KR20110090686A - Half precast concrete slab capable of topping concrete reduction and improvement of volume utilization - Google Patents

Abstract

PURPOSE: A half precast concrete slab for the reduction of topping concrete and the efficient use of a space is provided to efficiently use the space of the slab by previously forming a duct. CONSTITUTION: A half precast concrete slab for the reduction of topping concrete and the efficient use of a space comprises a flat plate(11), multiple ribs(12), through paths(P), and concave-convex parts. The ribs are parallelly arranged on the top surface of the flat plate in a direction at uniform intervals. The through paths are formed by partition walls(13) installed between the ribs. The concavo-convex parts are formed on the top surfaces of the ribs.

Description

Half Precast Concrete Slab Capable of Topping Concrete Reduction and Improvement of Volume Utilization}

The present invention relates to a half slab with improved concrete saving and space utilization, and more particularly, to a half slab that improves space utilization while forming an empty through space between two ribs to reduce the amount of overcast concrete cast in the field. will be.

Precast Concrete (PC), which is poured into molds made in various forms at the factory, is called Precast Concrete (PC), and there are PC products such as freestanding foundations, columns, beams, slabs or walls. Half slab (also referred to as partial PC slab, Half Slab) is a prefabricated slab of the entire slab thickness, and the rest can be completed by reinforcing steel on top and pouring concrete on site. In general, the half slab can be divided into flat, hollow and ribbed according to the cross-sectional shape. The half slab method is a thin precast concrete slab that is constructed on a supporting member such as a beam or a wall, and reinforcing bars such as reinforcing bars or structural welded wire meshes to cope with the sub-moments occurring on the upper surface of the half slab. It is a method of making the topping concrete and topping the concrete to make it integral with the supporting member.

Prior art related to the half slab is Patent Registration No. 0644139 "Half slab having a hollow structure and a method of manufacturing the same". The prior art is a bottom plate consisting of a shaping surface formed on both sides in the shape of a hexahedron in the form of a cube and a shear binding on the upper surface for the purpose of providing a half slab with improved sag and sound insulation while reducing its own weight without degrading its structural capacity. And a half slab made of a hollow member that is embedded in the bottom plate at uniform intervals to be integrally formed.

Another prior art associated with a half slab is Patent Publication No. 2009-0090611 “Half Precast Synthetic Slab and Method for Making the Same”. The prior art is made of a corrugated reinforcing bar mesh, concrete topped with concrete, and a certain portion is embedded in the surface of the top plate for the purpose of providing an environmentally friendly half precast synthetic slab capable of shortening construction and air Disclosed is a half precast composite slab comprising a corrugated steel plate, a truss root, a support plate welded to both ends of the corrugated steel sheet, a deck plate composed of upper and lower roots and auxiliary muscles disposed above and below a triangular vertex of the truss muscle. have.

In general, passages for various types of facilities may be formed or wires may be installed in the structure. Such a passage or wiring may be installed in a form embedded in the slab or wall of the structure and may be made through a separate construction process. However, if such a passage or wiring conduit is made in advance in the slab, the construction cost can be reduced while facilitating the construction of the structure. On the other hand, it is necessary to prevent the formation of such passages or wiring conduits from reducing the stability or function of the structure.

The prior art does not mention a half slab for improving the function of such a slab. The present invention has the following object to improve the slab structural utilization not disclosed in the prior art.

It is an object of the present invention to provide a half slab having structural stability and improved utilization.

According to a suitable embodiment of the present invention, a flat plate; A plurality of ribs arranged in parallel in one direction at regular intervals from each other on the upper surface of the plate; A through passage formed by a barrier wall provided at regular intervals between the ribs; And an uneven shape formed on the upper surface of the rib.

According to another suitable embodiment of the present invention, the cross section of the through passage is rectangular or circular.

According to another suitable embodiment of the present invention, the barrier wall is formed of steel sheet, galvanized steel sheet, synthetic resin, paper or rubber.

According to another suitable embodiment of the present invention, the through passage is one or more than two ribs.

The half slab according to the present invention has the advantage of improving the space utilization of the slab by preforming the duct that can be used for various purposes such as the wiring passage of the slab while maintaining the structural stability. In addition, the half slab according to the present invention has the advantage that it is possible to improve the thermal insulation or sound insulation while reducing the amount of material used to form a hollow structure.

1 illustrates an embodiment of a half slab according to the present invention.
2 shows another embodiment of a half slab according to the present invention.
Figure 3 shows another embodiment of a half slab according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments set forth in the accompanying drawings, but the embodiments are illustrative for clarity of understanding and the scope of the present invention is not limited thereto.

1 illustrates one embodiment of a half slab 10 according to the present invention.

(A) and (b) of FIG. 1 show a front view and a perspective view of the half slab 10 respectively, and (c) shows the form in which the overlaid concrete C is poured on the half slab 10. .

Referring to FIG. 1, the half slab 10 according to the present invention includes a plate 11 and a plurality of ribs 12 arranged in parallel in one direction at regular intervals from each other on an upper surface of the plate; A through passage formed by the blocking wall 13 provided at regular intervals between the ribs; And an uneven shape 121 formed on the upper surface of the rib 12.

The plate 11 may be manufactured according to methods known in the art and may have a rectangular shape having a design span and a width, but is not limited to a particular shape. A plurality of ribs 12 of constant height may be aligned on the top surface of the plate 11. Each rib 12 may be rectangular in cross section and made integral with the plate 11. The width and height of the ribs 12 may be appropriately determined in consideration of the height or load of the structure to which the half slab 10 is applied. The plurality of ribs 12 may have the same shape as each other and may be arranged to be parallel to each other in one direction on the upper surface of the flat plate 11, but the shape or arrangement method of each rib 12 may depend on the structure of the entire slab. Can be determined appropriately.

The plate 11 on which the ribs 12 are formed can be manufactured integrally using a mold, but the present invention is not limited to a particular manufacturing method. In addition, the shape of the rib 12 is exemplary, for example, the cross section of the rib 12 may have a variety of shapes, such as triangle, trapezoid or inverted triangle.

An uneven shape 121 may be formed on the upper surface of the rib 12 as needed. The concave-convex shape 121 is to improve the adhesion strength of the overlaid concrete and the half slab 10, but may be made in any shape. It is not limited. The depth or height of the peaks and valleys in the uneven shape 121 may be appropriately determined in consideration of the height of the entire rib 12.

Each rib 12 is arranged at regular intervals and a barrier 13 can be formed at regular intervals. The blocking wall 13 protrudes from the flat plate 11 so that the through passage P is formed at regular intervals between the ribs 12. The barrier wall 13 may be made of a rubber material such as, for example, a steel sheet such as a general steel sheet or a galvanized steel sheet, various types of synthetic resins, paper having a certain strength or light-rubber, but is not limited thereto. The barrier wall 13 may be formed at the same or different height as the rib 12 but is preferably formed at a slightly lower height than the rib 12. However, the barrier wall 13 may be appropriately determined in shape, height, or width depending on whether the through passage P is used as a ventilation passage, a wiring conduit, or a conduit installation passage. In FIG. 1 the blocking wall 13 can be arranged in the same direction as the rib 12 and is shown installed between all the ribs 12, but the blocking wall 13 can be installed in an appropriate number and the The width and the width of the through passage P can be appropriately selected as necessary.

As described above, when the half slab 10 is made by the formation of the flat plate 11, the ribs 12, and the barrier wall 13, it is transported to the construction site and overlaid with various types of abs as shown in (C). Concrete C may be poured. The field construction method of the harb slab 10 can be made according to methods known in the art.

Hereinafter, another embodiment of the present invention will be described.

2 shows another embodiment of a half slab 10 according to the invention.

2 (a) and (b) shows a front view and a perspective view of the half slab 10 according to the present invention, respectively, and (c) shows that the concrete (C) is poured on the half slab 10 An embodiment is shown.

In the embodiment shown in FIG. 2, the flat plate 11 and the rib 12 are similar to the embodiment shown in FIG. 1, but have two rectangular pillar shapes in which the barrier wall 13 is separated on both sides. The barrier wall 13 is connected to the rib 12 in a plate shape that is bent with respect to one side of the rib 12 to form a through passage P, and two through passages P are formed between the two ribs 12. Can be formed. The empty space between the two ribs 12 may be filled with the overlay concrete C at the construction site, and the height or width of the through passage P formed between the two ribs 12 may be appropriately selected. In addition, the two through passages P formed between the two ribs 12 may have different cross-sectional areas according to the use of the through passages P. FIG. As already described above, the height of the barrier wall 13 can be a similar height of the rib 12 but preferably one side of the rib 12 becomes the side wall of the through passage P, so that the rib 12 and the through passage ( P) may be formed at the same height.

In the embodiment illustrated in FIG. 2, when the overlaid concrete C is poured at the construction site together with the reinforcement bar, a slab having a through passage P may be formed.

In the embodiment shown in FIG. 1 or FIG. 2, the through passage P formed by the blocking wall 13 has a rectangular cross section, but a through passage P having various shapes of cross sections can be formed.

Figure 3 shows another embodiment of a half slab 10 according to the present invention.

3A and 3B respectively show a front view and a perspective view of a half slab according to the present invention, and (C) shows an embodiment in which an overlaid concrete (C) is cast in place on the harb slab (C). It is shown.

In the embodiment shown in FIG. 3, the plate 11 and ribs 12 are similar to the embodiment shown in FIG. 2, but the barrier wall 13 has a circular pipe shape and at the interval between the two ribs 12. It may be installed in the same direction as the alignment direction of the rib (12). The two through passages P formed by the barrier wall 13 may have different diameters or have the same diameter and may be installed adjacently or spaced apart. The embodiment shown in FIG. 3 may be appropriately implemented according to the embodiment shown in FIG. 2 in consideration of the difference in that the cross section of the through passage P is circular.

When the ribs 12 and the hollow wall 13 are formed on the flat plate 11, the half slab 10 is moved to the construction site, and as shown in (C), the overlaid concrete (C) is cast into the slab together with the reinforcement. Can be made.

In FIG. 2 or FIG. 3, the half slab 10 having a through passage P having a rectangular or circular cross section is described, but the present invention is not limited thereto. For example, the through passage P may be triangular, trapezoidal or elliptical and the through passage P formed between the two ribs 12 may be one or more. As such, the half slab 10 according to the present invention may include a through passage P having various shapes or numbers. In addition, as described above, the through passage does not necessarily need to be formed between all the ribs 12, and the through passage P may be formed only between some ribs 12. Likewise, cross-sectional views of the ribs 12 may have various shapes.

The half slab according to the present invention having the structure as described above has the advantage of having structural stability and at the same time improving the function of the slab. In addition, the half slab according to the present invention can reduce the material by appropriately selecting the strength of the slab according to the use of the structure by appropriately adjusting the cross-sectional area of the ribs and through passages while improving the insulation and sound insulation of the slab. It has the advantage of being able to improve.

Half slab 10 according to the present invention having a structure as described above has the advantage that the insulation or sound insulation effect can be increased through proper arrangement of the barrier wall 13 while reducing the weight of the entire slab.

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 . The invention is not limited by these variations and modifications, but is only limited by the scope of the appended claims.

10: half slab
11: reputation
12: rib
13: barrier wall
121: irregularities

Claims (4)

reputation;
A plurality of ribs arranged in parallel in one direction at regular intervals from each other on the upper surface of the plate;
A through passage formed by a barrier wall provided at regular intervals between the ribs; And
Half slab comprising an uneven shape formed on the upper surface of the rib. The half slab of claim 1, wherein the cross section of the through passage is rectangular or circular. The half slab of claim 1, wherein the barrier wall is formed of a steel sheet, a galvanized steel sheet, a synthetic resin, paper, or rubber. The half slab of claim 1, wherein the through passage is one or more than two ribs.

Images