JP2019132072A - Foundation structure and construction method of the same - Google Patents

Abstract

To provide a foundation structure and a construction method of a foundation structure which can make a work vehicle enter a range surrounded by foundations of a building and which can shorten construction period.SOLUTION: A foundation structure 10 of a building 100 comprises: a first foundation portion 3 whose upper end 3u is disposed at a height position with a predetermined dimension from a ground surface; second foundation portion 4 which is continuously provided to the first foundation portion 3 and whose upper end 4u is disposed at a height position lower than the upper end 3u of the first foundation portion 3; a dry type footing beam 6 provided above the second foundation portion 4; and a panel material disposed at an outer peripheral side of the building 100 in the footing beam 6.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a foundation structure and a construction method of the foundation structure.

  Conventionally, at construction sites such as steel-framed buildings, buildings that are being built by transporting building members such as steel frames, outer wall panels, and floor panels from trucks using mobile cranes such as rough terrain cranes and truck cranes There are times when it is attached to the site, or it is loaded and unloaded on the site.

  However, when the site is small, it was not possible to secure a space for placing a work vehicle such as a mobile crane truck in the site. In addition, when the depth of the site (the length in the direction away from the adjacent road) is long, the arm of the work vehicle such as a mobile crane vehicle does not reach the back of the site and the work vehicle is used. The building material could not be transported.

  In view of this, there has been proposed a construction in which the height of a part of the foundation is made low so that the work vehicle can pass on a low foundation (see Patent Document 1 below). Specifically, a normal foundation constructed at a normal height and a buried foundation constructed with the same height as the ground surface are constructed, and the work vehicle passes through the buried foundation and the building foundation (ordinary Enter the area surrounded by the foundation and the buried foundation. Then, after building work such as mounting or unloading building members on the building, the work vehicle passes through the buried foundation and exits outside the area surrounded by the foundation of the building, and above the buried foundation An additional rising part (additional part of the foundation) is constructed so as to be the same height as The additional rising portion is constructed by providing insertion bars in advance and performing predetermined bar arrangement, then assembling the mold, placing concrete, curing, and releasing the mold. Alternatively, instead of providing an insertion line in advance, there is a method of drilling in order to embed a retrofit anchor in the buried foundation, and inserting the retrofit anchor and the fixing muscle into this hole.

JP 2013-96117 A

  However, in the construction method described in Patent Document 1, the worker (foundation worker) who constructs the foundation has not worked for a while after constructing the ordinary foundation and the buried foundation, and again when constructing the additional rising portion. It is necessary to come to the construction site and work, and there is a problem that it is not efficient. In addition, when constructing additional rising parts, there is a problem that on-site work such as providing reinforcement, assembling the formwork, placing concrete, curing, and releasing the formwork takes time. There is a point.

  The present invention has been made in view of the above circumstances, and provides a foundation structure and a construction method of the foundation structure capable of allowing a work vehicle to enter a range surrounded by the foundation of a building and shortening the work period. It is to provide.

In order to achieve the above object, the present invention employs the following means.
That is, the foundation structure according to the present invention is a foundation structure of a building, and is provided with a first foundation portion whose upper end is disposed at a height position having a predetermined dimension from the ground, and the first foundation portion. A second foundation portion having an upper end disposed at a lower height than the upper end of the first foundation portion, a dry foundation beam provided above the second foundation portion, and the building in the foundation beam. And a panel material arranged on the outer peripheral side.

In the foundation structure configured as described above, the upper end of the second foundation portion is lower than the upper end of the first foundation portion. Therefore, if the height of the second foundation is substantially the same as the ground or a little higher than the ground, the work vehicle is passed over the second foundation and the first foundation, the second foundation, etc. You can enter the area surrounded by the foundation.
After building work using a work vehicle in the area surrounded by the foundation of the building, move the work vehicle out of the area surrounded by the foundation and place the foundation beam above the second foundation. If a panel material is installed, a foundation structure that supports the building can be created. Since the foundation beam is a dry type, the construction period can be shortened compared with a wet type in which concrete is cast. The dry type means that when assembling factory-produced parts at the construction site, construction using materials mixed with water, such as concrete work, is eliminated without requiring drying or hardening.
Moreover, the panel material is installed on the outer peripheral side of the building in the foundation beam, and the exposure of the foundation beam is suppressed. Therefore, a member (panel material) for suppressing or protecting the exposure of the foundation beam can be installed in a short period of time.

  In the foundation structure according to the present invention, the panel material may be fixed to the foundation beam.

  In the foundation structure configured as described above, the panel material can be easily installed in a short period of time because the panel material is installed by fixing the panel material to the dry foundation beam.

  In the foundation structure according to the present invention, the foundation beam may be disposed above the second foundation portion with a gap.

  In the foundation structure configured as described above, the foundation beam is disposed with a gap above the second foundation portion. Therefore, even if there is unevenness at the upper end of the second foundation, the foundation beam can be installed without being affected by the unevenness (level adjustment of the upper end of the second foundation with mortar, etc.). Time and effort can be reduced.

  Further, in the foundation structure according to the present invention, the first foundation portion is provided upright from the second foundation portion, and includes a standing foundation portion disposed adjacent to the foundation beam, You may be fixed to the upper surface of the said standing foundation part.

  In the foundation structure constructed in this way, the end of the foundation beam only needs to be fixed to the upper surface of the standing foundation that is provided upright from the second foundation and is arranged adjacent to the foundation beam. Can be easily installed in a short period of time.

  Moreover, in the foundation structure which concerns on this invention, the said 1st foundation part and said 2nd foundation part may be comprised integrally as a reinforced concrete structure.

  In the foundation structure configured as described above, the first foundation part and the second foundation part are integrally formed of reinforced concrete. Therefore, since the construction of the first foundation part and the second foundation part can be performed at the same time, assembling the formwork, placing concrete, etc., the construction effort is less than constructing the first foundation part and the second foundation part separately. Reduced.

  Moreover, the construction method of the foundation structure according to the present invention is a construction method of the foundation structure of a building, and the first foundation is constructed so that the upper end is arranged at a height position of a predetermined dimension from the ground. The second foundation part is constructed continuously with the first foundation part such that the upper part of the part foundation process and the upper end of the second foundation part are arranged at a lower height than the upper end of the first foundation part. The second foundation construction process and the work vehicle pass over the second foundation and enter a range surrounded by the first foundation and the second foundation to perform a predetermined construction work. A work vehicle entering work step, the work vehicle passing over the second base portion, and exiting outside the range surrounded by the first base portion and the second base portion; and A foundation beam construction process for constructing a dry-type foundation beam above the second foundation part, and an outer periphery of the building in the foundation beam Characterized in that it comprises a panel member installation step of installing the panel material, to.

In the construction method of the foundation structure configured as described above, the upper end of the second foundation portion is lower than the upper end of the first foundation portion. Therefore, in the second foundation construction process, if the height of the second foundation is substantially the same height as the ground or a little higher than the ground, the work vehicle can be It is possible to enter the range surrounded by the first base part and the second base part by passing over the base part.
In addition, after building work using the work vehicle in the range surrounded by the first foundation part and the second foundation part, the work vehicle is surrounded by the first foundation part and the second foundation part in the work vehicle exit process. The base beam is installed above the second foundation in the foundation beam construction process, and the panel material is installed on the outer periphery of the building in the foundation beam installation process to support the building. The basic structure to do is made. Since the foundation beam and the panel material are dry, the construction period can be shortened as compared with a wet method in which concrete is cast.
Moreover, the panel material is installed on the outer peripheral side of the building in the foundation beam, and the exposure of the foundation beam is suppressed. Therefore, a member (panel material) for suppressing or protecting the exposure of the foundation beam can be installed in a short period of time.

  According to the foundation structure and the construction method of the foundation structure according to the present invention, the work vehicle can enter the range surrounded by the foundation of the building, and the work period can be shortened.

It is a top view of the foundation structure concerning one embodiment of the present invention. It is a front view which shows the lower part of the building provided with the foundation structure which concerns on one Embodiment of this invention, and is A arrow view of FIG. It is a top view which shows the basic structure which concerns on one Embodiment of this invention. It is sectional drawing which shows the lower part of the building provided with the foundation structure concerning one Embodiment of this invention, and is the BB sectional drawing of FIG. It is a figure which shows the lower part of the building provided with the foundation structure which concerns on one Embodiment of this invention, Comprising: The state which removed the panel material is shown.

Hereinafter, the building provided with the foundation structure concerning one embodiment of the present invention is explained with reference to drawings.
FIG. 1 is a plan view of a foundation structure according to an embodiment of the present invention. FIG. 2 is a front view showing a lower part of a building provided with a foundation structure according to an embodiment of the present invention, and is a view as seen from an arrow A in FIG. FIG. 3 is a plan view showing a basic structure according to an embodiment of the present invention.
As shown in FIG. 2, the building 100 (see FIG. 2) includes a lower structure 1 and an upper structure 2 supported by the lower structure 1. As shown in FIG. 1, a site T on which a building 100 (see FIG. 2) is built faces a road D.

First, the lower structure 1 will be described.
The lower structure 1 includes a high foundation part (first foundation part) 3, a low foundation part (second foundation part) 4, an additional striking part (first foundation part, standing foundation part) 5, and a foundation beam 6. And a panel material 7 and a continuous foundation part (first foundation part) 8.

  As shown in FIG. 3, the high foundation part 3 is provided in the downward direction in which the pillar 40 mentioned later is installed. The high foundation portion 3 is formed in a rectangular shape in plan view. As shown in FIG. 1, the high foundation portion 3 is disposed with an interval in the X direction along the extending direction of the road D and the Y direction orthogonal to the X direction.

  In this embodiment, the high foundation part 3 is comprised by the reinforced concrete structure. As shown in FIG. 2, the height (height from the ground G to the upper surface 3u) H1 of the high base portion 3 is about 250 mm, but the numerical value is an example and is not limited.

  As shown in FIG. 1, the high foundation portion 3 is arranged in three rows (X1, X2, X3) in the X direction and three rows (Y1, Y2, Y3) in the Y direction. It is not provided at the intersection of one column (the column on the left side when viewed from the road D) X1 and one column in the Y direction (the column closest to the road D) Y1.

  Among the plurality of high foundation parts 3, the high foundation parts 3 arranged in the row Y <b> 1 closest to the road D are connected by the low foundation part 4 and the additional hitting part 5. As shown in FIG. 2, the height (the height from the ground G to the upper surface 4 u) H <b> 2 of the low base portion 4 is lower than the height H <b> 1 of the high base portion 3.

  In the present embodiment, the height H2 of the low base portion 4 is about 0 to 100 mm from the ground G, but the numerical value is an example and is not limited. The low foundation part 4 is comprised by the reinforced concrete structure.

  The additional striking portion 5 is provided so as to be erected from the upper surface 4 u of the low base portion 4 adjacent to the high base portion 3. The additional striking portion 5 is disposed between the high foundation portion 3 and the foundation beam 6. The height HA of the upper surface 5u of the additional striking part 5 from the ground G is higher than the height H1 of the high foundation part 3.

  The high foundation part 3, the low foundation part 4, and the additional striking part 5 are configured integrally by placing concrete on the construction site. In this embodiment, the high foundation part 3, the low foundation part 4, and the additional striking part 5 are integrally formed by reinforced concrete construction.

4 is a cross-sectional view showing a lower portion of the building 100, and is a cross-sectional view taken along the line BB of FIG. FIG. 5 is a view showing the lower part of the building 100 and shows a state in which the panel material 7 is removed.
As shown in FIGS. 4 and 5, the foundation beam 6 is disposed above the low foundation part 4. The foundation beam 6 extends along the extending direction of the low foundation part 4. The foundation beam 6 is disposed between the additional striking portions 5 (see FIG. 1). The foundation beam 6 and the panel material 7 to be described later are installed above the low foundation portion 4 after the work vehicle C (see FIG. 1, the same applies hereinafter) exits after passing over the low foundation portion 4. .

  In the present embodiment, the foundation beam 6 is made of steel H-shaped steel, but other types of steel beams and materials other than steel can be appropriately selected as long as they are dry. For example, precast concrete, lightweight and strong FRP resin, structural engineering wood, or the like may be used. The length of the foundation beam 6 is about 2 m to 4 m in order to secure an effective width through which the work vehicle C passes. However, depending on the structure plan, the building layout plan, the relationship with the front road D, etc. It can be set as appropriate.

  The foundation beam 6 has a pair of flanges 11 and 12 that are spaced apart from each other in the vertical direction, and a web 13 that connects the pair of flanges 11 and 12 together. The flange 11 is disposed above the flange 12.

  As shown in FIG. 5, an angle member 15 for a foundation beam is provided at an end portion of the foundation beam 6 in the extending direction. The foundation beam angle member 15 includes a joint surface portion 16 and an upper surface portion 17.

  The joint surface portion 16 is formed in a plate shape, and is arranged with the plate thickness direction facing the extending direction of the foundation beam 6. The joint surface portion 16 is fixed to the side surface of the web 13 by welding or the like.

  The upper surface portion 17 is formed in a plate shape, and is arranged with the plate thickness direction directed in the vertical direction. The upper surface portion 17 extends from the upper end portion of the joint surface portion 16 to the side opposite to the foundation beam 6 side.

  The upper surface portion 17 is fixed to the upper surface 5 u of the additional striking portion 5 with a fastening member 18 such as an anchor bolt. In other words, the foundation beam 6 is supported by the additional hitting portion 5.

  The upper surface 17u of the upper surface portion 17 is disposed on the same plane as the upper surface (upper surface of the flange 11) 6u of the foundation beam 6. In other words, the height H3 of the upper surface 6u of the foundation beam 6 from the ground G is substantially the same as the height HA of the upper surface 5u of the additional striking part 5 from the ground G, and in detail, the height of the additional striking part 5 It is higher than the HA by the thickness of the upper surface portion 17 of the foundation beam angle member 15.

  A gap S is formed between the lower end surface 6 d of the flange 12 of the foundation beam 6 and the upper surface 4 u of the low foundation portion 4 in the vertical direction. In other words, the foundation beam 6 is disposed in a state in which the lower end surface 6 d of the flange 12 is separated from the upper surface 4 u of the low foundation portion 4. The gap S is formed over the extending direction of the foundation beam 6. In the present embodiment, the height of the gap S is set to 5 mm to 50 mm. If the height of the gap S is less than 5 mm, there is a concern that the base beam 6 may interfere with the low base portion 4 and not fit when the upper surface 4u of the low base portion 4 is uneven. In addition, when the height of the gap S exceeds 50 mm, the height of the foundation beam 6 may be reduced and it may be difficult to ensure the strength of the foundation beam 6.

  As shown in FIG. 4, a plurality of panel members 7 such as PC boards are provided on the outer peripheral side of the building 100 in the foundation beam 6. The panel material 7 is disposed above the low base portion 4. The panel material 7 is arranged with the plate thickness direction facing the horizontal direction orthogonal to the extending direction of the foundation beam 6 (hereinafter referred to as the width direction of the foundation beam 6). The upper surface 7 u of the panel material 7 is disposed on the same plane as the upper surface 6 u of the flange 11.

  As shown in FIG. 2, the plurality of panel members 7 are arranged adjacent to each other with a gap along the extending direction of the foundation beam 6 (see FIG. 5, the same applies hereinafter). The panel material 7 is disposed with a gap from the upper surface 4 u of the low base portion 4.

  A filler 21 such as a sealing material is provided in the gap between the adjacent panel members 7, the gap between the panel member 7 and the additional striking portion 5, and the gap between the panel member 7 and the low base portion 4. It has been. Thereby, it is suppressed that rainwater etc. permeate into the building 100 from these gaps. In the present embodiment, as shown in FIG. 4, the gap S between the foundation beam 6 and the low foundation portion 4 is not filled with a filler. In addition, you may provide the member (not shown) which has functions, such as heat insulation and water stop, in the clearance gap S between the foundation beam 6 and the low foundation part 4, for example.

  A filler 22 such as a resin mortar is provided below the surface 7f of the panel material 7 (the surface opposite to the foundation beam 6). An inclined surface (water gradient) is formed on the surface 22f of the filler 22 so as to gradually go to the outer peripheral side of the building 100 as it goes downward. Thereby, rainwater flows along the inclined surface 22 f of the filler 22, and rainwater is prevented from entering the building 100 from the lower part of the panel material 7.

  An upper angle member 30 is provided on the lower surface of the flange 11 of the foundation beam 6. The upper angle member 30 has an upper surface portion 31 and a downward surface portion 32.

  The upper surface portion 31 is formed in a plate shape, and is arranged with the plate thickness direction directed in the vertical direction. The upper surface portion 31 is fixed to the lower surface of the flange 11 of the foundation beam 6 with a fastening member 34 such as a bolt.

  The downward surface portion 32 is formed in a plate shape, and is arranged with the plate thickness direction facing the width direction of the foundation beam 6.

  A lower angle member 35 is provided on the upper surface of the flange 12 of the foundation beam 6. The lower angle member 35 has a lower surface portion 36 and an upward surface portion 37.

  The lower surface portion 36 is formed in a plate shape, and is disposed with the plate thickness direction directed in the vertical direction. The lower surface portion 36 is fixed to the upper surface of the flange 12 of the foundation beam 6 with a fastening member 39 such as a bolt.

  The upward surface portion 37 is formed in a plate shape, and is arranged with the plate thickness direction facing the width direction of the foundation beam 6.

  Fastening members 71 such as screws inserted from the surface 7f of the panel member 7 are fastened to the downward surface portion 32 of the upper angle member 30 and the upward surface portion 37 of the lower angle member 35, respectively. Thereby, the panel material 7 is fixed to the foundation beam 6.

  As shown in FIG. 1, the foundation structure 10 including the high foundation portion 3, the low foundation portion 4, the additional striking portion 5, the foundation beam 6, and the panel material 7 is provided on the road D side. It has been. The installation position and range of the foundation structure 10 enter the range in which the work vehicle C is surrounded by the foundations of the building 100 (the high foundation part 3, the low foundation part 4, the additional hitting part 5, and the continuous foundation part 8). Planned with easy routes in mind.

  In the present embodiment, the site T has a shape in which the side far from the road D (row Y3 side) and one side in the X direction (left side when viewed from the road D) (row X1 side) protrudes, and the high foundation portion 3 The arrangement corresponds to site T. For this reason, in particular, when the working vehicle C cannot be disposed in the site T and the work vehicle C is disposed on the road D, the arm (not shown) of the work vehicle C is unlikely to reach the row Y3 and the row X1 side. Therefore, the low base part 4 is provided along the road D, the low base part 4 is allowed to pass through the work vehicle C, and the work vehicle C is arranged so as to approach the row Y3 and the row X1 side. Moreover, it is preferable that the low base part 4 is arrange | positioned among the high base parts 3 along the road D (high base part 3 of the row | line | column Y1) near the row | line | column X1 side (left side seeing from the road D). By doing so, if the work vehicle C goes straight after passing through the low foundation portion 4 from the road D side, the work vehicle C can be arranged close to the row Y3 and the row X1 side without turning the work vehicle C back.

  Among the adjacent high foundation parts 3, the high foundation parts 3 are connected to each other by a continuous foundation part 8 at a place other than between the high foundation parts 3 in the row Y <b> 1. The height of the continuous foundation 8 is the same as the height H3 of the upper surface 6u of the foundation beam 6 from the ground G. The height H1 of the high foundation 3 and the height HA of the additional striking part 5 (see FIG. 2). The same shall apply hereinafter.) The continuous foundation part 8 and the high foundation part 3 are integrally formed of reinforced concrete.

  In the present embodiment, concrete E is placed in a range (inside) surrounded by the high foundation part 3, the low foundation part 4, the additional striking part 5 and the continuous foundation part 8. It is not always necessary to place concrete E.

  The surfaces of the low base portion 4, the high base portion 3, the additional punching portion 5 and the panel material 7 are painted with a protective paint (not shown).

  Next, the configuration of the upper structure 2 will be described. In the present embodiment, the upper structure 2 is a so-called industrialized house made of steel frame ramen. As shown in FIG. 5, the upper structure 2 includes a pillar 40, an outer wall panel material 41, a flooring panel 42, and other structural parts (not shown) such as a roof.

  The pillar 40 is joined to a fastening member 46 such as an anchor bolt provided on the high foundation part 3 and fixed to the high foundation part 3.

  As shown in FIG. 4, an outer wall angle member 50 is provided on the upper surface 6 u of the flange 11 of the foundation beam 6. The outer wall angle member 50 has an upper surface portion 51 and an upward surface portion 52.

  The upper surface portion 51 is formed in a plate shape, and is arranged with the plate thickness direction directed in the vertical direction. The upper surface portion 51 is fixed to the upper surface 6 u of the flange 11 of the foundation beam 6 with a fastening member (not shown) such as a bolt.

  An end 51d on the outer peripheral side of the building 100 in the upper surface 51 is inclined downward.

  The upward surface portion 52 is formed in a plate shape, and is arranged with the plate thickness direction facing the width direction of the foundation beam 6.

  In the upper surface portion 51 of the outer wall angle member 50, a plurality of outer wall panel members 41 are arranged on the outer peripheral side of the building 100 with respect to the upward surface portion 52. Each outer wall panel material 41 is arranged with the plate thickness direction facing the width direction of the foundation beam 6.

  The lower end portion of the outer wall panel material 41 is fixed to the upward surface portion 52 of the outer wall angle member 50 by a fastening member (not shown) such as a bolt. The upper end portion of the outer wall panel material 41 is fixed to a housing (not shown) such as a beam by a fastening member (not shown) such as a bolt.

  As shown in FIG. 2, the plurality of outer wall panel members 41 are arranged adjacent to each other with a gap along the extending direction of the foundation beam 6 (see FIG. 5). A filler 23 such as a sealing material is provided in a gap between adjacent outer wall panel members 41. Thereby, it is suppressed that rainwater etc. penetrate | invade into the building 100 inside the clearance gap between the outer wall panel materials 41. FIG.

  As shown in FIG. 3, the plurality of flooring panels 42 are composed of a foundation beam 6, a continuous foundation portion 8 (see FIG. 1, the same applies hereinafter), and a small steel beam spanned between opposing continuous foundation portions 8 ( (Not shown) or the like.

Next, the construction method of the lower structure 1 will be described.
First, a 1st foundation part construction process, a 2nd foundation part construction process, etc. are performed.
The work vehicle C passes in advance to the place where the low foundation part 4 is installed, that is, the range surrounded by the foundation of the building 100 (the high foundation part 3, the low foundation part 4, the additional striking part 5 and the continuous foundation part 8). Decide where to go. The high foundation part 3, the low foundation part 4, the additional striking part 5 and the continuous foundation part 8 are constructed. In this embodiment, since these are integrally formed of reinforced concrete, they are performed by procedures such as mold assembly, concrete placement, curing, and mold separation. At this time, the upper surface 4 u of the low base portion 4 is made lower than the upper surface 3 u of the high base portion 3. Further, the height HA of the additional striking portion 5 is set to be higher than the height H1 of the high foundation portion 3.

Next, a work vehicle approach work process is performed.
A work vehicle C such as a mobile crane truck or a truck is passed over the low foundation 4. Since the height H2 of the low base portion 4 is approximately 0 to 100 mm, the work vehicle C can easily pass over the low base portion 4. A work vehicle is allowed to enter a range (inside) surrounded by foundations such as the high foundation part 3, the low foundation part 4, the additional striking part 5 and the continuous foundation part 8 of the building 100, and the building members are loaded and unloaded. Perform predetermined construction work such as.

Next, a work vehicle exit process is performed.
After the construction work using the work vehicle C is completed, the work vehicle C is allowed to pass over the low foundation portion 4 and exit outside the range surrounded by the foundation of the building 100.

Next, the foundation beam construction process is performed.
A foundation beam 6 is installed above the low foundation part 4. Specifically, the foundation beam angle member 15 provided on the foundation beam 6 is fixed to the additional striking portion 5 with a fastening member 18.

Next, a panel material installation process is performed.
The panel member 7 is fixed to the upper angle member 30 and the lower angle member 35 fixed to the foundation beam 6 with a fastening member 71.

  Next, the filler 21 is filled between the adjacent panel members 7, between the panel member 7 and the additional striking portion 5, and between the panel member 7 and the low base portion 4. A filler 22 is filled in the lower part of the surface 7 f of the panel material 7. And the lower structure 4 is constructed by coating the surfaces of the low foundation part 4, the high foundation part 3, the additional punching part 5 and the panel material 7 with a protective paint (not shown).

  In the foundation structure 10 and the construction method of the foundation structure 10 thus configured, the upper surface 4 u of the low foundation part 4 is lower than the upper surface 3 u of the high foundation part 3. Therefore, the height H2 of the low base portion 4 is set to be substantially the same height as the ground G or slightly higher than the ground G, and the work vehicle C is passed over the low base portion 4 and enters the range surrounded by the base. Can be made.

  In addition, after the construction work is performed using the work vehicle C in the range surrounded by the foundation, the work vehicle C is moved out of the range surrounded by the foundation of the building, and the foundation is located above the low foundation portion 4. If the beam 6 is provided and the panel material is installed, the foundation structure 10 that supports the building 100 can be formed. Since the foundation beam 6 is a dry type, the construction period can be shortened as compared with a wet type in which concrete is cast.

  Moreover, the panel material 7 is installed on the outer peripheral side of the building 100 in the foundation beam 6 above the low foundation part 4, and the exposure of the foundation beam 6 is suppressed. Since the panel material 7 is a dry panel member manufactured in advance in a factory or the like, the panel material 7 for suppressing or protecting the exposure of the foundation beam 6 can be installed in the construction site in a short period of time.

  Moreover, since the panel material 7 should just be fixed to the foundation beam 6 with the fastening member 71, the panel material 7 can be installed easily for a short period of time.

  Further, the foundation beam 6 is disposed with a gap S above the low foundation part 4. Therefore, even if the upper surface 4u of the low foundation portion 4 is uneven, the foundation beam 6 can be installed without being affected by the unevenness (the upper surface 4u of the low foundation portion 4 is level-adjusted with mortar or the like). Therefore, construction labor can be reduced.

  In addition, since it is only necessary to fix the end of the foundation beam 6 to the upper surface 5u of the additional striking portion 5 provided by standing from the low foundation portion 4 with the fastening member 18 via the foundation beam angle member 15, The foundation beam 6 can be easily installed in a short period of time.

  Moreover, the high foundation part 3, the low foundation part 4, and the additional striking part 5 are integrally formed by reinforced concrete construction. Therefore, since the reinforcement of the high foundation part 3, the low foundation part 4 and the additional striking part 5, the formwork assembly, the concrete placing, etc. can be performed at the same time, the high foundation part 3, the low foundation part 4 and the extra striking part 5 Compared to separate construction, construction work is reduced.

  Further, the shapes, combinations, and the like of the respective constituent members shown in the above-described embodiments are merely examples, and various modifications can be made based on design requirements and the like without departing from the gist of the present invention.

  For example, in the embodiment shown above, the low base portion 4 is installed at a position eccentric from the center between the adjacent high base portions 3 (close to the row X3 side), but the present invention is not limited to this. Absent. The installation position of the low foundation part 4 can be appropriately set, and is preferably determined according to the plan of the building 100.

  Moreover, in embodiment shown above, although the panel material 7 is being fixed to the foundation beam 6, this invention is not limited to this. For example, the panel material 7 may be configured to be fixed to the low foundation portion 4 or the outer wall panel material 41 via an angle material or the like.

  In the present embodiment, the foundation beam 6 is disposed with the gap S above the low foundation part 4, but the present invention is not limited to this. For example, the low foundation part 4 may be uneven and the foundation beam 6 may partially abut on the low foundation part 4.

DESCRIPTION OF SYMBOLS 1 ... Lower structure 2 ... Upper structure 3 ... High foundation part (1st foundation part)
4 ... Low foundation (second foundation)
5 ... Increased part (first foundation, standing foundation)
6 ... foundation beam 7 ... panel material 8 ... continuous foundation part (first foundation part)
10 ... Foundation structure 11, 12 ... Flange 13 ... Web
DESCRIPTION OF SYMBOLS 15 ... Foundation beam angle material 30 ... Upper angle material 35 ... Lower angle material 40 ... Column 41 ... Outer wall panel material 42 ... Floor material panel 50 ... Outer wall angle material 100 ... Building C ... Work vehicle D ... Road S ... Gap T …site

Claims (6)

The basic structure of the building,
A first base portion whose upper end is arranged at a height position of a predetermined dimension from the ground;
A second base portion which is provided continuously with the first base portion and whose upper end is disposed at a lower height than the upper end of the first base portion;
A dry foundation beam provided above the second foundation,
Panel material arranged on the outer peripheral side of the building in the foundation beam,
Basic structure characterized by comprising.   The foundation structure according to claim 1, wherein the panel material is fixed to the foundation beam.   The foundation structure according to claim 1, wherein the foundation beam is disposed with a gap above the second foundation portion. The first foundation is provided upright from the second foundation, and includes a standing foundation disposed adjacent to the foundation beam,
The foundation structure according to any one of claims 1 to 3, wherein the foundation beam is fixed to an upper surface of the upright foundation portion.   The foundation structure according to any one of claims 1 to 4, wherein the first foundation part and the second foundation part are integrally formed of reinforced concrete. A construction method for the foundation structure of a building,
A first foundation construction step of constructing the first foundation so that the upper end is disposed at a height position of a predetermined dimension from the ground;
A second foundation construction in which the second foundation is constructed continuously with the first foundation so that the upper end of the second foundation is disposed at a lower height than the upper end of the first foundation. Process,
A work vehicle entering work process in which a work vehicle passes over the second foundation part and enters a range surrounded by the first foundation part and the second foundation part to perform a predetermined building work;
A work vehicle exit step in which the work vehicle passes over the second base portion and exits outside the range surrounded by the first base portion and the second base portion;
Above the second foundation part, a foundation beam construction step of constructing a dry foundation beam;
And a panel material installation step of installing a panel material on the outer peripheral side of the building in the foundation beam.

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