KR102175546B1 - Precast concrete floor and floor structure - Google Patents

Abstract

The present invention is a PC panel installed to form a floor of a set area; A deck plate in which a shear hole formed at a lower side is buried in the PC panel, and a hollow portion forming a plurality of rows in a longitudinal direction is formed; And a bending hardware buried in the PC panel and installed over an outer area and an inner area of the deck plate through the shear hole.

Description

Half PC floor plate and floor plate structure {PRECAST CONCRETE FLOOR AND FLOOR STRUCTURE}

The present invention relates to a half PC floor plate with improved workability, and a floor plate structure.

It should be noted that the content described in this section merely provides background information on the present invention and does not constitute the prior art.

In reinforced concrete slab construction, plywood formwork in reinforced concrete slab construction requires high-wage labor.

In construction sites, deck plates or PCs are used for long spans in order to reduce high-wage labor and reduce construction period compared to conventional plywood forms.

Here, in the case of PC using the entire slab as PC, there are a number of leaks in the overhanging part due to the problem of lifting and construction errors, so Half PC is applying it as an alternative.

However, due to the limitations of transport and lifting, the thickness of the plate is reduced. Accordingly, the crack problem and flexural stiffness of the concrete are small, so sub-beams or supports are required to withstand the work load for pouring concrete on the half PC. There is a problem of deterioration.

KR 10-2010-0027371 A

In one aspect, the present invention is to provide a half PC floor plate and a floor structure capable of reducing construction cost by reducing the weight of the half PC floor plate.

In one aspect, an object of the present invention is to provide a half PC floor plate and a floor structure capable of improving workability in a field by configuring a PC panel as a precast.

As an aspect for achieving the above object, the present invention is a PC panel installed to form a floor of a set area; A deck plate in which a shear hole formed at a lower side is buried in the PC panel, and a hollow portion forming a plurality of rows in a longitudinal direction is formed; And a bending hardware embedded in the PC panel and installed over the outer and inner areas of the deck plate through the front end hole, wherein the PC panel includes, wherein the lower side of the deck plate is buried, and the bottom is buried. Plate-shaped precast PC concrete forming a plate; And a buried reinforcing bar embedded in the PC concrete, disposed in a second direction in a longitudinal direction under the deck plate, and installed in connection with the bending hardware, wherein at least a part of the bending hardware is provided. An upper protrusion muscle disposed above the inner elevation of the deck plate and buried in the PC concrete; And, disposed under the protruding surface of the deck plate, and buried in the PC concrete in a state disposed at the lower side with a height difference than that of the upper protrusion, and connected via the upper protrusion and the bend oblique, and the buried reinforcement It provides a half PC floor plate having a;

Preferably, the deck plate includes a deck body that forms a plurality of uneven portions while connecting the protruding surfaces and the inner inlet surfaces alternately arranged with a height difference in the first direction in the width direction; And an end inclined surface formed to be inclined downward in both end regions of the deck body in a second direction in the longitudinal direction.

Preferably, a plurality of shear holes are provided through the inclined surface of the deck body in a longitudinal direction, and may be embedded in the PC concrete of the PC panel up to the top of the shear hole.

Preferably, the deck plate may further include a pressure plate extending from a lower end of the end slope to the end direction of the deck body and embedded in parallel to the PC concrete installation direction of the PC panel.

Preferably, the deck plate is surrounded by the protruding surface and inclined surfaces formed on both sides of the protruding surface in the first direction, and the protruding surface and the protruding surface formed on both sides of the protruding surface in the second direction. The hollow portion may be formed while being surrounded by the end inclined surface.

Preferably, the hollow part may be formed over 2/3 or more of the height of the deck body.

Preferably, the deck plate may further include a folding section formed around the end slope or the end slope in the second direction end region.

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Preferably, the lower internal entrance is installed in connection with the buried reinforcement to cross, and a half PC floor plate disposed below the internal elevation of the deck plate in a height direction.

As an aspect for achieving the above object, the present invention is the half PC bottom plate; A structural member on which the half PC bottom plate is mounted; And poured concrete that is placed on the upper side of the structural member and the half PC bottom plate to form a bottom surface, and integrates the half PC bottom plate with the structural member.

Preferably, the concrete used for the PC panel of the half PC deck may have a relatively small specific gravity compared to the concrete used for the poured concrete.

According to an embodiment of the present invention, it is possible to reduce the construction cost by reducing the self-weight of the half PC floor plate.

According to an embodiment of the present invention, there is an effect of improving the workability in the field by configuring the PC panel as a precast.

1 is a view showing a floor structure to which a half PC floor plate is applied according to an embodiment of the present invention.
FIG. 2 is a view showing a combined state of a deck plate, a bending hardware, and a buried reinforcing bar of a PC panel included in a half PC floor plate according to an embodiment of the present invention.
3 is a view in the direction AA′ of FIG. 1.
4 is a view in the direction BB′ of FIG. 3.
5 is a view showing a half PC bottom plate according to another embodiment of the present invention in the direction AA′ of FIG. 1.
6 is a view showing a half PC bottom plate according to another embodiment of the present invention in the direction AA′ of FIG. 1.
7 is a view in the CC' direction of FIG. 6.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, embodiments of the present invention are provided in order to more completely explain the present invention to those with average knowledge in the art. In the drawings, the shapes and sizes of elements may be exaggerated for clearer explanation.

Hereinafter, a half PC floor plate according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 to 7, a half PC floor plate according to an embodiment of the present invention may include a deck plate 100, a PC panel 200, and a bent hardware 300.

1 and 2, the half PC bottom plate is a PC panel 200 installed to form a floor of a set area, and a front end hole 150 formed at the lower side is buried in the PC panel 200, The deck plate 100 having a hollow portion S forming a plurality of rows in the longitudinal direction is formed, and the deck plate 100 is buried in the PC panel 200 and penetrates the shear hole 150 It may include a bending hardware 300 installed over the outer area and the inner area.

Referring to FIG. 1, the PC panel 200 is integrally formed using concrete, and a floor having a set area and thickness may be formed.

The PC panel 200 may be composed of a precast structure manufactured in advance together with the deck plate 100 and the bent hardware 300.

In this case, the area and thickness of the PC panel 200 may be variously set according to the construction site.

The PC panel 200 may be configured in a rectangular shape.

For example, the PC panel 200 may be formed of a rectangular or square precast plate.

Of course, it goes without saying that it can be manufactured in various standards and shapes depending on the installation location such as the structural member (T).

The PC panel 200 may be integrally manufactured while the lower side of the deck plate 100 and the entire bent hardware 300 are buried.

The PC panel 200 may include a plate-shaped precast PC concrete 230 having a set thickness and a set area, and a buried reinforcing bar 210 buried in the PC concrete 230.

Referring to FIG. 1, the lower side of the deck plate 100 may be buried in the PC panel 200, and the upper side may be formed to protrude from the upper surface of the PC panel 200.

Referring to FIGS. 2 and 3, the deck plate 100 may be formed with hollow portions S that form a plurality of rows in the longitudinal direction at regular intervals.

The deck plate 100 may be formed of a metal plate or a steel plate in which a plurality of uneven portions are formed.

2, the deck plate 100 has a shear hole 150 formed in the lower region in the height direction, and a plurality of shear holes 150 having a long hole shape are formed by being spaced apart in the longitudinal direction of the deck plate 100 Can be.

Specifically, the shear hole 150 may be installed in the lower area in the height direction of the inclined surface 130 of the deck plate 100, and formed by being spaced apart from a plurality of the inclined surface 130 of the deck plate 100 in the longitudinal direction Can be.

The deck plate 100 is formed with embossing protruding at a predetermined interval on the outer surface to resist slipping against the shear of the poured concrete 400 poured on the upper side of the PC panel 200 and the deck plate 100. I can.

Referring to FIG. 3, the bending hardware 300 is buried in the PC panel 200, penetrates through the front end hole 150 of the deck plate 100, and is bent over the outer and inner regions of the deck plate 100. Can be installed.

When the half PC floor plate is viewed from above, the bending hardware 300 may be disposed in a direction crossing the longitudinal direction of the deck plate 100, which is the valley direction of the deck plate 100.

Specifically, the bending hardware 300 may be disposed in a direction perpendicular to the longitudinal direction of the deck plate 100, which is the valley direction of the deck plate 100.

Here, the outer area of the deck plate 100 means an area away from the outer surface of the deck plate 100, and the inner area of the deck plate 100 means an area away from the inner surface of the deck plate 100.

Specifically, the bending hardware 300 may be installed by bending over between the upper space of the inner elevation surface 120 of the deck plate 100 and the lower space of the protruding surface 110 of the deck plate 100.

3 and 4, the bent hardware 300 is installed through the front end hole 150 of the deck plate 100, and is buried in the PC panel 200 to provide the deck plate 100 and the PC panel. (200) can be integrated.

The bending hardware 300 may extend from an outer area to an inner area of the deck plate 100 while penetrating through the shear hole 150, or may extend from an inner area of the deck plate 100 to an outer area.

The bending hardware 300 may be buried in the PC concrete 230 of the PC panel 200 and installed in connection with the buried reinforcement 210 of the PC panel 200.

For example, referring to FIG. 3, the bending point of the bending hardware 300 may be disposed on a cross section of the shear hole 150 of the deck plate 100.

The bending hardware 300 may be installed to continuously penetrate a plurality of shear holes 150 formed in the inclined surface 130 of the deck plate 100 in the first direction D1.

The bent hardware 300 is installed to be connected to the bottom of the buried reinforcing bar 210 of the PC panel 200 in the lower region of the protruding surface 110 or the inclined surface 130 of the deck plate 100, so that the PC panel 200 By acting as a resistor in the buried state, it is possible to prevent the deck plate 100 from being separated from the PC panel 200 by an external force.

1 and 2, the deck plate 100 is connected to the protruding surface 110 and the inner elevation 120 alternately arranged with a height difference in the first direction D1, which is the width direction. A deck body forming a plurality of concave and convex portions, and an end inclined surface 170 formed to be inclined downward on both end regions of the deck body in a second direction D2 in a longitudinal direction may be provided.

2 and 3, the deck body may form a plurality of uneven portions while the protruding surface 110 and the inner inlet surface 120 are alternately arranged with a height difference connected via the inclined surface 130. have.

The protruding surface 110 may be provided as a first plate disposed in a convex portion, and the inner inlet surface 120 may be provided as a second plate formed in a concave portion, and the inclined surface 130 includes a first plate and a second plate. It may be provided with an inclined plate to connect.

In the deck body, the protruding surface 110 and the inner elevation surface 120 are connected via the inclined surface 130, and the trapezoidal irregularities may be repeatedly formed so as to have shape resistance against load support.

Referring to Figure 2, the end inclined surface 170 is pressed by a pressing device such as a pressing device, such as a pressing device, the second direction (D2) of the deck body, the protruding surface 110 of the deck body, It may be formed while bending and deforming downward of the inclined surface 130 or the like.

The end inclined surface 170 forms a downwardly inclined surface 130 at the upper end of the deck body in both end regions to seal both ends in the second direction D2, so that it is in the second direction D2, which is the length direction of the deck plate 100. It is possible to introduce a hollow portion (S) in the central region.

As the end regions on both sides of the deck body in the second direction D2 are pressed by a press, the end inclined surface 170 may be formed.

For example, the hollow portion (S) may be formed over a range of 1/2 to 2/3 of the height of the deck body.

The half PC floor plate of the present invention has the effect of reducing the construction cost by reducing the weight of the half PC floor plate through the hollow portion (S) by forming a hollow portion (S) to reduce the amount of construction of concrete.

Referring to FIG. 2, the deck plate 100 may further include an end inclined surface 170 or a folded section 190 formed around the end inclined surface 170 in an end region in the second direction D2.

Referring to FIG. 2, a folding section 190 may be formed in at least a portion of the protruding surface 110, the inclined surface 130, and the inlet surface 120 in an end region of the deck body in the second direction D2. .

When the half PC bottom plate of the present invention is installed on the structural member T, a large shear load may act in both end regions of the half PC in the second direction D2 where the structural member T and the half PC are connected.

The half PC bottom plate of the present invention forms a folding section 190 on the deck body in the end region in the second direction D2, so that the end portion in the end region in the second direction D2 where the structural member T and the half PC are connected. As the shear load bearing force is increased by the folding section 190 formed around the inclined surface 170 or the end inclined surface 170, the end region in the second direction D2 can be shear reinforced more stably.

Specifically, the folding section 190 is formed while the end regions on both sides of the deck body in the second direction (D2) are pressed by a pressing device such as a press, and the protruding surface 110, the inner inlet surface 120, and the inclined surface of the deck body At least some of the 130 may be formed while being folded to overlap in two or more layers.

Although the folding section 190 formed in the deck plate 100 is shown in FIG. 2, it is cut by the shape of a pressing device and a support for supporting the lower side of the end region in the second direction D2 of the deck plate 100. The shape of the iron section can be changed.

2 and 3, a plurality of shear holes 150 are provided through the inclined surface 130 of the deck body in a longitudinal direction, and the PC panel 200 is provided to the upper end of the shear hole 150. ) Can be buried in the PC concrete 230.

A plurality of shear holes 150 may be provided on the inclined surface 130 by being spaced apart in the second direction D2 in the longitudinal direction, and may be formed to have a set height below the height direction.

The shear hole 150 is the most ?育? to facilitate the inflow of the thick aggregate of the concrete forming the PC concrete 230 The portion having the width may be configured to have a width of 75 mm or more.

For example, the shear hole 150 may have a long hole shape in the length direction of the deck plate 100.

Referring to FIG. 3, the front end hole 150 of the deck plate 100 may be entirely embedded in the PC panel 200.

The front end hole 150 of the deck plate 100 may be entirely embedded in the PC concrete 230 of the PC panel 200.

For example, as shown in FIGS. 3 and 5, the PC concrete 230 of the PC panel 200 may have the shear hole 150 formed to the top.

As another example, as shown in FIG. 6, the PC concrete 230 may be installed to an area higher than the upper end of the shear hole 150.

The front end hole 150 of the deck plate 100 is entirely embedded in the PC concrete 230 of the PC panel 200, so that the PC panel 200 is mounted on the structural members T on both sides of the PC panel ( When the poured concrete 400 is constructed on the upper side of 200), the concrete can be prevented from flowing into the shear hole 150.

In addition, the front end hole 150 of the deck plate 100 is entirely embedded in the PC concrete 230 of the PC panel 200, so that the PC concrete 230 installed across the inside and outside of the deck plate 100 is sheared. As it is connected with the hole 150, it can resist shear load, restrain the movement of the deck plate 100, and improve the integration of the PC concrete 230 and the deck plate 100.

In particular, as shown in FIG. 7, when the PC concrete 230 is installed to an area higher than the upper end of the shear hole 150, the PC concrete 230 installed over the inside and outside of the deck plate 100 is As it is connected with the shear hole 150, it is possible to reliably restrain the movement of the deck plate 100 while resisting the shear load.

1 and 2, the deck plate 100 is formed extending from the lower end of the end inclined surface 170 toward the end of the deck body, and the PC concrete 230 of the PC panel 200 is installed. It may further include a pressure plate 180 embedded in parallel to the direction.

The acupressure plate 180 extends from the end inclined surface 170 to the end region in the second direction D2 and may be buried parallel to the installation direction of the PC concrete 230 of the PC panel 200.

The acupressure plate 180 may be formed to be bent in an end region in the second direction D2 so as to cross at a lower end of the end inclined surface 170.

The acupressure plate 180 serves to transmit the load on the deck plate 100 to the acupressure of the PC panel 200.

The acupressure plate 180 secures a sufficient bonding area in contact with the PC concrete 230 so that the load transmitted from the top of the deck plate 100 can be transmitted to the PC panel 200 by the acupressure method.

Referring to FIG. 1, the acupressure plate 180 does not extend to the structural member T, and transmits a load to the structural member T through the PC panel 200 in which the lower end of the acupressure plate 180 is embedded. .

That is, the end of the PC panel 200 is mounted on the structural member T to transmit the load to the structural member T.

Specifically, the acupressure plate 180 does not extend to the end of the PC concrete 230 of the PC panel 200, and the PC concrete 230 in which the acupressure plate 180 is embedded extends to the structural member T and is mounted. Can be.

At this time, the PC concrete 230 of the PC panel 200 has a buried reinforcing bar 210 disposed in the second direction D2, so that the second direction D2 of the PC panel 200 mounted on the structural member T ) It can support the tensile load acting on the end area.

In addition, the cross reinforcement bar 250 crossing the buried reinforcing bar 210 is arranged in the end area of the PC panel 200 in the second direction D2 that is out of the deck plate 100, so that the end area of the second direction D2 Tensile load can be reinforced.

At this time, one end of the cross reinforcement 250 may be installed in connection with each other while being welded to the deck plate 100.

Specifically, one end of the cross reinforcement 250 may be welded to the pressure plate 180 of the deck body.

1 and 3, the deck plate 100 is formed by the protruding surface 110 and inclined surfaces 130 formed on both sides of the protruding surface 110 in the first direction D1. The hollow portion S may be formed while being surrounded by the protruding surface 110 and the end inclined surfaces 170 formed on both sides of the protruding surface 110 in the second direction D2. .

Referring to FIG. 1, by a protruding surface 110 in a second direction D2, which is a longitudinal direction of the deck plate 100, and two end inclined surfaces 170 inclined downward from both sides of the protruding surface 110. While being surrounded, a hollow portion (S) may be formed.

3, the deck plate 100 is surrounded by a protruding surface 110 in a first direction D1, which is the width direction, and two inclined surfaces 130 inclined downward from both sides of the protruding surface 110. While this, the hollow portion (S) may be formed.

The hollow part (S) may be formed over 2/3 or more of the height of the deck body.

The deck plate 100 includes a protruding surface 110, a first area, which is a space surrounded by two inclined surfaces 130 inclined downward from both ends of the protruding surface 110, and an interior elevation surface 120 and an interior elevation surface 120. A second region, which is a space surrounded by two inclined surfaces 130 inclined upward at both ends of ), may be formed.

Specifically, the deck plate 100 has a first area that is a space surrounded by the protruding surface 110 and two inclined surfaces 130 inclined downward at both ends of the protruding surface 110, and the hollow The portion S may be formed over 2/3 or more of the height of the first region.

This is to reduce construction cost by sufficiently reducing the amount of construction of concrete and reducing the weight of the half PC deck by forming the hollow portion (S) over 2/3 of the height of the deck body.

1 and 3, the PC panel 200 includes a PC concrete 230 in which the lower side of the deck plate 100 is buried and forms a bottom plate, and the PC concrete 230 A buried reinforcing bar 210 may be provided that is buried in the second direction D2 and installed in connection with the bent hardware 300.

The PC concrete 230 is a part in which the lower area of the deck plate 100 is filled and forms a bottom.

The PC concrete 230 is a part that is integrally formed using concrete and forms a floor having a set area and thickness.

Referring to FIGS. 2 and 3, the buried reinforcing bar 210 may be buried in the PC concrete 230 in the second direction D2 and installed in connection with the bending hardware 300.

The buried reinforcing bar 210 may be disposed in an inner region of the deck plate 100, and specifically, may be disposed at a lower portion of the protruding surface 110 of the deck plate.

The half PC floor plate including the deck plate 100, the PC panel 200, and the bent hardware 300 may be integrally manufactured and installed in a factory or on-site.

In the half PC floor plate, which has been integrally manufactured in advance, the poured concrete 400 may be installed on the upper half PC floor plate with both ends mounted on the structural member T at the construction site.

1 and 2, the bending hardware 300 is at least partially disposed on the upper side of the inner elevation 120, the upper protrusion 310 buried in the PC panel 200, and the A lower portion disposed under the protruding surface 110 of the deck plate 100, connected via the upper protrusion 310 and the oblique muscle, and installed in connection with the buried reinforcement 210 of the PC panel 200 It may be provided with the internal entrance (320).

Referring to FIG. 2, the bent hardware 300 may include an upper protruding muscle 310, a bending inclined muscle 330, and a lower introductory muscle 320.

The bending hardware 300 may be formed by connecting the upper protruding muscles 310 and the lower introductory muscles 320 alternately arranged at a height difference through the bending inclined muscles 330.

The upper protrusion muscle 310 and the lower introductory muscle 320 are buried with a height difference in the PC concrete 230 of the PC panel 200, and are bent between the upper protrusion muscle 310 and the lower introductory muscle 320 The oblique muscles 330 may be disposed.

For example, the upper protruding muscle 310, the bent inclined muscle 330, and the lower introductory muscle 320 may be integrally formed, and may be formed by bending a rod-shaped reinforcing bar in multiple stages.

The bending hardware 300 is formed by sequentially bending in multiple stages in the order of the bending inclined muscle 330, the upper protruding muscle 310, the bending inclined muscle 330, the lower introductory muscle 320, and the bending inclined muscle 330. I can.

For example, the bent inclined muscle 330, the upper protruding muscle 310, and the bent inclined muscle 330 are continuously bent in a trapezoidal shape with an open lower part, and the bent inclined muscle 330, the lower introductory muscle 320, The bending inclined muscle 330 may be continuously bent in a trapezoidal shape with an open top.

3 and 4, the upper protrusion 310 is disposed on the upper side of the inner elevation surface 120 of the deck plate 100, and is to be embedded in the PC concrete 230 formed above the inner elevation surface 120. I can.

The upper protrusion 310 may be installed in the outer area of the deck plate 100.

The upper protrusion 310 may be disposed in a space surrounded by the inclined surface 120 and the two inclined surfaces 130 inclined upward at both ends of the inclined surface 120.

For example, as shown in FIG. 2, the upper protrusion muscle 310 may be horizontally disposed in the outer area of the deck plate 100, and while bending downward toward the boundary of the shear hole 150, the bending slope muscle 330 ) Is extended, and the bent inclined muscle 330 is bent upward in the inner region of the deck plate 100 so that the lower introductory muscle 320 may be horizontally disposed.

Of course, although not shown, the upper protrusion muscle 310 may be bent downward in the outer region of the deck plate 100 and may be connected to the bend inclined muscle 330.

Further, although not shown, the upper protrusion 310 may be installed over the outer and inner regions of the deck plate 100.

Referring to FIG. 3, the lower introductory muscle 320 is disposed under the buried reinforcing bar 210 buried in the PC concrete 230 in the inner region of the deck plate 100, and both can be fixed. have.

At this time, when manufacturing the half PC floor plate, a spacer is installed at the lower portion of the bending hardware 300, so that the lower inlet muscle 320 of the bending hardware 300 is spaced apart from the bottom surface of the PC concrete 230 at a predetermined interval. I can.

Referring to FIG. 3, the lower introductory muscle 320 may be installed in connection with the buried reinforcing bar 210 to intersect, and may be disposed below the interior elevation surface 120 of the deck plate 100 in the height direction. .

This is to support the tensile load that acts largely in the lower area in the height direction of the PC concrete 230 by arranging the lower introductory muscle 320 below the inlet surface 120 in the height direction of the PC concrete 230. .

Referring to FIG. 5, it may be installed in connection with the buried reinforcing bar 210 so as to intersect, and may be installed at a height corresponding to the interior elevation surface 120 of the deck plate 100 in a height direction.

Next, with reference to the drawings will be described in detail with respect to the floor structure.

1 to 7, a floor structure according to an embodiment of the present invention may include a half PC floor plate, a structural member (T), and poured concrete (400).

Referring to Figure 1, the floor structure is a half PC floor plate, a structural member (T) on which the half PC floor plate is mounted, and the structural member (T) and the half PC floor plate are placed on the upper side to form a bottom surface. And, it may include a poured concrete 400 for integrating the half PC bottom plate and the structural member (T).

The half PC floor plate and the structural member T may serve as a load support and serve as a formwork for the poured concrete 400.

Referring to FIGS. 1 and 3, the deck plate 100 may have a lower end of the tech plate buried under the floor structure in a third direction D3 which is a height direction.

The half PC floor is installed between the structural members T, and the second direction is the lengthwise direction of the deck plate 100, which is the same as the direction in which the deck plate 100 of the half PC floor extends between the structural members T. (D2) can be arranged so that the protrusions intersect.

Accordingly, the resistance to the torsional moment of the structure (torsional stiffness) and the resistance to the bending moment (bending stiffness) can be increased by the uneven portion of the deck plate 100 composed of a steel plate or a metal plate. There is an effect that it is possible to implement a half PC floor plate.

The poured concrete 400 may be poured on the upper side of the structural member T and the half PC bottom plate to form a bottom surface.

The poured concrete 400 may form a concrete member 410 by pouring concrete in a state in which the on-site construction muscle 430 that is laid in the field is laid on the upper side of the half PC floor plate.

The poured concrete 400 may integrate the half PC bottom plate and the structural member T through the process of curing and hardening.

Concrete can be poured on the upper side of the structural member T and the deck plate 100, and concrete is poured on the upper side of the tech plate, so that the poured concrete 400 is integrated with the structural member T and the half PC floor plate. As the floor structure can be formed.

In this case, the deck plate 100, the PC panel 200, and the half PC floor plate including the bent hardware 300 may be integrally manufactured in advance at a factory or a site.

The half PC bottom plate manufactured in the factory or on-site may be mounted on the structural member T and installed.

In the pre-fabricated half PC floor plate, poured concrete 400 may be installed on the upper part while both ends are mounted on the structural member T at the construction site.

With the half PC floor plate and the structural member T blocking the lower area, concrete is poured on the upper side of the half PC floor plate and the structural member T, so that the poured concrete 400 can be constructed.

As the poured concrete 400 is cured and hardened, the half PC bottom plate and the structural member T may be integrated through the poured concrete 400.

As an example, the structural member T is a substructure (T2) in which a section member (T1) and the section member (T1) are placed in concrete and integrated and the end of the structural member (T) is mounted. It can be provided.

In the lower structure (T2), concrete is poured into the outer casing while the lower end of the section member (T1) is placed inside the outer casing with the upper part open, so that the section member (T1) and the lower structure (T2) can be integrated. I can.

At this time, the structural member T may be composed of a precast structure in which the beam member T1 and the lower structure T2 are manufactured together.

In the floor structure of the present invention, the entire slab forming the floor of structures such as buildings is not formed in a precast structure, but a portion corresponding to a part of the height of the slab is precast with the PC panel 200 of the half PC floor plate. Configured.

Accordingly, there is an effect of improving the workability in the field by configuring the PC panel 200 as a precast and constructing the poured concrete 400 on the upper side of the half PC floor plate.

As for the floor structure, the concrete used for the PC panel 200 of the half PC floor plate may have a relatively low specific gravity compared to the concrete used for the poured concrete 400.

This is to reduce the weight of the PC panel 200 manufactured in advance in a factory or on-site to facilitate transportation in the field, thereby improving workability in the field.

In addition, it goes without saying that various embodiments of the half PC floor plate having various embodiments described above may be applied to the floor structure of the present invention.

Therefore, the configuration of the deck plate 100, the PC panel 200, and the bent hardware 300 of the half PC floor plate used in the floor structure are the same as the configuration of the half PC floor plate, as described above, for detailed descriptions of this Omit it to avoid duplication.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and variations are possible without departing from the technical spirit of the present invention described in the claims. It will be obvious to those of ordinary skill in the field.

100: deck plate 110: protruding surface
120: interior elevation 130: slope
150: shear hole 170: end slope
180: acupressure plate 190: folding section
200: PC panel 210: reinforced reinforcement
230: PC concrete 250: cross reinforcement
300: bending hardware 310: upper protrusion
320: lower introductory muscle 330: bending oblique muscle
400: poured concrete 410: concrete member
430: field construction root D1: 1st direction
D2: second direction D3: third direction
S: hollow part T: structural member
T1: section steel member T2: substructure

Claims (12)

A PC panel installed to form a floor of a set area;
A deck plate in which a shear hole formed at a lower side is buried in the PC panel, and a hollow portion forming a plurality of rows in a longitudinal direction is formed; And,
Including; a bent hardware buried in the PC panel, penetrating the shear hole and installed over the outer and inner regions of the deck plate,
The PC panel,
A plate-shaped precast PC concrete in which the lower side of the deck plate is buried and forming a bottom plate; And,
A buried reinforcing bar embedded in the PC concrete, disposed in a second direction in a longitudinal direction under the deck plate, and installed in connection with the bending hardware; and
The bending hardware,
An upper protrusion muscle at least partially disposed above the inner elevation of the deck plate and buried in the PC concrete; And,
It is disposed under the protruding surface of the deck plate and is buried in the PC concrete in a state that is disposed at the lower side with a height difference than that of the upper protrusion, and is connected to the upper protrusion and the bending oblique muscle as a medium, and is connected with the buried reinforcing bar. A half PC floor plate having a;
The method of claim 1, wherein the deck plate,
A deck body that forms a plurality of uneven portions while connecting the protruding surfaces and the inner inlet surfaces alternately arranged with a height difference in the first direction in the width direction; And,
A half PC floor plate comprising: end inclined surfaces formed to be inclined downward in both end regions of the deck body in a second direction in the longitudinal direction.
The method of claim 2, wherein the shear hole
A half PC floor plate, characterized in that a plurality of pieces are provided through the inclined surface of the deck body in a lengthwise direction, and embedded in the PC concrete of the PC panel up to the upper end of the shear hole.
The method of claim 2, wherein the deck plate,
Acupressure plate extending from a lower end of the end inclined surface toward the end of the deck body, and buried parallel to the PC concrete installation direction of the PC panel; a half PC floor plate further comprising.
The method of claim 2, wherein the deck plate,
The first direction is surrounded by the protruding surface and inclined surfaces formed on both sides of the protruding surface,
The half PC bottom plate, wherein the hollow portion is formed while being surrounded by the protruding surface and the end inclined surfaces formed on both sides of the protruding surface in the second direction.
The method of claim 2, wherein the hollow portion,
Half PC floor plate, characterized in that formed over two-thirds or more of the height of the deck body.
The method of claim 2, wherein the deck plate,
The half PC floor plate further comprising a; folding section formed around the end inclined surface or the end inclined surface in the end region in the second direction.
delete delete The method of claim 1, wherein the lower introductory muscle,
A half PC floor plate, characterized in that it is connected and installed so as to intersect with the buried reinforcement, and is disposed below the inner elevation of the deck plate in a height direction.
The half PC floor plate according to any one of claims 1 to 7 and 10;
A structural member on which the half PC bottom plate is mounted; And,
A floor structure comprising: poured concrete that is placed on the upper side of the structural member and the half PC bottom plate to form a bottom surface, and integrates the half PC bottom plate and the structural member.
The method of claim 11,
A floor structure, characterized in that the concrete used for the PC panel of the half PC floor plate has a relatively small specific gravity compared to the concrete used for the poured concrete.

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