JP3410399B2 - Underground soil sample collection device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for collecting a soil sample, and more particularly, to a soil sample at a plurality of desired locations below the surface of the ground without digging in the vertical direction. , A device for sampling from any surface location. [0002] In recent years, awareness of monitoring and protecting soil from harmful substances and of regenerating and preserving already contaminated soil have been increasing, and the situation of soil contamination has been grasped. Investigation techniques are becoming more important. Among the techniques, a soil sampling device at a desired point in the ground cannot be implemented depending on the location with the conventional device, or the ratio of the cost of the soil sampling to the survey cost is enormous. It was a remarkable part because of the inherent problems. [0003] That is, in a conventional general apparatus, sampling has been performed by a vertical boring core directly above a survey point. However, the actual situation of such a problem point is a place close to or immediately below an operating factory, In some cases, it was a place that affected a factory that handles precision equipment that disliked dust and vibration, and a place where it was difficult to drill floor foundations. Furthermore, in order to ascertain the state of contamination with high precision, it was necessary to conduct a survey that was not easy in terms of cost, such as performing a number of vertical drillings. SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned drawbacks of the prior art, and does not cut the ground directly above the survey point, but separates the ground surface directly above the survey point horizontally. It is an object of the present invention to provide a device capable of collecting a soil sample at a point from an upper position. Therefore, an object of the present invention is to provide an apparatus capable of easily collecting a soil sample directly under the ground even when there is an obstacle on the ground surface. It is a further object of the present invention to provide an apparatus for collecting soil samples at multiple locations in a horizontal and vertical direction from one location on the surface of the earth. Therefore, even if there are obstacles at various places on the ground surface, it is also an object to provide a device capable of collecting soil samples at many points from one or a few ground work sites without being affected by the obstacles. And [0006] device SUMMARY OF THE INVENTION The present invention is subsurface
Cut the soil sample at the desired multiple points in the vertical direction
Sampling equipment without sampling from the surface
High-pressure water from the tip of a drill head equipped with a drilling mechanism
Underground to penetrate the ground horizontally or inclined while
An apparatus for collecting a soil sample, wherein the drill head is a metal
The tip of the cylindrical cylinder is inclined at an angle,
Overlap the cutter plate via the guide plate to the minute
It is configured to be fixed to the cylinder, and
An opening that functions as a sampling port
The mouth is provided and the cylindrical part of the cylinder
Minute, inclined part and sampling port part inside cylinder
The piston of the shape that matches exactly moves back and forth in the cylinder
It is characterized by being arranged as possible. And these
In the invention, a piston is arranged so as to be able to move back and forth in the cylinder.
And the piston penetrates the rear of the cylinder.
The sampler is pressurized by high water pressure
Block the drilling hole and penetrate the drill head into the soil.
After reaching the sampling point,
Release the pressure of the pressurized water and proceed with the penetration for a while.
Piston closing the opening of the cylinder
Inside the cylinder at the same time
Take a sample . In the apparatus of the present invention, the penetrating force of the drill head in the traveling direction is given through a rod by a hydraulic device, and by rotating the head, it is possible to more easily go straight in the ground muddy by the jet water. Since the tip of the drill head is tapered, the direction of travel can be easily controlled by controlling the rotation.If the rotation is stopped and penetration continues, the Can be converted. Since 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, the information can be fed back to control the progress of the drill head. When the pressure reaches the sampling point, the pressure of the high-pressure water in the drill head is released, and the penetration proceeds for a while, and the piston in the cylinder, which has blocked the sampling port at the tip of the drill head, is pushed backward by the pressure of the soil. Then, the inside of the cylinder retreats until it hits the bottom surface of the rear end of the cylinder, and at the same time, the soil enters the cylinder and fills the inside of the cylinder.
Thereafter, the rod connected to the cylinder is pulled back to the working point on the ground, and the collected soil sample is collected. When the collection is completed, the drill head is penetrated again according to the same penetration path, reaches the original position, and proceeds to the next planned point. Also, on the way back or from the beginning, the above-described traveling direction control method can be used to advance the vehicle to a planning point in a completely different direction. According to such an apparatus of the present invention, even if an obstacle is present immediately above a desired sampling point, a ground surface work place which is an appropriate penetration start point is set, and each point is set. Soil samples can be collected. Then, by easily collecting soil samples at each point in the ground by the apparatus of the present invention, multipoint data in a two-dimensional plane or three-dimensional space in the ground relating to pollutants and concentrations is obtained, and the total Can be grasped. In the drill head of the present invention, the tip of a metal cylindrical cylinder is cut obliquely, for example, at an inclination angle of about 15 °, and is covered with a metal plate or a tip guide plate that just covers the opening of the inclined portion. Is fixed to the cylinder by overlapping a cutter plate of the same shape as the metal plate or a slightly larger one. More preferably, the cutter plate is overlaid with cemented carbide at the required portions to provide 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 rear joint of the cylinder by a piston shaped exactly inside the cylinder to the cylindrical, inclined, and sampling port portions of the cylinder. Usually, in this state, the drill head is propelled while injecting high-pressure water from a water channel penetrating the piston and a nozzle at the tip thereof. Therefore, at this point, no soil enters the cylinder. The high-pressure water for jet propulsion reduces the penetration resistance by muddying the soil in the propulsion direction, and in combination with the cutting force of the cutter plate attached to the rotating head and the penetrating force by hydraulic pressure, the head is moved. It is effective as a means for propelling underground, but the pressure may be about 10 to 200 Gkg / cm ² . When the sampling point is reached, the pressure of the high-pressure water is released and the ground is propelled for a while, and the piston closing the sampling port due to soil pressure retreats, and the soil enters the cylinder. The soil can then be taken into the cylinder until the piston hits the bottom of the rear end of the cylinder. [0013] The material of the piston is preferably made of metal, but other materials or hollows may be used as long as the piston has sufficient strength to perform its intended function and appropriate lubricity with the cylinder. Absent. Since the tip of the cylinder of the drill head is severely worn, it is preferable to make it detachable so that it can be easily replaced. In addition, the rear end portion has a joint structure, and it is necessary to be detachable for soil sample collection, and it is necessary to provide a connection fixing means that can be connected to the rod. The rod connected to the drill head transmits pressure in the approaching direction, transmits rotational force of the head, transmits hydraulic pressure and transports jet water, supplies electric power as required by a transmitter, etc. Since it has a role of transmitting signals between work places, etc., it is preferable to use a material that has rigidity in the traveling direction, has flexibility that can follow the direction freely, and has mechanical properties that can withstand friction of soil particles. It is preferable that the material be resistant to underground chemical substances and moisture inside and outside the tube. As long as the rod has the above functions, the rod may be made of a single material or a composite material. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The underground soil sample collecting apparatus of the present invention will be described in more detail with reference to the embodiment shown in the drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of the components described in this embodiment are not intended to limit the scope of the present invention thereto, unless otherwise specified. It is only an example. 1 and 2
FIG. 1 is a schematic view illustrating an apparatus for collecting an underground soil sample according to the present invention. FIG. 1 is a vertical sectional view and FIG. 2 is a plan view. FIG.
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. 5 and 6 are a cross-sectional view showing the details of the structure of the drill head used in the method of the present invention, and an AA 'arrow view of the cross-sectional view. As shown in FIGS. 1 and 2, according to a sampling point (desired point) which is a survey point, a ground obstruction 1 such as an operating plant where an underground intrusion sampling device 2 is to be installed. Establish an appropriate surface work area that takes into account. The underground intrusion sampling device 2 is an HDD (Horizonta
l Directional Drilling) consists of a propulsion unit, a drill head 3 having a sampling function, a transmitter, a rod 6, and the like. Up to the point of investigation, the drill head 3 of the device according to the invention functions as a normal drill head, propelling in the soil with a rod. A high water pressure is applied to the rod 6, and the water pressure extends into the drill head 3 mounted on the tip of the rod 6, and presses the piston 9 against the tip 12 in the cylinder 10, and the sample intake port ( Close the sampling port and close the nozzle at the tip of the head (Fig. 5
See) muddy soil in the direction of propulsion while injecting more water flow. The drill head 3 rotates when traveling straight ahead, cuts the soil with a cutter plate 14 (FIG. 5) fixedly mounted on the tip guide plate 13 and promotes the propulsion in combination with the mudification by the water flow. Facilitate. Cutter plate 1
4 is exposed to intense friction with the soil, and although not shown, it is preferable to take countermeasures by building up with a cemented carbide or the like. When the rotation 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 or behind the drill head 3 or the like. When the drill head 3 reaches the investigation point (destination point), the water pressure in the drill head 3 is released and the drill head is propelled for a while, as shown in FIG. And the sample soil is taken up. The head filled with the sample soil is collected by pulling back the rod 6. A single sampling amount can be achieved with a standard of 500 CC, but if a long sampler is used, sampling of 500 CC or more is possible, so it is preferable to design the dimensions of the head as necessary if necessary. . Since the tip of the head is severely worn, as shown in FIG. 5, it is preferable that the tip of the cylinder 12 is detachable so that it can be easily replaced. Since the drill head needs to be strongly and tightly connected to the rod and pulled back, it is also preferable to use a joint 11 having a tapered thread as shown in FIG. As shown in FIGS. 1 and 2, the number of survey points planned on the underground survey site is one as shown in FIGS. Instead of the drill head 3, the drill head 3 can penetrate into the positions 4 and 5. As described above, by collecting a sample using the apparatus of the present invention, it is possible to acquire data on a large number of underground survey points in the horizontal and vertical directions from a small number of surface work sites. That is, it is possible to easily create a three-dimensional map of the pollution status of the investigation site by integrating such data at various locations underground. According to the apparatus of the present invention, it is possible to collect a soil sample at a site from a location on the surface horizontally separated from immediately above the survey point without excavating the location directly above the survey point. Even if there is an obstacle on the ground surface, it is possible to easily collect an underground soil sample immediately below the obstacle. further,
It is possible to collect soil samples at multiple points in the ground horizontally and vertically from a single location on the ground surface, and even if there are obstacles at various places on the ground surface, one or few surface work It is possible to collect soil samples at many points from a location without being affected by the obstacle. Therefore, by easily collecting a soil sample at a desired point in the ground, multi-point data in a two-dimensional plane or three-dimensional space in the ground regarding pollutants and concentrations can be obtained, and comprehensive The distribution situation can be grasped.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a vertical cross section illustrating an apparatus for collecting an underground soil sample of the present invention. FIG. 2 is a schematic plan view illustrating an apparatus 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 apparatus 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 apparatus of the present invention. FIG. 5 is a sectional view showing details of a structure of a drill head used in the apparatus of the present invention. FIG. 6 is a view taken in the direction of arrows AA ′ in FIG. 5; [Description of Signs] 3 Drill head 6 Rod 9 Piston 10 Cylinder 11 Joint 13 Tip guide plate 14 Cutter plate

──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Makoto Nakajima 2nd Rokubancho, Chiyoda-ku, Tokyo Kokusai Kogyo Co., Ltd. (72) Inventor Hitoshi Yamauchi 2nd Rokubancho 2nd Chiyoda-ku, Tokyo Kokusai Kogyo Co., Ltd. (56) References JP-A-8-21177 (JP, A) JP-A-3-197789 (JP, A) JP-A-10-30392 (JP, A) (58) Fields investigated (Int. ⁷ , DB name) E02D 1/04 G01N 1/08 E21B 7/06

Claims (1)

(57) [Claims] 1. Soil samples at a plurality of desired locations below the ground surface
Equipment for sampling without vertical drilling
Drill head with sampling mechanism from the surface
Spray high-pressure water from the tip while horizontal or inclined
Penetrate the groundAn underground soil sample collection device for The drill head is the tip of a metal cylindrical cylinder.
Tilt it obliquely and cover the inclined part with a guide plate.
Stacker plates and fix them to the cylinder.
Along with Functions as a sampling port at the tip of the cylinder
The opening of the cylinder
Cylinders for cylinder, inclined and sampling ports
A piston with a shape that matches exactly inside the inside of the cylinder
It is arranged so that it can advance and retreat A place in the ground characterized by the following:
Sampling equipment for underground soil samples at desired pointsPlace.