JPH11124860A - Foundation structure of building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a foundation structure excellent in heat-insulation and termite prevention by covering a continuous leveling concrete face between an outer peripheral foundation and a mat foundation with a termite-preventive sheet and arranging cellular glass sheets at the outside of the outer peripheral foundation. SOLUTION: The arrangement face for an outer peripheral foundation 1 and a mat foundation 3 is leveled and leveling concrete 8 is placed thereon and further, the whole face is covered with a termite preventive sheet 4. Then, cellular glass sheets 20 are arranged on the outer peripheral foundation face surrounding a building while sticking an adhesive thereon and reinforcements 9 are arranged at the inside. And then, concrete is placed to form the foundation part 1a of the outer peripheral foundation 1 and the mat concrete foundation 3. Then, inside forms are installed an concrete is placed between the form and the cellular glass sheet 20 to form the rising part 1b of the outer peripheral foundation 1 and install a sill 5 while leveling the top face. A finish layer 6 such as mortar is formed at the outside face of the cellular glass sheet 20 and the outside soil is filled back. In this way, a foundation excellent in heat- insulation and termite prevention can be constructed in a simple procedure.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a basic structure of a building, and more particularly, to a basic structure of a building which is excellent in heat insulation and termite resistance and excellent in workability.

[0002]

2. Description of the Related Art
In the basic structure of a wooden house, the heat insulating material is generally disposed inside the wall and between the joists under the floor, and the case where the heat insulating material is disposed on the foundation is slightly used in a cold region or some houses. It is only seen. As an example of disposing the heat insulating material on the foundation in this manner, a heat insulating material such as urethane foam is provided on the outside or inside of the foundation.

However, organic insulation materials such as urethane foam and styrene foam in the conventional basic structure are inferior in weather resistance and do not have resistance to pests, especially termites. When used by being buried in the soil, there is a problem that the heat insulating effect is deteriorated to such an extent that a thermal insulation effect can hardly be expected due to termite damage.

[0004] As a method for protecting buildings such as houses from damage by termites, there is known a method in which a termite-resistant chemical is sprayed on the ground in advance. However, according to this method, there is a possibility that a human body may be adversely affected or nearby well water or groundwater may be contaminated depending on a method of selecting or spraying a medicine. In order to avoid such inconvenience, there is a method of laying a sheet having termite control properties on the ground to prevent the damage of termites. However, this method is also sufficient to prevent the damage of the termites for a long period of time. Was inadequate. Accordingly, an object of the present invention is to provide a foundation structure of a building which is excellent in heat insulation and ant resistance and excellent in workability.

[0005]

According to the first aspect of the present invention,
The above object has been achieved by providing a foundation structure of a building, wherein a heat insulating layer made of foamed glass in which cells are closed cells is provided on the outdoor side of an outer peripheral foundation.

According to a second aspect of the present invention, there is provided the foundation structure of a building according to the first aspect, wherein a concrete solid foundation is formed on the inner ground of the outer peripheral foundation so as to be continuous with the outer peripheral foundation. By doing so, the above object has been achieved.

According to a third aspect of the present invention, there is provided a foundation structure of a building according to the second aspect, wherein a termite sheet having waterproofness is laid under the concrete solid foundation. The above object has been achieved.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the foundation structure of a building according to the present invention will be described below with reference to the drawings. Here, FIG. 1 is a schematic sectional view showing one embodiment of the foundation structure of the building of the present invention. The basic structure of the building according to the present embodiment is provided with a heat insulating layer 2 made of foamed glass in which cells are closed cells on the outdoor side of the outer peripheral foundation 1.

The outer peripheral foundation 1 is a reinforced concrete foundation that supports an outer wall of a wooden house via a base 5,
The lower end is buried underground. The heat insulating layer 2 is provided in close contact with the outer surface of the outer peripheral foundation 1. The heat insulation layer 2 is formed of the outer peripheral foundation 1.
Is formed by a foamed glass plate 20 having a height substantially equal to the outer surface of the foamed glass plate, and the foamed glass plate 20 is a closed-cell foam having substantially no pores without each cell communicating. Such a foamed glass plate 20 can be manufactured by, for example, using silica sand, calcium carbonate, dolomite, feldspar potassium, and sodium carbonate as main raw materials, mixing and melting these raw materials, and foam-forming. In addition, in order to improve the various performances of the foamed glass, in addition to the above-mentioned main raw materials, other substances are added, or a single or a plurality of the above-mentioned main raw materials is replaced with a glass forming material. May be used.

The foam glass plate 20 has a bulk density of 2
0 to 650 kg / m ³ , preferably 80 to 1 kg / m ^3.
50 kg / m ³ is more preferred, and 100 to 125 kg / m ³
m ³ is particularly preferred. This bulk density is 20 kg
If it is less than / m ^3, tends to be the strength of the heat insulating layer 2 is insufficient, and exceeding 650 kg / m ^3, inconveniences such that may become thermal insulation performance is insufficient, the workability and the thickness is increased to decrease Tends to occur. Such conditions are satisfied foam glass plates, Germany Hercules (Heraklith) manufactured by Korigurasu (trade name, bulk density ^{105 Kg / m 3, 120Kg /} m 3) is preferably used.

The heat insulating layer 2 in the basic structure of the present embodiment
Is formed by arranging a large number of rectangular foam glass plates 20 in a state where the side surfaces in the width direction of the adjacent foam glass plates 20 are abutted with each other. It is adhered without any gap by the agent. As an adhesive used for this bonding, an inorganic adhesive is preferable, and an asphalt adhesive is more preferable, from the viewpoint of effectively preventing invasion of termites from the joint.

A finishing layer 6 is provided outside the heat insulating layer 2 as shown in FIG. The finishing layer 6 is formed by applying a finishing material such as mortar to the outer surface of the foamed glass plate 20. The finishing layer 6 improves the appearance of the foundation, and the surface of the heat insulating layer 2 It is being protected. An anchor bolt 7 is provided on the outer peripheral foundation 1.
The base 5 is tied through the base, and the base 5 also has ant resistance. The base 5 in the present embodiment is made of a material which is provided with termite resistance by impregnating a termitic agent, but using a material having excellent termite resistance, such as a cedar core or cypress. Is also good.

On the inner ground of the outer peripheral foundation 1, a solid concrete foundation 3 is formed so as to be continuous with the outer peripheral foundation 1. The concrete solid foundation 3 is made of reinforced concrete in which a reinforcing bar 9 is arranged, and as shown in FIG. Then, after arranging the reinforcing bar 9,
It is formed by casting concrete. The termite-proof sheet 4 extends below the outer peripheral foundation 1, more specifically, below the heat-insulating layer 2, and between the lower end of the heat-insulating layer 2 and
No gap is formed.

The termite-controlling sheet 4 is made by kneading a termite-controlling agent into a synthetic resin and stretching it into a sheet. The termite-controlling property is longer than that obtained by simply applying a drug to a film. Is to be maintained. The termiticide is microencapsulated and kneaded, whereby the termiticide performance is maintained for a longer period. In addition, as the synthetic resin, various kinds of materials generally known as a raw material of the moisture-proof sheet can be used.
Examples include polyethylene and polypropylene. Also,
As the termite-controlling agent, various kinds of termite-controlling agents generally known can be used, and organic phosphorus-based and pyrethroid-based agents are preferably used.

The height H1 (see FIG. 1) of the rising portion 1b of the outer peripheral foundation 1 in the present basic structure is 420 m.
m, the height H2 (see FIG. 1) including the base portion 1a of the outer peripheral base 1 is 640 mm. In addition, the outer peripheral foundation 1
Is 180 mm, the thickness of the heat insulating layer 2 is 65 mm, the thickness of the finishing layer 6 is 10 mm, and the thickness H3 (see FIG. 1) of the concrete solid foundation 3 is 180 mm.

Next, a procedure for constructing the basic structure of the building according to the present embodiment will be described with reference to an example. First, the ground is excavated, crushed and crushed by crushing gravel, and an outer peripheral foundation arrangement surface for forming the outer peripheral foundation 1 and the concrete solid foundation 3 continuous from the outer peripheral foundation arrangement surface via an inclined surface.
To form a solid base placement surface for forming

Then, a waste concrete 8 is cast on the outer peripheral foundation arrangement surface, and the termite-proof sheet 4 is so covered as to cover the entire outer peripheral foundation arrangement surface and the solid foundation arrangement surface.
Lay. Next, the plurality of foamed glass plates 20 are arranged side by side while adhering a bonding portion with an adjacent foamed glass plate with the adhesive on the outer peripheral foundation arrangement surface. After arranging a plurality of foam glass plates 20 so as to surround the periphery of the building, a reinforcing bar 9 is arranged inside the glass glass plates 20, and concrete is cast. Thereby, the foundation portion 1a of the outer peripheral foundation and the concrete solid foundation 3 are formed. In this state, the foundation portion 1a of the outer peripheral foundation and the upper surface of the concrete solid foundation 3 form substantially the same plane, and a part 9a of the rebar projects on the plane. ing.

Next, an inner mold (plywood or the like, not shown) is installed so that a predetermined space for filling concrete is formed between the foamed glass plate 2 and the foamed glass plate 2. The foamed glass plate 2 is used as the outer formwork, and concrete is filled between the two to fill up the rising portion 1 of the outer peripheral foundation 1.
b is formed. At this time, the anchor bolt 7 is fixed by the concrete to be filled. Then, the outer peripheral foundation 1 is leveled, and the outer surface of the foam glass plate 2 is finished with a finishing material such as mortar, and the base 5 is placed on the outer peripheral foundation 1. Then, the soil outside the outer peripheral foundation 1 is backfilled.

In the basic structure of the building constructed as described above, the heat insulating layer 2 made of foamed glass in which the cells are closed cells is formed on the outdoor side of the outer peripheral base 1, so that an excellent foundation is provided. Heat insulation and excellent termite resistance or termite resistance are realized. Therefore, by applying this foundation structure, the heat insulation and durability of the building can be easily and reliably improved.

In the basic structure of the building of this embodiment, the heat insulating layer 2 is formed by arranging a large number of lightweight and small-sized foam glass plates 20 adjacent to each other. Are better. Further, the foamed glass plate 20
Can be cut with a cutter despite its high strength, so that the heat insulating layer 2 without gaps can be easily formed. Therefore, invasion of termites can be effectively prevented, and a heat-insulating layer without heat-insulating defects can be easily formed.

Further, since the foamed glass plate 20 for forming the heat insulating layer 2 is used as the outer mold for forming the rising portion 1b of the outer peripheral foundation, the operation is simplified, and Since the foam glass plate 20 is used as it is as the heat insulating layer 2, the generation of waste material can be reduced.

Further, since the concrete solid foundation 3 is formed on the inner ground of the outer peripheral foundation 1 so as to be continuous with the outer peripheral foundation 1, the termites can be effectively prevented from entering the inner ground of the outer peripheral foundation 1. Can be prevented. Therefore, the foundation structure of the building of the present embodiment has excellent overall termite resistance or termite resistance.

Further, since the termite-proof sheet 4 having waterproofness is laid under the concrete solid foundation 3, even if a crack occurs in the concrete solid foundation 3, termites from the crack are generated. Can be prevented, and the damage by termites can be effectively prevented over a long period of time. And since the whole foundation is protected by the termite-proof or termite-resistant layer, the durability of the whole building can be improved. In addition, since the lower end of the heat insulating layer 2 and the termite-proof sheet 4 are in contact with each other so that no gap is formed between them, the effect of preventing termites from entering is further improved. Furthermore, since the base 5 placed on the outer peripheral foundation 1 also has termite resistance, it has a structure that is more excellent in termite resistance.

The present invention is not limited to the above-described embodiment, and can be appropriately modified without departing from the gist of the present invention. For example, in the above-described embodiment, the heat insulating layer 2 is provided outside the reinforced concrete outer foundation 1 in contact with the outer foundation 1, but another heat insulating layer is provided between the outer foundation 1 and the outer foundation 1. May be interposed. Further, the heat insulating layer 2 may be composed of one layer as in the present embodiment, or may be composed of a plurality of layers obtained by laminating the same or different kinds of foamed glass plates. The thickness of the heat insulating layer made of foamed glass in which the cells are closed cells is not particularly limited, and may be an appropriate thickness, for example, in a cold region.

The termite-control sheet may have a different structure from the termite-control sheet as long as it has waterproofness and termite-control properties. It may be one coated with a chemical having termite control properties. Also, the thickness can be set to an appropriate thickness in consideration of various conditions such as whether or not the area is susceptible to termite damage. Also, the construction procedure may be different from the above-described construction procedure according to the type of building, site conditions, and the like, and for simplicity of construction.

[0026]

As is clear from the above description, according to the basic structure of a building of the present invention, a basic structure of a building excellent in heat insulation and ant resistance and excellent in workability is provided. be able to.

[Brief description of the drawings]

FIG. 1 is a schematic sectional view showing an embodiment of a foundation structure of a building according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Perimeter foundation 2 Heat insulation layer 20 Foam glass plate 3 Concrete solid foundation 4 Termite-proof sheet 5 Base 6 Finishing layer 7 Anchor bolt 8 Discarded concrete 9 Reinforcing bar

Claims (3)

[Claims] 1. A basic structure of a building, wherein a heat insulating layer made of foamed glass in which air bubbles are closed cells is provided on the outdoor side of the outer peripheral foundation. 2. The foundation structure for a building according to claim 1, wherein a concrete solid foundation is formed on the inner ground of the outer peripheral foundation so as to be continuous with the outer peripheral foundation. 3. The foundation structure of a building according to claim 2, wherein a termite sheet having waterproofness is laid under the concrete solid foundation.