JP2005180061A - Bolt-joint structure of pile and column - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bolt-joint structure of a column and a pile, capable of absorbing axial dislocation of the pile, easy in construction, capable of reducing a side overhang quantity of a baseplate from the pile and the column, and capable of firmly joining the mutual baseplates by a bolt. <P>SOLUTION: The lower end side of the column 3 is composed of a cross H steel part 5. The column side baseplate 4 is fixed to a lower end part of the cross H steel part. A bolt through-hole 8 composed of an elongate hole turning in the central direction, is formed in four-corner parts of the baseplate so as to overhang between flanges 5a and 5a of the cross H steel part. A bolt through-hole 9 composed of an elongate hole turning in the direction orthogonal to the bolt through-hole, is formed in the pile side baseplate 2 in response to the bolt through-hole 8 of the column side baseplate 4. The bolt 10 is inserted into a crossing part of the bolt through-hole of both baseplates, to join the mutual baseplates. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a bolt joint structure of a pile and a pillar.

  As a method of joining a steel pipe pile driven into the ground and a steel column of a ground structure such as a building, a base plate is fixed to the pile head of the steel pipe pile by welding, and the pile side base plate and the lower end of the steel column are attached. There is a method in which a base plate fixed by welding is jointed with bolts.

  However, it is difficult to accurately drive the pile to the exact position of the column core as designed, and it may cause core misalignment.Therefore, there are various methods to absorb the core misalignment and connect the columns. Although it has been proposed, there are problems such as troublesome construction and a large amount of lateral extension of the base plate from the piles and columns.

  In view of the above problems, the present invention can absorb the misalignment of the pile, can be easily constructed, and can reduce the amount of lateral protrusion of the base plate from the pile or the column. One of the problems is to provide a column and pile bolt joint structure that can be firmly bolted together.

The above problem is a pile-column joint structure in which a pile-side base plate fixed to the upper end portion of a steel pipe pile driven into the ground and a column-side base plate fixed to the lower end portion of the column are joined with bolts. And
The lower end side of the column is made of a cross H steel portion, and a column side base plate is fixed to the lower end portion of the cross H steel portion,
Bolt holes made of elongated holes facing the center direction are formed on the column side base plate so as to project between the flanges of the cross H steel part at the four corners of the cross H steel part.
A bolt through hole comprising a long hole facing in a direction orthogonal to the bolt through hole is formed in a side projecting portion of the pile side base plate at a position corresponding to the bolt through hole of the column side base plate,
This is solved by a bolt joint structure of a pile and a column, wherein the bolt for joint is passed through the intersection of the bolt holes of both base plates.

  In this joint structure, the bolt through holes of the pile side base plate and the bolt through holes of the column side base plate are long holes intersecting each other. By using these bolt through holes, the steel pipe in the plane two-dimensional direction is used. The pile misalignment can be absorbed. Therefore, the pile side base plate can be attached to the pile head without trouble, and the column and pile joint can be easily constructed.

  Moreover, the lower end side of the column is made of a cross H steel portion, and the bolt through holes in the column side base plate fixed to the lower end portion of the cross H steel portion are made of elongated holes facing the center direction at the four corner portions of the cross H steel portion. These elongated holes are formed so as to protrude between the flanges of the cross H steel part and are brought close to the center side of the base plate, so that the planar size of the column side base plate can be reduced. Also, the bolt holes in the pile-side base plate are firstly composed of long holes that face in the direction perpendicular to the bolt holes in the column-side base plate, and secondly, the bolt holes in the column-side base plate are crossed. By adopting the H steel portion, the flat side size of the pile side base plate can be reduced because it is formed close to the center side of the column side base plate as described above. Accordingly, it is possible to reduce the amount of lateral protrusion by the base plate at the joint portion between the column and the pile.

  In addition, as described above, the bolt through holes of the pile side base plate and the bolt through holes of the column side base plate are made of long holes intersecting each other, and the base plates are jointed through the bolts through these bolt through holes. Therefore, a wide contact area between the base plates around the bolt can be secured, and the base plates can be firmly joined by the surface friction joining action between the base plates.

  The column part above the cross H steel part may be a square steel pipe part. In this case, the lower end portion of the column is a cross H steel portion, and the column portion above the column is a square steel pipe portion, so that the column has a proof strength comparable to that of a square steel tube as a whole. However, it is possible to keep the lateral extension amount of the base plate small.

  Since the present invention is as described above, the core misalignment of the pile can be absorbed, the construction is easy, the lateral protrusion amount of the base plate from the pile or the column can be reduced, and the base plate Bolts can be firmly joined together.

  Next, the best mode for carrying out the present invention will be described with reference to the drawings.

  In the joint structure of the embodiment shown in FIGS. 1 to 5, 1 is a pile, 2 is a pile side base plate, 3 is a column, and 4 is a column side base plate.

  As shown in FIGS. 1 to 3, the pile 1 is a steel pipe pile using a circular steel pipe, and is driven into the ground by a rotary press-fitting method or the like. The pile-side base plate 2 is made of a steel plate having an outer peripheral square shape. After pile driving, the pile-side base plate 2 is brought into a laterally overhanging state on the pile head of the steel pipe pile 1 and fixed by welding or the like.

  The column 3 has a cross H steel part 5 at the lower end and a square steel pipe part 6 above the cross H steel part 5, with a steel plate 7 interposed therebetween, and the cross H steel part. 5, the steel plate 7, and the steel plate 7 and the square steel pipe part 6 are joined and integrated by welding or the like.

  Moreover, the column side base plate 4 is the outer peripheral side shape like the pile side base plate 2 and is made of a steel plate having the same outer peripheral size as the pile side base plate 2. And fixed by welding or the like. In addition, the cross H steel part 5 and the steel plate 7, the steel plate 7 and the square steel pipe part 6, and the cross H steel part 5 and the column side base plate 4 are joined beforehand in a factory or the like.

  The column-side base plate 4 has bolt through holes 8 formed of elongated holes facing the center at the four corners of the cross H steel portion 5 so as to project between the flanges 5a and 5a of the cross H steel portion 5. Are formed at the four corners of the pile-side base plate 2 at the positions corresponding to the bolt holes 8 in the pillar-side base plate 4 so as to face in a direction perpendicular to the bolt holes 8. Bolt through holes 9 formed of holes are formed, and the base plates 2 and 4 can be joined to each other by passing the bolts 10 through the intersecting portions of the bolt through holes 8 and 9 of both the base plates 2 and 4.

  In the present embodiment, at each corner, a plurality of, in the illustrated case, two parallel bolt holes 8, 8 are formed in the column side base plate 4, and the coupling force between the base plates 2, 4 by the bolt 10 is formed. The pile-side base plate 2 is formed with a smaller number of bolt through holes 8, 8 than that of the pair of bolt through holes 8, 8 in the illustrated case. Thus, the lateral overhang amount of the pile side base plate 2 can be kept small.

  The construction can be performed as follows, for example. That is, after driving the circular steel pipe pile 1 into the ground, the pile side base plate 2 is installed on the pile head, and the pile 1 and the pile side base plate 2 are fixed by welding or the like. In this mounting operation, even if the pile 1 is driven eccentrically to the side of the column core, this misalignment is absorbed by the bolt through holes 8,... Therefore, it is not necessary to attach the pile side base plate 2 to the pile head so as to absorb this misalignment, and it is only necessary to attach the pile 1 and the pile side base plate 2 so as to be in a concentric state. The pile-side base plate 2 can be easily attached to the pile.

  Next, the column-side base plate 4 provided at the lower end of the column 3 is installed on the pile-side base plate 2 as shown in FIG. 4 (a), and the bolt 10 is attached as shown in FIG. 4 (b). The base plates 2 and 4 are jointed through the intersections of the bolt through holes 8 and 9.

  When the pile 1 is successfully driven in alignment with the column core, as shown in FIG. 4 (a), the outer peripheral positions of both the base plates 2 and 4 match and the corresponding bolt through holes 8 of the base plates 2 and 4 respectively. , 9 intersect in an X shape. On the other hand, when the pile 1 has been driven eccentrically from the column core to the side, as shown in FIGS. 5 (a) and 5 (b), both the base plates 2 and 4 are displaced laterally. The corresponding bolt through-holes 8 and 9 of the base plates 2 and 4 become T-shaped or L-shaped within a certain range and maintain the crossed state. Therefore, in either case, the base plates 2 and 4 can be jointed by simply passing the bolts 10 through the intersections of the bolt holes 8 and 9 of the base plates 2 and 4.

  In this way, in the joint structure described above, the bolt through holes 9 of the pile side base plate 2 and the bolt through holes 8 of the column side base plate 4 are long holes intersecting with each other. , 9 can be used to absorb the misalignment of the steel pipe pile 1 in the two-dimensional direction of the plane, and therefore, the pile-side base plate 2 can be attached to the pile head without trouble. 3 and pile 1 can be easily constructed.

  Moreover, the column 3 is formed of the cross H steel portion 5 at the lower end side, and the bolt through holes 8 in the column side base plate 4 fixed to the lower end portion of the cross H steel portion 5 are formed at the four corner portions of the cross H steel portion 5. The long holes 8 are formed so as to project between the flanges 5 a and 5 a of the cross H steel portion 5 and are brought close to the center side of the column side base plate 4. Therefore, the planar size of the column side base plate 4 can be reduced, and the bolt through holes 9 of the pile side base plate 2 are firstly arranged in a direction orthogonal to the bolt through holes 8 of the column side base plate 4. Secondly, the bolt through holes 8 of the column side base plate 4 are formed close to the center side of the column side base plate 4 by using the cross H steel portion 5 as described above. Iko Thirdly, since the steel pipe pile 1 is made of a circular steel pipe pile, the plane size of the pile side base plate 2 can be reduced in relation to the bolt holes 9. The lateral protrusion amount by the base plates 2 and 4 can be reduced at the joint portion.

  In addition, the bolt through hole 9 of the pile side base plate 2 and the bolt through hole 8 of the column side base plate 4 are long holes intersecting each other, and the base plates 2, 4 are connected to each other through the bolt 10 through the bolt through holes 8, 9. Since the contact area between the base plates 2 and 4 around the bolt 10 can be secured widely, the base plates 2 and 4 are firmly connected to each other by the surface friction joining action between the base plates 2 and 4. The joined state can be achieved.

  Moreover, in this embodiment, in the column 3, since the column part above the cross H steel part 5 consists of the square steel pipe part 6, compared with the case where the whole column 3 is made into a square steel pipe, it is discolored to the column 3 The lateral overhang of the base plates 2 and 4 can be kept small while providing a low yield strength, for example, a yield strength against bending.

It is a partial section exploded perspective view showing the joint structure of an embodiment. Fig. (A) is a front view showing the pile side and the column side separately, and Fig. (B) is a front view showing a state in which they are jointed. 2A is a cross-sectional view taken along the line II of FIG. 2A, FIG. 2B is a cross-sectional view taken along the line II-II of FIG. 2A, and FIG. It is a III-III arrow directional cross-sectional view. FIG. 1A is a cross-sectional plan view showing an example of a state in which a pile side base plate and a column side base plate are overlapped, and FIG. FIGS. 1A and 1B are cross-sectional plan views illustrating other examples in which the pile side base plate and the column side base plate are overlapped.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Steel pipe pile 2 ... Pile side base plate 3 ... Column 4 ... Column side base plate 5 ... Cross H steel part 5a ... Flange 6 ... Square steel pipe part 8 ... Bolt hole 9 ... Bolt hole 10 ... Bolt

Claims (1)

A pile-column joint structure in which a pile-side base plate fixed to the upper end of a steel pipe pile driven into the ground and a column-side base plate fixed to the lower end of a column are connected by bolts,
The lower end side of the column is made of a cross H steel portion, and a column side base plate is fixed to the lower end portion of the cross H steel portion,
Bolt holes made of elongated holes facing the center direction are formed on the column side base plate so as to project between the flanges of the cross H steel part at the four corners of the cross H steel part.
A bolt through hole comprising a long hole facing in a direction orthogonal to the bolt through hole is formed in a side projecting portion of the pile side base plate at a position corresponding to the bolt through hole of the column side base plate,
The bolt-joint structure of a pile and a column, wherein the bolt for joint is passed through an intersection of bolt holes of both base plates.

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