JP6544532B2 - Base plate and column base structure using the same - Google Patents

Description

  The present invention uses a base plate fixed to a lower end portion of a steel frame column as a member for fixing the steel frame column to a foundation concrete in an exposed column base structure such as a steel frame structure or a filled steel pipe concrete structure. It relates to the column base structure.

  Column-base structure of steel framed buildings is classified into fixed type (including semi-fixed type) and pin type according to the degree of fixation of column-base joint in frame design, and classified into embedded type and exposed type according to construction method. Be done. Such a column base receives an axial force, a shear force and a bending moment during an earthquake. In the fixed type exposed type, a plurality of anchor bolts are disposed on the outer peripheral side of the steel column in order to positively bear on the base plate and the anchor bolt a bending moment acting on the column base during an earthquake.

  By the way, the base plate, which is a particularly important component in the design of the column and base structure, is greatly influenced by the axial force, shear force and bending moment at the time of earthquake, and there are technical difficulties particularly in coping with bending moment. Specifically, the base plate receives a bending moment at one end side (tension side) by the tensile force of the anchor bolt, and tries to perform an out-of-plane bending deformation downward (base side). On the other hand, on the other end side (compression side) of the base plate, the combined stress of axial force and bending moment acts at the same time, and the compression side region of the base plate is upward (steel frame column side) by the reaction force from the base concrete. Show the behavior to try out-of-plane bending deformation.

  During an earthquake, as described above, the base plate is subjected to completely different bending stresses in the left and right regions centering on the pillars, and these stresses act alternately at a rapid acceleration, so the design against seismic force is insufficient. And will receive a great deal of damage. For this reason, the base plate should be designed with due attention to bending stress and bending deformation with respect to seismic force. As a specific example of such a base plate, one using an extremely thick steel plate, one welded on a top surface of the steel plate as a stiffening rib so as to straddle the side surface of the lower end of the steel frame column as reinforcement rib, reinforcement These base plates can be roughly classified into those made of steel plate and those made of cast steel in order to thicken only the portions that need to be formed.

  Among the above-mentioned base plates, those obtained by diverting extremely thick steel plates are in the form in which a standard rolled steel plate is cut into a rectangular plate having an appropriate size, and a required number of bolt insertion holes are provided in the peripheral portion. This steel plate base plate is advantageous in cost as compared with cast steel, since no mold is required in the manufacturing process, and it is also advantageous in that development to various sizes is easy. I am jealous. In the case of the fixed type exposed column base, since the pullout force of the anchor bolt due to the earthquake etc. becomes considerable, the steel plate base plate is suitable for the pullout force of the anchor bolt, flexural rigidity and bending of the base plate. It is important to secure a sufficient thickness in consideration of the amount of deformation. In addition, when the size of the steel frame column is large, it is necessary to increase the thickness of the steel plate used as the base plate, so the steel plate weight increases in the conventional steel plate base plate that has only been cut into a rectangular shape. There's a problem. Furthermore, since the number of steel plates of this type distributed in the market decreases as the plate thickness increases, it is difficult to use in terms of procurement of materials, and in particular, the plate thickness exceeds 100 mm. There is no extra thick steel plate as a structural material.

  Therefore, for a steel frame column having a large size, a base plate in which a plate piece (stiffening rib) is welded and reinforced to a rolled steel plate having a general thickness is also used. Although this type of base plate can reduce the weight of steel materials compared to the above-mentioned steel plate base plate which diverts the steel plate by using a steel plate whose thickness is not so large, further improvement is necessary in terms of welding quality and cost. Furthermore, when this is applied to the column base, a plurality of plate pieces vertically connected to the side surface of the lower end portion of the steel frame column, and the heads of a large number of anchor bolts projecting on the upper surface of the base plate; A nut etc. screwed into this will be in the state where it was exposed as it is near the lower end part of the steel frame column. Such a state of installation has a problem that it becomes an obstacle as part of a pillar of a building which deteriorates the designability and the habitability.

  Under such circumstances, as shown in FIG. 8, in the case of adopting a steel plate base plate 22 reinforced with a stiffening rib 21 to the steel frame column 20, a construction is performed in which the column base portion becomes inconspicuous. There is something I can do. Specifically, in the upper surface portion of a foundation beam 23 (hereinafter, also referred to as foundation concrete) of a reinforced concrete structure, the lower end of the steel frame column 20 with respect to the anchor bolt 24 embedded in the foundation beam 23 leaving the upper end. After joining the base plate 22 welded to the portion, the puffed portion 25 is provided on the upper surface side of the foundation beam 23. That is, after the completion of the steel frame construction, concrete is cast around the column base to finish it as if it were an embedded column base. The installation of the relief portion 25 not only degrades the workability of the exposed column base but also increases the cost. Therefore, in view of the technical situation in such a fixed type of exposed column base, the present inventor has already proposed a steel plate base plate capable of improving the flexural rigidity without using a stiffening rib. (Patent Document 1).

  The above-mentioned base plate is formed by laminating rolled steel plates in upper and lower two layers, and is composed of a column-side plate member joined to a steel frame column and a base-side plate member installed on a foundation concrete. Then, a circular hole for forming a welding space with the lower surface of the column side plate material is formed in the basic side plate member in an arrangement form that fits inside the outer contour of the steel frame column, and the inner peripheral edge portion is the lower surface. And a first joint portion appropriately welded. In addition, a V-shaped notch is formed in the base side plate material to form a welding space with the lower surface of the column side plate material from the outer edge toward the outer peripheral position of the steel frame column avoiding the anchor bolt insertion hole. The edge portion becomes a second joint portion appropriately welded to the lower surface, and the integrity of the steel plates is enhanced by the first and second joint portions.

JP, 2012-7382, A (refer to figure 2 grade)

  By the way, in the exposed type column base structure using the base plate described in Patent Document 1, although the stiffening rib standing on the upper surface of the base plate is eliminated, the upper end portion of the anchor bolt, the nut and the washer etc. Since there is no change in projecting on the upper surface, the design of the column base is not necessarily good, leaving room for further improvement.

  Accordingly, in view of the problems of the prior art, the present inventor has made the present invention as a result of further studies. That is, in the present invention, a new improvement is added to the insertion hole of the anchor bolt, thereby enhancing the workability, the economic efficiency and the design of the column base while making use of the advantages of the base plate comprising the laminated structure of the rolled steel plate. It is an object of the present invention to provide a base plate for an exposed column base which can be used in the present invention and a column base structure using this base plate.

In order to solve the above problems, in the invention according to claim 1 of the present application, a base concrete surface is fixed to a plurality of bolt insertion holes provided on the upper end side of the plate material at the lower end of the steel frame column and provided in the peripheral portion of the plate material. In a base plate for an exposed column base which fixes the steel frame column on a foundation concrete by tightening a nut from the upper side through a washer with respect to the anchor bolts in a state where a plurality of anchor bolts projecting from the shaft are inserted. , the plate member, along with the lower layer of the steel sheet in the upper layer consisting of one of the steel sheet is composed of a steel plate of the upper and lower two layers welded, bolt insertion holes of the steel sheet to share the axis of each other in circular shape, the upper layer It is characterized in that the bolt insertion hole of the steel plate is formed in a size for storing the nut and is larger than the bolt insertion hole of the lower layer steel plate.

  In the present invention, in the invention according to claim 1, the depth of the bolt insertion hole of the upper layer steel plate is made larger than the sum of the height of the nut and the thickness of the washer (claim 2) The inner diameter of the hole can be made larger than the outer diameter of the washer and the diagonal distance of the nut (claim 3), and the inner diameter of the bolt insertion hole of the lower layer steel plate can be made smaller than the outer diameter of the washer (claim 4) . Furthermore, the outer peripheral contours of the upper layer steel plate and the lower layer steel plate can be made different from each other (claim 5). In this case, the upper-layer steel plate and the lower-layer steel plate are formed in a non-rectangular shape and a rectangular shape, respectively, and the non-rectangular upper-layer steel plate is sized to fit within the outer peripheral contour of the rectangular lower-layer steel plate. Alternatively, the form reverse to the combination, that is, the upper and lower steel plates are respectively formed in a rectangular shape and a non-rectangular shape, and the non-rectangular lower steel plate is sized to fit within the outer peripheral contour of the rectangular upper steel plate It is also possible (claim 7).

In the invention according to claim 8 of the present application, a plurality of steel frame columns with the plate member as the base plate fixed to the lower end portion are projected from the surface of the base concrete in a plurality of bolt insertion holes provided in the peripheral portion of the plate member. In the exposed column base structure fixed on the foundation concrete by tightening a nut from above with a washer attached to the anchor bolts, the plate material is a single steel plate in a state in which the anchor bolts are inserted. consists of a steel plate of the upper and lower two layers the lower layer of the steel sheet is welded to the upper layer consisting of, together with the bolt insertion holes of the upper and lower steel plates to share axis of each other in circular shape, the bolt insertion holes of the upper steel sheet the nut It is formed to store the size of the washer and its bolt insertion hole is located at a position the axis of the bolt insertion hole away from the washer centered perfectly circular, the upper steel plate Bol The inner diameter d1 of the insertion hole, the inner diameter d2 of the bolt insertion hole of the lower layer steel plate, the outer diameter d3 of the washer, the inner diameter d4 of the bolt insertion hole of the washer and the shaft diameter d0 of the anchor bolt are in the relationship d1>d3>d2>d4> d0 Adopted a configuration that In addition, it is also possible to set it as the column base structure where the upper end of the anchor bolt was located below the upper surface of the upper-layer steel plate (Claim 9).

According to the present invention, the following effects can be obtained by adopting the configuration as described above.
(1) By using nuts and washers of appropriate dimensions, these members can be stored in the bolt insertion holes of the upper steel plate consisting of one steel plate, and the number of protrusions on the surface of the base plate after installation can be reduced. The base plate surface extending to the outside of the column has a clean appearance, and the design of the column base is enhanced. In particular, when the depth of the bolt insertion hole of the upper layer steel plate is larger than the sum of the height of the nut and the thickness of the washer, all the members fit in the bolt insertion hole of the upper layer steel plate and the upper end position of the anchor bolt Can be eliminated from the surface of the base plate, and the design of the column base is further enhanced.
(2) When using a base plate reinforced with stiffening ribs by reducing the members projecting to the base plate surface after installation, or without steel plate ribs, the upper part of the anchor bolt including the washer and nut is from the base plate Since the operation of providing a puff on the upper surface side of the base beam, such as the conventional column base structure that protrudes, is not necessary, the workability of the exposed column base is improved, which leads to the weight reduction of the base body and further cost. Down is possible.
(3) Sufficient flexural rigidity is ensured by providing cross-section performance equivalent to that of a conventional stiffening rib vertically attached to the base plate with one of upper and lower two layers of steel plates integrated by welding. can do. That is, when the outer peripheral contours of the upper layer steel plate and the lower layer steel plate are different from each other, and the non-rectangular upper layer steel plate is sized to fit within the outer peripheral contour of the rectangular lower layer steel plate as the reinforcement side base plate Weight reduction and cost reduction can be achieved by deleting the corresponding portion of the upper steel plate that is not required. Also, in the case where the non-rectangular lower layer steel plate is sized to fit within the outer peripheral contour of the rectangular upper layer steel plate as the reinforcement side base plate, the corresponding portion of the lower layer steel plate not requiring cross-section reinforcement of the base plate is deleted In addition to the reduction in cost and cost reduction, the non-rectangular lower layer steel plate is hidden by the rectangular upper layer steel plate, so the designability is further improved.

(A)-(c) is a top view of the base plate concerning a 1st embodiment of the present invention, a bottom view, and an AA line sectional view, respectively. It is the perspective view which decomposed | disassembled and showed the use condition of the base plate of FIG. It is a perspective view of a column base structure using the base plate of FIG. (A) And (b) is the top view and sectional drawing which each expanded the washer used with the pillar base structure of this invention. In the column base structure of this invention, it is sectional drawing which expanded and showed the fastening part of the anchor bolt. It is explanatory drawing which shows the misalignment of an anchor bolt, and the positional relationship of a washer. It is the top view, bottom view, and BB sectional drawing of a baseplate concerning a 2nd embodiment of the present invention. It is explanatory drawing which shows the construction state of the conventional pillar base structure.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings. FIG. 1 shows a first embodiment of an exposed type base plate for an exposure type pillar according to the present invention, wherein (a) is a plan view, (b) is a bottom view and (c) is a line AA in (a) FIG. The illustrated base plate 1 has a laminated structure including an upper steel plate 2a to which lower ends of steel columns are joined by welding or the like, and a lower steel plate 2b disposed on the lower surface side of the upper steel plate 2a and integrally joined to the upper steel plate 2a. At four corners of the plate member 2, bolt insertion holes 3 penetrating the plate member 2 in the vertical direction are provided. The bolt insertion hole 3 is formed in a step-like shape as is apparent from the cross sectional view, and the inner diameter d1 of the bolt insertion hole 3a of the upper steel plate 2a has a size for storing a nut therein as described later. The bolt insertion holes 3a and 3b are larger than the inner diameter d2 of the bolt insertion hole 3b, and arranged with the same axial center.

The upper steel plate 2a is formed of a single steel plate, and the lower end of the steel frame column (for example, a square steel pipe column) to which the base plate 1 is attached is positioned slightly inward of the outer peripheral contour of the upper steel plate 2a. A non-rectangular shape in which each side is formed in an arc along the bolt insertion hole 3 while having a shape in which the side is recessed in an arc, and which is equivalent to a conventional stiffening rib. Cross-sectional performance. On the other hand, lower layer steel plate 2b is formed of a single rectangular steel plate (square shape), and when non-rectangular upper layer steel plate 2a is stacked, the entire size fits within the outer peripheral contour of lower layer steel plate 2b. It is set to.

That is, in the base plate 1 according to the present invention, the place where cross-sectional reinforcement is required is centering on the line from the center point of the bolt insertion hole 3 to the center point of the steel frame column and around the outer periphery of the column to which the steel frame column is fixed. Thus, the weight and cost of the base plate 1 can be reduced by forming the middle portion of the side portion of the upper layer steel plate 2a which does not require cross-sectional reinforcement in an arc shape. The upper and lower steel plates 2a and the lower steel plates 2b, each of which is a single steel plate, are joined and integrated by welding along the lower outer peripheral edge portion of the upper steel plates 2a in a state in which both are laminated vertically. In addition, welding of the upper layer steel plate 2a and the lower layer steel plate 2b is not necessarily continuous along the entire circumference, and when a predetermined bonding strength is obtained, an interval may be made with an appropriate welding length.

  Next, a method of using the base plate 1 according to the present invention will be described. FIG. 2 is an exploded perspective view of the use state of the base plate 1, and FIG. 3 is a perspective view of a column base structure according to the present invention using the base plate 1 of FIG. First, the base plate 1 is welded at a predetermined position on the upper surface side of the upper steel plate 2a to the lower end portion of the steel frame column 4 made of a square steel pipe. Next, the steel frame column 4 to which the base plate 1 is fixed passes through the bolt at the four corners of the base plate 1 with respect to the upper end of the anchor bolt 6 of which most part is embedded in the foundation concrete 5 except the upper end. The hole 3 is placed on the upper surface of the foundation concrete 5 with the holes 3 aligned and inserted. The washer 7 is inserted into the upper end portion of each anchor bolt 6, and the nut 7 is tightened from above with the nut 8 in a state where the washer 7 is in contact with the upper surface of the lower steel plate 2b inside the bolt insertion hole 3a of the upper steel plate 2a. The steel frame column 4 is firmly joined to the foundation concrete 5 via the base plate 1. In this case, since the washer 7 acts as a support for supporting the stress acting on the anchor bolt 6 on the upper surface of the lower layer steel plate 2b, its thickness, outer diameter and the like are appropriately selected. A filled mortar layer 9 is provided between the lower surface of the lower steel plate 2 b and the upper surface of the base concrete 5 as necessary.

  FIG. 4 is an enlarged view of the washer 7 used in the exposed type pedestal according to the present invention, in which (a) is a plan view and (b) is a sectional view. The whole of the washer 7 is formed in a perfect circular shape with an outer diameter d3 and the inner bolt insertion hole 7a through which the anchor bolt 6 passes is also a perfect circular shape with an outer diameter d4, but the center of the bolt insertion hole 7a It is characterized in that c1 is decentered by δ with respect to the center c2 of the whole washer.

FIG. 5 is an enlarged view of the fastening portion of the anchor bolt 6 in the exposed type column base structure according to the present invention in order to explain the size of each member involved in joining with the foundation concrete 5 and the positional relationship with each other. It is sectional drawing shown. The anchor bolt 6 whose upper end portion protrudes at the upper surface of the foundation concrete 5 has its upper end surface positioned at substantially the same level as the upper surface of the upper steel plate 2a, and the whole of the washer 7 and nut 8 mounted thereon is the upper layer. from Osama Turkey inside the bolt insertion holes 3a of the steel plate 2a, there is no member protruding on the upper surface of the upper steel plate 2a around the steel column 4, design of the columnar leg portion is greatly improved. Along with this, since it is not necessary to provide the puffed portion on the upper surface side of the foundation concrete 5, the workability of the exposed column base is improved, and the cost of the base portion including the column base can be reduced.

  In the column-base structure, the inner diameter d1 of the bolt insertion hole 3a of the upper steel plate 2a, the inner diameter d2 of the bolt insertion hole 3b of the lower steel plate 2b, the outer diameter d3 of the washer 7 with respect to the shaft diameter d0 of the anchor bolt 6; It is important that the inner diameter d4 of the bolt insertion hole 7a of the washer 7 has a relationship of d1> d3> d2> d4> d0. In this case, the inner diameter d2 of the bolt insertion hole 3b of the lower layer steel plate 2b is slightly larger than the shaft diameter d0 of the anchor bolt 6. The reason is that in the work of burying the anchor bolt 6 at the predetermined position in the foundation concrete 5, it is possible to cope with construction error (position accuracy) which can not be avoided at the time of construction and In consideration of the operation of inserting the anchor bolt 6 into 3b), it is preferable in practical terms to set the excessive size within a range of about plus or minus 10 mm with respect to the reference line.

  That is, the bolt insertion hole 3b of the lower layer steel plate 2b has an inner diameter that can ensure a clearance of about 10 to 20 mm with respect to the anchor bolt 6. Since the steel frame column 4 including the base plate 1 is manufactured at a factory, the dimensional accuracy of the base plate 1 is relatively high. On the other hand, the installation (position) accuracy of the anchor bolt 6 is about plus or minus 5 to 10 mm even under sufficient construction management since the installation of the anchor bolt 6 is a field work prior to the construction of the foundation concrete 5 An eccentricity must be assumed. As a result of taking this into consideration, it is necessary to enlarge the bolt insertion hole 3b of the lower steel plate 2b so as to secure the above-mentioned clearance.

  FIG. 6 is an explanatory view showing the positional relationship between the centering of the anchor bolt 6 and the washer 7 when the column and base structure is adopted. (A) shows the case where the anchor bolt 6 is located substantially at the center of the bolt insertion hole 3, and (b) shows the case where misalignment occurs. In the washer 7 used in the column and pillar structure of the present invention, as shown in FIG. 4, the center point c1 of the bolt insertion hole 7a is eccentric by a distance δ from the center point c2 of the washer 7. Can completely cover the bolt insertion hole 3b of the lower steel plate 2b regardless of the position in the bolt insertion hole 3 (3a, 3b) of the base plate 1 to support the anchor bolt 6 reliably. In addition, since the washer 7 abuts against the inner wall surface of the bolt insertion hole 3a of the upper steel plate 2a when the steel frame is erected, extreme lateral movement of the base plate 1 accompanying the steel frame 4 is prevented. The position correction work of 4 can be made unnecessary.

  FIG. 7 shows a base plate according to a second embodiment of the present invention, wherein (a) is a plan view, (b) is a bottom view, and (c) is a cross-sectional view taken along line B-B of (a). The description of the parts overlapping with the first embodiment will be omitted. The illustrated base plate 10 is common to the first embodiment in that it is composed of the upper and lower two layers of plate members 11, but the positional relationship of the stiffening layers is reversed to make the lower steel plate a stiffening effect. It is an example that I gave.

In this embodiment, the upper steel plate 11a is The rewritable forming a single steel plate in a square shape, the lower steel plate 11b serving as a stiffening layer is composed of four strip pieces 12. Each strip 12 is disposed diagonally with both ends directed to the corner and the center of the upper steel plate 11a, that is, on the diagonal side, and is integrated with the upper steel plate 11a by welding at the outer peripheral edge portion on the upper steel plate 11a side. Be As a result, the lower steel plate 11b consisting of the four strip pieces 12 has a substantially cruciform shape as a whole.

Further, in the relationship between the bolt insertion holes 13a and 13b of the upper layer steel plate 11a and the lower layer steel plate 11b (strip piece 12), the upper layer steel plate 11a is formed larger at the same axial center as in the first embodiment. In this case, a gap is formed in a cross shape on the central portion side of the four strip pieces 12, but this gap can be used as a flow passage when the mortar is filled on the back side of the base plate 10. . Of course, as the lower layer steel plate, it is possible to apply one made of a single steel plate like the upper layer steel plate 2a of the first embodiment. In the column base structure using the base plate 10 according to this embodiment, a nut or the like is stored inside the bolt insertion holes 13 provided at the four corners of the square-shaped upper layer steel plate 11a, and including these bolt insertion holes 13 Since the peripheral portion of the upper steel plate 11a protruding to the outside from the side surface of the column is substantially flat, the column base has a clear appearance and the design is improved.

In each of the above embodiments, although the case where the positions of the bolt insertion holes are provided one by one at four corners has been described, the positions of the bolt insertion holes through which the anchor bolts are inserted may be at least at the corners of the base plate. For example, those provided with a plurality at each corner only, those provided at the side between the corners, or those arranged equally along the four sides according to the number etc. It is applicable to the arrangement state of. Also, the upper end portion and the nut of the anchor bolt, it is in terms of design preferably set so that the fully retracted into the bolt insertion holes of the upper steel plate, no need to provide an invisible portion described above with some protruding state Depending on the situation, it may be selected as appropriate. Furthermore, as a nut to be attached to the upper end portion of the anchor bolt, for example, a screw-on round nut, a nut with a top hole, a grooved round nut, etc. By applying a nut that can be tightened by engagement, it is possible to improve the workability when the eccentricity is large in the bolt insertion hole, and various modifications can be made within the technical concept of the present invention. .

  The base plate for an exposed column base according to the present invention exhibits its superiority when used for a column base of a steel frame, and is excellent in design, and additionally, the seismic performance, construction and economy of the structural frame. Further development is expected as a means to improve the

  DESCRIPTION OF SYMBOLS 1 ... Base plate, 2 ... Plate material, 2a ... Upper layer steel plate, 2b ... Lower layer steel plate, 3, 3a, 3b ... Bolt penetration hole, 4 ... Steel frame pillar, 5 ... Foundation concrete, 6 ... Anchor bolt, 7 ... Washer, 7a ... Bolt insertion hole, 8 Nut, 9 Filled mortar layer, 10 Base plate, 11 Plate member, 11a Upper layer steel plate, 11b Lower layer steel plate, 12 Band plate pieces, 13a, 13b Bolt insertion hole 20 Steel frame Column, 21 ... Stiffening rib 21, 22 ... Base plate, 23 ... Foundation beam, 24 ... Anchor bolt, 25 ... Soft part

Claims (9)

These anchors are fixed to the lower end portion of the steel frame column at the upper surface side of the plate material, and a plurality of anchor bolts projecting from the surface of the base concrete are inserted into a plurality of bolt insertion holes provided in the peripheral portion of the plate material. In a base plate for exposed type pillar base for fixing the steel frame column on a foundation concrete by tightening a nut from above through a washer with respect to a bolt, in the plate material , the upper plate made of one steel plate is a lower steel plate There is composed of a steel plate of welded upper and lower layers, with the bolt insertion holes of the steel sheet to share the axis of each other in circular shape, the bolt insertion holes of the upper steel plate is formed in a size for storing the nut, A base plate characterized by being larger than bolt insertion holes of a lower layer steel plate.
  The base plate according to claim 1, wherein the depth of the bolt insertion hole of the upper layer steel plate is larger than the sum of the height of the nut and the thickness of the washer.   The base plate according to claim 1 or 2, wherein an inner diameter of a bolt insertion hole of the upper layer steel plate is larger than an outer diameter of the washer and a diagonal distance of the nut.   The base plate according to any one of claims 1 to 3, wherein an inner diameter of a bolt insertion hole of the lower layer steel plate is smaller than an outer diameter of the washer.   The base plate according to any one of claims 1 to 4, wherein outer peripheral contour shapes of the upper layer steel plate and the lower layer steel plate are different from each other.   The base plate according to claim 5, wherein the upper layer steel plate and the lower layer steel plate are respectively formed in a non-rectangular shape and a rectangular shape, and the non-rectangular upper layer steel plate fits within the outer peripheral contour of the rectangular lower layer steel plate.   The base plate according to claim 5, wherein the upper layer steel plate and the lower layer steel plate are respectively formed in a rectangular shape and a non-rectangular shape, and the non-rectangular lower layer steel plate fits within the outer peripheral contour of the rectangular upper layer steel plate. These anchors are inserted through a plurality of anchor bolts projecting from the surface of the base concrete into a plurality of bolt insertion holes provided in the peripheral portion of the plate member, with a steel frame column in which a plate member as a base plate is fixed to the lower end. In the exposed column base structure fixed on the foundation concrete by tightening a nut from above with a washer to the bolt, the plate material is the upper and lower layers where the lower layer steel plate is welded to the upper layer consisting of one steel plate consists of steel plate of a two-layer, with bolt insertion holes of the upper and lower steel plates to share the axis together with a true circle, the bolt insertion holes of the upper steel plate is formed in a size for storing the nut, and the washer The bolt insertion hole is a true circle and the axis of the bolt insertion hole is away from the center of the washer, and the inner diameter d1 of the bolt insertion hole of the upper layer steel plate, the bolt of the lower layer steel plate Column base structure characterized in that inner diameter d2 of through hole, outer diameter d3 of washer, inner diameter d4 of bolt insertion hole of washer and shaft diameter d0 of anchor bolt are d1>d3>d2>d4> d0 .
  The column base structure according to claim 8, wherein an upper end of the anchor bolt is located below an upper surface of the upper steel plate.

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