JPH0728245Y2 - Joint structure of columns and beams - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Industrial Field of the Invention The present invention relates to a joint structure of columns and beams.

In the frame that constitutes the steel frame of a prefabricated house,
It has been considered that a large opening can be formed in the center of the entire structure by using a rigid frame structure. FIG. 7 shows such a frame frame, and a column member (1) made of a pair of right and left lightweight channel steels.
(1) and two pillars (1) Surrounded by crosspieces (2) of the same lightweight channel steel that are passed between the central portions of (1), pillars (1) (1) and crosspieces (2) The pillars (4) are composed of the diagonal members (3) and (3) that are passed to the upper and lower rectangular spaces.
A pair of columns (4) arranged at intervals in the left-right direction
A beam (5) of ordinary channel steel is passed across the upper ends of (4), and the channel steel (5) and the upper ends of each column (1) are welded to each other, whereby , The whole has a ramen structure. (6) and (7) are each pillar (4) (4)
It is a lower frame that is passed between the space and the end portions of the respective pillars (1) and (1).

FIG. 8 shows an example of the connection between the column and the beam. The beam (5) is arranged such that its flanges (8) and (9) are parallel to each other, and a vertical joint plate (10) is welded and fixed to the lower surface of the lower flange (9). ing. And the upper end of the pillar (1) is the joining plate (10)
And the diagonal member (3) is inserted between the flanges of the column (1) and welded. Furthermore, the beam (5) has a stiffener plate (11) in the groove between the flanges (8) and (9).
(11) are fitted and welded to their flanges (8) (9) and web (12). These stiffener plates (11) (11) are the same as the joining plates (10) (1
It is arranged so as to correspond to the welded portion of (0), so that the force is transmitted from the column (1) side to the web (12) side of the beam (5).

Problems to be Solved by the Invention Thus, conventionally, when the force is transmitted from the column (1) to the beam (5), the stiffener plate (11) is made to flow the force to the web (12) side having high strength. The force at that time is first supported by the flange (9).
Stiffener plate (11)
Therefore, the force is directly applied to the flange (9) and the bending of the flange (9) may occur.

The present invention has been made for the purpose of eliminating such drawbacks.

Means for Solving the Problems And, in order to achieve the above object, in the present invention, a channel steel beam in which the flanges (8) and (9) on both sides of the web (12) are arranged vertically parallel to each other. In the case of joining the ends of the pillar (1) to the (5), the stiffener plate (11) is fitted into the groove between the flanges (8) and (9) of the beam (5), and each flange (8) ( 9) and the web (12), and the lower end of the stiffener plate (11) is penetrated through the flange (9) to integrally project downward,
The end of the pillar (1) is joined to the protrusion (22).

Action According to the configuration of the above invention, the force from the pillar (1) side is
It is directly transmitted to the web (12) portion of the beam (5) having high strength through the stiffener plate (11).

Embodiment FIG. 1 to FIG. 3 show an embodiment of FIG. 1 of the present invention. In this embodiment, the stiffener plate (11) is fitted into the groove between the flanges (8) and (9) of the beam (5) as in the conventional case, and the flanges (8) (9) and the web (12) are fitted. Welding to. Corresponding to the stiffener plate (11), the lower flange (9) has a slit (21) through which the stiffener plate (11) passes.
Are formed. The lower end of the stiffener plate (11) penetrates the slit (21) and is projected downward, and the upper end of the column (1) is welded to the projecting portion (22). As in the conventional case, the diagonal member (3) having a smaller cross section than the pillar (1) is used, and the upper end is inserted between the flanges of the pillar (1) and welded.

FIG. 4 shows another embodiment of the present invention, which is the same as that shown in FIGS. 1 to 3 and further has a head connecting member (23) made of channel steel at the upper end of the column (1). Is welded to the lower surface of the flange (9) through the reinforcing plate (24). By doing so, the component force in the horizontal direction of the diagonal member (3) is transmitted to the horizontal head connecting member (23) side, so that a large force does not act on the stiffener plate (11) side.

FIG. 5 shows another embodiment of the present invention, wherein the first
As in the figure, the protrusions (22) on the stiffener plate (11)
In addition to this, in addition to this, another stiffener plate (25) for the diagonal member (3),
Similarly, fit into the groove between the flanges (9) and (9) and weld,
The lower end of the stiffener plate (25) is made to project obliquely downward from the slit (21) of the lower flange (9), and the diagonal member (3) is provided to this projecting portion (23) separately from the pillar (1). )
Are welded together. In this embodiment, the force generated in the diagonal member (3) is transmitted to the beam (5) side via another stiffener plate (25) without passing through the column (1). There is an advantage that the burden of) is reduced by that much.

FIG. 6 shows still another embodiment of the present invention, in which the lower end of the stiffener plate (11) is similarly projected from the slit (21), and the projection (22) is in the same direction as the diagonal member (3). Projected in an oblique direction that is inclined to (22)
The flanges of the column (1) made of lightweight channel steel are externally fitted and welded to the upper side of the, and the groove between the flanges of the diagonal member (3) is likewise fitted to the lower half of the protrusion (22). It is welded together. Also in this embodiment, the force of the diagonal member (3) is directly transmitted to the beam (5) side via the stiffener plate (11), and the load on the column (6) is reduced.

As described above, according to the present invention, the lower end of the stiffener plate fitted and fixed to the groove between the flanges of the beam is projected through the flange, and the column or the diagonal member is attached thereto. Since they are fixed, the force generated in those columns and diagonal members will be directly transmitted to the beam, especially the high-strength web side, through the stiffener plate, and there is no risk of bending or bending of the flange. Is obtained.

[Brief description of drawings]

FIG. 1 is a front view of a joint portion of columns, diagonal members and beams showing an embodiment of the present invention, and FIG. 2 is a sectional view taken along the line AA of FIG.
FIG. 3 is a perspective view of the joint portion, FIG. 4 to FIG. 6 are front views of the joint portion of the pillar and diagonal member and the beam, respectively, showing another embodiment of the present invention, and FIG. FIG. 8 is an overall front view of the frame, and FIG. 8 is a front view of a main part showing a conventional joint structure of columns and diagonal members. (1) ... Pillar, (5) ... Beam, (8) (9) ... Flange,
(11) ... Stiffener plate, (22) ... projection.

Claims (1)

[Scope of utility model registration request] Claim: What is claimed is: 1. In a method of joining the ends of a column to a beam of channel steel arranged so that the flanges on both sides of the web are parallel to each other, a stiffener plate is fitted into the groove between the flanges of the beam. And the flange and the web are fixed to each other, and the lower end of the stiffener plate penetrates the flange so as to integrally project downward, and the end of the column is joined to this projecting portion. Construction.