JP2012172376A - Tilt-free drilling device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tilt-free drilling device in which logging can be performed accurately without being affected by waves or winds on the water.SOLUTION: In a tilting-free drilling device 1, during drilling work, a drilling rod is inserted into a casing pipe 3 while mounting a support to an upper end of a guide pipe 2 perpendicularly erected on a ground G under a sea level LS, and driven by a drive device via a swivel head, thereby drilling the ground G. During logging work, a sonde 26 is inserted into a bore B while mounting a logging scull 21 to the upper end of the guide pipe 2, and logging by the sonde 26 is performed while elevating the sonde with a winch 25.

Description

  The present invention relates to a tiltable drilling device for drilling a ground under water from above the water.

  Conventionally, as this type of borehole device, for example, the one disclosed in Patent Document 1 is known. This borehole apparatus has a guide pipe that is vertically erected on the seabed and has an upper portion protruding above the sea, a casing pipe inserted into the guide pipe, and a borehole rod inserted into the casing pipe. The support attached to the upper end of the guide pipe is provided with a hydraulic swivel head for driving the borehole rod and a hydraulic cylinder for raising and lowering the swivel head. The hydraulic unit for driving these swivel heads and hydraulic cylinders is provided on a work ship moored near the guide pipe. In the conventional borehole apparatus having the above-described configuration, the ground rod under the sea surface is bored by driving the borehole rod through the swivel head and the hydraulic cylinder by the hydraulic unit.

Japanese Patent No. 3378963

  In addition, conventionally, in the above-described borehole apparatus, after performing a borehole, logging is performed to detect the physical properties of the seabed and the state of the ground using the borehole formed by the borehole. Yes. For the logging, a sonde, a cable connected to the sonde, and a winch for winding the sonde through the cable are used. For example, when performing velocity logging, this sonde has an oscillator that generates P and S waves and a geophone that receives the generated P and S waves. In addition, the winch is disposed on the work boat.

  Specifically, velocity logging using the above-described sonde is performed as follows. That is, first, the trial bore rod is pulled up from the casing pipe, and a sonde is inserted into the casing pipe. Then, by adjusting the length of the cable with the winch, the sonde is lowered into the borehole and positioned at a predetermined depth. In this state, the P wave and S wave generated by the sonde oscillator are received by the geophone, and the detection data based on the received P wave and S wave is output to the storage device on the work ship via the cable.

  It is very important to position and hold the sonde at a predetermined depth in order to perform the logging with high accuracy, not only in the above-mentioned velocity logging but also in density logging using gamma rays. On the other hand, in the conventional drilling device, the winch is arranged on the work ship as described above. Therefore, as the winch swings with the work ship due to sea waves and winds, the winch is connected via a cable. The connected sonde moves up and down in the borehole and shifts up and down with respect to a predetermined depth. As a result, it becomes impossible to perform logging well. Such a problem becomes more prominent when the wave is high or the wind is strong.

  For caliper logging that continuously detects the diameter of the borehole and temperature logging that continuously detects the temperature in the borehole, the logging is performed while moving the sonde up and down in the borehole by the winch. In this case as well, as in the case of velocity logging and density logging, the sonde moves up and down due to the swinging of the winch due to waves, etc., and logging can be performed with high accuracy. It will disappear.

  The present invention has been made to solve the above-described problems, and provides a tiltable drilling device capable of performing logging well with high accuracy without being affected by waves and winds on the water. With the goal.

  In order to achieve the above object, a tiltable drilling device according to the first aspect of the present invention is a tiltable drilling device for drilling a ground under water from above the water, and is vertically installed on the ground. A guide pipe whose upper part protrudes above the water, a casing pipe inserted into the guide pipe, a bore rod inserted into the casing pipe, a support body detachable at the upper end of the guide pipe, and supported by the support body, A swivel head for rotating and lifting the drill rod, a drive device for driving the swivel head provided on a work ship moored near the guide pipe, and a logging well that can be attached to and detached from the upper end of the guide pipe In order to perform the logging of the ground, the probe is suspended from the logging well through a cable and inserted into the borehole drilled by the borehole rod, and the logging well is provided with And a winch that is connected to the cable and for raising and lowering the sonde, and at the time of a borehole operation for drilling the ground, the borehole rod is inserted into the casing pipe with a support attached to the upper end of the guide pipe. At the same time, by driving through the swivel head with a drive device, the ground is drilled, and during logging work to perform logging of the ground, with the logging pipe attached to the upper end of the guide pipe, the sonde, While logging into a borehole, logging with a sonde is performed while moving up and down with a winch.

  According to this tiltable drilling device, the guide pipe is erected vertically on the ground below the surface of the water, and the upper part of the guide pipe projects above the water. In the attached state, the borehole rod is inserted into the casing pipe and the ground is bored. The swivel head for rotating and raising / lowering the borehole rod is supported by the support body, and the ground is bored by driving the borehole rod through the swivel head with a driving device during the borehole operation. This drive device is provided on a work ship moored near the guide pipe.

  As described above, the swivel head is supported by a support body, not a work ship, and this support body is attached to a guide pipe standing on the ground. Therefore, even if the work boat swings due to waves and winds on the water, the swivel head does not swing relative to the ground. As a result, the borehole rod can be appropriately driven without being affected by waves or the like, and thus the borehole can be appropriately performed.

  Further, in the tilt-type drilling device, when performing a logging operation for ground logging after the above-described drilling operation, a logging ridge is attached to the upper end of the guide pipe instead of the support. . In this state, the sonde suspended from the logging well is inserted into the borehole formed by the borehole operation. Further, the logging well is provided with a winch connected to the sonde via a cable, and the logging with the sonde is performed while raising and lowering the sonde by the winch.

  As described above, the winch connected to the sonde is provided not on the work boat but on a logging well, and this logging rod is attached to a guide pipe standing on the ground. Therefore, unlike the conventional case described above, the winch and the sonde do not move up and down with respect to the ground even if the work boat swings due to waves, etc., and the sonde is accurately positioned at a predetermined depth by the winch. can do. As a result, it is possible to perform logging well without being affected by waves or the like.

  In addition, both the support that supports the swivel head and the logging well equipped with a winch are detachable from the guide pipe.For example, when the waves are very high or the wind is very strong in stormy weather It is possible to remove the support or logging well from the guide pipe, collect it on the work ship, and evacuate to the port together with the work ship.

  According to a second aspect of the present invention, in the tiltable drilling device according to the first aspect, the work ship is equipped with a crane, and the crane and the logging pipe are attached to and detached from the work pipe. It is characterized by being performed.

  According to this structure, the support body and the logging well are attached to and detached from the guide pipe using the crane mounted on the work boat. This type of crane is usually mounted on a work boat to erect guide pipes, so this crane can be used to attach and detach a support and logging well without providing any special equipment. It can be done easily.

It is a figure showing roughly the tiltable type drilling device by the embodiment of the present invention at the time of drilling work with a work boat etc. It is the elements on larger scale of FIG. It is a figure which shows a tilting type drilling apparatus roughly at the time of logging operation. FIG. 4 is a plan view schematically showing a logging well or winch in FIG. 3.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. As shown in FIGS. 1 and 2, the tiltable drilling device 1 according to the present embodiment includes a guide pipe 2 and a casing pipe 3 inserted into the guide pipe 2. A fixing device 4 is provided at the lower end of the guide pipe 2. The guide pipe 2 and the casing pipe 3 are erected at predetermined positions on the ground G below the sea surface LS using a crane C mounted on the work boat S. The work ship S is moored in the vicinity of the guide pipe 2 by a plurality of anchor wires AW and anchors A. In FIG. 2 and FIG. 3 described later, the anchor wire AW and the anchor A are omitted for convenience of illustration. Furthermore, the guide pipe 2 is held in a state where it is erected vertically with respect to the ground G by the fixing device 4, the plurality of anchor wires 5 and the anchor 6, and an upper portion thereof projects above the sea. A flange 2 a is integrally provided at the upper end of the guide pipe 2.

  When performing a drilling operation for drilling the ground G, the support 7 is attached to the upper end of the guide pipe 2. Further, a drill rod 8 for testing the ground G is suspended by a rod 9 mounted on the work boat S via a wire 10 and inserted into the casing pipe 3. The wire 10 is connected to a hoist 11 provided in a hydraulic unit 16 described later.

  The support 7 includes a base 7a and a support frame 7b extending upward from the base 7a. A connecting pipe 7c protruding downward is attached to the base 7a, and a flange 7d is integrally provided at the lower end of the connecting pipe 7c. While this flange 7d is overlapped with the flange 2a of the guide pipe 2, both the flanges 7d and 2a are bolts and nuts (both not shown) with the connecting pipe 7c positioned concentrically with the guide pipe 2. The support 7 is attached to the guide pipe 2 by tightening.

  Further, the support 7 is provided with a hydraulic swivel head 12 for rotating the trial rod 8 and a hydraulic cylinder 13 for raising and lowering the swivel head 12. The hydraulic cylinder 13 extends in the vertical direction, and the swivel head 12 is movable in the vertical direction along the hydraulic cylinder 13. The swivel head 12 and the hydraulic cylinder 13 are connected to a hydraulic unit 16 (drive device) via flexible hydraulic hoses 14 and 15, respectively.

  The hydraulic unit 16 is for driving the swivel head 12 and the hydraulic cylinder 13, and is provided on the rod 9 described above. The hydraulic unit 16 supplies the hydraulic pressure to the swivel head 12 and the hydraulic cylinder 13 via the hydraulic hoses 14 and 15, respectively, thereby driving both the units 12 and 13. As a result, the ground G is drilled as the drill rod 8 rotates and moves up and down.

  Furthermore, the drill 9 is provided with a borehole pump 17. During the borehole operation, the borehole pump 17 pumps water to the borehole rod 8 via the flexible hose 18 in order to cool the borehole rod 8 and the like.

  Further, the tiltable drilling device 1 includes a logging well 21 for logging work for logging the ground G after the above-mentioned drilling work. When shifting from the borehole operation to the logging operation, first, the crane C lifts the borehole rod 8 from the casing pipe 3 and removes the support body 7 from the guide pipe 2, while the support body 7 and the borehole rod 8 are moved to the work boat. S is collected. Then, as shown in FIG. 3, this logging well 21 is attached to the upper end of the guide pipe 2 instead of the support 7.

  The logging well 21 has a base 22 and a frame portion 23 that is attached to the base 22 and in which a plurality of tubes are combined in a lattice shape. A connecting pipe 22a protruding downward is attached to the base 22, and a flange 22b is integrally provided at the lower end of the connecting pipe 22a. The flange 22b is overlapped with the flange 2a of the guide pipe 2, and the bolts and nuts (both not shown) are used for both flanges 22b and 2a with the connecting pipe 22a positioned concentrically with the guide pipe 2. The logging well 21 is attached to the guide pipe 2 by tightening. As shown in FIGS. 3 and 4, a guide hole 22 c is formed in the base 22, and the guide hole 22 c penetrates in the vertical direction and continues to the connection pipe 22 a and the guide pipe 2. Further, a pulley 24 is attached to the upper end portion of the frame portion 23. In FIG. 4, for convenience of illustration, a part of the frame portion 23 and the pulley 24 are omitted.

  The logging well 21 is provided with an electric winch 25. A cable 25 a is wound around the winch 25, and the cable 25 a is connected to the sonde 26. The sonde 26 is used for speed logging of the ground G, and includes an oscillator that oscillates P waves and S waves and a geophone that receives the oscillated P waves and S waves (both not shown). Have. The cable 25a not only suspends the sonde 26, but also functions as a signal line for outputting detection data based on the P wave and S wave received by the geophone to a storage device (not shown) described later. The sonde 26 is suspended from the pulley 24 via a cable 25 a and is inserted into the borehole B via the guide hole 22 c of the base 22, the connection pipe 22 a and the casing pipe 3.

  Further, the logging well 21 is provided with a control device (not shown) for controlling the operation of the winch 25 and a storage device for storing detection data. During the logging operation, the operator operates the winch 25 on the logging well 21 via the control device, whereby the sonde 26 is sequentially positioned at each of a plurality of different predetermined depths. In this state, for each predetermined depth, the P wave and S wave oscillated by the oscillator of the sonde 26 are received by the geophone, and the detection data based on the received P wave and S wave is transmitted via the cable 25a. Are output and stored in the storage device. Thereby, logging is performed for each of the predetermined depths.

  As described above, according to the present embodiment, the swivel head 12 is provided on and supported by the support body 7 instead of the work boat S, and the support body 7 is installed on the ground G. 2 is attached. Therefore, even if the work boat S swings due to waves and winds at sea, the swivel head 12 does not swing relative to the ground G. As a result, the borehole rod 8 can be appropriately driven without being affected by waves or the like, and thus the borehole can be appropriately performed.

  In addition, when a logging operation is performed after the above-described drilling operation, a sonde suspended from the logging rod 21 with the logging rod 21 attached to the guide pipe 2 instead of the support 7. 26 is inserted into the borehole B formed by the borehole operation. The logging is performed while raising and lowering the sonde 26 by the winch 25 provided on the logging well 21.

  Thus, the winch 25 is provided not on the work boat S but on the logging well 21, and the logging well 21 is attached to the guide pipe 2 erected on the ground G. Therefore, unlike the above-described conventional case, even if the work boat S swings due to waves or the like, the winch 25 and the sonde 26 do not move up and down with respect to the ground G. It is possible to accurately position at a depth of. As a result, it is possible to perform logging well without being affected by waves or the like.

  Further, since the support body 7 provided with the swivel head 12 and the hydraulic cylinder 13 and the logging well 21 provided with the winch 25 are both detachable with respect to the guide pipe 2, for example, a wave is very violent in rough weather. When the wind is very high or the wind is very strong, the support 7 or the logging well 21 can be removed from the guide pipe 2, recovered to the work ship S, and evacuated to the port together with the work ship S.

  The support 7 and logging well 21 are attached to and detached from the guide pipe 2 by using a crane C mounted on the work boat S in order to erect the guide pipe 2. Therefore, using the crane C, the support 7 and the logging well 21 can be easily attached and detached without providing a special device.

  In addition, this invention can be implemented in various aspects, without being limited to the described embodiment. For example, in the embodiment, the swivel head 12 is hydraulic, but may be electric. In the embodiment, the sonde 26 performs velocity logging, but may perform other various logging, for example, density logging, caliper logging, temperature logging, and the like. Furthermore, in the embodiment, the cable 25a is also used as a signal line for outputting detection data of the sonde 26. However, this signal line may be provided separately. Alternatively, the detection data may be output to the storage device wirelessly without using a signal line.

  Further, in the embodiment, the control device for the winch 25 and the storage device for the detection data are provided on the logging well 21 and the operator operates on the logging well 21, but on the work boat S side. The operator may operate on the work boat S. In this case, the control device and / or the storage device may be either wired or wireless. Further, in the embodiment, in order to detachably attach the support 7 or the logging well 21 to the guide pipe 2, the connection pipe 7c or 22a and the guide pipe 2 are connected using the flange 7d or 22b and the flange 2a. In other words, the flange-type joint is used, but other types of joints such as a box-type joint may be used instead.

  Further, the embodiment is an example in which the present invention is applied to the tiltable drilling device 1 that drills the ground G under the sea surface LS, but the present invention is not limited to this, and the tiltable drilling of the ground below the water surface is possible. If it is a type | mold drilling apparatus, it can apply also to other apparatuses, for example, what drills the ground under a lake surface or a deep river. In addition, it is possible to appropriately change the detailed configuration within the scope of the gist of the present invention.

DESCRIPTION OF SYMBOLS 1 Tiltable type drilling device 2 Guide pipe 3 Casing pipe 7 Support body 8 Drilling rod 12 Swivel head 16 Hydraulic unit (drive device)
21 logging well 25 winch 25a cable 26 sonde G ground S work boat C crane

Claims (2)

A tiltable drilling device for drilling underwater ground from above the water,
A guide pipe standing vertically on the ground and having an upper portion protruding above the water;
A casing pipe inserted into the guide pipe;
A bore rod insertable into the casing pipe;
A support that can be attached to and detached from the upper end of the guide pipe;
A swivel head supported by the support and for rotating and lifting the borehole rod;
A driving device provided on a work ship moored in the vicinity of the guide pipe, and driving the swivel head;
Logging wells that can be attached to and detached from the upper end of the guide pipe;
In order to perform logging of the ground, a sonde that is suspended in the logging well through a cable and inserted into a borehole bored by the borehole rod,
A winch provided on the logging well and connected to the cable for raising and lowering the sonde;
At the time of a drilling operation for drilling the ground, the drill rod is inserted into the casing pipe with the support attached to the upper end of the guide pipe, and is driven by the drive device via the swivel head. As a result, the ground is drilled,
During the logging operation for logging the ground, with the logging rod attached to the upper end of the guide pipe, the sonde is inserted into the borehole and while being raised and lowered by the winch, A tiltable drilling device characterized by logging with a sonde. The work ship is equipped with a crane,
The tiltable drilling device according to claim 1, wherein the support and the logging well are attached to and detached from the guide pipe using the crane.

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