JP2007205108A - Joint structure of foundation pile and strut of building and the foundation pile used therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a joint structure of each foundation pile capable of carrying out the adjustment of an angle position in the circumferential direction of each strut, connecting the strut of a building to the foundation pile while making the adjustment of misalignment even if the foundation pile is misaligned rather than a predetermined position and is buried and, at the same time, lining up predetermined faces of a plurality of struts when a square pillar is used for the strut even if the foundation pile is a spiral pile, and the foundation pile used therefor. <P>SOLUTION: The foundation pile 10 equipped with a substrate 16 fastening the strut 20 of the building to a pile head section is so constituted that the substrate 16 is equipped with a plurality of slots 16a, the adjustment of misalignment between the foundation pile 10 and the strut 20 is carried out by the slot 16a and a mounting plate 22 mounted to the lower part of the strut 20 of the building within the superposition of each slot 16a and 22a and that the substrate 16 and the mounting plate 22 can be fixed with a fastening member. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a joining structure of a foundation pile used for foundation work of a relatively lightweight building such as an agricultural greenhouse or an agricultural house and a pillar of the building and the pillar of the building. More particularly, the present invention relates to a joint structure between a foundation pile and a column of a building when a spiral pile is used as the foundation pile, and a foundation pile used for the foundation pile.

  In general, when building a building, a pile is driven into the ground as the foundation of the building, and concrete is placed on top of it to erect a pillar of the building as a foundation, or the buildings are compared In the case of a light weight, there are cases where a building column is erected by directly joining a building column to the pile head.

  In the above-mentioned case, particularly when the building column is erected by joining the building column directly to the pile head of the foundation pile, the foundation pile driving position is aligned with the plurality of column positions of the building. Need arises.

  However, it is difficult to drive all foundation piles in alignment with the plurality of strut positions of the building, and when the foundation piles are driven into the ground, a slight misalignment has occurred from a predetermined location. May be driven in.

  In order to solve such a problem, for example, a joint structure between a foundation pile and a column of a building described in JP-A-2005-282142 has been proposed. The joint structure between the foundation pile and the building support is such that the inner plate is located inside the foundation pile at a position below the top height of the pile head driven into the ground by a predetermined dimension. Annular plates are respectively installed on the outer periphery of the pile, the first mortar or concrete is placed inside the pile head of the foundation pile, an anchor is implanted in the mortar or concrete, and the base plate of the column is jointed by the anchor The outer steel pipe is installed around the anchor joint so that it spans the foundation pile and the pillar. The second mortar or concrete is placed inside the outer steel pipe to fix the foundation pile and the pillar. It is configured so that the displacement can be adjusted at the joint between the foundation pile and the column.

JP 2005-282142 A

  However, in the case of the above-mentioned joint structure, once the first mortar or concrete is placed inside the pile head, an anchor for joining the struts is planted. It will take.

  On the other hand, a spiral pile may be used as the foundation pile. In order to embed the spiral pile in the ground by pressing while rotating, in the case of burying the pile head of the foundation pile leaving a predetermined ground height, the angle in the circumferential direction of the pile head of the foundation pile The position cannot be a desired position. Therefore, for example, in the case of providing a base plate with bolt holes previously opened at predetermined positions on the pile head of the foundation pile and fastening and fixing to a mounting plate provided at the lower end of the building pillar, a prism is attached to the building pillar. When the is used, the angular position in the circumferential direction of the column cannot be adjusted so that the predetermined surface of the column can be aligned.

  The present invention has been made in view of such circumstances, and even if the foundation pile is embedded with a misalignment from a predetermined position, the pillar of the building is joined to the foundation pile while adjusting the misalignment. In addition, even if the foundation pile is a spiral pile, the angular position in the circumferential direction of the column can be adjusted so that a predetermined surface of the column can be aligned when a prism is used for the column. It is an object of the present invention to provide a joint structure between a foundation pile and a support column of a building, and a foundation pile used for the structure.

  The joint structure of the foundation pile according to claim 1 and the pillar of the building is a foundation pile including a substrate that fastens and fixes the pillar of the building to the pile head, and the substrate includes a plurality of long holes, By adjusting the misalignment between the foundation pile and the support column in the overlapping range of the long holes by the long hole and the long hole provided in the mounting plate attached to the lower part of the support column of the building, the substrate and the The mounting plate is fixed by a fastening member.

  In the joining structure of the foundation pile according to claim 1 and the strut of the building, since a plurality of long holes are opened in the base pile substrate, the long hole provided in the mounting plate attached to the bottom of the strut In the range where it overlaps, the core displacement can be adjusted and fastened and fixed, and even if the foundation pile is buried by causing the core displacement, the strut of the building joined to the foundation pile is Can be erected at a desired position.

  The joint structure between the foundation pile and the building pillar according to claim 2 is the joint structure between the foundation pile and the building pillar according to claim 1, wherein the long hole provided in the substrate is the foundation. It is established along the radiation extending from the radial center of the pile.

  In the joining structure of the foundation pile and the support of the building according to claim 2, a plurality of long holes opened in the substrate can be opened with a relatively easy arrangement, and Adjustment of the angular position in the left and right and circumferential directions can be suitably performed.

  The foundation pile according to claim 3 is a foundation pile provided with a substrate for fastening and fixing a pillar of a building to a pile head, wherein the substrate includes a plurality of elongated holes, and the elongated hole and the pillar of the building. With the long holes provided in the mounting plate attached to the lower part, the misalignment adjustment of the foundation pile and the support column is performed in the overlapping range of the long holes, and the substrate and the mounting plate are fixed by the fastening member. It is characterized by having it done.

  In the foundation pile according to claim 3, since a plurality of long holes are opened in the base pile substrate, the misalignment adjustment is performed in a range where it overlaps with the long holes provided in the mounting plate attached to the lower part of the support column. Can be fastened and fixed, and even if the foundation pile is buried with a core misalignment, the strut of the building to be joined to the foundation pile should be erected at a desired position Can do.

  The foundation pile according to claim 4 is the foundation pile according to claim 3, wherein the long hole provided in the substrate is formed along a radiation extending from a radial center of the foundation pile. And

  In the foundation pile according to claim 4, a plurality of long holes opened in the substrate can be opened with a relatively easy arrangement, and adjustment of angular position in the front-rear, left-right, and circumferential directions. Can be suitably performed.

  According to the joining structure of the foundation pile and the support of the building according to claim 1, the foundation pile includes a substrate for fastening and fixing the support of the building to the pile head, and the substrate has a plurality of long holes. And adjusting the misalignment between the foundation pile and the column in the overlapping range of the long hole by the long hole and a long hole provided in a mounting plate attached to the lower part of the column of the building. Since the mounting plate is fixed by a fastening member, even if the foundation pile is embedded with a misalignment, the pillar of the building joined to the foundation pile is at a desired position. Can be erected.

  According to the joint structure between the foundation pile and the building pillar according to claim 2, in the joint structure between the foundation pile and the building pillar according to claim 1, the long hole provided in the substrate includes: Since it is established along the radiation extending from the center in the radial direction of the foundation pile, a plurality of elongated holes established in the substrate can be established in a relatively easy arrangement, and front and rear, right and left, and the circumference Adjustment of the angular position in the direction can be suitably performed.

  According to the foundation pile of Claim 3, It is a foundation pile provided with the board | substrate which fastens and fixes the support | pillar of a building to a pile head, Comprising: The said board | substrate is equipped with several elongate holes, This elongate hole and the said building With the long holes provided in the attachment plate attached to the lower part of the pillar, the center displacement adjustment of the foundation pile and the pillar is performed in the overlapping range of the respective long holes, and the substrate and the attachment plate are fixed by the fastening member. Since it should be fixed, even if the foundation pile is buried with a misalignment, the pillar of the building joined to the foundation pile can be erected at a desired position.

  According to the foundation pile according to claim 4, in the foundation pile according to claim 3, the long hole provided in the substrate is established along the radiation extending from the radial center of the foundation pile. A plurality of long holes opened in the substrate can be opened with a relatively easy arrangement, and the angular position in the front-rear, left-right, and circumferential directions can be adjusted suitably.

  The best mode for carrying out the present invention will be specifically described below with reference to the drawings.

  1 to 5 show a foundation pile according to the present invention, FIG. 1 (a) is a front view of the foundation pile, and FIG. 1 (b) is a side view. FIG. 2 is a cross-sectional view of the horizontal stabilizing wing of the foundation pile, and FIG. 3 is an exploded cross-sectional view thereof. FIG. 4 is a plan view of the foundation pile, and FIG. 5 is an upper perspective view of the foundation pile.

  1 to 5, reference numeral 10 denotes a foundation pile according to the present invention. The foundation pile 10 is provided with a sharp excavation member 12 at the tip of a pile main body 11 formed of a cylindrical steel pipe, and a spiral rib 13 is attached to the outer periphery of the lower half of the pile main body 11. . Above the pile body 11, a horizontal stabilizing blade 14 is attached to the pile body 11 so as to be rotatable. An annular movement prevention ring 15 for restricting the axial movement of the horizontal stabilizer blade 14 is welded and fixed to the outer periphery of the pile body on the horizontal stabilizer blade 14. And the board | substrate 16 for fastening and fixing the support | pillar of a building is welded and fixed to the head of the said pile main body 11. As shown in FIG.

  The horizontal stabilizer 14 is formed by projecting four substantially trapezoidal metal fins in a front view and projecting radially outward of the pile body 11, and as shown in FIGS. The stabilizer blade 14 includes a member 14a formed by attaching two metal fins at right angles to a semicircular arc-shaped shaft portion, and a member 14b formed so as to be symmetrical with the member 14a. The pile body 11 is fastened with bolts B and nuts N in an externally fitted state, and the inner diameter of the shaft portion is larger than the outer diameter of the pile body 11.

  As shown in FIGS. 4 and 5, the substrate 16 is formed of a metal plate material so as to have a regular octagonal shape in plan view, and the substrate 16 is radially spaced from the center by 10 intervals. A plurality of long holes 16a are formed. That is, the long holes 16a, 16a,... Are opened with an interval of 36 ° (range of the arrow A in the figure).

  FIGS. 6A and 6B are diagrams showing the pillars of the building, where FIG. 6A is a plan view and FIG. 6B is a front view in a state of being fastened and fixed to the substrate 16. In the figure, reference numeral 21 denotes a column main body made of a metal hollow square member, and a square mounting plate 22 is welded and fixed to the lower end of the column main body 21. The mounting plate 22 has two elongated holes 22a through which bolts B as fastening members are inserted.

  FIG. 7 is an exploded perspective view showing a joint structure between a base pile substrate and a column. The foundation pile 10 and the column 20 are fixed by bolts B and nuts N which are fastening members. When fastening and fixing, the long hole 16a of the substrate 16 and the long hole 22a of the mounting plate 22 And the bolt B is inserted and fastened with a nut N at a location J where the two are superposed. Therefore, the strut 20 can be adjusted with respect to the foundation pile 10 in the angular positions in the front-rear and left-right directions and the circumferential direction in the range where the long holes 16a and 22a overlap.

  8 to 10 are cross-sectional views showing examples of misalignment adjustment in the joint structure between the substrate and the column. 8 to 10, 10S indicates the center position of the substrate 16 (therefore, the foundation pile 10), and 20S indicates the center position of the support column 20.

  FIG. 8 is a cross-sectional view showing an example of misalignment adjustment when the foundation pile is in the normal position in the circumferential direction, and (a) shows a joined state when the foundation pile 10 does not cause misalignment. It is a cross-sectional view shown. As shown in FIG. 8 (a), when the foundation pile 10 is not misaligned, the mounting plate 22 is placed at the center of the substrate 16, and the elongated hole 22a of the mounting plate 22; The bolt B is inserted and fastened with a nut N at a portion J where the elongated holes 16a of the substrate 16 overlap.

  FIG.8 (b) is a cross-sectional view which shows a joining state when the said foundation pile 10 raise | generates the core shift to the downward direction in a figure, and as shown in FIG.8 (b), the said foundation pile 10 is a figure. When the center plate is shifted downward, the mounting plate 22 is displaced and placed above the substrate 16 in the figure, and after adjusting the core shift, the elongated hole 22a of the mounting plate 22; The bolt B is inserted and fastened with a nut N at a portion J where the elongated holes 16a of the substrate 16 overlap.

  FIG.8 (c) is a cross-sectional view which shows a joining state when the said foundation pile 10 raise | generates the core shift to the left in a figure, and as shown in FIG.8 (c), the said foundation pile 10 is shown. When the misalignment is caused to the left in the drawing, the mounting plate 22 is displaced and placed on the right side of the substrate 16 in the drawing to adjust the misalignment, and then the long hole of the mounting plate 22 is adjusted. The bolt B is inserted and fastened with a nut N at a location J where 22a and the elongated hole 16a of the substrate 16 overlap.

  FIG. 9 is a cross-sectional view showing an example of misalignment adjustment when the foundation pile is displaced by 30 ° in the circumferential direction, and (a) shows a joined state when the foundation pile 10 does not cause misalignment. It is a cross-sectional view shown. As shown in FIG. 8A, when the foundation pile 10 is not misaligned, the mounting plate 22 is rotated and placed at the center of the substrate 16 with an angle adjustment of 30 °. The bolt B is inserted and fastened with a nut N at a portion J where the elongated hole 22a of the mounting plate 22 and the elongated hole 16a of the substrate 16 overlap.

  FIG.9 (b) is a cross-sectional view which shows a joining state when the said foundation pile 10 raise | generates the core shift to the downward direction in a figure, and as shown in FIG.9 (b), the said foundation pile 10 is a figure. When the center misalignment occurs in the lower part of the substrate 16, the mounting plate 22 is displaced upwardly in the figure of the substrate 16, and is rotated by 30 ° and placed by adjusting the angle. After that, the bolt B is inserted and fastened with a nut N at a portion J where the elongated hole 22a of the mounting plate 22 and the elongated hole 16a of the substrate 16 overlap.

  FIG.9 (c) is a cross-sectional view which shows the joining state when the said foundation pile 10 raise | generates the core shift to the left in a figure, and as shown in FIG.9 (c), the said foundation pile 10 is shown in FIG. When the misalignment is caused to the left in the figure, the mounting plate 22 is displaced to the right in the figure of the substrate 16 and is rotated by 30 ° to be adjusted and placed. Then, after adjusting the angle, the bolt B is inserted and fastened with a nut N at a portion J where the elongated hole 22a of the mounting plate 22 and the elongated hole 16a of the substrate 16 overlap.

  FIG. 10 is a cross-sectional view showing an example of misalignment adjustment when the foundation pile is displaced by 45 ° in the circumferential direction, and (a) shows a joined state when the foundation pile 10 does not cause misalignment. It is a cross-sectional view shown. As shown in FIG. 10A, when the foundation pile 10 is not misaligned, the mounting plate 22 is rotated and placed at the center of the substrate 16 with an angle adjustment of 45 °. The bolt B is inserted and fastened with a nut N at a portion J where the elongated hole 22a of the mounting plate 22 and the elongated hole 16a of the substrate 16 overlap.

  FIG.10 (b) is a cross-sectional view which shows a joining state when the said foundation pile 10 raise | generates the core shift to the downward direction in a figure, and as shown in FIG.10 (b), the said foundation pile 10 is a figure. When the center misalignment occurs in the lower part of the substrate 16, the mounting plate 22 is displaced upwardly in the figure of the substrate 16, and is rotated by 45 ° to adjust the angle, and the center misalignment and angle adjustment are performed. After that, the bolt B is inserted and fastened with a nut N at a portion J where the elongated hole 22a of the mounting plate 22 and the elongated hole 16a of the substrate 16 overlap.

  FIG.10 (c) is a cross-sectional view which shows a joining state when the said foundation pile 10 raise | generates the core shift to the left in a figure, and as shown in FIG.10 (c), the said foundation pile 10 is shown. When the misalignment is caused to the left in the figure, the mounting plate 22 is displaced to the right in the figure of the substrate 16 and is rotated by 45 ° to adjust the angle. Then, after adjusting the angle, the bolt B is inserted and fastened with a nut N at a portion J where the elongated hole 22a of the mounting plate 22 and the elongated hole 16a of the substrate 16 overlap.

  FIG. 11 is a perspective view showing a construction state. As described above, when the foundation pile 10 having the above-described configuration is used to join the support pillar 20 of the building, the substrate 16 of the foundation pile 10 is embedded so as to protrude from the ground to a predetermined height. Then, the attachment work (fastening work) of the column 20 can be easily performed. In addition, even when the foundation pile 10 is misaligned and embedded, it can be joined by adjusting the misalignment in the front-rear and left-right directions, and there are some height differences in the construction location, etc. Even if it is necessary to adjust and adjust the protruding height of the foundation pile 10, the angular position in the circumferential direction of the column 20 can be adjusted and then both can be joined.

  In addition, since the foundation pile 10 has a simple configuration as described above, there is also an effect that the foundation pile 10 can be manufactured easily and inexpensively.

(A) is a front view of the foundation pile concerning this invention, (b) is a side view. It is a cross-sectional view of the horizontal stabilization wing of a foundation pile. It is an exploded sectional view of a horizontal stabilization wing of a foundation pile. It is a top view of a foundation pile. It is a top perspective view of a foundation pile. It is a figure which shows the support | pillar of a building, (a) is a top view, (b) is a front view of the state fastened and fixed to the board | substrate 16. FIG. It is a disassembled perspective view which shows the joining structure of the board | substrate and support | pillar of a foundation pile. It is a cross-sectional view showing an example of core misalignment adjustment when the foundation pile is in the normal position in the circumferential direction, and (a) is a cross-sectional view showing a joined state when the foundation pile does not cause misalignment. Yes, (b) is a cross-sectional view showing a joined state when the foundation pile is causing a misalignment downward in the figure, and (c) is a misalignment of the foundation pile to the left in the figure. It is a cross-sectional view which shows the joining state when it is raising. It is a cross-sectional view showing an example of misalignment adjustment when the foundation pile is displaced by 30 ° in the circumferential direction, and (a) is a transverse cross-sectional view showing a joined state when the foundation pile 10 does not cause misalignment. (B) is a cross-sectional view showing a joined state when the foundation pile 10 has a misalignment downward in the figure, and (c) is a figure in which the foundation pile 10 is on the left side in the figure. It is a cross-sectional view which shows a joining state when raising the core misalignment. It is a cross-sectional view showing an example of core misalignment adjustment when the foundation pile is displaced by 45 ° in the circumferential direction, and (a) is a transverse cross-sectional view showing a joined state when the foundation pile 10 does not cause misalignment. (B) is a cross-sectional view showing a joined state when the foundation pile 10 has a misalignment downward in the figure, and (c) is a figure in which the foundation pile 10 is on the left side in the figure. It is a cross-sectional view which shows a joining state when raising the core misalignment. It is a perspective view which shows a construction state.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Foundation pile 10s Foundation pile center 11 Pile main body 12 Tip part 13 Spiral rib 14 Horizontal stabilization blade 15 Movement prevention ring 16 Substrate 16a Long hole

20 pillar 20s pillar center 21 pillar body 22 mounting plate 22a oblong hole

B Bolt N Nut J Overlapping position of long hole 16a and long hole 22a

Claims (4)

A foundation pile provided with a substrate for fastening and fixing a pillar of a building to a pile head,
The substrate includes a plurality of long holes,
By adjusting the misalignment between the foundation pile and the support column in the overlapping range of the long holes by the long hole and the long hole provided in the mounting plate attached to the lower part of the support column of the building, the substrate and the A joining structure of a foundation pile and a column of a building characterized by fixing a mounting plate with a fastening member.   The long hole provided in the said board | substrate is established along the radiation extended from the radial direction center of the said foundation pile, The joining structure of the foundation pile and the support | pillar of a building of Claim 1 characterized by the above-mentioned. A foundation pile provided with a substrate for fastening and fixing a pillar of a building to a pile head,
The substrate includes a plurality of long holes,
By adjusting the misalignment between the foundation pile and the support column in the overlapping range of the long holes by the long hole and the long hole provided in the mounting plate attached to the lower part of the support column of the building, the substrate and the A foundation pile characterized in that the mounting plate is fixed with a fastening member. The long hole provided in the said board | substrate is established along the radiation extended from the radial direction center of the said basic pile, The foundation pile of Claim 3 characterized by the above-mentioned.

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