JPH0138929B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method of constructing a basement.

Basements have traditionally been constructed using cast-in-place concrete or welded-in-place steel plates. However, when these methods are used, the basement is manufactured in one piece, requiring special techniques, and therefore it is not possible to construct the basement easily and inexpensively. Additionally, concrete basements are prone to cracking after construction, which is difficult to repair. In addition, iron basements are susceptible to corrosion by groundwater, and therefore have a disadvantage in terms of durability.

The inventor sought to facilitate the installation of durable basements. In that case, I thought I would create a basement by making the things that would make up the basement in a box shape somewhere else in advance and burying it at the installation site. However, it was discovered that when a box-shaped body made elsewhere was simply buried in the basement to create a basement, the basement would float up due to groundwater and be destroyed. The traditional basement is
Since it was built integrally with the above-ground building, and the above-ground building extended upwards, there was no need to consider raising the basement. Therefore, the question was how to solve these new problems.

The inventor discovered that in order to prevent the basement from floating up, a concrete foundation should be provided below the buried box-like body, and this foundation should be provided continuously at the bottom of the box-like body. It was confirmed that it is best to make the box-shaped body protrude outward and fix the box-shaped body to this foundation. This invention was completed based on such confirmation.

In this invention, a box-like body having a bottom, side walls, and a ceiling is created, with an entrance and exit in the ceiling, a hole is dug elsewhere, a concrete foundation is attached to the bottom of the hole, and the top surface of the concrete foundation is Make it wider so that it protrudes from the bottom of the box, and make the protruding area wider than the bottom of the box.
10% or more, and the thickness of the concrete foundation is at least 10% of the height of the box-shaped body, and after fixing the box-shaped body on the concrete foundation, it is recommended to place soil or concrete on the protruding concrete foundation and backfill it. This article concerns the method of constructing a basement.

An example of implementing the method of the invention will be described below based on the drawings. 1-4 are longitudinal cross-sectional views of a basement constructed according to the method of the invention. In these figures,
1 is a box-shaped body, 2 is the ground, 3 is a hole, 4 is a concrete foundation, 5 is an anchor bolt, 6 is backfilled soil or concrete, and 7 is an above-ground building.

The basement shown in Figure 1 is constructed as follows. The box-like body 1 has a bottom 11, side walls 12, and a ceiling 13, and the ceiling 13 has an entrance 14. The box-like body 1 is manufactured elsewhere and transported to the installation site. At the installation site,
As shown in the figure, a hole 3 is dug in the ground 2. Hole 3
A concrete foundation 4 is attached to the bottom of the building.

The upper surface 41 of the concrete foundation 4 is wide, thick, and horizontal so as to protrude from the bottom 11 of the box-like body 1. The sum of the areas of the parts of the concrete foundation 4 protruding from the bottom 11 is made to be 10% or more of the area of the bottom 11 of the box-like body. Among these, preferably 15% or more, more preferably 20%
% or more. Furthermore, the thickness D of the concrete foundation 4 is, on average, 10% or more of the height H of the box-shaped body. Among these, it is preferably 15% or more, more preferably 20% or more. In this way, the concrete foundation 4 is different from conventional concrete foundations in that it is wider and thicker.

It is desirable that the protruding portion of the concrete foundation 4 be attached around the bottom 11 of the box-like body 1 with an equal width W. However, the width W may be partially different. Here, the width W is the length from the outer surface of the side wall 12 to the end of the concrete foundation 4 when measured in a direction perpendicular to the outer surface of the side wall 12 along the upper surface 41. When the widths W are partially different, the protruding portions are made to spread symmetrically around the center of the bottom 11. In addition, in the protruding part, W is at least 10
It is desirable to provide a length of at least 10 cm, preferably at least 20 cm, along the side wall 12 for a length of at least 10 cm, preferably at least 20 cm. This part is useful for attaching anchor bolts, which will be described later.

Anchor bolts 5 are installed on the concrete foundation 4.
is embedded. The position where the anchor bolt 5 is embedded is a portion where the above-mentioned width W is 10 cm or more. After the foundation 4 has hardened, the box-shaped body 1 is placed on the foundation 4. After that, the angle piece 51 is fixed to the anchor bolt 5, and the angle piece 51 is
It is fixed to the outer periphery of the bottom 11. Of course, the angle piece 51 may be fixed to the box-shaped body 1 from the beginning. In this way, the box-like body 1 is fixed on the concrete foundation 4.

Thereafter, concrete 6 is poured onto the protruding concrete foundation 4, and the area around the side wall 12 is backfilled with concrete 6. In this way, the basement according to the present invention is constructed.

Various accessories are further installed above and inside the basement constructed in this way. For example, a lid 81 is attached to the floor surface of the above-ground building 7 above the entrance/exit 14, and a fireproof material wall 82 is attached between the lid 81 and the entrance/exit 14. Further, inside the basement, a ventilation fan 91, a stage 92, a shelf 93, an outside air introduction pipe 94, etc. are provided.

The basement shown in FIG. 2 is also constructed by pouring a concrete foundation 4 at the bottom of a hole 3 and fixing the box-shaped body 1 on top of it with anchor bolts 5. Since the bottom surface 11 of the box-shaped body 1 is bent, it may be difficult to determine the periphery of the bottom surface 11, but the boundary of the bottom surface 11 can be considered to be the projection line 15 of the side wall 12. Therefore, the upper surface 41 of the concrete foundation 4 is
The total area of the parts protruding from 5 is the projection line 15
It accounts for more than 10% of the area within the area. Also, the thickness D of the concrete foundation 4 is 10 of the height H of the box-shaped body 1.
% or more. Soil 6 is placed on top of the upper surface 41 of the concrete foundation 4 and is backfilled.

The basement shown in Figure 3 is constructed in much the same way as the basement shown in Figure 1. The reason why the basement in Figure 3 is different from the basement in Figure 1 is that the layer of concrete foundation 4 is
It is constructed in multiple layers, and both concrete and earth are used for backfilling. Specifically, as the foundation concrete 4, a chestnut stone 42 is first laid, a thin layer of concrete 43 is applied on top of it, and a thick layer of concrete 44 is further applied on top of it, to form the concrete foundation 4. ing. In addition, for backfilling,
First, the anchor bolt 5 and the angle piece 51 connected thereto are covered with concrete 61 and buried, and soil 62 is poured on top of it and buried.

The basement in Figure 4 is similar to the basement in Figure 3. The basement shown in FIG. 4 differs from the basement shown in FIG. 3 only in that anchor bolts 5 are later attached to the concrete foundation 4 to fix the box-shaped body 1 on the foundation 4.

The box-shaped body 1 is desirably made of curable resin. When the box-shaped body 1 is made of a curable resin, it is desirable to mix sand and gravel into the resin to increase the weight of the box-shaped body 1. Further, as shown in FIG. 4, the box-shaped body 1 can have a bottom, side walls, and ceiling formed of multiple layers, with a heat insulating material layer sandwiched in the center.

According to the method of this invention, a basement is constructed by creating a box-like body having a bottom, side walls, and a ceiling with an entrance and exit in the ceiling, and then digging a hole elsewhere and burying the box-like body. Therefore, building a basement can be done easily and inexpensively. Furthermore, since a concrete foundation was attached to the bottom of the hole and the box-shaped body was fixed on the top surface of the concrete foundation, the concrete foundation would prevent the box-shaped body from being lifted up by groundwater. Furthermore, since the concrete foundation is thicker than 10% of the height of the box-shaped body, it will not be destroyed by the uplifting force of the box-shaped body, and its own weight is large. To reliably prevent the box-shaped body from floating up due to groundwater. Moreover, since the concrete foundation protrudes from the bottom of the box-shaped body and the protruding portion is more than 10% of the bottom surface of the box-shaped body, backfilling soil or concrete is placed on the protruding portion, causing the box-shaped body to float. This will further ensure that climbing is prevented. Therefore, a basement constructed according to the method of the invention has no risk of floating. The inventive method provides these advantages.

[Brief explanation of drawings]

1 to 4 are vertical cross-sectional views of a basement constructed by the method of this invention. In the figure, 1 is a box-shaped body, 2 is the ground, 3 is a hole,
4 is concrete foundation, 5 is anchor bolt, 6
is backfilled earth or concrete, and 7 is an above-ground building.

Claims (1)

[Claims] 1. Create a box-shaped body with a bottom, side walls, and ceiling, and an entrance on the ceiling. Dig a hole elsewhere, attach a concrete foundation to the bottom of the hole, and attach the top of the concrete foundation to the box-shaped body. The box should be wide enough to protrude from the bottom of the box, the protruding area should be at least 10% of the bottom of the box, and the average thickness of the concrete foundation should be at least 10% of the height of the box, and the box should be placed on the concrete foundation. A method of constructing a basement, which is characterized by fixing the basement and then backfilling it by placing soil or concrete on the protruding concrete foundation.