CONNECTING METAL

Abstract

A connecting metal (1) includes a tenon pipe (13) having through-holes (132) for fixing the tenon pipe (13) by drift pins or bolts, and a plate (12) joined at an end of the tenon pipe (13) and having through-holes (122) for fixing the plate (12) by drift pins or bolts, the tenon pipe (13) and the plate (12) being joined with each other in a substantially racket-like shape. A pair of slits (131) for receiving the plate is formed at the end of the tenon pipe (13), each of the slits (131) being defined by a first side edge and a second side edge that are bent inwardly. The plate (12) is inserted in the pair of slits (131) and joined with the tenon pipe (13) by welding, with no protrusion of weld reinforcement out of an outer periphery of the tenon pipe (13).

Claims

1. A connecting metal comprising a tenon pipe having at least one through-hole for fixing the tenon pipe by a drift pin or a bolt, and a plate joined at an end of the tenon pipe and having at least one through-hole for fixing the plate by a drift pin or a bolt, the tenon pipe and the plate being joined with each other in a substantially racket-like shape, wherein a pair of slits for receiving the plate is formed at the end of the tenon pipe, each of the slits being defined by a first side edge and a second side edge that are bent inwardly, and the plate is inserted in the pair of slits and joined with the tenon pipe by welding, with no protrusion of weld reinforcement out of an outer periphery of the tenon pipe.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0012] FIG. 1 is a front view of a connecting metal according to an embodiment of the present invention.

[0013] FIG. 2 is a sectional view of the connecting metal, taken along the line A-A in FIG. 1.

[0014] FIG. 3 illustrates a manner of joining a plate and a tenon pipe of the connecting metal.

[0015] FIG. 4a is a top view of the tenon pipe, and FIG. 4b is a side view of the tenon pipe.

[0016] FIG. 5 is a sectional view showing an example of a joint structure using the connecting metals according to the embodiment of the present invention.

DESCRIPTION OF EMBODIMENTS

[0017] A connecting metal according to an embodiment of the present invention is now described with reference to the drawings.

[0018] FIGS. 1 to 5 show the connecting metal according to the embodiment of the present invention. For clarity, cross sections of the members shown in FIG. 5 are illustrated without hatching.

[0019] The connecting metal 1 according to the embodiment includes a steel plate 12 and a steel tenon pipe 13. The plate 12 has an insertion piece 121 to be inserted in a first end of the tenon pipe 13. The plate 12 and the tenon pipe 13 are integrally joined in a racket-like shape by welding.

[0020] The plate 12 and the tenon pipe 13 have a plurality of through-holes 122, 132, respectively, for fixing the plate 12 and the tenon pipe 13 on a column and a beam by drift pins or bolts. In the illustrated embodiment, the plate 12 has two through-holes 122 that are formed side by side and adapted to be fixed by two drift pins. Likewise, the tenon pipe 13 has two through-holes 132 that are formed in the same penetration direction as the through-holes 122 in the plate 12.

[0021] As shown in FIG. 4b, a pair of slits 131 for receiving the plate 12 is formed at the first end of the tenon pipe 13. The width of the slits 131 is substantially identical to the thickness of the plate. In the illustrated connecting metal 1, the plate thickness and the slit width are 3.2 mm each. The length of the slits corresponds to the length of the insertion piece 121 of the plate 12.

[0022] As shown in FIG. 4a, side edges of the slits 131 are processed to bend inwardly toward an axis of the tenon pipe 13. The thus processed slit areas of the tenon pipe 13 provide channels that are indented relative to the outer periphery of the tenon pipe 13.

[0023] To form the connecting metal 1, the insertion piece 121 of the plate 12 is inserted in the slits 131 of the tenon pipe 13 and joined with the tenon pipe 13 by flare welding. Since the slits 131 are processed to bend inwardly, the slits 131 and the insertion piece 121 inserted therein can form substantially V-shaped grooves therebetween. Welded portions 133 between the plate 12 and the tenon pipe 13 allow weld metal to penetrate in these inwardly bent portions, while keeping a throat thickness of a predetermined dimension and preventing protrusion of weld reinforcement out of the outer periphery of the tenon pipe 13.

[0024] As also illustrated, a second end of the tenon pipe 13 is formed as a lap portion 14 having a semicircular cross section. An extremity of the tenon pipe 13 is halved to provide the lap portion 14. A flat plate member is welded on the lap portion 14, and the through-holes 132 are formed in this plate member. Welding of the lap portion 14 and the plate member are also performed with no protrusion of weld reinforcement out of the outer periphery of the tenon pipe 13. The resulting lap portion 14 can be overlapped on a lap portion 14 formed in a tenon pipe 13 of another connecting metal 1.

[0025] For the connecting metal 1 according to the present invention, the basic size of the plate 12 corresponds to a substantial square whose width is nearly equal to a side column, and the width of the plate 12 is preferably increased or decreased in accordance with the number of through-holes formed in the plate 12. Preferably, the length of the tenon pipe 13, the number of through-holes formed in the plate 12, and the number of through-holes formed in the tenon pipe 13 are set appropriately in accordance with a required pullout resistance. Additionally, instead of one tenon pipe 13, two tenon pipes 13 aligned in the same direction may be joined with the plate 12.

[0026] The connecting metals 1 having the above configuration may be used, for example, with column-to-beam joints as shown in FIG. 5. In the illustrated embodiment, the plates 12 of the connecting metals 1 are inserted in slits 21 formed in column capitals and column bases of columns 2. The plates 12 are connected with the columns 2 by drift pins 5 inserted in the through-holes 122 from side surfaces of the columns 2. The tenon pipes 13 of the connecting metals 1 are inserted in mortises 31 formed in a beam 3, and are connected with the beam 3 by drift pins 5 inserted in the through-holes 132 from a side surface of the beam 3. The tenon pipes 13 can be smoothly inserted in the mortises 31 without interference. These connecting metals 1, each having a required strength, can achieve a structure that satisfies strength performance of the joints.

[0027] As described above, the connecting metal 1 according to the present invention can be manufactured by the welding of the plate 12 and the tenon pipe 13, while keeping a required strength at the welded portions 133 where it is relatively difficult to secure the leg length and the throat thickness having predetermined dimensions, with no protrusion of weld reinforcement out of the outer periphery of the tenon pipe 13. As a result, the connecting metal 1 no longer suffers from interference of weld reinforcement at the welded portions 133 with the mortise 31, and no longer requires manual sanding, thereby enhancing production efficiency and work efficiency.

[0028] The present invention can be embodied and practiced in other different forms without departing from the spirit and essential characteristics of the present invention. Therefore, the above-described embodiment is considered in all respects as illustrative and not restrictive. The scope of the invention is indicated by the appended claim rather than by the foregoing description. All variations and modifications falling within the equivalency range of the appended claim are intended to be embraced therein.

INDUSTRIAL APPLICABILITY

[0029] The connecting metal according to the present invention is suitably used to satisfy strength performance at joints including connections of column capitals and column bases alongside high-stiffness load-bearing walls in a wooden building, and can accomplish an earthquake-resistant construction method by reinforcing a principal part for structural resistance.

[0030] Reference Signs List

[0031] 1 connecting metal

[0032] 12 plate

[0033] 121 insertion piece

[0034] 122 through-hole

[0035] 13 tenon pipe

[0036] 131 slit

[0037] 132 through-hole

[0038] 133 welded portion

[0039] 14 lap portion