JP2018104946A - Column base structure, and method to reinforce column base - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a column base structure and a method to reinforce a column base that enhance rigidity of the column base, without increasing an overall thickness of a base plate.SOLUTION: A base plate 3 is a plate-form member, and has a column 15 that forms a column body connected to a top surface. A hole 7 that is a through-hole is formed near four corners of the base plate 3. The through-hole is a portion where an anchor bolt 5 is inserted. A reinforcing member 9 is overlapped on the top surface of the base plate 3. The reinforcing member 9 is a plate-form member, and has a hole 17 that is a through-hole formed at a portion corresponding to the hole 7 of the base plate 3. A plurality of the anchor bolts 5 is inserted respectively into the hole 7 and the hole 17, and is fixed with the base plate 3 using a nut 13. In other words, the reinforcing member 9 is fixed collectively with the base plate 3 by the anchor bolt 5.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a column base structure and a reinforcing method thereof.

  As an exposed type column base, a base plate is usually joined to a lower part of a column body, and the base plate is fixed to concrete such as a foundation with an anchor bolt (for example, Patent Document 1).

Japanese Patent Laid-Open No. 2006-108810

  In order to increase the rigidity of the column base, there is a method of increasing the thickness of the base plate. However, if the thickness of the entire base plate is increased, the cost increases and the workability of welding to the column is also inferior.

  Further, if it is attempted to increase the rigidity of the existing column base, it is necessary to replace the base plate itself. However, since the base plate is joined by welding or the like, the replacement is not easy.

  The present invention has been made in view of such problems, and provides a column base structure and a column base reinforcement method capable of increasing the rigidity of the column base without increasing the thickness of the entire base plate. Objective.

  In order to achieve the above-mentioned object, the first invention is a column base structure, a base plate to which a column is joined, a plurality of anchor bolts joined to the base plate, and a reinforcing member through which the anchor bolt can penetrate. And the anchor bolt is fixed through the base plate and the reinforcing member.

  It is desirable that the reinforcing member is disposed at an upper portion of the base plate and in the vicinity of four corners of the substantially rectangular base plate.

  The reinforcing member is divided into four parts, each of the reinforcing members is provided with a plurality of holes, and each of the reinforcing members is fixed with a plurality of anchor bolts in the vicinity of the four corners of the base plate. Also good.

  According to the first invention, since the base plate and the reinforcing member are overlapped and fixed together with the anchor bolt, the periphery of the fixing portion of the base plate with the anchor bolt can be efficiently thickened. Therefore, the rigidity of the base plate can be easily increased.

  Further, since the reinforcing members are arranged in the vicinity of the four corners of the upper surface of the base plate, it is only necessary to overlap the reinforcing members on the upper surface of the base plate, so that the reinforcing work is easy. Moreover, since the vicinity of the four corners of the base plate is reinforced, the rigidity of the base plate can be increased efficiently.

  Further, if the reinforcing member is divided into four parts, the rigidity around the anchor bolts at the four corners of the base plate that is particularly desired to increase the rigidity can be efficiently increased. Also, at this time, by forming a plurality of holes in each reinforcing member, the reinforcing member is fixed at at least two points, so that no rotational deviation occurs.

  A second invention is a method of reinforcing a column base, using a base plate to which the column base is joined, and a plurality of anchor bolts joined to the base plate, removing nuts of the anchor bolts, and A reinforcing method of a column base, comprising: a reinforcing member having a hole through which the anchor bolt is inserted is arranged on an upper surface of the base plate, and the anchor bolt is fixed with a nut from above the reinforcing member.

  According to the second invention, since the reinforcing member can be easily attached to the existing column base, the column base can be efficiently reinforced.

  According to the present invention, it is possible to provide a column base structure and a column base reinforcement method capable of increasing the rigidity of the column base without increasing the thickness of the entire base plate.

The side view which shows the column base structure 1. FIG. The top view of the baseplate 3 of the column base structure 1. FIG. The top view of the baseplate 3 of the column base structure 1a. The top view of the baseplate 3 of the column base structure 1b. The top view of the baseplate 3 of the column base structure 1c.

  Hereinafter, the column base structure 1 concerning embodiment of this invention is demonstrated. FIG. 1 is a side view showing the column base structure 1 in an installed state. The column base structure 1 includes a base plate 3, a reinforcing member 9, an anchor bolt 5, and the like.

  The base plate 3 is a plate-like member, and a column 15 that is a column is bonded to the upper surface. The column 15 has a steel frame portion such as a steel column. In the vicinity of the four corners of the base plate 3, holes 7 that are through holes are provided. The through hole is a portion through which the anchor bolt 5 is inserted.

  A reinforcing member 9 is placed on the upper surface of the base plate 3 so as to overlap. The reinforcing member 9 is a plate-like member, and a hole 17 which is a through hole is provided at a portion corresponding to the hole 7 of the base plate 3. The plurality of anchor bolts 5 are inserted into the respective holes 7 and 17 and are fixed to the base plate 3 by nuts 13. That is, the reinforcing member 9 is fixed to the base plate 3 at once by the anchor bolt 5 and the nut 13. The shape of the base plate 3 and the arrangement and number of anchor bolts 5 are not limited to the illustrated example.

  2 is a plan view of the base plate 3 of the column base structure 1, and is a cross-sectional view taken along line AA of FIG. The base plate 3 is substantially rectangular, and as described above, a plurality of through holes are formed in the vicinity of the four corners.

  At the approximate center of the base plate 3, for example, the lower end of a column 15 which is a square steel pipe is joined. The anchor bolt 5 (hole 7) is disposed outside the column 15.

  The reinforcing members 9 are divided into four parts, which are respectively arranged in the vicinity of the four corners of the base plate 3. The reinforcing member 9 is a substantially L-shaped member and is formed so as to avoid the column 15. As described above, when the reinforcing member 9 is superposed on the base plate 3, the hole 17 is provided in a portion corresponding to the hole 7 of the base plate 3, and the anchor bolt 5 is penetrated and fixed. A plurality of holes 7 and 17 are arranged at each corner. That is, each reinforcing member 9 is fixed by a plurality (two in the figure) of anchor bolts 5.

  The reinforcing member 9 may be provided with a slit instead of the hole 17. That is, as long as the anchor bolt 5 can penetrate, a slit such as a U-shape may be provided from the outer periphery instead of the hole.

  In addition, a notch part is provided in the corner | angular front end side rather than the fixing part of the anchor bolt 5 of the reinforcement member 9. FIG. Since high rigidity is not required on the tip end side of the corner from the anchor bolt 5, the thickening by the reinforcing member 9 is unnecessary.

  The four reinforcing members 9 are separated from each other, and a gap is formed between the reinforcing members 9. Therefore, the reinforcing members 9 do not interfere with each other. Thus, in this embodiment, the reinforcing members 9 do not need to be joined to each other. For this reason, it is easy to install the reinforcing member 9.

  Further, a gap is formed between the reinforcing member 9 and the column 15. For this reason, for example, the welded portion of the column 15 and the reinforcing member 9 do not interfere with each other. In addition, it is desirable that the reinforcing members 9 are arranged symmetrically with respect to the center line of the base plate 3 in a plan view of the base plate 3.

  A fixing unit (not shown) is provided near the lower end of the anchor bolt 5. The fixing unit is a plate-like member having a through hole, for example, and the lower end of the anchor bolt 5 is inserted into the through hole of the fixing unit and fixed with a nut.

  Note that reinforcing bars (not shown) are arranged in the vertical and horizontal directions around the plurality of anchor bolts 5. Reinforcing bars, anchor bolts 5, fixing parts, etc. are buried and fixed by concrete 19. In addition, between the concrete 19 and the base plate 3, the mortar 11 is filled as needed.

  Next, the construction method of the column base structure 1 will be described. First, a pedestal or the like is installed on the ground, the fixing unit is fixed to the end of the anchor bolt 5, and the anchor bolt 5 and the fixing unit are installed on the gantry.

  Next, a substantially rectangular shape plate corresponding to the installation form of the anchor bolt 5 is disposed on the upper end portion of the anchor bolt 5, and the upper portion of the anchor bolt 5 is temporarily fixed to the shape plate. Further, centering is performed for each anchor bolt 5.

  Next, a reinforcing bar is assembled around the anchor bolt 5. After the rebar is installed, the formwork is installed and concrete 19 is placed on the anchor bolt 5 and the rebar. The concrete 19 is cast to the lower part of the shape plate. Therefore, the fixing portion, the reinforcing bars, and a part of the anchor bolt 5 are embedded by the concrete 19.

  As an example, an unbonded sleeve may be disposed in advance on the outer peripheral portion of the anchor bolt 5 located between the fixing portion and the shape plate. It is desirable that the anchor bolt 5 is cut from the concrete 19.

  After placing the concrete 19, the shape plate is removed, and the base plate 3 (column 15) is placed on the anchor bolt 5 exposed on the top of the concrete 19. Further, the reinforcing member 9 is overlapped at a predetermined position of the base plate 3 and fixed with the anchor bolt 5. The reinforcing member 9 may be stacked on the lower surface of the base plate 3 or may be stacked on the upper surface. The mortar 11 is injected into the gap between the base plate 3 and the concrete 19. When the mortar 11 is solidified, the construction of the column base structure 1 is completed.

  In addition, as a method for reinforcing the existing column base, the nut 13 of the anchor bolt 5 that fixes the existing base plate 3 is removed, the reinforcing member 9 is disposed at a predetermined position, and the upper surface of the base plate 3 is overlapped. The anchor bolt 5 may be fixed again with the nut 13 from above the reinforcing member 9.

  As described above, according to the present embodiment, the rigidity of the base plate 3 can be increased without increasing the overall thickness of the base plate 3.

  Further, since the reinforcing member 9 is divided into four parts, the reinforcing member 9 can be easily installed. At this time, since the reinforcing members 9 are arranged with a gap therebetween, they do not interfere with each other. Further, since it is not necessary to connect the reinforcing members 9 to each other, the operation is easy.

  Moreover, since each reinforcement member 9 is fixed with the anchor bolt 5 in multiple places, the rotation deviation of the reinforcement member 9, etc. do not arise.

  Hereinafter, other embodiments will be described. In addition, in the following description, about the structure which show | plays the function similar to the column base structure 1, the code | symbol same as FIGS. 1-2 is attached | subjected and the overlapping description is abbreviate | omitted.

  FIG. 3 is a diagram showing the column base structure 1a. The column base structure 1a has substantially the same configuration as the column base structure 1, but is different in that the reinforcing members 9 are arranged so as to contact each other.

  Thus, the reinforcing members 9 may contact each other. It should be noted that the portion of the base plate 3 that requires the most rigidity is the vicinity of the anchor bolt 5 in the vicinity of the four corners of the base plate 3. For example, in the illustrated example, between the anchor bolt 5 and the column 15 in the vicinity of each corner portion is a stress concentration portion, it is desirable to overlap the reinforcing member 9 in the vicinity thereof. Therefore, in the vicinity of the center of each side, as with the column base structure 1, it is easier to install a gap, and the material cost and weight of the reinforcing member 9 can be reduced.

  FIG. 4 is a diagram showing the column base structure 1b. The column base structure 1b has substantially the same configuration as the column base structure 1a, but differs in that the reinforcing member 9 is divided into two parts.

  In the present embodiment, the reinforcing member 9 is a substantially U-shaped member, and is disposed and fixed so as to sandwich the column 15 so as to face each other. A gap may be formed between the pair of reinforcing members 9.

  Thus, the reinforcing member 9 may have a number of divisions other than four divisions. In the case of two divisions as in this embodiment, the reinforcing member 9 is fixed by the anchor bolt 5 and the nut 13 at each of the two corners. For this reason, even if it fixes with one anchor bolt 5 in each corner | angular part, each reinforcement member 9 is fixed in two places. Therefore, the reinforcing member 9 does not rotate.

  FIG. 5 is a diagram showing the column base structure 1c. The column base structure 1c has substantially the same configuration as the column base structure 1b, but the dividing direction of the reinforcing member 9 is different.

  In this embodiment, the reinforcing member 9 is a substantially L-shaped member, and is disposed and fixed so as to sandwich the column 15 diagonally so as to face each other. A gap may be formed between the pair of reinforcing members 9.

  Thus, the division | segmentation form of the reinforcement member 9 is not specifically limited. In any case, if the reinforcing members 9 are disposed at least near the four corners (near the anchor bolts 5) of the base plate 3 and are superposed on the base plate 3, the base plate 3 can be efficiently reinforced.

  As mentioned above, although embodiment of this invention was described referring an accompanying drawing, the technical scope of this invention is not influenced by embodiment mentioned above. It is obvious for those skilled in the art that various modifications or modifications can be conceived within the scope of the technical idea described in the claims, and these are naturally within the technical scope of the present invention. It is understood that it belongs.

  For example, the reinforcing member 9 may be fixed directly to the base plate 3 by welding.

1, 1a, 1b, 1c ......... Column base structure 3 ... Base plate 5 ... Anchor bolt 7 ... Hole 9 ... Reinforcement member 11 ... Mortar 13 ... Nuts 15 ... 17 ......... hole 19 ... …… concrete

Claims (4)

A column base structure,
A base plate to which the columns are joined;
A plurality of anchor bolts joined to the base plate;
A reinforcing member through which the anchor bolt can penetrate,
Comprising
The column base structure, wherein the anchor bolt is fixed through the base plate and the reinforcing member.   2. The column base structure according to claim 1, wherein the reinforcing member is disposed at an upper portion of the base plate and in the vicinity of four corners of the substantially rectangular base plate.   The reinforcing member is divided into four parts, and each of the reinforcing members is provided with a plurality of holes, and each of the reinforcing members is fixed with a plurality of anchor bolts in the vicinity of the four corners of the base plate. The column base structure according to claim 2. A method for reinforcing a column base,
A base plate to which the columns are joined;
A plurality of anchor bolts joined to the base plate;
Use
The nut of the anchor bolt is removed, and a reinforcing member having a hole through which the anchor bolt is inserted is disposed on the upper surface of the base plate,
A method for reinforcing a column base, comprising fixing the anchor bolt with a nut from above the reinforcing member.

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