JP2860491B2 - Solid foundation using steel frame - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a solid foundation using a steel frame.

Conventional technology Conventional solid foundation is made of cast-in-place concrete, first, after excavating the ground and rebar arrangement of the foundation beam part and slab part, assembling the formwork of the foundation beam part, After that, concrete is poured in, and then the leveling of the foundation beam is performed to support the production frame.

Problems to be Solved by the Invention In the conventional solid foundation described above, first, reinforcement of the foundation beam member and the slab member is performed. Particularly, reinforcement of the foundation beam portion requires a great deal of labor and time and requires skill. There is a disadvantage that it is. Also, in the foundation beam part, a structural body such as a pillar is installed on the upper surface of the cast concrete, and the pillar and the like are fixed via anchor bolts buried in advance in this foundation beam part, There is a disadvantage that it is difficult to obtain the accuracy of the anchor bolt, so that after the concrete is cast, a troublesome work of so-called rectification for correcting the position of the anchor bolt is required.
In addition, it is necessary to integrally connect the reinforcing bar of the slab part to the foundation beam part, and there is a problem that the work is also very troublesome. Furthermore, there is a drawback in that special skills are required for arranging the reinforcing bars, assembling the formwork, and the like, and a large number of craftsmen are required.

The present invention has been made for the purpose of solving such a drawback.

Means for Solving the Problems In order to solve the above problems, according to the present invention, a steel base beam that supports a structural skeleton such as a column, and a slab that is supported between the base beams that face each other and supported by the base beam It is characterized by comprising a reinforcing bar and concrete cast so as to cover all or a part of the foundation beam and the slab reinforcing bar.

In the above, the slab rebar was inserted into the mounting hole formed in the pair of opposing foundation beams parallel to each other, and screwed into the end of the slab rebar on the side opposite to the facing surface of the foundation beams. It is conceivable to tighten and fix with a nut.

According to a second aspect of the present invention, the slab rebar is tied to the fixing rebar inserted into the mounting hole of the foundation beam to support the slab rebar.

In the solid foundation of the present invention, first, a steel foundation beam is installed at the foundation beam part, and the structural skeleton is supported by the foundation beam. Need not be applied. In addition, since the structural body such as a pillar is supported by the anchor bolt holes formed in the foundation beam or the anchor bolts pre-attached integrally, there is no need to embed the anchor bolts in concrete, and the positional accuracy is extremely improved. In addition, since the slab rebar is supported and integrated by the steel foundation beam, a special member for supporting the slab rebar is not required, and the work is facilitated.

Embodiments FIGS. 7 to 10 illustrate a method of constructing a solid foundation according to the present invention in the order of construction. First, as shown in FIG. 7, the ground is excavated along the foundation beam to form a groove (1), and gravel (2) (2) is formed on the ground surrounded by the groove (1) and the groove (1). ). After a while, groove (1)
At the places where the pillars of the structural frame are located at various places inside, for example, mounting tables (3) (3)... This mounting table (3) performs leveling of the upper surface level. After a while
As shown in FIG. 8, the steel foundation beam (4) of the present invention is installed along the groove (1), and the foundation beams (4) and (4) are mutually joined to be integrated. Next, as shown in FIG. 9, after disposing the formwork (7) on both sides of the foundation beam (4) and arranging the slab reinforcing bar (6) in the space surrounded by the foundation beam (4), As shown in Fig. 10, concrete (5) is cast and a solid foundation is constructed. Also,
As the slab reinforcing bar (5), as shown in FIG. 9, a slab reinforcing bar (5) that has been welded in a mesh shape in advance is used.

Next, the details of each part will be described. FIG. 2 shows a foundation beam of the present invention. This foundation beam (4) has a pair of vertically opposed flanges (8) and (9) and two flanges (8). 8)
An H-beam made of a web (10) connecting the central portions of (9) is used, and a stiffener plate (11) is provided between the flanges (8) and (9) at predetermined intervals in the longitudinal direction.
Are welded. Also, flanges (8) and (9)
In between, a U-shaped bent rebar (12) is welded to the inner surface of each of the flanges (8) and (9) at the upper and lower horizontal portions. The reinforcing bars (12) are provided on both sides of the web (10) at predetermined intervals in the longitudinal direction similarly to the stiffener plate (11). An anchor bolt hole (13) for mounting a column on the structural skeleton side is formed in the upper flange (8) in advance. In addition, the end of the web (10) and the stiffener plate (11)
Bolt holes (14) (14) for joining are formed at upper and lower intervals. Also, in the middle part of the web (10)
Upper and lower two slab reinforcing bar mounting holes (15) (15) are also formed at predetermined intervals in the longitudinal direction.

FIGS. 3 and 4 show the joining method of the foundation beam (4). In FIG. 3, an intermediate portion of one foundation beam (4) is connected to an end of the other foundation beam (4). Are joined in a T-shape, and the stiffener plate (11) in the middle part of one of the foundation beams (4) and the end of the other foundation beam (4) are connected to each bolt by a joining plate (16). Hole (1
4) Connect with bolts (17) using (14). On the other hand, FIG. 4 shows a case where the ends of one foundation beam (4) and the other foundation beam (4) are joined to each other in an L-shape, and in this case also, one foundation beam (4) is used. The bolts (17) are connected to the bolt holes (14) (14) at the ends of the stiffener plate (11) on the end side and the other end of the foundation beam (4) via the connecting plate (16).

FIG. 5 shows a reinforcing bar arrangement structure of the slab reinforcing bar (16). As described above, a mesh bar in which the X-directional reinforcing bar (6a) and the Y-directional reinforcing bar (6b) are integrated in advance is used. As shown in FIG. 1, one end of the reinforcing bar (6a) in one direction, that is, the X direction, is inserted into a mounting hole (15) formed in the web (10) of the steel base beam (4), and the opposite side. In this case, a screw (18) is screwed into the end of the reinforcing bar (6a) in the X direction, and the nut (19) is tightened and fixed from both ends of the reinforcing bar (6a). On the other hand, in the Y direction, a short fixing reinforcing bar (20) is inserted from the outside into the mounting hole (15) of the basic dyeing (4), and the fixing reinforcing bar (20) and the Y-directional reinforcing bar (6b). ) Are fixed tightly together. At the end of the fixing reinforcing bar (20), a nut (19) via a washer (18) is screwed and held so as not to come off similarly to the X-directional reinforcing bar (6a).

FIG. 1 shows a state after the concrete has been poured into the foundation beam (4) and the slab, and the waste form (7)
For (7), plastic cardboard is used,
Before the slab reinforcing bar (6) is laid, the slab is installed in the groove (1), and a backfill soil (22) is backfilled in an outer surface portion thereof. (24) is the reinforcement (1
A known disc-shaped separator attached to 2), the inner surface of the discarding formwork (7) is brought into contact with the separator (24) so that the reinforcing bar (12) has a predetermined covering thickness. I have. Further, a moisture-proof sheet (23) is laid under the concrete (5) in the slab portion.

FIG. 6 shows a mounting structure of the column (25) on the structural skeleton side. A horizontal mounting plate (26) is previously welded to the lower end of the column (25) made of H-shaped steel. An anchor bolt hole (27) is formed in (26). The anchor bolt holes (27) of the mounting plate (26) and the anchor bolt holes (13) formed in the upper flange (8) of the foundation beam (4) are aligned with each other, and these bolt holes (13) Anchor bolt (28) and nut (29) inserted into (27) are fixed to each other. In this case, the concrete (6) is cut out (30) at a portion where the column (25) is to be mounted, so that the bolt (28) and the nut (29) can be tightened. This notch (30) is filled with concrete cast after the construction of the pillar (25). Such a notch (30) can be formed over the entire circumference of the foundation beam (4).

In FIG. 10, the concrete (5) in the slab portion is cast in such a manner that the lower side of the foundation beams (4) and (4) are connected at the portion (31) where facilities such as piping are installed. ing. In this case, the reinforcing bar (6) of the slab portion is arranged using a lower mounting hole (15) formed in the web (10) of the foundation beam (4).

FIG. 11 shows another example of reinforcing bar reinforcement in the slab portion. In this embodiment, a bolt-like fixing reinforcing bar (20) is attached to the outside of the foundation beam (4) in both the X and Y directions. The reinforcing bar (6), which is formed in a mesh shape in advance, is mounted on the fixing bar (20), and is tightly attached to the reinforcing bar (20). Further, in this embodiment, reinforcing bars are arranged in two upper and lower stages.

Effects of the Invention As described above, according to the present invention, a steel foundation beam is installed, slab reinforcing bars are arranged between the foundation beams, and concrete is poured, and concrete is cast on the foundation beam portion. Even if it is cast, it is only necessary to perform reinforcement to fix the foundation beam and concrete, and since the slab reinforcement can also support its end by the foundation beam, special technical craftsmen There is an effect that it is almost unnecessary and can be constructed in a short time without skill. In addition, a steel foundation beam, which is manufactured in advance at the factory, is installed at the site and the structure is supported by the building, so the positioning accuracy of the anchor bolt holes or anchor bolts for mounting the structure is greatly increased. And it is not necessary to perform the restoring of the anchor bolt as in the prior art. Also, since the slab reinforcement can be arranged by inserting the end of the slab reinforcement directly and supporting it, or by inserting the fixing reinforcement and tightening the slab reinforcement, the horizontal position of the slab reinforcement can be adjusted. In addition, the installation height is naturally determined, and there is an effect that the work of the slab arrangement is easy. Further, since the slab reinforcing bar or the fixing reinforcing bar is fixed to the mounting hole by tightening the nut, it is not necessary to strictly adjust the slab reinforcing bar to the distance between the opposed mounting holes. It is possible to adjust the tension of the slab rebar by changing the tightening condition of the nut even if the slab rebar is loosened after joining.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of a foundation beam showing an embodiment of the present invention, FIG. 2 is a perspective view of an essential part of the foundation beam, and FIGS. 3 and 4 are essential parts showing a joint structure between foundation beams. Solution FIG. 5 is a perspective view of a main part showing a reinforcing bar arrangement structure, FIG. 6 is a perspective view of a main part showing a column mounting structure, and FIGS. 7 to 9 use a foundation beam of the present invention. Perspective view showing the applied construction method according to the construction order, FIG. 10 is a cross-sectional view of the entire
FIG. 11 is a cross-sectional view of a foundation beam showing another embodiment of the present invention. (4) ... foundation beam, (5) ... concrete, (6) ... slab reinforcing bar, (15) ... mounting hole, (20) ... fixing bar.

Claims (2)

(57) [Claims] A steel base beam for supporting a structural body such as a column, a slab reinforcing bar which is supported between the opposing base beams and supported by the base beam, all or a part of the base beam, and a slab reinforcing bar. The slab rebar is inserted into mounting holes formed in a pair of parallel opposing foundation beams, and the slab reinforcing bars are formed of concrete cast in such a manner as to cover them. Is a solid base using a steel frame, which is fixed on the opposite side with a nut screwed into the end of the slab reinforcing bar. 2. A steel base beam for supporting a structural skeleton such as a column, a slab reinforcing bar which is supported between the opposing base beams and supported by the base beam, all or a part of the base beam, and a slab reinforcing bar. It is made of concrete cast to cover, and is designed to support the slab reinforcement by fastening the slab reinforcement to the anchoring reinforcement inserted into the mounting hole of the foundation beam. Solid foundation using steel frame.