (321) of the collecting part (300) faces the cut surface (10);
A recovery step of recovering the soil sample collection device (A) from the cut surface (10);
An upper surface removing step of removing the upper surface 322 of the collecting container 320;
Soil sampling method comprising a; sample collection step of recovering the sample collected in the collecting container 320.
The method of claim 7, wherein
In order to facilitate the upper surface removing step,
The through hole 322a is formed at the rear edge of the upper surface 322,
Soil sampling method characterized in that to remove the upper surface (322) by using a hook 400 coupled to the through hole (322a).

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