KR102060342B1 - Filler-supported Reinforcement Truss Girder apllied to Truss integrated Deck Plate - Google Patents

Abstract

A reinforcing truss girder is disclosed. The reinforcing truss girder includes a reinforcement tube of a reverse triangular shape in which a filling material is poured, and a reinforcing truss material coupled to the reinforcing pipe, and the reinforcing truss material is a first reinforcing lattice material welded to the first side surface of the reinforcing pipe. And a second reinforcing lattice material welded to the second side surface of the reinforcing pipe, wherein the first reinforcing lattice material and the second reinforcing lattice material are bent into a wave shape, and the first reinforcing pipe in the longitudinal direction of the reinforcing pipe. The lattice material and the second reinforcing lattice material are repeatedly bonded.

Description

Filler-supported Reinforcement Truss Girder apllied to Truss integrated Deck Plate}

The present invention relates to a reinforcing truss girder, and more particularly to a reinforcing truss girder disposed between the truss girder in the truss deck plate.

In the slab of the building, the truss-integrated deck which attaches a thin steel plate to the bottom of the steel wire truss and uses it as formwork and rebar has been widely used in domestic construction sites for a long time.

Figure 1 shows a conventional truss integrated deck plate. The slab applying the integrated deck has the function of omitting temporary supports until concrete curing, compared with conventional reinforced concrete slabs such as wooden formwork. The advantage is that you can earn money.

However, in the case of the conventional truss integrated deck plate there is a problem that excessive buckling occurs when applied to the long span of 4m or more and compression buckling occurs in the phase current due to the increase in construction load and loading load.

Republic of Korea Patent Registration KR 10-0838329 (2008.06.09 registration) Republic of Korea Patent Publication KR 10-2010-0083616 (published Jul. 22, 2010)

An object of the present invention is to provide a reinforcement truss girder that can be applied to a long span of 4m or more and can prevent the compression buckling occurring in the phase current due to the increase in load.

In addition, it is an object of the present invention to provide a deck plate that does not require additional spacing reinforcement even when the load is large by narrowing the phase present spacing.

Reinforcing truss girder according to an embodiment of the present invention includes a reinforcing tube of the inverted triangular shape in which the filling material is poured, and a reinforcing truss material to be combined with the reinforcing pipe, the reinforcing truss material, on the first side of the reinforcing pipe A first reinforcing lattice material to be welded, and a second reinforcing lattice material to be welded to a second side surface of the reinforcing pipe, wherein the first reinforcing lattice material and the second reinforcing lattice material are bent in a wave form, and the reinforcing pipe is In the longitudinal direction of the first reinforcing lattice material and the second reinforcing lattice material may be alternately repeated.

Here, the portion of the first reinforcement lattice material is welded to the first side surface is formed bent along the first side surface, the portion of the second reinforcement lattice material is welded along the second side surface is bent along the second side surface Can be formed.

Here, the lower bent portion of the first reinforcement lattice material and the second reinforcement lattice material may be formed a fitting portion bent horizontally toward the outside.

Truss integral deck plate according to an embodiment of the present invention is a truss girder and a reinforcement truss girder is coupled to the plate, the truss girder and the reinforcement truss girder are alternately arranged in the longitudinal direction of the plate truss integral deck plate In the plate, a plurality of fixed ribs protruding in the longitudinal direction of the plate are formed spaced apart from each other by a predetermined interval, the truss girder is welded to the upper bent portion of the lattice material bent in a wave form on both sides of the phase current, the lattice A lower chord is welded outside the lower bent portion of the ash, and the lower bent portion is formed with a fixed portion bent horizontally outward, the fixing portion is coupled to the fixed ribs by welding joints, and the reinforcing truss girder is a reverse osmosis in which a filler is poured. Each type of reinforcement pipe and above And a reinforcing truss material coupled to the reinforcing pipe, wherein the reinforcing truss material includes a first reinforcing lattice material welded to the first side face of the reinforcement pipe, and a second reinforcing lattice material welded to the second side face of the reinforcement pipe. And the first reinforcing lattice material and the second reinforcing lattice material are bent into a wave shape, and the first reinforcing lattice material and the second reinforcing lattice material are repeatedly bonded in the longitudinal direction of the reinforcing pipe, and the first reinforcing lattice The lower bend of the ash and the second reinforcing lattice material and the lower chord may be joined by a welded joint.

Here, the portion of the first reinforcement lattice material is welded to the first side surface is formed bent along the first side surface, the portion of the second reinforcement lattice material is welded along the second side surface is bent along the second side surface Can be formed.

Here, the first reinforcement lattice material is a portion welded to the first side surface is formed bent along the first side, the second reinforcement lattice material is a portion welded to the second side surface is bent along the second side surface The lower bent portion of the first reinforcement lattice material and the second reinforcement lattice material may be formed with a fitting portion that is bent horizontally toward the outside.

Here, it may include an end vertical bar coupled to the weld joint on the plate located in the vertical direction of the upper chord or the end of the reinforcement pipe and the upper chord or the end of the reinforcement pipe to support the upper chord or the reinforcement pipe. Can be.

Here, the lower horizontal chord further comprises a continuous horizontal bar coupled to the weld joint, wherein the continuous horizontal bar may be coupled to the welding joint portion of the end vertical bar.

According to one embodiment of the present invention, it is applicable to a long span of 4m or more, it is possible to prevent the compression buckling occurring in the phase current due to the increase in load.

In addition, by narrowing the phase current gap, even if the load is large, no additional spacing reinforcement is required.

Figure 1 shows a conventional truss integrated deck plate.
Figure 2 is an exploded view of the truss integrated deck plate according to an embodiment of the present invention.
3A is a perspective view of a reinforcement truss girder according to an embodiment of the present invention.
3B is a front view of a reinforcement truss girder according to an embodiment of the present invention.
3C is a side view of a reinforcement truss girder according to an embodiment of the present invention.
FIG. 4A is a perspective view of the truss integral deck plate to which the reinforcing truss girders shown in FIGS. 3A-3C are coupled.
4B is a front view of the truss integral deck plate to which the reinforcing truss girders shown in FIGS. 3A-3C are coupled.
5A is a perspective view of a truss integrated deck plate according to another embodiment of the present invention.
5B is a front view of the truss integrated deck plate according to another embodiment of the present invention.

Prior to the description of the specific contents of the present invention, for the convenience of understanding, the outline of the solution of the problem to be solved by the present invention or the core of the technical idea will be presented first.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, these examples are intended to illustrate the present invention in more detail, it will be apparent to those skilled in the art that the scope of the present invention is not limited thereto.

The configuration of the invention for clarifying the solution to the problem to be solved by the present invention will be described in detail with reference to the accompanying drawings, based on the preferred embodiment of the present invention, if necessary when describing the components of the other drawings Note that you can quote. In addition, in describing the operating principle of the preferred embodiment of the present invention in detail, when it is determined that the detailed description of the known function or configuration and other matters related to the present invention may unnecessarily obscure the subject matter of the present invention, The detailed description is omitted.

Figure 2 is an exploded view of the truss integrated deck plate according to an embodiment of the present invention.

Referring to FIG. 2, the truss integrated deck plate 10 is mainly used in slabs of building structures, such as steel frame structure, reinforced concrete structure, and steel reinforced concrete structure, and includes a plate 100, a truss girder 200, and a reinforcing truss. And a girder 300.

The plate 100 is a metal panel having a predetermined width to which the truss girder 200 and the reinforcement truss girder 300 are coupled to the upper portion, and the concrete is poured on the upper portion after mounting to form a slab. In the plate 100, a plurality of fixing ribs 110 protruding in the longitudinal direction of the plate 100 are formed spaced apart from each other by a predetermined interval so as to be welded to the fixing part 223 of the truss girder 200 to be described later. It is composed.

The truss girder 200 is embedded in the concrete being poured while preventing the plate 100 from being deformed and increasing the tensile strength of the concrete as the upper chord 210, the lattice material 220, and the lower chord 230. It includes.

The upper chord 210 is a reinforcing bar having a direction parallel to the fixed rib 110 formed on the plate 100, and the upper bent portion 221 on the left side and the right side of the top chord 210, respectively, around the top chord 210. ) And the lattice material 220 having the lower bent portion 222 is coupled.

The lattice material 220 is bent in the form of a wave, the upper bent portion 221 which is bent on the top of the lattice material 220 is coupled to the upper chord 210 by a welding joint and the bottom of the lattice material 220 The lower chord 230 is coupled to the outer surface of the lower bent portion 222 to be bent to form a triangular structure by the welding joint.

On the other hand, the lower bent portion 222 of the lattice material 220 is formed with a fixed portion 223 bent horizontally toward the outside, the fixing portion 223 is seated on the upper portion of the fixing rib 110 of the plate 100 And are joined by a welded joint. That is, the truss girder 200 is fixed to the fixing portion 223 of the truss girder 200 on the top of each fixed rib 110 located on the left and right of the upper chord 210 around the upper chord 210. The plurality of truss girders 200 are welded and disposed in the longitudinal direction of the plate 100.

Reinforcement truss girder 300 is disposed and coupled to the truss integral deck plate 10 to which the truss girder 200 is coupled. Coupling relationship between the reinforcement truss girder 300 and the reinforcement truss girder 300 and the plate 100 will be described later with reference to FIGS. 3A to 5B.

3A is a perspective view of a reinforcement truss girder according to an embodiment of the present invention.

Referring to FIG. 3A, a reinforcement truss girder 300 according to an embodiment of the present invention includes a reinforcement pipe 320 and a reinforcement truss material 330.

The reinforcement pipe 320 is a pipe in which the filling material 310 is poured, and the cross section may have an inverted triangle shape, but is not limited thereto. Filler 310 is poured into the reinforcing pipe 320 may be a composition such as mortar or concrete.

The reinforcing truss material 330 is to be combined with the reinforcing pipe 320, placed and coupled to the truss integral deck plate 10 to be described later to reinforce the existing truss girder 200 to increase the construction load and loading load This eliminates the compression buckling phenomenon of the phase current 210 and to support a larger load.

Referring to Figure 3b showing a front view of the reinforcing truss girder according to an embodiment of the present invention, the reinforcing truss material 330 is the first reinforcing lattice material 330a and the second reinforcing welded to the side surface of the reinforcing pipe 320 Lattice material 330b is included. The first reinforcing lattice material 330a and the second reinforcing lattice material 330b are bent in a wave shape, and each of the upper bent portions 331 has a first side surface 321 and a second of the reinforcing pipe 320. It is welded to the side surface 322.

3C is a side view of a reinforcement truss girder according to an embodiment of the present invention.

Referring to FIG. 3C, a portion welded to the first side surface 321 of the reinforcement pipe 320 in the first reinforcement lattice material 330a is bent along the first side surface 321, and the second reinforcement lattice material ( A portion welded to the second side surface 322 of the reinforcement pipe 320 in 330b is bent along the second side surface 322.

The first reinforcing lattice material 330a and the second reinforcing lattice material 330b are alternately repeatedly coupled in the longitudinal direction of the reinforcing pipe 320. That is, unlike a pair of lattice material 220 in the existing truss girder 200 is welded to one side and the other side of the upper chord 210, reinforcement truss girder 300 according to an embodiment of the present invention Reinforcement truss material 330 of the) is the first reinforcing lattice material (330a) and the second reinforcing lattice material (280) coupled to the first side surface 321 and the second side surface 322 of the reverse triangular shape reinforcement pipe 320, respectively ( 330b are alternately repeatedly coupled to form one reinforcing truss material 330.

Meanwhile, the lower bent portion 332 of the first reinforcement lattice material 330a and the second reinforcement lattice material 330b may be formed with a fitting portion that is bent horizontally toward the outside. The fitting portion may be inserted into the lower portion of the lower chord 230 disposed on the existing truss integrated deck plate 10 and welded together.

FIG. 4A is a perspective view of the truss integral deck plate to which the reinforcing truss girders shown in FIGS. 3A-3C are coupled.

Referring to FIG. 4A, the reinforcement truss girder 300 is further coupled to the truss integral deck plate 10 to which the plate 100 and the truss girder 200 are coupled. That is, the truss girder 200 is disposed and coupled between the truss girders 200 arranged at regular intervals in the longitudinal direction of the plate 100 having a constant width.

Truss integrated deck plate 10 according to an embodiment of the present invention is a form in which the reinforcement truss girder 300 is coupled between each truss girder 200 disposed at intervals of 200 mm to the plate 100 having a 600mm width It may be, but is not limited thereto.

Referring to FIG. 4B, which shows a front view of the truss integral deck plate to which the reinforcing truss girder shown in FIGS. 3A-3C is coupled, is disposed between each truss girder 200 previously coupled to the plate 100. The first reinforcing lattice material 330a and the second reinforcing lattice material 330b of the reinforcing truss girder 300 are combined with the lower chord 230 of the truss girder 200.

More specifically, the lower bent portion 332 of the first reinforcement lattice material 330a and the second reinforcement lattice material 330b is disposed between the fixing portion 223 and the fixing portion 223 of the truss girder 200. The lower chord 230 of the truss girder 200 located on the right side of the lower bent portion 332 of the first reinforcing lattice material 330a based on the longitudinal center axis of the reinforcing pipe 320 is welded. Are combined. At this time, the lower chord 230 of the truss girder 200 on the left side of the lower bent portion 332 of the second reinforcement lattice material 330b based on the longitudinal center axis of the reinforcement pipe 320 is welded. Are combined.

On the other hand, the lower bent portion 332 of the first reinforcement lattice material 330a and the second reinforcement lattice material 330b is formed when the fitting portion formed horizontally bent toward the outside is formed in the lower portion of the lower chord 230 It can be fitted in and combined more firmly.

5A is a perspective view of a truss integrated deck plate according to another embodiment of the present invention, and FIG. 5B is a front view of a truss integrated deck plate according to another embodiment of the present invention.

5A and 5B, the truss integrated deck plate 20 according to another embodiment may further include an end vertical bar 400 and a continuous horizontal bar 500 in the truss integrated deck plate 10 described above.

End vertical bar 400 is a configuration for supporting the load of the truss girder 200 or the reinforcement truss girder 300 coupled to the plate 100 in the vertical direction. When the end vertical bar 400 is coupled to the truss girder 200, the vertical vertical bar 400 is positioned in the vertical direction at the lower side of the end of the upper chord 210 to the lower side of the end of the upper chord 210 and the vertical direction of the lower side. The plate 100 is positioned and is coupled to each of the welded joints.

On the other hand, when the end vertical bar 400 is coupled to the reinforcement truss girder 300 is located in the vertical direction to the lower side of the end of the reinforcement pipe 320 of the lower side and the lower surface of the end of the reinforcement pipe 320 The plate 100, which is located in the vertical direction, is joined to each of the welded joints.

The continuous horizontal bar 500 is disposed on the plate 100 in parallel with the vertical direction of the upper chord 210 or the reinforcement pipe 320, coupled to the upper side of the lower chord 230 of the truss girder 200 by welding. do. In addition, the continuous horizontal bar 500 may be more firmly coupled to the portion that is in contact with the end vertical bar 400 is welded joint.

 As described above, the present invention can prevent compression buckling by increasing the compressive strength of the bottom plate by installing a filling support truss material when constructing the truss integrated deck plate 10 bottom plate at the construction stage of the building. Due to the characteristics of the invention it is possible to prevent a safety accident due to the instability of the truss integrated deck plate 10 bottom plate that may occur during the construction of the building.

It will be apparent that modifications and improvements are possible by those skilled in the art within the technical idea of the present invention. All simple modifications and variations of the present invention fall within the scope of the present invention, and the specific scope of the present invention will be apparent from the appended claims.

10: Truss integrated deck plate
100: plate 110: fixed rib
200: truss girder 210: phase present
220: lattice material 230: summer
300: reinforcement truss girder 310: filler
320: reinforcement pipe 330: reinforcement truss material
400: end vertical bar 500: continuous horizontal bar

Claims (9)

delete delete delete The truss girder and the reinforcement truss girder are coupled between the truss girder and the truss girder are arranged on the plate of 600mm width 200mm intervals, the truss girder and the reinforcement truss girder are truss integral deck alternately arranged in the longitudinal direction of the plate In the plate,
The plate has a plurality of fixed ribs protruding in the longitudinal direction of the plate are formed spaced apart from each other by a predetermined interval,
The truss girder is an upper chord, the upper bent portion of the lattice material bent in a wave form on both sides of the upper chord, the lower chord is welded outside the lower bent portion of the lattice material, the lower bent portion is bent horizontally outward A fixing part is formed, and the fixing part is coupled to the fixing rib by a welding joint,
The reinforcement truss girder includes a reinforcement tube of a reverse triangular shape in which the filling material is poured, and a reinforcement truss material to be combined with the reinforcement pipe,
The reinforcement truss material,
A first reinforcing lattice material welded to the first side surface of the reinforcing pipe; And
A second reinforcing lattice material welded to the second side surface of the reinforcing pipe,
The first reinforcing lattice material and the second reinforcing lattice material is bent in the form of a wave, the first reinforcing lattice material and the second reinforcing lattice material is repeatedly bonded in the longitudinal direction of the reinforcing pipe,
The lower bent portion of the first reinforcement lattice material and the second reinforcement lattice material and the lower chord are joined by a welded joint,
The first reinforcement lattice material is formed by bending the portion welded to the first side surface along the first side surface, The second reinforcement lattice material is formed by bending the portion welded to the second side surface along the second side surface,
The lower bent portion of the first reinforcement lattice material and the second reinforcement lattice material is formed with a fitting formed bent horizontally toward the outside, the fitting portion is truss integral deck plate is fitted to the lower portion of the lower chord.
The method of claim 4, wherein
The lower bent portion of the first reinforcement lattice material and the second reinforcement lattice material is truss integral deck plate disposed between the fixing portion and the fixing portion of the truss girder.
delete delete The method of claim 4, wherein
Truss integral deck including an end vertical bar coupled to the weld joint on a plate located in the vertical direction of the upper chord or the end of the reinforcement pipe and the end of the reinforcement pipe or the end of the reinforcement pipe to support the upper chord or the reinforcement pipe. plate.
The method of claim 8,
And a continuous horizontal bar coupled to the upper side of the lower chord by a welded joint, wherein the continuous horizontal bar is joined to the end vertical bar by a welded joint.

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