JP3180231U - Reinforced concrete structures - Google Patents

Abstract

Provided is a reinforced concrete structure capable of floating with a simple structure and having a strong structure capable of withstanding water pressure.
A reinforced concrete structure 1 includes a solid foundation 2 with reinforcing bars formed by placing concrete 22; a root foundation 3 with reinforcing bars formed by placing concrete 22 on the solid foundation 2; An RC wall 4 made of concrete with reinforcing bars formed by placing concrete 22 on the winding foundation 3 is provided. Further, the solid foundation 2, the root winding foundation 3 and the RC wall 4 are configured so as to be integrally formed in a U-shaped cross section, and the water line is configured within the height range of the RC wall 4, The solid foundation 2, the root winding foundation 3, and the RC wall 4 are configured to be able to float while being integrally connected.
[Selection] Figure 4

Description

  The present invention relates to a reinforced concrete structure, and in particular, to a reinforced concrete structure used as a house, a garage, an agricultural house, a factory, a warehouse, a villa, and the like.

  A lightweight structure made of lightweight steel used as a house or the like is known (for example, see Patent Document 1).

Registered Utility Model No. 314589

  By the way, there is a demand for a structure having a strong structure that can withstand water pressure in the event of a flood or tsunami. In addition, there is a demand for a structure that can surface during floods and tsunamis.

  In view of the above problems, an object of the present invention is to provide a reinforced concrete structure that can float with a simple structure, to provide a reinforced concrete structure with a strong structure that can withstand water pressure, and the like.

  A reinforced concrete structure according to the present invention includes a solid foundation with reinforcing bars formed by placing concrete, a root winding foundation with reinforcing bars formed by placing concrete on the solid foundation, and concrete on the root winding foundation. An RC wall made of concrete with reinforcement formed by casting, wherein the solid foundation, the root winding foundation, and the RC wall are integrally formed in a U-shaped cross section, and the RC wall The draft line is configured to be located within a height range, and the solid foundation, the root winding foundation, and the RC wall are configured to be able to float while being integrally connected.

  According to the present invention, it is possible to provide a reinforced concrete structure that can float with a simple structure. Moreover, according to this invention, the reinforced concrete structure of the strong structure which can endure water pressure can be provided.

The cross-sectional top view of the reinforced concrete structure which concerns on embodiment of this invention. The side view of the reinforced concrete structure which concerns on embodiment of this invention. The longitudinal section side view of the reinforced concrete structure concerning the embodiment of the present invention. The figure which shows an example of the state which the reinforced concrete structure concerning embodiment of this invention floated. It is a figure which shows an example of RC wall of the reinforced concrete structure which concerns on embodiment of this invention, (a) is a top view of RC wall, (b) is a front view of RC wall, (c) is the lower part of RC wall FIG. It is a figure which shows an example of RC wall with the opening part for window frames of the reinforced concrete structure which concerns on embodiment of this invention, (a) is a top view of RC wall upper part, (b) is a front view of RC wall, ( c) Plan view of the lower part of the RC wall. The figure which shows an example of RC wall of the reinforced concrete structure which concerns on embodiment of this invention, (a) is sectional drawing of the pillar part of RC wall before tap welding, (b) is the cross section of pillar part of RC wall after tap welding Figure. It is a figure which shows an example of the enforcement procedure of the reinforced concrete structure which concerns on embodiment of this invention, and sectional drawing of the reinforced concrete structure at the time of solid foundation manufacture. It is a figure which shows an example of the enforcement procedure of the reinforced concrete structure which concerns on embodiment of this invention, and sectional drawing of the reinforced concrete structure at the time of root winding foundation manufacture. It is a figure which shows an example of the enforcement procedure of the reinforced concrete structure which concerns on embodiment of this invention, and is sectional drawing of a reinforced concrete structure at the time of manufacture of RC wall etc. It is a figure which shows an example of the enforcement procedure of the reinforced concrete structure which concerns on embodiment of this invention, and sectional drawing of the reinforced concrete structure at the time of opening part for window frames. It is a figure which shows an example of the enforcement procedure of the reinforced concrete structure which concerns on embodiment of this invention, and sectional drawing of the reinforced concrete structure at the time of window frame installation. It is a figure which shows an example of the enforcement procedure of the reinforced concrete structure which concerns on embodiment of this invention, and sectional drawing of the reinforced concrete structure at the time of completion. The figure which shows an example of the state at the time of lifting of the reinforced concrete structure which concerns on embodiment of this invention, (a) is a front view of a reinforced concrete structure, (b) is the figure which expanded the principal part of the reinforced concrete structure partially.

  Hereinafter, a reinforced concrete structure according to an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a cross-sectional plan view of a reinforced concrete structure 1 adopting an RC (Reinforced Concrete) outer wall prefabricated structure according to an embodiment of the present invention. FIG. 2 is a side view of the reinforced concrete structure 1. FIG. 3 is a longitudinal side view of the reinforced concrete structure 1. FIG. 4 is a diagram illustrating an example of the reinforced concrete structure 1 in a floating state.

As shown in FIGS. 1, 2, and 3, the reinforced concrete structure 1 according to the embodiment of the present invention is composed of a steel frame and has a strong structure due to concrete placement. The reinforced concrete structure 1 is used as a house, a garage, an agricultural house, a factory, a warehouse, a villa, etc., for example.
Moreover, as shown in FIG. 4, the reinforced concrete structure 1 is formed so that it can float in the event of a flood, tsunami, or the like.

  Hereinafter, each structure of the reinforced concrete structure 1 which concerns on embodiment of this invention is demonstrated in detail.

  The reinforced concrete structure 1 is composed of a solid foundation 2 with a reinforcing bar 50, a root winding foundation 3 with a reinforcing bar 50 cast on the solid foundation 2, and a concrete with reinforcing bar 50 cast on the root winding foundation 3. RC wall 4 and the like.

Specifically, as shown in FIG. 1, the reinforced concrete structure 1 has a structure in which four sides are surrounded by a plurality of RC walls 4. As shown in FIG. 2 and FIG. 3, the solid foundation 2 containing reinforcing bars is formed on the crushed stone 80 which is laid out by rolling the crushed stone 80 and the like on the ground (GND). On the solid foundation 2, a root winding foundation 3 containing reinforcing bars is formed, and on the root winding foundation 3, an RC wall 4 is formed.
As shown in FIG. 3, a plurality of adjuster support members 5 are arranged on the floor, and a large pull 6 such as a channel is provided on the adjuster support member 5, and a joist 7 such as a C channel is provided on the large pull 6. A plywood 8 such as a control panel is provided on the joists 7, and the surface of the plywood 8 is finished with a color floor 9 or the like.

As shown in FIG. 2, the RC wall 4 is provided with a window, a window frame 10 and the like in the window frame opening 4a. Further, the RC wall 4 is provided with a door 11 such as a hinged door or a sliding door at the entrance opening 4b. This door 11 has a waterproof structure.
The reinforcing bars 50 in the RC wall 4 are not disposed in the window frame opening 4a or the entrance / exit opening 4b.
As shown in FIGS. 3 and 2, the ceiling portion is configured such that a ceiling lightweight steel frame 17 (LGS) is provided on the beam 15 with a suspension bolt 16, and a board 18 and a cross 19 are provided on the ceiling lightweight steel frame 17. Yes.
Further, a member such as a keystone plate 21 is provided on the beam 15, and a concrete portion 22 is placed thereon to form a roof portion. A rain gutter 24 is formed at the end of a gutter 23 made of concrete or the like. Is provided.

  Further, a waterproof covering 30 is formed on the outer side of the RC wall 4, the root winding foundation 3, the roof portion, a part of the solid foundation 2, etc. of the reinforced concrete structure 1. The waterproof covering portion 30 is formed, for example, by a waterproofing method in which a curing agent-containing resin is sprayed on the RC wall 4, the root winding foundation 3, the roof portion, or the like.

In addition, the reinforced concrete structure 1 is configured such that the solid foundation 2, the root winding foundation 3, and the RC wall 4 are integrally formed in a U-shaped cross section, and a waterproof covering 30 is formed on the outer side. That is, as shown in FIG. 4, the reinforced concrete structure 1 has a structure that floats on water like a ship.
Specifically, the reinforced concrete structure 1 includes a solid foundation 2, a root winding foundation 3, an RC wall 4, a steel frame body, a ceiling part, and the like that are above the ground (GND) crushed stone 80 during a flood or tsunami. It has a structure that allows it to float in an integrally connected state. The water line (WL) is configured to be located within the height range of the RC wall 4. Specifically, the water line (WL) is configured to be lower than the lower end of the window frame opening 4a. As described above, the door 11 provided in the entrance opening 4b of the RC wall 4 has a waterproof structure and prevents water from entering the room.

Next, the RC wall 4 will be described in detail with reference to the drawings.
5A and 5B are views showing an example of the RC wall 4 of the reinforced concrete structure 1 according to the embodiment of the present invention. FIG. 5A is a plan view of the upper portion of the RC wall 4, and FIG. FIG. 5C is a front view of the lower portion of the RC wall 4.
FIG. 6 is a view showing an example of the RC wall 4 having the window frame opening 4a of the reinforced concrete structure 1, FIG. 6A is a plan view of the upper portion of the RC wall 4, and FIG. 6B is an RC wall. 4 is a front view, and FIG. 6C is a plan view of the lower portion of the RC wall 4.
FIG. 7 is a view showing an example of the RC wall of the reinforced concrete structure 1. FIG. 7A is a cross-sectional view of the column portion of the RC wall 4 before tap welding, and FIG. 7B is the RC wall 4 after tap welding. It is sectional drawing of this pillar part.

As shown in FIG. 5, the RC wall 4 has channel members 41 as column portions arranged at both ends of reinforcing bars 50 arranged at predetermined intervals in the vertical and horizontal directions, and the reinforcing bars 50 are connected and fixed to the cores of the channel members by welding. Has been. Further, a reinforcing bar 50 is connected and fixed to the frame top channel 42 (channel member) provided on the upper portion of the RC wall 4 by welding or the like.
Further, as shown in FIG. 5, a channel member 41 as a pillar portion, a frame top channel 42, and a beam 15 such as H steel are connected by a connecting member 14 such as a high tension bolt and connected by welding. Yes.
Further, a lower frame support and joist receiving angle 43 is provided near the lower portion of the RC wall 4 and is connected and fixed by welding.
As shown in FIG. 6, when the window frame opening 4 a is provided in the RC wall 4, the reinforcing bars 50 are not arranged in the window frame opening 4 a. And after placing concrete, the opening part 4a for window frames is formed by cutting means, such as a concrete cutter.

The reinforcing bar 50 is welded and fixed to a frame (such as a channel member 41 as a column portion) at a factory, transferred to a site by a truck or the like, and installed at a predetermined position on the site.
At the site, as shown in FIG. 7, the channel members 41 as the pillar portions of the adjacent RC walls 4 are connected by the connecting members 14 including the high tension bolt members and are connected by tap welding. (Tap weld 35).
Thereafter, the RC wall 4 is formed by placing the concrete 22 after placing the formwork.
Thus, the RC wall 4 has a strong structure.

  Next, an example of the enforcement procedure of the reinforced concrete structure 1 which concerns on embodiment of this invention is demonstrated, referring drawings.

FIG. 8 is a cross-sectional view of the reinforced concrete structure 1 when the solid foundation is manufactured.
First, as shown in FIG. 8, crushed stone 80 or the like is laid on the ground (GND) and rolled, and the formwork 60 and the reinforcing bar 50 are arranged at predetermined positions on the crushed stone 80 that is substantially flat, and then concrete. The solid foundation 2 is formed by driving 22. At this time, it is preferable to form the reinforcing bar 50 so as to extend to the root winding portion. Moreover, it is preferable to form so that the edge part vicinity of the solid foundation 2 may become thick.

FIG. 9 is a cross-sectional view of the reinforced concrete structure 1 when the root winding foundation is manufactured.
Next, as shown in FIG. 9, the steel frame such as the RC wall 4 transferred from the factory or the like is placed at a predetermined position, and the steel frame is connected by the connecting member 14 such as a high tension bolt member. Connect the muscles by tap welding. Further, a joist 7 such as a C channel is provided at a predetermined position and fixed to the channel member 41 of the column portion by welding.
After arranging the root winding portion and assembling the inner frame of the root winding portion, the concrete 22 is placed to form the root winding foundation 3 containing the reinforcing bar 50 on the solid foundation 2.

FIG. 10 is a cross-sectional view of the reinforced concrete structure 1 when the RC wall 4 and the like are manufactured.
Next, as shown in FIG. 10, in order to manufacture the RC wall 4 and the like, the mold 60 is disposed at a predetermined position. At this time, a beam 15 such as H steel or a keystone portion rate receiving channel 44 is provided on a housing (such as a lightweight steel frame) of the RC wall 4, and a keystone plate 21 is installed thereon. The parts such as the ridges 23 and the rain gutters 24 are subjected to ridge support and support by temporary members 61.
Next, by placing the concrete 22, the RC wall 4 and the roof portion by the concrete 22 containing the reinforcing bars 50 are formed on the root winding foundation 3.

FIG. 11 is a cross-sectional view of the reinforced concrete structure when the window frame opening of the RC wall 4 is formed.
Next, as shown in FIG. 11, after the concrete 22 is hardened, the mold 60 is removed. In order to form the window frame opening 4a and the like of the RC wall 4, marking is performed, and the window frame opening 4a and the door opening 4b are formed by cutting with a cutting means such as a concrete cutter.

FIG. 12 is a cross-sectional view of the reinforced concrete structure 1 when the window frame 10 is installed.
Next, as shown in FIG. 12, installation such as installing a window or window frame 10 in the window frame opening 4 a of the RC wall 4, installing a door or the like in the entrance opening 4 b of the RC wall 4, etc. I do.
Then, the RC covering 4 of the reinforced concrete structure 1, the root winding foundation 3, the roof portion, a part of the solid foundation 2, and the like are waterproofed by a waterproof construction method in which, for example, a resin containing a curing agent is sprayed on the outer side. Form.

FIG. 13 is a cross-sectional view of the reinforced concrete structure 1 when completed.
Next, as shown in FIGS. 13 and 3, a plywood 8 such as a panel is provided on a joist 7 such as a plurality of adjuster support members 5, a large pull 6, and a C channel in the floor portion. Finish the floor with a color floor 9 or the like.
A board 18 and a cross 19 are installed on a suspension bolt 16 and a ceiling light steel frame 17 (LGS) provided on the beam 15.
As described above, the reinforced concrete structure 1 is formed.

As described above, the reinforced concrete structure 1 according to the embodiment of the present invention includes the solid foundation 2 containing the reinforcing bar 50 formed by placing the concrete 22 and the reinforcing bar 50 containing the reinforcing bar 50 formed by placing the concrete 22 on the solid foundation 2. A solid foundation 2 and an RC wall 4 made of concrete 22 containing reinforcing bars 50 formed by placing concrete 22 on the foundation roll 3, and the solid foundation 2, the root winding foundation 3 and the RC wall 4 are It is configured so as to be integrally formed into a U-shaped cross section, and is configured so that the water line (WL) is positioned within the height range of the RC wall 4. The solid foundation 2, the root winding foundation 3, and the RC wall 4 Are configured to be able to float in an integrally connected state.
Thus, the solid foundation 2, the root winding foundation 3, and the RC wall 4 can be floated in an integrally connected state, and the reinforced concrete structure 1 that can float with a simple structure can be provided.
Moreover, since the solid foundation 2, the root winding foundation 3, and the RC wall 4 are integrally configured, the reinforced concrete structure 1 having a strong structure capable of withstanding water pressure can be provided.

  Moreover, as for the reinforced concrete structure 1 which concerns on embodiment of this invention, RC wall 4 and the root winding foundation 3 have the waterproof coating | coated part 30 in an outer part. For this reason, it is possible to prevent water from entering the building, which is the reinforced concrete structure 1, with a simple structure. In detail, even if the reinforced concrete structure 1 is in a state of floating in water, water can be prevented from entering the building.

In the reinforced concrete structure 1 according to the embodiment of the present invention, after the RC wall 4 places the concrete 22 in a state where the reinforcing bars 50 are disposed in a portion other than the window frame opening 4a, a cutting means such as a concrete cutter is used. Thus, the window frame opening 4a and the like are formed. For this reason, the window frame opening 4 a and the like can be easily formed in the RC wall 4. A window, a window frame 10 or the like can be easily provided in the window frame opening 4a.
Moreover, the reinforced concrete structure 1 which concerns on embodiment of this invention is comprised so that a water line (WL) may become a position lower than the lower end of the opening part 4a for window frames. For this reason, even if the reinforced concrete structure 1 is in a state of floating in water, it is possible to prevent water from entering the building.

Moreover, the reinforced concrete structure 1 which concerns on embodiment of this invention is comprised so that the specific gravity of the whole reinforced concrete structure may be about 0.3-0.5, for example, about 0.33. Yes. In addition, the gravity (product of mass and gravitational acceleration) acting on the reinforced concrete structure 1 is the buoyancy acting on the reinforced concrete structure 1 (volume below the draft line (WL) in the fluid (water etc.) of the reinforced concrete structure 1). The volume) is equal to the product of the density of water and the acceleration of gravity), and the water line (WL) is positioned within the height range of the RC wall 4. For this reason, the reinforced concrete structure 1 which can float easily in water can be provided.
In addition, since the foundation parts such as the solid foundation 2 and the root winding foundation 3 occupy about 55% (weight conversion) of the total weight of the reinforced concrete structure 1, the reinforced concrete structure 1 that can float in the water in a stable posture is provided. Can be provided.

Moreover, the reinforced concrete structure 1 which concerns on embodiment of this invention has the RC wall 4 which has the channel member 41 arrange | positioned at both ends as a pillar, and was formed by placing concrete 22 between the channel members 41. It is. In detail, the channel member 41 of the adjacent RC wall 4 is connected by a connecting member 14 including a bolt member, and after being connected by tap welding, the concrete 22 is placed.
For this reason, the reinforced concrete structure 1 of a very strong structure can be provided.

FIG. 14 is a view showing an example of a state when the reinforced concrete structure 1 according to the embodiment of the present invention is lifted. Specifically, FIG. 14 (a) is a front view of the reinforced concrete structure 1, and FIG. It is the figure which expanded the principal part of the reinforced concrete structure 1 partially.
As shown in FIG. 14, the reinforced concrete structure 1 which concerns on embodiment of this invention may be provided with the hook 51 in the upper part of a reinforcing bar frame (for example, pillar part etc. of RC wall 4). The hook 51 is configured to be detachably linked to a lifting means B such as a crane via a lifting wire B1 or the like. The hook 51 includes a reinforcing bar 50 (or a rod provided to be bent in an L shape provided in the RC wall 4, the root winding foundation 3, and the solid foundation 2) and either directly or an adjustment member 52 (a tightening bracket such as a turnbuckle). ) Etc. For example, when the planar shape of the reinforced concrete structure 1 is formed in a rectangular shape, the hooks 51 are respectively arranged at four or more places such as the corner pillar or near the corner pillar, and the lifting wire B1 is bridged. By lifting the lifting means B, the reinforced concrete structure 1 is lifted while the reinforcing bar body, the solid foundation 2, the root winding foundation 3, and the RC wall 4 are integrally connected.
Thus, the reinforced concrete structure 1 can be provided that can be easily moved to a predetermined place by lifting the entire reinforced concrete structure 1 by the lifting means B such as a crane.

  In addition, as described above, the RC wall 4 of the reinforced concrete structure 1 is configured to be strong against water pressure during a flood, tsunami, or the like, so that it is possible to secure time for waiting for rescue.

  In addition, the reinforced concrete structure 1 employs a channel as a pillar of the steel frame, and has a structure in which the steel frames are fastened together by a connecting member 14 such as a high tension bolt and joined by tap welding, so the pillar is substantially the same as the I beam. It has a strong structure.

  In addition, the reinforced concrete structure 1 has a structure in which a pillar portion is formed by a channel or the like and the concrete 22 enters the inside of the pillar of the channel. Therefore, the structure is very strong and is not easily broken by an impact. .

  In addition, since the formwork does not require any work on the opening, it is designed to sandwich the channel pillar, so that the concrete can be placed easily and quickly, and there are no mistakes such as jumping. Therefore, there is no wasteful work such as repairs and the finish is beautiful.

  Further, since the opening of the RC wall 4 is accurately marked and cut and opened with a concrete cutter, it can be used for wooden houses such as entrance / exit sashes, window sashes, ventilation fans, and other household appliances.

  In addition, by waterproofing the foundation, outer wall, and roof, it is possible to prevent water from entering and float on the water surface.

Moreover, since the specific gravity of the reinforced concrete structure 1 is 0.33 t / m < ³ > as mentioned above, it floats on water. Since the weight of the base portion is 55% at 90 t, it can float in a well-balanced manner as shown in the drawing.
Specifically, in the present embodiment, the area of the building of the reinforced concrete structure 1 is 126.25 m ² . The volume of the reinforced concrete structure 1 is 513 m ³ , the weight is 142.5 t, the weight of the floor / wall / ceiling finish is 13 t, the steel frame weight is 9.5 t, and the total weight is 165 t. That is, 1.3 t per 1 m ² .
For this reason, the specific gravity converted volume line is 165 t ÷ specific gravity 2.5 = 66 m ³ . The height of the center of gravity from the base bottom is 66 m ³ ÷ 126.25 m ² ≈523 mm. The water line (WL) is 523 mm × specific gravity 2.5 = 1307 mm (when buoyancy is 1).

  In addition, for example, the draft line (WL) of the reinforced concrete structure 1 is about 1307 mm from the bottom of the foundation and is about 1550 mm below the window, and there is a margin of 243 mm, and the window glass is not broken by water pressure. The doorway is a door and will not be broken by water pressure (reinforced sash).

  Moreover, as above-mentioned, the reinforced concrete structure 1 is a structure which can be lifted with the foundation. In addition, it has a low center of gravity as shown in the drawing, so it floats on the surface with plenty of room, making it a safe and secure house against tsunami disasters.

  In addition, the reinforced concrete structure 1 according to the embodiment of the present invention is excellent in earthquake resistance, fire resistance, water resistance, sound insulation, and heat insulation, has a long service life, is low in maintenance costs, and is safe and secure for residents. It is a friendly eco house.

  Moreover, since the reinforced concrete structure 1 which concerns on embodiment of the said invention is constructed | assembled by an outer wall panel construction method, it can build the house where the construction period was short and excellent in precision. RC houses can be provided at a relatively low cost.

Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to these embodiments, and there are design changes and the like within a scope that does not depart from the gist of the present invention. However, it is included in the present invention.
Further, the embodiments described in the above drawings can be combined with each other as long as there is no particular contradiction or problem in the purpose and configuration.
Moreover, the description content of each figure can become each independent embodiment, and embodiment of this invention is not limited to one embodiment which combined each figure.

1 Reinforced concrete structure (RC outer wall prefabricated structure)
2 Solid foundation (solid foundation with reinforcing bars)
3 root winding foundation (reinforcement root winding foundation)
4 RC wall (reinforcing concrete wall)
4a Window frame opening 4b Entrance / exit opening 5 Adjuster support 6 Large pull (channel)
7 jota (C channel)
8 Plywood 9 Color floor 10 Window frame (window)
DESCRIPTION OF SYMBOLS 11 Door 14 Connection member 15 Beam 16 Hanging bolt 17 Ceiling light steel frame 18 Board 19 Cross 21 Keystone plate (member)
22 Concrete 23 Spear 24 Rain gutter 30 Waterproof covering 35 Tap welded part 41 Channel member 42 Frame top channel 43 Frame bottom support and joist receiving angle 44 Keystone plate receiving channel 50 Reinforcement 51 Hook 52 Adjusting member (tightening fitting)
60 Formwork 61 Temporary member 80 Crushed stone B Lifting means B1 Lifting wire GND Ground

Claims (4)

A reinforced concrete structure,
A solid foundation with reinforcing bars formed by placing concrete,
Neck winding foundation with reinforcing bars formed by placing concrete on the solid foundation,
RC wall made of concrete with reinforcing bars formed by placing concrete on the root winding foundation,
The solid foundation, the root winding foundation, and the RC wall are configured to be integrally formed in a U-shaped cross section, and the water line is configured to be positioned within the height range of the RC wall,
A reinforced concrete structure, wherein the solid foundation, the root winding foundation, and the RC wall are configured to float in an integrally connected state.   The reinforced concrete structure according to claim 1, wherein the RC wall and the root winding foundation have a waterproof covering portion on an outer side portion. The RC wall has a structure in which the window frame opening is formed after placing concrete in a state where reinforcing bars are arranged in a portion excluding the window frame opening,
The reinforced concrete structure according to claim 1 or 2, wherein the water line is configured to be at a position lower than a lower end of the window frame opening. The RC wall has a channel member arranged at both ends as a pillar, and is formed by placing concrete between the channel members,
The reinforced concrete structure according to any one of claims 1 to 3, wherein channel members of adjacent RC walls are connected by connecting members including bolt members and are connected by tap welding.

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