JP2010065382A - Device and method for constructing steel pipe pile - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device and a method for constructing a steel pipe pile, which enable the device for constructing a steel pipe pile to be surely installed (fixed) in a structural simple manner on a ground surface by easy operations. <P>SOLUTION: The rising-type construction device 7 includes a fixing means 10, a rising stand 20, a turning imparting means 30 which can be freely moved by being guided by the rising stand 20, and a lifting and lowering means 40 for moving (lifting and lowering) the turning imparting means 30. A fulcrum ring 21 is installed at the lower end of the rising stand 20; and fulcrum shafts 11 for being inserted into the fulcrum ring 21 are unliftably fixed by anchor pins 14a and 14b which are not parallel to each other and which are installed at both ends thereof, respectively, and anchor pins 14c and 14d which are not parallel to each other. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a steel pipe pile construction device and a steel pipe pile construction method, in particular, a steel pipe pile construction device for installing a steel pipe pile on a ground whose surface is horizontal or inclined, and a steel pipe pile using the steel pipe pile construction device. It relates to the construction method.

  2. Description of the Related Art Conventionally, a double-pipe excavation method is known as a construction method for efficiently installing a tubular pile (collectively referred to as “steel pipe pile” in the present invention) on the ground. And the invention which simplified the structure of the construction apparatus of the steel pipe pile used for this construction method by the inventors etc. and improved workability is developed (for example, refer to patent documents 1).

JP 2007-188271 A (page 2-3, FIG. 4)

That is, the construction method disclosed in Patent Document 1 includes a double pipe including an inner bit having a digging blade on the front surface and an outer bit having a digging blade on the front surface or a side surface and detachable from the inner bit. It is a construction method of a steel pipe pile on an inclined surface using an excavation bit,
Connecting a drill pipe to the inner bit;
Connecting a steel pipe pile to the outer bit;
Integrating the inner bit to which the excavation pipe is connected and the outer bit to which the steel pipe pile is connected;
A step of installing an upright steel pipe pile construction device at a construction point of the inclined surface, comprising a standing upstand that can stand upright and a rotation imparting means that is movably installed on the upright stand;
The step of attaching the integrated excavation pipe to the rotation applying means in a state where the standing stand of the construction apparatus of the standing steel pipe pile installed at the construction point is lying down,
Erecting a standing stand of the construction apparatus for the upright steel pipe pile, and erecting the integrated excavation pipe at a predetermined angle with respect to the inclined surface;
Activating the rotation applying means and applying rotation to the integrated excavation pipe to draw the integrated steel pipe pile into the ground while excavating the inclined surface;
When the integrated steel pipe pile is drawn to a predetermined depth, the outer bit and the steel pipe pile are separated, the excavation pipe to which the inner bit is connected is pulled up to the ground, and the outer bit is connected. Leaving the steel pipe piles in the ground,
The step of lying the standing stand of the construction device of the standing steel pipe pile, and lying the raised excavation pipe at a predetermined angle with respect to the inclined surface,
It is what has.

Therefore, since the excavating pipe can be attached to the rotation applying means with the standing stand lying down by using the standing steel pipe pile construction device, the platform is not required and the device is simplified and the work is easy. And be quick. Therefore, it is possible to reduce the construction cost or shorten the construction period.
At this time, since the standing steel pipe pile construction device is installed on the ground surface by a pair of vertically anchored anchor pins, the upright steel pipe pile is caused by upward force and vibration acting during excavation. The construction equipment and anchor pins sometimes lifted up. Therefore, there has been a demand to install (fix) the standing steel pipe pile construction device on the ground surface with an easy work with a simple structure.

  The present invention responds to such a demand, and has a simple structure, and can reliably install (fix) a steel pipe pile construction device on the ground surface by an easy operation. And it aims at providing the construction method of a steel pipe pile.

(1) A steel pipe pile construction device according to the present invention includes a fulcrum ring,
A stand with one end fixed to the fulcrum ring;
A screw rod disposed in parallel to the stand and having one end pivotably mounted on the fulcrum ring;
Screw rod rotating means for rotating the screw rod;
Rotation imparting means guided by the stand and moved by the screw rod;
A fulcrum shaft inserted into the fulcrum ring;
An anchor pin installing member installed on the fulcrum shaft and having two or more through holes;
An anchor pin that penetrates the through hole of the anchor pin installation member;
Have
Of the anchor pins, at least a pair of anchor pins are not parallel to each other.

(2) Moreover, the board | substrate mounted in a construction point,
A fixed stand erected on the substrate;
An elevating block installed on the fixed stand so as to be movable up and down;
A rotation imparting means rotatably installed on the lifting block;
Elevating means for elevating the elevating block;
Have
The substrate is installed at a construction point by at least a pair of anchor pins that are not parallel to each other.

(3) Moreover, one end of the steel pipe is connected to the outer bit of the double-pipe excavation bit composed of an outer bit and an inner bit that are detachable from each other,
The other end of the excavation pipe inserted from the other end of the steel pipe and having the inner bit installed at one end is connected to the rotation applying means.

(4) Furthermore, the construction method of the steel pipe pile according to the present invention is as follows:
A steel pipe pile construction method using a double pipe excavation bit composed of an inner bit and an inner bit that are detachable from each other,
Connecting a drill pipe to the inner bit;
Connecting a steel pipe pile to the outer bit;
Integrating the inner bit to which the excavation pipe is connected and the outer bit to which the steel pipe pile is connected;
Placing the standing steel pipe pile construction device at a construction point, comprising a standing stand that can stand upright and a rotation imparting means that is movably installed on the standing stand;
The step of attaching the integrated excavation pipe to the rotation applying means in a state where the standing stand of the construction apparatus of the standing steel pipe pile installed at the construction point is lying down,
Erecting a standing stand of the standing steel pipe pile construction device, and erecting the integrated excavation pipe at a predetermined angle;
Activating the rotation applying means and applying rotation to the integrated excavation pipe, thereby drawing the integrated steel pipe pile into the ground; and
When the integrated steel pipe pile is drawn to a predetermined depth, the outer bit and the steel pipe pile are separated, the excavation pipe to which the inner bit is connected is pulled up to the ground, and the outer bit is connected. Leaving the steel pipe piles in the ground,
A step of lying down the standing stand of the construction device of the upright steel pipe pile, and lying down the raised excavation pipe;
Have
The upright steel pipe pile construction device is installed at a construction point by at least a pair of anchor pins that are not parallel to each other.

(5) Moreover, it is the construction method of a steel pipe pile using the double pipe type excavation bit comprised from the inner bit and inner bit which are mutually detachable,
Connecting one end of a drilling pipe to the inner bit;
Connecting one end of the steel pipe pile to the outer bit;
Integrating the inner bit to which the excavation pipe is connected and the outer bit to which the steel pipe pile is connected;
Swing comprising the fixed stand, an elevating block that can be moved up and down on the fixed stand, a rotation imparting unit that is rotatably installed on the elevating block, and an elevating unit that raises and lowers the elevating block A process of placing the construction equipment of the steel pipe piles at the construction point;
Attaching the other end of the excavation pipe to the rotation applying means in a state where the lifting block is lowered;
Raising the lifting block of the swinging steel pipe pile construction device, and erecting the integrated excavation pipe at a predetermined angle;
Activating the rotation applying means and applying rotation to the integrated excavation pipe, thereby drawing the integrated steel pipe pile into the ground; and
When the integrated steel pipe pile is drawn to a predetermined depth, the inner bit and the outer bit are separated, the excavation pipe to which the inner bit is connected is pulled up to the ground, and the outer bit is connected. Leaving the steel pipe piles in the ground,
Lowering the lifting block of the swinging steel pipe pile construction device, and lying down the raised excavation pipe,
Placing the swinging steel pipe pile construction device at the construction point,
The swinging steel pipe pile construction device is installed at a construction point by at least a pair of anchor pins that are not parallel to each other.

The construction apparatus for steel pipe piles according to the present invention has a simple structure because the anchor pins do not float because at least a pair of anchor pins are not parallel among the anchor pins penetrating the through hole of the anchor pin installation member. Therefore, the steel pipe pile construction device can be reliably installed (fixed) on the ground surface by an easy operation (the reason will be described in detail separately).
In addition, since the substrate is installed by at least a pair of anchor pins that are not parallel to each other, the anchor pins do not float up. Can be installed (fixed).

  Furthermore, in the construction method of the steel pipe pile according to the present invention, the standing steel pipe pile construction apparatus and the swinging steel pipe pile construction apparatus used for this are installed on the ground surface by at least a pair of anchor pins that are not parallel to each other. Therefore, it is a simple structure, and it is possible to reliably install (fix) the standing steel pipe pile construction device and the swinging steel pipe pile construction device on the ground surface by an easy operation.

[Embodiment 1: Steel pipe pile construction equipment]
1 and 2 schematically illustrate a steel pipe pile construction apparatus (hereinafter referred to as “stand-up construction apparatus”) according to Embodiment 1 of the present invention. FIG. 1 illustrates a double-pipe excavation bit and the like. The upper half shown is a side view, the lower half is a cross-sectional view, and FIG. 2 is a perspective view showing a part of the standing construction apparatus. In addition, the engagement and dimensions of the members in each drawing are exaggerated and expanded or contracted or deformed for easy understanding.

(Double pipe drilling bit)
In FIG. 1, a double-pipe excavation bit 1 includes an inner bit 2 having the excavation blade 2b on the front surface (same as the pilot bit) and an outer bit 3 having the excavation blade 3b on the front surface or the side surface (same as the ring bit). ) And. The outer bit 3 is detachably joined to the inner bit 2 via a joining mechanism (not shown), and the rotational force and striking force applied to the inner bit are transmitted to the outer bit 3 (Japanese Patent Application 2003). -3873181).

(Standing construction equipment)
In FIG. 2A, the upright construction apparatus 7 moves (moves up and down) the fixing means 10, the upright stand 20, the rotation applying means 30 that is guided by the upright stand 20, and the rotation applying means 30. Elevating means 40.

(Fixing means)
A fulcrum ring 21 serving as a tilting fulcrum is installed at the lower end of the stand 20. The fixing means 10 is formed at a fulcrum shaft 11 inserted into the fulcrum ring 21, anchor pin insertion holes 12 a and 12 b formed at one end of the fulcrum shaft 11, and at the other end of the fulcrum shaft 11. Anchor pins 14a, 14b, 14c, 14d inserted into the anchor pin insertion holes 12c, 12d and the anchor pin insertion holes 12a, 12b, 12c, 12d (hereinafter collectively referred to as “anchor insertion holes 12”), respectively. (Hereinafter collectively referred to as “anchor pin 14”).

At this time, the anchor pin insertion hole 12a and the anchor pin insertion hole 12b are not parallel so that the anchor pin 14a and the anchor pin 14b are not parallel, and similarly, the anchor pin 14c and the anchor pin 14c are not parallel. The anchor pin insertion hole 12c and the anchor pin insertion hole 12d are not parallel.
Further, presser plates 13a, 13b, 13c, and 13d (hereinafter collectively referred to as “presser plate 13”) for pressing the support shaft 11 are fixed to the anchor pins 14a, 14b, 14c, and 14d, respectively.

  Note that the present invention is not limited to the illustrated form, and the anchor pin insertion hole 12 is formed in the pressing plate 13, the pressing plate 13 is fixed to the support shaft 11, and the anchor formed on the pressing plate 13. The anchor pin 14 may be inserted into the pin insertion hole 12. At this time, the pressing plate 13a and the pressing plate 13b are fixed to the support shaft 11 so that the anchor pin 14a and the anchor pin 14b are not parallel to each other (the same plane). Similarly, the pressing plate 13c and the pressing plate 13d are fixed to the support shaft 11 so as not to be parallel (on the same plane).

(Guidance means)
The stand 20 is formed by a pair of tubes, and the lower ends of the tubes are connected by a stand substrate 22. And the guide means 23 which guides the steel pipe pile 6 to the stand board | substrate 22 is provided. The guide means 23 is formed of a fixed short half steel pipe 23a fixed to the stand substrate 22 and a rotary short half steel pipe 23b. The latter is connected to the former by a hinge means 23c so as to be rotatable. Then, it is fixed in a non-rotatable manner by the lock means 23d. Although the standing stand 20 is illustrated as being formed from a pair of circular tubes, the present invention is not limited to this, and three or more tubes or rods, or one tube is used. It may be a steel having a U-shaped cross section.

(Elevating means)
The elevating means 40 includes a screw rod 41 (same as the spline shaft) rotatably installed on the stand 20 (same as the stand substrate 22), a screw rod drive motor 42 fixed to the stand substrate 22, and a screw rod drive. A rotation transmission mechanism (not shown) that transmits the rotation of the motor 42 to the screw rod 41 is provided. And the rotation provision means 30 (refer FIG. 3 etc.) mentioned later latches to the screw rod 41, and is guided to the standing stand 20 by rotation of the screw rod 41, and moves.

[Embodiment 2: Construction method of steel pipe pile using upright construction equipment]
3-5 is a side view explaining the construction method (henceforth "this construction method 1") of the steel pipe pile concerning Embodiment 2 of this invention later on in process. Note that the engagement and dimensions of the members in each drawing are schematically shown for easy understanding, and some of them are exaggerated, stretched or deformed.

(Integration process of double-pipe drilling bit)
The construction method 1 includes a step of connecting a drill pipe 4 (same as a drill rod) to the inner bit 2 and a cylindrical connecting part 5 (so-called top) fixed to an end of a steel pipe pile 6 (same as a casing). The step of connecting the joint and casing shoe to the outer bit 3 in a rotatable manner, the inner bit 2 (excavated pipe 4 is connected) and the outer bit 3 (steel pipe pile 6 via the cylindrical connecting part 5). And connecting them to each other.
In addition, this integration process may be performed on a flat ground other than the construction point 9 (for example, sloping ground), and the integrated unit may be transported to the construction point 9, or separately or partially. After transporting to the construction point 9 in a state where only the two are joined, they may be integrated at the construction point 9.

(Installation process of upright construction equipment)
3A, the construction method 1 includes a step of placing the standing construction device 7 on the construction point 9. At this time, the standing construction apparatus 7 carries the standing stand 20 in a lying state to the construction point (for example, the construction point 9 may be pulled up by a winch or the like), and the fulcrum shaft 11 is attached to the fulcrum ring 21 of the standing stand 20. And the fulcrum shaft 11 is fixed by a total of four anchor pins 14. At this time, in the state where the standing stand 20 is lying down so that the tip 22 is on the lower position side of the construction point 9 (the fulcrum ring 21 is higher than the construction point 9), the rotation applying means 30 is the tip of the standing stand 20. It is located close to 22.

(Connection process to rotation applying means)
3B, the integrated steel pipe pile 6 is placed on a stand 20 and the integrated excavating pipe 4 is connected to the rotation applying means 30. In addition, exactly, the drive coupling 4a (refer FIG. 1) by which the steel pipe pile 6 is mounted in the mounting part (not shown) provided in the standing stand 20, and is being fixed to the edge part of the excavation pipe 4. FIG. Is connected to a drive shaft (not shown) of the rotation applying means 30.
At this time, either the integrated excavation pipe 4 or the rotation imparting means 30 may be moved. And the position close | similar to the cylindrical connection part 5 of the steel pipe pile 6 is guided by the guide means 23 with a clearance gap (it can be rotated around the pipe axis and can be raised and lowered in the pipe axis direction).

(Standing process)
As shown to (a) of FIG. 4, this construction method 1 has the process of standing upright the stand 20 with respect to the construction point 9 perpendicularly.
At this time, in the initial stage of standing, the wire 50 connected to the tip 22 of the standing stand 20 is locked to the sheave 15a and the wire 50 is wound up (indicated by a two-dot chain line in FIG. 4B). ). By doing so, the moment which tries to stand upright stand 20 generate | occur | produces reliably. If it is not necessary to lock the wire 50 to the sheave 15a depending on the shape of the construction point 9 or the installation position of a wire winding means (not shown), the installation of the sheave 15a may be omitted.

(Drilling process)
As shown in FIG. 4 (b), the construction method 1 starts the rotation applying means 30 and applies rotation to the integrated excavation pipe 4. The excavation point 9 is excavated by the excavation blade 2b and the excavation blade 3b, and the steel pipe pile 6 integrated with the excavation is drawn into the ground.
At this time, the standing stand 20 is fixed by the anchor pin 14, supported by the wire 50, and the steel pipe pile 6 is guided by the guide means 23, so that the excavation position does not move and the excavation direction does not change. .
Instead of the wire 50, a lock mechanism for stopping the tilting of the standing stand 20 may be provided.

In particular, the anchor pin through-holes 13a and the anchor pin through-holes 13b are not parallel and are placed in a "C" shape. Similarly, the anchor pins 14c and the anchor pins 14c are not parallel and are given a "C" shape. Therefore, the anchor pin 14 is not lifted by the upward excavation reaction force.
That is, since the anchor pin 14 is driven in the “C shape”, the digging reaction force hardly acts in the axial direction of the anchor pin 14 and remains in the “C shape” form with the stand 20 , That is, a force in a direction inclined with respect to the axial direction of the anchor pin 14. Then, when an axial force is applied to the anchor pin 14, when the force overcomes the sliding resistance of the surface of the anchor pin 14, the anchor pin 14 is pulled out from the ground, but is inclined with respect to the axial direction. The direction force is applied because the anchor pin 14 does not move in the ground unless the force deforms the ground or excludes a part of the ground. And the deformation resistance of the ground is sufficiently large compared to the sliding resistance.

(Inner bit collection process)
Further, as shown in FIG. 5 (a), the present construction method 1 is performed when the excavation reaches a predetermined depth, that is, when the integrated steel pipe pile 6 is drawn to the predetermined depth. Is stopped, the inner bit 2 and the outer bit 3 are separated, and the excavation pipe 4 to which the inner bit 2 is connected is pulled up, that is, the steel pipe pile 6 to which the outer bit 3 is connected is left in the ground. The process of carrying out.
Since the inner bit 2 and the outer bit 3 are joined by a bayonet structure, the inner bit 2 is easily separated from the outer bit 3 by rotating in the direction opposite to the direction in which the inner bit 2 is excavated and pulling up.

And as shown in FIG.5 (b), this construction method 1 lies the standing stand 20 of the standing construction apparatus 7, and detaches the separated excavation pipe 4 (the inner bit 2 is connected). A step of lying down substantially parallel to the construction point 9; Therefore, in this state, the excavation pipe 4 (with the inner bit 2 connected) can be removed from the standing construction apparatus 7.
If the wire 50 is locked to the sheave 15a in the middle of lodging, the force acting on the wire 50 is reduced when the angle formed by the stand 20 with respect to the construction point 9 is reduced (when approaching parallel). can do.

(Function and effect)
As described above, this construction method 1 is easy to install the upright construction device 7 at the construction point 9 and can easily and reliably leave the steel pipe pile 6 in the ground. Therefore, the construction cost can be reduced or the construction period can be shortened.
In particular, since the anchor pin 14 is driven in the above-mentioned “C” shape, it does not float (extracts) during excavation, so that the stability of construction work and the maintenance and improvement of construction accuracy are guaranteed. The
In addition, although the above has shown the 0 thing connected to the standing construction apparatus 7 in the state in which the excavation pipe 4 and the steel pipe pile 6 were integrated, this invention is not limited to this and is continuous. When the steel pipe pile is installed, after leaving the preceding steel pipe pile 6 in the ground, the excavation pipe 4 (the inner bit 2 used for excavation is connected to the standing construction apparatus 7). A new steel pipe pile 6 (with a new outer bit 3 connected thereto) may be connected.

In addition, as described above, the standing stand 20 is in a state where the tip 22 is lying on the lower side of the construction point 9 (the fulcrum ring 21 is higher than the construction point 9), and the rotation imparting means 30 is connected to the excavating pipe 4. However, the present invention is not limited to this, so that the tip 22 is on the higher position side of the construction point 9 (the fulcrum ring 21 is lower than the construction point 9). The excavation pipe 4 may be connected to the rotation applying means 30 in a lying state.
At this time, the stand 20 is installed at a position lower than the tip lifting means (not shown) (for example, the second wire connected to the tip 22 of the stand 20 and the construction point 9 for winding the second wire). The means for winding the second wire is erected substantially vertically, and thereafter, while the wire 50 is rewound, the stand 20 is made perpendicular to the construction point 9 and supported.

Furthermore, although the case where it excavates by the rotational force by the rotation provision means 30 above is demonstrated, this invention is not limited to this, A striking means (down the hole drill etc.) is installed in a drilling pipe, and it rotates. You may excavate with both force and striking force. At this time, even if it is a difficult excavation inclined surface, excavation becomes possible and excavation speed becomes high.
Further, the rotation applying means 30 may be provided with a striking force applying function as well as a rotating force applying function. At this time, even if it is difficult to excavate (such as an inclined surface), excavation becomes possible or the excavation speed increases.
Moreover, although the above has shown the case where a total of four anchor pins 14 are used, the present invention is not limited to this, and may be two or more including a pair of anchor pins 14 that are not parallel to each other. .

Also, the anchor pin through hole 13a and the anchor pin through hole 13b are parallel to each other, and the anchor pin 14a and the anchor pin 14b are larger than the outer diameter of the anchor pin 14a so that the anchor pin 14a and the anchor pin 14b can be driven in a mutually non-parallel state. The inner diameter may be larger than the inner diameter and the outer diameter of the anchor pin 14b.
Further, the first plate member in which the anchor pin through-holes 13a are formed and the second plate member in which the anchor pin through-holes 13b are formed are welded and fixed to the end portion of the fulcrum shaft 11 in a posture that is mutually C-shaped. Alternatively, a plate material in which a through hole having an inner diameter larger than the outer diameter of the anchor pins 12a and 12b may be fixed to the end portion of the fulcrum shaft 11 by welding.

[Embodiment 3: Swinging construction device]
6 and 7 illustrate a steel pipe pile construction apparatus according to Embodiment 3 of the present invention. FIG. 6 is a side view schematically showing the whole, and FIG. 7 is a schematic view of a part (substrate). FIG. In addition, the engagement and dimensions of the members in each drawing are exaggerated and expanded or contracted or deformed for easy understanding.
In FIG. 6, a steel pipe pile construction device (hereinafter referred to as a “swinging construction device”) 8 includes a substrate 71 placed at a construction point, a fixed stand 70 erected on the substrate 71, and a fixed stand. And an elevating block 80 that is installed on the elevating block 80, a rotation imparting means 30 that is installed on the elevating block 80, and an elevating means (equivalent to a winch) 60 that elevates and lowers the elevating block 80. Yes.

A rotation shaft 83 for rotation is formed in the rotation imparting means 30, and a rotation mechanism is formed by inserting the rotation shaft 83 into a rotation hole 81 formed in the lifting block 80. Yes. Note that a rotation hole 81 may be formed in the rotation applying means 30 and the rotation shaft 83 may be installed in the lifting block 80.
Furthermore, the raising / lowering means 60 is not limited, For example, according to Embodiment 1, the raising / lowering block 80 may be raised / lowered by the screw rod 41 (same as a spline shaft).

In FIG. 7, anchor pin through holes 73a, 73b, 73c, 73d (hereinafter collectively referred to as “anchor pin through holes 73”) are formed at four corners of the substrate 71, respectively. Pins 74a, 74b, 74c, and 74d (hereinafter collectively referred to as “anchor pins 74”) pass therethrough.
At this time, the inner diameter of the anchor through-hole 73 is larger than the outer diameter of the anchor pin 74, and the pair of anchor pins 74 are not parallel to each other. For example, the four anchor pins 74 each correspond to the ridgeline of the square frustum.
In addition, a substrate pressing portion (same as a retaining portion) 75 that cannot pass through the anchor through hole 73 is provided at the upper end of the anchor pin 74. The shape of the substrate pressing portion is not limited. For example, a plate material or a substantially hemisphere may be fixed by welding to the upper end of the anchor pin 74, or the upper end portion of the anchor pin 74 may be bent into an L shape or a palm shape. Good.
Furthermore, the number of anchor pins 74 is not limited to four, and may be two or more including a pair of anchor pins 74 that are not parallel to each other.

[Embodiment 4: Construction method of steel pipe pile using swing-type construction device]
8-11 is a side view explaining the construction method (henceforth "the present construction method 2") of the steel pipe pile concerning Embodiment 4 of this invention later on in process. In addition, the engagement and dimensions of the members in each drawing are exaggerated and expanded or contracted or deformed for easy understanding.
In FIG. 8, this construction method 2 uses a swinging construction apparatus 8 instead of the standing construction apparatus 7 used in the present construction method 1 (Embodiment 2).
Therefore, while omitting the description of the contents common to the construction method 1 such as the step of integrating the inner bit 2 to which the excavating pipe 4 is connected and the outer bit 3 to which the steel pipe pile 6 is connected, Common members or corresponding members are denoted by the same reference numerals, and description thereof is omitted.

(Placing process of swing-type construction equipment)
In FIG. 8A, the construction method 2 includes a step of placing the swinging construction device 8 on the construction point 9. At this time, the swing-type construction apparatus 8 may attach all members such as the fixed stand 70 to the substrate 71 and pull up the construction point 9 by means not shown (for example, winch or the like). All or some of the members such as the stand 70 may be separately transported to the construction point 9 and attached at the construction point 9 to assemble (complete) the swing construction device 8.
At this time, the four anchor pins 74 are driven so as not to be parallel to each other, and the substrate pressing portion 75 is in contact with the upper surface of the substrate 71. Therefore, for the same reason as described in the first embodiment, the substrate 71 is firmly pressed without the anchor pin 74 coming out.

(Connection process to rotation applying means)
As shown in FIG. 8B, the present construction method 2 is integrated with the rotation applying means 30 in a state where the lifting block 80 of the swinging construction device 8 installed at the construction point 9 is lowered. A step of attaching the excavation pipe 4; At this time, since the rotation imparting means 30 is rotatably supported by the elevating block 80, it can be swung (floating), and can rotate substantially parallel to the surface (ground, slope, etc.) of the construction point 9. ing. Therefore, the integrated excavation pipe 4 can be easily connected to the rotation applying means 30 on the construction point 9 while maintaining a posture substantially parallel to the construction point 9.

(Drilling process)
And the raising / lowering block 80 is started by starting the raising / lowering means 40, and has the process of lifting the integrated excavation pipe 4 ((a) of FIG. 9). Then, since the integrated excavation pipe 4 tends to become vertical, the integrated excavation pipe 4 is made parallel to the fixed stand 70 by traction means or human power (not shown), and the tubular connection of the steel pipe pile 6 is performed. The position close to the portion 5 is constrained by the guide means 73 so as to be rotatable around the tube axis and movable (lifted / lowered) in the tube axis direction ((b) of FIG. 9).

(Inner bit collection process)
And after excavating ((a) of FIG. 10) and leaving the pipe anchor 6 (the cylindrical connecting part 5 and the outer bit 3 are connected) in the ground in the same manner as the present construction method 1. And a step of pulling up the excavation pipe 4 to which the inner bit 2 is connected ((b) of FIG. 10).
And it has the process (FIG. 11) which descends the raising / lowering block 80 of the swing-type construction apparatus 8, and falls the separated excavation pipe 4 substantially parallel to the construction point 9. FIG. Therefore, in this state, the excavation pipe 4 (with the inner bit 2 connected) can be removed from the swing construction apparatus 8.

(Function and effect)
As described above, the present construction method 1 is firmly fixed to the construction device 7 of the swing-type steel pipe pile placed at the construction point 9 by the anchor pins 74 that are not parallel to each other, so that it floats during excavation ( Therefore, the stability of construction work and the maintenance and improvement of construction accuracy are guaranteed. Moreover, since the integrated excavation pipe 4 can be connected easily and reliably, the operation becomes easy and quick. Therefore, the construction reliability can be improved and the construction cost can be reduced or the construction period can be shortened.
In addition, although the above has shown what is connected to the swing-type construction apparatus 8 in the state in which the excavation pipe 4 and the steel pipe pile 6 were integrated, this invention is not limited to this, The steel pipe pile 6 Is left in the ground, and the new steel pipe pile 6 (the new outer bit 3 is attached to the excavation pipe 4 (the inner bit 2 used for excavation is connected)) that is still connected to the swinging construction device 8. May be connected).

  In addition, as described above, the excavation pipe 4 is connected to the rotation applying means 30 in a state where the double-tube excavation bit 1 connected to the excavation pipe 4 is located at a lower position at the construction point 9 than the position of the fixed stand 70. However, the present invention is not limited to this, and the excavation pipe 4 is in a state where the double-pipe excavation bit 1 is located at a position higher than the position of the fixed stand 70 at the construction point 9. May be connected to the rotation applying means 30. At this time, as the rotation imparting means 30 rises, the double-pipe excavation bit 1 is parallel to the fixed stand 70 without leaving the construction point 9, so that the excavation pipe 4 is parallel to the fixed stand 70. There is no need to install special means.

In addition, although the case where it excavates by the rotational force by the rotation provision means 30 is demonstrated, this invention is not limited to this, A striking means (down the hole drill etc.) is installed in a drilling pipe, and a rotational force and impact You may drill both with force. At this time, even if it is a difficult excavation inclined surface, excavation becomes possible and excavation speed becomes high.
Further, the rotation applying means 30 may be provided with a striking force applying function as well as a rotating force applying function. At this time, even if it is a difficult excavation inclined surface, excavation becomes possible and excavation speed becomes high.

  The present invention fixes the steel pipe pile excavation device with anchor pins that are not parallel to each other and can easily and quickly connect the excavation pipe to the rotation imparting means without climbing the platform or the like. Maintenance and improvement of construction accuracy can be guaranteed, and construction cost can be reduced or construction period can be shortened. Therefore, it can utilize widely as a construction apparatus of various steel pipe piles which installs a steel pipe pile in the ground of various construction conditions, and a construction method of various steel pipe piles.

The upper half which shows typically the double pipe type excavation bit etc. in the construction equipment of the steel pipe pile concerning Embodiment 1 of the present invention is a side view, and the lower half is a sectional view. The perspective view which shows typically a part of construction apparatus of the steel pipe pile which concerns on Embodiment 1 of this invention. The side view explaining the construction method of the steel pipe pile which concerns on Embodiment 2 of this invention later on by a process. FIG. 4 is a side view schematically illustrating a process following FIG. 3. FIG. 5 is a side view schematically illustrating a process following FIG. 4. The side view which shows typically the whole construction apparatus of the steel pipe pile which concerns on Embodiment 3 of this invention. The perspective view which shows typically a part of construction apparatus of the steel pipe pile which concerns on Embodiment 3 of this invention. The side view explaining the construction method of the steel pipe pile concerning Embodiment 4 of this invention later on in process. FIG. 9 is a side view schematically illustrating a process following FIG. 8. FIG. 10 is a side view schematically illustrating a process following FIG. 9. FIG. 11 is a side view schematically illustrating a process following FIG. 10.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Double pipe type drill bit 2 Inner bit 2b Drilling blade 3 Outer bit 3b Drilling blade 4 Drilling pipe 4a Drive coupling
5 Cylindrical connecting part 6 Steel pipe pile 7 Construction device for standing steel pipe pile (Embodiment 1)
8 Swinging steel pipe pile construction device (Embodiment 2)
9 inclined surface 10 anchor pin 11 fulcrum shaft 12 sheave 20 standing stand 21 fulcrum ring 22 tip 23 guide means 30 rotation applying means 40 elevating means 50 wire 70 fixed stand 73 guide means 80 elevating block

Claims (5)

A fulcrum ring,
A stand with one end fixed to the fulcrum ring;
A screw rod disposed in parallel to the stand and having one end pivotably mounted on the fulcrum ring;
Screw rod rotating means for rotating the screw rod;
Rotation imparting means guided by the stand and moved by the screw rod;
A fulcrum shaft inserted into the fulcrum ring;
An anchor pin installing member installed on the fulcrum shaft and having two or more through holes;
An anchor pin that penetrates the through hole of the anchor pin installation member;
Have
A construction apparatus for steel pipe piles, wherein at least a pair of anchor pins among the anchor pins are not parallel to each other. A substrate placed at the construction point;
A fixed stand erected on the substrate;
An elevating block installed on the fixed stand so as to be movable up and down;
A rotation imparting means rotatably installed on the lifting block;
Elevating means for elevating the elevating block;
Have
The construction apparatus for steel pipe piles, wherein the substrate is installed at a construction point by at least a pair of anchor pins that are not parallel to each other. One end of a steel pipe is connected to the outer bit of the double-pipe excavation bit composed of an outer bit and an inner bit that are detachable from each other,
The other end of the excavation pipe inserted from the other end of the steel pipe and having the inner bit installed at one end is connected to the rotation applying means. Construction equipment for steel pipe piles as described. A steel pipe pile construction method using a double pipe excavation bit composed of an inner bit and an inner bit that are detachable from each other,
Connecting a drill pipe to the inner bit;
Connecting a steel pipe pile to the outer bit;
Integrating the inner bit to which the excavation pipe is connected and the outer bit to which the steel pipe pile is connected;
Placing the standing steel pipe pile construction device at a construction point, comprising a standing stand that can stand upright and a rotation imparting means that is movably installed on the standing stand;
The step of attaching the integrated excavation pipe to the rotation applying means in a state where the standing stand of the construction apparatus of the standing steel pipe pile installed at the construction point is lying down,
Erecting a standing stand of the standing steel pipe pile construction device, and erecting the integrated excavation pipe at a predetermined angle;
Activating the rotation applying means and applying rotation to the integrated excavation pipe, thereby drawing the integrated steel pipe pile into the ground; and
When the integrated steel pipe pile is drawn to a predetermined depth, the outer bit and the steel pipe pile are separated, the excavation pipe to which the inner bit is connected is pulled up to the ground, and the outer bit is connected. Leaving the steel pipe piles in the ground,
A step of lying down the standing stand of the construction device of the upright steel pipe pile, and lying down the raised excavation pipe;
Have
The construction method of a steel pipe pile, wherein the standing steel pipe pile construction device is installed at a construction point by at least a pair of anchor pins that are not parallel to each other. A steel pipe pile construction method using a double pipe excavation bit composed of an inner bit and an inner bit that are detachable from each other,
Connecting one end of a drilling pipe to the inner bit;
Connecting one end of the steel pipe pile to the outer bit;
Integrating the inner bit to which the excavation pipe is connected and the outer bit to which the steel pipe pile is connected;
Swing comprising the fixed stand, an elevating block that can be moved up and down on the fixed stand, a rotation imparting unit that is rotatably installed on the elevating block, and an elevating unit that raises and lowers the elevating block A process of placing the construction equipment of the steel pipe piles at the construction point;
Attaching the other end of the excavation pipe to the rotation applying means in a state where the lifting block is lowered;
Raising the lifting block of the swinging steel pipe pile construction device, and erecting the integrated excavation pipe at a predetermined angle;
Activating the rotation applying means and applying rotation to the integrated excavation pipe, thereby drawing the integrated steel pipe pile into the ground; and
When the integrated steel pipe pile is drawn to a predetermined depth, the inner bit and the outer bit are separated, the excavation pipe to which the inner bit is connected is pulled up to the ground, and the outer bit is connected. Leaving the steel pipe piles in the ground,
Lowering the lifting block of the swinging steel pipe pile construction device, and lying down the raised excavation pipe,
Placing the swinging steel pipe pile construction device at the construction point,
The construction method of a steel pipe pile, wherein the swinging steel pipe pile construction device is installed at a construction point by at least a pair of anchor pins that are not parallel to each other.

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