JP5666229B2 - Joint structure of steel column and steel beam - Google Patents

Description

  The present invention relates to a joint structure between a steel column and a steel beam.

  As a joint structure between a steel column and a steel beam, an outer diaphragm structure in which two diaphragms are welded to the outer periphery of the steel column without dividing the steel column and the end of the steel beam is joined to this diaphragm is known. .

  In such an outer diaphragm structure, the outer diaphragm perpendicular to an arbitrary side surface of the rectangular steel pipe column is composed of two divided diaphragms divided into two in the width direction of the side surface, and the side surfaces of the rectangular steel tube column are divided into two divided diaphragms. There has been proposed a joining structure of a steel pipe column and a steel beam to be joined by sandwiching a vertical stiffener to be joined to (see, for example, Patent Document 1 and Patent Document 2).

  However, in the case of a configuration in which the vertical stiffener is sandwiched and joined by the split diaphragm, the outer diaphragm needs to be split at each position of the vertical stiffener. Therefore, the degree of freedom in designing the joint is limited. For this reason, depending on the structure, the number of divisions of the outer diaphragm increases, and as a result, workability may deteriorate.

JP 2001-262697 A JP 2002-173978 A

  In view of the above, it is an object of the present invention to provide a joint structure between a steel column and a steel beam that can increase the degree of freedom in designing a joint.

According to the first aspect of the present invention, an end surface of the steel column is joined to an outer peripheral surface of the steel column along the axial direction of the steel column, and an end of the first steel beam is joined. An end surface is abutted against the outer peripheral surface and joined to the outer peripheral surface, a plate surface is joined to the upper end surface of the first web plate, and an upper end portion of the first steel beam is joined first. An outer diaphragm plate, and the first outer diaphragm plate is divided by a slit formed along an upper end surface of the first web plate, and the divided first outer diaphragm plate the diaphragm plate, the slit position, each said plate surface to the first web plate is bonded in contact, by said first outer diaphragm plates arranged joined plate over the slit, the first An upper end portion of the outer diaphragm plate first steel beam is joined.

  Therefore, since the plate surface of the first outer diaphragm plate is joined to the upper end surface of the first web plate, for example, the structure in which the outer diaphragm plate is divided into four at the corners of the steel column or the web between the slits. Compared with the structure of inserting into the plate and welding, the degree of freedom in designing the joint can be increased.

  According to a second aspect of the present invention, an end surface is joined to an outer peripheral surface of the steel column along the axial direction of the steel column, and the end surface is arranged in a direction intersecting with the first steel beam. A second web plate to which ends of second steel beams having different compositions are joined, and the first outer diaphragm plate has a plate surface joined to an upper end surface of the second web plate. , The upper end of the second steel beam is joined, disposed opposite to the first outer diaphragm plate, and the end face is formed on the outer peripheral surface of the steel column without being joined to the second web plate. A second outer diaphragm plate that is abutted and joined to the outer peripheral surface, a plate surface is joined to the lower end surface of the first web plate, and a lower end portion of the first steel beam is joined; Pair with the first outer diaphragm plate And the second outer diaphragm plate is arranged differently in the vertical direction, and the end surface is abutted against the outer peripheral surface of the steel column without being joined to the first web plate, and A third outer diaphragm plate having a plate surface bonded to a lower end surface of the second web plate and a lower end portion of the second steel beam being bonded.

  Accordingly, even if a plurality of steel beams are joined to one first outer diaphragm plate, the number of divisions of the first outer diaphragm plate does not increase. Therefore, deterioration of workability due to an increase in the number of divisions of the first outer diaphragm plate is prevented.

  Further, even if the first steel beam and the second steel beam having different beam formation are joined, the second and third outer diaphragm plates are respectively the first steel beam or the second steel frame. The second and third outer diaphragm plates do not interfere with the first or second web plates because the beams are not joined to the first or second web plates that are not joined. Also, it is not necessary to split the second and third outer diaphragm plates to avoid interference.

According to a third aspect of the present invention, there is provided a first web plate in which an end surface is joined to an outer peripheral surface of a steel column along the axial direction of the steel column, and an end portion of the first steel beam is joined; An end surface is abutted against the outer peripheral surface and joined to the outer peripheral surface, a plate surface is joined to the lower end surface of the first web plate, and a lower end portion of the first steel beam is joined first. An outer diaphragm plate, and the first outer diaphragm plate is divided by a slit formed along a lower end surface of the first web plate and the divided first outer diaphragm plate the diaphragm plate, the slit position, each said plate surface to the first web plate is bonded in contact, by the first bonding plate disposed below the slit of the outer diaphragm plate, said first The outer diaphragm plate and the lower end portion of the first steel beam is joined.

  Therefore, since the plate surface of the first outer diaphragm plate is joined to the lower end surface of the first web plate, for example, the structure in which the outer diaphragm plate is divided into four at the corners of the steel column or the web between the slits. Compared with the structure of inserting into the plate and welding, the degree of freedom in designing the joint can be increased.

  According to a fourth aspect of the present invention, an end surface is joined to an outer peripheral surface of the steel column along the axial direction of the steel column, and the end surface is arranged in a direction intersecting with the first steel beam, and the first steel beam and beam A second web plate to which ends of second steel beams having different compositions are joined, and the first outer diaphragm plate has a plate surface joined to a lower end surface of the second web plate. , The lower end of the second steel beam is joined, disposed opposite the first outer diaphragm plate, and an end face is formed on the outer peripheral surface of the steel column without being joined to the second web plate. A second outer diaphragm plate that is abutted and joined to the outer peripheral surface, a plate surface is joined to the upper end surface of the first web plate, and an upper end portion of the first steel beam is joined; Pair with the first outer diaphragm plate And the second outer diaphragm plate is arranged differently in the vertical direction, and the end surface is abutted against the outer peripheral surface of the steel column without being joined to the first web plate, and And a third outer diaphragm plate that is joined to the upper end surface of the second web plate and to which the upper end portion of the second steel beam is joined.

  Accordingly, even if a plurality of steel beams are joined to one first outer diaphragm plate, the number of divisions of the first outer diaphragm plate does not increase. Therefore, deterioration of workability due to an increase in the number of divisions of the first outer diaphragm play plate is prevented.

Further, even if the first steel beam and the second steel beam having different beam formation are joined, the second and third outer diaphragm plates are respectively the first steel beam or the second steel frame. The second and third outer diaphragm plates do not interfere with the first or second web plates because the beams are not joined to the first or second web plates that are not joined. Also, it is not necessary to split the second and third outer diaphragm plates to avoid interference.
The invention according to claim 5 is a first web plate in which an end surface is joined to an outer peripheral surface of the steel column along the axial direction of the steel column, and an end of the first steel beam is joined, and the steel column An end surface is abutted against the outer peripheral surface and joined to the outer peripheral surface, a plate surface is joined to the upper end surface of the first web plate, and an upper end portion of the first steel beam is joined first. An outer diaphragm plate, and the first outer diaphragm plate is divided by a slit formed along an upper end surface of the first web plate, and the divided first outer diaphragm plate The diaphragm plate is joined to the first web plate at the slit position, and the end face is joined to the outer peripheral surface of the steel column along the axial direction of the steel column, and intersects the first steel beam. Arranged in the direction and The first steel beam has a second web plate to which an end of a second steel beam having a beam formation different from that of the first steel beam is joined, and the first outer diaphragm plate has an upper end surface of the second web plate And the upper surface of the second steel beam is bonded to the first outer diaphragm plate, and the steel frame is not bonded to the second web plate. The end surface is abutted against the outer peripheral surface of the column and joined to the outer peripheral surface, the plate surface is joined to the lower end surface of the first web plate, and the lower end portion of the first steel beam is joined. The second outer diaphragm plate and the first outer diaphragm plate are arranged opposite to each other in the vertical direction, and the second outer diaphragm plate is arranged without being joined to the first web plate. The end surface is abutted against the outer peripheral surface of the trabecular column and joined to the outer peripheral surface, the plate surface is joined to the lower end surface of the second web plate, and the lower end portion of the second steel beam is joined. A third outer diaphragm plate.
According to a sixth aspect of the present invention, there is provided a first web plate in which an end surface is joined to the outer peripheral surface of the steel column along the axial direction of the steel column, and an end of the first steel beam is joined; An end surface is abutted against the outer peripheral surface and joined to the outer peripheral surface, a plate surface is joined to the lower end surface of the first web plate, and a lower end portion of the first steel beam is joined first. An outer diaphragm plate, and the first outer diaphragm plate is divided by a slit formed along a lower end surface of the first web plate and the divided first outer diaphragm plate Diaphragm plates are respectively joined to the first web plate at the slit position, and end faces are joined to the outer peripheral surface of the steel column along the axial direction of the steel column, and intersect the first steel beam. Arranged in the direction and The first steel beam has a second web plate to which an end of a second steel beam different in beam formation from the first steel beam is joined, and the first outer diaphragm plate is a lower end surface of the second web plate And the bottom surface of the second steel beam is bonded to the first outer diaphragm plate, and the steel frame is not bonded to the second web plate. The end surface is abutted against the outer peripheral surface of the column and joined to the outer peripheral surface, the plate surface is joined to the upper end surface of the first web plate, and the upper end portion of the first steel beam is joined. The second outer diaphragm plate and the first outer diaphragm plate are arranged opposite to each other in the vertical direction, and the second outer diaphragm plate is arranged without being joined to the first web plate. The end surface is abutted against the outer peripheral surface of the trabecular column and joined to the outer peripheral surface, the plate surface is joined to the upper end surface of the second web plate, and the upper end portion of the second steel beam is joined. A third outer diaphragm plate.

  As described above, according to the present invention, the degree of freedom in designing the joint can be increased.

It is a perspective view of the joint of the steel pipe column and steel beam joined by applying the joining structure of the steel column and steel beam concerning the embodiment of the present invention. FIG. 2 is an exploded perspective view of FIG. 1 in a state before a steel pipe column is filled with cement. FIG. 2 is an elevation view seen in the direction of arrow R in FIG. 1. FIG. 2 is an elevation view seen in the direction of arrow S in FIG. 1. FIG. 5 is an arrow view taken along line 5-5 in FIGS. 3 and 4 in a state before the steel beam is joined. FIG. 6 is an arrow view taken along line 6-6 in FIGS. 3 and 4 in a state before the steel beam is joined. It is an arrow line view along the 7-7 line | wire of FIG. 3 and FIG. 4 in the state before a steel beam is joined. It is a figure which shows typically the junction part of the lower surface of a 1st outer diaphragm plate, and a 1st web plate.

<Embodiment>
The joint (joint part) of the steel column and steel beam joined by applying the joining structure of the steel column and steel beam according to the embodiment of the present invention will be described with reference to FIGS. In the present embodiment, a plurality of steel beams including steel beams having different beams are joined to a steel column with an outer diaphragm structure.

  As shown in FIG. 1, three steel beams 20, 30, and 40 are joined to the steel pipe column 10. The steel pipe column 10 is a steel pipe having a substantially quadrangular horizontal cross section constituted by side surfaces 12, 14, 16, and 18. Moreover, in this embodiment, the steel pipe pillar 10 is made into the concrete filling steel pipe structure (CFT; Concrete Filled Steel Tube) by which the concrete K was filled inside the steel pipe.

  The steel beam 20 is joined to the side surface 14 side of the steel tube column 10, the steel beam 30 is joined to the side surface 12 side of the steel tube column 10, and the steel beam 40 is joined to the side surface 16 side of the steel tube column 10.

  In addition, let the longitudinal direction of the steel beam 30 and the steel beam 40 be X direction, and let the longitudinal direction of the steel beam 20 be Y direction. Moreover, let the axial direction (longitudinal direction) of the steel pipe column 10, ie, a perpendicular direction, be a Z direction. In plan view, the direction toward the axis G of the steel pipe column 10 is defined as the inner direction, and the opposite direction (the direction away from the axis G) is defined as the outer direction. Further, in the plan view, the X direction and the Y direction are orthogonal to each other.

  In the present embodiment, the steel beams 20, 30, and 40 are H-section steel having an H-shaped cross section. That is, the steel beams 20, 30, 40 are constituted by upper flanges 22, 32, 42, lower flanges 24, 34, 44, and webs 26, 36, 46.

  Although the steel beam 30 and the steel beam 40 arranged along the X direction are H-shaped steels having the same beam formation, the steel beam 20 arranged along the Y direction is formed more than the steel beams 30 and 40. Is a short H-section steel (see also FIG. 4). The “beam formation” is the length from the lower end to the upper end of the beam cross section.

  As shown in FIGS. 1 to 4, the first web plate 50, the second web plate 60, and the third web plate 70 (FIG. 3) are welded to the side surfaces 12, 14, and 16 of the steel pipe column 10, respectively. Yes.

  As shown in FIGS. 1, 2, and 4, the first web plate 50 is disposed with the Y direction as an out-of-plane direction, and the side end surface 50 </ b> A is formed on the side surface 14 of the steel pipe column 10 along the axial direction (Z direction). It is welded. As shown in FIGS. 1 to 3, the second web plate 60 is disposed with the X direction as an out-of-plane direction, and the side end surface 60 </ b> A is welded to the side surface 12 of the steel pipe column 10 along the axial direction (Z direction). ing. As shown in FIG. 3, the third web plate 70 is disposed with the X direction as an out-of-plane direction, and the side end surface 70 </ b> A is welded to the side surface 16 of the steel pipe column 10 along the axial direction (Z direction).

  As shown in FIGS. 3 and 4, the positions in the Z direction of the upper end surface 50U of the first web plate 50, the upper end surface 60U of the second web plate 60, and the upper end surface 70U of the third web plate 70 are the same. ing.

  Since the steel beam 30 and the steel beam 40 have the same beam formation, the positions of the lower end surface 60L of the second web plate 60 and the lower end surface 70L of the third web plate 70 in the Z direction are the same. However, since the steel beam 20 has a shorter beam formation than the steel beams 30 and 40, the lower end surface 50L of the first web plate 50 corresponds to the lower end surface 60L of the second web plate 60 and the third web plate 70 accordingly. The position in the Z direction is located on the upper side of the lower end surface 70L.

  As shown in FIGS. 1 to 4, a first outer diaphragm plate 100, a second outer diaphragm plate 200, and a third outer diaphragm plate are disposed on the outer peripheral surface 10 </ b> A (side surfaces 12, 14, 16, 18) of the steel pipe column 10. 300 is welded.

  The first outer diaphragm plate 100 is disposed on the upper end surface 50U of the first web plate 50, the upper end surface 60U of the second web plate 60, and the upper end surface 70U of the third web plate 70, and is fillet welded. (See fillet weld M in FIG. 8).

  As shown in FIG. 5, the first outer diaphragm plate 100 has a substantially triangular shape in a plan view, and a hole portion 102 having substantially the same shape as the cross-sectional outer diameter (outer peripheral surface 10 </ b> A) of the steel pipe column 10 is formed in the center portion. Has been. And it fillets with the outer peripheral surface 10A (side surface 12, 14, 16, 18) of the steel pipe pillar 10 over the perimeter of this hole part 102. As shown in FIG. That is, the portion welded to the steel pipe column 10 is the hole 102. As will be described later, since the first outer diaphragm plate 100 is divided into the divided plate 110 and the divided plate 120 by the slits 104 and 106, the hole portion 102 is not exactly a “hole” but the slit 104. , 106 has a gap.

  The first outer diaphragm plate 100 is divided into a split plate 110 and a split plate 120 having the same shape by slits 104 and slits 106 formed along the upper end surface 50U of the first web plate 50. In other words, the first outer diaphragm plate 100 includes the divided plate 110 and the divided plate 120.

  The split plates 110 and 120 are formed with recesses 112 and 122 on the inside, and the recesses 112 and 122 are fillet welded to the outer peripheral surface 10 </ b> A of the steel pipe column 10. The recesses 112 and 122 constitute the hole 102 described above. However, as described above, in the state where the steel pipe column 10 is welded and joined, there is a gap between the slits 104 and 106.

  As shown in FIG. 8, the lower surface (lower plate surface) 100L of the first outer diaphragm plate 100 has both sides of the slit 104 joined to the upper end surface 50U of the first web plate 50 by fillet welding M. Yes.

  As shown in FIGS. 1, 2, and 4, the second outer diaphragm plate 200 is disposed below the first web plate 50 so as to face the first outer diaphragm plate 100 in the vertical direction. The upper surface (upper plate surface) 200U of the second outer diaphragm plate 200 is fillet welded to the lower end surface 50L of the first web plate 50.

  As shown in FIGS. 1, 2, 4, and 6, a recess 204 is formed inside the second outer diaphragm plate 200, and the recess 204 fills the side surfaces 12, 14, and 16 of the steel pipe column 10. Welded. As shown in FIG. 6, the inner ends 200 </ b> A and 200 </ b> B in the Y direction of the second outer diaphragm plate 200 are not welded to the second web plate 60 and the third web plate 70. In FIG. 6, the inner end portions 200 </ b> A and 200 </ b> B of the second outer diaphragm plate 200 are not in contact with the second web plate 60 and the third web plate 70 (although there is a gap), but they are in contact. May be.

  As shown in FIGS. 1, 2, and 4, the second outer diaphragm plate 200 is disposed below the first web plate 50 so as to face the first outer diaphragm plate 100 in the vertical direction. The upper surface (upper plate surface) 200U of the second outer diaphragm plate 200 is fillet welded to the lower end surface 50L of the first web plate 50.

  As shown in FIGS. 1 to 3, the third outer diaphragm plate 300 is disposed below the second web plate 60 and the third web plate 70 so as to face the first outer diaphragm plate 100 in the vertical direction. . The upper surface (upper plate surface) 300U of the third outer diaphragm plate 300 is fillet welded to the lower end surface 60L of the second web plate 60 and the lower end surface 70L of the third web plate 70, respectively.

  As shown in FIG. 7, the third outer diaphragm plate 300 is formed with a hole 302 having substantially the same shape as the cross-sectional outer diameter (outer peripheral surface 10 </ b> A) of the steel pipe column 10 in the center portion in plan view. And it fillets with the outer peripheral surface 10A (side surface 12, 14, 16, 18) of the steel pipe pillar 10 over the perimeter of this hole 302. As shown in FIG. That is, the hole 302 is a portion that is welded to the steel pipe column 10. As will be described later, since the third outer diaphragm plate 300 is divided into the divided plate 310 and the divided plate 320 by the slits 304 and 306, the hole 302 is not exactly a “hole” but the slit 104. , 106 has a gap.

  The third outer diaphragm plate 300 is divided into a split plate 310 and a split plate 320 having the same shape by slits 304 and slits 306 formed along the first web plate 50. In other words, the third outer diaphragm plate 300 includes the divided plate 310 and the divided plate 320. In the present embodiment, the divided plates 310 and 320 and the second outer diaphragm plate 200 have substantially the same shape.

  The divided plates 310 and 320 have recesses 312 and 322 formed on the inner side, and the recesses 312 and 322 are fillet welded to the outer peripheral surface 10 </ b> A of the steel pipe column 10. The concave portions 312 and 322 constitute the hole portion 302 described above. However, as described above, in the state where the steel pipe column 10 is welded and joined, there is a gap at the slits 304 and 306.

  As described so far, the first outer diaphragm plate 100 and the second outer diaphragm plate 200 arranged in the vertical direction (Z direction) of the first web plate 50 have the lower surface 100L and the upper surface 200U, The web plate 50 is joined to the upper end surface 50U and the lower end surface 50L, and is welded to the outer peripheral surface 10A of the steel pipe column 10.

  The first outer diaphragm plate 100 and the third outer diaphragm plate 300, which are arranged opposite to each other in the vertical direction of the second web plate 60 and the third web plate 70, have a lower surface 100L and an upper surface 200U, and a second web plate 60 and a second web plate 60. The three web plates 70 are welded to the upper end surfaces 60U and 70U and the lower end surfaces 60L and 70L, and are welded to the outer peripheral surface 10A of the steel pipe column 10.

  As shown in FIGS. 1 to 4, in the steel beam 20, the web 26 is bolted via the first web plate 50 and the joining plate 502, and the upper flange 22 is joined to the first outer diaphragm plate 100 and the joining plate. The lower flange 24 is joined to the second outer diaphragm plate 200 via the joining plates 504 and 506, so that the lower flange 24 is joined to the steel pipe column 10.

  A joining plate 506 is disposed on the slit 104 of the first outer diaphragm plate 100 and is bolted to the upper flange 22 of the steel beam 20. That is, the joining plate 506 is disposed across both the divided plate 110 and the divided plate constituting the first outer diaphragm plate 100 and is bolted (see FIG. 1).

  In the steel beam 30, the web 36 is bolted via the second web plate 60 and the joining plate 502, and the upper flange 32 connects the first outer diaphragm plate 100 (the divided plate 110) and the joining plates 504 and 506. The lower flange 34 is joined to the steel pipe column 10 by being bolted to the third outer diaphragm plate 300 (the divided plate 310) via the joining plates 504 and 506.

  In the steel beam 40, the web 46 is bolted via the third web plate 70 and the joining plate 502, and the upper flange 42 is connected to the first outer diaphragm plate 100 (the divided plate 120) and the joining plates 504 and 506. The lower flange 44 is joined to the steel pipe column 10 by being bolted to the third outer diaphragm plate 300 (the divided plate 320) via the joining plates 504 and 506.

  In the present embodiment, each bolt joint is joined by high-strength bolt joint (high-strength bolt friction joint).

  Below, an example of the construction method which joins the steel beam 20, 30, 40 to the steel pipe pillar 10 in this embodiment is demonstrated below.

First, the first web plate 50, the second web plate 60, and the third web plate 70 are welded to the side surfaces 12, 14, and 16 of the steel pipe column 10.
Next, the first outer diaphragm plate 100, the second outer diaphragm plate 200, and the third outer diaphragm plate 300 are welded together. When the first outer diaphragm plate 100 (divided plates 110, 120) is welded, the first diaphragm plate 100 (divided plates 110, 120) is connected to the upper end surface 50U of the first web plate 50 and the second web plate 60. The upper end surface 60U and the third web plate 70 are temporarily placed on the upper end surface 70U.
Next, the steel beams 20, 30, 40 are connected to the first web plate 50, the second web plate 60, the third web plate 70, the first outer diaphragm plate 100, the second through the joining plates 502, 504, 506, respectively. The outer diaphragm plate 200 and the third outer diaphragm plate 300 are bolted together.
And the concrete K (refer FIG. 1) is filled in the steel pipe pillar 10. FIG.

<Action and effect>
Next, functions and effects of the present embodiment will be described.

Here, for example, in the case of a configuration in which a hole is formed at the center of one outer diaphragm and this hole is welded by passing through a steel pipe column, a predetermined position is passed through the steel pipe column from the column end to the hole of the outer diaphragm during construction. It takes time to install. Furthermore, it is necessary to manage the gap between the outer diaphragm hole and the column with high accuracy.
Also, when the outer diaphragm plate is divided into four at the corners of the steel pipe column and butt welded in the 45 ° direction of the steel pipe column, the workability is improved, but the stress (strain) is most concentrated. There will be a weld in the vicinity of the corner of the steel pipe column, and there is concern about early breakage at the weld.
Further, in the case of a configuration in which a web plate is inserted (sandwiched) into the slit of the outer diaphragm and welded, the outer diaphragm plate must be divided for each web plate. Furthermore, it is necessary to manage the width of the slit of the outer diaphragm plate with high accuracy.

  On the other hand, in the present embodiment, the first outer diaphragm plate 100, the second outer diaphragm plate 200, and the third outer web plate 50 are respectively disposed above and below the first web plate 50, the second web plate 60, and the third web plate 70. The outer diaphragm plate 300 is arranged so as to face each other in the vertical direction, the plate surface (lower surface or upper surface) is welded, and slits 104, 106, 304, and 306 are inserted and divided.

  Therefore, it is not necessary to manage the width of the slit with high accuracy. Furthermore, an error can be absorbed by adjusting the width of the slit during construction. Also, for example, the number of parts (number of divisions) is reduced compared to a configuration in which the outer diaphragm plate is divided into four at the corners of the steel pipe column and a configuration in which the web plate is inserted (sandwiched) into the slit of the outer diaphragm and welded be able to.

  Therefore, the degree of freedom in designing the joint can be increased. In addition, the number of processes such as cutting is reduced, and labor is reduced when assembling the steel column and the outer diaphragm, so that workability is improved. Moreover, even if it is the structure which joins the several steel beam containing the steel beam with different beam formation of this embodiment to a steel pipe column, the freedom degree of design of a joint can be enlarged.

  Further, when the first outer diaphragm plate 100 (the divided plates 110 and 120) is constructed, the first diaphragm plate 100 (the divided plates 110 and 120) is placed on the upper end surface 50U of the first web plate 50 and the second web plate 60. It can be temporarily placed on the end surface 60U and the upper end surface 70U of the third web plate 70. Therefore, for example, the workability is better than the configuration in which the web plate is inserted into (inserted into) the slit of the outer diaphragm and is welded.

  Further, the first outer diaphragm plate 100 is divided by the slits 104 formed along the upper end surface 50U of the first web plate 50, and each of the divided divided plates 110 and 120 is located at the slit 104 position. The first web plate 50 is joined. Further, the divided plates 110 and 120 are connected by a joining plate 506.

  Therefore, stress is uniformly applied to the first outer diaphragm plate 100 and the opening of the slit 104 is suppressed or prevented.

  Further, even if the steel beam 20 and the steel beams 30 and 40 having different beam structures are joined, the second outer diaphragm plate 200 includes the second web plate 60 and the third web plate to which the steel beam 20 is not joined. 70 is not joined. Therefore, the second outer diaphragm plate 200 does not interfere with the second web plate 60 and the third web plate 70. Alternatively, it is not necessary to divide the second outer diaphragm plate 200 to avoid interference.

  The first outer diaphragm plate 100, the second outer diaphragm plate 200, and the third outer diaphragm plate 300 are mainly stressed on the side surfaces 12, 14, 16 of the steel pipe columns 10 of the steel beams 20, 30, 40 to be joined. It is configured to be transmitted.

  Therefore, the 1st outer diaphragm plate 100 should just be joined to the side surfaces 12, 14, and 16 of the steel pipe pillar 10. As shown in FIG. The second outer diaphragm plate 200 may be joined to the side surface 12 of the steel pipe column 10. Similarly, the third outer diaphragm plate 300 only needs to be joined to the side surfaces 14 and 16 of the steel pipe column 10.

<Variation>
Next, variations of this embodiment will be described.

  In the present embodiment, the first outer diaphragm plate 100 is arranged at the top of the three plates, but the present invention is not limited to this. The first outer diaphragm plate 100 may be arranged at the lowermost part of the three plates. In other words, the present embodiment may be configured upside down.

  In the present embodiment, the beam formation of the steel beam 20 is smaller than the beam formation of the steel beam 30 and the steel beam 40, but is not limited thereto. The beam formation of the steel beam 20 may be larger than the beam formation of the steel beam 30 and the steel beam 40. In this case, the second web plate 60 is inserted into the slit 304 of the third web plate 300. However, the third web plate 300 and the second web plate 60 are not joined.

  Further, the steel beam 30 may be larger or smaller than the beam formation of the steel beams 20 and 40.

  In this embodiment, it was the structure which joins the three steel beams 20, 30, and 40 to the steel pipe pillar 10, However, It is not limited to this. The structure which joins two steel beams to a steel pipe pillar may be sufficient. Or the structure which joins four steel beams may be sufficient.

<Others>
The present invention is not limited to the above embodiment.

  For example, in the said embodiment, although the steel pipe pillar 10 was a steel pipe with a cross-sectional substantially square shape, it is not limited to this. The cross section may be a triangular or pentagonal or more polygonal steel pipe, or the cross section may be a circular cylinder.

  For example, in the said embodiment, although applied to the concrete filling steel pipe structure (CFT; Concrete Filled Steel Tube) which fills concrete inside a steel pipe, it is not limited to this. For example, it can be applied to steel structure (S structure).

  Further, for example, in the above-described embodiment, the steel beam is an H-shaped steel having an H-shaped cross section, but is not limited thereto. It may be a steel frame other than a shaped steel or other shaped steel.

  Further, for example, in the above-described embodiment, each welding site is welded by fillet welding (see fillet welding M in FIG. 8), but the present invention is not limited to this. What is necessary is just to determine suitably the welding specification of each welding part according to the stress state etc. of each welding part. For example, in addition to fillet welding, butt welding, partial penetration welding, or the like may be applied.

  Further, for example, in the above-described embodiment, the steel beam is bolted to the web plate and the outer diaphragm plate via the joining plate, but is not limited thereto. The structure by which the joining plate was weld-joined may be sufficient. Alternatively, the steel beam may be directly welded to the web plate and the outer diaphragm plate.

  Although the outer diaphragm plate having a substantially single structure in which the slit portion is welded is not included in the present invention, a configuration in which the slit portion is weakly welded to such an extent that the slit portion is not substantially integrated is included in the present invention. For example, a configuration in which only a part of the slit portion is welded for the purpose of temporary placement or positioning is included in the configuration of the present application.

  The present invention is not limited to the above embodiment. The above-described embodiments and variations can be implemented in combination as appropriate. Moreover, it cannot be overemphasized that it can implement with a various aspect in the range which does not deviate from the summary of this invention.

10 Steel pipe columns (steel columns)
10A outer peripheral surface 20 steel beam 22 flange (upper end)
24 Flange (lower end)
30 Steel beam 32 Flange (upper end)
34 Flange (lower end)
40 Steel beam 42 Flange (upper end)
44 Flange (lower end)
50 First web plate 50A End surface 50U Upper end surface 50L Lower end surface 60 Second web plate 60A End surface 60U Upper end surface 60L Lower end surface 70 Third web plate 70A End surface 70U Upper end surface 70L Lower end surface 100 First outer diaphragm plate 104 Slit 106 Slit 200 Second outer diaphragm plate 300 Third outer diaphragm plate

Claims (6)

A first web plate to which an end surface is joined along an axial direction of the steel column to the outer peripheral surface of the steel column, and an end of the first steel beam is joined,
An end surface is abutted against the outer peripheral surface of the steel column and joined to the outer peripheral surface, a plate surface is joined to the upper end surface of the first web plate, and an upper end portion of the first steel beam is joined A first outer diaphragm plate to be
Have
The first outer diaphragm plate is divided by a slit formed along the upper end surface of the first web plate,
The divided first outer diaphragm plate is joined with the plate surface abutting on the first web plate at the slit position ,
The first outer diaphragm plate and the upper end of the first steel beam are joined by a joining plate disposed on the slit of the first outer diaphragm plate,
Joint structure of steel column and steel beam. A second steel frame having an end surface joined to the outer peripheral surface of the steel column along the axial direction of the steel column, arranged in a direction intersecting the first steel beam, and having a beam formation different from that of the first steel beam. Having a second web plate to which the ends of the beam are joined;
The first outer diaphragm plate has a plate surface joined to an upper end surface of the second web plate, and an upper end portion of the second steel beam is joined,
The first outer diaphragm plate is disposed to face the end surface of the steel column without being bonded to the second web plate, and the end surface is abutted against the outer peripheral surface and bonded to the outer peripheral surface. A plate surface is joined to the lower end surface of the first web plate, and a second outer diaphragm plate to which the lower end portion of the first steel beam is joined,
The first outer diaphragm plate is opposed to the second outer diaphragm plate and the position in the vertical direction is different from that of the second outer diaphragm plate, and the end face is formed on the outer peripheral surface of the steel column without being joined to the first web plate. And a third outer diaphragm plate to which the plate surface is bonded to the lower end surface of the second web plate and the lower end portion of the second steel beam is bonded ,
A joining structure of a steel column and a steel beam according to claim 1. A first web plate to which an end surface is joined along an axial direction of the steel column to the outer peripheral surface of the steel column, and an end of the first steel beam is joined,
An end surface is abutted against the outer peripheral surface of the steel column and joined to the outer peripheral surface, a plate surface is joined to the lower end surface of the first web plate, and a lower end portion of the first steel beam is joined A first outer diaphragm plate to be
Have
The first outer diaphragm plate is divided by a slit formed along the lower end surface of the first web plate,
The divided first outer diaphragm plate is joined with the plate surface abutting on the first web plate at the slit position ,
The first outer diaphragm plate and the lower end portion of the first steel beam are joined by the joining plate disposed under the slit of the first outer diaphragm plate,
Joint structure of steel column and steel beam. A second steel frame having an end surface joined to the outer peripheral surface of the steel column along the axial direction of the steel column, arranged in a direction intersecting the first steel beam, and having a beam formation different from that of the first steel beam. Having a second web plate to which the ends of the beam are joined;
The first outer diaphragm plate has a plate surface joined to a lower end surface of the second web plate, and a lower end portion of the second steel beam is joined.
The first outer diaphragm plate is disposed to face the end surface of the steel column without being bonded to the second web plate, and the end surface is abutted against the outer peripheral surface and bonded to the outer peripheral surface. A plate surface is joined to the upper end surface of the first web plate, and a second outer diaphragm plate to which the upper end portion of the first steel beam is joined;
The first outer diaphragm plate is opposed to the second outer diaphragm plate and the position in the vertical direction is different from that of the second outer diaphragm plate, and the end face is formed on the outer peripheral surface of the steel column without being joined to the first web plate. And a third outer diaphragm plate to which the plate surface is bonded to the upper end surface of the second web plate and the upper end portion of the second steel beam is bonded ,
A joint structure of a steel column and a steel beam according to claim 3.   A first web plate to which an end surface is joined along an axial direction of the steel column to the outer peripheral surface of the steel column, and an end of the first steel beam is joined,
  An end surface is abutted against the outer peripheral surface of the steel column and joined to the outer peripheral surface, a plate surface is joined to the upper end surface of the first web plate, and an upper end portion of the first steel beam is joined A first outer diaphragm plate to be
  Have
  The first outer diaphragm plate is divided by a slit formed along the upper end surface of the first web plate,
  The divided first outer diaphragm plate is bonded to the first web plate at the slit position,
  A second steel frame having an end surface joined to the outer peripheral surface of the steel column along the axial direction of the steel column, arranged in a direction intersecting the first steel beam, and having a beam formation different from that of the first steel beam. Having a second web plate to which the ends of the beam are joined;
  The first outer diaphragm plate has a plate surface joined to an upper end surface of the second web plate, and an upper end portion of the second steel beam is joined,
  The first outer diaphragm plate is disposed to face the end surface of the steel column without being bonded to the second web plate, and the end surface is abutted against the outer peripheral surface and bonded to the outer peripheral surface. A plate surface is joined to the lower end surface of the first web plate, and a second outer diaphragm plate to which the lower end portion of the first steel beam is joined,
  The first outer diaphragm plate is opposed to the second outer diaphragm plate and the position in the vertical direction is different from that of the second outer diaphragm plate, and the end face is formed on the outer peripheral surface of the steel column without being joined to the first web plate. And a third outer diaphragm plate to which the plate surface is bonded to the lower end surface of the second web plate and the lower end portion of the second steel beam is bonded ,
  A structure of a steel column and a steel beam.   A first web plate to which an end surface is joined along an axial direction of the steel column to the outer peripheral surface of the steel column, and an end of the first steel beam is joined,
  An end surface is abutted against the outer peripheral surface of the steel column and joined to the outer peripheral surface, a plate surface is joined to the lower end surface of the first web plate, and a lower end portion of the first steel beam is joined A first outer diaphragm plate to be
  Have
  The first outer diaphragm plate is divided by a slit formed along the lower end surface of the first web plate,
  The divided first outer diaphragm plate is bonded to the first web plate at the slit position,
  A second steel frame having an end surface joined to the outer peripheral surface of the steel column along the axial direction of the steel column, arranged in a direction intersecting the first steel beam, and having a beam formation different from that of the first steel beam. Having a second web plate to which the ends of the beam are joined;
  The first outer diaphragm plate has a plate surface joined to a lower end surface of the second web plate, and a lower end portion of the second steel beam is joined.
  The first outer diaphragm plate is disposed to face the end surface of the steel column without being bonded to the second web plate, and the end surface is abutted against the outer peripheral surface and bonded to the outer peripheral surface. A plate surface is joined to the upper end surface of the first web plate, and a second outer diaphragm plate to which the upper end portion of the first steel beam is joined;
  The first outer diaphragm plate is opposed to the second outer diaphragm plate and the position in the vertical direction is different from that of the second outer diaphragm plate, and the end face is formed on the outer peripheral surface of the steel column without being joined to the first web plate. And a third outer diaphragm plate to which the plate surface is bonded to the upper end surface of the second web plate and the upper end portion of the second steel beam is bonded ,
  A structure of a steel column and a steel beam.

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