KR20230133243A - precast wall structure - Google Patents

Abstract

The content disclosed in this specification relates to a precast wall structure, and more specifically, to a precast wall structure with enhanced resistance to pouring pressure when pouring concrete between precast walls.
The disclosed content is a precast wall structure that is installed vertically on foundation concrete in a pre-fabricated state to form a wall, comprising a first panel formed of a precast concrete panel, and the first panel formed of a precast concrete panel. A second panel is arranged to face and spaced apart in the horizontal direction at a preset interval with respect to the panel, and a plurality of panels, one end of which is installed to be embedded in the first panel and the other end of which is installed in the horizontal direction to be embedded in the second panel. Between the horizontal fixture for connection and the horizontal fixture for panel connection spaced vertically at a preset interval, the horizontal fixture for panel connection located at the top and the horizontal fixture for panel connection located at the bottom while crossing in an A precast wall structure including cross reinforcement for connecting trusses is presented as an example.

Description

Precast wall structure

The content disclosed in this specification relates to a precast wall structure, and more specifically, to a precast wall structure with enhanced resistance to pouring pressure when pouring concrete between precast walls.

Unless otherwise indicated herein, the matters described in this identification are not prior art to the claims of this application, and are not acknowledged to be prior art by being described in this identification.

In general, various underground structures consisting of large volumes and large spaces buried in the basement, such as wastewater treatment plants, underground parking lots, and rainwater retention tanks, are usually constructed by excavating the foundation and then using formwork on top of it to make in-situ concrete using the RC method. After constructing the exterior wall, the PC slab or cast-in-place concrete slab is placed again on the upper part of the exterior wall.

However, in this method of constructing a wall structure using the RC method, a formwork is installed to form the wall, and subsequent processes can only be carried out after concrete is poured into the formwork on site and hardened, so it is time-consuming. There was a problem of delay, and furthermore, not only was there the inconvenience of having to install and then remove the formwork one by one, but there was also the problem that the formwork burst during the process of pouring concrete on site, causing frequent safety accidents.

As a prior art document to solve the problems of the wall structure by the conventional RC method, Korean Patent No. 10-1001208 discloses that a groove for standing an exterior wall is formed on the upper surface of the foundation, and then a plurality of panels are placed on top of the groove. In the method of constructing a structure that is assembled to stand facing each other, a space is formed between the two facing panels, and then concrete is poured into the space to form a PC wall integrally with the panels, wherein the panel is one piece. A first PC panel in which truss reinforcement bars are formed on the side and a stopper is formed on the upper part of the other side, and a truss reinforcement bar is formed on one end so as to face and correspond to the truss reinforcement side of the first PC panel, and the upper part of the other side. A method of constructing a structure using a sandwich PC-wall is disclosed, in which a second PC panel having an extension part is combined and constructed.

However, although the prior art literature was able to solve the problems caused by the conventional RC method to some extent, unexpected problems occurred due to the form ties installed to strengthen resistance to the pouring pressure generated by concrete. According to prior art literature, a through hole must be formed in the panel and the form tie is connected to the through hole, but a problem occurred where concrete leaked through the gap between the through hole and the form tie when pouring concrete. In addition, there is a problem in which form ties are damaged by impact from falling concrete during the process of pouring concrete.

Republic of Korea Patent No. 10-1001208 (announced on December 15, 2010)

In a precast wall structure that is installed vertically on foundation concrete in a prefabricated state to form a wall, we propose to provide a precast wall structure with enhanced resistance to the pouring pressure generated by concrete poured on site.

In addition, it is not limited to the technical challenges described above, and it is obvious that other technical challenges may be derived from the description below.

The disclosed content is a precast wall structure that is installed vertically on foundation concrete in a pre-fabricated state to form a wall, comprising a first panel formed of a precast concrete panel, and the first panel formed of a precast concrete panel. A second panel is arranged to face and spaced apart in the horizontal direction at a preset interval with respect to the panel, and a plurality of panels, one end of which is installed to be embedded in the first panel and the other end of which is installed in the horizontal direction to be embedded in the second panel. Between the horizontal fixture for connection and the horizontal fixture for panel connection spaced vertically at a preset interval, the horizontal fixture for panel connection located at the top and the horizontal fixture for panel connection located at the bottom while crossing in an A precast wall structure including cross reinforcement for connecting trusses is presented as an example.

In addition, the horizontal fixing bar for connecting the panel may include a fixing plate provided in a plate shape at both ends, a pillar part provided between the fixing plates, and a reinforcing rib connected to the fixing plate and the pillar part.

In addition, a hinge portion that is coupled and fixed to one side of the pillar portion adjacent to the fixing plate, one end of which is coupled and fixed to the hinge portion, and the other end of which is a plate reinforcing bar that can protrude to the outside of the side of the first panel or the second panel. More may be included.

Additionally, the hinge portion may include a hinge body fixed to the horizontal fixture for panel connection and a pivot plate rotatably coupled to the hinge body.

In addition, the cross reinforcing bar for the truss is connected to the reinforcing rib located at one end of the horizontal fixture for panel connection located at the upper portion and the reinforcing rib located at the other end of the horizontal fixture for panel connection located at the lower portion. 1 inclined member, a second inclined member connected to the reinforcing rib located at the other end of the horizontal fixture for panel connection located at the top, and the reinforcing rib located at one end of the horizontal fixture for panel connection located at the bottom. It can be provided.

Additionally, the central portion of the first inclined member and the central portion of the second inclined member may be coupled and fixed to each other while crossing each other.

Additionally, the first inclined member may be coupled and fixed to one side of the reinforcing rib, and the second inclined member may be coupled and fixed to the other side of the reinforcing rib.

According to the precast wall structure according to an embodiment of the disclosed content, the precast wall structure has enhanced resistance to the pouring pressure generated by concrete poured in the field, thereby preventing deformation of the precast wall structure.

In addition, according to the precast wall structure according to an embodiment of the disclosed content, the stability of the precast wall structure can be increased by preventing deformation and damage of the precast wall structure.

1 is a perspective view showing a precast wall structure according to an embodiment of the disclosed content.
Figure 2 is a combined state diagram showing a state in which the horizontal fixture for panel connection, the hinge part, and the plate reinforcement extracted from Figure 1 are combined.
Figure 3 is a plan view of a precast wall structure according to an embodiment of the disclosed content.
Figure 4 is a coupled state diagram showing a state in which a first inclined member and a second inclined member are combined according to an embodiment of the disclosed content.
Figure 5 is a coupled state diagram showing a state in which a lifting plate is coupled to a precast wall structure according to an embodiment of the disclosed content.

Hereinafter, the configuration and effects of the preferred embodiment will be examined with reference to the attached drawings. For reference, in the drawings below, each component is omitted or schematically depicted for convenience and clarity, and the size of each component does not reflect the actual size. In addition, the same reference numerals refer to the same components throughout the specification, and reference numerals for the same components in individual drawings will be omitted.

The precast wall structure (1) according to an embodiment of the disclosed content is installed in a vertical direction on the foundation concrete in a pre-fabricated state to form a wall. Referring to FIGS. 1, 2, and 3, the precast concrete A first panel 100 formed of a panel, a second panel 200 formed of a precast concrete panel and disposed to face and spaced apart in the horizontal direction at a preset interval with respect to the first panel 100, One end is installed by being embedded in the first panel 100, the other end is embedded in the second panel 200 and installed horizontally, and a plurality of horizontal fixtures 300 for connecting panels are installed vertically at preset intervals. Between the spaced horizontal fixtures 300 for panel connection, a truss intersects in an Includes a cross-reinforcing bar (400).

The first panel 100 forms a wall to constitute the exterior wall of the building, and is installed in a vertical direction on the basic concrete. The first panel 100 is formed as a precast concrete panel through the process of pouring concrete into a mold prepared in advance at a production plant and hardening it.

The second panel 200 forms a wall to constitute the exterior wall of the building, and is arranged to face and space from the first panel 100 in the horizontal direction at a preset interval. Like the first panel 100, the second panel 200 is also formed of a precast concrete panel.

As the first panel 100 and the second panel 200 are arranged facing each other at a preset interval, a central space 150 in which concrete is poured is formed between the first panel 100 and the second panel 200. is formed The first panel 100 and the second panel 200 are installed to face each other, and a horizontal fixture for panel connection is installed in the central space 150 to connect the first panel 100 and the second panel 200. 300) is installed.

The first panel 100 and the second panel 200 may be located on the outside or inside the precast wall structure (1). That is, when the first panel 100 is located on the outside, the second panel 200 may be located on the inside. When the first panel 100 is located on the inside, the second panel 200 may be located on the outside. Hereinafter, the description will be made on the premise that the first panel 100 is located on the outside and the second panel 200 is located on the inside.

The first panel 100 and the second panel 200 may be formed as an outer wall or an inner wall in the precast wall structure 1. When the precast wall structure 1 is formed as an exterior wall, the first panel 100 is formed higher than the second panel 200, and when it is formed as an interior wall, the first panel 100 and the second panel 200 are formed. can be formed at the same height.

Additionally, the first panel 100 and the second panel 200 may be formed of precast concrete panels including lattice reinforcement bars 110 and 210. The tops of the lattice reinforcements 110 and 210 that partially protrude from the first panel 100 and the second panel 200 are in the central space 150 between the first panel 100 and the second panel 200. It can be firmly combined with concrete that is poured and hardened.

Referring to FIG. 5, a lifting plate 700 to which a lifting cable is connected may be installed on the upper free ends of the first panel 100 and the second panel 200. As the lifting cable connected to the lifting plate 700 is pulled by a lifting machine such as a crane, the first panel 100 and the second panel 200 can be installed while standing vertically on the concrete foundation.

Referring again to FIGS. 1, 2, and 3, the horizontal fixture 300 for panel connection connects the first panel 100 and the second panel 200 to each other to form the first panel 100 and the second panel ( 200) are maintained at a preset interval, and portions of both ends are installed embedded in the first panel 100 and the second panel 200.

The horizontal fixture 300 for connecting panels may be a square steel pipe or an L-shaped steel pipe, and members of various shapes such as circular steel pipes, H beams, and reinforcing bars may be used. The horizontal fixture 300 for panel connection may be made of a material having strength that can maintain the first panel 100 and the second panel 200 spaced apart.

One end of the horizontal fixture 300 for panel connection may be installed embedded in the first panel 100, and the other end may be embedded in the second panel 200 and installed in the horizontal direction. The horizontal fixture 300 for panel connection installed horizontally with respect to the ground may not be bent due to external compressive force. This is because the external compressive force applied in the axial direction of the panel connection horizontal fixture 300 does not act as a moment that causes bending. In addition, in the horizontal fixture 300 for panel connection installed buried in the horizontal direction, brittle fracture may not occur because stress due to external tensile force is generated in a uniform size across the cross-sectional area of the horizontal fixture 300 for panel connection. there is.

A plurality of horizontal fixtures 300 for panel connection may be installed, and may be installed spaced apart at equal intervals. The horizontal fixture 300 for panel connection can be installed at different intervals depending on the size of the internal force between the first panel 100 and the second panel 200 according to the structural analysis of the precast wall structure 1, so it must be equally spaced. It is not installed at limited intervals. Therefore, the horizontal fixture 300 for panel connection installed in the lower area of the first panel 100 and the second panel 200 is higher and lower than the other areas of the first panel 100 and the second panel 200. The gap can be made narrower. In addition, the horizontal fixture 300 for panel connection installed in the upper area of the first panel 100 and the second panel 200 has a vertical spacing compared to other areas of the first panel 100 and the second panel 200. This can be formed more narrowly.

The horizontal fixture 300 for panel connection of the precast wall structure 1 according to an embodiment of the disclosed content may include a fixture plate 310, a column portion 320, and a reinforcing rib 330.

The fixing plate 310 strengthens the fixing force when the horizontal fixture 300 for panel connection is embedded and installed in the first panel 100 and the second panel 200, thereby forming the horizontal fixture 300 for panel connection. To prevent separation from the first panel 100 and the second panel 200, it may be provided in a plate-like shape.

The fixing plate 310 is provided at both ends of the horizontal fixture 300 for panel connection, and may be made of the same material as the horizontal fixture 300 for panel connection.

One side of the fixing plate 310 may face the central space 150 between the first panel 100 and the second panel 200, and the other side may face the outside of the precast wall structure 1. A plurality of studs 312 may be formed on the other side of the fixing plate 310. The studs 312 are coupled and fixed to the fixing plates 310 provided integrally at both ends of the horizontal fixture 300 for panel connection, and are embedded and installed in the first panel 100 and the second panel 200, for panel connection. Even if an external force acts on the horizontal fixture 300, the horizontal fixture 300 for panel connection can be firmly coupled and fixed to the first panel 100 and the second panel 200.

Additionally, a connecting rod 340 may be coupled and fixed to the other side of the fixing plate 310. The connecting rod 340 allows the horizontal fixture 300 for connecting multiple panels to move as one unit, and may be manufactured from the same material as the fixture plate 310.

The connecting rod 340 may be coupled and fixed to each of a plurality of fixing plates 310 provided at both ends of the horizontal fixing bar 300 for panel connection. The connecting rod 340 can be installed embedded in the first panel 100 and the second panel 200 in a state in which a plurality of horizontal fixtures 300 for connecting panels are integrally connected. In addition, the connecting rod 340 allows the horizontal fixture 300 for connecting a plurality of panels to be maintained horizontally and easily installed.

The pillar portion 320 may be provided between the fixing plates 310. The pillar portion 320 forms a certain area at the end of the horizontal fixture 300 for panel connection, and can be directly coupled and fixed to the fixture plate 310. A portion of the pillar portion 320 may be installed embedded in the first panel 100 and the second panel 200.

The reinforcing rib 330 may be connected to the fixing plate 310 and the pillar portion 320. The reinforcing rib 330 connects the cross reinforcement bar 400 for the truss and the horizontal fixture 300 for panel connection, and may be manufactured from the same material as the horizontal fixture 300 for panel connection.

The reinforcing rib 330 is coupled and fixed to the cross-reinforcement bar 400 for the truss and may be formed in a flat plate shape. The cross reinforcement bar 400 for truss may be coupled and fixed to one side or the other side of the reinforcing rib 330. The cross reinforcement bar 400 for the truss and the horizontal fixing bar 300 for panel connection may be connected via a reinforcing rib 330.

The horizontal fixture 300 for panel connection of the precast wall structure 1 according to an embodiment of the disclosed content includes a hinge portion 500 coupled and fixed to one side of the column portion 320 adjacent to the fixing plate 310, and , It may further include a plate reinforcement bar (600) coupled and fixed to the hinge portion (500).

The hinge portion 500 allows the plate reinforcing bar 600 to rotate, and a plurality of hinge portions 500 may be installed to ensure smooth rotation of the entire plate reinforcing bar 600. The hinge portion 500 may be installed on each horizontal fixture 300 for panel connection, and may be installed on some of the horizontal fixtures 300 for panel connection among the plurality, considering the weight or length of the plate reinforcement bar 600. there is. When multiple hinge units 500 are installed, the load applied to the hinge unit 500 when the plate reinforcing bar 600 rotates is distributed, thereby reducing the possibility of the hinge unit 500 being damaged by the load. You can.

The hinge portion 500 may include a hinge body 510 fixedly coupled to the horizontal fixture 300 for panel connection, and a rotating plate 520 rotatably coupled to the hinge body 510. The hinge body 510 is directly coupled and fixed to the horizontal fixture 300 for panel connection, and the rotating plate 520 is coupled to the hinge body 510 to rotate the plate reinforcing bar 600.

The plate reinforcement 600 reinforces the bonding force between the walls formed by the first panel 100 and the second panel 200, and may be a porous mesh plate type.

The plate reinforcing bar 600 may be coupled and fixed to the hinge portion 500. One end of the plate reinforcing bar 600 is coupled and fixed to the hinge portion 500, and the other end may protrude outward from the side of the first panel 100 or the second panel 200. Specifically, one end of the plate reinforcing bar 600 is coupled and fixed to the rotating plate 520 of the hinge portion 500, and as the rotating plate 520 rotates, the plate reinforcing bar 600 may also be rotated. As the plate reinforcing bar 600 rotates around one end of the plate reinforcing bar 600 coupled and fixed to the rotating plate 520 of the hinge portion 500, the other end of the plate reinforcing bar 600 is connected to the first panel 100 or the second panel. 2 It may protrude outward from the side of panel 200. The protrusion of the plate reinforcement 600 is located in the central space 150 of the neighboring first panel 100 or the second panel 200, so that the bonding force between the precast concrete wall structures 1 can be strengthened. there is. That is, when concrete is poured into the central space 150 between the first panel 100 and the second panel 200, the plate reinforcing bar 600 is installed by being embedded in the poured concrete, and the embedded plate reinforcing bar 600 is Neighboring precast concrete wall structures (1) can be firmly joined.

The cross-reinforcement bar 400 for truss increases resistance to the pouring pressure generated during concrete pouring, and may be formed in the shape of a long rod with a circular cross-section.

The cross reinforcement bar 400 for the truss crosses in an A horizontal fixture (300) for panel connection can be connected. Since the horizontal fixture 300 for panel connection is connected and firmly supported by the cross reinforcement bar 400 for truss, the horizontal fixture 300 for panel connection will not be deformed, such as bending, due to the pouring pressure even when pouring concrete. You can.

Referring to FIG. 4, the cross reinforcement 400 for the truss of the precast wall structure 1 according to an embodiment of the disclosed content may be provided with a first inclined member 410 and a second inclined member 420. .

The first inclined member 410 includes a reinforcing rib 330 located at one end of the horizontal fixture 300 for panel connection, and a reinforcing rib 330 located at the other end of the horizontal fixture 300 for panel connection located below. can be connected to And, the second inclined member 420 is located at one end of the reinforcing rib 330 located at the other end of the horizontal fixture 300 for panel connection located at the top and the horizontal fixture 300 for panel connection located at the bottom. It can be connected to the reinforcing rib 330.

The first inclined member 410 and the second inclined member 420 are connected to and fixed to different reinforcing ribs 330 on one panel connection horizontal fixture 300, thereby forming a trussed structure. .

The first inclined member 410 and the second inclined member 420 may intersect in an They can be bonded and fixed by crossing. As they are cross-linked to each other, deformation such as bending due to the rod shape can be minimized, and resistance to the pouring pressure generated during concrete pouring can be increased.

The first inclined member 410 and the second inclined member 420 may intersect each other without being located on the same plane. Accordingly, if the first inclined member 410 is coupled and fixed to one side of the reinforcing rib 330, the second inclined member 420 may be coupled and fixed to the other side of the reinforcing rib 330. Conversely, if the second reinforcing member is coupled and fixed to one side of the reinforcing rib 330, the first reinforcing member may be coupled and fixed to the other side of the reinforcing rib 330. This coupling structure prevents the first inclined member 410 from penetrating the second inclined member 420 or the second inclined member 420 from penetrating the first inclined member 410, and the first inclined member 410 The central portion of the second inclined member 420 can be brought into contact with the central portion of the second inclined member 420 to intersect.

According to the precast wall structure (1) according to an embodiment of the above-described content, the precast wall structure (1) has strengthened resistance to the pouring pressure generated by concrete poured on site, and the precast wall structure Deformation of (1) can be prevented.

In addition, according to the precast wall structure (1) according to an embodiment of the disclosed content, the stability of the precast wall structure (1) can be increased by preventing deformation and damage of the precast wall structure (1).

Although preferred embodiments of the present invention have been described above with reference to the accompanying drawings, the embodiments described in this specification and the configuration shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent the entire technical idea of the present invention. Since this is not the case, it should be understood that there may be various equivalents and modifications that can replace them at the time of filing this application. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the claims described later rather than the detailed description, and the meaning and scope of the claims and their All changes or modified forms derived from the equivalent concept should be construed as falling within the scope of the present invention.

1: Precast wall structure
100: first panel
110: Lattice reinforcement
150: Central space part
200: second panel
210: Lattice reinforcement
300: Horizontal fixture for panel connection
310: Fixing plate
312: stud
320: pillar part
330: Reinforcement rib
340: connecting rod
400: Cross reinforcement for truss
410: First inclined member
420: Second inclined member
500: Hinge part
510: Hinge body
520: Rotating plate
600: Plate reinforcement
700: Lifting plate

Claims (1)

In a precast wall structure that is installed vertically on foundation concrete in a prefabricated state to form a wall,
A first panel formed of a precast concrete panel;
a second panel formed of a precast concrete panel and disposed to face and be horizontally spaced apart from the first panel at a preset interval;
One end is installed by being embedded in the first panel, and the other end is embedded in the second panel and installed in a horizontal direction, and includes a fixing plate provided in a plate shape at both ends, a pillar provided between the fixing plates, and the A horizontal fixture for connecting a plurality of panels including a fixing plate and a reinforcing rib connected to the column portion;
Between the horizontal fixtures for panel connection spaced vertically at preset intervals, the truss intersection connects the horizontal fixture for panel connection located at the top and the horizontal fixture for panel connection located at the bottom while intersecting in an X shape. reinforcement;
A hinge portion coupled and fixed to one side of the pillar portion adjacent to the fixing plate; and
One end is coupled and fixed to the hinge portion, and the other end includes a plate reinforcing bar that can protrude outward from a side of the first panel or the second panel,
The first panel and the second panel include lattice reinforcement, and the lattice reinforcement partially protrudes from the first panel and the second panel to the opposite side,
The horizontal fixtures for panel connection installed in the lower and upper areas of the first panel and the second panel have narrower vertical intervals compared to other areas of the first panel and the second panel,
The hinge portion includes a hinge body coupled and fixed to the horizontal fixture for connecting the panel, and a pivoting plate rotatably coupled to the hinge body,
The cross reinforcing bar for the truss has a first slope connected to the reinforcing rib located at one end of the horizontal fixture for panel connection located at the top and the reinforcing rib located at the other end of the horizontal fixture for panel connection located at the bottom. It includes a member, a second inclined member connected to the reinforcing rib located at the other end of the horizontal fixture for panel connection located at the upper portion, and the reinforcing rib located at one end of the horizontal fixture for panel connection located at the lower portion; ,
The central portion of the first inclined member and the central portion of the second inclined member are coupled and fixed to each other, the first inclined member is coupled and fixed to one side of the reinforcing rib, and the second inclined member is of the reinforcing rib. It is fixed to the other side,
The fixing plate is provided with a plurality of studs, and the studs are embedded and installed in the first and second panels,
A connecting rod is coupled and fixed across the fixing plates of the plurality of horizontal fixtures for panel connection so that the plurality of horizontal fixtures for panel connection can move as one unit,
A precast wall structure characterized in that the cross-reinforcing bar for the truss is formed of a rod with a circular cross-section.