KR200451398Y1 - Truss girder deck plates for reinforced concrete - Google Patents

Abstract

One upper reinforcing bar (3) and two lower reinforcing bar (4) is installed horizontally on the deck plate, and two lattice material (2) having a continuous mountain shape is arranged on each side of the upper reinforcing bar (3), The upper part of the lattice material 2 is welded downwardly inclined to both sides of the upper reinforcing bar 3, and the two lattice materials 2 are respectively welded by positioning the lower part of the lower reinforcing bar 4 into the lower reinforcing bar 4 respectively. In the truss girder deck plate having a truss structure,
To ensure more secure safety of the reinforced concrete slab structure, the reinforcement of the truss girder has a reinforcement (6) or a triangular reinforcement (7), which is wider at the bottom, narrower at the top, and has an upper arc. By welding to the end of the lower reinforcement (4), or by welding the L-shaped reinforcement (8) so that the lower ends of the two lower reinforcing bar is connected, so that the lower portion of the reinforcement is placed on the upper side of one side of the beam structure that the slab is spread over In addition, the truss girder deck plate is devised for a truss girder deck plate, characterized in that the length and width are determined according to the size and shape of the upper and lower reinforcing bars and lattice material constituting the truss girder.

Description

Truss girder deck plate for reinforced concrete}

The present invention relates to a truss girder deck plate for reinforced concrete slab for building, in particular, a technique for reinforcing structure of the truss girder is formed on the deck plate to enable high load burden.

Reinforced concrete structure is a structure that uses concrete and reinforcing bar together, install the formwork to cure concrete, reinforce the reinforcement on the formwork, and then inject the concrete, it is made of the process of removing the formwork after curing is completed.

Typically, formwork is formed using plywood, lumber, or iron plate, which takes considerable time and cost to form and install such formwork and to remove formwork after concrete curing.

Various methods have been proposed to solve this problem. Among them, one of the slab forming methods has been developed, in which a formwork-formed structure is used as a part of reinforced concrete. It is a truss girder deck plate.

The truss girder deck plate can be subjected to a large bending and the shear force is large, the work can be carried out in the state between both ends of the beam or pillar, as well as can be used as the slab finish itself, there is no need for a separate slab finish, In addition, there is an advantage of installing wiring or pipes on the deck plate, it is widely used as reinforced concrete formwork to form a slab structure.

 Deck plate disclosed in the Republic of Korea Utility Model Publication No. 1998-055523 as a prior art of the truss girder deck plate, as shown in Figure 1, the two lattice material (2) of the mountain type inclined downward on both sides of the upper reinforcing bar (3) The lower reinforcing bar 4 is joined to the lower side, and it is formed in the triangular truss structure. The lattice material 2 is bent in the horizontal direction to form a foot beneath the support of the mountain-type and bonded to the plate (11).

The length of the truss girder deck plate (1) is formed corresponding to the interval of the structural material to be covered by the deck plate, the width is formed to a degree that is easy to handle and construct. In addition, a plurality of deck plates are provided between the structural members to form a slab, and each deck plate is known to be connected by connecting means by bending both ends of the plate 11 in opposite directions.

In addition, the truss girder deck plate has a + -shaped fixing portion 20 at least at one end thereof, and the fixing portion has a cross reinforcing bar 21 and a cross reinforcing bar connecting the lower reinforcing bars 4 of the two lattice materials 2. The middle is joined to the fixed bar 22 is provided with the upper end is joined to the end of the upper reinforcing bar.

When the truss girder deck plate is installed in a steel structure such as an H beam, one end of the finishing plate is placed on the flange of the beam, and at the same time, the lower end of the fixing bar 22 of the + -shaped fixing part also spans the flange and The deck plate is fixed, and in this state, the reinforced concrete slab is formed by placing another reinforcing bar on top of the deck plate and placing concrete.

As can be seen from the above structure, the truss girder deck plate, which is installed on the steel structure such as the flange formed beam, is installed on the steel structure with both ends as reaction point, but the upper and lower reinforcing bars are connected to the + shape and the upper part of the beam By contacting the bottom of the + bars, most of the load acting on the deck plate was received from the bottom | structure of the + bars. That is, although the + -shaped rebars are shaped to be + -shaped, the loads of two lower reinforcing bars appear to be divided at both wings of the + -shaped, but in fact, they will be borne by one of the lower parts of the + -shaped rebars. Both ends of the girder are easily deformed, which causes the truss girder to be unbalanced and the reinforced concrete slab formed by the deck plate also has the risk of leading to collapse.

In addition, it is difficult to provide a truss girder deck plate having a structure that ensures safety according to the load acting on the concrete slab because the length and width are set vaguely without considering the size of the reinforcing bar or lattice forming the truss girder.

In addition, when heavy loads such as parking lot structures are loaded and moving loads are repeatedly applied, the + -shaped rebars of the truss girder are easily deformed and fatigued rapidly. Due to the end deformation, large accidents such as slab collapse are concerned.

Accordingly, there is a need for a truss girder deck plate with a simple end reinforcement without increasing the manufacturing cost.

The present invention is to solve the above problems, reinforcing both ends of the truss girder formed on the deck plate, the truss girder having a structure that can sufficiently support a variety of loads, such as larger repetition, fluctuations acting on the deck plate By providing a deck plate is formed, to ensure the safety of the slab structure is the subject of the present invention to solve.

Deck plate of the present invention for solving the above problems in forming a truss girder on the plate, connecting the upper reinforcement (3) and the lower reinforcement (4) by welding with a lattice material (2) made of iron wire having a mountain shape The both ends of the upper and lower reinforcing bar is welded to the upper and lower reinforcing bar (5) having a wide U-shaped and the upper part is arc-shaped, the upper and lower reinforcing bar together with two supports The safety of the slab structure is ensured through the reinforcement of both ends of the truss girder deck plate by providing the reinforcement 6 of the supporting structure or the L-shaped reinforcement 8 supporting the end of the lower reinforcing bar.

Alternatively, the slab structure is secured by reinforcing both ends of the truss girder deck plate by welding the rear plate 7 formed in the shape of the upper and lower reinforcing bars of the truss girder to support the upper and lower reinforcing bars as an integrated structure. To secure.

Deck plate of the present invention is to support one upper reinforcement and two lower reinforcement with the bottom or the lower end is wide and the upper end is arc-shaped reinforcement or triangular plate, or the lower reinforcement with the L-shaped reinforcement By reinforcing the reaction force of the truss girder by reinforcing the truss girder using a low-cost material to ensure the safety of the slab structure through the reinforcement of both ends of the truss girder deck plate.

1 is a perspective view showing a conventional truss girder deck plate
Figure 2 is a perspective view showing an embodiment of the truss girder deck plate of the present invention
Figure 3 is an installation cross-sectional view of the truss girder deck plate embodiment of the present invention
Figure 4 is a perspective view showing another embodiment of the truss girder deck plate of the present invention
5 is a perspective view showing another embodiment of the truss girder deck plate of the present invention
6, 7 is a view showing a specific structure of the truss girder tech plate having an end structure of the present invention

Detailed configuration and functions of the truss girder deck plate of the present invention will be described with reference to the accompanying drawings.

2 shows an embodiment of the truss girder deck plate 100 of the present invention installed in a steel structure consisting of an H-beam.

The truss girder formed on the deck plate 100, the upper truss 3 and two lower rebars 4 are installed horizontally on the deck plate, as in the known truss girder described through FIG. Two lattice materials (2) having a continuous mountain shape are arranged on both sides of the upper reinforcing bar (3), respectively, but the upper part of the lattice material (2) is inclined to both sides of the upper reinforcing bar (3) and welded downward, and also two lattice The ashes 2 are positioned at the lower portions of the lower reinforcing bars 4, respectively, and welded to form a truss structure having a triangular shape.

The lattice material 2 is formed to bend the foot (2b) in the horizontal direction in the lower portion of the support of the mountain-shaped and to be welded in contact with the projection (11b) formed continuously in the longitudinal direction of the deck plate.

Next, the end of the truss girder corresponding to the features of the present invention will be described with reference to FIGS. 2 and 3.

The end of the truss girder forms a reinforcing bar reinforcement 6 having a wide bottom, a narrow upper part, and an upper part arc by using reinforcing bars. The lower part of)) welds the inside of the anode lower reinforcing bar (4).

4 shows a triangular reinforcement 7 as a thick plate having a triangular reinforcement installed at the end of the truss girder as another embodiment of the truss girder end configuration, and the upper reinforcement 3 and the lower reinforcement 3 end portions. Welded to one side of the triangular reinforcement.

As such, the embodiments are all formed by forming a reinforcing bar or triangular reinforcement 6 or 7 at the end of the truss girder and placing the reinforcement on top of one side of the beam structure over which the slab spans, as shown in FIG. 3. It can safely support.

FIG. 5 is a t-girder girder end structure having yet another embodiment of the truss girder end structure provided with an L-shaped reinforcement 8 as an L-shaped thick plate at both ends of the truss girder. Welded to the structure supported by the connection, and also the L-shaped reinforcement (8) so that the bottom of the bottom is located on the upper side of one side of the beam structure over which the slab.

This is to increase the load supported by the truss girder plate as much as possible while reinforcing the end of the truss girder with a minimum of reinforcement, and in a simple operation, the load applied to the two lower reinforcing bars is distributed on the bottom side of the L-shaped reinforcement (8). By having a distributed load rather than a concentrated load on the beam structure on which the L-shaped reinforcement 8 is supported, the effect of improving the safety of the reinforcement and the beam structure is generated.

Truss girder deck plate 100 provided with a reinforcement at the end as in these embodiments is formed so that the length and width corresponding to the interval of the structural member to be covered by the deck plate, shown in the table below and 6 and 7 As described above, in consideration of the action force acting on the slab, the diameter (a) of the upper reinforcement (3) and the diameter (b) of the lower reinforcing bar (4) and the lattice material (c), and the angular angle of the lattice material (d) In the triangular structure formed by the upper reinforcing bar 3 and the lower reinforcing bar 4, the interior angles e and f and the lengths of the sides of the triangle g and h are determined.

For example, the upper reinforcing bar diameter is 10 mm, the lower reinforcing bar diameter is 7 mm, the lattice material diameter is 6 mm, the lattice material angle is 13 degrees, the lower angle of the triangle formed by the upper and lower bars is 80 degrees, the base is 58 mm, the slope is 107 mm, If the deck plate has a total length of 3.5m and an area of 1m2, the appropriate working force that the concrete slab can support is 3.65 KN / m2.

a b c d e f g h Length
m area
m2 effort
KN / m2 10 7 6 13 80 80 58 107 3.5 One 3.65 12 8 6 13 80 80 58 107 3.5 One 3.8 14 10 6 13 80 80 58 107 3.5 One 3.85 12 10 6 13 80 80 58 107 3.5 One 3.85 12 12 6 13 80 80 58 107 3.5 One 3.9

As described above, the truss girder deck plate reinforced at both ends of the present invention is capable of determining the allowable load according to the length and width of the deck plate determined according to the specification and shape of the material, thereby making a slab structure composed of the truss girder deck plate. It will be safe to support.

100: truss girder deck plate 2: lattice material
3: upper rebar 4: lower rebar
6: reinforcing bar reinforcement 7: triangular reinforcing bar
8: s shaped reinforcement

Claims (4)

One upper reinforcing bar (3) and two lower reinforcing bar (4) is installed horizontally on the deck plate, and two lattice material (2) having a continuous mountain shape is arranged on each side of the upper reinforcing bar (3), The upper part of the lattice material 2 is welded downwardly inclined to both sides of the upper reinforcing bar 3, and the two lattice materials 2 are respectively welded by positioning the lower part of the lower reinforcing bar 4 into the lower reinforcing bar 4 respectively. In the truss girder deck plate having a truss structure,
At both ends of the truss girder, the lower part is wide, the upper part is narrow, and the upper part is formed by welding the reinforcing material 6 which forms an arc, and the lower part of the two reinforcing materials is welded to the lower part of the upper reinforcing material. Truss girder deck plate, characterized in that it is formed so as to lie on top of one side of the beam structure to span. delete delete delete

Images