JP5179344B2 - Building basic structure and building foundation - Google Patents

Description

  The present invention relates to a building foundation structure and a building foundation method excellent in ant-proofing properties.

  Conventionally, high airtightness and high thermal insulation have been widely used as housing specifications, and buildings are often insulated. There are two methods of heat insulation for such buildings: the outer heat insulation method and the inner heat insulation method, but they are less likely to cause heat insulation, are easy to construct, and are durable for the structural frame of the building located on the indoor side of the heat insulating material. The outer heat insulation method is advantageous in that the property can be improved.

  By the way, when such an external heat insulating structure is used, termites from the soil penetrate into the heat insulating material attached to the outer surface of the foundation, crawl up the basic outer surface by forming an ant path while breaking through the heat insulating material, It will invade even in the frame structure such as foundations and pillars provided above. In that case, the discovery of termite damage is significantly delayed, and when it is noticed, there is a problem that the damage is tremendous.

  Accordingly, in order to prevent termites from entering the heat insulating material in the outer heat insulating structure, an invention is provided in which the ant-proof sheet is attached to cover the outer surface of the heat-insulating material, and the lower edge of the ant-proof sheet is adhered to the cloth foundation (Refer to Patent Document 1) and a member having an ant-proofing performance are provided over the entire thickness direction of the ground portion of the foamed plastic heat insulating material provided on the outer periphery of the foundation and provided in contact with the upper surface or the outer peripheral surface of the foundation. An invention (see Patent Document 2) has been proposed. Moreover, in this patent document 2, the point which covers the outer side of a heat insulating material with a concrete block as a member which has this ant-proof performance is also proposed.

JP-A-11-350502 JP2000-17747

  However, when the ant-proof sheet is attached along the outdoor side surface of the heat insulating material as described above, the work process is likely to be complicated, and the ant-proof performance is likely to vary depending on the operator. Furthermore, since a special ant protection sheet is used, high cost is required. Also, when covering the outdoor side of the insulation with a concrete block, the concrete is first placed, the foundation is formed and cured, and after the insulation is applied, the concrete is further placed to form the concrete block. In addition, it takes extra time for curing the concrete, and the work cost increases. Furthermore, since a joint occurs between the foundation and the concrete block, there is a possibility that termites may invade between the joints.

  Then, an object of this invention is to provide the foundation structure of a building and the foundation construction method of a building which can prevent effectively a termite invading a heat insulating material, and also a construction process is easy.

In order to achieve the above object, the foundation structure of the building according to claim 1 has a foundation slab whose upper surface is formed to be higher than the ground by a predetermined amount, and an upper surface on the outdoor side of the foundation slab is the same height as the foundation slab. Between the overhanging part installed in the base, a heat insulating material in the foundation is arranged,
While providing an outer peripheral rising part on the outer peripheral edge of the foundation slab, and a foundation structure of a building provided with an insulating material for the rising part fixed to the outer peripheral side surface of the outer peripheral rising part on the intermediate heat insulating material, The space that forms the foundation slab and the overhanging portion is in communication below the heat insulating material in the foundation, and the foundation slab and the overhanging portion are integrally formed by placing and curing concrete integrally. It is characterized by that.

  In the foundation structure of the building according to claim 2, a heat insulating material in the foundation is disposed between the foundation slab and an overhanging portion whose upper surface is installed at the same height as the foundation slab on the outdoor side of the foundation slab. The space that forms the foundation slab and the overhanging portion is communicated below the heat insulating material in the foundation, and the foundation is formed by curing the concrete integrally. The slab and the overhanging portion are integrally formed.

The foundation structure of a building according to claim 3 is characterized in that the upper end of the heat insulator in the foundation is arranged higher than the upper surfaces of the foundation slab and the overhanging portion.

The basic structure of a building according to claim 4 is characterized in that a slope portion that descends toward the outdoor side is formed on the upper surface of the overhang portion.

The building foundation structure according to claim 5, wherein the foundation heat insulating material is supported by being floated at a predetermined interval by a separator fixed to an outer formwork provided on the outdoor side of the overhanging portion. It is characterized by being fixed by placing and curing concrete on the slab and the overhanging portion.

The basic structure of the building according to claim 6 is characterized in that a reinforcing bar is embedded in the projecting portion.

  The basic structure of the building according to claim 7 is characterized in that a concrete structure projecting toward the outdoor side is integrally formed at an upper end portion of the overhanging portion.

  The foundation structure of the building according to claim 8 is characterized in that a reinforcing bar is embedded in the concrete structure.

  In the building foundation method according to claim 9, the outer mold is installed at a predetermined outer peripheral position forming the foundation, and then the separator whose one end is supported by the outer mold so that the other end faces the indoor side. A plurality of bases are installed along the outer formwork, and then a base heat insulating material arranged at a predetermined interval in the indoor direction from the outer formwork and having a lower end floated is attached to the other end of the separator, and thereafter In addition, by placing and curing the concrete in a state where the indoor side of the base heat insulating material and the outdoor side of the base heat insulating material are communicated below the base heat insulating material, the indoor side of the base heat insulating material A base slab formed on the base slab and an overhang formed between the base heat insulating material and the outer mold, and then a predetermined distance from the outer periphery on the base slab. Opened and provided with a formwork for indoor rising In addition, a mold for the outdoor side rising part is provided on the overhanging part, and a heat insulating material for the rising part is installed on the heat insulating material in the foundation and fixed to the mold for the outdoor side rising part. It is characterized in that an outer peripheral rising part is formed by performing curing treatment.

  In the building foundation method according to claim 10, the outer mold is installed at a predetermined outer peripheral position forming the foundation, and then the separator whose one end is supported by the outer mold is directed toward the indoor side at the other end. A plurality of bases are installed along the outer formwork, and then a base heat insulating material arranged at a predetermined interval in the indoor direction from the outer formwork and having a lower end floated is attached to the other end of the separator, and thereafter In addition, by placing and curing the concrete in a state where the indoor side of the base heat insulating material and the outdoor side of the base heat insulating material are communicated below the base heat insulating material, the indoor side of the base heat insulating material The base slab formed on the base and the overhang formed between the intermediate heat insulating material and the outer mold are integrally formed.

The building foundation construction method according to claim 11 is characterized in that an upper end of the heat insulating material in the foundation is installed slightly higher than the outer formwork.

The foundation construction method for a building according to claim 12, wherein the outer formwork is installed so that an upper end of the outer formwork is a predetermined height lower than a position at which the upper end is the upper surface of the foundation slab, and then the outdoor side of the outer formwork The base slab, the overhanging portion, and the concrete structure projecting toward the outdoor side at the upper end portion of the overhanging portion. It is characterized by being placed.

  The building foundation construction method according to claim 13, wherein the foundation heat insulating material is attached to the other end of the separator, and the concrete is placed to form the foundation slab and the overhang portion. Before, a wire is fixed to one end of the separator, and the other end is fixed to abandoned concrete formed under the foundation.

  According to the basic structure of the building according to claim 1, an overhang portion formed by placing and curing concrete is provided on the outdoor side of the heat insulating material in the foundation, and termites cannot pass through the concrete. , Can exhibit excellent ant-proofing properties. Furthermore, the space that forms the foundation slab and the overhanging portion communicates with the bottom of the heat insulating material in the foundation, and the foundation slab and the overhanging portion are integrally formed by placing and curing concrete integrally. Therefore, no splicing occurs between the foundation slab and the overhanging portion, and there is no gap through which termites can pass, so that it is possible to more reliably suppress the termites from reaching the heat insulating material. Moreover, since the basic slab and the overhanging portion can be formed simultaneously by a single driving operation, the workability is excellent and the curing time can be shortened.

  According to the foundation structure of the building according to claim 2, as in the case of claim 1, the foundation slab and the overhanging portion communicating below the heat insulating material in the foundation are provided. Since no splicing occurs between them and there is no gap through which termites can pass, it is possible to more reliably prevent termites from reaching the heat insulating material. Moreover, since the basic slab and the overhanging portion can be formed simultaneously by a single driving operation, the workability is excellent and the curing time can be shortened. And this structure is applicable also to the foundation structure which does not provide an outer peripheral rising part on a foundation slab.

According to the foundation structure of the building according to claim 3, since the upper end of the heat insulating material in the foundation is arranged higher than the upper surfaces of the foundation slab and the overhanging portion, when the outer peripheral rising portion is provided, the rising portion is at an appropriate position. A formwork can be installed. Also, when concrete is placed, the concrete placed on the foundation slab and the overhanging part overflows and the concrete can be prevented from adhering to the upper end of the foundation insulation. The heat insulating material for the rising portion can be installed without any gap, and the heat insulation can be further improved.

According to the foundation structure of the building according to claim 4, it is possible to prevent rainwater from entering the indoor side from the overhanging portion by providing a slope that descends toward the outdoor side on the upper surface of the overhanging portion. it can.

According to the basic structure of the building according to claim 5, by using a separator fixed to the outer mold, the heat insulating material in the foundation can be floated and supported at a predetermined distance from the outer mold, Thereby, a foundation slab and an overhang | projection part can be formed integrally.

According to the basic structure of the building according to claim 6, since the reinforcing bar is embedded in the overhanging portion, not only the foundation slab but also the durability of the overhanging portion can be enhanced, and there is an effect of suppressing the occurrence of cracks. Therefore, the appearance can be prevented from deteriorating due to aging, and termite intrusion can be more effectively prevented.

  According to the building foundation structure according to claim 7, since the concrete structure projecting toward the outdoor side from the upper end portion of the overhanging portion is integrally formed, other adjacent structures are formed around the building foundation structure. The construction time can be shortened compared to the case where each body is placed and cured, and there is no splicing between the overhanging part and the concrete structure, and there is a gap through which termites can pass. Since there is no, it can suppress that a termite reaches a heat insulating material more reliably. In addition, although the dog running part and entrance porch of a building can be illustrated as a concrete structure here, it is not limited to this, Various concrete structures formed in the foundation side of a building on the outdoor side Can be applied to.

  According to the foundation structure of the building according to claim 8, since the reinforcing bars are embedded in the concrete structure, the durability of the concrete structure can be enhanced and the effect of suppressing the occurrence of cracks can be obtained. Can be prevented, and termite intrusion can be more effectively prevented.

  According to the building foundation method of claim 9, the separator whose one end is supported by the outer mold is installed so that the other end faces the indoor side, and the other end of the separator is directed from the outer mold to the indoor direction. The base medium heat insulating material is arranged so that the lower end is floated at a predetermined interval, and the indoor side of the basic heat insulating material and the outdoor side of the basic medium heat insulating material are communicated below the basic medium heat insulating material. The concrete slab is placed and cured so that the foundation slab and the overhang can be formed by a single placement operation, shortening the work time and curing time for the formwork installation work and concrete placement work, etc. can do. And since the foundation slab and the overhanging portion are integrally formed, there is no possibility of jointing concrete, and there is no possibility that termites pass through the joint gap, and termites reach the plate-shaped ant protection material. Can be surely prevented.

  According to the building foundation method of claim 10, the separator whose one end is supported by the outer mold is installed so that the other end faces the indoor side, and the other end of the separator is directed from the outer mold to the indoor direction. The base medium heat insulating material is arranged so that the lower end is floated at a predetermined interval, and the indoor side of the basic heat insulating material and the outdoor side of the basic medium heat insulating material are communicated below the basic medium heat insulating material. Since the concrete is placed and cured, the foundation slab and the overhanging part can be formed by a single placement operation even in the foundation construction method of the building that does not have the outer peripheral rising part. It is possible to shorten the working time and curing time of the placing work. And since the foundation slab and the overhanging portion are integrally formed, there is no possibility of jointing concrete, and there is no possibility that termites pass through the joint gap, and termites reach the plate-shaped ant protection material. Can be surely prevented.

According to the foundation construction method for a building according to claim 11, since the upper end of the heat insulating material in the foundation is installed slightly higher than the outer formwork, when the concrete is cast and the foundation slab and the overhanging portion are formed, The upper end of the heat insulating material in the foundation protrudes slightly from the foundation slab and the overhanging portion. Therefore, since the upper end of the heat insulating material in the foundation serves as a guide, it is easy to install the outdoor side rising part formwork in an appropriate position, and it is easy to install the heat insulating material for the rising part on the middle heat insulating material. It can be constructed more easily. And since the upper end of the heat insulating material in the foundation dams up the concrete nose generated when the outer peripheral rising portion is placed, it is possible to prevent the concrete noro from leaking from the lower end of the outer peripheral rising portion to the outdoor side.

According to the foundation construction method for a building according to claim 12, the concrete structure, the foundation slab, and the overhanging portion are integrally placed, so that the concrete slab and the overhanging portion, and the foundation slab There is no joint between the concrete and the overhanging portion, and there is no gap through which termites can pass. Therefore, it is possible to more reliably prevent the termites from reaching the heat insulating material. In addition, since a concrete structure such as a dog run or an entrance porch can be formed at the same time as the foundation slab and the overhanging portion in one driving operation, the workability is excellent and the curing time can be shortened.

  According to the foundation construction method for a building according to claim 13, since a wire is installed in which one end is fixed to the separator and the other end is discarded and fixed to the concrete, particularly in the case of a deep foundation, Even when a large buoyancy is applied when placing the foundation slab and the concrete of the overhang portion, the concrete can be placed without raising the heat insulating material in the foundation.

  Hereinafter, a first embodiment of a foundation structure 1 and a foundation method of a building according to the present invention will be described with reference to FIGS. 1 to 13. As shown in FIG. 1, the foundation slab 2 in the present embodiment is formed with a foundation slab 2 such that the upper surface thereof is higher than the ground GL by a predetermined degree, and the upper surface of the foundation slab 2 is on the outdoor side of the foundation slab 2. An overhanging portion 3 is formed at the same height as 2, and an intermediate heat insulating material 4 is installed between the basic slab 2 and the overhanging portion 3. Specifically, the heights of the upper surfaces of the foundation slab 2 and the overhang portion 3 are specifically preferably, for example, 5 cm or more from the ground GL, and more preferably 10 cm or more. Termites move by creating ant roads in the ground or in gaps in building materials that are not exposed to the outside due to their habits, and are made of concrete without gaps to a height of at least about 5 cm, more preferably about 10 cm from the ground. By covering, it is possible to prevent termites from forming an ant path that reaches the foundation heat insulating material 4, and it is possible to prevent termites from reaching the base heat insulating material 4.

  It is preferable that the overhang | projection part 3 is 5 cm or more in width from a viewpoint of ant-proof performance and durability, and in order to support the base heat insulating material 4 easily in the case of construction, it is 15 cm or less in width. preferable. Moreover, although the overhang | projection part 3 can also be made into a non-rebar, it is preferable to arrange a wire mesh with a diameter of 4 mm or more, or a deformed reinforcing bar with a diameter of 10 mm or more, for example in order to improve durability.

  The base heat insulating material 4 is made of, for example, a synthetic resin foam, and the lower end of the base heat insulating material 4 is provided above the discarded concrete 6 on which the base slab 2 and the overhanging portion 3 are installed with a distance of 10 to 15 cm. The slab 2 and the overhanging portion 3 communicate with each other between the heat insulating material 4 in the foundation and the discarded concrete 6, and are formed by placing concrete integrally. Therefore, the inside heat insulating material 4 of the foundation is covered with concrete on the indoor side surface, the outdoor side surface and the lower end surface, and the foundation slab 2 and the overhanging portion 3 formed of the concrete are integrally formed without jointing. As a result, there is no path through which termites can reach the heat insulating material 4 in the foundation.

  Further, the middle heat insulating material 4 is formed so that the upper ends thereof are flush with the upper surfaces of the basic slab 2 and the overhanging portion 3 or slightly above the upper surfaces of the basic slab 2 and the overhanging portion 3. Thereby, when the foundation slab 2 and the overhang | projection part 3 are driven, it is comprised so that the upper end of the heat insulating material 4 in a foundation may be exposed outside. Therefore, the heat insulating material 7 for the rising portion can be installed on the intermediate heat insulating material 4 without opening a gap, and the heat insulating property can be improved. In addition, it is especially preferable that the upper surface of the base heat insulating material 4 is formed slightly above the upper surfaces of the basic slab 2 and the overhang portion 3. In this case, when the foundation slab 2 and the overhanging portion 3 are placed, the concrete can be prevented from adhering to the upper surface of the foundation heat insulating material 4, and the rising portion heat insulation can be more reliably formed on the foundation middle heat insulating material 4. The material 7 can be installed without a gap. In addition, the upper surface of the intermediate heat insulating material 4 is formed slightly above the upper surfaces of the basic slab 2 and the overhanging portion 3 in this way, and when the outer peripheral rising portion 8 is placed, the concrete nose is dammed up. It is possible to prevent the concrete blade from leaking to the outdoor side at the lower end of the outer peripheral rising portion 8. Before placing the foundation slab 2 and the overhang portion 3, it is more preferable to cover the upper surface of the foundation heat insulating material 4 with a curing tape in order to prevent adhesion of concrete.

  The outer peripheral rising portion 8 is installed by placing concrete on the upper surface along the outer peripheral edge of the foundation slab 2. And, on the outdoor side of the outer peripheral rising portion 8, for example, a plate-like heat insulating material 7 for a rising portion made of a synthetic resin foam is mounted on the upper end of the base middle heat insulating material 4 without a gap. Yes. For example, rainwater or the like is prevented from entering the inside of the heat insulating materials 4 and 7 on the outdoor side surface of the heat insulating material 7 for the rising portion and the outdoor side surface of the portion exposed to the outside of the upper end of the heat insulating material 4 in the foundation. Mortar 10 is applied as a finishing material for preventing deterioration of the surface layer due to solar radiation of heat insulating materials 4 and 7 formed of a synthetic resin foam. In order to prevent the mortar 10 from cracking and further prevent rainwater and the like from entering the heat insulating materials 4 and 7, a reinforcing material such as an alkali-resistant glass fiber net is provided in the mortar 10. More preferably, it is buried.

  It is preferable that the slope part 11 which is the upper surface of the overhang | projection part 3 and inclines below toward the outdoor side from the indoor side is formed in the outdoor side of the mortar 10 with concrete or mortar. By configuring in this way, for example, rainwater or the like flowing down from the outer wall (not shown) through the mortar 10 is discharged to the outdoor side due to the inclination formed on the upper surface of the gradient portion 11, and installed on the indoor side. Intrusion into the heat insulating materials 4 and 7 can be more effectively prevented.

  As shown in FIG. 2, a reinforcing bar 12 is laid in the foundation slab 2 and the outer peripheral rising portion 8 at a position where an appropriate cover thickness can be secured to reinforce the concrete. For example, as shown in FIG. 3, if an appropriate cover thickness can be ensured, the reinforcing bar is also provided at the communication portion 13 between the overhang portion 3 and the overhang portion 3 below the foundation heat insulating material 4 and the foundation slab 2. 12 is more preferable. Reinforcing the overhanging portion 3 and the communication portion 13 installed on the outdoor side of the middle heat insulating material 4 prevents cracks and more reliably suppresses the entry of termites.

  Although the foundation construction method of the building for constructing the foundation structure 1 of the building constructed as described above is not shown in the drawing, for example, after reinforcing the ground such as pile driving or ground improvement, as shown in FIG. The position where the foundation structure is to be installed is dug down to a predetermined depth, the cut stone 14 is installed, and the discarded concrete 6 is cast. And while installing the outer formwork 5 in the position used as the outer periphery of the foundation structure 1 of a building, the reinforcing bar 12 is arranged in a predetermined position.

  Next, as shown in FIG. 5, the intermediate position of the outer mold 5 is penetrated by a separator 15 such as a round separator, and one end side of the separator 15 is sandwiched between the upper and lower single tubes 16 from the outdoor side. 17 and fixed with a plastic cone 18 from the indoor side. Thus, the separator 15 is supported by the outer mold 5 with the other end side facing the indoor side. And in the state which penetrated the intermediate part of the base heat insulating material 4 by the other end side of the separator 15, it clamps and fixes with the wide cone 19 for heat insulating materials from the both sides of the basic heat insulating material 4. FIG. At this time, the lower end of the foundation heat insulating material 4 is held in a state opened about 10 to 15 cm upward from the discarded concrete, and held in a state opened about 5 to 15 cm indoors from the outer mold 5.

  And as shown in FIG. 6, concrete is cast and the foundation slab 2 and the overhang | projection part 3 are integrally formed. That is, when concrete is poured into the indoor side of the foundation heat insulating material 4, the base heat insulating material 4 is supported by the separator 15 and floats upward by about 10 to 15 cm. Thus, the concrete flows into the outdoor side of the heat insulating material 4 in the foundation, so that the foundation slab 2 and the overhang portion 3 can be integrally formed. At this time, the upper end of the foundation heat insulating material 4 is disposed slightly above the upper surfaces of the foundation slab 2 and the overhanging portion 3 and is exposed to the outside. In addition, in addition to injecting concrete into the indoor side of the foundation medium heat insulating material 4 or injecting concrete into the indoor side of the basic medium heat insulating material 4, the concrete is mixed with the base medium heat insulating material 4 and the outer formwork 5. Concrete may be injected between them.

  Then, after curing for a predetermined period and solidifying the basic slab 2 and the overhanging portion 3, as shown in FIG. 7, the form tie 15, the single pipe 16 and the outer mold 5 are removed, and as shown in FIG. In addition, the outdoor side rising part mold 20 and the indoor side rising part mold 21 are installed in parallel at a predetermined interval. The outdoor side rising part mold 20 is installed on the overhanging part 3 so as to abut on the upper end of the base middle heat insulating material 4. Thus, since it installs using the heat insulating material 4 in a foundation as a guide, the outdoor side standing part formwork 20 can be installed in an appropriate position very easily. Then, the rising portion heat insulating material 7 is attached to the outdoor side rising portion mold frame 20, and the separator 15 passes through an intermediate position between the outdoor side rising portion mold frame 20 and the rising portion heat insulating material 7. Then, one end side of the separator 15 is fixed by a foam tie 17 while being sandwiched by the upper and lower single tubes 16 from the outdoor side, and fixed by a heat insulating material cone 19 that is extrapolated from the other end side. Then, an indoor side rising part mold 21 is installed on the indoor side while being penetrated by the separator 15 at a predetermined distance from the rising part mold 20, and the separator 15 is sandwiched between the upper and lower single tubes 16 from the indoor side. While fixing with foam tie 17. The rising portion heat insulating material 7 can also be used as a mold, and in this way, the outdoor side rising portion mold 20 can be dispensed with.

  Then, as shown in FIG. 9, concrete is placed between the rising portion heat insulating material 7 and the indoor side rising portion mold 21 to form the outer peripheral rising portion 8. At this time, since the foundation heat insulating material 4 is arranged to protrude slightly upward from the lower end of the outer peripheral rising portion 8 on the outdoor side, the concrete core of the outer peripheral rising portion 8 is dammed up by the middle heat insulating material 4. Can be prevented from flowing out to the outdoor side. Thereafter, the concrete is cured for a predetermined period, and as shown in FIG. 10, the foam ties 15 and the single pipes 16 installed on the outdoor side and the indoor side are removed, and the outdoor side rising part formwork 20 and the indoor side are removed. The rising form 21 is also removed.

  And as shown in FIG. 11, the mortar 10 as a finishing material is apply | coated to the surface exposed to the outdoor side of the upper end side of the heat insulating material 7 for rising parts, and the heat insulating material 4 in a foundation, and rainwater etc. are heat insulating materials 4 , 7 is prevented from entering. And it is the upper surface of the overhang | projection part 3, Comprising: The slope part 11 which inclines below toward the outdoor side with concrete is formed in the outdoor side of the mortar 10, and after that, as shown in FIG. The outdoor side is backfilled to complete the foundation structure 1 of the building.

  As described above, when the building foundation structure 1 and the building foundation method of the first embodiment are used, it is possible to extremely effectively prevent termites from entering the heat insulating material 4 in the foundation, and moreover, the concrete is struck. Installation work and formwork installation work are easy and the curing time can be shortened.

  In this embodiment, the separators 15 that support the heat insulating material 4 in the foundation are installed one by one in the vertical direction. However, when the foundation structure 1 is a deeper building, for example, FIG. As shown in FIG. 12, it is preferable to support the heat insulating material 4 in the foundation with two or more separators 15 in the vertical direction. When the foundation structure 1 of the building is deep, for example, as shown in FIG. 13, the buoyancy applied to the heat insulating material 4 in the foundation when placing concrete increases, but it is held by two separators 15 in this way. Thus, it is possible to prevent the foundation heat insulating material 4 from being lifted and causing a construction failure. Note that the number of separators 15 may be three or more depending on the depth of the foundation structure 1 of the building and the position of the supporting intermediate heat insulating material 4. In addition, also about the separator 15 used when driving the outer periphery rising part 8, when the height of the outer periphery rising part 8 is high, two or more can be provided.

  In addition, as shown in FIG. 12, if one end of the wire 22 is fixed to the separator 15 and the other end of the wire 22 is fixed to the nail 23 fixed to the concrete 6, the concrete intermediate heat insulating material can be obtained by placing concrete. 4 can be received by the wire 22 via the separator 15, so that there is an advantage that the foundation heat insulating material 4 can be prevented from being lifted.

  Note that the building foundation structure 1 and the building foundation method of the first embodiment can be combined with other various technologies capable of exhibiting the ant-proof performance of the building foundation structure 1, and as required. It may be combined with a structure that physically or chemically inhibits the entry of termites.

  Moreover, in this 1st Embodiment, although it was set as the structure which provides the outer periphery rising part 8 on the basic | foundation slab 2, when the outer periphery rising part 8 is not required on design, as shown, for example in FIG.14 and FIG.15 The structure of the building may be installed on the foundation slab 2 as it is. In this case, the upper surfaces of the foundation slab 2 and the overhanging portion 3 are preferably about 10 cm higher than the ground GL, for example, in terms of ant protection, but when installing a basement or the like in a building, for example, the foundation slab 2 and the overhanging portion The upper surface of 3 is arranged lower than the ground, and between the foundation slab 2 and the overhanging portion 3 and a wall of a basement (not shown) arranged on the foundation slab 2 and the overhanging portion 3 as necessary. It is also possible to provide a configuration that physically or chemically inhibits the entry of termites.

  In the first embodiment, for example, as shown in FIG. 5, after the ground GL is dug down to a predetermined depth, the outer mold 5 is vertically opened by slightly opening the space, but this is not limitative. For example, as shown in FIG. 16, the lower part 5a of the outer mold 5 is arranged so as to expand upward so that the outer mold 5 follows a wall formed by digging the ground GL. The portion 5b protruding from the ground GL of the outer mold 5 may be installed vertically. Also in this case, one end of the separator 15 is fixed to the outer mold 5, and the base intermediate heat insulating material 4 is fixed to the other end of the separator. At this time, as shown in FIG. 16, the distance between the outer mold 5 and the intermediate heat insulating material 4 can be formed slightly longer, and concrete is poured into the outer mold 5 thus configured. Thereby, the overhang | projection part 3 can be largely formed as shown in FIG. Thus, by taking the shape of the overhang | projection part 3 large, the overhang | projection part 3 can be used not only as a barrier from a termite but also as a dog run and a entrance porch of a building.

  Next, a second embodiment of the building foundation structure 1 and the building foundation construction method of the present invention will be described with reference to FIGS. In addition, about the structure similar to 1st Embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted. As shown in FIG. 18, the foundation structure 1 of the building of the second embodiment has a concrete structure 24 projecting toward the outdoor side at the upper end portion of the overhang portion 3 integrally with the overhang portion 3. Is formed. Here, the concrete structure 24 can be exemplified by a dog run or entrance porch provided on the outdoor side of the foundation of the building, but is not limited thereto, and various concrete structures provided on the outdoor side of the foundation of the building. Can be applied to.

  The foundation construction method for building the foundation structure 1 of the building according to the second embodiment is as follows. For example, as shown in FIG. The position where the structure is to be installed is dug down to a predetermined depth, the cracking stone 14 is installed, and the discarded concrete 6 is placed. Then, the outer mold 5 is installed so that the upper end thereof is slightly lower than the ground GL, and the reinforcing bars 12 are arranged at predetermined positions. As shown in FIG. 18, the reinforcing bars 12 may be arranged only on the foundation slab 2 and the outer peripheral rising part 8, but also on the projecting part 3 and the concrete structure 24. More preferably.

  Then, the outer mold 5 is penetrated by a separator 15 such as a round separator, for example, near the upper end, and one end of the separator 15 is fixed by a foam tie 17 while being sandwiched by upper and lower single tubes 16 from the outdoor side. The plastic cone 18 is used for fixing from the indoor side. Thus, the separator 15 is supported by the outer mold 5 with the other end side facing the indoor side. And in the state which penetrated the part from a little lower end of the foundation | substrate inside heat insulating material 4 by the other end side of the separator 15, it clamps by the wide cone 19 for heat insulating materials from the both sides of the foundation | substrate inside heat insulating material 4, and is fixed. At this time, the lower end of the foundation heat insulating material 4 is held in a state opened about 10 to 15 cm upward from the discarded concrete, and held in a state opened about 5 to 15 cm indoors from the outer mold 5. Further, the upper end of the foundation heat insulating material 4 is disposed so as to be at least the same height as the upper surface of the foundation slab 2, and is disposed at a position higher than the upper end of the outer mold 5.

  Then, as shown in FIG. 20, the outdoor side of the outer mold 5 is backfilled to the same height as the upper end of the outer mold 5, and the concrete structure outer mold 25 is installed in the outdoor direction. Next, as shown in FIG. 21, the foundation slab 2, the overhang portion 3, and the concrete structure 24 are formed by integrally placing and curing the concrete. That is, concrete is poured into the space forming the foundation slab 2 from the indoor side of the foundation heat insulating material 4, and the concrete is poured into the overhanging portion 3 through the space between the foundation heat insulating material 4 and the discarded concrete 6. The concrete structure 24 is formed by overflowing the concrete from the upper end of the outer mold 5 to the outdoor side. In addition, injecting concrete into the space forming the foundation slab 2 from the indoor side of the foundation medium heat insulating material 4 or injecting concrete into the space forming the foundation slab 2 from the indoor side of the foundation middle heat insulating material 4 Alternatively, concrete may be injected into the space forming the concrete structure 24.

  After that, the concrete structure outer mold 25 is removed. Then, as shown in FIG. 18, the outer peripheral rising portion 8 is formed by the same construction method as in the first embodiment, mortar 10 is applied to the surface, and the gradient portion 11 is formed to complete the foundation structure 1 of the building. To do.

  As described above, according to the building foundation structure 1 and the building foundation method of the second embodiment, the construction time is compared to the case where other adjacent structures are placed around the building foundation structure 1 and cured. In addition, no splicing occurs between the overhang portion 3 and the concrete structure 24, and there is no gap through which termites can pass. Therefore, the termites reach the heat insulating material more reliably. This can be suppressed.

  Needless to say, the embodiment of the present invention is not limited to this embodiment, and can be appropriately changed without departing from the scope of the idea of the present invention.

  The foundation structure 1 of a building and the foundation construction method of the present invention are suitable as a foundation structure 1 and a foundation construction method of a building having high ant-proofing properties in a structure and construction method in which a heat insulating material is arranged on the outdoor side of a building foundation. Can be used.

The simplified sectional view explaining the basic structure of the building concerning a 1st embodiment. The partially omitted enlarged cross-sectional view for explaining the basic slab, the overhang portion, and the outer peripheral rising portion. The partially abbreviated enlarged sectional view for explaining a state in which reinforcing bars are also arranged in the overhanging portion. The figure explaining the state which has arrange | positioned the outer formwork and reinforcement of the foundation construction method of the building which concern on 1st Embodiment. The figure explaining the state which made the separator support the heat insulating material in a foundation. The figure explaining the state which laid concrete and formed the foundation slab and the overhang | projection part. The figure explaining the state which removed the outer formwork. The figure explaining the state which installed the formwork for outdoor side standup parts, and the formwork for indoor side standup parts. The figure explaining the state which casts concrete and formed the outer periphery rising part. The figure explaining the state which removed the formwork for outdoor side standup parts, and the formwork for indoor side standup parts. The figure explaining the state which apply | coated the mortar to the outdoor side of the upper end part of the heat insulating material in a foundation | substrate, and the heat insulating material for rising parts, and formed the gradient part. The figure explaining the structure in case the foundation structure of a building is formed more deeply as a modification of 1st Embodiment. The figure explaining the state which laid concrete in the modification of FIG. As another modified example of the first embodiment, a simplified cross-sectional view for explaining the basic structure of a building having a configuration in which no outer peripheral rising portion is provided. FIG. 15 is a partially omitted enlarged cross-sectional view illustrating a basic slab and an overhang portion of the embodiment of FIG. 14. As a modified example of the first embodiment, a simplified cross section for explaining a foundation construction method of a building in which an outer formwork is installed with a predetermined distance from a foundation heat insulating material, inclined along a wall formed by digging the ground Figure. FIG. 17 is a simplified cross-sectional view for explaining a state where a concrete slab and an overhang portion are formed by placing concrete in the embodiment of FIG. 16. The simplified sectional view explaining the basic structure of the building concerning a 2nd embodiment. The figure which shows the state which installed the external formwork and the heat insulating material in a foundation explaining the foundation construction method of the building which concerns on 2nd Embodiment. The figure which shows the state which buried the outdoor side of the outer formwork from the state of FIG. 19, and installed the outer formwork for concrete structures. The figure explaining the state which laid and cured the foundation slab, the overhang | projection part, and the concrete structure integrally.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Building basic structure 2 Foundation slab 3 Overhang part 4 Insulation material in foundation 5 Outer formwork 6 Abandoned concrete 7 Heat insulation material for rising part 8 Outer peripheral part 11 Gradient part 12 Reinforcement 15 Separator 20 Form for outdoor side rising part 21 Formwork for indoor side rising part 22 Wire 24 Concrete structure

Claims (13)

A heat insulating material in the foundation is disposed between the foundation slab whose upper surface is formed to be higher than the ground by a predetermined amount and an overhanging portion whose upper surface is installed at the same height as the foundation slab on the outdoor side of the foundation slab,
While providing an outer peripheral rising part on the outer peripheral edge of the foundation slab, and a foundation structure of a building provided with an insulating material for the rising part fixed to the outer peripheral side surface of the outer peripheral rising part on the intermediate heat insulating material,
The space that forms the foundation slab and the overhanging portion is in communication below the heat insulating material in the foundation, and the foundation slab and the overhanging portion are integrally formed by placing and curing concrete integrally. The basic structure of the building. A foundation structure of a building in which a heat insulating material in a foundation is disposed between a foundation slab and an overhanging portion whose upper surface is installed at the same height as the foundation slab on the outdoor side of the foundation slab,
The space that forms the foundation slab and the overhanging portion is in communication below the heat insulating material in the foundation, and the foundation slab and the overhanging portion are integrally formed by placing and curing concrete integrally. The basic structure of the building. The foundation structure of a building according to claim 1, wherein an upper end of the mid-base heat insulating material is disposed higher than upper surfaces of the foundation slab and the overhang portion. The foundation structure of the building according to claim 1, wherein a slope portion that descends toward the outdoor side is formed on an upper surface of the overhang portion. Putting concrete into the foundation slab and the overhanging portion in a state where the heat insulating material in the foundation is supported by being floated at a predetermined interval by a separator fixed to an outer mold provided outside the overhanging portion. The building foundation structure according to any one of claims 1 to 4, wherein the building foundation structure is fixed . The building foundation structure according to any one of claims 1 to 5, wherein a reinforcing bar is embedded in the projecting portion.   The foundation structure of the building according to any one of claims 1 to 6, wherein a concrete structure projecting toward the outdoor side is integrally formed at an upper end portion of the overhang portion.   The building foundation structure according to claim 7, wherein a reinforcing bar is embedded in the concrete structure. Installing an outer mold at a predetermined outer peripheral position forming a foundation, and then installing a plurality of separators supported at one end on the outer mold along the outer mold so that the other end faces the indoor side, After that, a heat insulating material in the foundation, which is arranged with a predetermined interval in the indoor direction from the outer mold frame and floated at a predetermined interval, is attached to the other end of the separator,
Then, concrete is placed and cured in a state where the indoor side of the foundation heat insulator is connected to the outdoor side of the foundation heat insulator below the foundation heat insulator. A base slab formed on the inside, and an overhang formed between the base heat insulating material and the outer mold,
Then, while providing a predetermined distance from the outer periphery on the foundation slab to provide an indoor side rising part formwork, an outdoor side rising part formwork is provided on the overhanging part, A foundation construction method for a building, characterized in that an insulating material for a rising part is installed on top and fixed to a formwork for a rising part on the outdoor side, and then a peripheral rising part is formed by placing and curing concrete. Installing an outer mold at a predetermined outer peripheral position forming a foundation, and then installing a plurality of separators supported at one end on the outer mold along the outer mold so that the other end faces the indoor side, After that, a heat insulating material in the foundation, which is arranged with a predetermined interval in the indoor direction from the outer mold frame and floated at a predetermined interval, is attached to the other end of the separator,
Then, concrete is placed and cured in a state where the indoor side of the foundation heat insulator is connected to the outdoor side of the foundation heat insulator below the foundation heat insulator. A foundation construction method for a building, in which a foundation slab formed on an inner side and an overhang formed between the intermediate heat insulating material and the outer mold are integrally formed. 10. The building foundation method according to claim 9, wherein an upper end of the foundation heat insulating material is set slightly higher than the outer formwork. The outer mold is installed such that the upper end of the outer mold is lower than the position of the upper surface of the foundation slab, and then the outdoor side of the outer mold is filled to the same height as the upper end of the outer mold. After returning
  The said foundation slab, the said overhang | projection part, and the concrete structure which protrudes toward the outdoor side at the upper end part of the said overhang | projection part are integrally driven. The foundation construction method of the building in any one of.   After attaching the intermediate heat insulating material to the other end of the separator, before placing the concrete and forming the basic slab and the overhanging portion, one end is fixed to the separator The building foundation method according to any one of claims 9 to 12, wherein a wire fixed to abandoned concrete, the other end of which is formed under the foundation, is installed.

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