JPH11229399A - Foundation structure for detached house and its manufacture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a foundation structure for a detached house, capable of dealing with an area where the bearing power of soil is low by use of a mat foundation and a continuous footing and, even if the house is tilted because of ground subsidence, capable of being repaired at much lower cost than that of conventional repair work. SOLUTION: This structure comprises a mat foundation 10 made of concrete, provided over the entire surface of the building area of a house, and a framed continuous footing 20 made of concrete, provided on the mat foundation 10 and at least in the part of a first-story portion corresponding to a partition. The continuous footing 20 comprises an outermost continuous footing for an outer frame and a plurality of dividing continuous footings 20 formed to divided the inside thereof. The continuous footing 20 is so formed that a plurality of divided areas formed between the continuous footing 20 for the outer frame and each dividing continuous footing 20 and between the dividing continuous footings 20 are closed expect at their upper ends. The continuous footing 20 is formed separately from the mat foundation 10.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a foundation structure for a single-family house and a method for manufacturing the same.

[0002]

2. Description of the Related Art When a single-family house is built, foundation work is always performed first. There are a plurality of types of foundation work, and the type of foundation work to be performed is determined after measuring the ground strength. The ground bearing capacity is a numerical value indicating, for example, the strength of the ground on which a house is to be built, with the house load being 1 (t / m ² ). If the soil bearing capacity is small, problems such as uneven settlement of the house due to land subsidence occur over the years, so foundation work according to the measured numerical value of the ground strength is required. . Such a measurement of the bearing capacity is described in patent no.
Measurement can be performed with high accuracy using a measuring device called a surface wave ground surveying machine (GR machine) according to No. 56.

[0003] The standard of the foundation work so far will be described with reference to FIG. 6 when the house load is 1 (t / m ² ). If the ground strength is less than 2 (t / m ² ), a large number of concrete columns are driven into the ground to strengthen the ground. Hereinafter, this construction is referred to as reinforcement construction. When the ground strength is in the range of ² to 3.5 (t / m ² ), a foundation called a solid foundation is formed on the entire building floor of the house, and a frame-shaped foundation called a cloth foundation is integrally formed on the solid foundation. Is required. Hereinafter, this will be referred to as solid foundation work, which will be described later in detail. When the bearing capacity is in the range of 3.5 to 5 (t / m ² ),
The solid foundation is not required, and the construction of the widened cloth foundation with the width of the cloth foundation increased (hereinafter, referred to as widened cloth foundation construction) is performed. Further, when the earth bearing capacity exceeds 5 (t / m ² ),
It is only necessary to provide a cloth foundation having a standard width (hereinafter referred to as standard cloth foundation work).

A conventional solid foundation work will be described with reference to FIGS. The solid foundation and the cloth foundation are made in one piece. That is, a frame is formed so that a solid foundation made of concrete of a predetermined thickness is formed on the entire floor space of the house, and a frame is formed on the frame so that a cloth foundation having a predetermined width is formed on the solid foundation. Needless to say, rebars are assembled in these frameworks so as to obtain a predetermined mechanical strength. Concrete is poured into the framework made in this way. As a result, when the concrete hardens, the solid foundation 30 having a predetermined thickness is integrated with the cloth foundation 40.
The foundation is formed such that the stakes rise. 31a, 31
b, 41a and 41b are rebars, respectively. As can be understood from FIG. 7, the cloth foundation 40 is formed at least at a location corresponding to a partition on the first floor portion of the house. Needless to say, partitions are used to divide rooms,
A partition including an outer wall for defining a special space. Usually, a column is provided at a location corresponding to a corner of such a partition portion, and a cloth foundation 40 is formed at a location directly below the partition portion. Before the solid foundation 30 is formed, as shown by reference numeral 35, a stone having a size of about several centimeters called a split stone is spread and hardened with a thickness of about ten and several centimeters. Then, sand for joints is stuffed thereon, so as to fill the gaps between the shards and the unevenness of the top shard. Furthermore, reference numeral 36
As shown by the symbol, a concrete layer called a waste concrete is formed with a thickness of several cm. The thickness of the solid foundation 30 is, for example, about 15 cm, and the middle portion is the ground GL.
It is formed to have the same height as. The cloth foundation 40 has a width of 12 cm and a height from the solid foundation 30 of about 35 cm, for example.

Referring to FIGS. 9 and 10, the structure of a ventilation hole 42 formed in the cloth base 40 and a reinforcing portion at a corner will be described. In FIG. 9, a horizontally extending reinforcing bar 41a and a vertically extending reinforcing bar 4
1b. Among the rebars 41a, the lowermost and uppermost rebars used are thicker than others. Around the ventilation hole 42, a thick reinforcing bar 41c and a specially shaped reinforcing bar 41d extending in the horizontal direction are further incorporated. In FIG. 10, in the corner portion, the reinforcing bar extending in the horizontal direction is at least 30 degrees from the intersection of the corner portion.
It is bent into an L shape with a margin of about cm, so that a portion overlapping with another perpendicular reinforcing bar is formed. The overlapping portions are connected by a wire.

[0006]

According to the statistics so far, the ratio of the number of reinforcement works to the total number of foundation works performed when constructing a single-family house is as shown in FIG. A result of reaching about 30% has been obtained. However, since the reinforcing work is a work of driving a large number of concrete pillars into the ground, the construction cost is high, which causes a rise in the sales value of the house.

On the other hand, when the ground bearing capacity is in the range of 1 to 2 (t / m ² ), the probability of occurrence of differential settlement is uncertain, and the differential settlement does not necessarily occur, and the conventional solid foundation work is sufficient. It is also confirmed that there is. However, in the conventional solid foundation work, once the house is tilted due to uneven settlement, a large amount of construction cost is required to correct the slope. This is because, in the conventional solid foundation work, since the solid foundation and the cloth foundation are integrally formed, in order to correct the inclination of the house, it is necessary to perform a repair work in consideration of the solid foundation. . In view of such circumstances, the conventional solid foundation work may be sufficient,
Even in the range of (t / m ² ), a large amount of construction cost is spent for reinforcement work.

Therefore, the object of the present invention can be dealt with by a foundation structure composed of a solid foundation and a cloth foundation in a range where the ground bearing capacity is low, and even if the housing is tilted due to land subsidence, compared with the conventional repair work, It is an object of the present invention to provide a base structure for a detached house which can be modified at a low cost.

Another object of the present invention is to provide a method for manufacturing a detached house foundation suitable for the above-described detached house foundation structure.

[0010]

According to the present invention, in a concrete base structure provided for building a single-family house, a concrete solid base provided on the entire floor space of a house, and a concrete solid base provided on the solid base. And a frame-shaped concrete fabric base provided at least at a location corresponding to a partition on the first floor portion, wherein the fabric base partitions the outermost fabric base for the outer frame and the inside thereof. And a plurality of partition areas formed between the outer frame cloth base and the partition cloth base and between the partition cloth bases are formed on the upper end side. , And the cloth foundation is further formed separately from the solid foundation, thereby providing a foundation structure for a detached house.

It is preferable that the solid foundation is formed to have an area protruding about several tens cm from the cloth foundation for the outer frame.

It is preferable that a through-hole is formed in at least one of the outer frame cloth base itself and the partition cloth base itself, or at a boundary between the cloth base and the solid base.

According to the present invention, there is further provided a method of manufacturing a concrete foundation provided when a single-family house is constructed, wherein a concrete solid foundation is formed over the entire floor space of the house, and after the solid foundation is hardened, At least at a portion of the floor portion corresponding to the partition, a separating partition member is interposed to form a frame-like concrete cloth foundation on the solid foundation, and the cloth foundation is an outermost outer frame. And a plurality of partitioning cloth foundations formed to partition the inside thereof, and between the outer frame cloth foundation and the partitioning cloth foundation and between the partitioning cloth foundations. A method for manufacturing a foundation for a detached house is provided, wherein the plurality of defined areas are formed in a closed shape except for an upper end side.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of the present invention will be described with reference to FIGS. The foundation structure according to the present invention is applicable to single-family homes in general, and the number of floors is applicable not only to one-story houses but also to two-story or more houses. This foundation structure includes a concrete solid foundation 10 provided on the entire floor space of a house, and a frame-shaped concrete cloth provided on the solid foundation 10 and provided at least at a location corresponding to a partition on the first floor. And a foundation 20. In particular, the cloth foundation 20 includes an outermost cloth foundation 20-1 for the outer frame and a plurality of partitioning cloth foundations 20-2 formed to partition the inside. Moreover, all the partition areas formed between the outer frame cloth base 20-1 and the partition cloth foundation 20-2 and between the partition cloth foundations 20-2 are always closed except for the upper end side. It is characterized in that it is formed into a shape. Here, the closed shape does not mean that it is spatially closed, but means a shape that has no break such as a polygon such as a quadrangle. In other words, the outer frame cloth base 20-1 and the partition cloth base 20-2 are always continuous without any break. In addition, the fabric base 20 is characterized in that it is formed separately from the solid base 10 via a separating partition member 21 such as a polyethylene vinyl sheet. The reason for this will be described later.

The solid foundation 10 is a cloth foundation 20 for an outer frame.
It is formed with an area protruding about tens of cm outward from -1. As will be described later, this is because if the house is inclined due to uneven settlement, the outer frame cloth foundation 20-1 is used.
This is because a correction tool such as a hydraulic jack is arranged by utilizing a portion of the solid foundation 10 protruding outward from the outside.
Further, ventilation holes 22 are formed in the outer frame fabric base 20-1 and the partition fabric base 20-2. In addition, the outer frame cloth foundation 20-1 or the division cloth foundation 20-2 and the solid foundation 10
In some cases, a through hole may be formed at the boundary between the two. In FIG.
Both the outer frame cloth base 20-1 and the section cloth base 20-2,
It is made of the same width, but the part facing the solid foundation 10,
That is, it is preferable that the lower end portion is slightly widened like a flange. Further, since the solid foundation 10 and the cloth foundation 20 are separated via the separating partition member 21, the entire house above the cloth foundation 20 is displaced from the solid foundation 10 due to strong wind or other causes. Although it is conceivable that the whole house is quite heavy, there is little possibility of misalignment. However, in order to ensure thoroughness, for example, four corners of the outer frame fabric base 20-1 or a necessary portion between them is provided with a flange-like inwardly projecting portion, and an anchor bolt is provided at the overhanging portion. You may make it fix to the solid foundation 10 by the structure separable by means like a nut.

The above-described basic structure is manufactured as follows. First, as described with reference to FIG. 8, the layer 15 made of crushed stone is formed and hardened. The area of the layer 15 is slightly larger than the area of the building floor. On top of that, the sand for filling is hardened by filling with sand for joints, and then the disposal concrete layer 16 is formed. Subsequently, the concrete solid foundation 10 is formed on the waste concrete layer 16. Note that the layer 15 lowers the outer region slightly downward, and accordingly, the outer region of the solid foundation 10 is made thicker. After the solid foundation 10 is hardened, a frame-shaped concrete cloth foundation 20 is formed on the solid foundation 10 with a separating partition member 21 interposed at least in a portion corresponding to a partition on the first floor portion. When forming the fabric base 20, a mold for that purpose is made as follows. That is, the cloth base 20 is the outermost cloth base 2 for the outer frame.
0-1 and a plurality of partition fabric bases 20-2 formed to partition the inside thereof. Moreover,
All the partition areas formed between the outer frame cloth base 20-1 and the partition cloth foundation 20-2 and between the partition cloth foundations 20-2 always have a closed shape except for the upper end side. Thus, a mold is formed. As a result, the outer frame fabric base 20-1 and the partition fabric base 20-2 are formed so as to be connected without any break.

The solid foundation 10 has an upper surface on the ground G
It is formed so as to be lower than L, and backfilling with soil is performed after the fabric base 20 is formed. Cloth foundation 20-1 for outer frame
It is preferable that a mortar layer 17 is further formed on the backfill inside. This is because the mortar layer 17 is
This is because rainwater or the like is prevented from collecting on the inside of the outer frame fabric base 20-1 by being higher than L, but it may be realized by a vinyl sheet or a waste concrete layer, or may be omitted. Is also good. Such solid foundation work according to the present invention is hereinafter referred to as special solid foundation work.

In FIG. 4, a horizontal reinforcing bar 24a and a vertical reinforcing bar 24b are incorporated in the outer frame fabric base 20-1 (and the partition fabric base 20-2). In particular, among the reinforcing bars 24a extending in the horizontal direction,
The lowermost and uppermost reinforcing bars 24a used are thicker than the other portions of the reinforcing bars. In addition, for reinforcement around the ventilation hole 22, three thick reinforcing bars 24 c extending partially in the horizontal direction and two V-shaped thick reinforcing bars 24 d combined so as to surround the ventilation hole 22 are provided. Are unionized. Such reinforcement is important when the inclination of the house is corrected as described below.

In the foundation structure according to the special solid foundation work of the present invention, if the house is inclined due to uneven settlement, the following repair work is performed. Ventilation holes 22,
Or the outer frame fabric base 20-1 (or the compartment fabric base 2)
0-2) using a through-hole formed at the boundary between the solid foundation 10 and the cloth foundation 20 with a correction tool such as a hydraulic jack.
And lift the whole house on it. At this time, the solid foundation 10 protruding outward from the outer frame cloth foundation 20-1 is used as the installation location of the correction tool. Then, the correction work is completed only by inserting an inclusion for eliminating the inclination between the lifted outer frame fabric base 20-1 and the solid base 10. Since there is no need to consider the solid foundation 10 in such a repair work, there is an advantage that the cost can be reduced compared with the case where the repair work is performed on the foundation structure by the conventional solid foundation work described above. In addition, the cloth foundation 20-
The reason for forming the partition foundation 1 and the partition cloth foundation 20-2 so as to be always continuous without any break is that when the cloth foundation 20 is lifted in the above-mentioned repair work, the outer frame cloth foundation 20 is formed.
If there is a break in the -1 or the cloth foundation 20-2,
This is because there is a possibility that breakage may occur in a portion close to that. The reason that the reinforcement around the through hole described above is important is that it is necessary to support the weight of the whole house when the whole house is lifted by the correction tool.

With reference to FIG. 5, the applicable range of the foundation structure by the special solid foundation work of the present invention will be described. For convenience, it is assumed here that the house load is 1 (t / m ² ).
In addition, it is assumed that the ground strength is measured by a surface wave ground surveying machine according to the above-mentioned Japanese Patent No. 1604756. When the ground strength is less than 1 (t / m ² ), a number of concrete pillars are driven into the ground to perform reinforcement work for strengthening the ground. When the bearing capacity is in the range of 1 to 2 (t / m ² ), the special solid foundation work according to the present invention is performed. According to statistics, the range of the ground bearing capacity is 1 to 2 (t / m ² ), which is about half of the 30% required for the reinforcement work described in FIG. 6, that is, the ratio to the total number of foundation works. Speaking of which, it has been confirmed that it accounts for about 15%. In addition, the ground strength is 2-3.
In the range of 5 (t / m ² ), as described with reference to FIG. 6, the conventional solid foundation work in which a solid foundation is formed over the entire floor area of a house and a cloth foundation is integrally formed on the solid foundation is performed. Done. When the ground bearing capacity is in the range of 3.5 to 5 (t / m ² ), widening fabric foundation work is performed and the ground strength is 5 (t / m ² ).
If it exceeds ² ), standard cloth foundation work will be performed. In addition, the range where the ground bearing strength is 1-2 (t / m ² ) is the case where the house load is 1 (t / m ² ), and the present invention should be applied according to the change of the house load. It goes without saying that the range of earth bearing capacity also changes.

The reason why the applicable range of the special solid foundation work according to the present invention is limited as described above will be described. Although the special solid foundation work according to the present invention is much cheaper than the ground reinforcement work, the cost increases as compared with the conventional solid foundation work because the amount of concrete poured in increases. Here, if the ground bearing capacity is 1-2 (t / m ² )
Suppose that the foundation structure by the conventional solid foundation work was applied to the ground of the range. In this case, there is no problem if the house does not tilt due to uneven settlement. However, once the house is tilted, the repair work requires a great deal of money as described above. On the other hand, if the foundation structure by the special solid foundation construction of the present invention is applied, even if the house is tilted due to uneven settlement, the repair work cost is cheaper than that of the conventional solid foundation work. I'm done.

To summarize the advantages of the present invention, the conventional method requires a large amount of costly reinforcement work.
Even if the ground is in the range of ² to 2 (t / m ² ), it is possible to greatly reduce the foundation work cost by applying the foundation structure by the special solid foundation work of the present invention. There is no problem if the differential settlement does not occur after the construction, and even if the housing is tilted due to the differential settlement, the repair work cost is low. In other words, by expanding the applicable range of the foundation structure based on the combination of the solid foundation and the cloth foundation with respect to the earth bearing capacity (15% in terms of the ratio of the total number of foundation works), a large amount of cost for the reinforcement work is reduced. The point is that it can be reduced.

[0023]

As described above, according to the foundation structure according to the special solid foundation construction of the present invention, it can be applied to the ground where conventionally expensive reinforcement work was required. Significant reduction in foundation work costs can be achieved. And, even if the house tilts due to uneven settlement after construction, there is an advantage that the repair work cost can be reduced.

[Brief description of the drawings]

FIG. 1 is a plan view showing a foundation structure by special solid foundation work of the present invention.

FIG. 2 is a sectional view partially showing a foundation structure by special solid foundation work of the present invention.

FIG. 3 is a sectional view illustrating a ventilation hole formed in a cloth foundation in the foundation structure according to the present invention.

FIG. 4 is a view for explaining reinforcement applied around a ventilation hole shown in FIG. 3;

FIG. 5 is a diagram for explaining the applicable range of the foundation structure by the special solid foundation work of the present invention with respect to ground bearing strength.

FIG. 6 is a diagram for explaining an application range of a plurality of types of conventional foundation works with respect to ground bearing strength.

FIG. 7 is a plan view showing a foundation structure by a conventional solid foundation work.

FIG. 8 is a sectional view partially showing a foundation structure by a conventional solid foundation work.

FIG. 9 is a view for explaining reinforcement around a ventilation hole formed in a cloth foundation in a conventional foundation structure.

FIG. 10 is a view for explaining reinforcement of a corner portion in a cloth foundation in a conventional foundation structure.

[Explanation of symbols]

10, 30 Solid foundation 20, 40 Cloth foundation 20-1 Cloth foundation for outer frame 20-2 Cloth foundation 21 for partitioning Separation member 22, 42 Ventilation holes 24a to 24d, 31a, 31b, 41a to 41d
Rebar

Claims (4)

[Claims] 1. A concrete base structure provided when building a single-family house, comprising: a concrete solid base provided on the entire floor space of the house; and at least a partition on a first floor portion provided on the solid base. And a frame-like concrete fabric base provided at a location corresponding to the outermost fabric base, and the plurality of partition fabric foundations formed so as to partition the outermost outer frame fabric base and the inside thereof. So that a plurality of division areas formed between the outer frame cloth base and the division cloth foundation and between the division cloth foundations have a closed shape except for the upper end side. The foundation structure for a detached house, wherein the foundation is formed separately from the solid foundation. 2. The foundation structure for a detached house according to claim 1, wherein the solid foundation is formed to have an area projecting about tens of cm outward from the outer frame cloth foundation. Foundation structure for detached houses. 3. The foundation structure for a detached house according to claim 2, wherein at least one of the outer frame cloth foundation itself and the partition cloth foundation itself or a boundary between the cloth foundation and the solid foundation is provided. A foundation structure for a detached house, characterized by having a shape formed. 4. A method for manufacturing a concrete foundation provided when building a single-family house, comprising: forming a concrete solid foundation on the entire building floor of the house; and curing the solid foundation, and at least partitioning the first floor portion. In a portion corresponding to the above, a separating partition member is interposed to form a frame-shaped concrete cloth foundation on the solid foundation, and the cloth foundation is an outermost outer frame cloth foundation and its outermost. A plurality of partition fabric bases formed to partition the inside, and a plurality of partition fabric bases formed between the outer frame fabric base and the partition fabric base and between the partition fabric bases. A method for manufacturing a foundation for a detached house, wherein the partitioned area is formed so as to have a closed shape except for an upper end side.