KR20080056986A - Grid void deck slab - Google Patents

Abstract

A grid void deck slab is provided to extend span by reducing weight of a floor slab, with the same weight. A grid void deck slab comprises reinforcing bar integrated decks(3), a wire mesh(2), and a concrete(4). The wire mesh is arranged on the reinforcing bar integrated decks, and void forming structure members(1) are arranged beneath the wire mesh in a lattice pattern. The concrete is poured to the reinforcing bar integrated decks and the wire mesh up to the upper surface of a floor slab.

Description

Grid slabs with grids arranged in a grid {Grid Void Deck Slab}

1 is a schematic view of the construction of a hollow slab using conventional formwork according to the prior art

Figure 2 is a schematic view of the construction of a hollow slab using a one-way hollow according to the prior art

Figure 3a is a schematic diagram showing the shape connected to the hollow mesh structure for the wire mesh in the present invention

3b is a schematic diagram of an existing flat deck

Figure 3c is a schematic view of the construction of the deck slab with a hollow disposed in the grid of the present invention

* Description of the symbols for the main parts of the drawings *

1: Hollow forming structure 2: Wire mesh 3: Reinforcing bar deck

4: cast-in-place concrete

The present invention relates to a hollow deck slab having a hollow disposed in a lattice shape, in particular to a hollow reinforcing flat deck, and to install a hollow-generating structure at regular intervals in the horizontal and longitudinal direction in the middle of the thickness of the slab, and to define the hollow Fix and connect the hollow structure to the joint of lattice type reinforcing wire (wire mesh) to locate it, install the reinforcing bar deck on the beam or girder when installing it in the field, and then install the wire mesh with the hollow structure. A hollow deck floor slab is placed on the upper reinforcing bar, the upper reinforcing bar and the wire meshes are connected at appropriate intervals, and the concrete is poured and integrated.

Generally, two methods of constructing floor slabs are used. The first is about 250mm thick and is a flat slab with no beams between the pillars. The concrete formwork is installed, the reinforcing bars are placed on it, and the concrete is poured and integrated. In this case, it takes a lot of time and effort to install the formwork, and the distance between the pillar and the pillar is suitable within 7.5m. If it exceeds, the slab thickness becomes too thick.

The second is the composite floor using the deck, the length of the deck is often used within 4m, and the thickness is about 150cm. Steel pillars are connected between pillars and pillars, and girders and girders are connected by beams to partition the floor and install between them. Therefore, it takes a lot of time and effort to install cheolgolbo. In addition, the slab is 150mm thick, but considering the thickness of the beam, it is thickened to around 450mm for the 9m span. In addition, since the slab thickness is 150mm, the effect on the floor impact sound is only satisfied with the standard grade.

Recently, floor slabs containing hollows have been developed and used to improve them. As shown in Figure 2, which is mostly made in the factory in a precast shape, there is a cross-sectional hollow tube for hollow slab, a thermostatically controlled hollow tube, a cross-sectional hollow tube installed with a sound-absorbing seismic agent. Long spans are possible by introducing tension in the middle of the slab. However, the hollow of the slab of the prior art can be installed only in one direction, and thus there is a relatively weak point in the right angle direction. In addition, since the factory manufactures precast, field transport and lifting construction, the quality control and the cost are high.

In Japan, as shown in Fig. 1, after forming the formwork and reinforcing bars in the field for use in conventional flat slab, the hollow is installed in the grid or longitudinal direction to reduce the weight of the slab and in some cases the floor It also plays a role in improving vibration performance. However, in such a prior art, there is a problem that the span is limited to within 7.5 m, and also has to be difficult in terms of construction because it must be constructed by conventional methods such as formwork.

The present invention has been made to solve the problems in view of the prior art as described above, by using a reinforced flat deck deck instead of the existing formwork to improve the workability, implement eco-friendly, and reduce the weight of the floor slab To install the hollow in the middle of the slab thickness, the planar position is lattice type, and for the convenience of construction without installing each hollow separately, connect the hollow-generating structure to the junction of the wire mesh with the grid, and the wire mesh is the upper reinforcing bar. It prevents the hollow from floating or out of place when concrete is placed by connecting it to the site, and by placing it at the concrete site, integrated reinforcing deck, hollow and wire mesh are integrated, reducing the floor height, and do not use formwork. , Fast construction of the field assembly type, long span, interlayer To provide such a hollow deck slab using a grid-shaped hollow to improve the vibration performance of the bottom there is the main objective.

In order to achieve the above object, the present invention, in the floor slab structure of the building, the reinforced deck integral deck (3); A wire mesh (2) in which the hollow-generating structure (1) is arranged in a lattice shape and connected to an upper portion of the reinforcing bar type deck (3); It characterized in that it comprises a cast-in-place concrete (4) that is filled with the reinforced bar deck (3) as a lower side to the height of the upper surface of the slab above the wire mesh (2).

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3a is a schematic view showing the shape of connecting the hollow structure to the wire mesh in the present invention, Figure 3b is a schematic diagram of a conventional flat deck, Figure 3c is a construction of a deck slab having a hollow disposed in the grid of the present invention Schematic diagram.

The present invention is largely composed of wire mesh and cast-in-place concrete that is connected to the reinforced deck and hollow structure.

As shown in Fig. 3a, the hollow is spherical in shape. In order to connect the upper part of the structure 1 in the shape of a sphere to the wire mesh 2, cross-shaped irregularities are formed on the upper part of the structure. The cross-shaped concave-convex portion is connected to the junction of the wire mesh 2 to easily connect the hollow structure 1 to the wire mesh 2.

Reinforced deck (3) shown in Figure 3b is a kind of deck that is used in the existing domestic use in the present invention thicker than the conventional deck. The existing one has a maximum height of 200 mm but in the present invention, up to 250 mm.

The cast-in-place concrete (4) uses the same level as the existing concrete used for the slab. 3c conceptually illustrates a deck slab constructed in accordance with the present invention.

The operating relationship of the present invention made of such a configuration is as follows.

The deck slab with a hollow disposed in the lattice of the present invention is applicable to a variety of structures.

In the case of steel frames, girders are installed between the columns after the columns are installed. The beam installed between the girder and the girder is not installed here. Therefore, compared to the existing steel frame can reduce the amount of steel frame by the number of beams.

Install the reinforcing bar deck on the upper flange of the steel frame. The reinforced all-in-one deck has a higher dance than the existing products, so long spans are possible. If the span is more than 9m, the club may be temporarily installed in the middle.

On the upper part of the upper reinforcing steel on the upper flange of the steel frame, a wire mesh structure 2, in which the hollow-generating structure 1 is previously connected in a lattice form, is installed. Wire mesh 2 is tightened at appropriate intervals to the upper reinforcing bar. In this case, the criterion for tightening should not be to lift the hollow part when placing concrete, and ensure the tightness enough to secure the exact position during the work.

Next, the site-pouring concrete (4) is poured. Be careful not to damage the hollow part when placing the vibrator.

As described in detail above, the present invention can reduce the weight of the floor slab by introducing a hollow disposed in a lattice shape, do not use conventional formwork to secure eco-friendliness, and greatly improve the construction performance In addition, the construction period can be shortened by simply consisting of reinforced deck, hollow structure connecting wire mesh and cast-in-place concrete. In addition, the span can be lengthened by weight reduction even at the same thickness as compared to the existing floor slab, and the vibration performance by the hollow can be improved, thereby improving the floor vibration performance.

Claims (1)

In the floor slab structure of the building, A reinforcing bar deck 3; A wire mesh (2) in which the hollow-generating structure (1) is arranged in a lattice shape and connected to an upper portion of the reinforcing bar type deck (3); Deck slab with a hollow disposed in a grid-like arrangement characterized in that it comprises a cast-in-place concrete (4) which is filled with the reintegrated deck (3) to the bottom and the slab upper surface of the upper portion of the wire mesh (2)

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