JP7289589B2 - Structure of the concrete walls that make up the structure - Google Patents

Description

The present invention relates to the structure of concrete walls that constitute structures such as buildings, retaining walls, tunnel skeletons, and bridges.

For example, concrete walls with embedded reinforcing bars are used for the inner and outer walls of buildings, floors, ceilings, retaining walls, segments that make up the skeleton of tunnels, and floor slabs of bridges.
The surface of such a concrete wall is composed of a flat surface.

JP 2012-36574 A

On the other hand, the concrete walls forming these structures are required to have a thickness of a predetermined value or more because they receive a compressive load in some way.
As a result, the thickness of the concrete wall is inevitably increased, which is disadvantageous in terms of ease of handling, and the amount of concrete used increases, increasing the cost of the structure and prolonging the construction period. rice field.
The present invention has been made in view of such circumstances, and its object is to reduce the thickness of the concrete wall, which is advantageous in terms of easy handling, reduce the amount of concrete used, and reduce the cost of the structure. To provide a structure of a concrete wall constituting a structure that is advantageous in going down.

In order to achieve the above object, the present invention provides a structure of a concrete wall constituting a structure, wherein the concrete wall is composed of a precast concrete plate in which reinforcing bars are embedded, and the thickness direction of the precast concrete plate is At least one surface is characterized by being formed of a PCCP structure consisting of a plurality of surfaces.
Further, according to the present invention, the structure is a building, and the concrete wall is an outer wall, an inner wall, a floor, or a ceiling of the building.
Further, the present invention is characterized in that the structure is a retaining wall made of the concrete wall.
Further, the present invention is characterized in that the structure is a tunnel skeleton in which a plurality of segments made of the concrete walls are assembled, and the precast concrete plate constitutes the segments.
Further, the present invention is characterized in that the structure is a bridge, and the concrete wall is a floor slab of the bridge.

According to the present invention, at least one surface of the concrete wall is strongly reinforced by the PCCP structure, and can withstand a greater compressive load than a concrete wall consisting of only flat surfaces of the same thickness.
Therefore, since a thinner concrete wall can be used than a conventional concrete wall, the amount and weight of concrete used can be reduced, which is advantageous in reducing the cost of the structure.
Furthermore, since the concrete wall can be made thinner, the ratio of the space occupied by the concrete wall in the structure can be reduced, which is advantageous in securing large internal and external spaces of the structure.
In addition, when the structure is a building, it is possible to use concrete walls that are thinner than conventional concrete walls. The amount and weight of concrete used can be greatly reduced, and as a result, the size and simplification of foundations and anti-earthquake structures can be achieved, which is advantageous in greatly reducing the cost of structures.
Furthermore, since the concrete walls can be made thinner, the ratio of the space occupied by the concrete walls to the living space and office space can be reduced, which is advantageous in securing large living space and office space.
In addition, when the structure is a retaining wall made of concrete walls, thinner concrete walls can be used than conventional concrete walls, and the amount and weight of concrete used can be reduced. It is advantageous in terms of simplification and reducing the cost of the retaining wall.
Furthermore, since the concrete wall can be made thinner, the ratio of the space occupied by the retaining wall can be reduced, which is advantageous in securing a large space such as a road facing the retaining wall.
In addition, if the structure is a tunnel frame that is assembled with multiple segments that form concrete walls, thinner segments can be used compared to conventional segments, reducing the amount of concrete used and reducing tunnel construction costs. It is advantageous in doing so.
Furthermore, since a segment thinner than the conventional segment can be used, the proportion of the segment occupied in the excavated hole can be reduced, which is advantageous in securing a large tunnel space in the excavated hole with the same inner diameter as the conventional one.
Moreover, when the structure is a bridge, a floor slab that is thinner than the conventional precast concrete floor slab can be used, and the amount of concrete used can be reduced, which is advantageous in reducing the cost of bridge construction.
In addition, since floor slabs that are thinner than conventional precast concrete slabs can be used, it is possible to reduce the size of girders, bearings, piers, and abutments, which is advantageous in reducing bridge construction costs.

It is a front view of a part of the surface of the concrete wall of the first embodiment.

Embodiments of the present invention will now be described with reference to the drawings.
First, the first embodiment will be described with reference to FIG.
In the first embodiment, the structures are buildings, and the buildings include general pillar houses, apartment houses, warehouses, gymnasiums, high-rise buildings, and the like.
The exterior or interior walls, floors or ceilings of those buildings are constructed of concrete walls.
The concrete wall is composed of a plurality of precast concrete plates 10 which are assembled to the pillars and beams of the building and constitute the outer wall, inner wall, floor or ceiling.
Reinforcing bars are embedded inside the precast concrete plate 10, and as shown in FIG. 1, both sides or one side in the thickness direction of the precast concrete plate 10 is formed of a PCCP structure 12 consisting of a plurality of faces 1202. .

According to the concrete wall made of the precast concrete plate 10 of the present embodiment, at least one surface of the concrete wall is not a flat surface but is composed of the PCCP structure 12 consisting of a plurality of surfaces 1202 .
Therefore, at least one surface of the concrete wall is strongly reinforced by the PCCP structure 12, and can withstand a greater compressive load than a concrete wall consisting of only flat surfaces of the same thickness.
Therefore, thinner concrete walls can be used compared to conventional concrete walls.
Therefore, it is possible to reduce the amount and weight of concrete walls, especially in large housing complexes, large warehouses, gymnasiums, and high-rise buildings that use a large amount of concrete walls. It is advantageous in terms of simplification and cost reduction of the structure.
In addition, since the concrete walls can be made thinner, the ratio of the space occupied by the concrete walls to the living space and office space can be reduced, which is advantageous in securing large living space and office space.

In the above embodiment, the case where the present invention is applied to the concrete walls constituting the outer wall, inner wall, floor or ceiling of a building has been described, but the present invention is applicable to concrete retaining walls, concrete tunnel frames, Of course, it can also be applied to concrete floor slabs of bridges.
When the structure is a concrete retaining wall, the precast concrete plate 10 of the present invention is applied to the retaining wall that forms the concrete wall.
Also in this case, the same effect as in the first embodiment can be obtained.
That is, at least one side of the retaining wall is strongly reinforced by the PCCP structure 12, so that a thinner concrete wall can be used than the conventional concrete wall, and the amount and weight of concrete used for the retaining wall can be reduced. As a result, the size and simplification of the retaining wall can be achieved, which is advantageous in reducing the cost of the retaining wall.
In addition, since the concrete wall can be made thinner, the ratio of the space occupied by the retaining wall can be reduced, which is advantageous in securing a large space such as a road facing the retaining wall.

In addition, when the structure is a tunnel frame assembled with a plurality of segments forming a concrete wall used in a shield construction method or the like, the precast concrete plate 10 of the present invention is applied to the segments, as in the first embodiment. effect is played.
That is, at least one of the inner peripheral surface and the outer peripheral surface of the segment is strongly reinforced by the PCCP structure 12, so that a thinner segment can be used than the conventional segment, and the amount of concrete used for the segment can be reduced. It is advantageous in reducing the cost of tunnel construction.
In addition, since a segment thinner than the conventional segment can be used, the proportion of the segment occupied in the excavated hole can be reduced, which is advantageous in securing a large tunnel space in the excavated hole with the same inner diameter as the conventional one.

Moreover, when the structure is a bridge, the precast concrete plate 10 of the present invention is applied to the concrete floor slab of the bridge, and the same effects as those of the first embodiment are exhibited.
That is, at least one surface of the precast concrete floor slab is strongly reinforced by the PCCP structure 12, so that a thinner floor slab can be used than the conventional precast concrete slab, and the amount of concrete used for the precast concrete slab can be reduced. can be reduced, which is advantageous in reducing the cost of bridge construction.
In addition, since floor slabs that are thinner than conventional precast concrete slabs can be used, it is possible to reduce the size of girders, bearings, and piers, which is advantageous in reducing bridge construction costs.
The use of the precast concrete plate 10 of the present invention is not limited to the above-mentioned buildings, retaining walls, tunnel skeletons, and bridges, but is widely applied to precast concrete plates used in various structures.

10 precast concrete plate 12 PCCP structure

Claims (2)

A concrete wall structure that constitutes a structure,
The structure is an arc-shaped tunnel skeleton assembled with a plurality of segments,
The segment is composed of a precast concrete plate with embedded reinforcing bars,
At least one of the inner peripheral surface and the outer peripheral surface of the segment is formed of a PCCP structure consisting of a plurality of surfaces,
A structure of a concrete wall constituting a structure characterized by: Both the inner and outer peripheral surfaces of the segment are formed of the PCCP structure,
A concrete wall structure constituting a structure according to claim 1, characterized in that:

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