KR101175503B1 - Concrete Wall having Vertical Connection of Precast Concrete Wall Panel and Constructing Method - Google Patents

Abstract

According to the present invention, when constructing a structural wall by joining precast concrete structural wall panels laterally, a step portion is formed in a vertical joint portion of the precast concrete structural wall panel, and both precast concrete structural wall panels are engaged with each other through the stepped portion. Structural wall and its construction having a vertical joint of precast concrete structural wall panel using tension material which can improve the resistance to lateral force acting on structural wall by integrating through the tension member at It is about a method.

Description

Concrete Wall Having Vertical Connection of Precast Concrete Wall Panel and Constructing Method

The present invention relates to a structural wall by a precast concrete structural wall panel having a mechanical vertical joint in the form of a stepped portion, and a construction method thereof. Specifically, a structural wall is constructed by joining a precast concrete structural wall panel laterally. The stepped portion is formed in the vertical joint portion of the precast concrete structural wall panel, and the two precast concrete structural wall panels penetrate through the tension member while being engaged with the stepped portion, thereby improving the resistance to the lateral force acting on the structural wall. The present invention relates to a structural wall having a vertical joint of a precast concrete structural wall panel using a tension member capable of integration through a solid vertical joint, and a construction method thereof.

In a building structure such as a building or an apartment, a structure in which a plurality of precast concrete structural wall panels (hereinafter, abbreviated as "PC panel") is often used to construct a structural wall that resists lateral force or the like is used. .

When a plurality of PC panels are joined to form a structural wall, there is a vertical joint and a horizontal joint between the PC panels. The horizontal joining part is present between the PC panels arranged vertically, and the joining surface is horizontally formed, and the vertical joining part is present between the neighboring PC panels in the horizontal direction, and the joining surface is formed vertically. That is, the vertical bonding portion is a bonding portion that exists between the two PC panels when the PC panels arranged adjacent to each other in the lateral direction are laterally bonded to each other.

Thus, in order for the structural wall composed of the joining of the plurality of PC panels to have a stable behavior against the lateral force, sufficient structural performance must be secured at the horizontal joints and the vertical joints existing in the plurality of PC panels. In particular, since a large shear force is generated between the PC panels when the lateral force is applied to the vertical joint portion, in order for the performance of the structural wall to be properly exhibited, the vertical joint portion must be sufficiently resistant without breaking the shear force.

Conventionally, in constructing such vertical joints between PC panels, a method based on cast concrete or welding hardware is used. FIG. 1 is a schematic perspective view showing a state in which two PC panels 1a and 1b are bonded laterally, and FIGS. 2 and 3 show partial cross-sectional views taken along the line A-A of FIG. 1, respectively. The conventional vertical joint structure shown in FIG. 2 is a wet joint portion, in which the dies 101 are formed on both sides of the PC panel in a state in which the ends of the transverse reinforcing bars are projected outward from each other to overlap each other. After installation, it has a structure to cast concrete 106 in the field so that the projected transverse reinforcement is embedded. However, in the case of such a wet joint, as shown above, formwork should be installed vertically, reinforcing bars should be disposed between PC panels, and cumbersome work such as concrete casting in the field should be performed. Lowers construction costs. In particular, since curing period of the site-cast concrete is required, when constructing a structural wall with a plurality of layers, there is a disadvantage in that an air delay occurs as much as the curing period of the concrete. In addition, due to the on-site concrete pouring using the formwork, the quality of the concrete pouring site may occur, and thus there is a problem that the performance of the vertical joint portion is reduced.

On the other hand, in the dry vertical junction shown in Figure 3, after welding the connecting iron plate 103 to the embedded steel plate 102 is embedded in the PC panel is made of a structure to fill the empty space again with cement paste or the like. . Reference numeral 104 is a reinforcing bar 104 arranged in the PC panel. However, in the dry vertical joint portion, the expensive embedded steel plate 102 must be installed in the PC panel in advance for the construction of the vertical joint portion as described above, and thus the economical efficiency is reduced, and the welding quality may be reduced due to the welding work in a narrow space. Since the deterioration in the welding quality leads directly to the structural performance deterioration of the vertical joint, there is a disadvantage in that the performance deterioration of the vertical joint is very high. In addition, since the empty space must be filled with site-cast concrete, mortar, or cement paste after the welding operation, problems such as poor workability and construction quality occur accordingly.

The present invention was developed to solve the above problems of the prior art, specifically, in constructing a structural wall by joining a plurality of PC panels in the building structure, the structural wall to the stable behavior against the lateral force, the transverse direction Therefore, it is an object of the present invention to firmly form a vertical junction portion existing between neighboring PC panels. In particular, in implementing the vertical joints between the PC panels as described above, it is intended to shorten the air, improve the workability, and improve the construction quality, so that the PC panels can be firmly integrated with each other through the vertical joints. .

In order to achieve the above object, in the present invention, the first PC panel and the second PC panel adjacent to each other in the lateral direction as a structural wall of the building structure joined to each other in the lateral direction, the longitudinal direction of the first PC panel On the lower side, there is formed a lower protrusion stepped portion, the transverse side of which protrudes laterally more than the transverse side of the upper side; In correspondence with the lateral side shape of the first PC panel, an upper protrusion stepped portion is formed on the upper side in the longitudinal direction of the second PC panel so that the lateral side protrudes laterally than the lateral side on the lower side; Through holes in the longitudinal direction are formed in the lower projection step portion and the upper projection step portion, respectively; The upper protrusion stepped portion of the second PC panel is placed on the lower protrusion stepped portion of the first PC panel such that the lateral side surfaces of the first PC panel and the second PC panel are engaged; In the state where the transverse side surfaces of the first PC panel and the second PC panel are engaged with each other so that the through holes formed in the lower protrusion step portion and the upper protrusion step portion communicate with each other, a tension member is inserted into the through hole and vertically disposed by the tension member. A structural wall is provided which has a vertical joint to which tension in the direction is applied.

In the present invention, the vertical reinforcing bar is embedded in the first PC panel and the second PC panel in the structural wall, but the upper end of the vertical reinforcing bar protrudes to the upper end of the first PC panel and the second PC panel. It is; Rebar couplers are coupled to the lower ends of the vertical reinforcing bars, and rebar couplers are provided at the lower ends of the first and second PC panels. A plurality of first and second PC panels are sequentially stacked on the first PC panel and the second PC panel, and in each layer, the first PC panel and the second PC panel each have a vertical junction in which a lower protrusion step portion and an upper protrusion step portion are engaged. Wherein the first PC panel and the second PC panel are successively joined across a plurality of layers; The upper part of the vertical reinforcing bars provided in the first PC panel and the second PC panel of the lower layer in the plurality of layers is inserted into and fastened to the rebar couplers provided in the first PC panel and the second PC panel of the upper layer, thereby forming an upper structural wall. And a structural reinforcing bar is continuous between the lower structural walls.

In this case, the tension member is continuous over a plurality of layers in which the first PC panel and the second PC panel are laminated; In a state where a plurality of the first PC panel and the second PC panel are stacked and installed, the tension member is tensioned and fixed at the upper end of the uppermost second PC panel, whereby the first PC panel and the second PC stacked over the plurality of layers. It may also have a structure in which tension is introduced against the panel.

On the other hand, in the present invention, forming the base so that the end of the reinforcing bar protrudes to the upper surface and the tension member is installed so as to extend vertically to the upper surface of the base; On the lower side in the longitudinal direction, a lower protrusion stepped portion is formed in which the transverse side protrudes further in the transverse direction than the transverse side in the upper side, and the vertical reinforcement is embedded, and the bottom coupler of the vertical reinforcement is coupled to the bottom coupler. The first PC panel, which is provided in a buried state, is disposed vertically on the base portion such that the reinforcing bar end projecting to the upper surface of the base part is inserted into the reinforcing bar coupler and the extended end of the tension member is connected to the lower part. Allowing the penetrating hole to be inserted into the through hole formed in the protrusion stepped portion; Corresponding to the transverse side shape of the first PC panel, an upper protrusion stepped portion is formed on the upper side in the longitudinal direction in which the transverse side protrudes further in the transverse direction than the transverse side in the lower side, and the vertical reinforcing bars are embedded. The second PC panel having a rebar coupler coupled to and embedded in a lower end portion of the vertical reinforcing bar is disposed vertically on the base portion so that the upper protrusion stepped portion engages the lower protrusion stepped portion. Allowing the reinforcing bar end projecting to the upper surface of the foundation to be inserted into and coupled to the reinforcing coupler, and allowing the extended end of the tension member to be inserted through the through hole formed in the upper protrusion step portion; And tensioning and fixing the tension member penetrating the lower protrusion stepped portion and the upper protrusion stepped portion so that a tension force is introduced, such that the first PC panel and the second PC panel neighboring each other in the horizontal direction are laterally disposed. There is provided a method of constructing a structural wall of a building structure, wherein the structural wall of the building structure is joined to each other.

In the construction method of the present invention, after the foundation portion forming step, the placement and tension penetrating step of the first PC panel, the placement and tension penetrating step of the second PC panel, the first PC panel of the upper layer is further arranged. And installing the first PC panel and the second PC panel in a plurality of layers by sequentially performing the tension material penetrating step, the arrangement of the second PC panel, and the tension material penetrating step. Upper ends of the vertical reinforcing bars protrude outward from upper ends of the first and second PC panels of the lower layer, and upper ends of the vertical reinforcing bars protruding from the outside are provided in the first and second PC panels of the upper layer. Inserted into and coupled to the reinforced coupler; The tensioning and fixing step of the tension member may be performed after the installation of the first PC panel and the second PC panel on the top floor is completed, so that the structural wall may be constructed of a plurality of layers.

The structural wall having the vertically bonded portion structure according to the present invention has a strength and rigidity equivalent to or higher than that of a conventional RC structural wall composed of one member, and greatly improves the deformation capacity, and in particular, upon removal of the lateral force, Self-centering effect of returning to the original is very good. Therefore, the residual deformation is reduced to prevent damage of the structural wall, and the seismic performance is greatly improved, and it can be very usefully applied to the earthquake generating area.

In addition, the tension member disposed in the vertical joint portion replaces the main bar significantly contributes to the increase in strength, thereby reducing the rebar.

Furthermore, in the present invention, since the construction can be performed at the same time in one construction without having to construct the horizontal junction and the vertical junction separately, construction time can be shortened and construction becomes simple. In particular, since there is no need to install a connecting iron plate 103 or the like embedded in the embedded iron plate 102 to the PC panel as in the prior art, the production of the PC panel is easy, the production cost is reduced by that, the economic efficiency is improved. In addition, since formwork and reinforcing bars are not required, workability is improved and the overall quality is improved.

1 is a schematic perspective view showing a state in which two PC panels are joined in a transverse direction.
2 and 3 are partial cross-sectional views taken along the line AA of FIG. 1, respectively.
Figure 4 is a schematic diagram showing a state in which a structural wall having a vertical junction according to the present invention is constructed in two layers as an embodiment of the present invention.
FIG. 5 is a schematic assembly perspective view illustrating a state in which a second PC panel is installed in a state where the first PC panel is installed in the base portion.
6 is a schematic perspective view of a state in which a slab of one layer is installed.
7 is a schematic perspective view showing a state in which a structural wall is constructed in two layers and installed up to a slab of two layers.
8 is a schematic diagram of another embodiment of the present invention corresponding to FIG. 4.
9 and 10 are front views according to the construction sequence of an embodiment in which three PC panels are joined to each other in a transverse direction to form a three-layered structural wall.
11 is a schematic diagram showing a deformation state when a lateral force is applied to the unitary structural wall.
12 is a schematic diagram showing a deformation state when a lateral force is applied in a state where a plurality of PC panels are simply in contact with a lateral side.
FIG. 13 illustrates a case in which a plurality of layers of structural walls are simply constructed by in-situ concrete (RC walls) and when a plurality of layers of structural walls are constructed by combining a plurality of PC panels using a vertical joint according to the present invention. This is a graph of the load-displacement curve up to.
Fig. 14 is a graph showing load-displacement hysteresis curves when lateral forces are applied when a plurality of layers of structural walls are simply constructed by cast-in-place concrete.
FIG. 15 is a graph illustrating load-displacement hysteresis curves when a lateral force is applied to a structural wall of a plurality of floors constructed by combining a plurality of PC panels using a vertical joint structure according to the present invention.

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, this is described as one embodiment, whereby the technical spirit of the present invention and its core configuration and operation are not limited.

4 is a schematic view showing a state in which a structural wall having a vertical junction according to the present invention is constructed in two layers, as an embodiment of the present invention. FIG. 4 (a) is a front view, and FIG. (B) is a side view. In the specification of the present invention, when referring to both PC panels for convenience, "PC panels 1a and 1b" are described, and when referring to each of the two PC panels separately, "first PC panel 1a" and " 2nd PC panel 1b ".

As shown in the figure, a stepped shape is used in joining two PC panels 1a and 1b neighboring in the lateral direction (the width direction of the PC panel) by the vertical joint according to the present invention. Specifically, among the two PC panels 1a and 1b neighboring in the lateral direction, the lower protrusion stepped portion 11 is formed at the lower side of the first PC panel 1a in the transverse side, that is, in the vertical joint portion side. That is, the lateral side of the section (upper side) where the lateral side of the section (lower side) located in the lower part is divided into two sections in the longitudinal direction (vertical direction) of the first PC panel 1a. The lower protrusion stepped portion 11 is formed by further protruding in the lateral direction. Correspondingly, an upper protrusion stepped portion 12 is formed on the upper side of the vertical joint portion side of the second PC panel 1b which is adjacently bonded to the first PC panel 1a in the lateral direction. That is, the side surface of the upper side protrudes more than the side surface of the lower side in the longitudinal direction (vertical direction) of the second PC panel 1b, so that the upper protrusion stepped portion 12 is formed. Therefore, the upper protrusion stepped part 12 of the second PC panel 1b is placed on the lower protrusion stepped part 11 of the first PC panel 1a, so that the first PC panel 1a and the second PC panel are placed. The transverse sides of 1b are mechanically engaged with each other.

Through holes are formed in the lower protrusion step portion 11 and the upper protrusion step portion 12 in the longitudinal direction, respectively, and the second PC panel 1b is disposed on the lower protrusion step portion 11 of the first PC panel 1a. When the upper protrusion stepped portion 12 of the) is placed, the through-holes formed in the lower protrusion stepped portion 11 and the upper protrusion stepped portion 12 are in communication with each other, the first PC so that the through-holes communicate in this way In the state where the side surfaces of the panel 1a and the second PC panel 1b are engaged with each other, the tension member 2 is inserted into the through hole. That is, the vertical joint portion of the PC panel according to the present invention forms a lower protrusion step portion 11 and an upper protrusion step portion 12 on the side surfaces of both PC panels, respectively, and the lower protrusion of the first PC panel 1a. In the state where the upper protrusion stepped part 12 of the second PC panel 1b is placed on the stepped part 11, the tension member 2 penetrates through the lower protrusion stepped part 11 and the upper protrusion stepped part 12. It is arranged to have a structure in which the tension force is introduced in the longitudinal direction, that is, the vertical direction.

Next, a method step of constructing a structural wall as shown in FIG. 4 to have the above vertical junction with reference to FIGS. 5 to 7 will be described in more detail. The embodiment shown in Figs. 5 to 7 builds a structural wall vertically and continuously with respect to the two layers, and the tension member has a configuration of tension in the uppermost layer.

First, when the foundation portion 100 is formed, an end portion of the foundation reinforcement 110 embedded in the foundation portion 100 is disposed to protrude to the upper surface of the foundation portion 100. One end of the tension member 2 which is vertically disposed is embedded in the base portion 100 and fixed, and the other end of the tension member 2 is installed to extend vertically to the upper surface of the base portion 100. The tension member 2 may be made of a steel bar or may be in the form of a strand made of a strand. In FIGS. 5 to 7 the tension member 2 is shown in strand form for convenience. 4 to 7, and FIG. 8 to be described later, the vertical reinforcing bars 15 arranged in the PC panels 1a and 1b while showing the PC panels 1a and 1b and the base portion 100 of the present invention, and the bases. Although two basic part reinforcing bars 110 arranged on the part 100 are arranged side by side in the thickness direction of the PC panels 1a and 1b, the base part reinforcing bars 110 are arranged on the PC panel 1a and 1b and the base part 100. Only one vertical reinforcing bar 15 and the base reinforcing bar 110 that are each reinforcement may be reinforcement, and may be two or more depending on necessity. That is, in the present invention, the number of the vertical reinforcing bars 15 and the base reinforcing bar 110 is not particularly limited and may be freely changed depending on the size of the PC panel and the base part.

In the present invention, the rebar coupler 10 is embedded in the lower end of the PC panel. That is, when manufacturing the 1st PC panel 1a by the precast method, the well-known reinforced coupler 10 is embedded in the lower end part of a PC panel. At this time, the vertical reinforcing bar 15 and the reinforcing bar coupler 10 connected thereto so that the vertical reinforcing bar 15 arranged in the first PC panel 1a is positioned in line with each other at the protruding end of the base reinforcing bar 110. ) Is placed in the first PC panel 1a. As described later, an upper end portion of the vertical reinforcing bar 15 protrudes to an outer surface of the upper end portions of the first PC panel and the second PC panel for coupling with the upper PC panel.

The first PC panel 1a on which the lower protrusion stepped portion 11 is formed is placed on the base portion 100. As a result, the protruding end of the base reinforcement 110 is fitted into the rebar coupler 10 of the lower end of the first PC panel 1a to thereby be integrated to integrate the base reinforcement 110 and the vertical reinforcing bars disposed in the PC panel. At the same time, the other end of the tension member 2 is inserted through the through hole formed in the lower protrusion step portion 11. The gap that may exist between the lower surface of the first PC panel 1a and the upper surface of the base 100 is preferably sealed by using a sealing material such as non-shrink mortar.

Subsequently, the second PC panel 1b having the upper protrusion stepped part 12 formed thereon is placed on the upper surface of the base part 100 adjacent to the first PC panel 1a. FIG. 5 is a schematic assembly perspective view illustrating a state in which the second PC panel 1b is installed in a state in which the first PC panel 1a is installed in the base 100.

Like the first PC panel 1b, the vertical reinforcing bar 15 is arranged inside the second PC panel 1b, and the bottom coupler 10 is connected to the vertical reinforcing bar 15 at the lower end thereof. It is arranged. Accordingly, the upper protrusion stepped portion 12 of the second PC panel 1b is placed on the lower protrusion stepped portion 11 of the first PC panel 1a, and at the same time, the base portion protrudes to the upper surface of the base 100. The end of the reinforcement 110 is fitted into the rebar coupler 10 provided at the lower end of the second PC panel 1b, and the end thereof is fixed to the base 100 so that the lower protrusion stepped portion 11 is fixed. The other end of the tension member 2 in the penetrating state is penetrated through the upper protrusion end 12 of the second PC panel 1b. The gap that may exist between the lower surface of the second PC panel 1b and the upper surface of the base portion 100 may also be sealed using a sealing material such as non-shrink mortar. In this manner, two PC panels 1a and 1b are arranged and combined on one floor to build a structural wall on one floor.

Subsequently, a slab of one layer is constructed on top of the structural wall of one layer, and a structural wall of two layers is again constructed. The slab may be installed by cast-in-place concrete, but the slab 200 may be installed by using a precast deck. In the case of installing the slab 200 using a precast bottom plate, both ends of the slab 200 may be placed on and supported by the upper ends of the PC panels 1a and 1b constituting the first floor structural wall. As shown in (b) of FIG. 4, protruding beams 201 protruding from the front and rear surfaces of the upper end portions of the PC panels 1a and 1b forming the structural walls of the first layer are formed, so that both ends of the slab 200 are formed. The lower surface of both ends of the slab 200 may be placed on the protruding beam 201 to be supported by the protruding beam 201. As such, both ends of the slab 200 are mounted so as to span the upper ends of the first and second PC panels 1a and 1b, and the space between the upper end of the structural wall and the both sides of the slab 200, such as non-contraction mortar or concrete. The filling material 4 is poured so that the first floor structural wall and the slab 200 are integrated.

6 is a schematic perspective view of a state in which the slab 200 of the first floor is installed. After the slab 200 of the first floor is installed as described above, the construction of the structural walls of the second floor is performed again. That is, the same method as that of constructing the first floor structural wall using the PC panels 1a and 1b, the same method as the first PC panel 1a and the second PC panel 1b on the first floor structural wall. By sequentially placing and combining the two will be to build a structural wall. At this time, the upper end of the vertical reinforcing bars 15 protrudes vertically higher than the upper surface of the slab 200 at the upper ends of the two PC panels 1a and 1b forming the structural walls of the first floor.

When the PC panel for building the two-layer structural wall is placed on the first-layer PC panel, the bottom of the PC panel for the two-layer structural wall is substantially placed on the slab 200. Therefore, even if the filling material 4 placed in the space between the upper end of the PC panel for one-layer structural wall and both slabs 200 has not yet been completely cured, the PC panel for two-layer structural wall can be installed. The shortening effect is exerted.

When the PC panel for the two-layer structure wall is installed in this way, the lower end of the PC panel in which the outer protruding end of the vertical reinforcing bars 15 provided in the PC panels 1a and 1b disposed on the first floor is disposed on the second floor. It is fastened to the rebar coupler 10 is built in. Therefore, the vertical reinforcing bars 15 are continuous between the upper structural wall and the lower structural wall. Of course, the tension member 2 penetrates the lower protrusion step portion and the upper protrusion step portion in the vertical joint portion of the PC panel for the two-layer structural wall.

In this way, when the two-layer structural wall is continuously constructed with the one-layer structural wall by the PC panel in the second floor, the tension member 2 is tensioned and fixed. In other words, the end of the tension member 2 in the tensioned state is fixed at the upper end of the PC panels 1a and 1b of the uppermost layer, and the tension force is introduced in the vertical direction between the PC panels arranged in the multiple layers. Subsequently, after the tension force is introduced, the uppermost slab is installed in the same manner as the slab 200 of the first floor. FIG. 7 is a schematic perspective view showing a state in which a structural wall is constructed in two layers and installed up to two layers of slabs.

In the above description, although the structural wall is vertically constructed for two floors, it can be installed in two or more floors. In this case, the installation process of the PC panel described above is repeated. do.

In addition, in the above embodiment, while the structural wall was constructed using the PC panel for the entire floor, the tension member 2 was tensioned and fixed at the upper end of the PC panel in the uppermost layer. You can also settle tension.

8 is a view of another embodiment of the present invention corresponding to FIG. 4, wherein FIG. 8A is a front view and FIG. 8B is a side view. As shown in Fig. 8, the tension member 2 is tension-fixed before constructing the slab of the first floor in the state of constructing the one-layer structural wall by integrally joining the PC panels using the vertical joint according to the present invention in the first floor. can do. Specifically, after assembling and installing the PC panels 1a and 1b of the first floor, the tension member 2 is tensioned and fixed at the upper end of the second PC panel 1b. In this way, by fixing the tension member 2, a vertical joint is formed between the PC panels 1a and 1b of the first floor by the tension in the vertical direction.

Subsequently, the slab 200 is disposed on the top of the PC panels 1a and 1b of the first floor, and the filling material such as non-contraction mortar or concrete is disposed in the spaces between the slab 200 and the top of the PC panels 1a and 1b. Before filling 4) another end of tension member 2 for the two-layer structural wall is placed. Therefore, when the filler 4 is filled, the lower end of the tension member 2 for the two-layer structural wall is embedded in the filler 4 and fixed. In this state, second PC panels 1a and 1b are assembled again to build a two-layer structural wall, and a second PC that is tensioning the tension member 2 for the two-layer structural wall to build a two-layer structural wall. Fixing is performed at the top of the panel 1b. As described above, the tension member 2 may be tensioned and fixed in the uppermost layer as in the embodiments of FIGS. 4 to 7, but may be fixed in each layer as in the embodiment shown in FIG. 8. In this case, the tension member penetrating the first and second PC panels 1a and 1b of the lower layer and the tension member penetrating the first and second PC panels of the upper layer are shifted vertically so that the tension member can be easily installed. Is preferred.

On the other hand, as mentioned above, the tension member (2) may be a steel bar in addition to the strand consisting of a strand. In this case, one steel bar may be used for the entire layer, but a plurality of steel bars may be connected and used by a coupler device. When the steel rods are connected to the coupler device as described above, the coupler device is preferably disposed in the space between the slab 200 and the top of the PC panels 1a and 1b in which the filler 4 is filled at the top of each layer. .

On the other hand, the drawing shows only the case where the two PC panels (1a, 1b) are bonded to each other by the vertical joint according to the present invention in the lateral direction, but in the case where the width of the structural wall to be built in one layer is wide the lateral direction As a result, three or more PC panels may be bonded to each other by a vertical joint according to the present invention. That is, two or more vertical joints may exist in a structure wall of one layer.

9 and 10 show front views of an embodiment in which three PC panels are joined to each other in a transverse direction to form a three-layered structural wall, respectively, according to the construction order. In the drawing, the first PC panel 1a, the second PC panel 1b, and the third PC panel 1c are respectively named from left to right for convenience.

When the three PC panels are bonded to each other to form a lower structural wall, the vertical joint between the first PC panel 1a and the second PC panel 1b may have the structure described above with reference to FIGS. 4 to 8. . In addition, the same vertical junction between the second PC panel 1b and the third PC panel 1c may be provided. Therefore, in the case of the second PC panel 1b positioned in the middle, the upper protrusion stepped portion may be formed on one side in the lateral direction and the lower protrusion stepped portion on the other side.

However, as shown in the figure, an upper protrusion stepped portion may be formed on both sides of the second PC panel 1b. That is, the lower protrusion stepped portions 11 may be formed on the first and third PC panels 1a and 1c, respectively, and the upper protrusion stepped portions 12 may be formed on both sides of the second PC panel 1b, respectively. It is. In this case, therefore, in constructing a structural wall of one layer, first and third PC panels 1a and 1c are first provided, and as shown in FIG. 9, the first PC panel 1a and the third PC panel are shown. The second PC panel 1b is vertically mounted between the pairs 1c. Since the bonding between the PC panels of the other basic portion, the bonding between the lower PC panel and the upper PC panel, the installation of the slab, the tension of the tension member, and the fixing are the same as described above, the repeated description is omitted.

Next, the structural behavior and effects of the structural wall having the vertical junction structure of the PC panel according to the present invention will be described.

FIG. 11 is a schematic view showing a deformation state when a lateral force is applied to the unitary structural wall, and FIG. 12 is a schematic view showing a deformation state when a lateral force is applied while a plurality of PC panels are simply in contact with the lateral side. Is shown. In the figure, M is the bending moment (M).

11 and 12, when the lateral force (V ₁ -V ₅ ) is applied in a state where the plurality of PC panels are simply in contact with the lateral side, the shear force F T is applied between neighboring PC panels. The displacement as shown in FIG. 12 is generated. However, in the present invention, the PC panel penetrates the lower protrusion stepped portion 11 and the upper protrusion stepped portion 12 as well as the mechanical coupling of the lower protrusion stepped portion 11 and the upper protrusion stepped portion 12 in the lateral direction. The tension material 2 is arrange | positioned, and the tension force is introduce | transduced in the vertical direction. Therefore, the shear force acting between the PC panels by the lateral force is canceled by the mechanical coupling between the lower protrusion stepped portion and the upper protrusion stepped portion and the tension force of the tension member 2 disposed through the stepped portion so that displacement due to the shear force does not occur. The plurality of PC panels are integrally combined to behave as one structural member.

In particular, the structural advantages of the structural wall having a vertical joint according to the present invention can also be confirmed through a load-displacement curve and a load-displacement hysteresis curve.

FIG. 13 illustrates a case in which a plurality of layers of structural walls are simply constructed by in-situ concrete (RC walls) and when a plurality of layers of structural walls are constructed by combining a plurality of PC panels using a vertical joint according to the present invention. The load-displacement curve up to is shown. In FIG. 13, a square point is a graph of a general RC wall, and a circular point is a graph of a structural wall of a PC panel using a vertical joint according to the present invention. As can be seen in Figure 13, although the structural wall according to the present invention is composed of the assembly of a plurality of PC panels, showing the strength and rigidity equivalent to or more than the conventional RC structural wall formed by the concrete is integrally cast However, the deformation capacity was greatly improved. In other words, the structural wall according to the present invention exhibits great resistance against lateral forces.

FIG. 14 illustrates a load-displacement hysteresis curve when lateral force is applied when a plurality of layers of structural walls are simply constructed by cast-in-place concrete, and FIG. 15 illustrates a plurality of PC panels using a vertical joint structure according to the present invention. The load-displacement hysteresis curve at the time of the lateral force acting on the structural wall of a plurality of layers constructed by combining.

As can be seen by comparing the graphs shown in FIG. 14 and FIG. 15, the structural wall according to the present invention has a self centering effect, that is, the effect of restoring the structural wall back to its original state when the acting lateral force is removed. It can be seen that is very excellent.

As described above, the structural wall having the vertical joint structure according to the present invention has a strength and rigidity higher than that of a normal RC structural wall composed of one member, and the deformation ability is greatly improved. The self-centering effect returned is very good. Therefore, the residual deformation is reduced to prevent damage of the structural wall, and the seismic performance is greatly improved, and it can be very usefully applied to the earthquake generating area.

In addition, the tension member disposed in the vertical joint portion replaces the main bar significantly contributes to the increase in strength, thereby reducing the rebar.

Furthermore, in the present invention, since the construction can be performed at the same time in one construction without having to construct the horizontal junction and the vertical junction separately, construction time can be shortened and construction becomes simple. In particular, since there is no need to install a connecting iron plate 103 or the like embedded in the embedded iron plate 102 to the PC panel as in the prior art, the production of the PC panel is easy, the production cost is reduced by that, the economic efficiency is improved. In addition, since formwork and reinforcing bars are not required, workability is improved and the overall quality is improved.

11: Lower protrusion step
12: upper protrusion stepped portion

Claims (5)

A structural wall of a building structure in which a first PC panel and a second PC panel which are adjacent to each other in the lateral direction are joined to each other in the lateral direction to be constructed,
On the lower side in the longitudinal direction of the first PC panel, a lower protrusion stepped portion 11 is formed in which the transverse side protrudes further in the transverse direction than the transverse side in the upper side;
In response to the lateral side shape of the first PC panel, an upper protrusion stepped portion 12 having a lateral side protruding further in the lateral direction than the lateral side in the lower side is formed on the upper side in the longitudinal direction of the second PC panel. Formed;
Through holes are formed in the lower projection step portion 11 and the upper projection step portion 12 in the longitudinal direction, respectively;
The upper protrusion stepped portion 12 of the second PC panel is placed on the lower protrusion stepped portion 11 of the first PC panel such that the lateral side surfaces of the first PC panel and the second PC panel are engaged;
In the state where the transverse side surfaces of the first PC panel and the second PC panel are engaged with each other so that the through holes formed in the lower protrusion step portion 11 and the upper protrusion step portion 12 communicate with each other, the tension member 2 is formed in the through hole. A structure wall, characterized in that it has a vertical junction portion is inserted into the arrangement is applied to the tension force in the vertical direction by the tension member (2).
The method of claim 1,
Vertical reinforcing bars 15 are embedded in the first PC panel and the second PC panel, and upper ends of the vertical reinforcing bars 15 protrude to upper ends of the first PC panels and the second PC panels;
Rebar couplers 10 are coupled to the lower ends of the vertical reinforcing bars 15, and rebar couplers 10 are embedded in the lower ends of the first PC panels and the second PC panels;
A plurality of first and second PC panels are sequentially stacked on the first PC panel and the second PC panel, and in each layer, the first PC panel and the second PC panel each include a lower protrusion step portion 11 and an upper protrusion step portion ( The first PC panel and the second PC panel are successively joined across a plurality of layers such that 12) has a vertically bonded portion;
The upper end of the vertical reinforcing bar 15 provided in the first PC panel and the second PC panel of the lower layer in the plurality of layers is inserted into the rebar coupler 10 provided in the first PC panel and the second PC panel of the upper layer. A structural wall structure having a structure in which vertical reinforcing bars 15 are continuous between the upper structural wall and the lower structural wall by being fastened.
The method of claim 2,
The tension member (2) is continuous over a plurality of layers in which the first PC panel and the second PC panel are laminated;
In a state where a plurality of the first PC panel and the second PC panel are stacked and installed, the tension member 2 is tensioned and fixed at an upper end of the uppermost second PC panel, whereby the first PC panel stacked over the plurality of layers and A tension wall is introduced into the second PC panel.
Forming a foundation 100 so that an end of the reinforcing bar protrudes upward and the tension member 2 is installed so as to extend vertically onto the foundation 100;
On the lower side in the longitudinal direction, a lower protrusion stepped portion 11 is formed in which the transverse side protrudes further in the transverse direction than the transverse side in the upper side, and the vertical reinforcing bars 15 are embedded, and the vertical reinforcing bars ( The first PC panel provided with the reinforced coupler 10 coupled to and embedded in the lower end of 15) is disposed vertically on the base part 100 to protrude to the upper surface of the base part 100. An end is inserted into the reinforcing coupler (10) and fastened, and the extended end of the tension member (2) is inserted through the through hole formed in the lower protrusion step (11);
Corresponding to the lateral side shape of the first PC panel, an upper protrusion stepped portion 12 is formed on the upper side in the longitudinal direction in which the lateral side protrudes further in the lateral direction than the lateral side in the lower side, and is vertical A reinforcing bar 15 is embedded, and a lower PC of the second reinforcing bar 15 includes a second PC panel provided with the reinforced coupler 10 coupled to the lower end of the vertical reinforcing bar 15. The upper protrusion stepped portion 12 is disposed vertically on the base portion 100 so as to be engaged, so that the reinforcing bar end projecting to the upper surface of the base portion 100 is inserted into the reinforcing coupler 10 and fastened. Allowing the extended end of 2) to be inserted through the through hole formed in the upper protrusion step portion 12; And
By tensioning and fixing the tension member 2 penetrating the lower protrusion stepped portion 11 and the upper protrusion stepped portion 12, by introducing a tension force,
A method of constructing a structural wall of a building structure, wherein the first PC panel and the second PC panel neighboring each other in the lateral direction are joined to each other in the lateral direction to form a structural wall of the building structure.
The method of claim 4, wherein
After the forming of the foundation part 100, the placement and tension penetrating of the first PC panel, and the placement and penetrating material of the second PC panel,
In addition, the first PC panel arrangement and the tension material penetrating step of the upper layer and the second PC panel arrangement and the tension material penetrating step are sequentially performed to install the first PC panel and the second PC panel in a plurality of layers;
Upper ends of the vertical reinforcement bars 15 protrude outward from upper ends of the first PC panel and the second PC panels of the lower layer, and the upper ends of the vertical reinforcement bars 15 protruding outward from the first PC panel of the upper layer and Inserted into and coupled to the rebar coupler 10 provided in the second PC panel;
The tensioning and fixing step of the tension member 2 is carried out after the installation of the first PC panel and the second PC panel on the top floor is completed, the structural wall construction method of the building structure, characterized in that the structural wall is constructed of a plurality of floors .

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