KR100211534B1 - The coupling structure between pc wall and pc slab, and the method thereof - Google Patents

Abstract

The present invention is to laminate and assemble buildings, such as apartments, townhouses, hospitals, hotels, etc., which are relatively large spaces with a PC panel, so that it is possible to construct only the walls and slabs without pillars and beams, so as to increase the space utilization while lowering the floor height. It relates to the connection structure of the PC wall and the PC slab of the building and its construction method, the upper and lower ends protrude to a predetermined length, the structural wall reinforcement 110 having the joints 111 are embedded at a predetermined interval and the joint The parts 111 are overlapped and welded to each other, and the upper and lower PC wall panels 100 and 100 'having sufficient proof strength and the upper part of the lower PC wall panel 100' are fitted to each other. The fixing parts 213 of the structural slab reinforcing bars 210 extending to both sides thereof are connected to and welded to the half PC slab panel 200 having sufficient strength, and the joint parts 111 and the fixing parts. Reinforcing bar (A) is connected to the reinforcement (A) and the half PC slab panel 200 is composed of the site-cast concrete plate 300 is formed by pouring uncured concrete on the upper surface, the installation of the lower PC wall panel 100 Step, the installation of the half PC slab panel on the upper portion of the lower PC wall panel 100, the installation of the upper PC wall panel 100, and the installation of the site-cast concrete plate.

Description

Connection structure between PC wall and PC slab of building and construction method

The present invention laminates and assembles buildings such as apartments, townhouses, hospitals, hotels, etc., which are not relatively large, with PC boards, and in particular, it is possible to construct only walls and slabs without pillars and beams, thereby increasing floor space while reducing floor height. It relates to the connection structure of the PC wall and PC slab of the building and its construction method.

In general, the building is constructed as a PC product or by using a formwork to cast the site, or the pillar, wall, beams and slabs are essential components.

Such columns, walls, beams, and slabs can be constructed as non-bearing walls because the columns bear the load of the walls, thereby securing the economics of the walls, and the slabs because the beams bear the loads of the slabs. It is true that there is an advantage that the thickness of the thin film can be secured to secure the slab economy.

However, in buildings consisting of pillars, walls, beams, and slabs, there is a problem in that the space utilization is inferior because the pillars protrude in the building and occupy space, and as the beams are installed, the floor height increases as the beam dances. There was a problem in that material costs, labor, etc. are increased.

In order to solve the above problems, the recent buildings are constructed as bearing walls that do not install columns and beams, and the walls serve as pillars. By adopting a method to deliver to the system, it is possible to lower the height while increasing the space utilization.

However, as described above, when constructing a building with only bearing walls and slabs without pillars and beams, not only the walls and slabs should exhibit sufficient structural strength, but also the connection structure connected between the walls and the slabs to ensure integrity. In order to install the formwork directly at the work site, the unhardened concrete was cast to secure the proper structural strength of the wall and the slab, and also to secure the integrity of the connection structure between the wall and the slab.

As such, the recent construction of the bearing wall and the slab only requires the structural strength of the wall and the slab, and the installation and dismantling of the formwork at the work site to secure the integrity of the connection structure connecting the wall and the slab. There was a problem that labor costs, construction period and construction costs are enormous.

Therefore, in order to suppress the increase in labor, construction period, and construction cost due to the transportation, installation, and dismantling of formwork, a construction method is required in which a wall and a slab are pre-made in a factory to be assembled at a work site.

An object of the present invention is to allow the construction of a building, such as an apartment that is not relatively large space only with PC walls and PC slabs without pillars and beams, firstly, PC walls and PC slabs to exhibit sufficient strength as a bearing structure Second, to provide a connection structure and construction method of the PC wall and PC slab of the building to ensure the integrity between the PC wall and the PC slab.

1 (a) is a cross-sectional view showing a connection structure between the outer wall and the slab.

1 (b) is a cross-sectional view showing a connection structure between the inner wall and the slab.

Figure 2 (a) is a partially cutaway perspective view showing a PC outer wall panel of the present invention.

Figure 2 (b) is a cross-sectional view of the PC outer wall panel of the present invention.

3 is a cross-sectional view of the PC inner wall panel of the present invention.

Figure 4 (a) is a perspective view showing a half PC slab panel of the present invention.

Figure 4 (b) is a cross-sectional view of the half PC slab panel of the present invention.

5 (a) to 5 (d) show the construction procedure of the present invention,

Figure 5 (a) is a cross-sectional view showing the installation step of the lower PC wall panel.

Figure 5 (b) is a cross-sectional view showing the installation step of the half PC slab panel.

Figure 5 (c) is a cross-sectional view showing the installation step of the upper PC wall panel.

Figure 5 (d) is a cross-sectional view showing the installation step of the cast-in-place concrete plate.

* Explanation of symbols for main parts of the drawings

100,100 ': Upper and lower PC wall panel 110: Structural wall rebar

111: joint 111a: upper joint

111b: lower joint 120: vertical truss

121: up and down current wire 122: four wire

123: vertical iron wire 130: wall middle plate

140,140 ': inner and outer plate part 140a: stone shaft jaw

200: half PC slab panel 210: structural slab rebar

211: lower slab rebar 212: upper slab rebar

213: fusing unit 220: horizontal truss

221: up and down current wire 222: four wire

223: vertical iron wire 230: lower plate portion

240: slab intermediate plate portion 241: inclined surface

300: cast-in-place concrete plate A: reinforcing bar connection

Hereinafter, the technical configuration of the present invention in detail.

In the connection structure of the PC wall and the PC slab of the building of the present invention, the upper and lower ends thereof protrude to a predetermined length so that the structural wall reinforcement 110 having the joints 111 are embedded at a predetermined interval so that the joints 111 are formed. The upper and lower PC wall panels 100 and 110 'overlapping and fixed to each other and having sufficient proof strength and the upper ends of the lower PC wall panels 100' are attached to the joints 111. The fixing parts 213 of the structural slab reinforcing bars 210 extending to both sides are connected and fixed, and the half PC slab panel 200 having sufficient strength, and the joint parts 111 and the fixing parts 213 are connected to each other. Reinforcing bar (A) and the half PC slab panel 200 is characterized in that it is configured to be composed of the site-cast concrete plate 300 is formed by pouring uncured concrete integrally.

Here, the joints 111 of the structural wall reinforcement 110 and the fixing portion 213 of the structural slab reinforcement 210 can be fixed by welding to each other.

The present invention configured as described above has the upper and lower joints 111a and 111b of the structural wall reinforcement 110 embedded in the upper and lower PC wall panels 100 and 100 'having sufficient strength. Welded by overlapping and connecting the fixing portions 213 of the structural slab reinforcement 210 of the half PC slab panel 200 having sufficient strength to the upper and lower joint portions 111a and 111b, and also welding the same. PC wall and PC slab can exert sufficient strength as bearing structure by molding uncast hard concrete integrally on the upper surface of reinforcing bar A and half PC slab panel 200 to form cast-in-place concrete plate 300. In addition, it is possible to secure the integrity between the PC wall and the PC slab.

Hereinafter, the present invention will be described in more detail with reference to exemplary embodiments shown in the accompanying drawings.

As shown in the embodiment of the present invention, the first (a) and the first (b), the connection structure of the PC wall and the PC slab of the building of the present invention is a joint of the upper and lower ends protrude to a predetermined length Structural wall reinforcement (110) having parts 111 are embedded at regular intervals, and the joints (111) overlap with each other and are fixed to each other. The upper and lower PC wall panels (100) and (100 ') have sufficient strength. Half that has a sufficient strength to be fixed to the upper end of the lower PC wall panel 100 ', but the fixing portion 213 of the structural slab reinforcement 210 extending to both sides of the joint portion 111 is connected and fixed The PC slab panel 200, the reinforcing bar connection portion (A) to which the joints 111 and the fixing unit 213 are connected, and the uncured concrete is molded and integrally molded on the upper surface of the half PC slab panel 200. In view of having the cast-in-place concrete plate 300 as its components The will to implement the basic technical idea.

Each component constituting the present invention may be implemented in other forms in addition to the representative embodiment, but the present invention will be described only through the representative embodiment.

The upper and lower PC wall panels 100 and 100 'are inclined at regular intervals of the upper and lower current wires 121, as shown in FIGS. 2 (a), 2 (b) and 3, respectively. The steel wire 122 is welded to the vertical truss 120 and the vertical truss 120 and the vertical truss 120 to the predetermined thickness of the vertical truss 120 is supported by the vertical iron wire 123 is supported in the vertical longitudinal direction at regular intervals. Structural wall reinforcement 110 is formed on the left and right sides of the wall middle plate portion 130 and the vertical truss 120 protruding from the inner and outer surfaces of the wall middle plate portion 130 is formed therein. ) Consists of inner and outer plate parts 140 and 140 'which are vertically embedded.

Here, the structural wall reinforcement 110 is vertically disposed at regular intervals at the left and right sides of the vertical truss 120 and bound as shown in FIGS. 2 (a), 2 (b) and 3rd. The upper and lower ends of the upper and lower ends that are bound by wires or the like are structural parts in which the joints 111 protrude upward and downward, respectively, and are embedded in the inner and outer plate portions 140 and 140 '.

The structural wall reinforcement 110 as shown in the first (a) and the first (b), as shown in the left and right sides of the wall panel at regular intervals in the longitudinal direction and is projected to the upper and lower portions 111 Through the role of connecting the upper and lower wall panels to each other through) serves to transfer most of the load load transferred from the top to the bottom.

Therefore, the structural wall reinforcement 110 has a joint 111, the upper and lower ends of which protrude upward and downward, respectively, so that the upper joint 111a and the upper PC wall panel 100 'of the lower PC wall panel 100 are provided. By overlapping and welding between the lower joints 111b of the upper and lower wall panels it is possible to continuously laminate assembly construction.

The vertical truss 120 is a PC wall made of a unit, as shown in Figs. 1 (a), 1 (b), 2 (a), 2 (b) and 3. It is arranged at regular intervals vertically and vertically in the panel, and serves to bind the inner and outer portions 140 and 140 'formed by being bound to the left and right portions of the vertical truss 120. do.

Here, the four-rail current line 122 is double, as shown in Figure 1 (a), 1 (b), 2 (a), 2 (b) and 3 Preferably, it is composed of double wires arranged alternately with each other.

It is made of double wires to increase the binding force between the inner and outer plate portions 140, 140 ', so that the inner and outer plate portions 140, 140' increase the mutual binding strength, the overall structural strength of the wall panel There is an advantage that is increased.

On the other hand, in the embodiment of the present invention has been illustrated that the four wires 122 is made of a double wire, it should be noted that it may be arranged to be inclined in one direction.

The vertical wall truss 120 has a vertical truss 120 as shown in FIG. 1 (a), FIG. 1 (b), FIG. 2 (a), FIG. 2 (b), and FIG. It is formed to a predetermined thickness in the center of the structure is attached to the four wires (122).

The wall middle plate portion 130 is made of a material having light weight, insulation, and sound insulation such as lightweight concrete, urethane, and the like to play a role of blocking indoor and outdoor heat and noise while realizing light weight of the member.

In addition, an important role of the wall intermediate plate 130 is to increase the structural strength of each PC panel by ensuring the appropriate thickness required to structurally respond to the forces such as compressive force, tensile force, while reducing the overall weight of the members It will play a role.

The inner and outer plate portions 140 and 140 'are shown in FIG. 1 (a), FIG. 1 (b), FIG. 2 (a), FIG. 2 (b) and FIG. It is formed on the inner and outer surfaces of the wall middle plate portion 130, and is a structural portion firmly bound to the left and right sides of the vertical truss 120 protruding from the surface of the wall middle plate portion 130.

The inner and outer plate parts 140 and 140 'are made of structural concrete so that the material can be made to withstand the load applied to the upper part of the inner and outer plate parts 140 and the role of the bearing wall together with the structural wall reinforcement 110. Will be performed.

Here, the outer plate portion 140 ′, as shown in the first (a), second (a) and second (b), protruding jaw 140a protruding upward on the outer upper end portion thereof. Is formed.

This is because the projection jaw (140a) acts as the outer formwork plate when forming the cast-in-place concrete plate 300 of the slab of the floor, there is no need to install a separate outer formwork plate.

Therefore, the protruding jaw 140a at the outer upper end of the outer plate part 140 'is used as a substitute for the outer formwork plate when forming the cast-in-place concrete plate 300 so that the installation and dismantling of the outer formwork plate can be omitted. Will have

Such protruding jaw 140a is preferably such that the height is made equal to the thickness of the slab of the corresponding layer to be constructed.

The half PC slab panel 200 has a predetermined interval between the up and down current wires 221, as shown in FIG. 1 (a), FIG. 1 (b), FIG. 4 (a), and FIG. 4 (b). A horizontal truss wire 222 is welded every time and a vertical truss wire 223 is welded to the upper and lower current wires 221 at regular intervals, and a horizontal truss 220 is formed of concrete below the horizontal truss 220. A lower plate portion 230 in which the lower structural slab reinforcing bars 210 having the fixing unit 213 are embedded, and formed on the upper surface of the lower plate portion 230 to have a predetermined thickness, and both sides of the lower plate portion 230. An inclined surface 241 is formed on both sides of which is inclined downward to the outside at a predetermined angle while maintaining a predetermined distance from the flank, and an upper portion of the slab middle plate part 240 is formed while the upper structural slab reinforcement 210 is exposed. .

Here, the structural slab reinforcement 210 as shown in the first (a), the first (b), the fourth (a) and the fourth (b), both ends thereof protrude A lower structural slab reinforcement 210 having a fixing part 213 connected to the joint 111 of the PC wall panel 100 and having a central portion thereof embedded in the lower plate 230, and the horizontal truss 220. It is welded to the upper part of the) and both ends thereof are extended so that the upper structural slab reinforcement 210 is exposed and has fixing parts 213 connected to the joint 111 of the PC wall panel 100. .

On the other hand, the exposed upper structural slab reinforcement 210, as shown in Figure 1 (a), 1 (b), on-site casting concrete plate 300 is molded by uncured concrete is cast in the field Landfill

As such, the structural slab reinforcing bars 210 are arranged up and down while having a predetermined thickness so as to exhibit appropriate strength, and fixing parts 213 extending on both sides thereof are connected to the joint 111 of the structural wall reinforcing bar 110 of the wall panel. It is fixed to and welded to) to transfer the load of the slab to the wall.

The horizontal truss 220 is bent in a zigzag pattern on the up-and-down current wire 221, as shown in FIG. 1 (a), FIG. 1 (b), FIG. 4 (a), and FIG. 4 (b). And a vertical wire 222 disposed laterally and horizontally, and vertical wires 223 disposed horizontally and welded to upper and lower portions of the upper and lower current wires 221 and installed at predetermined intervals within the half PC slab panel. As it is to serve to firmly bind the lower plate 230 and the site-cast concrete plate 300 to each other.

On the other hand, as shown in the first (a), the first (b), the fourth (a) and the fourth (b) diagram, the dead current line 222, the lower plate portion 230 and the site In order to increase the binding force of the pour concrete plate 300, as in the vertical truss 120, it is made of double wires arranged alternately with each other.

In addition, in the embodiment of the present invention is illustrated that the four wires 222 is made of a double wire, it will be clear that it may be arranged in a slant in one direction as in the vertical truss.

The lower plate portion 230 is shown in the first (a), the first (b), the fourth (a) and the fourth (b), as shown in the lower and lower portion of the horizontal truss 220 Structural slab reinforcement 210 is buried in the center portion of the inside is integrally formed of concrete to receive a tensile force.

The slab intermediate plate portion 240 is formed on the upper surface of the lower plate portion 230, as shown in Figure 1 (a), 1 (b), 4 (a) and 4 (b). While maintaining a predetermined distance from both sides of the lower side of the lower plate 230, the inclined surface 241 is formed to be inclined to both sides of the lower side outwards at a predetermined angle, and is a structural portion embedded in the site-casting concrete plate 300.

As such, the slab middle plate part 240 forms an inclined surface 240 in which both sides are inclined downwardly to the outside at a predetermined angle while maintaining a predetermined distance from both side edges of the lower plate part 230. This is to ensure a sufficient working space between the wall panel 100 and the lower end.

Accordingly, an inclined surface 241 which slopes outwardly is formed on both sides of the slab middle plate part 240 so that a sufficient working space is secured between the lower plate part 230 and the lower end part of the PC wall panel 100, thereby providing an upper and lower PC wall. The welding operation of welding the upper and lower joint portions 111a and 111b of the panel can be easily performed, and the unhardened concrete is connected to the reinforcing bar portion A between the PC wall panel 100 and the half PC slab panel 200. Can be injected smoothly, and also because the concept of the half slab is placed on the upper surface of the slab middle plate portion 240 is hardened concrete, the integrity between the half PC slab panel 200 and the PC wall panel 100 Will be increased.

On the other hand, the slab intermediate plate portion 240 is the same as the wall middle plate portion 130 of the wall panel, the material is selected from lightweight concrete or urethane, such as to play a role of blocking heat and noise between the upper and lower layers while realizing the weight of the member To secure the required strength structurally, the thickness of the slab panels is increased by securing the thickness between the lower plate part 230 and the site-casting concrete plate 300.

The cast-in-place concrete plate 300 is a reinforcing bar between the PC wall panel 100 and the half PC slab panel 200, as shown in Figs. 1 (a), 1 (b), and 4 (b). After connecting the structural wall reinforcement and the structural slab reinforcement to the connecting portion (A) is a structural portion formed integrally cast with uncured concrete on the upper portion of the reinforcing connection (A) and the half-PC slab panel 200.

The cast-in-place concrete plate 300 secures the integrity between the PC wall and the half-PC slab while solidifying the connected reinforcing bar of the reinforcing bar (A).

In the construction method of the present invention, as shown in FIG. 5 (a), the lower PC wall panel 100 having upper joints 111a protruding from the ends of the structural reinforcing bars 110 is installed thereon. Installing the lower PC wall panel,

As shown in FIG. 5 (b), the structural slab reinforcing bars extend across the half PC slab panel 200 at the upper end of the lower PC wall panel 100 and extend outwardly to the upper joint 111a. An installation step of the half PC slab panel to which the fixing unit 213 of 210 is welded;

As shown in FIG. 5 (c), the upper PC wall panel 100 'is installed on the upper part of the lower PC wall panel 100, but the lower part of which the ends of the structural reinforcing bars 110 protrude below. An installation step of the upper PC wall panel welding the overlapped portions 111b to the upper joint 111a,

As shown in FIG. 5 (d), unreinforced concrete is integrally formed on the upper surface of the reinforcing bar A and the half PC slab panel 200 to which the joints 111 and the fixing units 213 are connected. It is to be constructed as an installation step of the site-casting concrete plate to form the site-casting concrete plate 300 by pouring.

like this. First, the upper and lower joints 111a and 111b of structural wall reinforcement 110 embedded in upper and lower PC wall panels 100 and 100 'having sufficient strength are overlapped with each other. Welding and fixing the fixing portions 213 of the structural slab reinforcement 210 of the half PC slab panel 200 having sufficient strength to the upper and lower joints 111a and 111b and weld the same. Reinforced connection (A) and the half PC slab panel (200) on the upper surface of the uncured concrete integrally cast by forming the cast-in-place concrete plate 300, PCs without pillars and beams without relatively large space It is effective in assembling and constructing only walls and PC slabs.

Second, after connecting the structural wall reinforcement and the structural slab reinforcement to the reinforcing bar (A) between the PC wall panel 100 and the half PC slab panel 200, the reinforcing bar (A) and the half PC slab panel (200) ) Half-PC slab panel 200 and PC wall panel 100 are integrated between the half PC slab panel 200 and the PC wall panel 100 by introducing the concept of a half PC to form a cast-in-place concrete plate 300 that is cast and molded integrally with uncured concrete at the top. Has the effect of increasing sex,

Third, the outer plate portion 140 'of the PC wall panel is projected upward on the outer upper end portion thereof, and a protrusion jaw 140a is formed to have the same thickness as that of the slab of the layer, thereby forming the site-cast concrete plate 300 of the layer. When forming, it can be used as a substitute for the outer formwork plate, so that the installation and dismantling of the outer formwork plate can be omitted.

Fourth, an inclined surface 241 is formed in which the slab middle plate part 240 of the half PC slab panel is inclined outwardly at a predetermined angle on both sides thereof, so that a working space is more secured between the PC wall panel and the half PC slab panel. While making it easy to weld the structural reinforcing bar of the reinforcing bar, there is an effect that the unhardened concrete is smoothly injected into the reinforcing bar,

Fifth, the tetrahedral wires 122 and 222 of the vertical and horizontal trusses are composed of double wires alternately arranged while being doubled, such that the inner plate 140 and the outer plate of the PC wall panel 100 ( 140 ') and the lower plate portion 230 and half-cast concrete plate 300 of the half PC slab panel 200, respectively, while increasing the binding force has the effect of increasing the overall structural strength of each panel.

As described above, the connection structure of the PC wall and the PC slab of the building of the present invention and the construction method of the building, such as apartments, townhouses, hospitals, etc., which are relatively large in space, are made as ready-made products at the factory and transported to the site It is very useful to increase the space utilization while lowering the floor height by stacking assembling, but allowing construction with only walls and slabs without pillars and beams.

Claims (4)

The upper and lower ends protrude to a predetermined length so that the structural wall reinforcement 110 having the joints 111 is embedded at regular intervals so that the joints 111 are overlapped and welded to each other. Fixing part of the structural slab reinforcement 210 to extend to both sides of the panel (100, 100 ') and the upper layer of the lower PC wall panel (100') but the joints (111) ( 213 of the half PC slab panel 200 which is welded and has sufficient strength, and the reinforcing bar portion A and the half PC slab panel 200 to which the joints 111 and the fixing unit 213 are connected. The connection structure of the PC wall and the PC slab of the building, characterized in that composed of the site-cast concrete plate 300 is molded by pouring uncured concrete on the upper surface. The upper and lower PC wall panels 100 and 100 'of the upper and lower PC wall panels are welded to each other at regular intervals of the upper and lower current wires 121, and are fixed to the upper and lower current wires 121. Vertical truss 120 is welded by the vertical iron wire 123 is supported in the vertical length direction at each interval, and the wall middle plate portion 130 is formed to a predetermined thickness of the vertical truss 120, and the wall middle plate portion 130 The inner and outer plate parts 140 and 140 that are fastened to the left and right sides of the vertical truss 120 protruding from the inner and outer surfaces, and the structural wall reinforcement 110 having the joints 111 therein are vertically embedded. The structure of the connection between the PC wall and the PC slab of the building, characterized in that consisting of '). According to claim 1, The half PC slab panel 200 is welded to the four wires 222 at regular intervals of the up and down current wire 221, vertical iron wire 223 at regular intervals on the up and down current wire 221. ) Is a horizontal truss 220 is welded to the lower plate portion 230 is formed of concrete in the lower portion of the horizontal truss 220 and the lower structural slab reinforcement 210 having the fixing unit 213 is embedded therein. And an inclined surface 241 formed on the upper surface of the lower plate part 230 with a predetermined thickness and having both sides downwardly inclined outward at a predetermined angle while maintaining a predetermined distance from both side edges of the lower plate part 230. The upper part is connected to the structure of the PC wall and the PC slab of the building, characterized in that consisting of the slab intermediate plate portion 240 is formed while the upper structural slab reinforcement 210 is exposed. And installing the lower PC wall panel 100 having the lower PC wall panel 100 having the upper joints 111a on which the ends of the structural reinforcing bars 110 protrude, and the lower PC wall panel 100 of the lower PC wall panel 100. The half PC slab panelner is installed on the upper part of the half PC slab panel 200 by connecting the fixing unit 213 of the structural slab reinforcing rod 210 extending outward to the upper joint 111a. And, the upper PC wall panel 100 is installed on the upper layer PC wall panel 100, but the lower joints (111b) protruding the ends of the structural reinforcing bar 110 in the lower portion of the upper joint (111a) The step of installing the upper PC wall panel overlapping the welding, unreinforced concrete integral to the upper surface of the reinforcing bar (A) and the half PC slab panel 200 to which the joints 111 and the fixing unit 213 are connected Cast-in-place concrete plate (300) How to connect the PC walls and the PC slabs in the construction of buildings that are constructed in the installation phase of the cast-in-place concrete slabs forming characteristics.

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