JP2018155051A - Foundation structure and its construction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a foundation structure in which a lightweight material is used as a countermeasure as a heavy weight of back-filling soil on a base part of a foundation, dissipation of the lightweight material by water immersion or the like is suppressed, and settling of floor concrete can be suppressed even when an insect damage of the lightweight material is generated by termites, and to provide its construction method.SOLUTION: In a foundation structure, four peripheries are surrounded by foundations 1, 2, 3 and 4, a base part 21 of a second foundation 2 positioned so as to face a first base part 11 of a first foundation 1 is provided at a deeper position than the first base part in the ground and a floor concrete 5 is installed in a portion surrounded by the above foundations 1, 2, 3 and 4, a lightweight material 6 lighter than soil is provided on an overhanging portion 21a overhanging to the side of the floor concrete 5 side of the base part 21 of the second foundation 2, and a concrete bundle material 7 supporting the floor concrete 5 is provided thereon.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a foundation structure and a method for constructing the foundation in which countermeasures against an increase in the weight of backfill soil on a base portion of the foundation are made.

Conventionally, there has been a problem that the weight of the backfill soil on the base portion of the foundation which is a deep foundation becomes heavy. For example, in the case of 30 kN / m ² where the ground strength is small on the direct foundation, The width of the part needs to be very large. Therefore, as a countermeasure, for example, it is conceivable to install a lightweight material such as foamed plastic instead of the back soil.

  Patent Documents 1 and 2 disclose a technique using foamed plastic as a basis.

JP-A-5-112950 JP 2000-120077 A

  However, the techniques disclosed in Patent Document 1 and Patent Document 2 use foamed plastic as a part of a mold for producing the basic upright portion. And this technique does not show any countermeasures against the heavy weight of the backfill soil on the base portion such as the deep foundation.

  In view of the above circumstances, the present invention uses a lightweight material as a countermeasure against an increase in the weight of the backfill soil on the base portion of the foundation, suppresses the disappearance of the lightweight material due to water immersion, etc. An object of the present invention is to provide a foundation structure and a construction method thereof capable of suppressing settlement of soil concrete even when the light weight material is damaged.

  In order to solve the above problems, the foundation structure of the present invention is surrounded by a foundation, and the base portion of the second foundation is deeper in the ground than the base portions of the first foundation that are separated from each other as the foundation. It is a foundation structure that is provided at a position and in which soil concrete is placed in a place surrounded by the foundation, on the overhanging portion that projects to the soil concrete side of the base portion of the second foundation, from the soil A light weight material is provided, and a bundle material for supporting the soil concrete is provided.

  If it is said structure, since the lightweight material lighter than soil will be provided on the overhang | projection part overhanging to the said soil concrete side of the base part of the said 2nd foundation, the weight on the said base part will become heavy. Can be suppressed. Moreover, since the said lightweight material will be obstruct | occluded by the said surrounding foundation and soil concrete, it can prevent that the said lightweight material flows out by water immersion or exterior construction. Furthermore, even if the lightweight material is damaged by white ants, the bundle material is present, so that settlement of the soil concrete can be suppressed.

  The bundle material may be made of concrete used for making the soil concrete. According to this, the said bundle material can be produced efficiently at the time of manufacture of the said soil concrete.

  The bundle material may be provided in a through-hole portion or a notch portion formed in the lightweight material. According to this, compared with arranging the lightweight material in a mosaic shape so as to avoid the bundle material, the lightweight material can be arranged quickly. Moreover, if the said bundle material is manufactured with the concrete used for manufacture of soil concrete as mentioned above, the said manufacture will also become easy.

  The lightweight material may be provided on the lower surface side of the soil concrete beyond the overhanging portion. According to this, the heat insulation improvement of a dirt part can be aimed at.

  The soil portion may exist in an upward slope from the overhanging portion to the base portion of the first foundation, and the lightweight material may be provided in accordance with the upward inclination. According to this, it becomes possible to reduce the amount of soil and to reduce the slip of the soil.

  The upward inclination may be formed with a repose angle. According to this, the slip of soil can be reduced more and the foundation can be stabilized.

  A bundling material that supports the soil concrete may also be provided on the overhanging portion that projects to the soil concrete side of the base portion of the first foundation.

  In the foundation structure construction method of the present invention, the periphery is surrounded by the foundation, and the base portion of the second foundation is provided deeper in the ground than the base portions of the first foundation that are separated from each other as the foundation. And a method of constructing a foundation structure in which soil concrete is placed in a place surrounded by the foundation, and at least on the overhanging portion projecting to the soil concrete side of the base portion of the second foundation. A step of providing a lighter lightweight material, a step of placing the soil concrete, and a step of filling the soil concrete in a through hole portion or a notch portion formed in the light material to produce a bundle material, It is characterized by including.

  If it is said method, the said bundle material can be produced simultaneously at the time of manufacture of the said soil concrete. Moreover, since the said lightweight material becomes a preparation type | mold of the said bundle material and it becomes unnecessary to produce a separate type | mold, construction work becomes efficient.

  If it is this invention, while using a lightweight material as a countermeasure against the weight of the backfill soil on the base portion of the foundation becoming heavy, suppressing the disappearance of the lightweight material due to water immersion, etc. Even when corrosion damage occurs, there is an effect that settlement of soil concrete can be suppressed.

It is explanatory drawing which showed the general | schematic cross section of the basic structure concerning embodiment of this invention. It is explanatory drawing which showed the schematic cross section of the AA arrow of FIG. It is explanatory drawing which showed the general | schematic cross section of the basic structure concerning other embodiment of this invention. It is explanatory drawing which showed the general | schematic cross section of the basic structure concerning other embodiment of this invention.

  Embodiments of the present invention will be described below with reference to the accompanying drawings. The foundation structure of this embodiment is a direct foundation for a house, for example, and as shown in FIGS. 1 and 2, a first foundation 1 and a second foundation 2 each having a base portion and a rising portion, respectively. The fourth base 4 is surrounded by the third base 3 and the fourth base 4, and the base portion 21 of the second base 2 is located deeper in the ground than the base portion 11 of the first base 1 that is located facing away from each other. It has a provided structure. Moreover, the said 3rd foundation 3 and the 4th foundation 4 are produced so that it may continue in an orthogonal direction with respect to the 2nd foundation 2 in which the base part 21 exists in the deep position in the said ground.

  A soil concrete 5 is placed in a place surrounded by the foundations 1, 2, 3 and 4. The thickness of the soil concrete 5 is, for example, about 150 mm.

  The overhanging portion 21 a overhanging the base portion 21 of the second foundation 2 toward the soil concrete 5 side has a larger overhanging amount than the overhanging portion 11 a of the base portion 11 of the first foundation 1. And the lightweight material 6 lighter than soil is provided on the said overhang | projection part 21a. The lightweight material 6 is made of, for example, foamed plastic formed in a hexahedron shape having a size of about one tatami mat, and can be stacked in a plurality of stages.

  In addition, a concrete bundle 7 that supports the interstitial concrete 5 is provided on the overhanging portion 21a, and the load of the interstitial concrete 5 is transmitted to the overhanging portion 21a by the concrete bundling material 7. It has become. The concrete bundle material 7 is provided at a location where a cutout portion 6 a formed at a corner of the lightweight material 6 on the rising portion side of the second foundation 2 is formed. The formation pitch of the notches 6a (arrangement pitch of the concrete bundle 7) is, for example, about 910 mm. The size of the cross section of the concrete bundle 7 is set to a size that can withstand the load of the soil concrete 5 even when the lightweight material 6 and soil are lost.

  Next, an embodiment of the method for constructing the foundation structure will be described. In the construction method of this embodiment, the lightweight material 6 is lighter than the soil, instead of returning the soil onto the overhanging portion 21a projecting to the soil concrete 5 side of the base portion 21 of the second foundation 2. Are stacked on the overhanging portion 21a. And the hollow part (the said notch part 6a) from the plan space which forms the said soil concrete 5 to the said overhang | projection part 21a is formed by notching the corner | angular part of the said lightweight material 6. FIG. And while putting the said soil concrete 5 in the space which forms the said soil concrete 5, the said soil concrete 5 is poured into the said cavity (the said notch part 6a), and the concrete bundle material 7 is produced simultaneously.

  With this construction method, the concrete bundle 7 can be produced simultaneously with the production of the soil concrete 5. Moreover, since the said lightweight material 6 becomes a preparation type | mold of the said concrete bundle material 7, and it becomes unnecessary to produce a separate type | mold, construction work becomes efficient. In the foundation structure produced in this way, the concrete bundle 7 is made of the concrete used for producing the soil concrete 5.

  Moreover, if it is said foundation structure, since the said lightweight material 6 lighter than soil is provided on the overhang | projection part 21a overhanging to the said soil concrete 5 side of the base part 21 of the said 2nd foundation 2, a base part It can suppress that the weight on 21 becomes heavy. Further, since the lightweight material 6 is blocked by the four-round foundations 1, 2, 3, 4 and the soil concrete 5, it is possible to prevent the lightweight material 6 from flowing out due to water immersion or exterior construction. Furthermore, even if the lightweight material 6 is damaged by white ants, the concrete bundle material 7 is present, so that the settlement of the soil concrete 5 can be suppressed. Further, if the concrete bundle 7 is not present, the load of the soil concrete 5 may be applied to the lightweight material 6 to cause creep deformation, but the presence of the concrete bundle 7 can also eliminate the possibility of creep deformation. . In addition, the third foundation 3 and the fourth foundation 4 are formed so as to be continuous in the orthogonal direction with respect to the second foundation 2 in which the base portion 21 is present at a deep position in the ground. Can be prevented from falling.

  In the above example, the concrete bundle material 7 is provided at the formation portion of the notch portion 6a formed at the corner of the light weight material 6 on the rising portion side of the second foundation 2, but not limited thereto. The concrete bundle 7 may be provided in a through hole formed in the lightweight material 6 at a position away from the rising portion of the second foundation 2.

  FIG. 3 shows another embodiment of the foundation structure. In the foundation structure of this embodiment, on the lower surface side of the soil concrete 5, the lightness under the soil exceeds the edge of the overhanging portion 21 a projecting to the soil concrete 5 side of the base portion 21 of the second foundation 2. A material 6A is provided. In this example, the light material 6 </ b> A under the soil reaches the overhanging portion 11 a that projects from the base portion 11 of the first foundation 1 to the soil concrete 5 side. Moreover, the concrete bundle material 8 which supports the said soil concrete 5 is provided on the said overhang | projection part 11a. The concrete bundle 8 may be formed of the concrete for producing the soil concrete 5 as with the concrete bundle 7.

  If the light material 6A under the soil is provided on the lower surface side of the soil concrete 5 beyond the overhanging portion 21a, the heat insulation of the foundation can be improved. In addition, you may make it use the thing which was excellent in heat insulation compared with the said lightweight material 6 for the said under-soil lightweight material 6A. Further, if the concrete bundle 8 is provided on the overhanging portion 11a, the risk of creep deformation of the light material 6A under the soil on the overhanging portion 11a side can be eliminated. In addition, it can also be set as the form which does not provide the said concrete bundle material 8. FIG.

  FIG. 4 shows another embodiment of the foundation structure. In the foundation structure of this embodiment, the base portion 21 of the second foundation 2 is stretched from the overhanging portion 21a projecting to the soil concrete 5 side to the soil concrete 5 side of the base portion 11 of the first foundation 1. The soil portion 9 exists in an upward slope over the protruding portion 11a to be extended, and the lightweight material 6 is provided in accordance with the upward inclination. In other words, the size of the lightweight material 6 at each stage is larger on the upper side than the lower side, and the protruding material 11 side of the lightweight material 6 to be stacked is aligned along the upward inclination angle θ. The lower corner is located. Since the soil portion 9 exists in an upward slope as described above, it is possible to reduce the amount of soil and reduce the slip of the soil portion 9.

  The upward inclination angle θ may be a repose angle. According to this, the slip of soil can be reduced more and the foundation can be stabilized.

  In the above example, when placing the interstitial concrete 5, it was shown that the interstitial concrete 5 was filled in the hollow portion (the notch portion 6 a) to simultaneously produce the concrete bundle 7. Not limited to this. For example, the soil concrete 5 may be placed in a state in which a columnar concrete bundle formed by solidifying concrete is inserted into the hollow portion. In this case, in order to bond the interstitial concrete 5 and the columnar concrete bundle to each other, a protruding portion such as a reinforcing bar may be provided on the top of the columnar concrete bundle. In addition, two or more concrete bundles 7 may be provided in the projecting direction on the projecting portion 21 a projecting to the soil concrete 5 side of the base portion 21 of the second foundation 2. Moreover, you may give the ant prevention process of impregnating the chemical | medical agent which suppresses the damage of a white ant on the said lightweight material 6 and the said light material 6A under a soil. Moreover, not only the said concrete bundle 7 but bundles, such as steel, can be used.

  As mentioned above, although embodiment of this invention was described with reference to drawings, this invention is not limited to the thing of embodiment shown in figure. Various modifications and variations can be made to the illustrated embodiment within the same range or equivalent range as the present invention.

1: 1st foundation 2: 2nd foundation 3: 3rd foundation 4: 4th foundation 5: Crevice concrete 6: Light weight material 6A: Light weight material 6a under soil: Notch part 7: Concrete bundle material 8: Concrete bundle material 9 : Soil part 11: Base part 11a: Overhang part 21: Base part 21a: Overhang part

Claims (8)

  The base is surrounded by a foundation, and the base portion of the second foundation is provided deeper in the ground than the base portions of the first foundation that are separated from each other as the foundation. Is a foundation structure in which a lightweight material that is lighter than soil is provided on the overhanging portion of the base portion of the second foundation that protrudes toward the soil-concrete side, and supports the soil-concrete Basic structure characterized by comprising.   2. The foundation structure according to claim 1, wherein the bundle is made of concrete used for producing the soil concrete.   The foundation structure according to claim 1 or 2, wherein the bundle member is provided in a through hole portion or a notch portion formed in the lightweight material.   The foundation structure according to any one of claims 1 to 3, wherein the lightweight material is provided on a lower surface side of the soil concrete beyond the overhanging portion.   The foundation structure according to any one of claims 1 to 4, wherein a soil portion is present in an upward slope from the overhanging portion to the base portion of the first foundation, and the earth portion is in accordance with the upward inclination. A basic structure characterized by light weight materials.   6. The foundation structure according to claim 5, wherein the upward inclination is formed at an angle of repose.   7. The foundation structure according to claim 1, wherein a bundling material that supports the soil concrete is provided also in an overhanging portion that projects to the soil concrete side of the base portion of the first foundation. Basic structure characterized by being made. The base is surrounded by a foundation, and the base portion of the second foundation is provided deeper in the ground than the base portions of the first foundation that are separated from each other as the foundation. Is a method of constructing the foundation structure in which
At least a step of providing a lightweight material lighter than the soil on the overhanging portion of the base portion of the second foundation that protrudes toward the soil-concrete side, and placing the soil-concrete and forming the lightweight material. And a step of filling the through-hole part or the notch part with the soil concrete to produce a bundle.

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