KR20010046494A - T-shape PC slab and method for constructing structure using the same - Google Patents

Abstract

PURPOSE: The whole section of flange supports the shearing force by an external load, and a shearing strength is improved by increasing the depth of flange(H2') of both ends of a T-type PC slab. CONSTITUTION: The depth of both ends supported by a PC beam is thicker than the depth of a middle part in a flange(6) as a rectangular plate. A web(7) is formed at a right angle to the lower side of the flange. The length of the web is shorter than that of flange, and the web is formed in a location such a fixed length as coming from both ends of the flange to the inside. A shear connector for bonding slab concrete cast on the flange is installed on the upper side of the flange. And the shear connector is one among a kiser truss iron bar, a vertical truss iron bar or a H-beam.

Description

T-shape PC slab and method for constructing structure using the same}

The present invention relates to a T-type PC slab and a method for constructing a structure using the same. More specifically, the present invention is used as a long span, high load structural material, the thickness of both ends of the flange 6 supported by the PC beam is thicker than the thickness of the middle portion, the entire length of the web 7 is the flange T-shaped PC slab characterized in that it is formed at a position entered in a predetermined length from both ends of the (6) to form a 'b' shaped adapter (8) at both ends of the flange (6) The present invention relates to a method for constructing a structure.

The conventional T-type PC slab 1 is formed at right angles to the flange 2 of the rectangular plate shape having a constant thickness and a lower surface of the flange as shown in Fig. 1A, and has a web of the same length as the flange 2 3) consists of. In order to be installed on the PC beam (9), the adapter (4) is formed in the lower end of the both ends of the web (3) is dug in the 'b' shape. As shown in FIG. 2B, the conventional T-type PC slab 1 in which the dip 4 is formed has an effect of reducing the height of the floor by 'H1' in which the depth of the web 3 is reduced to form the dip 4. However, since the conventional T-type PC slab 1 is usually simply supported by the PC beam 9, the maximum static moment is generated in the center of the conventional T-type PC slab 1, so that the overall thickness of the T-type PC slab is thick. If the ratio of the depth (H2) of the duct (4) to the total length of the beam is large, the premature of the steel wire formed inside the web (3) of the T-type PC slab by the abdominal shear crack of the web (3) There is a problem that can cause the anchorage failure, and consequently also disadvantages in terms of usability of the member against sagging, vibration and cracking.

In addition, since stress concentration is applied by the shear force to the adapter 4 of the conventional T-type PC slab 1, the structural stability of the T-type PC slab is governed by the shear strength of the portion of the adapter 4, so that many cast iron bars, U There is a problem in that the mold stirrup, auxiliary reinforcing bar and reinforcing plate should be reinforced to increase the shear strength of the dip region.

It is an object of the present invention to increase the flange depth (H2mm) at both ends of a T-type PC slab to a depth greater than the depth (H2) of the adapter of a conventional T-type PC slab without forming a separate adapter in the web. It is to provide a T-type PC slab capable of supporting the shear force due to the external load, and further improve the shear strength, and a method of constructing a structure using the same.

Another object of the present invention is not to simply support the T-type PC slab to the PC beam, and after installing the T-type PC slab to the PC beam as shown in Figure 2B slab concrete on top of the T-type PC slab and PC beam T-type PC slab is fixed to the PC beam by casting and integrating to reduce the static moment of the T-type PC slab, thereby reducing the height of the web by reducing the thickness of the slab and further reducing the deflection, vibration and cracks. It is to provide a PC slab and a method for building a structure using the same.

1A is a perspective view of a conventional T-type PC slab.

Fig. 1B is an elevational view of the junction of the adapter and PC beam of a conventional T-type PC slab.

2A is a perspective view of a T-type PC slab of the present invention.

Fig. 2B is an elevational view of the junction of the adapter and PC beam of the T-type PC slab of the present invention.

3A to 3D are diagrams illustrating a method for installing a T-type PC slab of the present invention and constructing a base plate of the basement or the ground.

<Short description of the symbols in the drawings>

1: Conventional T-type PC Slab

2: flange of conventional T-type PC slab

3: Web of conventional T-type PC slab

4: adapter of conventional T-type PC slab

5: T-type PC slab of the present invention

6: flange of T-type PC slab of the present invention

7: Web of T-type PC slab of the present invention

8: Adapter of T-type PC slab of the present invention

9: PC beam

10: PC pillar

11: slab concrete

The present invention will be described with reference to the drawings.

The T-type PC slab of the present invention consists of one flange 6 and one or a plurality of webs 7. FIG. 2A shows a perspective view of an embodiment of a T-type PC slab 5 with two webs 7, and the T-type PC slab 5 of the present invention will be described based on this.

The flange 6 is a rectangular concrete plate whose thickness at both ends supported by the PC beam 9 is thicker than the thickness of the middle portion. The thickness H2 'at both ends of the flange 6 is formed thicker than the thickness H2 of the adapter 4 of the conventional T-type PC slab 1, which is structurally weak. Both ends of the flange 6 of the T-type PC slab 5 of the present invention bear the shear force due to external load, thereby improving the shear strength as compared with the conventional T-type PC slab 1. The portion where the thickness of the flange 6 changes is preferably formed to be inclined at 45 degrees. In addition, in the direction in which the web (7) is formed for coupling with the slab concrete (11) on the upper surface of the flange (6), in the wavy or triangular shape between the upper chord, the lower chord and the upper chord and the lower chord Any one of a plurality of Kaiser truss reinforcements composed of repeatedly bent lattice materials, one upper chord, a lower chord and a plurality of vertical truss rebars composed of vertical members installed vertically between the upper chord and the lower chord, or a plurality of H-beams. Phosphorus shear connector is preferably installed to be embedded.

The web 7 is a rectangular shaped member formed at right angles to the lower surface of the flange 6. The web 7 is formed at a position in which the entire length of the T-shaped slab 5 of the present invention is installed in the PC beam 9 by a predetermined length from both ends of the flange 6 to the inside. At both ends of the flange 6 a '8' shaped dip 8 is formed. The T-type PC slab 5 and the PC beam 9 of the present invention are not coupled in a simple support form by pins, and after the T-type PC slab 5 is installed on the PC beam 9, the PC beam ( 9) and T-type PC slab (5) is integrated by pouring concrete on the upper surface. Therefore, since the coupling part is supported by the fixed end and can be resisted by the sub-moment, the positive moment generated in the center of the web 8 is reduced to reduce the thickness of the web 8, thereby reducing the height of the floor.

Fig. 2B is an elevation view of the coupling portion of the adapter 8 and the PC beam 9 of the T-type PC slab of the present invention. The adapter 8 is formed by the overall coupling shape of the web 7 and both ends of the flange 6, rather than separately forming a 'b' shaped adapter in the web 7. In the inside of the flange 6 and the web 7, the main bar, U-shaped reinforcing bars and steel wires are arranged in the direction in which the web 3 is formed, and the U-shaped strip and auxiliary in the direction perpendicular to the direction in which the web 3 is formed. Reinforcing bars are reinforced.

3A to 3D are schematic views of a method for constructing a structure using the T-type PC slab 5 of the present invention.

FIG. 3A is a step of installing a plurality of PC columns 10 manufactured at a factory vertically in a predetermined position on a base or bottom plate of an underground or ground using a crane.

FIG. 3B is a step of installing a plurality of PC beams 9 manufactured at a factory in a lattice form at a right angle with the PC pillar 10 at a top surface of the plurality of PC pillars 10 or at a cobel portion of the pillars. A shear connector may be formed on the upper part of the PC beam 9 for coupling with the upper concrete.

3C is a step of continuously installing a plurality of T-type PC slabs 5 of the present invention between the plurality of PC beams 9 and the PC beams 9 by a crane. The adapter 8 of the T-type PC slab of the present invention is coupled to the corner of the PC beam 9.

3D is a step in which the slab concrete 11 is poured into and integrated after the upper reinforcing bars are disposed on the plurality of PC pillars 10, the PC beams 9, and the T-type PC slab 5 of the present invention.

The T-type PC slab of the present invention and a method for constructing a structure using the same are installed so that the T-type PC slab is fixed between the PC beam to reduce the floor height between the base plate or the ground plate, further cracks, Improve the usability of the member against sag and vibration. In addition, since the thickness of the flange is larger than the thickness of the web without forming a adapter at both ends of the web of the conventional structurally fragile T-type slab, the entire cross section of the flange can support the shear force due to external load, so the shear strength is increased. Is improved.

Claims (4)

A flange (6) having a rectangular plate and having a thickness at both ends supported by the PC beam (9) thicker than a thickness in the middle portion; And A web (7) formed at right angles to a lower surface of the flange (6), the length being shorter than the length of the flange (6) and formed at a predetermined length inwardly from both ends of the flange (6); T-type PC slab, characterized in that consisting of. T-type PC slab according to claim 1, characterized in that a shear connector is further installed on the upper surface of the flange (6) for engagement with the slab concrete (11) which is poured over the flange (6). 3. The T-type PC slab of claim 2, wherein the shear connector is one of a Kaiser truss rebar, a vertical truss reinforcement, or an H-beam. Installing a plurality of PC pillars 10 vertically; Installing a plurality of PC beams (9) at right angles to an upper surface of the PC column (10); Installing a plurality of T-type PC slabs (5) in the same plane as the PC beam between the PC beam (9) and the PC beam (9); And Reinforcing upper reinforcement and placing slab concrete (11) on top of the plurality of PC pillars (10), PC beams (9) and the T-type PC slab (5); Method of building a structure using a T-type PC slab, characterized in that consisting of.