KR20120018570A - Composite beam using deck plate having plulality of cap plate - Google Patents

Abstract

PURPOSE: A composite beam using a deck plate with a plurality of cap plates is provided to enhance structural safety and constructability since the deformation of a deck plate due to construction load can be prevented. CONSTITUTION: A composite beam using a deck plate with a plurality of cap plates comprises a precast concrete beam(20), a deck plate(10), a connecting bar(30), and slab concrete(40). The deck plate is placed on the top of the precast concrete beam and is supported by the precast concrete beam. The deck plate has a plurality of cap plates. The connecting bar connects the ends of the deck plate placed on the top of the precast concrete beam. The slab concrete is placed on the top of the deck plate and is synthesized integrally with the deck plate.

Description

Composite beam using deck plate having plulality of cap plate}

The present invention reduces the constant moment by continually using the cap plate to reduce the static moment, thus eliminating the need for installation of copper bars during construction, and constructing a highly efficient cross section after synthesis, and effectively resisting the spreading and lateral distortion of the deck plate during construction. The present invention relates to a composite beam using a deck plate having a plurality of cap plates.

As a structural type of high-rise building, steel structure or steel reinforced concrete structure, which is excellent in durability and seismic resistance, is mainly adopted.In this high-rise building, deck plate is generally used for floor slab system because of the need for shortening of air and reducing labor cost. to be.

Deck plates are largely divided into formwork and structural use. Formwork is to withstand the weight of concrete in the liquid state before construction and the load during construction, and the floor load after the concrete is supported by the concrete floor. Structural supports loads with concrete even after hardening and function as tensile rebar. Structural has the effect of adding rebar, saving the amount of rebar and concrete thickness.

For structural purposes, there are reinforced truss deck plates, composite deck plates, and the like. Reinforced Truss Deck Plate integrates a structural member made of a truss in the form of a truss and a flat deck plate (flat deck plate) to allow temporary loads to be applied by reinforced trusses. It is to reduce the thickness of the overall floor plate structure by reducing the thickness of the composite and eliminating the bone. Various types have been developed depending on the shape of the reinforcing truss.

The composite deck plate is integrated with the slab concrete to support the load, and the open valley has a continuous cross-sectional shape and embossing or grooves are formed on the surface to increase the synthesizing effect. Formwork Synthetic deck plates have almost the same cross-sectional shape but relatively less dance.

However, such deck plates are not only structurally inefficient because the ends are simply supported on the beam, that is, the ends are not continuous, and when used in the long-term, it is necessary to support them with copper clubs during construction due to excessive static moment. When placing concrete, it may be caused by side pressure or lateral force during work, or lateral torsion may occur.

The present invention is a composite beam that can be long and short and can cope with high loads by using the deck plate with the end portion is continuous and can prevent the deformation of the deck plate due to the construction load improved structure safety and constructability To provide.

According to a suitable embodiment of the present invention, the beam; The ribs opened at both ends in the longitudinal direction of the deck plate body having a constant width in a cross-sectional shape having a plurality of open ribs parallel to each other, which are supported by the beams and are supported by the beams, are closed. A deck plate having a plurality of cap plates coupled to a parent portion reinforcement cap plate on a flat portion to couple the ribs open at a central portion to a constant moment reinforcement cap plate on a flat portion to close the ribs; Connecting reinforcing bars for successive cap plate reinforcement of the adjacent deck plate placed on the upper surface of the beam; And slab concrete which is poured on top of the deck plate and synthesized integrally with the deck plate.

According to another suitable embodiment of the present invention, a beam; The ribs opened at both ends in the longitudinal direction of the deck plate body having a constant width in a cross-sectional shape having a plurality of open ribs parallel to each other, which are supported by the beams and are supported by the beams, are closed. A deck plate having a plurality of cap plates coupled to a parent portion reinforcement cap plate on a flat portion to couple the ribs open at a central portion to a constant moment reinforcement cap plate on a flat portion to close the ribs; It includes slab concrete which is cast on the deck plate and synthesized integrally with the deck plate, and extends the cap plate for reinforcement of the parent cement of the neighboring deck plate placed on the upper surface of the beam, thereby continuing the adjacent deck plate A composite beam is provided.

According to another suitable embodiment of the present invention, a plurality of width fixing cap plate coupled to the flat portion to close the open rib between the parent moment reinforcement cap plate at both ends and the central moment reinforcement cap plate It may include.

According to another suitable embodiment of the present invention, the bottom plate constituting the open ribs is formed with a dove tail groove, the deck plate adjacent the end coupling portion of the vertically bisected form of the dove tail ribs defining the dove tail groove It can be used when overlapping the ends of both sides in the width direction of.

According to another suitable embodiment of the present invention, the parent moment reinforcement cap plate, the constant moment reinforcement cap plate and the width fixing cap plate is a steel plate having a constant thickness as a whole, the engaging portion extending inclined at both ends of the cover portion and the cover portion; Consists of a bent steel plate bent to have, the cover portion of the parent plate reinforcement cap plate and the positive moment reinforcement cap plate may be formed with concrete pour hole.

According to another suitable embodiment of the present invention, it may further comprise a bottom connecting plate for continuing the bottom surface of the open rib of the neighboring deck plate placed on the top surface of the beam.

According to still another preferred embodiment of the present invention, the beam becomes a precast concrete beam having a rectangular cross-sectional shape, and may be installed to protrude a plurality of shear connecting bars to the upper surface.

According to another suitable embodiment of the present invention, the steel beam having a beam H-shaped cross-sectional shape, it can be installed to protrude a plurality of shear connecting material to the upper surface.

  Deck plate having a plurality of cap plate according to the present invention effectively prevents problems such as buckling of the deck plate is formed by bending a thin steel sheet and deformation of the shape during concrete casting, such as buckling, bending and twisting by using a plurality of cap plate It is possible to prevent and in particular the continuation of the deck plate by using the cap plate for reinforcing the parent moment can reduce the static moment generated in the center portion has the advantage that there is no need to install a copper bar during construction. Therefore, the composite beam according to the present invention can be made longer and can cope with high loads without the need to support the grouping.

The following drawings, which are attached in the present specification, illustrate exemplary embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a perspective view showing a deck plate according to the present invention, Figure 2 is a cross-sectional view taken along the line AA of FIG.
3 is a perspective view showing a cap plate according to the present invention.
Figure 4a is a front view showing a composite beam using a deck plate having a plurality of cap plates according to an embodiment of the present invention, Figure 4b is a perspective view showing a continuous point portion of the deck plate supported by the beam.
Figure 5a is a front view showing a composite beam using a deck plate having a plurality of cap plate according to another embodiment of the present invention, Figure 5b is a perspective view of the continuous point portion of the deck plate supported by the beam.
6 is a perspective view showing a modification of the embodiment shown in Figures 4a and 5a.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

1 is a perspective view showing a deck plate according to the present invention, Figure 2 is a cross-sectional view taken along the line A-A of FIG.

1 and 2, the deck plate according to the present invention is coupled to a plurality of cap plate to the deck plate body to secure the continuity of the end and prevent the spreading and lateral torsion during concrete placement and acts on the external force (especially bending moment) It is to effectively resist.

In the present invention, the deck plate body 11 has a flat portion 111 and two side surfaces 121a, 121a extending inclined from the flat portion 111, the two adjacent deck plate body (11, 11) end The coupling portion 121e is connected in the width direction (lateral direction) to form a cross-sectional shape having a plurality of open ribs 121 parallel to each other separated by the flat portion 111. The open rib 121 has a gap between the side surfaces 121a and 121a of the neighboring rib 121, and the gap may be wider than the width of the bottom surface 121b. Therefore, the opened rib 121 has a bottom surface 121b and both side surfaces 121a, and an upper surface between the flat portions 111 has an open structure.

The deck plate body 11 configured as described above may have a constant width and may be connected to each other by overlapping end portions of both sides in the width direction of the adjacent deck plate body 11. The bottom surface 121b constituting the rib 121 is formed with a dove tail groove 121c for coupling the hardware for installing the ceiling finishing material, and a dove tail rib 121d defining the dove tail groove 121c is formed. The vertically bisected end coupling portion 121e is used to overlap the side surfaces of the adjacent deck plate body 11. When the dove tail groove 121c is not formed in the bottom surface 121b of the rib 121, that is, when the end coupling portion 121e of the above-described form is not formed, the end bending process for the separate overlapping seam is performed. Such end bends can be made and are known in the art.

On the other hand, from above, the two adjacent deck plate bodies 11 having the flat portion 111 and the two side surfaces 121a and 121a extending obliquely from the flat portion 111 are formed in the width direction using the end coupling portion 121e. (Crosswise) connected in a cross-sectional shape having a plurality of open ribs 121 parallel to each other separated by the flat portion 111, but bent by a single steel plate to be separated from each other by the flat portion 111 A cross-sectional shape having a plurality of parallel open ribs 121 may be manufactured, and in this case, the dove tail ribs 121d are opened instead of forming the dove tail ribs 121d by overlapping the end coupling portions 121e. It may be formed in the process of bending to form the rib 121.

Although not shown in the flat portion 111 and the rib 121 of the deck plate body 11 to increase the compounding effect with concrete, that is, a means for increasing the adhesion force known in the art, that is, locking ribs or embossment, etc. Can be.

The height of the dance of the deck plate body 11 in the present invention is not particularly proposed, but may preferably have a range of 140mm ~ 250mm. If it is thinner than 140mm, the dance becomes a thin deck plate.It is mainly used for formwork and its own rigidity makes it difficult to apply independently as a composite deck plate.If the dance exceeds 250mm, the application is limited in relation to the beam. Can follow.

The deck plate body 11 described above has the same or similar structure as the bone deck plate used mainly for formwork or a deep deck used for synthesis, and the present invention includes a bone deck plate and a deep deck. It is applicable to any deck plate known in the art having a cross-sectional shape having a plurality of open ribs 121 parallel to each other separated by flat portions 111 regardless of the shape of the and ribs.

Both side surfaces 121a and 121a of the open rib 121 of the deck plate body 11 are connected to each other by a plurality of cap plates. The cap plate can be classified into three types according to its function and installation position. The parent plate reinforcement cap plate 13 is installed at both ends in the longitudinal direction of the deck plate main body 11, and the central part reinforcement cap plate 14 is installed, and the parent plate reinforcement cap plate at both ends is provided. A plurality of width fixing cap plates 15 may be installed between the 13 and the central moment reinforcing cap plates 14.

The parent plate reinforcement cap plate 13 is for securing the continuity of the end of the deck plate main body 11 while resisting the parent moment acting on the deck plate main body 11 during construction. It is coupled to connect the open top surface of the open rib 121 at both ends of the. Therefore, the parent plate reinforcement cap plate 13 closes the rib 121 opened at the end of the deck plate body 11.

The length of the parent plate reinforcement cap plate 13 may be determined according to the length of the section receiving the parent moment when the deck plate body 11 is continuous, and preferably, the total length L of the deck plate body 11. It can be 1/6 to 1/10. The cross-sectional shape of the cap reinforcement cap plate 13 is not particularly limited, and the deck plate main body 11 adjacent to each other on the beam is constrained from the gap and lateral torsion while connecting the open upper surface of the open rib 121. It is necessary to have rigidity and strength to be connected.

As an example, as shown in (a) of FIG. 3, the cap reinforcement cap plate 13 has a coupling part 132 extending from both ends of the cover part 131 and the cover part 131 as a whole having a predetermined thickness. It may be composed of a bending steel sheet bent to have. The cover part 131 may have a flat upper surface and inclined surfaces on both sides, and concretely cast concrete with an open rib 121 on the upper surface, and the concrete is integrally synthesized without being separated by the cap plate 14 for reinforcing the positive moment. A plurality of concrete placing holes (131a) to be formed may be formed.

The constant moment reinforcement cap plate 14 is coupled to connect the open upper surface of the rib 121 opened at the center in the longitudinal direction of the deck plate body 11, the plurality of width fixing cap plate 15 is Coupling to connect the open upper surface of the open rib 121 of the deck plate body 11 at intervals between the parent moment reinforcement cap plate 13 of the end and the constant moment reinforcement cap plate 14 of the center do. The length of the positive moment reinforcement cap plate 14 may be determined according to the length of the section receiving the constant moment when the deck plate main body 11 is continuous, and preferably, the total length L of the deck plate main body 11. It can be 1/6 to 1/10. The length of the width fixing cap plate 15 is not particularly limited and may be sufficient to have a strength and rigidity enough to prevent the width and the gap and lateral torsion so that the separation of aggregate does not occur when concrete is poured. There is no particular limitation on the cross sectional shape of the constant moment reinforcement cap plate 14 and the width fixing cap plate 15, and the gap and lateral torsion are constrained while connecting the open upper surface of the open rib 121. It is only necessary to have rigidity and strength to connect the open ribs 121 of 11) to each other. Accordingly, the constant moment reinforcement cap plate 14 and the width fixing cap plate 15 respectively close the longitudinal center portion of the deck plate main body 11 and the rib 121 opened between the end portion and the central portion.

For example, as shown in (b) and (c) of FIG. 3, the ends of the cover parts 141 and 151 and the cover parts 141 and 151 may be formed of steel sheets having a uniform thickness as a whole as in the cap plate 13 for reinforcing the cement. It may be composed of a bent steel sheet bent to have a coupling portion (142,152) extending from. The cover parts 141 and 151 may have a flat upper surface and inclined surfaces on both sides, and concretely casts concrete with an open rib 121 on the upper surface of the positive moment reinforcement cap plate 14 and the concrete is a positive moment reinforcement cap plate ( A plurality of concrete placing holes 141a may be formed to be integrally synthesized without being separated by 14).

Meanwhile, in the drawing, an L-shaped protrusion 111a is formed on the flat portion 111 of the deck plate body 11, and the coupling portions 132, 142, and 152 of the cap plates 13, 14, and 15 are inserted into the protrusion 111a. Although shown to secure the cap plate (13, 14, 15) to the flat portion 111 of the deck plate body 11, the present invention is not limited to this, and the cap plate (13, 14, 15) to the deck plate body ( 11), any method known in the art may be applied, such as welding, bolting, piece joining, or crimping. Therefore, the shape of the coupling portions 132, 142, 152 of the cap plate (13, 14, 15) is not limited to the U-shape shown. When the A-shaped protrusion 111a is formed on the flat portion 111 of the deck plate body 11, the adhesion with the slab concrete 40 may be further increased.

In addition, in the drawings, the cover portions 131, 141, and 151 of the cap plates 13, 14, and 15 are shown to protrude upward, but the present invention is not limited thereto, and may have a protruding downward shape, and the slab may protrude downward. There is an advantage to reduce the height of the concrete, and when protruding upward, there is an effect to increase the composite effect with the slab concrete. In addition, if the deck plate body 11 can be effectively reinforced with respect to the load during construction may be configured in the form of a flat plate having a predetermined thickness.

The deck plate 10 having a plurality of cap plates according to the present invention configured as described above is a problem such as deformation of the buckling and squeeze, buckling and warping of the deck plate is formed by bending a thin steel sheet It can be effectively prevented by using a plurality of cap plates, and in particular, it can effectively resist the parent by using the cap plate for reinforcing the parent, and the continuous moment of the deck plate can be reduced to reduce the static moment generated at the center part. There is no need to install clubs.

Hereinafter, a composite beam using a deck plate configured as described above will be described.

Figure 4a is a front view showing a composite beam using a deck plate having a plurality of cap plates according to an embodiment of the present invention, Figure 4b is a perspective view showing a continuous point portion.

As in FIGS. 4A and 4B, the composite beam has a precast concrete (PC) beam 20, a plurality of cap plates according to the invention, which are placed on top of the PC beam 20 and supported by the PC beam 20. Deck plate 10, the connecting rod 30 and the deck plate 10 is connected to the upper end of the deck plate 10 to connect the end of the adjacent deck plate 10 placed on the upper surface of the PC beam 20 is deck plate 10 And slab concrete 40 synthesized integrally with the slab.

Precast concrete beam (PC) beam 20 produced by using a mold in the factory seen in the composite beam according to an embodiment of the present invention is applied. The cross section has a rectangular shape having a larger width than the height thereof, and is provided such that a plurality of shear connecting reinforcing bars 21 protrude upward. The slab concrete 40 and the PC beam 20, which are filled in the space between the adjacent deck plates 10 mounted on the upper surface of the PC beam 20 through the shear connection rebar 21, are integrally synthesized. On the other hand, when the dove tail grooves 123 are formed on the bottom surface 122 of the open rib 12, the dove tail ribs 124 of the deck plate body 11 adjacent to each other are connected to each other by the lower connection plate 33. Connect. The lower connecting plate 33 has the same cross-sectional shape as the dove tail ribs 124 and has a larger cross-sectional dimension so that it can be slidingly coupled. When the dove tail ribs 124 are not formed on the deck plate body 11, the lower connection plate 33 may have a plate shape and form a shape in which the bottom surfaces 121b of the open ribs 121 are connected to each other. .

At both ends of the upper surface of the PC beam 20, a deck plate 10 having a plurality of cap plates according to the present invention is placed, and the cap plate 13 for reinforcing the reinforcement of the adjacent deck plate 10 is connected to the reinforcing bar 30. Are connected to each other. Therefore, in the present invention, the ends of the deck plate 10 are continuous to each other with the upper connecting rod 30 and the lower connecting plate 33. Alternatively, as shown in FIG. 6A, the parent plate reinforcement cap plate 13 may be extended to connect adjacent deck plate bodies 11 to each other so that the deck plate 10 may be continuous. The end face or the flank face of the deck plate body 11 may be closed by an end closure (not shown) known in the art.

Concrete slab 40 is formed so that the upper surface of the deck plate body 11 fills the inside of the open rib 121 and protrudes with a predetermined height from the upper surface of the flat portion. The slab concrete 40 and the deck plate body 11 may be integrally synthesized by protrusions (embossing, not shown) formed on the surface of the deck plate body 11. Synthesis between the slab concrete 40 and the deck plate body 11 can be made by installing a shear connecting material in addition to the increase of the mechanical adhesion by the projections can be made through any method known in the art.

Composite beam according to an embodiment of the present invention configured as described above the end of the deck plate body 11 mounted on the upper surface of the PC beam 20 and the reinforcing bar 30 or the cap plate 13 for the reinforcement of the parent By being continuous by the lower connecting plate 33, the moment acting on the center portion of the deck plate body 11 during construction can be reduced by about 50%, thereby effectively resisting the moment acting on the deck plate body 11. . In addition, since the end portion is continuous, the amount of deflection can be reduced to less than the allowable deflection, and it is not necessary to support the deck plate main body 11 at the same time during construction. Therefore, there is no problem of construction delay due to installation and dismantling of the club, and it is possible to secure a work space under the deck plate due to the removal of the club. In addition, since the ribs opened through the cap plate are connected to each other, the stability of the side pressure when placing slab concrete can be prevented from being widened during work, and the stability of the buckling when applying the long span is high.

Figure 5a is a front view showing a composite beam using a deck plate having a plurality of cap plates according to another embodiment of the present invention, Figure 5b is a perspective view of the continuous point portion.

As in FIGS. 5 a, 5b, the composite beam is a steel beam 50, a deck plate 10 having a plurality of cap plates according to the invention, which is placed on the top surface of the steel beam 50 and supported by the steel beam 50. , The connection reinforcing bar 30 and the upper end of the deck plate 10 to connect the end of the adjacent deck plate 10 placed on the upper surface of the steel beam 50 is synthesized integrally with the deck plate 10 Slab concrete 40.

In the present embodiment, since the above-described embodiment and the beam to be applied are different from each other, and the configuration of the remaining components, that is, the deck plate, the connecting rebar, the lower connecting plate, and the slab concrete is the same as the above-described embodiment, the repeated description is omitted. Although the PC beam is applied in the above-described embodiment, the steel beam is applied in the present embodiment. The steel beam 50 may be the H-beam shown, but the present invention is not limited thereto and may be a beam having any cross-sectional shape known in the art. The upper surface of the steel beam 50 may be provided with any shear connector known in the art, such as a stud connector 51 for synthesis with the slab concrete 40. In the present embodiment, the deck plate body 11 may be fixed to the upper surface of the steel beam 50 by welding.

6 is a perspective view showing a modification of the embodiment shown in Figures 4a and 5a.

Referring to FIG. 6, the deck plates 10 placed on the beams 20 and 50 and supported by the beams 20 and 50 are connected to each other by using the reinforcing bar 30, but instead of the cap plate 13 for reinforcing the parent cement. E) may be extended on both sides of the beam and connect the deck plates 10 adjacent to each other. In this case, the parent plate reinforcement cap plate 13 may be coupled to connect the deck plate 10 adjacent to the site after placing the deck plate 10 on the beam.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention . For example, the above description has been given of an example in which a PC beam having a rectangular shape having a larger width than a height is applied, but is applicable to a PC beam having an inverted T-shaped cross section. The invention is not limited by the invention as such variations and modifications but only by the claims appended hereto.

11: deck plate body
111: flat part
121: open rib
13: Cap plate for reinforcement of parent
14: Cap plate for reinforcing moment
15: Cap plate for width fixing
20: precast concrete beam
30: connecting rebar
33: lower connection plate
40: slab concrete
50: steel beam

Claims (8)

Bo;
The ribs opened at both ends in the longitudinal direction of the deck plate body having a constant width in a cross-sectional shape having a plurality of open ribs parallel to each other, which are supported by the beams and are supported by the beams, are closed. A deck plate having a plurality of cap plates coupled to a parent portion reinforcement cap plate on a flat portion to couple the ribs open at a central portion to a constant moment reinforcement cap plate on a flat portion to close the ribs;
Connecting reinforcing bars for successive cap plate reinforcement of the adjacent deck plate placed on the upper surface of the beam; And
A composite beam comprising slab concrete which is poured on the deck plate and synthesized integrally with the deck plate. Bo;
The ribs opened at both ends in the longitudinal direction of the deck plate body having a constant width in a cross-sectional shape having a plurality of open ribs parallel to each other, which are supported by the beams and are supported by the beams, are closed. A deck plate having a plurality of cap plates coupled to a parent portion reinforcement cap plate on a flat portion to couple the ribs open at a central portion to a constant moment reinforcement cap plate on a flat portion to close the ribs;
Includes slab concrete that is poured on top of the deck plate and synthesized integrally with the deck plate,
A composite beam characterized in that the adjacent deck plate is continuous by extending the cap plate for reinforcing the parent cement of the neighboring deck plate placed on the upper surface of the beam. The method according to claim 1 or 2,
And a plurality of width fixing cap plates coupled to a flat portion to close the ribs opened between the parent moment reinforcement cap plate at both ends and the central moment reinforcement cap plate. The method according to claim 1 or 2,
Dove tail grooves are formed on the bottom surface constituting the open ribs, and end joining portions having vertically bisected dove tail ribs defining the dove tail grooves overlap the ends of both sides in the width direction of the adjacent deck plate. Composite beam, characterized in that used when. The method according to claim 1 or 2,
The parent plate reinforcement cap plate, the constant moment reinforcement cap plate, and the width fixing cap plate are composed of a bent steel plate bent to have a steel plate having a constant thickness as a whole and the coupling portion extending inclined from both ends of the cover portion,
The cover portion of the cap plate for reinforcing the parent moment and the cap plate for reinforcing the positive moment is a composite beam characterized in that the concrete pour hole is formed. The method according to claim 1 or 2,
And a bottom connecting plate for continuing the bottom surface of the open rib of the neighboring deck plate placed on the top surface of the beam. The method according to claim 1 or 2,
The beam is a precast concrete beam having a rectangular cross-sectional shape of the beam, the composite beam characterized in that a plurality of shear connecting bars protruded to the upper surface. The method according to claim 1 or 2,
The beam is a steel beam having an H-shaped cross-sectional shape, the composite beam characterized in that a plurality of shear connecting members protruded to the upper surface.

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