JP3447978B2 - Column and beam connector - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connecting member between a column and a beam used for connecting a column and a beam in a carport or a terrace. 2. Description of the Related Art As a conventional connecting tool between a column and a beam, for example, there is a connecting tool described in Japanese Patent Publication No. 7-96851. [0003] This connecting device is composed of a pillar insertion pipe inserted and fixed from an upper end opening of a hollow column, and a beam insertion pipe inserted and fixed from a base end opening of a hollow beam located at the upper end of the column. In this connecting device, the upper end notch opening is provided in the wall of the column insertion pipe on the side of the beam insertion pipe, and the base end of the beam insertion pipe inclined to the beam is fitted into the upper end notch opening and welded. The two insertion pipes are integrated by fixing the insertion pipe. [0004] However, in the above-described conventional connection tool between a column and a beam, a notch opening is provided at the upper end of the column insertion pipe so that the beam insertion pipe is attached. There has been a problem in that the manufacturing cost is further increased by the amount of the processing required for the provision. Further, when changing the inclination angle of the beam insertion pipe, the depth of the notch opening at the upper end must be changed. It cannot be used, and therefore, it is necessary to manufacture various types of connecting tools having different inclination angles of the beam insertion pipe, which also causes an increase in manufacturing cost. There is a conventional problem to solve this problem. SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and not only can the column and the beam be firmly connected but also the manufacturing cost can be reduced. It is an object of the present invention to provide a link between a pillar and a beam that can be realized. According to a first aspect of the present invention, there is provided a connecting member for connecting a column and a beam, wherein a column insertion portion inserted from an upper end opening of the column and a beam inserted at an upper end portion of the column. A beam insertion portion to be inserted from the base opening is integrally provided, and the column insertion portion and the beam insertion portion are
Have substrates that are continuous with each other and
Extend in the same direction and in a direction substantially perpendicular to the substrate
The pillar insertion part has a vertical wall,
With the provision of a column-side reinforcement that forms a hollow part with the wall,
In addition, the beam insertion part is installed together with the board and standing wall of the beam insertion part.
There is a beam side reinforcement that forms an empty part,
And beam insertion part are formed by bending the plate material
In addition to the column-side reinforcement and beam-side reinforcement,
It is formed by performing a bending process, and by bending the boundary between the column insertion portion and the beam insertion portion, the angle of the beam insertion portion with respect to the column insertion portion can be appropriately set, and the overlap is formed.
To fix the vertical walls of the column insertion section and beam insertion section
The setting angle holding portion for holding the angle of the beam insertion portion provided for more set pillar insertion portion, while retaining the set angle holding section the angle of the beam insertion portion with respect to the pillar insertion portion which is set according to the angle of the beam relative to the pillar By fixing the column insertion portion to the column and fixing the beam insertion portion to the beam, the column and the beam are connected to each other. Means. According to the first aspect of the present invention, there is no need to perform a process for providing a notch in a column insertion portion, since the column and beam connecting tool according to the first aspect of the present invention has the above-described configuration. Only
Since the manufacturing cost can be reduced, and in addition, it can be used for connecting beams having different inclination angles, that is,
Since it is not necessary to arrange a plurality of types of connecting tools of different types, it is possible to reduce the manufacturing cost in this respect as well, and when setting the angle of the beam insertion portion with respect to the column insertion portion, the column is required. This angle setting work is simple because it is only necessary to bend the boundary between the insertion portion and the beam insertion portion. In addition , because of the above configuration, for example,
The set angle of the beam insertion part with respect to the column insertion part can be easily and firmly maintained by fixing the vertical walls as the setting angle holding parts that overlap each other with the boundary between the board of the column insertion part and the beam insertion part folded. Can be done. [0013] In addition, the board and the board of the pillar insertion section are provided in the pillar insertion section.
Provide a column-side reinforcement that forms a hollow part with the vertical wall
At the same time, the beam insertion part is
Because was configured to provide a beam-side reinforcing section to form a middle empty portion, increases both the stiffness of the column insert and beam insertion portion,
Compared to the conventional connecting tool of the same size (thickness), the connection strength between the column and the beam is increased, and the column insertion part and the
And beam insertion part are formed by bending the plate material
In addition to the column-side reinforcement and beam-side reinforcement,
Since the structure is formed by performing the bending process , the material cost and the processing cost can be reduced. The present invention will be described below with reference to the drawings. FIGS. 1 to 7 show an embodiment of a connecting member between a column and a beam according to the present invention. In this embodiment, a connecting member between a column and a beam according to the present invention is used as a carport column. The case where it is used for connection between a beam and a beam is shown. As shown in FIG. 7, the carport 1 comprises two hollow columns 2, 2; a gutter 3 extending between the upper ends of the columns 2, 2; Two hollow beams 4 and 4 each having a base end connected to each upper end, and side frames 5 and 5 extending from both ends of the gutter 3 in the same direction as the beams 4.
And two field margins 6, 6 arranged between these side frames 5, 5.
A front frame 7 erected between the front ends of the side frames 5 and 5 and connected to the front ends of the beams 4 and 4; and a panel 8 fitted between the gutter 3 and the front frame 7. 2 and beam 4
As shown in FIG. 1, the connecting tool 10 is connected via a connecting tool 10, and a connecting tool 1 is provided between the upper end of the column 2 and the base end of the beam 4.
A cap 9 for covering 0 is fitted. The connecting device 10 integrally includes a column insertion portion 11 inserted from the upper end opening of the column 2 and a beam insertion portion 12 inserted from the base end opening of the beam 4. The column insertion part 11 and the beam insertion part 12 are shown in FIG.
As shown in FIG. 3 and FIG. 3, press working (punching work of plate material W FIG. 2 (a), bead working work FIG. 2 (b), bending work processing 2 (c), punching work processing FIG. 3 (b)), each of which has a groove-shaped cross-section and has a bead 11
The bottom walls (substrates) 11a and 12a of the column insertion portion 11 and the beam insertion portion 12 provided with the respective c and 12c are continuous with each other, and the bottom walls 11a of the column insertion portion 11 and the beam insertion portion 12 respectively. , 12a in the same direction and the bottom wall 11
A bending substitute notch 13 is provided between the side walls (standing walls) 11b and 12b extending in a direction substantially orthogonal to a and 12a. In this connecting device 10, as shown in FIG. 3 (c), the boundary between the bottom wall 11a of the column insertion portion 11 and the bottom wall 12a of the beam insertion portion 12 connected thereto is bent,
By overlapping the side wall 11b of the adjacent column insertion portion 11 and the side wall 12b of the beam insertion portion 12 via the bending substitute notch 13, the angle of the beam insertion portion 12 with respect to the column insertion portion 11 can be appropriately set. Each side wall 11b as a set angle holding portion that overlaps in a state where the boundary between the column insertion portion 11 and the beam insertion portion 12 is bent in this manner.
By fixing the 12b to each other by welding, the set angle of the beam insertion portion 12 with respect to the column insertion portion 11 is maintained. In this case, the column insertion portion 11 and the beam insertion portion 12 of the connecting tool 10 are provided with a column-side reinforcing member (column-side reinforcing portion) 14 and a beam-side reinforcing member (beam-side reinforcing portion) 15, respectively. . These column-side reinforcing members 14 and beam-side reinforcing members 15
As shown also in FIGS. 4 and 5, each of the plate members X and Y is formed by performing a bending process,
Each has a groove-shaped cross section, and each of the bottom walls 14a, 1
5a is provided with beads 14c and 15c, respectively. As shown in FIG. 6, the column-side reinforcing members 14 and the beam-side reinforcing members 15 are formed on respective side walls 14b, 15b.
To the side walls 11b, 1 of the column insertion portion 11 and the beam insertion portion 12.
2b is fixed by welding by being fitted between
The column-side reinforcing member 14 forms a hollow portion S1 together with the bottom wall 11a and the side wall 11b of the column insertion portion 11, and the beam-side reinforcing member 15 includes the bottom wall 12a and the side wall 12b of the beam inserting portion 12.
Together with a hollow portion S2. When connecting the column 2 and the beam 4 with the above-described connecting tool 10, first, a boundary between the bottom wall 11a of the column insertion portion 11 and the bottom wall 12a of the beam insertion portion 12 which is continuous with the column insertion portion 11 is formed. Is bent so that the angle of the beam insertion portion 12 with respect to the column insertion portion 11 matches the angle of the beam 4 with respect to the column 2. Next, the two insertion portions 1 overlapping in this state
By fixing the side walls 11b, 12b of the first and second parts 12 by welding, the beam insertion part 12 with respect to the column insertion part 11 is formed.
After the set angle is maintained, the column-side reinforcing member 14
Is inserted from the upper end opening of the column 2 and fixed by bolts (not shown), and the beam side reinforcing member 1 is attached.
When the beam insertion portion 12 to which the beam 5 is attached is inserted from the base end opening of the beam 4 and fixed with a bolt (not shown), the column 2 and the beam 4 are firmly connected. Therefore, in this connecting device 10, since the column insertion portion 11 and the beam insertion portion 12 are integrally provided, there is no need to perform a process for forming a notch in the column insertion portion 11, so that the manufacturing cost is reduced. In addition, since the angle of the beam insertion portion 12 with respect to the column insertion portion 11 can be set as appropriate, it can also be used for connecting beams 4 having different inclination angles, and as a result, different types of beams can be used. Since there is no need to arrange a plurality of types of connecting tools, the manufacturing cost can be further reduced. Further, in the connecting member 10, the column insertion portion 11 and the beam insertion portion 12 are integrally formed by pressing the plate material W, and the bottom wall 11a of the column insertion portion 11 and the beam insertion portion connected thereto are formed. The angle between the beam insertion section 12 and the column insertion section 11 is set by bending the boundary between the bottom insertion section 12 and the bottom wall 12a, so that the setting operation of this angle can be easily performed. , This connecting tool 1
0, the side walls 11 of the two insertion portions 11 and 12 that overlap each other in a state where the boundary between the column insertion portion 11 and the beam insertion portion 12 are bent.
Since the setting angle of the beam insertion portion 12 with respect to the column insertion portion 11 is maintained by fixing the b and 12b to each other by welding, the setting angle can be easily and firmly maintained. Further, in this connecting device 10, since the beads 11c and 12c are provided on the bottom walls 11a and 12a of the column insertion portion 11 and the beam insertion portion 12, respectively, the column insertion portion 11 and the beam insertion portion 12 are provided. The rigidity of each of the columns 2 is increased, and the connection strength between the column 2 and the beam 4 is increased.
Since the column-side reinforcing members 14 and the beam-side reinforcing members 15 that form the hollow portions S1 and S2 together with the columns 1 and 12 are provided, the rigidity of the integrated column insertion section 11 and the beam insertion section 12 is further increased. As a result, a higher connection strength can be maintained as compared with a conventional connection tool formed of the same size using a plate material having the same thickness. In the above-described embodiment, the case where the connecting tool for connecting the pillar and the beam according to the present invention is used for connecting the pillar and the beam of the carport is shown. However, the present invention is not limited to this.
It is also possible to adopt the connecting member between the pillar and the beam according to the present invention for connecting the pillar and the beam on the terrace. In the above-described embodiment, the column insertion portion 11
Although both the beam insertion portion 12 and the beam insertion portion 12 have a groove-shaped cross section, for example, both the insertion portions 11 and 12 may have an L-shaped cross section. Further, in the above-described embodiment, the column-side reinforcing member 14 and the beam-side reinforcing member 15 are configured separately from each other. However, as another configuration, for example, the column-side reinforcing member 14 and the beam A configuration in which the side reinforcing member 15 is formed integrally with the column insertion portion 11 and the beam insertion portion 12 so as to be bendable at the boundary thereof, the column side reinforcing member 14 is provided integrally with the column insertion portion 11, and the beam side reinforcing member 15 is provided. May be provided integrally with the beam insertion portion 12. As described above, according to the first aspect of the present invention,
In the connection tool between the column and the beam according to the above, since the above-described configuration is employed, it is needless to say that the column and the beam can be firmly connected, and it is also possible to realize a significant reduction in manufacturing cost. In addition, there is an extremely excellent effect that the angle of the beam insertion portion with respect to the column insertion portion can be set by a simple operation. Further , since the above-described configuration is employed, the set angle of the beam insertion portion with respect to the column insertion portion can be easily and firmly maintained, and, in addition, the same size (thickness) as that of the related art.
As compared with the above-mentioned connecting tool, a higher connecting strength can be obtained, and further, an extremely excellent effect that reduction in material cost and processing cost can be realized is brought about.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view, (a), (b), and plan view (c) showing one embodiment of a connecting tool between a column and a beam according to the present invention. . FIGS. 2 (a), 2 (b), and 2 (c) are process explanatory views showing the first half of a manufacturing process of a connecting tool between a column and a beam in FIG. FIGS. 3 (a), 3 (b) and 3 (c) are process explanatory views showing the latter half of the manufacturing process of the connecting member between the column and the beam in FIG. FIGS. 4 (a) and 4 (b) are process explanatory diagrams showing a manufacturing process of a column-side reinforcing member to be attached to a column insertion portion of a connecting tool between a column and a beam in FIG. FIGS. 5 (a) and 5 (b) are process explanatory diagrams showing a manufacturing process of a beam side reinforcing member to be attached to a beam insertion portion of a connection tool between a column and a beam in FIG. FIGS. 6A and 6B are cross-sectional explanatory views of a column-inserted portion of the connecting tool for connecting a column and a beam in FIG. 1 to which a column-side reinforcing member is attached, and FIGS. It is. FIG. 7 is an overall perspective explanatory view showing a carport using a connecting tool between a column and a beam in FIG. 1; [Description of Signs] 2 pillars 4 beams 10 pillar-to-beam coupling tool 11 pillar insertion portion 11a bottom wall (substrate) of pillar insertion portion 11b side wall of pillar insertion portion (standing wall; set angle holding portion) 12 beam insertion portion 12a Bottom wall of beam insertion part (substrate) 12b Side wall of beam insertion part (standing wall; set angle holding part) 14 Column side reinforcement (column side reinforcement) 15 Beam side reinforcement (beam side reinforcement) S1, S2 Hollow part

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-56-46077 (JP, A) JP 6-37132 (JP, Y2) (58) Fields investigated (Int. Cl. ⁷ , DB name) E04B 7/00 E04B 1/343 E04H 6/02

Claims (1)

(57) [Claim 1] A pillar insertion portion inserted from an upper end opening of a pillar and a beam insertion portion inserted from a base end opening of a beam located at an upper end portion of the pillar are integrally provided. The insertion part and the beam insertion part
And the same substrate from each substrate.
Extends in one direction and in a direction substantially perpendicular to the substrate
It has a standing wall, and the pillar insertion part has a board and a standing wall of the pillar insertion part.
Along with providing a column-side reinforcing part that forms a hollow part,
The beam insertion part is hollow with the substrate and standing wall of the beam insertion part.
There is a beam side reinforcement that forms the
The beam insertion part is formed by bending the plate material.
And the column-side and beam-side reinforcements are folded into plate material.
It is formed by performing a bending process, and by bending the boundary between the column insertion portion and the beam insertion portion, the angle of the beam insertion portion with respect to the column insertion portion can be appropriately set, and the overlapping columns
A set angle holding unit that holds the angle of the beam insertion unit with respect to the column insertion unit by fixing the vertical walls of the insertion unit and the beam insertion unit is provided, and the column is set according to the angle of the beam with respect to the column. In a state in which the angle of the beam insertion portion with respect to the insertion portion is held by the set angle holding portion, the column and the beam are connected by fixing the column insertion portion to the column and fixing the beam insertion portion to the beam. A connecting tool for connecting columns and beams.