JP2001317067A - Building foundation and foundation unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a building foundation which can be constructed in a shorter construction period, and facilitates its dismantlement and recycling, and to provide a foundation unit suitable for construction of the same. SOLUTION: The building foundation is constructed by using the foundation units 1A, 1B which each are formed of a precast concrete foundation slab 2 and a steel foundation beam 3 bolt-connected to an upper portion of the foundation slab 2. According to the building foundation, the foundation slabs 2 designed as individual footings are laid without being connected to each other, and transfer of force between the foundations is carried out by the respective foundation beams 3 bolt-connected to the upper portions of the respective foundation slabs 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a foundation for a building suitable for, for example, a simple building made of steel and a foundation unit used for the construction.

[0002]

BACKGROUND OF THE INVENTION The construction of fabric foundations using precast concrete foundation units is already known and has also been proposed by Japanese Patent No. 2785063. These can save labor on site work compared to the case where base concrete is cast in place.
When joining the individual foundation units, it is assumed that the transmission of the forces between the foundation units is assumed, so it takes time to construct the joints to establish the force transmission mechanism, which is a factor that hinders shortening the construction period ing.

[0003] In addition, it is difficult to cast concrete into a joint portion between a base portion and a rising portion of a precast concrete foundation unit or to fill grout material as described in Japanese Patent No. 2785063.
Although effective in establishing a force transmission mechanism, it is difficult to dismantle or remove the base unit because the base units are integrated with each other by solidification.

Japanese Patent Application Laid-Open No. 9-60005 discloses a foundation for a building in which a steel base beam is bolted on a precast concrete base base. Forming the foundation base by cast-in-place concrete is clearly a cloth foundation in view of what is described as another embodiment. Therefore,
The joining of the precast concrete foundation bases is based on the premise that the force is transmitted, as in the conventional example such as the above-mentioned Patent No. 2785063, and it takes time and effort to construct the joint for establishing the force transmitting mechanism. The difference is that it is difficult to dismantle and re-use it.

[0005]

DISCLOSURE OF THE INVENTION The present invention has been made in consideration of the above points, and its object is to shorten the construction period, and to facilitate dismantling, removal and reuse. An object of the present invention is to provide a foundation for a simple building and a foundation unit suitable for the construction.

[0006]

The technical measures taken by the present invention to solve the above-mentioned problems are as follows. That is, the foundation of the building according to the invention of claim 1 is laid without connecting precast concrete foundation slabs designed as independent foundations to each other,
The present invention is characterized in that a force is transmitted between the foundations by a steel foundation beam which is bolted on the foundation slab.

The above-mentioned foundation is designed not as a cloth foundation but as a continuous independent foundation, so that the transmission of force between the foundation slabs is not considered, and the transmission of force between the foundations is set on the foundation slab. It is performed with steel base beams, and the roles of the base slab and the base beam are divided into two parts.Therefore, there is no need to consider the force transmission mechanism between the base slabs. Shortening is possible.

Further, since the foundation slabs are not connected to each other by cast-in-place concrete or grout, no hanging work is required, and dismantling and removal are easy. In particular, since the steel base beam is bolted onto the base slab, the base beam and the base slab can be separated, and it is easy to stock them for reuse.

According to the second aspect of the present invention, since the concave and convex portions to be fitted to each other are formed at the ends of the adjacent basic slabs, when the basic slab is installed on the ground, the concave and convex portions are fitted. As a result, the base slabs are positioned with respect to each other, and the construction is easy.

[0010] The steel base beam may be set to a length extending over a plurality of base slabs as described in claim 3. Corresponding lengths may be set and bolted together.

[0011] The foundation unit according to the invention of claim 5 has a length corresponding to the foundation slab on a precast concrete foundation slab designed as an independent foundation, and has bolt holes formed at both ends. A base beam formed by connecting bolts to a base beam made of steel, wherein a protrusion for fitting is formed at one end of the base slab, a recess corresponding to the protrusion is formed at the other end, and a plurality of Are formed. By using this foundation unit, the foundation of the above-mentioned building can be easily constructed. That is, since a plurality of projections are formed on the lower surface of the foundation slab, when the foundation unit is installed on the ground, even if there are some irregularities on the ground, the projections can be easily laid horizontally by indenting the projections. The base units are positioned by fitting the protrusions and recesses of adjacent base slabs with each other, so that the base units can be positioned without watering. It is possible to lay in a straight line, it is possible to easily bolt the steel foundation beams installed on the foundation slab, and as a result, it is possible to easily build the foundation of the above-mentioned building It is. Also,
Since the foundation beam made of steel is bolted on the foundation slab, it is possible to separate the foundation beam and the foundation slab, stack the foundation slabs together, and combine the foundation beams together to make the compact It can be stored in a safe condition, and it is easy to stock it for reuse.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIGS. 1 to 4 exemplify a basic structure of a building suitable for a steel-framed two-story simple building scheduled to be dismantled and removed, such as a work office at a construction site. I do. The above-mentioned foundation is a foundation unit 1A, 1B described later.
A precast concrete foundation slab 2 designed as an independent foundation is laid without connecting to each other, and a steel frame foundation beam 3 bolted onto the foundation slab 2 is used. It is configured to transmit force between the foundations. GL is a designed ground line in which the lower part of the foundation is backfilled with earth and sand to a predetermined level after the foundation is completed.

FIGS. 5 and 6 show a foundation unit 1A used in a foundation straight section, and FIGS. 7 and 8 show a foundation unit 1B used in a foundation corner. These foundation units 1A, 1B are set on a flat precast concrete foundation slab 2 designed as an independent foundation, to a length corresponding to the foundation slab 2, and bolt holes 4 are formed at both ends. Bolted steel foundation beam 3
The base slab 2 is formed with a fitting convex portion 6 at one end, a concave portion 7 corresponding to the convex portion 6 at the other end, and a plurality of concave portions on the lower surface. In the example of (4), four projections 8 are formed.

The projection 6 shown is inclined such that the upper surface is flush with the upper surface of the base slab 2, the distance between the two side surfaces is narrower toward the distal end, and the lower surface is located higher toward the distal end, and the taper is tapered. The recess 7 is formed in a shape that fits into the recess. 3, FIG. 4, FIG. 9, and FIG. 10 indicate reinforcing steel bars 10 embedded in concrete of the foundation slab 2.
Is a female screw-shaped insert hardware screwed with the bolt 5. 2 and 3, reference numeral 11 denotes a bolt for connecting the foundation beams 3, and reference numeral 12 denotes a backing plate for holding the web of the foundation beam 3. Reference numeral 13 shown in FIGS. 2, 5, and 7 denotes a bolt hole for connecting a column steel frame formed in the upper flange portion of the foundation beam 3.

The base unit 1A used for the base straight section and the base unit 1B used for the base corner section
The former 1A differs from the former 1B only in that the foundation slab 2 and the foundation beam 3 are linear in shape, whereas the latter 1B is different only in that the foundation slab 2 and the foundation beam 3 are bent at right angles. Is the same. In the example shown in the figure, the base beam 3 is made of a U-shaped section steel, but an I-beam or an H-beam may be used. In addition, basic unit 1A,
Although the dimension of 1B can be set arbitrarily, in the illustrated example, the thickness of the base slab 2 is 2 in both the base units 1A and 1B.
0 cm, the short side is set to 60 cm, the long side of the base slab 2 in the base unit 1A is set to about 1.8 m, and the length from the protruding corner of the base slab 2 to the short side in the base unit 1B is The pitch of the steel column erected on the foundation beam 3 is set to be constant.

According to the above construction, the design is performed not as a cloth foundation but as a continuous independent foundation.
The transmission of force between the foundations is not taken into account, and the transmission of force between the foundations is performed by the steel foundation beam 3 installed on the foundation slab 2, and the roles of the foundation slab 2 and the foundation beam 3 are divided into each. By doing so, there is no need to consider the force transmission mechanism between the base slabs 2 and there is no need to connect the base slabs 2, so that the construction period can be shortened.

In particular, since the plurality of protrusions 8 are formed on the lower surface of the base slab 2, when the base units 1A and 1B are installed on the ground, the protrusions 8 may be formed even if the ground has some irregularities. By being entrapped, the base units 1A and 1B can be easily installed horizontally and at the same level, and the base units 1A and 1B can be connected to each other by fitting the protrusions 6 and the recesses 7 of the adjacent base slabs 2 together. Since the positioning is performed in the horizontal direction and the vertical direction, the foundation units 1A and 1B can be lined up in a straight line without watering, and the steel-made foundation beams 3 installed on the foundation slab 2 can be arranged. The bolts 11 can be easily connected to each other, and as a result, the foundation of the above-described building can be easily and quickly constructed.

Further, since the foundation slabs 2 are not connected to each other by cast-in-place concrete or grout material, no hanging work is required, and dismantling and removal are easy. Moreover,
Since the steel base beam 3 is connected to the base slab 2 by the bolts 5, the base beam 3 and the base slab 2 can be separated, the base slabs 2 are stacked, and
The foundation beams 3 can be bundled together and stored in a compact state, and it is easy to stock them for reuse.

In the above example, the insert metal was buried in the concrete of the base slab 2 and the bolt was screwed into it. However, as shown in FIG. It may be buried in the state where it was done. In this case, if the protruding length of the bolt 5 is set to be equal to or less than the height of the protruding portion 8, the bolt 5 does not become an obstacle, so that the basic slabs 2 can be stacked as shown in the figure. Although not shown, the base beam 3 may be a long object continuous over a plurality of base slabs 1.

[0020]

According to the present invention, which has the above-described structure, the construction period can be shortened, and there are effects such as easy dismantling, removal and reuse.

[Brief description of the drawings]

FIG. 1 is a perspective view of a foundation of a building.

FIG. 2 is a perspective view of a main part.

FIG. 3 is a vertical sectional side view of a foundation after completion of construction.

FIG. 4 is a vertical sectional front view of a main part.

FIG. 5 is an exploded perspective view of a foundation unit used for a foundation straight section.

FIG. 6 is a side view of a foundation unit used for a foundation straight section.

FIG. 7 is an exploded perspective view of a foundation unit used for a foundation corner.

FIG. 8 is a side view of a foundation unit used for a foundation corner.

FIG. 9 is a partially broken plan view of a precast concrete foundation slab in a foundation unit used for a foundation straight section.

FIG. 10 is a partially broken plan view of a precast concrete base slab in a base unit used for a base corner.

FIG. 11 is a side view illustrating another embodiment.

[Explanation of symbols]

1A, 1B ... foundation unit, 2 ... foundation slab made of precast concrete, 3 ... foundation beam made of steel.

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2D046 BA25 2E125 AA46 AE13 AG02 AG12 BA02 BB02 BB24 BC06 BD06 BE02 BF04 CA03

Claims (5)

[Claims] 1. A precast concrete foundation slab designed as an independent foundation is laid without connecting to each other, and a force is transmitted between the foundations by a steel foundation beam bolted onto the foundation slab. The foundation of a building characterized by having been configured as described above. 2. The foundation of a building according to claim 1, wherein an uneven portion that fits into each other is formed at an end of adjacent foundation slabs. 3. The foundation of a building according to claim 1, wherein the steel-frame foundation beam is set to a length extending over a plurality of foundation slabs. 4. The building foundation according to claim 1, wherein the steel foundation beams are set to a length corresponding to the individual foundation slabs and are bolted to each other. 5. A steel base beam having a length corresponding to the base slab and having bolt holes formed at both ends is bolted on a precast concrete base slab designed as an independent base. A base unit having a protrusion for fitting formed at one end of the base slab, a recess corresponding to the protrusion at the other end, and a plurality of protrusions formed on the lower surface. Basic unit to be characterized.