KR101221161B1 - Wall Structure having Half-slab Precast Panel and Constructing Method thereof - Google Patents

Abstract

The present invention relates to a wall structure such as the alternating of the ramen bridge, the pier or bridge of the general bridge, or the retaining wall, and the construction method thereof. Specifically, the precast concrete and the steel are synthesized, but the precast concrete has a smaller thickness than the steel. By constructing wall structures using half slab-shaped precast panels, the walls are quickly and economically secured, easily and without the use of formwork, while minimizing the use of formwork. The present invention relates to a wall structure using a half slab type precast panel and a method of constructing the same.

Description

Wall structure having half-slab precast panel and constructing method

The present invention relates to a wall structure such as the alternating of the ramen bridge, the pier or bridge of the general bridge, or the retaining wall, and the construction method thereof. By constructing wall structures using half slab-shaped precast panels, the walls are quickly and economically secured, easily and without the use of formwork, while minimizing the use of formwork. The present invention relates to a wall structure using a half slab type precast panel and a method of constructing the same.

Wall structures, such as bridges, bridges, or retaining walls, are generally constructed with cast-in-place concrete. In recent years, attempts have been made to manufacture such wall structures as precast concrete members, but the precast concrete members forming the wall structures are so huge that it is very difficult to transport them to the site and install them in the field. It is not happening.

The present invention was developed to solve the above problems of the prior art, specifically, when constructing a wall structure, such as a bridge pier, alternating, or retaining wall of the bridge using a precast concrete member, pre-slab having a half slab structure By using cast concrete panels and manufacturing part of the wall structure as cast-in-place concrete, the advantages of construction using precast concrete members, namely rapid and high-quality construction, are achieved, and the precast concrete members become huge. The purpose of the present invention is to allow easy and economical construction of wall structures by preventing the precast concrete member from being transferred, lifted, and installed.

In order to achieve the above object, in the present invention, the precast concrete slab extending in the height direction of the wall structure; It consists of a plate member extending in the height direction of the wall structure and arranged in a direction orthogonal to the precast concrete slab, the width of the plate member is greater than the thickness of the precast concrete slab, so that part of the width of the precast concrete slab in the width direction Manufacturing a half panel member embedded in a half panel member including a shear bonding plate embedded in and protruding upright on an upper surface of the precast concrete slab; Arranging the two half panel members to face each other such that the shear bonding plate portions face each other; Coupling the two half panel members to each other such that both ends of the horizontal connecting members disposed in a direction perpendicular to the height direction of the wall structure are respectively coupled to opposite shear coupling plates of the two half panel members; And placing the concrete in the space between the half panel members such that the shear coupling plates protruding out of the precast concrete slab are embedded in the state where the two half panel members are bonded to each other by the horizontal connecting members while maintaining the gap facing each other. Provided is a method of constructing a wall structure comprising the step of filling and filling.

In addition, the present invention provides a wall structure formed by such a construction method.

According to the present invention, since a member made of a panel having a precast concrete slab corresponding to a part of the thickness of the wall structure instead of the entire thickness is manufactured at the factory, it is transferred to the site and used for construction of the wall structure. However, even if the thickness of the wall structure is large, there is no difficulty in transporting the factory manufactured products, and also there is no difficulty in installing it vertically.

Therefore, in the present invention, it is possible to reduce the difficulty and cost in preparing large-capacity transfer equipment and installation equipment for the transfer of precast members for the construction of the wall structure having a large cross-section and self-weight, so that the construction of economical wall structure This effect becomes possible.

1 is a schematic perspective view of an arched ramen bridge showing an example in which the wall structure according to the present invention is used alternately of a ramen bridge having an arched span member.
2 is a schematic perspective view of one example of a half panel member used to build a wall structure in accordance with the present invention.
3 is a schematic perspective view of an example of a half panel member according to the present invention having a curved shape.
4 and 5 are schematic perspective views showing different angles of viewing the state in which two half panel members according to the present invention are disposed to face each other in order to construct a wall structure.
6 is a schematic perspective view showing a state in which a concrete structure is poured between the half panel members of the present invention facing each other to complete a wall structure.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

In the present invention, wall structures such as alternating, retaining walls, central dividing walls in tunnels, piers having a length perpendicular to the axial direction than the width of the axial direction, and the like are " half slab type precast concrete panel members " Hereinafter, for convenience, abbreviated as "half panel member"). As will be described later, after the half panel member is manufactured in advance in the factory, the half panel member is transferred to the field, and the two half panel members are disposed to face each other, and the two half panel members are connected to each other, and then the two half panel members are In-site concrete is poured in between, and a wall structure having a cross section required by the design is constructed.

1 is a schematic perspective view of an arched ramen bridge showing an example in which the wall structure 100 according to the present invention is used in alternation of a ramen bridge having an arcuate span member 200. However, the wall structure according to the present invention is not limited to the use of such arched ramen bridges, and can be used for various other forms and uses, such as alternating bridges, bridges, or retaining walls.

Next, the configuration of the wall structure 100 according to the present invention will be described by exemplifying the alternation of the arched ramen bridge illustrated in FIG. 1.

FIG. 2 is a schematic perspective view of an example of a half panel member 1 used to build a wall structure 100 according to the present invention, and FIG. 3 is a half panel member 1 having a curved shape. A schematic perspective view of one example is shown. For convenience, in FIG. 2, the precast concrete slab 30 is indicated by a dotted line, and the rebar network 40 disposed therein is illustrated to be viewed through.

2 and 3, the half panel member 1 according to the present invention includes a precast concrete slab 30 and a precast concrete slab 30 formed in a form extending in the height direction of the wall structure. It is disposed in a direction orthogonal to the () and part is embedded in the precast concrete slab 30, and the other part includes a shear bonding plate 20 of the configuration is upright protruding over the upper surface of the precast concrete slab (30) It is composed.

The shear coupling plate 20 has a predetermined width and the half panel member 1 is composed of a plate member that is elongated. The precast concrete slab 30 is formed to extend in the longitudinal direction of the half panel member (1). The shear coupling plate 20 and the precast concrete slab 30 are coupled in a state perpendicular to each other. That is, the thickness direction of the precast concrete slab 30 is the width direction of the shear bonding plate 20. A portion of the shear bond plate 20 in the width direction is embedded in the precast concrete slab 30, and the remaining portion of the shear bond plate 20 protrudes out of the outer surface of the precast concrete slab 30. It is.

Looking at the manufacturing process of the half-panel member 1, the configuration of the half-panel member 1 can be seen more clearly, the reinforcing bar consisting of the main reinforcement and transverse reinforcement to be reinforced inside the precast concrete slab 30 Make 40. At this time, it is preferable to combine such a reinforcing bar network with one side of the shear coupling plate 20 in the width direction. One side of the shear coupling plate 20 in the width direction and the reinforcing bar can be joined by a method such as welding. In particular, the shear bond plate 20 and the reinforcing bar network may be joined by welding the bent section with the reinforcing bar network to be used to be parallel to the reinforcing bar network by using a bent section steel having an N-shaped cross section. . In addition to the above method, a through hole may be formed in the shear coupling plate 20, and the transverse rebars of the reinforcing bar may pass through the through hole, and then the transverse reinforcing bars may be combined with the longitudinal main reinforcing bars.

As described above, the precast concrete slab 30 is manufactured to embed the reinforcing bar mesh in the state in which the reinforcing bar network is coupled to one side in the width direction of the shear coupling plate 20. At this time, the thickness of the precast concrete slab 30 is smaller than the width of the shear bond plate (20). Therefore, one side of the shear bond plate 20 coupled to the reinforcing bar is embedded in the precast concrete slab 30, the other side of the shear bond plate 20 is not coupled to the reinforcing bar network of the precast concrete slab 30 It is in a state protruding out of the outer surface.

On the other hand, before placing concrete for the production of precast concrete slab 30, as shown in the drawing, the reinforcing bar may be provided with a shear reinforcing bar 33 extending in the width direction of the shear bonding plate 20 protrudes. When the precast concrete slab 30 is formed, one end of the shear reinforcing bar 33 is embedded in the precast concrete slab 30, and the other end is protruded toward the shear coupling plate 20.

The shear coupling plate 20 is a member that allows the precast concrete slab 30 and the site-pouring concrete to be integrated with each other. In order to exert such a function faithfully, a through hole 21 is formed in a portion of the shear coupling plate 20 that protrudes out of the precast concrete slab 30.

When the half panel member 1 is manufactured in a factory to have such a configuration, the half panel member 1 is transferred to a site and used for construction of a wall structure. In the present invention, since the half-panel member 1 having a precast concrete slab 30 corresponding to a part of the thickness, rather than the entire thickness of the wall structure, is manufactured at the factory and transferred to the site, even if the thickness of the wall structure is large. There is no difficulty in transporting the factory manufactured products, and also there is no difficulty in installing the half panel member 1 upright. Therefore, it is possible to reduce the difficulty and cost in preparing large-capacity transfer equipment and installation equipment for the transfer of precast members for the construction of wall structures having a large cross section and self-weight, thereby enabling economic construction of wall structures. do.

4 and 5 are schematic perspective views showing different angles of viewing the state in which two half panel members 1 having the above configuration are disposed to face each other in order to construct a wall structure. As shown in Figs. 4 and 5, the half panel member 1 transported to the site is erected so that the longitudinal direction (lengthwise direction) is directed in the vertical direction so that the two face each other. Since the precast concrete slab 30 provided in each half panel member 1 forms an outer surface of the wall structure, the shear bonding plates 20 protruding from the precast concrete slab 30 face each other. Two half panel members 1 are disposed to face each other. At this time, the two half panel members 1 are connected to each other using the horizontal connection member 50 so that the half panel members 1 can stand in an upright state. That is, as shown in FIGS. 4 and 5, in a state in which the two half panel members 1 are disposed to face each other so that the portions of the shear bonding plate 20 protruding from the precast concrete slab 30 face each other. Between the shear coupling plate 20 facing the horizontal connecting member 50 made of an elongated member, disposed perpendicular to the height direction of the wall structure, the both ends of the horizontal connecting member 50, each half panel member It is to be combined with the shear bonding plate 20 of (1). The horizontal connecting member 50 may be arranged in a plurality of spaced apart in the longitudinal direction of the half panel member 1, that is, when the half panel member 1 is upright as shown in the vertical direction.

FIG. 6 is a schematic perspective view showing a state in which concrete is poured in the field between the half panel members 1 facing each other so that the wall structure 100 is completed. As shown in FIGS. 4 and 5, two half panel members 1 are disposed to face each other so that the portion of the shear coupling plate 20 protruding from the precast concrete slab 30 faces each other, and the horizontal connection member The space between the half panel members 1, that is, between the two precast concrete slabs 30, is coupled to each other while the two half panel members 1 are coupled to each other while maintaining an interval facing each other. Concrete 60 is poured into the space on site.

As such, when the concrete 60 is poured into the space between the two precast concrete slabs 30, the shear bonds protruding to the outside of the precast concrete slab 30 from each half panel member 1 are filled. A portion of the plate 20 is embedded in the site-pouring concrete 60. In addition, the shear reinforcing bar 33 protruding outside the precast concrete slab 30 is also embedded in the site-pouring concrete 60. Therefore, the precast concrete slab 30 and the shear coupling plate 20 and the site-pouring concrete 40 of both half panel members 1 are integral with each other to form a wall structure. In particular, since the site-poured concrete 40 is cured while the poured concrete passes through the through-hole 21 formed in the shear bond plate 20, the shear bond plate 20 and the site-pour concrete 40 are more robust. To be integrated.

In the present invention, since the half-panel member 1 having the precast concrete slab 30 functions as the formwork of the site-casting concrete on two sides of the wall structure, the number of formwork installations for the site-casting concrete is reduced. It becomes possible, and the workability improvement and cost reduction effect are exhibited accordingly.

20: shear bonding plate
30: Precast Concrete Slab
60: concrete

Claims (2)

As a wall structure,
A precast concrete slab 30 extending in the height direction of the wall structure; It consists of a plate member extending in the height direction of the wall structure and disposed in a direction orthogonal to the precast concrete slab 30, the width of the plate member is greater than the thickness of the precast concrete slab 30 in the width direction Two half panel members (1) comprising a shear coupling plate (20), part of which is embedded in the precast concrete slab (30) and part of which is upright and protrudes over the upper surface of the precast concrete slab (30). The shear coupling plates 20 face each other so as to face each other;
Both ends of the horizontal connecting members 50 arranged in a direction perpendicular to the height direction of the wall structure are respectively coupled to the shear coupling plates 20 facing the two half panel members 1, respectively. The member 50 is disposed;
The shear coupling plate 20 protruding out of the precast concrete slab 30 is coupled to each other while the two half panel members 1 are maintained at intervals facing each other by the horizontal connection member 50. Wall structure characterized in that it has a configuration in which the concrete (60) is poured and filled in the space between the half panel member (1) to be embedded.
As a construction method of the wall structure,
A precast concrete slab 30 extending in the height direction of the wall structure; It consists of a plate member extending in the height direction of the wall structure and disposed in a direction orthogonal to the precast concrete slab 30, the width of the plate member is greater than the thickness of the precast concrete slab 30 in the width direction Part of the half-panel member 1, which includes a shear coupling plate 20, which is partially embedded in the precast concrete slab 30 and protrudes over the top of the precast concrete slab 30, protrudes. Manufacturing step;
Disposing two half panel members (1) facing each other such that a portion of the shear coupling plate (20) faces each other;
Two half panels are arranged so that both ends of the horizontal connecting members 50 arranged in a direction perpendicular to the height direction of the wall structure are respectively coupled to the shear coupling plates 20 facing the two half panel members 1. Joining the members 1 to each other; And
The shear coupling plate 20 protruding out of the precast concrete slab 30 is coupled to each other while the two half panel members 1 are maintained at intervals facing each other by the horizontal connection member 50. The method of constructing a wall structure, comprising the step of filling the concrete (60) in the space between the half panel member (1) to be embedded.

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