JP3653483B2 - Structure of basement and construction method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a structure of a basement such as a basement or an underground garage constructed in a basement part of a prefabricated house and a construction method, and in particular, a first floor slab, a beam, and a first floor are continuously provided on an upper part of a basement wall continuous with a pressure slab. The present invention relates to a structure having a foundation rising portion and a construction method.
[0002]
[Prior art]
Prefabricated houses are low-rise buildings that are built using a large number of components manufactured by an industrialized production system. They improve comfortability and durability, and increase the degree of freedom in floor plan with longer life. It has been developed mainly for the pursuit of a rational building structure to realize it and cost reduction.
[0003]
Recently, there is an increasing demand for prefabricated houses provided with a structural basement such as a reinforced concrete structure (RC) basement or underground garage in order to utilize the underground part. When constructing a structural basement in the basement of a prefabricated house, there are problems that the cost for excavating the ground and the cost required for backfilling after constructing the structural basement are large.
[0004]
For this reason, when building a basement in an underground part of a prefabricated house, in order to reduce the amount of excavation and reduce excavation costs and backfilling costs, the basement depth of the basement is set to be small It is common. In this case, the distance from the ceiling slab of the basement to the floor of the first floor of the prefabricated house can be reduced, and the first floor foundation rising portion can be formed on the ceiling slab to form the foundation of the prefabricated house.
[0005]
When an underground garage is constructed in an underground part of a prefabricated house, a road surface is set as the reference level of the underground garage. For this reason, the connection relationship between the underground garage and the prefabricated house does not necessarily coincide with the relationship between the basement and the prefabricated house described above. However, in addition to installing an underground garage on the basis of the road surface, a prefabricated house may be constructed with the ceiling slab of the underground garage as the first floor slab. In this case, the relationship between the basement and the prefabricated house is the same as described above. .
[0006]
The present applicant has already applied for a patent by developing a construction method that integrates the basement and the foundation of the upper structure of the basement (Japanese Patent Laid-Open No. 8-113951). In this technology, a basement unit with a formwork and bar arrangement corresponding to the basement is constructed on the ground in advance, and after this basement unit is installed at a predetermined position, the basement unit is arranged on the part corresponding to the ceiling slab of the basement. In addition, the bar is arranged at the part corresponding to the foundation in the ceiling slab and the receiving bracket is arranged, and the formwork is installed on the receiving bracket, and then in the basement unit formwork and the foundation formwork. By placing concrete, the basement and foundation can be integrated. This basement and integral foundation construction method is intended for the case where the foundation is formed on the upper side of the ceiling slab and on the inner plane (position separated from the wall of the basement).
[0007]
[Problems to be solved by the invention]
When building a prefabricated house in the upper part of a basement or underground garage or other structural basement, the first floor foundation rising part is not necessarily formed on the inner side of the ceiling slab but on the upper part of the basement wall There is also. Thus, when a 1st-floor foundation rising part is formed in the upper part of a basement wall, there exists a problem that the technique disclosed by the said gazette cannot respond.
[0008]
An object of the present invention is to provide a structure of a structural basement in which a first-floor foundation rising portion is formed in the upper part of the basement wall of the structural basement and a construction method when constructing the basement of the prefabricated house.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, a structure of a structural basement according to the present invention is a structure of a structural basement constructed in an underground part of a prefabricated house, and transmits the load of the prefabricated house to a pressure-resistant slab, and the prefabricated house And a beam that transmits the load of the steel to the underground wall, the reinforcing bar is arranged from the upper part of the underground wall to the first floor foundation rising part formed on the upper part of the underground wall, and the reinforcing bar is the upper part of the beam From the top of the basement to the first floor foundation riser, or from the top of the underground wall to the top of the first floor foundation riser Beams that are arranged and project on the upper surface of the first-floor slab are configured to serve as the first-floor foundation rising portions, anchor bolts are arranged on the first-floor foundation rising portions, and the first-floor slab, beams, and the first floor from the underground wall Concrete placed continuously up to the foundation rise Therefore those configured.
[0010]
The basement structure has a basement wall that transmits the load of the prefabricated house to the pressure-resistant slab and a beam that transmits the load of the prefabricated house to the basement wall, and is formed from the basement wall to the top of the basement wall. Reinforcing bars that extend from the first floor foundation riser and the upper part of the beam to the first floor foundation riser, or the rebar is formed from the underground wall to the upper part of the underground wall Beams arranged at the foundation riser and projecting from the upper surface of the first floor slab are also constructed as the first floor foundation riser, anchor bolts are arranged at each first floor riser, and the underground wall and the first floor slab (structure basement Since the ceiling slab), beams, and the first floor foundation riser are integrated with concrete that is continuously placed, a highly reliable foundation riser can be constructed, and the load of the house can be used as a beam and underground wall. To the pressure slab via Door can be.
[0011]
In particular, an anchor bolt embedded in the first floor foundation rising portion is formed in the upper portion of the underground wall and beam by forming the first floor foundation rising portion continuous with the underground wall and beam. Along with the integration of the concrete of the floor foundation rising part, high pulling strength can be secured.
[0012]
In addition, the construction method of the structural basement is a construction method of the structural basement constructed in the basement part of the prefabricated house, and after constructing the pressure-resistant slab in which the load of the prefabricated house is transmitted through the beam and the basement wall, The basement wall, the first floor slab, and the rebar arrangement and formwork corresponding to the beam are constructed, and the first floor foundation rising part formed on the upper part of the basement wall is extended from the upper part of the basement wall. The first floor foundation rising section is arranged from the top of the beam to the first floor foundation rising section formed from the upper part of the beam or from the upper part of the underground wall. The first floor foundation rising part is arranged across the first floor foundation rising part formed in the upper part of the underground wall, and the beam protruding from the upper surface of the first floor slab also serves as the first floor foundation rising part. Anchor bolts are placed on each 1st floor foundation riser, and the 1st floor foundation rises. The first-floor foundation rising part formwork is arranged along the bottom and the lower end of the formwork is held at a height corresponding to the upper surface of the first-floor slab, and then the first-floor slab, beams and It is characterized by placing concrete continuously up to the first floor foundation rising part.
[0013]
In the construction basement construction method described above, after constructing a pressure-resistant slab in which the load of the prefabricated house is transmitted through the beam and the basement wall, the basement wall constituting the basement and the first floor slab configured on the top of the basement wall and Arranged in the beam and constructed the formwork, straddled from the upper part of the underground wall to the first floor foundation rising part formed on the upper part of the underground wall, and formed from the upper part of the beam to the upper part of the beam. If the beam is straddling over the first floor foundation rising part, or the beam protruding from the upper surface of the first floor slab is also used as the first floor foundation rising part, the beam is arranged and each 1 After placing anchor bolts on the rising floor, constructing the formwork and placing concrete, the continuous underground wall, the first floor slab, the beam, and the first floor foundation rising section are constructed by placing the concrete once. I can do it.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a preferred embodiment of the structure of the structure basement will be described with reference to the drawings, and a construction method will be described together. FIG. 1 is a cross-sectional view illustrating the structure of a basement provided with a dry area. FIG. 2 is a cross-sectional view illustrating the configuration of the underground garage. FIG. 3 is a view for explaining a formwork when the basement of FIG. 1 is constructed. FIG. 4 is a view for explaining a receiving metal fitting for receiving the form of the rising portion formed in the upper part of the underground wall. FIG. 5 is a diagram for explaining an example in which the outer peripheral surface of the underground wall and the rising portion is the same surface.
[0015]
The structure of the structural basement according to the present invention includes a basement wall that constitutes a structural basement such as a basement or a basement garage, and a first-floor basic rising part (hereinafter simply referred to as a “rising part”) disposed on the upper part of the basement wall. These are connected by rising reinforcing bars, which are reinforcing bars that straddle both, and are integrally formed by continuous concrete. For this reason, it is possible to ensure high pulling strength of the anchor bolt embedded in the rising portion, and even when connecting the pillar constituting the casing of the upper structure to the anchor bolt, the vertical force In addition, it is possible to exhibit a stable strength against horizontal force.
[0016]
This will be specifically described below with reference to the drawings. FIG. 1 shows a basement A as a structural basement, and FIG. 2 shows an underground garage B. In the basement A and the underground garage B, there is an internal space C that serves as a living room, a warehouse, or a housing for a car, and a dry area or road that is open to the ground facing one side of the space C. The external space D is arranged. And between the internal space C and the external space D, the opening part E which consists of a window, a shutter, etc. is comprised.
[0017]
In FIG. 1, the basement A corresponds to the ceiling and the pressure-resistant slab 1 that is grounded to the ground and functions as a footing, and the load of the prefabricated house (not shown) or the load of the basement A acts evenly. The first floor slab 2 formed on the upper surface and provided with rising parts 5 to 7; the underground wall 3 that constitutes the wall surface of the basement A and transmits the load of the prefabricated house to the pressure resistant slab 1; It has a beam 4 that supports the load of the prefabricated house and transmits it to the underground wall 3.
[0018]
Reinforcing bars 8 are laid from the pressure-resistant slab 1 to the underground wall 3, and the reinforcing bars 8 are extended along the inclined portions formed at the portions having different levels. The reinforcing bars 8 corresponding to the pressure-resistant slab 1 are arranged prior to other parts of the basement A and the concrete 10 is placed. That is, when constructing the basement A, the pressure slab 1 is constructed first. And when the pressure | voltage resistant slab 1 reaches the intensity | strength which can bear a load, the 1st floor slab 2, the beam 4, the underground wall 3, and the rising parts 5-7 will be constructed | assembled.
[0019]
Reinforcing bars 8 are laid from the basement wall 3 to the first floor slab 2, and the reinforcing bars 8 are arranged on the basement wall 3 and the first floor slab 2 at the upper part of the basement wall 3 and connected to the first floor slab 2. The end of each is bent into an L-shape and extended to the other side to be arranged. The reinforcing bar 8 arranged in the pressure-resistant slab 1 and the reinforcing bar 8 arranged in the first-floor slab 2 and the underground wall 3 together with the concrete 10 in the respective arrangement parts, and the allowable bending moment and It has a thickness that can satisfy the shear stress. Therefore, it does not limit whether the reinforcing bars 8 arranged in each part have different thickness or the same thickness.
[0020]
The rising portion 5 provided on the upper surface of the first-floor slab 2 is a foundation intended to receive only the first-floor floor in the prefabricated house and does not act on a large load. For this reason, a reinforcing bar 11 with one end inserted into the first floor slab 2 is arranged in the rising portion 5.
[0021]
The rising portion 6 has a function of attaching a beam or a pillar (not shown) constituting the housing of the prefabricated house, and is formed on an upper portion of the beam 4 provided on the first floor slab 2. In this embodiment, the beam 4 includes the first floor slab 2 and is formed on the lower surface side of the first floor slab 2, and the rising portion 6 is formed on the upper surface side of the first floor slab 2. As described above, the beam 4 has a function of supporting a vertical load and a horizontal load acting on the prefabricated house and transmitting them to the underground wall 3 of the basement A. Further, a frame-shaped reinforcing bar 12 is arranged on the beam 4, and the strength of the reinforcing bar 8 is reinforced by the reinforcing bar 12. Further, the reinforcing bar 13 of the rising portion 6 is arranged over the beam 4 from the rising portion 6, and an anchor bolt 14 is disposed at a predetermined position along the reinforcing bar 13.
[0022]
The rising portion 7 is provided above the underground wall 3 and on the upper surface side of the first floor slab 2. The function of the rising portion 7 is not particularly limited, and it may have a function of receiving only the floor of the first floor in the prefabricated house like the rising portion 5, and the prefabricated house like the rising portion 6. It may have a function of supporting a load by attaching a beam or a column constituting the frame. However, since the underground wall 3 has a function of supporting a vertical load and a horizontal load, and the rising portion 7 is provided on the upper portion of the underground wall 3, the rising portion 7 supports the housing of the prefabricated house. It is preferable to be configured to obtain.
[0023]
In the present embodiment, the rising portion 7 is configured to support a vertical load and a horizontal load transmitted from the housing by attaching a housing of the prefab house.
[0024]
Reinforcing bars 15 are arranged across the rising part 7 and the underground wall 3. This reinforcing bar 15 has a lower end parallel to the reinforcing bar 8 provided on the upper end side of the underground wall 3 and a portion on the underground wall 3 side of the bent portion of the reinforcing bar 8 arranged from the first floor slab 2 to the upper end portion of the underground wall 3. Are arranged so that the upper end side reaches the upper end side of the rising portion 7, and is fixed to the reinforcing bar 8 by a predetermined means. Accordingly, the reinforcing bars 15 are arranged from the upper end portion of the underground wall 3 to the rising portion 7.
[0025]
Further, anchor bolts 14 for attaching the prefabricated housing to the basement A are arranged at preset positions of the rising portion 7. The anchor bolt 14 is arranged so that the lower end side reaches the upper end side of the underground wall 3 and the upper end side protrudes from the rising portion 7 by a predetermined length in parallel with the height direction of the reinforcing bars 15 arranged in the rising portion 7. And fixed by predetermined means.
[0026]
The thickness of the rising portion 7 is smaller than the thickness of the underground wall 3. In the present invention, it is not limited that the center of the underground wall 3 in the thickness direction (hereinafter simply referred to as “center”) coincides with the center of the rising portion 7 provided on the upper part of the underground wall 3. In the present embodiment, as shown in FIG. 1, the rising portion 7 is arranged so that the inner peripheral surface 7 a is flush with the inner peripheral surface 3 a of the underground wall 3. The center is eccentric to the inner peripheral side without matching. However, it is natural that the center of the rising portion 7 and the center of the underground wall 3 may coincide with each other.
[0027]
For example, when the center of the rising portion 7 and the center of the underground wall 3 coincide with each other, depending on the number of horizontal reinforcing bars 8 arranged at the upper end portion of the underground wall 3, the reinforcing bars 8 and the anchor bolts 14 may be connected to each other. It is necessary to specially consider the bar arrangement position and the bar arrangement method due to interference, but if the rising portion 7 is eccentric to the inner peripheral side or the outer peripheral side with respect to the underground wall 3, the number of the reinforcing bars 8 Regardless, there is no interference. For this reason, workability is improved when reinforcing bars 15 and anchor bolts 14 are arranged, and when concrete is placed, it is possible to improve the degree of filling (around) of the concrete.
[0028]
The underground wall 3, the first-floor slab 2, the beam 4, and the rising portions 5 to 7 are substantially integrated by concrete 16 that is continuously placed. That is, in the basement A, the pressure-resistant slab 1 is formed in the first stage, and thereafter, the basement wall 3, the first-floor slab 2, the beam 4, and the rising portions 5 to 7 are formed in the second stage. Therefore, a discontinuous boundary is not formed in the concrete 16 between the underground wall 3 and the first floor slab 2 and between the first floor slab 2 and the rising portions 5 to 7.
[0029]
As described above, since the underground wall 3, the first floor slab 2, and the rising portion 7 are constituted by the concrete 16 that is continuously integrated, the reinforcing bar 15 and the anchor bolt 14 that are arranged from the underground wall 3 to the rising 7 are arranged. The adhesion length of the concrete 16 becomes equal to the embedment length of the concrete 16, and it is possible to secure high pullout strength and to exhibit high reliability. For this reason, it is possible to improve the reliability of the reinforcing bar 15 and the anchor bolt 14, and it is possible to shorten the length of the reinforcing bar 15 and the anchor bolt 14 as compared with the case where the conventional construction method is used. Become.
[0030]
FIGS. 2A and 2B are cross-sectional views illustrating the configuration of an underground garage B as a structural basement. In addition, in the figure, the same code | symbol is attached | subjected to the part and the part which has the same function as the above-mentioned basement A, and description is abbreviate | omitted.
[0031]
The structure of the underground garage B in FIG. 5A is substantially the same as the basement A described above. That is, in the present embodiment, two rising portions 5 and a rising portion 6 corresponding to the upper portion of the beam 4 are formed on the upper surface of the first floor slab 2. A rising portion 7 having a reinforcing bar 15 extending from the rising portion 7 to the rising portion 7 is formed. Thus, the structure of each rising part 5-7 is the same as the rising part 5-7 in the basement A mentioned above.
[0032]
In the underground garage B of FIG. 5B, a beam 4 provided on the first floor slab 2 is formed so as to protrude from the upper surface side of the first floor slab 2. For this reason, the rising part 6 which attaches the housing of a prefab house is not formed specially, but is comprised also as the said beam 4. As shown in FIG. Even in this embodiment, the rising portion 7 is constituted by reinforcing bars 15 extending over the upper part of the underground wall 3, and is not different from the structure of the basement A.
[0033]
Next, the construction method according to the present invention will be described with reference to FIGS.
[0034]
As described above, when the basement A is constructed, after excavating the ground, the pressure-resistant slab 1 is constructed in the first stage, and then other parts are constructed. That is, after the reinforcing bars 8 are arranged on the pressure-resistant slab 1, the concrete 10 is placed, and the placed concrete 10 is hardened so that it can support the formwork for constructing the first floor slab 2. When building other sites.
[0035]
The reinforcing bar 8 of the underground wall 3 is connected to the reinforcing bar 8 arranged in the pressure-resistant slab 1 and the presetting of the underground wall 3 is performed in advance. When the rebar placement work corresponding to the underground wall 3 is completed, the inner mold 21 is arranged along the inner periphery of the underground wall 3. Further, an inner mold 22 of the first floor slab 2 and an inner mold 23 of the beam 4 are arranged on the upper part of the inner mold 21, and these inner molds 21 to 23 are supported by known means.
[0036]
Reinforcing bars 8 arranged on the first floor slab 2 and reinforcing bars 12 and 8 arranged on the beam 4 are arranged on the upper portions of the inner molds 22 and 23, and the rising portion 5 is positioned at a position corresponding to the rising portion 5. The reinforcing bar 11 is arranged at a position corresponding to the rising part 6 at the position corresponding to the rising part 6, and the anchor bolt 14 is arranged at a preset position along the reinforcing bar 13. The
[0037]
In addition, at the position corresponding to the upper end portion of the underground wall 3, a portion formed in an L shape at the end of the reinforcing bar 8 arranged in the first floor slab 2 is disposed, and the L portion is the underground wall. 3 rebars 8 are connected. Similarly, an L-shaped portion at the end of the reinforcing bar 8 arranged in the underground wall 3 is disposed on the first floor slab 2 and the L-shaped portion is connected to the reinforcing bar 8 of the first floor slab 2. The
[0038]
The reinforcing bars 15 of the rising portion 7 are arranged along the reinforcing bars 8 arranged at the upper end portion of the underground wall 3 and are held in the inserted state. At this time, the upper end side of the reinforcing bar 15 reaches the vicinity of the top end of the rising portion 7 set in advance. In addition, the anchor bolt 14 is positioned at a predetermined position along the reinforcing bar 15 by the anchor bolt fixing plate 9 in which a hole is formed in a predetermined position on the flat plate, and the upper end side of the rising portion 7 is set in advance. It is inserted in a state where the protruding length from the top end is maintained. In particular, since the rebar 15, the anchor bolt 14 and the rebar 8 are not connected, an appropriate gap is formed between them, and concrete penetrates into the gap to achieve a sufficient cover thickness, resulting in high reliability. Can be achieved.
[0039]
After connecting the reinforcing bar 8 of the underground wall 3 and the reinforcing bar 8 of the first floor slab 2 and the reinforcing bars 11 and 13 of the rising portions 5 and 6 as described above, the outer mold 24 of the underground wall 3 and the outer mold of the beam 4 are connected. Install 25 each.
[0040]
Next, the molds 26 of the rising portions 5 to 7 are installed at the portions corresponding to the rising portions 5 to 7, respectively. At this time, it is necessary to accurately match the height of the lower end portion of each mold 26 with the upper surface level of the first floor slab 2, and for this reason, the metal fittings 31 to 33 shown in FIG. 4 are selectively used. It is preferable.
[0041]
The metal fitting 31 is configured to support a pair of molds 26 provided to form the rising portion 5, and the height is adjusted by rotating a screw member 31b screwed to the end portion. It is formed in a gate shape having two legs 31a that can be configured, and a support piece 31c that is fixed to the upper end portion of the leg 31a and has two defining members 31d that define the position of the mold 26 on the upper surface. ing. In particular, when the underground wall 3 and the beam 4 are formed below the rising portion 5, the receiving metal 31 is configured to support the formwork 26 across the underground wall 3 and the beam 4.
[0042]
The receiving metal fitting 32 is configured to support a pair of molds 26 provided to form rising portions 6 and 7 to which the beam 4 and the underground wall 3 are continuously connected. One leg 32a configured to be adjustable in height by rotating a screw member 32b screwed into the end, and two legs fixed to the upper end portion of the leg 32a and defining the position of the mold 26 on the upper surface And a support piece 32c provided with a defining member 32d.
[0043]
In the receiving brackets 31 and 32, the support pieces 31c and 32c are constituted by round bars (support pieces 31c) or flat plates (support pieces 32c). Any of these round bars and flat plates can be supported by placing a formwork on top. In particular, it is possible to stably support the mold frame with a flat support piece.
[0044]
In addition, the receiving bracket 33 is configured to be able to support the mold 26 forming the rising portions 5 to 7 alone, and is screwed into the legs 33a having screw portions at both ends and the screw portions of the legs 33a. The screw member 33b is configured such that the height can be adjusted by rotating the screw member 33b. This receiving bracket 33 is effective when supporting a wooden formwork.
[0045]
The receiving bracket 31 configured as described above is disposed along the rising portion 5 and on the inner mold frame 22 of the first floor slab 2, and the screw member 31b is rotated to rotate the bottom of the screw member 31b and the support piece 31c. The distance from the upper surface is adjusted to be equal to the thickness of the first floor slab 2. Thereafter, the mold 26 is placed on the support piece 31c, and is placed in contact with the defining member 31d.
[0046]
The metal fitting 32 is arranged along the rising portions 6 and 7 and on the inner mold 22 of the first floor slab 2, and the distance between the bottom of the screw member 32b and the upper surface of the support piece 32c is rotated by rotating the screw member 32b. Is adjusted to be equal to the thickness of the first floor slab 2. In particular, the free end of the support piece 32c of the metal fitting 32 arranged corresponding to the rising part 7 is placed on the upper end of the outer mold 24 of the underground wall 3 and is arranged corresponding to the rising part 6. The free end of the metal fitting 32 is placed on the upper end of the outer frame 26 of the beam 4.
[0047]
The metal fitting 33 is disposed along the mold 26 of the rising portions 5 to 7 and on the inner mold 22 of the first floor slab 2, and the screw member 33b is rotated so that the distance between the pair of screw members 33b is the first floor slab. Is adjusted to be equal to the thickness of 2. Thereafter, the mold 26 is placed and installed on the upper screw member 33b.
[0048]
As described above, the inner mold frame 21 and the outer mold frame 24 are located in the portion corresponding to the underground wall 3, the inner mold frame 22 is located in the portion corresponding to the first floor plan 2, the inner mold frame 23 is located in the portion corresponding to the beam 4 After installing the outer formwork 25 and installing the formwork 26 on the rising parts 5-7, the concrete 16 is cast from above the formwork 21-25 of the underground wall 3, the first floor slab 2, and the beam 4. Fill the corners of the underground wall 3 sufficiently, and fill the beams 4 and the first floor slab 2 with concrete 16. Next, before the concrete 16 placed on the first floor slab 2 is hardened, the concrete 16 is placed from above the molds 26 of the rising portions 5 to 7 and the concrete 16 placed on the first floor slab 2 is placed. And get used to it.
[0049]
As described above, it is possible to construct the basement A in which the underground wall 3 and the rising portion 7 provided on the upper part of the underground wall 3 are integrated through the reinforcing bar 15. In addition, the receiving metal fittings 31-33 which supported the formwork 26 which forms each rising part 5-7 are buried and killed by the 1st floor slab 2. As shown in FIG.
[0050]
FIG. 5 shows a case where the rising portion 7 formed in the upper part of the underground wall 3 is eccentric to the outer peripheral side of the basement A. In this case, the outer frame 24 of the underground wall 3 is formed longer than the length of the underground wall 3, and the upper end portion is configured to function as the outer frame of the rising portion 7. Therefore, when the rising portion 7 is formed, the mold 26 may be a single sheet disposed on the inner peripheral surface side, and the installation of the mold is simplified.
[0051]
Although the receiving metal fitting 33 that supports the mold 26 that forms the rising portion 7 is formed in an L shape similarly to the receiving metal fitting 32 described above, a single mold 26 is placed on the support piece 33c. However, the free end side is placed and fixed on the upper end of the outer mold 24 of the underground wall 3. That is, the supporting piece 33c only needs to have one defining member, and the distance between the free end and the defining member is the sum of the thickness of the rising portion 7 and the thickness of one mold 26.
[0052]
As described above, when the outer peripheral surface of the underground wall 3 and the outer peripheral surface of the rising portion 7 are the same surface and are exposed to the outside, these outer surfaces are formed as a continuous same surface. It is possible to improve the appearance performance.
[0053]
【The invention's effect】
As explained in detail above, the structural basement in the prefabricated house according to the present invention is a structure of the structural basement constructed in the basement part of the prefabricated house, and transmits the load of the prefabricated house to the pressure-resistant slab And a beam that transmits the load of the prefabricated house to the underground wall, and reinforcing bars that extend from the basement wall and the upper part of the beam to the first floor foundation rising part formed on the basement wall and the upper part of the beam are arranged. Or, the beam that protrudes from the upper surface of the first floor slab is configured to serve as the first floor foundation riser, and anchor bolts are arranged on each first floor foundation riser, and the underground wall, first floor slab, beam, first floor foundation rise Since the parts are integrated by the concrete that has been continuously cast, it is possible to construct a highly reliable foundation rising part and to transmit the load of the house to the pressure-resistant slab through the beam and underground wall. I can do it. In particular, since the concrete of the underground wall, the beam, and the first floor foundation rising portion are integrated, high pullout strength can be secured for the anchor bolts embedded in each first floor rising portion.
[0054]
Moreover, in the construction method of the structural basement according to the present invention, after constructing a pressure-resistant slab in which the load of the prefabricated house is transmitted through the beam and the underground wall, it is provided on the underground wall and the first floor slab, the beam, and the upper part of the underground wall. Since it can be constructed by one-time concrete placement up to the first floor foundation riser and the first floor foundation riser provided on the upper part of the beam, it is easy to construct and there is no concrete joints, so the finish is good. In addition, the reinforcement of the first floor foundation riser provided on the upper part of the basement wall is extended to the basement wall, so that the concrete adhesion length can be taken sufficiently and stable strength is secured. I can do it.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view illustrating the structure of a basement provided with a dry area.
FIG. 2 is a cross-sectional view illustrating the configuration of an underground garage.
FIG. 3 is a diagram for explaining a formwork for constructing the basement of FIG. 1;
FIG. 4 is a view for explaining a receiving metal fitting for receiving a form of a rising portion formed on the upper part of the underground wall.
FIG. 5 is a diagram illustrating an example in which an outer peripheral surface of a basement wall and a rising portion is the same surface.
[Explanation of symbols]
A basement
B underground garage
C interior space
D External space
E opening
1 Pressure slab
2 1st floor slab
3 underground wall
4 Beam
5-7 Rising part
8 Reinforcing bars
9 Anchor bolt fixing plate
10, 16 Concrete
11-13, 15 Rebar
14 Anchor bolt
21-23 inner formwork
24, 25 Outer formwork
26 Formwork
31-33 Bracket
31a, 32a legs
31b, 32b Screw member
31c ~ 33c Supporting piece
31d, 32d Regulatory member

Claims (2)

  A structure of a basement constructed in a basement part of a prefabricated house, having a basement wall that transmits the load of the prefabricated house to the pressure-resistant slab, and a beam that transmits the load of the prefabricated house to the basement wall, The reinforcement is extended from the upper part of the underground wall to the first floor foundation rising part formed on the upper part of the underground wall, and the reinforcing bar extends from the upper part of the beam to the first floor foundation rising part formed on the upper part of the beam. 1st floor foundation rises with a reinforcing bar extending from the upper part of the underground wall to the first floor foundation rising part formed on the upper part of the underground wall and protruding to the upper surface of the first floor slab The anchor bolts are arranged on each first floor foundation rising portion, and the concrete is constructed from the underground wall to the first floor slab, the beam and the first floor foundation rising portion. Of the structure basement, characterized by Elephants.   A construction method of a structural basement constructed in an underground part of a prefabricated house, after constructing a pressure-resistant slab in which the load of the prefabricated house is transmitted through a beam and a basement wall, The bar arrangement and the formwork corresponding to the beam are constructed, and the bar arrangement of the first-floor foundation rising part is extended from the upper part of the underground wall to the first-floor foundation rising part formed on the upper part of the underground wall. The first floor foundation rising part is arranged from the upper part of the beam to the upper part of the first floor foundation, or from the upper part of the underground wall to the upper part of the underground wall. The first floor foundation riser is straddled across the first floor foundation riser, and the beams protruding from the upper surface of the first floor slab also serve as the first floor foundation riser. Place anchor bolts, along the 1st floor foundation riser, the 1st floor foundation riser Place the formwork and hold it so that the lower end of the formwork is at a height corresponding to the upper surface of the 1st floor slab, and then continue concrete from the underground wall to the 1st floor slab, beams and the 1st floor foundation riser A construction method of a structural basement characterized by placing

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