JP3410400B2 - How to collect underground soil samples - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for collecting soil samples, and more specifically, it collects soil samples at desired plural points below the surface of the earth from arbitrary places on the surface of the earth without excavation in the vertical direction. Regarding the method.

[0002]

2. Description of the Related Art In recent years, awareness of monitoring and protecting pollution from harmful substances in soil, and awareness of regenerating and preserving soil that has already been contaminated have expanded. Technology is becoming more important. Among these technologies, the soil sampling technology at a desired point in the ground cannot be implemented depending on the location with the conventional technology, or the ratio of the cost related to soil sampling to the survey cost becomes enormous. Since it had problems such as this, it was a noteworthy part.

That is, in the conventional method, the vertical boring core was used to sample the sample from directly above the survey point. However, the actual situation at such a problem point is close to or immediately below the operating factory. There were cases in which it was necessary to practically abandon the investigation because it is a place that affects a factory that handles precision equipment that dislikes dust or vibration, or where boring of the floor foundation is difficult. further,
In order to accurately grasp the pollution situation, a lot of vertical boring was required, and a costly survey was required.

[0004]

SUMMARY OF THE INVENTION An object of the present invention is to solve the drawbacks of the prior art, that is, a place on the ground surface horizontally separated from directly above the survey point without excavation from directly above the survey point. The purpose is to collect a soil sample from the site. Therefore, the present invention also has an object to easily collect a soil sample directly below the ground even when there is an obstacle on the surface.

A further object of the present invention is to collect soil samples at multiple points in the horizontal and vertical directions in the ground from one location on the surface of the earth. Therefore, even if there are obstacles at various points on the surface of the earth, it is also an object to collect soil samples at a large number of points from one or a few surface work sites without being affected by the obstacles.

Still another object of the present invention is to easily collect a soil sample at a desired point in the ground to obtain multipoint data in the 2D plane or 3D space in the ground concerning pollutants and concentrations. Provided is a method for collecting an underground soil sample, which is characterized by acquiring and comprehensively grasping the distribution status of soil pollution.

[0007]

The method of the present invention is a subsurface method.
Excavate soil samples at desired multiple points in the vertical direction.
Without sampling from the surface
High-pressure water is sprayed from the tip of the drill head equipped with a ringing mechanism.
Underground to penetrate into the ground horizontally or inclined while
A method for collecting soil samples, which is a cylindrical cylinder made of metal
-Tilt the tip of the
Stack the cutter plates through the
And the tip of the cylinder
Is equipped with an opening that functions as a sampling port.
The cylinder, the inclined part and the
Just match the sampling mouth inside the cylinder
-Shaped piston is arranged so that it can move back and forth in the cylinder
A drill head that is used to penetrate the drill head
Hit and rotate the drill head to go straight into the ground
It is possible to move the head by controlling its rotation.
Controlling the direction and along the inclination angle of the inclined portion,
The feature is that the direction can be changed. Specifically
Is equipped with a piston that can move back and forth in the cylinder.
Water that penetrates to the rear of the cylinder by the piston.
The sampling port by the high water pressure pressurized through the channel
Closed and the drill head penetrates into the soil for sampling
After reaching the point, the pressure of the high pressure water of the drill head
Release it and proceed with penetration for a while to block the sampling port.
The piston that was released retreats in the cylinder due to soil pressure
At the same time, the soil enters the cylinder and collects the soil sample.
It is characterized by taking. And then the drill head
It is equipped with a transmitter and is supported by the signal transmitted from the transmitter.
With the drill head while detecting the sampling position,
Contaminants by collecting a soil sample at the desired point in
Two-dimensional plane or three-dimensional sky in the ground concerning quality and concentration
Acquire multipoint data in the area and grasp the distribution status of soil pollution
Preferably.

In the method of the present invention, the penetration force in the traveling direction of the drill head is given through the rod by the hydraulic device, and by rotating the head, it is possible to more easily go straight through the muddy ground with the jet water. Since the tip of the drill head has a tapered shape, it is possible to easily control the traveling direction by controlling the rotation.If the rotation is stopped and the penetration is continued, the direction of the taper can be adjusted according to the inclination angle of the taper. Can be converted. The penetration position of the head can be detected by a signal from a transmitter mounted on the head and the penetration distance and penetration angle of the rod. Therefore, the information can be fed back to control the progress of the drill head.

When reaching the sampling point, the pressure of the high pressure water of the drill head is released, and when the penetration is promoted for a while, the piston in the cylinder blocking the sampling port at the tip of the drill head is pushed backwards by the soil pressure. Then, it retreats in the cylinder until it hits the bottom surface of the rear end of the cylinder, and at the same time soil enters the cylinder and fills the inside of the cylinder.
After that, the rod connected to the cylinder is pulled back to the working point on the surface of the earth, and the collected soil sample is collected. When the collection is completed, the drill head is again penetrated along the same penetration path to reach the original position and proceed to the next planned point. In addition, on the way back or from the beginning, it is also possible to advance the intrusion to the planned point in a completely different direction by the above-described traveling direction control method.

According to the method of the present invention as described above, even if there is an obstacle directly above the desired sampling point, the surface work place which is an appropriate penetration start point is set, and each point is set. It is possible to collect soil samples from. Then, by collecting soil samples at each point in the ground easily by the method of the present invention, multipoint data in the two-dimensional plane or three-dimensional space in the ground regarding pollutants and concentrations is acquired, and soil contamination is comprehensively performed. It is possible to grasp the distribution situation of.

In the drill head of the present invention, the tip of a metal cylindrical cylinder is cut obliquely, for example, at an angle of inclination of about 15 °, and the tip of the metal plate and the tip guide plate of the shape where the opening of the inclined portion is just covered is preferably covered. Is fixed to the cylinder by stacking a cutter plate that has the same shape as the metal plate or is slightly larger. More preferably, the cutter plate is provided with cemented carbide in a necessary portion to prepare for wear due to rotation and propulsion. The tip of the cylinder is open, and the opening functions as a sampling port. The sampling port is blocked due to high water pressure, which is pressurized through a water passage through the rod and the cylinder rear joint by a piston whose shape matches the cylindrical part, inclined part and sampling port part of the cylinder inside the cylinder. Normally, in this state, the drill head is adapted to eject and propel high-pressure water from the water passage that penetrates the piston and the nozzle at its tip. Therefore, the soil does not enter the cylinder at this point.

The high-pressure water for jet propulsion reduces the penetration resistance by mudizing the soil in the direction of propulsion, and in combination with the cutting force of the cutter plate attached to the rotating head and the penetration input by hydraulic pressure, the head is Although it is effective as a means for propelling it into the soil, the pressure may be about 10 to 200 Gkg / cm ² .

After reaching the sampling point, the pressure of the high-pressure water is released and propelled in the ground for a while, and the piston closing the sampling port is retracted due to the soil pressure, and the soil enters the cylinder. However, soil can be taken into the cylinder until the piston hits the bottom surface of the rear end of the cylinder.

The material of the piston is preferably made of metal, but may be made of other material or may have a cavity inside as long as the piston has sufficient strength to perform a desired function and appropriate lubricity with the cylinder. Absent.

Since the tip of the cylinder of the drill head is heavily worn, it is preferable to make it removable so that it can be easily replaced. Further, the rear end portion needs to have a joint structure and be detachable for collecting soil samples, and it is also necessary to provide a connecting and fixing means that can be connected to the rod.

The rod connected to the drill head transmits pressure in the approach direction, rotational force of the head, transmission of water pressure and transportation of water jet, supply of electric power required by a transmitter, etc.
In addition, because it has a role of transmitting signals between the head and the surface work place, it has rigidity in the traveling direction, flexibility to follow the direction freely, and mechanical properties that can withstand the friction of soil particles. It is preferable that the material be resistant to chemical substances in the ground and moisture inside and outside the tube. The rod may be made of a single material or a composite material as long as it has the above functions.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION The method for collecting an underground soil sample of the present invention will be described below in more detail with reference to the embodiments shown in the drawings. However, the dimensions, materials, shapes, relative positions, etc. of the components described in this embodiment are not intended to limit the scope of the present invention thereto, unless there is a specific description, and are merely described. It's just an example. 1 and 2
Is a schematic view for explaining a method of collecting an underground soil sample according to the present invention, FIG. 1 is a vertical sectional view thereof, and FIG. 2 is a plan view thereof. Figure 3
FIG. 4 and FIG. 4 are schematic diagrams illustrating a mechanism for collecting a soil sample of a drill head used in the method of the present invention. 5 and 6 are a sectional view showing details of the structure of the drill head used in the method of the present invention and a sectional view taken along the line AA ′ of the sectional view.

As shown in FIGS. 1 and 2, according to the sampling point (desired point) which is the survey point, the ground obstacle 1 such as an operating factory in which the underground penetration sampling device 2 should be installed. Establish an appropriate surface work area that takes into account.

The underground penetration sampling device 2 is an HDD (Horizonta)
l Directional Drilling) A propulsion device, a drill head 3 having a sampling function, a transmitter (not shown), a rod 6, and the like. Up to the investigation point, the drill head 3 of the method of the present invention functions as a normal drill head,
The rod 6 is propelled through the soil. A high-pressure water pressure is applied in the rod 6, and this water pressure extends into the drill head 3 attached to the tip of the rod 6 and pushes the piston 6 against the tip 12 of the cylinder 10 to inject the sample into the head (sampling port). ) Is closed, and the water in the head tip nozzle (see FIG. 5) is sprayed to muddy the soil in the propelling direction and propel it.

The drill head 3 rotates as it goes straight, and the cutter plate 14 (FIG. 5) provided on the outer surface of the tip guide plate 13 excavates the soil to promote propulsion in combination with the mudification caused by the water flow. To do. Cutter plate 1
Although No. 4 is exposed to severe friction with the soil, it is preferable to take measures against it, although not shown, by overlaying with cemented carbide or the like. When the propulsion direction is completely stopped, the propulsion direction slides in the direction along the taper attached to the drill, so that the direction can be changed by controlling the rotation. The control of the propulsion direction and the propulsion distance is performed by detecting the position by a transmitter (not shown) additionally mounted inside the drill head 3 or behind the drill head 3.

When the drill head 3 reaches the survey point (destination point), the water pressure in the drill head 3 is released and the drill head 3 is temporarily promoted. As shown in FIG. 4, the soil sample enters the head from the sampling port due to the soil pressure. It is promoted and the sample soil is taken in. The head filled with the sample soil is recovered by pulling back the rod 6. Although the standard amount of one sampling is 500 CC, it is possible to collect more than 500 CC by using a long-length sampler. Therefore, it is preferable to design the dimension of the head accordingly. . Since the tip of the head is heavily worn, it is preferable to make the tip end of the cylinder tip 12 removable so that it can be easily replaced, as shown in FIG. Further, since the drill head 3 needs to be strongly and densely connected to the rod and pulled back, it is also preferable to use the joint 11 with a tapered screw as shown in FIG.

As shown in FIG. 1 and FIG. 2, even if there are many survey points planned for the underground survey site, only one surface work place for installing the underground penetration sampling device 2 is required in this example. The drill head 3 can be replaced in its position and the drill head 3 can be penetrated into positions 4 and 5.

As described above, by collecting a sample by the method of the present invention, it is possible to obtain data of a large number of underground survey points in the horizontal and vertical directions from a few surface work sites. That is, it is possible to easily create a three-dimensional map of the pollution situation of the survey site by integrating the data of each underground.

[0024]

According to the method of the present invention, it is possible to collect a soil sample from a location on the surface of the earth horizontally separated from the location directly above the survey point without excavating from the location directly above the survey point. Even if there is an obstacle, it is possible to easily collect the soil sample directly below the obstacle. further,
It is possible to collect soil samples at multiple points in the horizontal and vertical directions from one location on the surface of the earth, and even if there are obstacles at various points on the surface, one or a few surface operations are required. Soil samples at multiple points can be collected from a location without being affected by the obstacle. Therefore, by easily collecting the soil sample at a desired point in the ground, multipoint data in the two-dimensional plane or three-dimensional space in the ground regarding pollutants and concentrations is acquired, and the soil contamination is comprehensively assessed. You can grasp the distribution situation.

[Brief description of drawings]

FIG. 1 is a schematic view of a vertical section for explaining a method for collecting an underground soil sample according to the present invention.

FIG. 2 is a schematic plan view illustrating a method for collecting an underground soil sample according to the present invention.

FIG. 3 is a schematic diagram illustrating a mechanism for collecting a soil sample of a drill head used in the method of the present invention.

FIG. 4 is a schematic diagram illustrating a mechanism for collecting a soil sample of a drill head used in the method of the present invention.

FIG. 5 is a cross-sectional view showing details of the structure of a drill head used in the method of the present invention.

FIG. 6 is a view on arrow A-A ′ of FIG. 5.

[Explanation of symbols]

3 drill head 6 rod 9 pistons 10 cylinders 11 joints 13 Tip guide plate 14 Cutter plate

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Makoto Nakajima No. 2 Rokubancho, Chiyoda-ku, Tokyo Within Kokusai Kogyo Co., Ltd. (72) Inventor Hitoshi Yamauchi No. 2 Rokuban-cho, Chiyoda-ku, Tokyo Kokusai Kogyo Co., Ltd. (56) Reference JP-A-8-21177 (JP, A) JP-A-3-197789 (JP, A) JP-A-10-30392 (JP, A) JP-A-8-281282 (JP, A) (58) Fields surveyed (Int.Cl. ⁷ , DB name) E02D 1/04 G01N 1/08 E21B 7/06

Claims (3)

(57) [Claims] 1. Soil samples at desired plural points below the surface of the earth
Do not use the method of sampling without excavation in the vertical direction.
Drill head with sampling mechanism from the ground
While spraying high-pressure water from the tip,
Penetrate into the groundA method of collecting an underground soil sample, comprising: Inclining the tip of the metal cylinder
Place the cutter plate on the slanted part through the guide plate.
It is fixed to the cylinder and is configured.
The tip of the cylinder functions as a sampling port.
The opening of the cylinder is
Inside the cylinder at the part, inclined part and sampling port part
A piston with a shape that exactly matches the inside of the cylinder
Using a drill head that can be moved forward and backward, When inserting the drill head,
You can rotate it to go straight into the ground,
The head traveling direction is controlled by the rotation control of the
The direction can be changed along the inclination angle of the part
Of the soil sample at the desired point in the ground, characterized by
Collection method. 2.Piston that can move back and forth in the cylinder
Is provided, and the piston is installed at the rear of the cylinder.
Due to the high water pressure applied through the water passage, the sun
Block the pulling port and penetrate the drill head into the soil.
hand, After reaching the sampling point, the high pressure water of the drill head
Release the pressure of
The piston that blocked the mouth is a cylinder by the pressure of the soil
Inside the cylinder and at the same time the soil enters the cylinder
Take a sample 2. The method according to claim 1, whereinLand ofSoil
Method of collecting soil samples. 3. The drill head is provided with a transmitter,
The sampling position is determined by the signal transmitted from the transmitter.
Using the drill head while detecting, the soil at the desired point in the ground
By taking a soil sample, it is possible to
Multi-point data in two-dimensional plane or three-dimensional space
The method for collecting an underground soil sample according to claim 1 or 2 , characterized in that the distribution status of soil contamination is obtained.
Law.