JP2019218780A - Steel pipe pile and reinforcement bar anchorage structure and anchorage method - Google Patents

Abstract

To provide means for reducing a work load in anchoring a steel pipe pile and a reinforcement bar by a conventional method.SOLUTION: A steel pipe pile and reinforcement bar anchorage structure 1 comprises: a plurality of steel pipe piles 11; a flange-like plate 12 fixed to the outer surface of the steel pipe pile 11; a plurality of reinforcement bars 13 arranged between two adjacent steel pipe piles 11; a clamp 14 fixed to both ends of the reinforcement bars 13; and bolts 15 and nuts 16 for tightening the clamp 14 with the plate 12 sandwiched therebetween. A worker arranges the clamp 14 so that the hole provided in the plate 12 and the hole provided in the clamp 14 communicate with each other, then pierces the shaft of the bolt 15 into the communicated holes, and tightens the clamp 14 and the plate 12 by the bolt 15 and the nut 16 to anchor the reinforcement bar 13 to the plate 12.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a structure and a fixing method of a steel pipe pile and a reinforcing bar.

  Some structures, such as piers and railway viaducts, include a plurality of steel pipe piles cast on the ground and reinforced concrete beams disposed between the pile heads of the steel pipe piles. In such a structure, as a method of fixing the reinforcing steel bar constituting the pile head and the beam, conventionally, a flange-shaped plate is welded to the outer surface of the pile head of the steel pipe pile toward the facing steel pipe pile. A method of welding a reinforcing bar to the plate (hereinafter, referred to as “conventional method”) is widely used.

  In the case of the above-described conventional method, a large number of weldings are performed on site, which requires a great deal of labor and time. Further, the progress of the work is easily influenced by the weather at the site. Also, it may be difficult to secure a work area using a welding machine.

  As a method of solving the above-mentioned disadvantages of the conventional method, for example, in Patent Document 1, an annular member is loosely fitted around a steel pipe pile, and a screw portion of a reinforcing bar is inserted through a fixing hole provided in the annular member, and A method has been proposed in which an annular member, a reinforcing bar and a steel pipe pile are integrated with concrete in a state where the reinforcing bar is not directly fixed to the steel pipe pile after the screw portion is fixed by a nut.

JP 2001-342684 A

  The present invention provides a means for reducing the work load in fixing a steel pipe pile and a reinforcing bar by the above-described conventional method.

  In order to solve the above-described problem, the present invention provides a steel pipe pile, a flange-shaped plate fixed to an outer surface of the steel pipe pile, and having a hole, and communicating with the hole of the plate while sandwiching the plate. A rebar in which a clamp having a hole is attached to an end, a bolt inserted into the hole of the plate and the hole of the clamp with the clamp sandwiching the plate, and the clamp together with a head of the bolt. And a nut for fastening the plate and the plate.

  According to the fixing structure of the steel pipe pile and the reinforcing bar of the first aspect, the operation of fixing the reinforcing bar to the plate can be easily performed.

  In the anchoring structure of the steel pipe pile and the reinforcing bar according to the first aspect, a configuration in which the clamp has a joining surface to be joined to the plate, and the joining surface is formed with irregularities as a second aspect. May be done.

  According to the anchoring structure of the steel pipe pile and the reinforcing bar of the second aspect, the frictional force between the joint surface and the plate surface can be increased, and the fixing force can be increased.

  Further, the present invention provides a step of fixing a flange-shaped plate to an outer surface of a steel pipe pile, and a step of attaching the flange-shaped plate to an end of a reinforcing bar and communicating with a hole provided in the plate in a state where the plate is sandwiched therebetween. A step of arranging a clamp having a hole to sandwich the plate, and inserting a bolt into the hole of the plate and the hole of the clamp while the clamp sandwiches the plate, and A third aspect provides a method for fixing a steel pipe pile and a reinforcing bar, the method including a step of fastening a plate and the clamp to fix the reinforcing bar to the plate.

  According to the method for fixing a steel pipe pile and a reinforcing bar according to the third aspect, an operation of fixing the reinforcing bar to the plate can be easily performed.

The figure which showed the structure of the anchoring structure of the steel pipe pile and reinforcing steel which concerns on one Embodiment. The figure showing the composition of the plate concerning one embodiment. The figure showing the steel pipe pile in the state where the plate concerning one embodiment was fixed. The figure which showed the structure of the clamp which concerns on one Embodiment. The figure which showed the clamp of the state fixed to the rebar and the plate which concerns on one Embodiment. The figure showing the procedure of the work for fixing the rebar concerning one embodiment to a plate.

[Embodiment]
Hereinafter, a fixing structure 1 of a steel pipe pile and a reinforcing bar according to an embodiment of the present invention will be described. FIG. 1 is a diagram showing a configuration of a fixing structure 1 of a steel pipe pile and a reinforcing bar. FIG. 1A is a diagram of the fixing structure 1 as viewed obliquely from above, and FIG. 1B is a diagram of the fixing structure 1 as viewed obliquely from below.

  An anchoring structure 1 of a steel pipe pile and a reinforcing bar includes a plurality of steel pipe piles 11 (only one is shown in FIG. 1), a plate 12 fixed to each pile head of the plurality of steel pipe piles 11, and two adjacent steel pipe piles. A plurality of rebars 13 disposed between the steel pipe piles 11, a clamp 14 fixed to an end of the rebar 13, a bolt 15 pierced through a hole provided in the clamp 14 and the plate 12, It comprises a nut 16 screwed onto 15 shafts.

  The steel pipe pile 11 has a cylindrical shape and is cast on the ground. The plate 12 is a plate-shaped member fixed to the steel pipe pile 11 facing the outer surface of the pile head of the steel pipe pile 11. The plate 12 is fixed to the steel pipe pile 11 by, for example, welding.

  A thread is cut on the outer surface of the end of the reinforcing bar 13. These threads are used for fixing to the clamp 14.

  The clamp 14 is a member for fixing the plate 12 and the reinforcing bar 13. The configuration of the clamp 14 will be described later.

  FIG. 2 is a diagram illustrating the configuration of the plate 12. The configuration is such that four plates 12 are used for one steel pipe pile 11. Each plate 12 is provided with a plurality of holes 121.

  The inner surface 122 of the plate 12 is a curved surface along the outer surface of the steel pipe pile 11. The outer surface 123 of the plate 12 is a plane perpendicular to the radial direction of the steel pipe pile 11.

  FIG. 3 is a diagram showing the steel pipe pile 11 in a state where four flange-shaped plates 12 are fixed on the outer surface.

  FIG. 4 is a diagram illustrating a configuration of the clamp 14. The clamp 14 has a screw receiving shaft 141 and a holding part 142. The screw receiving shaft 141 is a cylindrical member having a thread root cut on the inner surface. The screw receiving shaft 141 receives the end of the reinforcing bar 13 whose outer surface is threaded.

  When viewed from the side in FIG. 4, the holding portion 142 is a member having a U-shape, and has a plate 1421 and a plate 1422 facing each other. The plate 1421 is provided with 1423. The plate 1422 is provided with a hole 1424. The surface of the hole 1423 facing the hole 1424 and the surface of the hole 1424 facing the hole 1423 have irregularities.

  FIG. 5 shows that the reinforcing bar 13 is screwed into the screw receiving shaft 141, and the bolts 15 are connected to the holes 1211 communicating with the holes 1423 and 1424 in a state where the plate 12 is sandwiched by the holding portion 142 such that the holes 1211 communicate with the holes 1423 and 1424. FIG. 4 is a view showing a state in which the clamp 14 and the plate 12 are pierced, and the clamp 14 and the plate 12 are tightened by the bolt 15 and the nut 16.

  In the state shown in FIG. 5, when the nut 16 is strongly screwed into the shaft of the bolt 15, the holding portion 142 of the clamp 14 is tightened while sandwiching the plate 12. As a result, a strong frictional force is generated at the contact portion between the plate 12 and the plate 1421 and at the contact portion between the plate 12 and the plate 1422, and the reinforcing bar 13 is fixed to the plate 12 via the clamp 14. The irregularities provided on the surfaces of the plates 1421 and 1422 that are in contact with the plate 12 play a role in increasing the frictional force at the contact portion between the plate 12 and the clamp 14.

  FIG. 6 is a diagram showing a procedure of an operation for fixing the reinforcing bar 13 to the plate 12. As a premise of the work, it is assumed that all the steel pipe piles 11 used for the anchoring structure 1 of the steel pipe pile and the reinforcing steel have been driven into the ground. Further, all plates (plates without holes, hereinafter referred to as “non-hole plates”) used for the anchoring structure 1 of the steel pipe pile and the reinforcing bar, the reinforcing bar 13 and the clamp 14 are prepared. And First, the operator pierces half of the non-perforated plates to provide holes 121 (step S01). That is, the plate 12 (perforated plate) shown in FIG. 4 is manufactured. Subsequently, the operator fixes the prepared plate 12 to the steel pipe pile 11 by welding (step S02). At this time, when the plate 12 is fixed to a certain steel pipe pile 11, the plate 12 is not fixed to the steel pipe pile 11 adjacent to the steel pipe pile 11. In this way, the plate 12 is fixed to half of the steel pipe piles 11.

  The operator fixes the non-perforated plate to the steel pipe pile 11 to which the plate 12 is not fixed in Step S02 by welding in parallel with Steps S01 to S02 (Step S03). As a result, the plate 12 and the non-perforated plate are arranged to face each other.

  The worker attaches the clamps 14 to both ends of all the reinforcing bars 13 used in the anchoring structure 1 of the steel pipe pile and the reinforcing bars in parallel with steps S01 to S03 (step S04).

  Subsequently, the worker performs the following steps S05 to S10 for each of the plate 12 and the non-perforated plate that are fixed to the cast steel pipe pile 11.

  First, the worker places the reinforcing bar 13 on the plate 12 (perforated plate) and the non-perforated plate of the adjacent steel pipe pile 11, and each of the clamps 14 at both ends of the reinforcing bar 13 connects the plate 12 and the non-perforated plate. (Step S05). Subsequently, the operator positions the clamp 14 so that the holes 1423 and 1424 of the clamp 14 sandwiching the plate 12 communicate with the holes 121 of the plate 12 (Step S06).

  Subsequently, the operator pierces the shaft of the bolt 15 into the communicating holes 121, 1423, and 1424, and screws and tightens the nut 16 on the shaft of the bolt 15 pierced into the communicating holes (step S07). .

  Subsequently, the operator performs an operation of piercing the non-perforated plate sandwiched by the clamp 14 at the other end of the reinforcing bar 13 (Step S08). Perforation is performed on the non-perforated plate so as to communicate with the holes 1423 and 1424 of the clamp 14. Subsequently, the operator positions the clamp 14 so that the hole thus drilled and the holes 1423 and 1424 of the clamp 14 communicate with each other (step S09). Subsequently, the operator pierces the hole of the bolt 15 through the hole and the hole 1423 and the hole 1424, and tightens the nut 16 by screwing the nut 16 onto the shaft of the bolt 15 pierced through the communicated holes (step S10). As described above, the clamp 14 at one end of the reinforcing bar 13 is fixed to the plate 12 of the steel pipe pile 11, and the clamp 14 at the other end of the reinforcing bar 13 is fixed to the non-porous plate (drilled during operation) of the steel pipe pile 11. You.

  In the fixing method described above, welding is not used for fixing the steel pipe pile 11 and the reinforcing bar 13, and thus the number of weldings required is significantly smaller than in the conventional method. Therefore, according to the fixing method described above, labor and time are greatly reduced as compared with the conventional method, the influence of the weather on the work progress is reduced, and the work area is easily secured.

[Modification]
The embodiment described above can be variously modified. The following are examples of such modifications. It should be noted that the above-described embodiment and the modified examples described below may be appropriately combined.

(1) In the above embodiment, four plates 12 (or four non-perforated plates) are fixed to one steel pipe pile 11, but the plate 12 (or no The number of hole plates) is not limited to four.

(2) In the above-described embodiment, the unevenness is provided on the portion of the clamp 14 in contact with the plate 12, but instead or in addition, the unevenness may be provided on the portion of the plate 12 in contact with the clamp 14. Good.

(3) In the above embodiment, the plate 12 (or the non-perforated plate) is fixed to the steel pipe pile 11 by welding. However, the method of fixing the plate 12 (or the non-perforated plate) to the steel pipe pile 11 is described. Is not limited to welding. For example, the plate 12 (or the non-perforated plate) is formed into a shape having a flange extending along the outer surface of the steel pipe pile 11, and a screw hole is provided in the flange, and a screw hole is also provided in the steel pipe pile 11. A method may be adopted in which the plate 12 (or a non-perforated plate) is fixed to the steel pipe pile 11 by inserting a bolt into the screw hole and tightening it with a nut.

(4) In the above-described embodiment, the clamp 14 is fixed to the reinforcing bar 13 by screwing the end of the reinforcing bar 13 into the screw receiving shaft 141 of the clamp 14. The method is not limited to screwing. For example, the clamp 14 has a cylindrical receiving shaft provided with irregularities on the inner surface instead of the screw receiving shaft 141, and the end of the reinforcing bar 13 provided with irregularities on the outer surface instead of the thread is formed on the outer surface. The clamp 14 may be fixed to the reinforcing bar 13 by crushing and deforming the receiving shaft of the clamp 14 in the diametrical direction while being inserted into the receiving shaft of the clamp 14.

(5) In the above-described embodiment, the plate 12 (or the non-perforated plate) is fixed to the steel pipe pile 11 after the steel pipe pile 11 is driven into the ground. It may be reversed. For example, when the steel pipe pile 11 with the plate 12 (or the non-perforated plate) attached can be driven by a machine for driving the steel pipe pile 11, the plate 12 (or the non-perforated plate) is attached to each steel pipe pile 11. After the fixing of the hole plate), the steel pipe pile 11 may be driven.

(6) In the embodiment described above, the plate 12 (perforated plate) is fixed to one of the adjacent steel pipe piles 11 and the non-perforated plate is fixed to the other, but the hole of the clamp 14 and the plate 12 are fixed. As long as the positional deviation from the holes can be suppressed within the allowable error range, both of the holes may be fixed with the perforated plate. In this case, the position of the hole of the clamp 14 and the hole of the plate 12 may be corrected by the configuration of the clamp 14 and the reinforcing bar 13.

  DESCRIPTION OF SYMBOLS 1 ... Fixing structure, 11 ... Steel pipe pile, 12 ... Plate, 13 ... Reinforcing bar, 14 ... Clamp, 15 ... Bolt, 16 ... Nut, 121 ... Hole, 122 ... Inner side surface, 123 ... Outer side surface, 141 ... Screw receiving shaft, 142 holding part, 1421 plate, 1422 plate, 1423 hole, 1424 hole.

Claims (3)

Steel pipe piles,
A flange-shaped plate fixed to the outer surface of the steel pipe pile and having a hole,
In a state where the plate is sandwiched, a reinforcing bar having an end attached to a clamp having a hole communicating with the hole of the plate,
With the clamp sandwiching the plate, a bolt inserted into the hole of the plate and the hole of the clamp,
An anchoring structure for a steel pipe pile and a reinforcing bar, comprising: a nut for fastening the clamp and the plate together with the head of the bolt.   2. The anchoring structure according to claim 1, wherein the clamp has a joint surface that joins the plate, and the joint surface has irregularities. 3. Fixing a flange-shaped plate to the outer surface of the steel pipe pile;
Attached to the end of the reinforcing bar and arranged so as to sandwich the plate, a clamp having a hole communicating with a hole provided in the plate, and arranging the clamp so as to sandwich the plate,
A step of inserting a bolt into the hole of the plate and the hole of the clamp while the clamp sandwiches the plate, tightening the plate and the clamp with the bolt and the nut, and fixing the rebar to the plate. How to fix the steel pipe pile and the reinforcing bar.