JP2018184766A - V brace fulcrum construction method and v brace fulcrum structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a V brace fulcrum construction method and a V brace fulcrum structure for installing a V brace in a state where compressive stress does not occur in the brace.SOLUTION: The V brace fulcrum construction method includes the steps of: erecting and fixing a column on a foundation; installing an upper structure in which the column supports a load after fixing the column to the foundation; fixing one end of a brace to a column gusset plate provided at a column head of the column; fixing the other end of the brace to a fixing gusset plate; and injecting a filler between the foundation and a fixing substrate attached to a lower part of the fixing gusset plate after installing the upper structure.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a V brace fulcrum construction method and a V brace fulcrum structure provided between a column head and a foundation of a building column.

  Conventionally, for the purpose of enhancing the earthquake resistance of a building, one brace connecting the first floor column head of one column and the gusset plate installed on the upper surface of the middle part of the foundation, and the first floor column head of the other column, A “V brace (same as a V-shaped brace)” in which the other brace connected to the gusset plate is arranged in a V shape is known.

  For example, in the V brace disclosed in Patent Document 1, a fixing gusset plate is installed on the upper surface of a foundation via a fixing substrate grout. The first brace is attached between the first column gusset plate provided on the first column capital and the fixing gusset plate, and the second brace is the second column gusset plate provided on the second column capital. And the fixing gusset plate. The first brace and the second brace are arranged in a V shape with the fixing gusset plate as a vertex of the V shape.

Japanese Patent Laid-Open No. 2006-183507

  The V brace supports the fall of the first pillar and the second pillar in the horizontal direction when a horizontal force acts on the building due to an earthquake or the like. However, if an upper structure such as a beam installed between the column heads of the first column and the second column or a floor installed on the beam is installed, the first column and the second column shrink in the vertical direction. . In the V brace disclosed in Patent Document 1, the first column and the second column contract in the vertical direction, whereby a force acts on the V brace in the direction in which it is compressed. Then, in a state before a horizontal force is applied to the building, a compressive stress is generated in advance in the V brace. Therefore, before supporting the horizontal force acting on the building, the V brace supports the vertical load, and the resistance to the horizontal force of the building that should be originally supported is lowered. There was a problem.

  This invention solves the above problems, and it aims at providing the V brace fulcrum construction method and V brace fulcrum structure which install V brace in the state which compression stress does not generate | occur | produce in a brace.

  (1) The V brace construction method according to the present invention includes a step of standing and fixing a column on a foundation, and an upper structure in which the column supports a load after the column is fixed on the foundation. A step of fixing one end of a brace to a column gusset plate provided at a column head of the column, a step of fixing the other end of the brace to a fixing gusset plate, and the superstructure. And a step of injecting a filler between the fixing substrate attached to the lower portion of the fixing gusset plate and the foundation after installation.

  (2) The V brace fulcrum structure according to the present invention is attached to the first pillar and the first pillar and the second pillar that are erected on the foundation and fixed between the lower end portion and the foundation via a filler. The first pillar gusset plate, the second pillar gusset plate attached to the second pillar, and the center of the first pillar and the second pillar are fixed to the upper surface of the foundation via a filler. A fixing substrate, a fixing gusset plate fixed to the fixing substrate, a first brace connecting the first column gusset plate and the fixing gusset plate, the second column gusset plate, and the fixing substrate A second brace connecting a gusset plate, and the filling material filled between the fixing substrate and the foundation includes the lower end portion of the first pillar and the second pillar, and the foundation. Before being filled with Wherein the filler and different thicknesses.

  According to the present invention, since the filling material between the fixing substrate and the foundation (underground beam) is filled after the superstructure supported by the pillar is installed, no compressive stress is generated in the braces constituting the V brace. . Thereby, braces can improve proof stress with respect to the force which acts on the horizontal direction which acts on a building by an earthquake etc.

It is explanatory drawing of the building using the V brace fulcrum structure which concerns on Embodiment 1 of this invention. It is an enlarged view of the V brace fulcrum structure of FIG. It is explanatory drawing of the construction method of the V brace fulcrum structure of FIG. It is explanatory drawing of the construction method of the V brace fulcrum structure of FIG. It is explanatory drawing of the construction method of the V brace fulcrum structure of FIG.

Embodiment 1 FIG.
FIG. 1 is an explanatory diagram of a building 100 using a V brace fulcrum structure according to Embodiment 1 of the present invention. In addition, each figure is drawn typically and this invention is not limited to the form drawn by each figure.

(Overall structure)
In the building 100 shown in FIG. 1, a first pillar 10 a and a second pillar 10 b facing each other are erected and fixed on a foundation 90. In Embodiment 1, the 1st pillar 10a and the 2nd pillar 10b are being fixed via the fillers 81a and 81b between the lower end parts 12a and 12b and the upper surface of the foundation 90. The first column 10a has a column gusset plate 11a attached to the column head, and the second column 10b has a column gusset plate 11b attached to the column head. The fixing substrate 30 is fixed to the upper surface of the foundation 90 (or the underground beam) via the filler 80 in the center portion between the first pillar 10a and the second pillar 10b. A fixing gusset plate 40 is erected and fixed to the fixing substrate 30. The first brace 20a is between the column gusset plate 11a of the first column 10a and the fixing gusset plate 40, and the second brace is between the column gusset plate 11b of the second column 10b and the fixing gusset plate 40. 20b is attached.

  A beam 71 is passed between the column head of the first column 10a and the column head of the second column 10b. A floor 72 is attached to the beam 71. Upper structural columns 73a and 73b are further installed above the first column 10a and the second column 10b. A beam 74 is passed between the upper structural columns 73 a and 73 b, and a roof 75 is attached on the beam 74. In FIG. 1, the beam 71 and the members above the beam 71 are collectively referred to as an upper structure 70. In Embodiment 1, although shown in FIG. 1 as an example of the upper structure 70, it is not limited to this form. Members supported by the column heads of the first columns 10 a and the second columns 10 b are included in the upper structure 70.

  In FIG. 1, the building 100 is composed of the first pillar 10 a and the second pillar 10 b erected on the foundation 90 and each member related thereto, but is not limited to this form. Absent. It may further include a column erected on the foundation 90 adjacent to the first column 10a and the second column 10b, and a member related to the column. Further, the fixing structure of the first pillar 10a and the second pillar 10b to the foundation 90 is not limited. Moreover, the structure of the 1st brace 20a, the form which connects the pillar gusset plate 11a and the fixing gusset plate 40, the structure of the 2nd brace 20b, and the form which connects the pillar gusset plate 11b and the fixing gusset plate 40 are limited. Is not to be done.

  FIG. 2 is an enlarged view of the V brace fulcrum structure 99 of FIG. 2A and 2B show an example of the V brace fulcrum structure 99, and the present invention is not limited to this form. In FIG. 2A, the fixing substrate 30 is attached to the foundation 90 (underground beam) with anchor bolts 50 and anchor bolts 60. The anchor bolt 50 is fixed to the foundation 90 (underground beam) by a fixing nut 59 screwed to the lower end portion, and the anchor bolt 60 is fixed to the foundation 90 (underground beam) by a fixing nut 69 screwed to the lower end portion. Further, the fixing substrate 30 is fastened with a nut 51 from the upper surface side and a nut 52 from the lower surface side. In FIG. 2B, the fixing substrate 30 is attached to the foundation 90 (underground beam) with one type of anchor bolt 50. The fixing substrate 30 has a nut 51 fastened and fixed from the upper surface side. Two nuts 51 on the upper surface side of the fixing substrate 30 are used and are fixed by a double nut so as not to be loosened.

  In FIG. 2A, the axis 21 a of the first brace 20 a and the axis 21 b of the second brace 20 b intersect on the upper surface of the fixing substrate 30. A point where the axis 21a and the axis 21b intersect is called an intersection 23. The intersection 23 is located on the upper surface of the fixing substrate 30, but is not limited to this position. For example, the intersection 23 may be located on the lower surface of the fixing substrate 30 as shown in FIG. good. Alternatively, the intersection 23 may be located on the upper surface of the foundation 90. That is, the position of the intersection 23 can be appropriately set depending on the design of the building 100. In the V brace fulcrum structure 99 of FIG. 2A, a total of four anchor bolts 50 are arranged on the left and right sides of the intersection 23, and the anchor bolt 50 is located at a position farther from the intersection 23 than the anchor bolt 50. A total of 12 bolts 60 are arranged on the left and right, respectively. In the V brace fulcrum structure 99 of FIG. 2 (b), four anchor bolts 50 are arranged on each of the left and right sides of the intersection 23. Further, although not shown in FIG. 2, the fixing gusset plate 40 is sandwiched. The anchor bolts 50 are arranged at symmetrical positions on the opposite side, and a total of 16 anchor bolts 50 are arranged.

(V brace fulcrum construction method according to Embodiment 1)
FIG. 3 is an explanatory diagram of a construction method of the V brace fulcrum structure 99 of FIG. As shown in FIG. 3A, the first pillar 10 a and the second pillar 10 b are erected on the foundation 90 and fixed to the foundation 90. One end of the first brace 20a is fixed to the column gusset plate 11a provided at the column head of the first column 10a, and the second brace is attached to the column gusset plate 11b provided at the column head of the second column 10b. The end of 20b is fixed. At this time, the other end of the first brace 20a and the other end of the second brace 20b may be fixed to the fixing gusset plate 40 first. Further, when the first brace 20a and the second brace 20b are fixed to the column gusset plates 11a and 11b, a part of the upper structure 70 (for example, the beam 71 or the like) may be attached first.

  After the first brace 20a, the second brace 20b, and the fixing gusset plate 40 are attached between the first pillar 10a and the second pillar 10b, the upper structure 70 is disposed above the first pillar 10a and the second pillar 10b. Is installed. When the upper structure 70 is installed, the first pillar 10a and the second pillar 10b are deformed in a contracting direction due to the weight of the upper structure 70. That is, as shown in FIG. 3B, the column gusset plates 11a and 11b of the first column 10a and the second column 10b are displaced downward. When the column gusset plates 11a and 11b are displaced downward, the fixing gusset plate 40 and the fixing substrate 30 are displaced downward. At this time, since the filler 80 is not filled between the fixing substrate 30 and the base 90, the column gusset plates 11a and 11b, the first brace 20a, the second brace 20b, the fixing gusset plate 40, and the fixing The working substrate 30 can be displaced downward while maintaining the positional relationship. Therefore, the axial center 21a of the first brace 20a and the axial center 21b of the second brace 20b can be kept intersecting on the upper surface of the fixing substrate 30 even after the upper structure 70 is installed.

  In the state where the upper structure 70 shown in FIG. 3B is installed, the filler 80 is filled between the fixing substrate 30 and the foundation 90 (underground beam). Since the V brace fulcrum structure 99 is constructed in the above procedure, the first brace 20a and the second brace 20b are installed without being compressed by the weight of the upper structure 70. In the building 100 shown in FIG. 1, the first brace 20a and the second brace 20b are installed in a state where no compressive stress is generated. Further, in the building 100, the filler 80 filled between the fixing substrate 30 and the foundation 90 (underground beam) is between the lower ends of the first pillar 10a and the second pillar 10b and the foundation 90. The thickness is thinner than the filled fillers 81a and 81b. The first brace 20a, the second brace 20b, the fixing gusset plate 40, the fixing substrate 30, and the column gusset plates 11a and 11b assume that the first column 10a and the second column 10b contract due to the weight of the upper structure 70. Therefore, the gap between the fixing substrate 30 and the upper surface of the foundation 90 (underground beam) is set to a dimension that can be filled with the filler 80.

(Effect of Embodiment 1)
(1) According to the V brace fulcrum construction method according to the first embodiment, the first pillar 10a and the second pillar 10b are erected and fixed on the foundation 90. After the first pillar 10a and the second pillar 10b are fixed on the foundation 90, the upper structure 70 in which the first pillar 10a and the second pillar 10b support the load is installed. One end of the first brace 20a and the second brace 20b is fixed to the column gusset plates 11a and 11b provided at the column heads of the first column 10a and the second column 10b. The other ends of the first brace 20a and the second brace 20b are fixed to the fixing gusset plate 40. After the upper structure 70 is installed, a filler 80 is injected between the fixing substrate 30 attached to the lower portion of the fixing gusset plate 40 and the foundation 90 (underground beam). The above steps are included.
(2) According to the V brace fulcrum construction method according to the first embodiment, the fixing gusset plate 40 is arranged at the center of the two columns (the first column 10a and the second column 10b), and the foundation 90 ( It is installed at a predetermined height from the underground beam) to the lower surface of the fixing substrate 30.
(3) According to the V brace fulcrum structure according to the first embodiment, the first pillar 10a and the second pillar that are erected on the foundation 90 and fixed between the lower end portion and the foundation 90 via the fillers 81a and 81b. 10b, the first pillar gusset plate 11a attached to the first pillar 10a, the second pillar gusset plate 11b attached to the second pillar 10b, and the center of the first pillar 10a and the second pillar 10b. 90 (an underground beam), a fixing substrate 30 fixed via a filler 80, a fixing gusset plate 40 fixed to the fixing substrate 30, a first pillar gusset plate 11a, and a fixing gusset plate 40, and a second brace 20b that couples the second column gusset plate 11b and the fixing gusset plate 40 to each other. The filler 80 filled between the fixing substrate 30 and the foundation 90 (underground beam) is filled with fillers 81a and 81b filled between the lower ends of the first pillar 10a and the second pillar 10b and the foundation. And the thickness is different.
With this configuration, the V brace fulcrum structure 99 installed in the building 100 is installed without the first brace 20a and the second brace 20b receiving a load in the compression direction due to the weight of the upper structure 70. . Therefore, the V brace fulcrum structure 99 having sufficient proof strength against the force acting in the horizontal direction on the building 100 is obtained. In addition, since the V brace fulcrum structure 99 has sufficient yield strength, the first pillar 10a and the second pillar 10b do not need to be strongly fixed to the foundation 90, and thus there is an advantage that the fixing structure can be simplified.
The first pillar 10a and the second pillar 10b correspond to the “pillar” of the present invention, the first brace 20a and the second brace 20b correspond to the “brace” of the present invention, and the first pillar gusset plate 11a and the second pillar 10b. The two-column gusset plate 11b corresponds to the “column gusset plate” of the present invention.

Embodiment 2. FIG.
The V brace fulcrum structure 99 according to the second embodiment of the present invention is obtained by changing the construction method with respect to the V brace fulcrum structure 99 according to the first embodiment. The V brace fulcrum structure 99 according to the second embodiment will be described with a focus on the changes from the first embodiment.

(V brace fulcrum construction method according to Embodiment 2)
FIG. 4 is an explanatory diagram of a construction method of the V brace fulcrum structure 99 of FIG. As shown in FIG. 4A, the first pillar 10 a and the second pillar 10 b are erected on the foundation 90 and fixed to the foundation 90. Thereafter, the upper structure 70 is installed. As shown in FIG. 4B, after the upper structure 70 is installed, one end of the first brace 20a and one end of the second brace 20b are attached to the column gusset plates 11a and 11b. An intersection 23 between the axis 21a of the first brace 20a and the axis 21b of the second brace 20b is installed so as to intersect at a predetermined position. In FIG. 4B, the fixing gusset plate 40 is not attached to the first brace 20 a and the second brace 20 b, but the first brace 20 a and the second brace 20 b are intersected with the upper surface of the fixing substrate 30. It is attached in a positional relationship such that

  As shown in FIG. 4C, after the first brace 20a and the second brace 20b are attached to the column gusset plates 11a and 11b, the fixing gusset plate 40 is positioned below the first brace 20a. It attaches to an edge part and the edge part located in the lower side of the 2nd brace 20b. At this time, the fixing gusset plate 40 is attached while adjusting the position so as to match the end located below the first brace 20a and the end located below the second brace 20b. Although not shown in FIG. 4C, for example, a nut 52 screwed to the anchor bolt 50 protruding upward from the foundation 90 (underground beam) or a nut 62 screwed to the anchor bolt 60, etc. The first brace 20a and the second brace 20b and the fixing gusset plate 40 are used by supporting the lower surface of the fixing substrate 30 and adjusting the height of the fixing gusset plate 40 from the foundation 90 (underground beam). It may be attached while adjusting to an appropriate position.

  In the second embodiment, the first brace 20a and the second brace 20b are attached to the column gusset plates 11a and 11b, and then the fixing gusset plate 40 is attached. However, after the first brace 20a and the second brace 20b are attached to the fixing gusset plate 40, one end of the first brace 20a and one end of the second brace are attached to the column gusset plates 11a and 11b. Also good.

  In the state shown in FIG. 4C, the filler 80 is filled between the fixing substrate 30 and the foundation 90 (underground beam). In a state where the V brace fulcrum structure 99 is attached to the building 100, the weight of the upper structure 70 is not applied to the first brace 20a, the second brace 20b, and the fixing gusset plate 40. Therefore, the first brace 20a and the second brace 20b are installed without being compressed by the weight of the upper structure 70. That is, in the building 100 shown in FIG. 1, the first brace 20a and the second brace 20b are installed in a state where no compressive stress is generated.

(Effect of Embodiment 2)
(4) According to the V brace fulcrum construction method according to the second embodiment, after the step of installing the upper structure 70 and before the step of injecting the filler 80, the first pillar 10a and the second pillar 10b. The first brace 20a and the second brace 20b are fixed between the column gusset plates 11a and 11b and the fixing gusset plate 40 provided at the column heads.
(5) According to the V brace fulcrum construction method according to the second embodiment, before fixing one end of the first brace 20a and the second brace 20b to the column gusset plates 11a and 11b, the first brace 20a and The other end of the second brace 20b is fixed to the fixing gusset plate 40.
By being configured in this manner, the V brace fulcrum structure installed in the building 100 can obtain the same effects as those of the first embodiment. Further, the V brace fulcrum structure 99 is attached in a state where the weight of the upper structure 70 is applied and the first pillar 10a and the second pillar 10b are contracted. Therefore, the fixing gusset plate 40 and the fixing substrate 30 are not particularly adjusted in the state where the V brace fulcrum structure 99 is attached to the first column 10a and the second column 10b without adjusting the height direction position of the fixing gusset plate 40. Can be fixed on the foundation 90 (underground beam) and the filler 80 can be injected.

Embodiment 3 FIG.
The V brace fulcrum structure 99 according to the third embodiment of the present invention is obtained by changing the construction method with respect to the V brace fulcrum structure 99 according to the first embodiment. The V brace fulcrum structure 99 according to the third embodiment will be described with a focus on changes from the first embodiment.

(V brace fulcrum construction method according to Embodiment 3)
FIG. 5 is an explanatory diagram of a construction method of the V brace fulcrum structure 99 of FIG. As shown in FIG. 5A, the first pillar 10 a and the second pillar 10 b are erected on the foundation 90 and fixed to the foundation 90. The fixing gusset plate 40 is also installed with a predetermined distance from the upper surface of the foundation 90 (underground beam) on the lower surface of the fixing substrate 30. At this time, the lower surface of the fixing substrate 30 is supported by a nut 52 screwed to the anchor bolt 50 protruding upward from the foundation 90 (underground beam) or a nut 62 screwed to the anchor bolt 60. The position of the nut 52 or the nut 62 can be adjusted up and down.

  Thereafter, the upper structure 70 is installed. As shown in FIG. 5B and FIG. 5C, after the upper structure 70 is installed, the first pillar 10a and the second pillar 10b contract due to the load of the upper structure 70, and the pillar at the head of the pillar. The gusset plates 11a and 11b are displaced downward. Then, the mounting portions of the first brace 20a and the second brace 20b are also displaced downward, so that the positions where the shaft center 21a of the first brace 20a and the shaft center 21b of the second brace 20b are to be disposed are also displaced downward. As shown in FIG. 5B, the intersection of the shaft center 21a and the shaft center 21b is also displaced downward.

  As shown in FIG. 5C, the position of the fixing gusset plate 40 in the height direction is adjusted. In the third embodiment, the fixing substrate 30 is formed by using the nut 52 screwed into the anchor bolt 50 protruding upward from the foundation 90 (underground beam), the nut 62 screwed into the anchor bolt 60, or the like. The lower surface is supported, and the height of the fixing gusset plate 40 from the foundation 90 (underground beam) is adjusted by adjusting the position of the nut 52 or the nut 62 in the vertical direction. By comprising in this way, the 1st brace 20a and the 2nd brace 20b, and the fixing gusset plate 40 are adjusted to an appropriate position.

  After the height direction position of the fixing gusset plate 40 is adjusted, the first brace 20a and the second brace 20b are fixed between the column gusset plates 11a and 11b and the fixing gusset plate 40. Since the height position from the upper surface of the foundation 90 (underground beam) is adjusted to an appropriate position, the first brace 20a and the second brace 20b can be attached to appropriate positions. .

  Then, in the state shown in FIG. 5C, the filler 80 is filled between the fixing substrate 30 and the foundation 90 (underground beam). In a state where the V brace fulcrum structure 99 is attached to the building 100, the weight of the upper structure 70 is not applied to the first brace 20a, the second brace 20b, and the fixing gusset plate 40. Therefore, the first brace 20a and the second brace 20b are installed without being compressed by the weight of the upper structure 70. That is, in the building 100 shown in FIG. 1, the first brace 20a and the second brace 20b are installed in a state where no compressive stress is generated.

(Effect of Embodiment 3)
(6) According to the V brace fulcrum construction method according to the third embodiment, the fixing gusset plate 40 is installed such that the height from the foundation 90 (underground beam) to the lower surface of the fixing substrate 30 is adjustable. The height from the foundation 90 (underground beam) to the lower surface of the fixing substrate 30 is adjusted after the superstructure 70 is installed and before the filler 80 is injected.
(7) According to the V brace fulcrum construction method according to the third embodiment, the filler 80 is injected after the step of adjusting the height from the foundation 90 (underground beam) to the lower surface of the fixing substrate 30. Before the step of performing, the first brace 20a and the second brace 20b are fixed between the column gusset plates 11a, 11b provided on the column heads of the first column 10a and the second column 10b and the fixing gusset plate 40. .
By being configured in this manner, the V brace fulcrum structure installed in the building 100 can obtain the same effects as those of the first embodiment. In addition, the fixing gusset plate 40 can be temporarily placed on the foundation 90 before the first brace 20 a and the second brace 20 b are attached to the fixing gusset plate 40. Since the fixing gusset plate 40, which is a relatively large member, is independently installed on the foundation 90 (underground beam) so that the height can be adjusted, the construction is easy. Further, even if the positions of the fixing portions of the first brace 20a and the second brace 20b and the fixing gusset plate 40 are not aligned due to the error in the dimensions of the first brace 20a and the second brace 20b, There is an advantage that the height direction position of the fixing gusset plate 40 can be adjusted.

  The V brace fulcrum construction method and the V brace fulcrum structure according to the present invention are such that when the V brace fulcrum is installed, no compressive load is applied to the brace, and when the horizontal force is applied to the building, Since the proof stress can be sufficiently exhibited, the V brace fulcrum can be widely used as a seismic structure for buildings.

  10a first pillar, 10b second pillar, 11a (first) pillar gusset plate, 11b (second) pillar gusset plate, 12a lower end, 12b lower end, 20a first brace, 20b second brace, 21a axis, 21b Axle, 23 intersection, 30 fixing board, 40 fixing gusset plate, 50 anchor bolt, 52 nut, 59 fixing nut, 60 anchor bolt, 62 nut, 69 fixing nut, 70 superstructure, 71 beam, 72 Floor, 73a superstructure column, 73b superstructure column, 74 beams, 75 roof, 80 filler, 81a filler, 81b filler, 90 foundation, 99 V brace fulcrum structure, 100 building.

Claims (7)

A process of standing and fixing a pillar on the foundation;
Installing an upper structure in which the column supports a load after the column is fixed on the foundation;
Fixing one end of the brace to a column gusset plate provided at a column head of the column;
Fixing the other end of the brace to the fixing gusset plate;
And a step of injecting a filler between a fixing substrate attached to a lower portion of the fixing gusset plate after the superstructure is installed and the foundation. The fixing gusset plate is
Arranged in the center of the two pillars,
The V brace fulcrum construction method according to claim 1, wherein the V brace fulcrum construction method is installed with a predetermined height from the foundation to the lower surface of the fixing substrate.   After the step of installing the superstructure and before the step of injecting the filler, the brace is fixed between a column gusset plate provided on a column head of the column and the fixing gusset plate. The V brace fulcrum construction method according to claim 1 or 2.   The V brace fulcrum construction method according to claim 3, wherein the other end of the brace is fixed to the fixing gusset plate before the one end of the brace is fixed to the column gusset plate. The fixing gusset plate is
The height from the foundation to the lower surface of the fixing substrate is adjustable and installed,
The V brace fulcrum construction method according to claim 1 or 2, wherein a height from the foundation to a lower surface of the fixing substrate is adjusted after the superstructure is installed and before the filler is injected.   After the step of adjusting the height from the foundation to the lower surface of the fixing substrate and before the step of injecting the filler, the column gusset plate provided on the column head of the column and the fixing gusset The V brace fulcrum construction method according to claim 5, wherein the brace is fixed to a plate. A first pillar and a second pillar that are erected on a foundation and fixed between a lower end portion and the foundation via a filler;
A first pillar gusset plate attached to the first pillar;
A second pillar gusset plate attached to the second pillar;
A fixing substrate fixed to the upper surface of the foundation via a filler at a central portion of the first pillar and the second pillar;
A fixing gusset plate fixed to the fixing substrate;
A first brace connecting the first pillar gusset plate and the fixing gusset plate;
A second brace connecting the second pillar gusset plate and the fixing gusset plate;
Have
The filler filled between the fixing substrate and the foundation is:
A V brace fulcrum structure having a thickness different from that of the filler filled between the lower end portion of the first pillar and the second pillar and the foundation.

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