JP4961241B2 - Rotating press-fit pile placement method, foundation structure construction method, foundation structure - Google Patents

Description

  The present invention relates to a rotary press-in pile driving method capable of driving a rotary press-fit pile even in a narrow site, and a foundation construction method using the rotary press-in pile driving method.

  2. Description of the Related Art Conventionally, a method for driving a pile by press-fitting while applying rotational force to a rotary press-fit steel pipe pile provided with a spiral blade at the tip of the pile is known. The construction method using the rotary press-fit steel pipe pile is widely used because there is an advantage that the waste soil is not discharged and the pile can be easily pulled out by reverse rotation.

When the rotary press-fit steel pipe pile is driven, it must be driven while applying sufficient rotational force and vertical driving force to the rotary press-fit steel pipe pile. As a pile driving machine used when driving such a rotary press-fit steel pipe pile, for example, an all-round rotating machine provided with a pile member that can be penetrated into the ground as described in Patent Document 1 is used. Can be used. It is also conceivable to place a rotary press-fit steel pipe pile with a three-point pile driver to which an auger motor is connected as described in Patent Document 2.
JP 2000-96971 A Utility Model Registration No. 2558762

  In recent years, it has been desired to use a rotary press-fit steel pipe pile also in construction such as renewal of a house. However, when construction is performed on a narrow site such as a residential area, the pile driving machine described in Patent Document 2 is often too large to be used. In addition, it is conceivable to downsize the above three-point pile driver so that it can be used in a narrow site, but if it is downsized, its own weight will be insufficient and sufficient rotational reaction force and driving reaction force can be obtained. Therefore, it is not possible to drive a large diameter rotary press-fit steel pipe pile.

  In addition, if a rotary press-fit steel pipe pile is driven using an all-around rotating machine described in Patent Document 1, a rotational reaction force can be obtained by a pile member penetrating into the ground, but the driving reaction force is sufficient. It is necessary to use a counterweight or the like. However, in this case, since the apparatus becomes large, there is a problem that it cannot be used in a narrow site.

  The present invention has been made in view of the above problems, and an object thereof is to enable a rotary press-fit pile to be placed even in a narrow site.

The method for placing a rotary press-fit pile according to the present invention is a method for placing a rotary press-fit pile on the ground, and a concrete construction step for constructing a concrete member on the ground at a site excluding the place where the rotary press-fit pile is placed. And a pile press-in step of rotationally press-fitting the rotary press-in pile with a pile driving machine while taking the rotary reaction force and driving reaction force of the rotary press-in pile into the concrete member.
Here, you may construct | assemble the said concrete member so that it may have a through-hole in the placement location of the said rotation press fit pile.

  Here, each of the concrete member and the pile driving machine is provided with a restraining member that restrains the movement of the pile driving machine in the rotational direction and the vertical direction by engaging each other, and in the pile press-in step, The rotational reaction force and driving reaction force may be taken on the concrete member by engaging the restraining members with each other.

  Further, the restraining member provided on the concrete member is a projecting member projecting from the concrete member, and the restraining member provided on the pile driving machine is a gripping mechanism capable of gripping the projecting member, In the pile press-fitting step, the gripping mechanism may take a reaction force on the concrete member by gripping the protruding member.

  Further, the pile driving machine may be an all-round rotating machine. In addition, the concrete member may be a part of a building foundation supported by the rotary press-fit pile, or may be at least a part of a footing.

The foundation structure construction method of the present invention is a construction method of a foundation structure composed of a rotary press-fit pile and a concrete base case, wherein at least a portion of the base case is provided at a portion excluding a place where the rotary press-fit pile is placed. A step of constructing a concrete member constituting a part, and a step of rotationally press-fitting the rotary press-in pile with a pile driving machine while taking a rotational reaction force and a driving reaction force of the rotary press-in pile into the concrete member. It is characterized by that.
The foundation structure of the present invention is constructed by the above-described foundation structure construction method.
In the present invention, “concrete” is a concept including reinforced concrete, steel concrete, and steel reinforced concrete.

  According to the present invention, since a rotational reaction force and a driving reaction force can be taken from a heavy concrete member, a large-diameter rotary press-fit pile can be placed even in a narrow site.

Hereinafter, an embodiment of a method for placing a rotary press-fitting pile according to the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram showing a configuration of an all-around rotating machine 10 used as a pile driving machine of a method for placing a rotary press-fit steel pipe pile according to the present embodiment.
As shown in the figure, the all-round rotating machine 10 includes a leg portion 16 that contacts the ground, a base frame 18 that is supported by the leg portion 16, and a vertically movable elevator that is connected to the upper portion of the base frame 18. A cylinder 11, a lifting frame 12 supported by the lifting cylinder 11, a turning device 13 attached to the lifting frame 12, a clamp device 14 attached to the inner periphery of the turning device 13, and a lower portion of the base frame 18 The gripping device 15 and the moving caterpillar 17 are provided.

  The leg portion 16 is configured to change its length, and the base frame 18 can be kept horizontal by adjusting the length of the leg portion 16. Further, a through hole 18 </ b> A for inserting the rotary press-fit steel pipe pile 110 is provided at the center of the base frame 18.

The elevating frame 12 can be moved closer to or away from the base frame 18 in the vertical direction as the elevating cylinder 11 expands and contracts. A through-hole 12 </ b> A for inserting the rotary press-fit steel pipe pile 110 is provided in the center of the elevating frame 12. The through-hole 12A is provided with a clamp device 14 capable of tightening and holding the outer periphery of the rotary press-fit steel pipe pile 110. The clamp device 14 can be rotated around an axis by the swivel device 13 so that the lifting frame 12 can be rotated. Is attached.
The gripping device 15 attached to the base frame 18 is driven by a hydraulic jack or the like, and can hold a fixed piece on the concrete member side described later.

  According to the all-around rotating machine 10 having the above-described configuration, the rotary press-fit steel pipe pile 110 is rotated by turning the clamp apparatus 14 with the turning device 13 while the rotary press-fit steel pipe pile 110 is held by the clamp device 14. The rotary press-fit steel pipe pile 110 can be rotary press-fitted into the ground by contracting the lift cylinder 11 and lowering the lift frame 12.

  Hereinafter, a method for placing a rotary press-fit steel pipe pile according to this embodiment using the above-described all-round rotating machine 10 will be described. In the following description, as shown in FIG. 2, as an example, a building 100 including an upper structure 140 supported by a foundation structure 130 including a plurality of rotary press-fit steel pipe piles 110 and footings 120 is constructed in a narrow site. explain.

Drawing 3 is a figure for explaining the process of constructing the building provided with the foundation structure which consists of a plurality of rotary press-fit steel pipe piles and footing by the placement method of the rotary press-fit steel pipe pile of this embodiment.
As shown in FIG. 1A, first, a concrete member 121 constituting the footing 120 is constructed. At this time, through holes 122 into which the rotary press-fit steel pipe piles 110 can be inserted are formed in the concrete member 121 where the rotary press-fit steel pipe piles 110 are placed, and in the vicinity of the through-holes 122, H-shaped steel is used. The fixed piece 123 is provided so as to protrude from the upper surface of the concrete member 121. In addition, as a method of forming the through-hole 122, a cylindrical formwork may be installed before placing concrete, and the formwork may be disassembled after the concrete is hardened. It is good also as a structure which embeds a member, a steel pipe, etc. The fixed piece 123 may be provided so as to protrude from the side surface of the concrete member 121 as long as it can be gripped by the gripping device 15 of the all-round rotating machine 10.

  Next, as shown in FIG. 3B, the all-round rotating machine 10 is moved by lifting by a crane or by self-propelling by a caterpillar so as to straddle any through hole 122 of the concrete member 121 constituting the footing 120. (In the drawing, lifting by a crane), the leg 16 of the all-round rotating machine 10 is grounded to the surface of the concrete member 121.

  Next, as shown in FIG. 3C, the fixed piece 123 is gripped by the gripping device 15 attached to the base frame 18 of the all-around rotating machine 10. Thereby, the all-around rotating machine 10 can take a rotational reaction force and a driving reaction force from the concrete member 121 through the fixed piece 123.

  Next, as shown in FIG. 3D, the rotary press-fit steel pipe pile 110 is inserted into the through-hole 12 </ b> A of the lifting frame 12 from above, and the rotary press-fit steel pipe pile 110 is tightened from the outer periphery by the clamp device 14. And while rotating the press-fit steel pipe pile 110 with the clamp device 14 in this way, while rotating the turning device 13, the hoisting cylinder 11 is contracted and the hoisting frame 12 is lowered to lower the rotary press-fit steel pipe pile 110. Rotate and press fit. At that time, a rotational force and a ground reaction force act on the all-round rotating machine 10 from the rotary press-fit steel pipe pile 110. However, since the all-round rotating machine 10 can take the rotational reaction force and the driving reaction force from the concrete member 121 via the fixed piece 123 by the gripping device 15, it resists this rotational force and the ground reaction force. Can do. In particular, when a large-diameter rotary press-fit steel pipe pile 110 is placed, a larger rotational force and ground reaction force act on the all-round rotating machine 10, but the concrete member 121 constituting the footing 120 is heavy. It is possible to sufficiently resist the rotational force and the ground reaction force. In this way, the rotary press-fit steel pipe pile 110 was driven to a predetermined depth while adding as necessary, and the upper end of the rotary press-fit pile 110 became a depth about the lower surface of the concrete member 121 constituting the footing 120. State.

  Next, as shown in FIG. 5E, the entire peripheral rotating machine 10 is moved over the through-hole 122 in the same manner as in FIGS. A process of gripping the fixed piece 123 with the gripping device 15 and rotationally press-fitting the rotary press-fit steel pipe pile 110 is performed.

Next, as shown in FIG. 5F, after removing the all-around rotating machine 10 from the concrete member 121 where the rotary press-fitting of the steel pipe pile 110 has been completed, the concrete 124 is put into the through holes 122 of the concrete member 121. While placing, the part which protruded on the concrete member 121 of the fixed piece 123 is cut | disconnected. Thereby, the construction of the footing 120 is completed. Then, the upper structure 140 of the building is constructed on the footing 120.
The building 100 provided with the foundation structure which consists of the rotation press-fit steel pipe pile 110 and the footing 120 by the above process can be constructed | assembled.

  As described above, according to the method of placing the rotary press-fit steel pipe pile according to the present embodiment, the all-round rotating machine 10 is provided with the gripping device 15 and is embedded in the concrete member 121 constituting the footing 120 by the gripping device 15. By gripping the fixed piece 123, the rotational reaction force and the driving reaction force can be taken from the concrete member 121. For this reason, even if it is a small and light all-around rotating machine 10, it can resist the rotational force and ground reaction force which act on the all-around rotating machine 10 from the rotation press-fit steel pipe pile 110, without providing a counterweight. It is possible to place the large diameter rotary press-fit steel pipe pile 110 even in a narrow site. In addition, since the small and light all-around rotating machine 10 can be used, a small crane that lifts the all-around rotating machine 10 can be used. Further, if the all-round rotating machine 10 is self-propelled, the large-diameter rotary press-fit steel pipe pile 110 can be driven even in the construction in a space with a limited ceiling height.

  In the present embodiment, the case where the rotary press-fit steel pipe pile 110 is driven has been described. However, the present invention is not limited to this, and the rotary press-fit pile according to the present embodiment is not limited to this. An installation method can be used.

  Moreover, in this embodiment, although it was set as the structure which takes rotation reaction force and driving reaction force from the concrete member 121 which comprises the whole footing 120 except the through-hole 122, not only this but the rotation press-fit steel pipe pile 110 is driven. If sufficient rotational reaction force and driving reaction force can be obtained, the concrete member constructed to take these reaction forces may be only a part of the footing 120.

  Moreover, although this embodiment demonstrated the case where the building 100 provided with the foundation structure 130 which consists of the footing 120 and the rotation press-fit steel pipe pile 110 was constructed | assembled, it is not restricted to this, A foundation structure of another type and a rotary press-fit steel pipe Even if it is a foundation structure which consists of pile 110, if the foundation structure of another type has a sufficient weight, the placement method of the rotation press fit exchange pile of this embodiment is applicable.

  In the present embodiment, the H-shaped steel is used as the fixed piece 123, but not limited to this, any member that is integrated with the concrete member 121 and can be gripped by the gripping device 15 can be used. Furthermore, the present invention is not limited to this, and the engaging members provided on the concrete member 121 and the all-around rotating machine 10 engage with each other, so that the all-around rotating machine 10 is moved in the rotational direction and the vertical direction of the rotary press-fit steel pipe pile 110. By restraining, an arbitrary mechanism capable of taking a rotational reaction force and a driving reaction force on the concrete member 121 can be used. For example, a bolt may be provided on one of the concrete member 121 and the all-around rotating machine 10, and a nut may be provided on the other, and the bolt and nut may be screwed together to take a reaction force on the concrete member 121.

  Further, in the above embodiment, the through hole 122 is provided in the concrete member 121, and the rotary press-fit steel pipe pile 110 is press-fitted through the through hole 122. However, the concrete member 121 is not limited to the through hole 122, and the rotary press-fit steel pipe pile is used. It is sufficient that a space is provided at a position where the rotary press-fit steel pipe pile 110 of the concrete member 121 is pressed, such as being divided at the press-fit position of 110, and the space and the through hole 122 may be hollow, The soil that constitutes the ground may remain.

It is a figure which shows the structure of a perimeter rotary machine. It is a figure which shows the building where the upper structure was constructed | assembled on the foundation structure which consists of a some rotary press-fit steel pipe pile and footing. It is a figure for demonstrating the process of constructing | assembling the building provided with the foundation structure which consists of a some rotary press-fit steel pipe pile and a footing with the placement method of the rotary press-fit steel pipe pile of this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 All-round rotating machine 11 Elevating cylinder 12 Elevating frame 13 Turning apparatus 14 Clamping apparatus 15 Clamping apparatus 16 Grasping apparatus 16 Leg part 17 Caterpillar 18 Base frame 100 Building 110 Rotary press-fit steel pipe pile 120 Footing 121 Concrete member 122 Through-hole 123 Fixed piece 124 Concrete 130 Foundation Structure 140 Superstructure

Claims (9)

A method of placing a rotary press-fit pile on the ground,
A concrete construction step of constructing a concrete member on the ground, and a part of the ground excluding the placement site of the rotary press-fit pile;
A pile press-in step of rotating and pressing the rotary press-in pile with a pile driving machine while taking the rotary reaction force and driving reaction force of the rotary press-in pile into the concrete member, and placing the rotary press-in pile Method.   The method for placing a rotary press-fit pile according to claim 1, wherein the concrete member is constructed so as to have a through hole at a place where the rotary press-fit pile is placed. Each of the concrete member and the pile driving machine is provided with a restraining member that restrains the movement of the pile driving machine by engaging each other,
3. The method for placing a rotary press-fit pile according to claim 1, wherein in the pile press-in step, the rotational reaction force and the driving reaction force are applied to the concrete member by engaging the restraining members with each other. . The restraint member provided on the concrete member is a projecting member projecting from the concrete member,
The restraining member provided in the pile driving machine is a gripping mechanism capable of gripping the protruding member,
The method of placing a rotary press-fit pile according to claim 3, wherein in the pile press-fitting step, a reaction force is applied to the concrete member by causing the gripping mechanism to grip the protruding member.   The method for placing a rotary press-fit pile according to any one of claims 1 to 4, wherein the pile driving machine is an all-around rotating machine.   The said concrete member is a part of foundation foundation of the building which the said rotary press-in pile supports, The placement method of the rotary press-in pile in any one of Claim 1 to 5 characterized by the above-mentioned.   The method for placing a rotary press-fit pile according to claim 6, wherein the foundation frame is a footing. A construction method of a foundation structure consisting of a rotary press-fit pile and a concrete foundation frame,
A step of constructing a concrete member constituting at least a part of the foundation frame in a portion excluding the placement site of the rotary press-fit pile; and
A step of rotationally press-fitting the rotary press-fit pile with a pile driving machine while taking the rotational reaction force and driving reaction force of the rotary press-fit pile into the concrete member.   A foundation structure constructed by the foundation structure construction method according to claim 8.