JP6363007B2 - Concrete pile modeling method - Google Patents

Description

  The present invention relates to a method for forming a concrete pile, and more particularly to a method for forming a concrete pile with high strength.

  A cylindrical hole is formed by drilling a cylindrical hole in the ground or concrete structure with an auger or drill, inserting an anchor material such as a reinforcing bar, and injecting and fixing a backfill material such as grout material or resin. However, if the inner surface of the cylindrical hole is smooth, the fixing strength of the concrete pile will be insufficient, and the concrete pile may come off from the ground or concrete structure when an excessive external force is applied. There is.

  On the other hand, various methods have been proposed in which a cylindrical hole is formed in a concrete structure, a ring-shaped groove is formed on the inner surface of the cylindrical hole, and the fixing strength of the concrete pile is increased. (Patent Literature 1, Patent Literature 2, Patent Literature 3).

  In addition, a drilling rod is inserted into the bottom of a cylindrical hole drilled in the ground, and a diameter-enlarged portion is formed at the bottom of the hole by a diameter-enlarging bit at the tip of the drilling rod. A method of forming a large concrete pile has been proposed (Patent Document 4).

JP 2014-156734 A JP 2005-280244 A JP-A-6-320529 Japanese Patent Laid-Open No. 07-268867

  However, although the pulling resistance of the concrete pile can be increased by the methods described in Patent Documents 1 to 4, the strength of the concrete pile itself has not been expected so much even if reinforcing bars are arranged.

  This invention makes it a subject to provide the modeling method of the concrete pile which enabled it to raise the intensity | strength of concrete pile itself in view of this problem.

  Therefore, in the method for modeling a concrete pile according to the present invention, a cylindrical hole is drilled in the ground or a concrete structure, and concrete is placed by molding the concrete pile. Forming a pilot hole having a diameter larger than that of the first hole, and setting the fixing plate on which the screw hole is formed at the inner bottom of the lower hole, and projecting into the cylindrical, tapered cylindrical or outer peripheral surface in the lower hole. A step of setting a mold having a smaller diameter than the cylindrical fixing plate formed in a spiral shape, and placing concrete between the mold and the inner surface of the pilot hole, solidifying the concrete, And forming a cylindrical hole, inserting a PC steel rod or a threaded reinforcing bar into the cylindrical hole and screwing it into the screw hole of the fixing plate, and a pressure plate on top of the threaded reinforcing bar The nut is screwed in via the PC steel rod or A step of applying a tensile force to the PC steel bar or the screw joint reinforcing rod by screwing it against the joint reinforcing bar, placing concrete in the cylindrical hole, and after solidifying the concrete, loosening the nut; And a step of forming a concrete pile in which a compressive force is applied to the solidified concrete.

  One of the features of the present invention is that a large-diameter pilot hole is formed in the ground or a concrete structure, and a fixing plate and a cylinder are formed at the bottom of the pilot hole, a tapered cylinder, or a cylindrical shape in which a protrusion is formed in a spiral shape on the outer peripheral surface. The fixing plate is fixed with cement, the PC steel bar or screw rebar is fixed to the fixing plate, the pressure plate and nut are set on the upper end, and the PC steel bar or screw rebar is pulled. After applying the force and casting and solidifying the concrete in that state, the tensile force of the PC steel bar or the threaded joint is released.

  As a result, the strength of the concrete pile is increased because the PC steel rod or screw rebar is placed in the concrete pile to increase the strength, and the compressive force is applied to the concrete pile to further increase the strength. it can.

  The formwork may be a straight pipe, but the fixing strength of the concrete pile can be further improved by using a pipe having a spiral protrusion on the outer peripheral surface.

It is a figure which shows typically preferable embodiment of the modeling method of the concrete pile concerning this invention. It is a figure which shows 2nd Embodiment.

  Hereinafter, the present invention will be described in detail based on specific examples shown in the drawings. FIG. 1 shows a preferred embodiment of a method for forming a concrete pile according to the present invention. When modeling a concrete pile, as shown in FIG. 1A, a pilot hole 21 is drilled in the ground 20 using an auger 60 or a drill. The pilot hole 21 has a diameter larger than that of the cylindrical hole 22 to be drilled, and the pilot hole is rotated by rotating a large-diameter auger or drill or turning around a central axis while rotating a small-diameter auger or drill. 21 can be formed.

  When the pilot hole 21 can be formed in this way, the fixing plate 30 is set at the bottom of the pilot hole 21 as shown in FIG. A screw hole 31 is formed at the center of the fixing plate 30.

Next, as shown in FIG. 1C, a tapered cylindrical mold 32 having a diameter smaller than that of the fixing plate 30 is set in the prepared hole 21, and the concrete is placed between the formed frame 32 and the prepared hole 21. To cast.
This mold 32 is manufactured by forming a protrusion 32A having a trapezoidal section in a spiral shape on the outer peripheral surface of a polyvinyl chloride tube having an outer diameter equal to the inner diameter of the cylindrical hole 22. The protrusion 32A may be formed integrally when the pipe is manufactured, or may be formed by cutting a thick pipe, and is manufactured separately from the pipe. You may make it adhere to an outer surface with an adhesive agent.

  When the concrete 50 is solidified and the formwork 32 is removed, a cylindrical hole 22 is formed. Therefore, as shown in FIG. 1 (d), a PC steel rod (or threaded bar) 33 is inserted into the inside 22. 1 is screwed into the screw hole 31 of the fixing plate 30, and as shown in FIG. 1E, the pressure stop plate 40 and the nut 41 are set on the upper end portion of the PC steel rod 33, and the nut 41 is screwed forward. Then, a tensile force is applied to the PC steel bar 33.

  Next, when concrete is cast in the hole 22 and the cast concrete 51 is solidified, the nut 41 is loosened and the pressure plate 40 is removed. As shown in FIG. A concrete pile to which a compressive force is applied by the bar 33 is obtained.

  As described above, the PC steel bar 33 is arranged in the concrete pile, and a compressive force can be applied to the concrete pile, thereby greatly increasing the collapse strength of the concrete pile.

  FIG. 2 shows a second embodiment, in which the same reference numerals as those in FIG. 1 denote the same or corresponding parts. In the present invention, instead of the tapered cylindrical mold 32 in the above example, a straight cylindrical mold 32-1 as shown in FIG. 2 or a cylindrical mold in which a protrusion is formed in a spiral shape on the outer peripheral surface. A frame 32-2 can be used.

  In the above, a PC steel rod is used, but a threaded reinforcing bar can also be used.

20 Ground 21 Pilot hole 22 Cylindrical hole 30 Fixing plate 31 Screw hole 32 Formwork 33 PC steel bar 40 Pressure plate 41 Nut 50 Concrete 51 Concrete

Claims (1)

When drilling a cylindrical hole in the ground or a concrete structure and placing concrete into a concrete pile,
Forming a pilot hole (21) having a diameter larger than that of the cylindrical hole in the ground (20) or the concrete structure;
The fixing plate (30) in which the screw hole (31) is formed is set on the inner bottom portion of the pilot hole (21), and a ridge is formed in the cylindrical hole, the tapered cylindrical shape or the outer peripheral surface in the pilot hole (21). A step of setting a mold (32, 32-1, 32-2) having a diameter smaller than that of the cylindrical fixing plate (30) formed in a spiral shape;
Concrete is placed between the mold (32, 32-1, 32-2) and the inner surface of the pilot hole (21), and after the concrete is solidified, the mold (32, 32-1, 32-2) is placed. Removing and forming a cylindrical hole (22);
A PC steel rod (33) or a threaded bar is inserted into the cylindrical hole (22) and screwed into the screw hole (31) of the fixing plate (30), and the PC steel rod (33) or screw is inserted. A nut (41) is screwed into the upper part of the reinforcing bar via a pressure stop plate (40), and the nut (41) is screwed into the PC steel bar (33) or the threaded bar reinforcing bar. ) Or a step of applying a tensile force to the screw rebar,
Placing concrete in the cylindrical hole (22), solidifying the concrete, loosening the nut (41), and shaping a concrete pile in which a compressive force is applied to the solidified concrete (51); ,
A method for forming a concrete pile, comprising:

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