KR101181348B1 - A vertical type soil sampler - Google Patents

Abstract

PURPOSE: A vertical soil sampler is provided to accurately and effectively analyze various data about the physical and chemical properties and structures of soil by sampling soil samples in original structures of the soil without distortion because the soil samples are not compressed and twisted. CONSTITUTION: A vertical soil sampler comprises a hollow outer tube, a hollow inner tube(100), and hollow soil sampling tube. The outer tube comprises a rotary blade(210) formed in the outer circumference thereof. The inner tube is located inside the outer tube and is connected to the outer tube by bearings(110). The inner tube receives only vertical force of the outer tube because the inner tube is not rotated even through the outer tube rotates. The soil sampling tube is inserted inside the inner tube and collects the soil. The soil sampling tube is longer than the inner tube and has a through-hole for fitting a bar at the top thereof so that the soil sampling pipe can be removed from the inner tube.

Description

A vertical type soil sampler

The present invention relates to a vertical soil sampler.

In general, the process of sampling the sedimentary layer while forming boreholes in the sedimentary layer must be performed in order to determine the optimal conditions necessary for the design of all civil engineering works. Sampling processes have been indispensable to obtain data.

In this sampling process, as the pipe-type collector, which is hit or transmitted with the power means, is introduced into the strata, the strata as deep as the intruder is filled. It is pulled out to the ground to check the strata of the sample from the outside.

"Soil sample collector" of Korean Patent Application No. 10-2006-0062607 discloses a tubular collector received a conventional blow, Figure 1 shows such a soil sampler.

In the case of the soil sampler due to the blow, the soil is compressed by the instantaneous blow and the compressed soil sample is collected. Therefore, there is a problem in analyzing the physicochemical characteristics and structure of the strata.

In addition, Japanese Patent Application No. 2002-129117, "Soil Sample Collection Method", discloses a tubular sampler receiving a rotational force, and FIG. 2 shows a soil sampler by such rotational force.

The soil sampler by the rotational force also had the phenomenon that the soil is twisted and distorted by the rotational force, which causes a problem in analyzing the exact physicochemical properties and structure of the strata.

An object of the present invention is to prevent soil distortion due to compression, torsion, etc. of the collected sample of the soil sampler by the impact or rotational force as described above, and to collect the exact structure of the soil as it is without change.

Vertical soil collector according to the present invention is a hollow outer tube including a rotary blade formed on the outer peripheral surface; It is located inside the outer tube is connected by a bearing, including a hollow inner tube to which only the vertical force of the outer tube is transmitted while rotating without rotating the outer tube, characterized in that the soil is collected from the inner tube do.

As another embodiment according to the present invention, the vertical soil extractor comprises a hollow outer tube including a rotary blade formed on the outer peripheral surface; A hollow inner tube located inside the outer tube and connected to the outer tube by a bearing so that only the vertical force of the outer tube is transmitted while the outer tube rotates without rotation; And inserted into the inner tube, characterized in that it comprises a hollow soil harvesting pipe for collecting the soil.

In addition, according to the present invention, the soil collecting pipe is longer than the inner pipe, the top of the soil collecting pipe is characterized in that the through-hole can be inserted to the rod to remove the soil collecting pipe from the inner pipe. do.

In addition, according to the present invention, the bottom surface of the outer tube is characterized in that the excavation blade is included.

In addition, according to the present invention, the lower end surface of the inner tube is characterized in that the excavation blade is included.

In addition, according to the present invention, the soil collecting pipe has a dividing line, it is characterized in that the soil can be separated in half.

Vertical soil collector according to the present invention is a hollow outer tube including a rotary blade formed on the outer peripheral surface; An inner tube positioned inside the outer tube and connected to the outer tube by a bearing so that only the vertical force of the outer tube is transmitted while the outer tube rotates without rotation; A hollow soil harvesting pipe inserted into the inner tube and collecting soil; And it characterized in that it comprises a support frame for supporting the outer tube.

In addition, according to the present invention, the outer tube is characterized in that the rotary blade is formed at the lower end, the upper end portion is rotatably connected in the longitudinal direction while being rotated by the guide portion installed in the support frame.

In addition, according to the invention, the outer tube is characterized in that rotatable by being connected by a rotary motor.

Soil sampling method according to the present invention, the soil collecting method, the excavation step of digging the soil by rotating a hollow outer tube including a rotary blade formed on the outer peripheral surface; A soil collection step located in the outer tube and connected by a bearing, wherein soil is collected in the hollow inner tube in which only the vertical force of the outer tube is transmitted while the outer tube rotates without rotation; And a collecting step of collecting the soil collected by separating the inner tube from the outer tube.

As another embodiment according to the present invention, a soil collecting method by a vertical soil extractor, the excavation step of digging the soil by rotating a hollow outer tube including a rotary blade formed on the outer peripheral surface; A vertical conveying step located in the outer tube and connected by a bearing so that soil is vertically conveyed to the hollow inner tube to which only the vertical force of the outer tube is transmitted while the outer tube rotates without rotation; And a soil harvesting step of inserting and coupling the inside of the inner tube, the soil being vertically transported along the inner tube to a hollow soil collecting tube for collecting the soil.

In addition, according to the invention, the soil collection pipe is separated from the inner tube, characterized in that it comprises a collection step of collecting the soil collected by dividing the soil collection pipe.

The vertical soil sample collector according to the present invention is effective in accurately analyzing various data such as physicochemical characteristics and structure of the soil because the soil sample is not compressed or twisted, so that the soil sample can be collected without any distortion. to be.

Figure 1 shows a schematic diagram of a conventional hitting soil sampler.
Figure 2 shows a schematic diagram of a conventional rotary vertical soil sampler.
3 is a schematic view of a non-rotating inner tube according to the present invention.
Figure 4 shows the bottom surface of the outer tube according to the present invention.
5 shows an inner tube as another embodiment according to the present invention.
6 is a schematic diagram of a vertical soil extractor according to the present invention.
7 is a flowchart illustrating a soil collecting method by a vertical soil collector according to the present invention.
8 is a flowchart showing a soil collecting method by a vertical soil extractor as still another embodiment according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that the same components or parts among the drawings denote the same reference numerals whenever possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the subject matter of the present invention.

Figure 1 shows a conventional blow vertical soil sampler, Figure 2 shows a conventional rotary vertical soil sampler.

3 is a schematic view of a non-rotating inner tube according to the present invention.

As shown in FIG. 3, the non-rotating inner tube 100 according to the present invention is located inside the hollow outer tube 200, and the outer wall of the inner tube 100 and the hollow outer tube by the bearing 110. Since the inner walls of the 200 are connected to each other, even though the outer tube 200 rotates, the inner tube 100 only rotates by absorbing the rotational force of the outer tube 200 of the bearing 110, and the inner tube 100 is free of rotation. Done.

Rotating blade 210 is inclined on the outer circumferential surface of the outer tube 200, the soil is excavated along the rotary blade 210 while the outer tube 200 is rotated, the outer tube 200 is excavated into the soil to be transported do.

The excavated soil is excavated while being transported upward along the rotary blade 210 formed on the outer circumferential surface of the outer tube 200.

The outer tube 200 receives a rotational force and a vertical force transferred into the soil, and the inner tube 100 connected to the bearing 110 inside the hollow outer tube 200 rotates only the vertical force of the outer tube 200. The transfer is to be vertically transferred into the soil at the same time as the outer tube (200).

The inner tube 100 to be vertically conveyed has a hollow shape, and the soil is collected in the hollow of the inner tube 100, and is collected by transporting vertically downward by gradual rotation of the outer tube 200 instead of instantaneous blow. So the soil collected in the inner tube 100 is not subjected to compressive force.

In addition, since only the outer tube 200 rotates, and the inner tube 100 is in a non-rotating state, a phenomenon in which the collected soil is twisted does not occur.

Since the outer tube 200 and the inner tube 100 are connected by the bearing 110, the inner circumferential surface of the outer tube 200 and the outer circumferential surface of the inner tube 100 are spaced apart by the interval of the bearing 110, and are spaced apart. When the soil is introduced into the space between the outer tube 200 and the inner tube 100 is generated friction between the space between the space between the inner circumferential surface of the outer tube 200 and the outer circumferential surface of the inner tube 100 In order to prevent, the protruding ring 230 is provided on the inner peripheral surface near the lower end of the outer tube (200).

The protruding ring 230 may be coupled to the outer tube 200, but the protruding ring 230 may be installed on an outer circumferential surface near the lower end of the inner tube.

Figure 4 shows the bottom surface of the outer tube according to the present invention.

As shown in Figure 4, the bottom surface of the outer tube 200 according to the present invention is formed in the wedge shape of the excavation blade 220 toward the vertical downward sharply.

Excavation blade 220 formed on the bottom surface of the outer tube 200 serves to facilitate the transfer into the soil by improving the excavation of the soil when the outer tube 200 is rotated to advance into the soil. do.

5 shows an inner tube as another embodiment according to the present invention.

As shown in Figure 5, the hollow inner tube 100 according to the present invention is configured in a double tube shape, another soil harvesting pipe 300 is inserted therein, the soil in the soil harvesting pipe 300 Will be taken.

Since the hollow inner tube 100 and the soil collecting tube 300 need only be inserted and removed, the hollow inner tube 100 and the inner wall of the hollow inner tube 100 and the outer wall of the soil collecting tube 300 are tightly inserted when inserted. do.

Soil collected from the hollow soil collection pipe 300 is the rotational force of the outer tube 200 is absorbed from the bearing 110 connected to the inner tube 100, only the vertical force of the outer tube 200 is the inner tube 100 It is transmitted to, and the hollow soil harvesting pipe 300 in close contact with the inner tube 100 is also transmitted as it is the vertical force of the outer tube 200 as it is possible to collect the soil without being subjected to torsion or compression.

Soil harvesting pipe 300 has a longer length than the inner pipe 100, the top of the soil harvesting pipe 300, that is, the soil harvesting pipe 300 from the inner pipe 100 to the protruding portion longer than the inner pipe (100) ), A through hole 310 may be inserted to remove the rod 320 to facilitate removal.

After the soil is collected in the soil collecting pipe 300, the rod is inserted into the through hole 310 in order to remove the soil collecting pipe 300 from the inner tube 100, and the force is applied upwards. Pipe 300 is removed from the inner pipe (100).

In addition, the soil harvesting pipe 300 has a split line 330 is formed in the longitudinal direction, the soil harvesting pipe 300 can be split in half, after the soil harvesting pipe 300 is removed from the inner pipe 100 When divided into halves along the dividing line 330 of the soil collection pipe 300, the collected soil is immediately exposed to the outside, so that soil analysis is easy.

The lower surface of the inner tube 100 also includes a wedge-shaped excavator blade 220, such as the excavation blade 220 of the lower surface of the outer tube 200, to facilitate vertical transfer of the inner tube 100 into the soil. You can also

6 is a schematic diagram of a vertical soil extractor according to the present invention.

As shown in Figure 6, the vertical soil extractor 1 according to the present invention is located inside the hollow outer tube 200, outer tube 200, including a rotary blade 210 formed on the outer peripheral surface, the outer It is connected by the tube 200 and the bearing, and is inserted into the inner tube 100, the inner tube 100, which is transmitted only the vertical force of the outer tube 200 while rotating without rotating the outer tube 200, Hollow soil harvesting pipe 300 for collecting the soil, and includes a support frame 400 for supporting the outer pipe (200).

The support frame 400 is provided with a level gauge (not shown) to help adjust the horizontal when the support frame 400 is installed.

Soil may be collected by the hollow soil collecting tube 300, as described in Figure 3, without the hollow soil collecting tube 300, the soil may be collected directly from the inner tube (100).

The outer tube 200 has a rotary blade 210 is formed at the lower end to help excavation of the soil, the upper end is coupled to the guide portion 410 installed on the support frame 400 while rotating along the guide portion 410 length The outer tube 200 is transferred along the guide part 410 when the soil is excavated in a direction.

The outer tube 200 is connected to the rotating motor 500 coupled to the support frame 400 to be rotatable, the rotary motor 500 may be connected to each other in the form of a belt and pulley to the outer tube 200, sprockets And may be connected to each other in the form of a chain.

7 is a flowchart illustrating a soil collecting method by a vertical soil collector according to the present invention.

As shown in Figure 7, the soil collecting method by a vertical soil collector according to the present invention is an excavation step of excavating the soil by rotating a hollow outer tube 200 including a rotary blade 210 formed on the outer peripheral surface ( S100, the inside of the outer tube 200 is connected by the bearing 110, even if the outer tube 200 rotates while the inner tube 100 of the hollow only the vertical force of the outer tube 200 is transmitted without rotation Soil is collected in the soil collecting step (S200), and the inner tube 100 is characterized in that it comprises a collection step (S300) for collecting the soil collected by separating from the outer tube (200).

This, as shown in Figure 3, represents the soil sampling method of the method of directly collecting the soil in the inner tube (100),

When the inner pipe 100 described in FIG. 5 is a double pipe, and the hollow soil collecting pipe 300 is separately placed inside the inner pipe 100, the soil by the vertical soil extractor as another embodiment as follows. Sampling method is possible.

8 is a flowchart showing a soil collecting method by a vertical soil extractor as still another embodiment according to the present invention.

As shown in FIG. 8, in another embodiment of the present invention, a soil collecting method using a vertical soil extractor rotates a hollow outer tube 200 including a rotary blade 210 formed on an outer circumferential surface to excavate soil. Excavation step (S100) to be located inside the outer tube 200 is connected by the bearing 110, even if the outer tube 200 rotates while the inside of the hollow only the vertical force of the outer tube 200 is transmitted without rotation Soil is vertically transferred to the pipe (100) vertical transfer step (S150), and coupled to the inside of the inner pipe 100, along the inner pipe 100 to the hollow soil harvesting pipe 300 for collecting the soil It includes a soil harvesting step (S200) is the vertical transported soil is collected.

In addition, the soil collected in the soil harvesting tube 300 in the soil harvesting step is separated from the soil collection pipe 300 from the inner tube 100, the dividing line 330 formed along the longitudinal direction of the soil harvesting pipe 300 It includes a collection step (S300) for collecting the soil collected by dividing along).

While the invention has been shown and described in connection with specific embodiments thereof, it is conventional in the art that various changes, modifications and variations are possible without departing from the spirit and scope of the invention as indicated by the appended claims. Anyone who knows the knowledge of is easy to know.

1: vertical soil collector 100: inner tube
110: bearing 200: outer tube
210: rotary blade 220: excavator blade
230: protrusion ring 300: soil collection pipe
310: through hole 320: rod
330: dividing line 400: support frame
410: guide portion 500: rotation motor
S100: Excavation step S150: Vertical feed step
S200: Soil Collection Step S300: Collection Step

Claims (12)

delete A hollow outer tube including a rotary blade formed on an outer circumferential surface thereof;
Located inside the outer tube, connected by the outer tube and the bearing,
A hollow inner tube to which only the vertical force of the outer tube is transmitted while the outer tube rotates without rotation; And
Is inserted into the inner tube, and includes a hollow soil collecting pipe for collecting the soil,
The soil collecting pipe has a longer length than the inner pipe, and the top of the soil collecting pipe is a vertical soil harvester, characterized in that the through-hole is formed to be inserted to remove the soil collecting pipe from the inner pipe. delete The method of claim 2,
Vertical soil harvester, characterized in that the excavation blade is included on the bottom surface of the outer tube The method of claim 4, wherein
Vertical soil harvester, characterized in that the excavation blade is included on the bottom surface of the inner tube. The method of claim 5,
The soil harvesting pipe has a split line is a vertical soil harvester, characterized in that the soil can be separated in half. A hollow outer tube including a rotary blade formed on an outer circumferential surface thereof;
Located inside the outer tube, connected by the outer tube and the bearing,
An inner tube in which only the vertical force of the outer tube is transmitted while the outer tube rotates without rotation;
A hollow soil harvesting pipe inserted into the inner tube and collecting soil; And
And a support frame for supporting the outer tube.
The method of claim 7, wherein
The outer tube has a rotary blade is formed at the lower end, the vertical soil collector, characterized in that connected to be transported in the longitudinal direction by the guide portion installed in the support frame at the upper end.
9. The method of claim 8,
The outer tube is a vertical soil collector, characterized in that rotatable connected by a rotary motor. delete delete delete

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