JP2011226059A - Curved boring method and boring device used therein - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shorten the entire construction period so as to reduce construction cost by shortening the measurement time of a boring locus using a gyroscope that has influence on the construction time.SOLUTION: A boring device 10 is used in a curved boring method comprising installing a tip bit 40 in the tip of a hole drilling pipe 20, and inserting the tip bit 40 in a soil to bore a hole. In this device, in the step of inserting a gyroscope 30 in the hole drilling pipe 20, a high-pressure fluid(for example, compressed-air) is sent in the hole drilling pipe 20 by a high-pressure fluid blower (for example, compressed-air blower 50), so as to forcibly feed the gyroscope 30 to the tip of the hole drilling pipe 20.

Description

  The present invention relates to a curved boring method and a drilling device used therefor, for example, when drilling obliquely from the ground toward the bottom of a building and forming a chemical injection work hole below the building. It is related with the construction method and apparatus which are used for.

  In order to prevent liquefaction due to earthquakes, a boring boring method is known as a method of drilling diagonally from the ground toward the bottom of the building and forming a chemical injection hole below the building. Yes. In this bending boring method, it is common to insert a gyroscope into the drilling tube in order to grasp the drilling locus of the drilling tube. For example, as a method of grasping the drilling trajectory by the drilling tube, after inserting the gyroscope to the vicinity of the tip in the drilling tube, pull out the gyroscope from the drilling tube while recording the signal from the gyroscope Thus, a method for measuring a drilling locus is disclosed (see Patent Document 1).

  In the technique described in Patent Document 1, a male or female die of a torsion detecting device configured to be rotatable with respect to the gyroscope is provided at the tip of the gyroscope, and at the tip of the drill rod. A female mold or a male mold of the twist detection device fixed to the hole direction determining member is provided. And rotating the male or female die at the tip of the gyroscope to engage the female or male die at the tip of the drilling rod, and detecting the angle at which the male or female die is rotated, Including a step of drawing the gyroscope from a point where the male and female dies of the detection device are engaged to a storage position on the ground side, and a step of recording a signal from the gyroscope and measuring a drilling locus at that time It is out.

Japanese Patent No. 3763399

  By the way, in order to improve the drilling accuracy in the curved boring method, every time drilling of about 3m (for one drilling tube), the gyroscope is fed into the drilling tube, and then the drilling locus is drawn while being pulled out. Must be detected. In the conventional bending boring method, the signal cable of the gyroscope is wound around a large reel. By rotating this reel, the gyroscope connected to the tip of the signal cable is fed into the drilling pipe, It was pulled out of the tube. Since such work requires a lot of time, there is a problem that the construction time is prolonged.

  The present invention has been proposed in view of the above-described circumstances, and by shortening the measurement time of a drilling locus using a gyroscope that affects the construction time, the entire construction period is shortened and the construction cost is reduced. It is an object of the present invention to provide a bending boring method that can be used, and a drilling device used therefor.

  In order to achieve the above-described object, the bending boring method and the drilling device used therefor according to the present invention have the following features. That is, the bending boring method of the present invention and the drilling device used therefor are a method and an apparatus for drilling by attaching a tip bit to the tip of a drilling tube and inserting it into the ground, and the tip bit is tapered. When drilling in a straight line, the hole is drilled while rotating the drill tube and the tip bit, and when drilling a curve, press the tube into the ground without rotating the drill tube and the tip bit. The curve is propelled by earth pressure acting on the tapered portion of the tip bit, and after inserting the gyroscope into the drilling pipe, the drilling locus is measured while the gyroscope is pulled out.

  Then, in the step of inserting the gyroscope into the drilling tube, high pressure fluid is sent into the drilling tube and the gyroscope is pumped toward the tip of the drilling tube. A hole drilling device used in such a bending boring method includes a high-pressure fluid delivery device that delivers a high-pressure fluid into the borehole pipe.

  In the bent boring method and the drilling device having such a configuration, when measuring the drilling locus, after inserting the gyroscope from the base end side of the drilling pipe into the drilling pipe, the base end portion of the drilling pipe A sealing material is attached around the signal cable to seal the base end of the drilled tube. Then, the gyroscope is pumped toward the tip of the drilling pipe by sending a high-pressure fluid into the drilling pipe using a high-pressure fluid delivery machine. In addition, the gyroscope is pulled out from the drilled pipe by winding the signal cable connected to the gyroscope with a winch. The high-pressure fluid is, for example, compressed air or high-pressure water. When sending compressed air, a compressor is used as the high-pressure fluid delivery machine. When sending high-pressure water, high-pressure fluid delivery is used. A pump is used as a machine.

  In the bending boring method of the present invention and the drilling device used therefor, the gyroscope is inserted into the drilling tube by the pumping force of a high-pressure fluid such as compressed air or high-pressure water. Therefore, by extending the signal cable connected to the gyroscope as in the conventional technology, the gyroscope reaches the tip of the drilling tube quickly compared to inserting the gyroscope into the drilling tube. Can be made. For this reason, since the measurement time of the drilling locus | trajectory using the gyroscope which affects construction time can be shortened, the whole construction period is shortened and it becomes possible to reduce construction cost.

Schematic which shows the whole structure of the drilling apparatus which concerns on embodiment of this invention, and an attachment apparatus. Sectional drawing of a front-end | tip bit. Sectional drawing of the front-end | tip bit in the state which inserted the gyroscope.

  Hereinafter, with reference to the drawings, an embodiment of the bending boring method of the present invention and a drilling device used therefor will be described. FIGS. 1 to 3 illustrate a drilling device used in the bending boring method. FIG. 1 is a schematic diagram showing the overall configuration of the drilling device and an accessory device, FIG. 2 is a sectional view of a tip bit, and FIG. 3 is a gyro. It is sectional drawing of the front-end | tip bit in the state which inserted the scope.

<Drilling device>
As the drilling device 10 used in the present invention, a conventionally known horizontal drilling device can be used. As shown in FIG. 1, the drilling device 10 is mounted on a base 11, a connection cutting device 12 for connecting and cutting the drilling tube 20, and the drilling tube 20. An angle adjusting device 13 for adjusting the insertion angle and a propulsion driving device 14 for propelling the drilled tube 20 are provided. A winch 15 for winding up the signal cable 31 connected to the gyroscope 30 is disposed behind the hole drilling device 10.

  The signal cable 31 of the gyroscope 30 used in the present invention is used to receive a signal from the gyroscope 30 and to pull out the gyroscope 30 from the drilled tube 20. On the other hand, the signal cable in the conventional bending boring method is used not only for these functions but also for feeding the gyroscope 30 into the drilled tube 20. Therefore, the signal cable 31 in the present embodiment is thinner than the conventional signal cable. For this reason, the winch 15 of this embodiment can be reduced in size compared with the reel used by the conventional bending boring method.

<Tip bit>
A tip bit 40 is attached to the tip portion of the drilling tube 20. As shown in FIGS. 2 and 3, the tip bit 40 has a tapered portion 44 whose tip is tapered, and the drilling tube 20 and the tip bit 40 are rotated during straight drilling. In the case of curved drilling, curved drilling is performed by press-fitting into the ground without rotating the drill tube 20 and the tip bit 40 and by earth pressure acting on the tapered portion 44 of the tip bit 40. Yes. 2 and 3, reference numeral 41 denotes a tip jig. Further, at the distal end portion of the distal end bit 40, there are provided a spout 42 for ejecting a drilling auxiliary liquid such as bentonite mud sent out through the perforated pipe 20, and the inside of the perforated pipe 20 and the spout 42. A delivery pipe 43 for communication is provided.

<Compressed air delivery machine>
The compressed air delivery device 50 is a device that functions as a high-pressure fluid delivery device, and includes, for example, a known compressor. In order to pressure-feed the gyroscope 30 toward the distal end portion of the drilling tube 20 using the compressed air delivery device 50, first, the gyroscope 30 is inserted into the drilling tube 20 from the proximal end side of the drilling tube 20. After the insertion, a sealing material (not shown) is attached around the signal cable 31 at the base end portion of the hole drilling tube 20 to seal the base end portion of the hole drilling tube 20. Then, when compressed air is sent into the drilling tube 20 using the compressed air delivery device 50, the gyroscope 30 can be pumped toward the tip of the drilling tube 20.

<High-pressure fluid / other embodiments>
The high-pressure fluid delivered into the drilling pipe 20 is not limited to compressed air, and high-pressure water can be used, or both compressed air and high-pressure water can be used in combination. When high-pressure water is used, a known pump may be used as a high-pressure fluid delivery device. When compressed air is used as a high-pressure fluid for pumping the gyroscope 30, the air injected into the ground returns to the ground surface through the gap between the drilling pipe 20 and the drilling hole and is diffused into the atmosphere. For this reason, the discharge amount of waste does not increase by the use of compressed air. On the other hand, when high-pressure water is used as the high-pressure fluid for pumping the gyroscope 30, the water injected into the ground returns to the ground surface through the gap between the drilling pipe 20 and the excavation hole, so drainage treatment is necessary. However, since high pressure water has a higher pumping capability of the gyroscope 30 than compressed air, this is advantageous compared to compressed air. Therefore, depending on various factors that affect the pumping of the gyroscope 30 such as the inner diameter and the degree of bending of the drilled tube 20, compressed air, high pressure water, compressed air and high pressure water are used. Appropriate construction can be performed by using them together. The pressure of the compressed air and high-pressure water sent into the drilling tube 20 may be set as appropriate according to the inner diameter of the drilling tube 20, the degree of bending, the size and weight of the gyroscope 30, and the like. For example, the pressure of compressed air can be about 10 kgf / cm ^2, and the pressure of high-pressure water can be about 30 kgf / cm ² .

<Drilling method>
Next, the bending boring method of the present invention will be described.
In the bending boring method of the present invention, the drilling tube 20 is penetrated into the ground by the propulsion driving device 14 while the drilling tube 20 is connected by the connection / cutting device 12 of the drilling device 10 installed on the ground, and the tip bit is inserted. Drilling is carried out by 40.

  Then, the gyroscope 30 is inserted into the drilling pipe 20 as needed as the drilling progresses. At this time, the compressed air delivery device 50 sends compressed air into the drilling tube 20 to pressure-feed the gyroscope 30 toward the tip bit 40. When the gyroscope 30 reaches the position of the tip bit 40, the direction of the tip bit 40 is detected by a rotation angle measuring mechanism (not shown).

  The rotation angle measuring mechanism may be any mechanism, for example, a fixed magnet portion is attached to the proximal end portion of the distal end bit 40 and a rotating magnet portion is rotatably attached to the distal end portion of the gyroscope 30. Thus, the rotation magnet unit can be brought close to the fixed magnet unit, and a rotation angle measuring device including a pulse encoder or the like can be used to detect the rotation angle of the rotation magnet unit. Moreover, the rotation angle measuring mechanism described in Japanese Patent No. 376399 cited as a prior art document can also be used.

  From this state, the signal cable 31 is wound up by the winch 15 and the pulling locus (drilling locus) of the gyroscope 30 is measured while the gyroscope 30 is pulled. The signal cable 31 of the gyroscope 30 and the signal cable (not shown) of the rotation angle measuring mechanism are connected to a computer (not shown), and the direction of the tip bit 40 and the pulling locus (cutting) of the gyroscope 30 are cut by the computer. Hole trajectory) is calculated and displayed on a display device or the like.

  Then, based on the measured direction of the tip bit 40, the subsequent drilling direction is predicted and displayed on a display device or the like. If the predicted direction of the tip bit 40 is different from the planned line, the direction of the tip bit 40 is controlled by rotating the drilling tube 20 and the tip bit 40 to determine the drilling direction. do it. At this time, the planned line displayed on the display device is also changed with the rotation of the drill tube 20 and the tip bit 40. In this way, it is possible to perform highly accurate drilling by correcting the drilling direction while measuring the drilling locus as needed as the drilling progresses.

DESCRIPTION OF SYMBOLS 10 Drilling device 11 Base 12 Connection cutting device 13 Angle adjustment device 14 Propulsion drive device 15 Winch 20 Drilling tube 30 Gyroscope 31 Signal cable 40 Tip bit 41 Tip jig 42 Jet outlet 43 Delivery tube 44 Taper part 50 Compressed air Sending machine

Claims (2)

A drilling method in which a tip bit is attached to the tip of a drilling tube and inserted into the ground to make a hole. The tip bit has a tapered taper portion, and at the time of straight drilling, Drilling while rotating the hole tube and the tip bit, and at the time of curve drilling, the soil that presses into the ground without rotating the hole tube and the tip bit and acts on the tapered portion of the tip bit In the curved boring method of measuring the drilling locus while pulling out the gyroscope after pushing the curve with pressure and inserting the gyroscope into the drilling tube,
A bending boring method characterized in that, in the step of inserting the gyroscope into the drilling tube, a high-pressure fluid is sent into the drilling tube and the gyroscope is pumped toward the tip of the drilling tube. A drilling device that attaches a tip bit to the tip of a drilling tube and inserts it into the ground to make a hole, and the tip bit has a tapered taper portion. Drilling while rotating the hole tube and the tip bit, and at the time of curve drilling, the soil that presses into the ground without rotating the hole tube and the tip bit and acts on the tapered portion of the tip bit In the drilling device used in the bending boring method for measuring the drilling locus while pulling out the gyroscope after pushing the curve by pressure and inserting the gyroscope into the drilling tube,
A high-pressure fluid delivery machine for delivering a high-pressure fluid into the drilling pipe,
In the step of inserting the gyroscope into the drilling tube, the high-pressure fluid delivery device sends high-pressure fluid into the drilling tube and pumps the gyroscope toward the tip of the drilling tube. A hole drilling device used for the characteristic bending boring method.

Images