JP2006078233A - Burying method for measuring device and its burying jig - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To resolve the problem wherein incorporating a measuring device with bedrock by filling with cement milk around it is required for burying the measuring device in a horizontal boring hole for stress observation in earthquake prediction, and that leakage of the cement milk tends to occur due to the boring hole being horizontal and leads to difficulty in the stress observation intended. <P>SOLUTION: The burying method for measuring device contains a first step of introducing a case pipe containing the measuring device and cement milk into a measuring device burying hole formed in the horizontal boring hole, and a second step of discharging the cement milk from the tip end of the case pipe by withdrawing the case pipe, and filling the measuring device burying hole with cement milk, and then burying the measuring device in the cement milk. In the first step, the measuring device is positioned at the first position, and in the second step, the measuring device is moved to the second position closer to the hole bottom of the measuring device burying hole than to the first position. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method of embedding a measuring device and its embedding tool. The present invention is suitable as a technique for embedding a measuring device in a horizontal boring hole.

A small-diameter hole (measuring device embedding hole 2) for embedding the measuring device may be formed in the hole bottom of the boring hole (see FIG. 1). The measuring device embedded hole 2 is embedded with a measuring device and is filled with cement milk around it. Thereby, ground information such as ground fluctuation is transmitted to the measuring device via the solidified cement milk, and is measured by the measuring device. Since the measuring device in cement milk is blocked from the outside, a memory device is generally attached to the measuring device. By overcoring the measurement device buried hole 2, the measurement device is taken out together with the cement milk layer, and the ground information stored in the memory device is read out.
Depending on the required embedding position of the measuring device, it is necessary to drill a borehole in the horizontal direction. Non-Patent Document 1 discloses a method of embedding a measuring device in such a horizontal boring hole.
According to this embedding method, the measuring device and the cement milk are built in the case tube, and the case tube is arranged in the measuring device embedding hole of the horizontal boring hole. Thereafter, by pulling out only the case tube, the measuring device is placed in the measuring device embedded hole, and at the same time, the measuring device embedded hole is filled with cement milk.

Here, since the inside of the boring hole is horizontal, cement milk may leak out from the inlet of the measuring apparatus embedding hole when the case tube is pulled out. If cement milk leaks out, the measuring device buried hole cannot be filled with cement milk. If a gap is formed in the measurement device buried hole, a physical change such as a ground fluctuation is not accurately transmitted to the measurement device, and a large error is included in the measurement result. Moreover, if the measuring device is exposed due to the gap, the measuring device may be damaged. Therefore, in Non-Patent Document 1, an expandable / contractible sponge is built in the case tube in advance, and at the same time that the case tube is pulled out, the sponge spreads over the entire hole diameter to prevent leakage of cement milk.
"Technical method of stress measurement in horizontal borehole", The University of Tokyo Technical Report, 8-66-8-68, March 2003

By the technique of Non-Patent Document 1, it is possible to prevent the leakage of cement milk from the measurement device buried hole that is surely horizontally bored.
However, depending on the material of the bedrock, the inclination angle of the measurement device embedded hole, and the case tube extraction timing, there is a risk of forming a void in the measurement device embedded hole. In other words, skill was required for the case tube extraction work.
Therefore, an object of the present invention is to make it possible to fill a measuring device with a cement milk without gaps while embedding the measuring device in a measuring device embedding hole easily and reliably.

The present invention has been made to solve the above problems, and the present invention is defined as follows.
A first step of introducing a case tube containing the measuring device and cement milk into a measuring device embedded hole formed at the bottom of the horizontal boring hole;
In the embedding method of the measuring apparatus, the second step of filling the measuring apparatus embedding hole with cement milk and embeding the measuring apparatus embedding hole in the cement milk by pulling out the case tube,
In the first step, the measuring device is present at a first position;
In the second step, the measuring device is moved from the first position to a second position near the bottom of the measuring device embedding hole,
A method for embedding a measuring device.

According to the invention of the first aspect, after the measuring device is present at the first position, the measuring device is provided when the case tube is pulled out and filled with the cement milk into the measuring device embedding hole, or after the filling. Move to position 2. This second position is closer to the tip of the measuring device embedding hole than the first position. Since the measuring device buried hole is filled with cement milk from its tip side, even if cement milk leaks from the hole of the measuring device buried hole, the tip side of the measuring device buried hole is completely covered with cement milk ( There is a high possibility of being filled. Further, even if a gap is formed on the tip side of the measuring device embedding hole, the cement milk flows so as to fill the gap by moving the measuring device to the tip side.
In other words, even if there is a gap near the entrance of the measurement device embedding hole, if the portion where the measurement device is embedded is completely filled with cement milk, the measurement performance of the measurement device is sufficiently secured. Therefore, according to the present invention, the measuring device is present at the second position (the front end side of the measuring device embedding hole) that is likely to be completely filled with cement milk.
Therefore, according to this invention, the measuring device embedded in the measuring device embedded hole can be filled with cement milk without a gap.

The components of the present invention will be described below.
(measuring device)
Since the measuring device is embedded in the cement milk in the measuring device embedding hole, it is necessary to attach a power source and a memory device. That is, a power supply unit, A / D converter, amplifier, electric circuit, CPU, memory unit, and the like are incorporated. The measurement target of the measurement device can be arbitrarily selected, but the strain, temperature, orientation, magnetic field, etc. of the ground can be set as the measurement target, and a measurement device suitable for the measurement target is selected. The shape of the measuring device is not particularly limited, but is preferably a cylindrical shape so that it can be stored in the case tube.
Cement milk is also arbitrarily selected. In order to fill the measurement device buried holes formed in the horizontal direction without gaps, it is preferable to add dehydration reducing agent 0.04 to cement: water = 1: 0.6.

(Case tube)
In the case tube, cement milk, a position control device, a measuring device, a contraction / expansion rubber and the like are accommodated. It is preferable that the difference between the inner diameter dimension of the measuring device embedded hole and the outer diameter dimension of the case tube, that is, the gap has a distance that allows cement milk to pass through. This is for maximizing the volume in the case tube and preventing the cement milk from leaking out from the measuring device embedded hole when the case tube is pulled out. Cement milk is stored in the case tube until the case tube is introduced into the measuring device buried hole. After the case tube is set in the measuring device buried hole, the cement milk is released from the tip of the case tube when the case tube is pulled out. The For example, a bottom cover is provided at the tip of the case tube, and the case tube is detached by applying a predetermined pressure. Since the case tube and the built-in part are in contact but not connected, it is possible to pull out only the case tube.

(Position control device)
The position control device holds the measurement device at the first position in the first step of introducing the case tube into the measurement device embedding hole, and the measurement device is moved from the first position to the second position in the second step of pulling out the case tube. It is allowed to move to the position. The configuration of such a position control device is not particularly limited, and examples thereof include a slide type position control device and a bellows tube method as described in the embodiments.

Examples of the present invention are shown below.
2 and 3 show a method of embedding the measuring device embedding tool 3 in the measuring device embedding hole 2 of the horizontal boring 1.
FIG. 2A is a cross-sectional view when the measuring device embedding tool 3 is introduced into the hole. The measuring device embedment tool 3 includes a case tube 4, a built-in portion including a cement milk 5, a sliding position control device 6, a measuring device 7, and a contraction / expansion rubber 8. The case tube 4 has a magnet 10 and is joined to the rear end of the built-in portion. The built-in part is released from the connection with the case tube 4 by pressing the rear end thereof with a predetermined pressure.
The sliding position control device 6 is for determining the first position and the second position of the measuring device 7, and a large-diameter rod 6A is connected to the measuring device 7 side, and a small-diameter is connected to the large-diameter rod 6A. The rod 6B is movably fitted. The tip of the small diameter rod 6B is connected to the bottom lid 9. The bottom lid 9 is fixed to the distal end of the case tube 4 and seals the distal end side of the case tube 4 when the case tube 4 is introduced into the measuring device embedding hole 2. The rear end of the case tube 4 is sealed with a contraction / expansion rubber 8.

FIG. 2B shows a state in which the measuring device embedded tool 3 is introduced into the measuring device embedded hole 2. In this state, the position control device 6 is in the extended state, and the measuring device 7 holds the first position. Thereafter, the rod 11 is inserted into the measuring device embedding hole 2 and presses the rear end of the measuring device embedding tool 3.
As shown in FIG. 2 (c), the position control device 6 contracts as the rod 11 is pressed, and the measuring device 7 moves toward the bottom of the hole. The case tube 4 is pulled out simultaneously with the pressing by the rod 11. As a result, the bottom lid 9 is removed from the case tube 4, and the cement milk 5 in the case tube 4 is discharged from the front end side of the case tube 4. At this time, the measuring device is pressed by the rod 11 while the case tube 4 is pulled out. When the case tube 4 passes through the measuring device 7, the rod 11 is lifted (see FIGS. 3D, 3E, and 3F).

FIG. 3 (f) shows a state in which the position control device 6 is completely contracted and the case tube 4 is pulled out. That is, the embedded state of the measuring device 7 is shown. According to this embodiment, the measuring device 7 is embedded at a position closer to the hole bottom in the measuring device embedded hole 2. At this position, the cement milk 5 fills the measuring device embedding hole 2 without any gap.
The contraction / expansion rubber 8 provided at the rear end of the built-in portion expands when the case tube 4 is pulled out. As a result, the cement milk 5 discharged from the case tube 4 and diffusing through the measuring device embedded hole 2 is prevented from diffusing by the contraction / expansion rubber 8, and does not flow out of the measuring device embedded hole 2. Moreover, mixing of water and mud from the inlet side can be prevented by the contraction / expansion rubber 8.
The cement milk 5 is hardened after a certain period of time, and then the measuring device 7 is operated to measure various ground information.

  FIG. 4 shows a measuring device embedding tool 3 according to another embodiment. Elements that are the same as those in FIG. 2 or FIG. In this embodiment, a bellows tube 60 is employed as a position control device. The cement milk 5 is stored in the bellows tube 60, and a valve 61 is provided at the tip of the bellows tube 60.

FIG. 4A shows a state in which the measuring device embedding tool 3 is introduced into the measuring device embedding hole 2. In this state, the bellows tube 60 is in an extended state, and the measuring device 7 maintains the first state. Thereafter, the rod 11 is inserted into the boring hole 2 and presses the measuring device embedding tool 3.
As shown in FIG. 4B, the bellows tube 60 contracts by the pressing of the rod 11, and the measuring device 7 moves to the hole bottom side. Thereby, the cement milk 5 in the bellows tube 60 is compressed, the valve 61 is opened, and the cement milk 5 is discharged. Further, the case tube 7 is pulled out simultaneously with the pressing by the rod 11. The contraction / expansion rubber 8 expands, the inside of the measuring device embedding hole 2 is filled with cement milk 5, and the measuring device 7 is embedded at a position close to the bottom of the hole (see FIGS. 4C and 4D). At this position, the cement milk 5 fills the measuring device embedding hole 2 without any gap.

  The present invention is not limited to the description of the embodiments and examples of the invention described above. Various modifications may be included in the present invention as long as those skilled in the art can easily conceive without departing from the description of the scope of claims.

FIG. 1 is a cross-sectional view of a horizontal boring hole. FIG. 2 is a cross-sectional view showing a process of embedding the measuring apparatus embedding tool (Example 1). FIG. 3 is a cross-sectional view showing a process of burying the measuring apparatus burying tool (Example 1). FIG. 4 is a cross-sectional view showing a process of embedding the measuring apparatus embedding tool (Example 2).

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Horizontal boring 2 Measuring device embedding hole 3 Measuring device embedding tool 4 Case pipe 5 Cement milk 6 Sliding position control device 6A Large diameter rod 6B Small diameter rod 60 Bellows tube 7 Measuring device 8 Contraction expansion rubber 9 Bottom lid 10 Magnet 11 Rod

Claims (5)

A first step of introducing a case tube containing the measuring device and cement milk into the measuring device embedded hole formed in the horizontal boring hole;
A second step of pulling out the case tube to discharge the cement milk from the front end side of the case tube to fill the measurement device embedding hole with cement milk and embed the measurement device in the cement milk. In a method for embedding a measuring device including:
In the first step, the measuring device is in a first position;
In the second step, the measuring device is moved from the first position to a second position near the bottom of the measuring device buried hole,
A method for embedding a measuring device. A measuring device embedded tool comprising a case tube, a measuring device built in the case tube and cement milk,
The measuring device embedding tool further includes a position control device for the measuring device,
When the measuring device embedded tool is introduced into the horizontal boring hole, the position control device holds the measuring device in the first position;
When pulling out the case tube, the position control device allows the measuring device to move to a second position closer to the hole bottom than the first position;
A measuring device embedding tool characterized by that. The position control device is a telescopic slide type, and holds the measuring device in the first position in an extended state, and holds the measuring device in the second position in a contracted state; The position control device according to claim 2. The position control device is a telescopic bellows tube, and holds the measuring device in the first position in the extended state, and holds the measuring device in the second position in the contracted state. The position control device according to claim 2. 5. The bellows tube according to claim 4, wherein the bellows tube is filled with cement milk inside the bellows tube, and the cement milk is discharged when the bellows tube is contracted. .

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