KR101078789B1 - Assembly Deck Plate For Construction And Its Installation Method - Google Patents

Abstract

According to the present invention, a top plate 112 having a shape of laying down a rectangular plate and a side plate 114 having a shape in which both sides of the top plate 112 are bent at an acute angle downward are integrally formed. An upper plate 110 having an upper plate binding unit 116 integrally formed at a lower end of the side plate 114; And a groove formed by folding the both ends at both ends so that the upper plate binding portion 116 of the upper plate 110 is diagonally inserted from the top to the bottom in a shape in which a plate of a rectangular shape is laid down. Shaped lower plate binding portion 124 is formed, the truss girder (truss girder) 126 in the center of the lower plate 120 is joined in the longitudinal direction; building prefabricated deck plate ( 100) and its installation method.

In addition, the side plate 114 provides a prefabricated deck plate 100 and the installation method of the building, characterized in that bent at least once at an acute angle toward the bottom, the concavity and convexity to strengthen the bond with the concrete Provides a buildable prefabricated deck plate 100 and a method for installing the same, characterized in that a plurality of the upper plate 112 and the side plate 114 of the upper plate 110 is formed in plural.

Deck Plates, Prefabricated, Truss Girder

Description

Assembly Deck Plate For Construction And Its Installation Method

The present invention relates to a deck plate, to a prefabricated deck plate for building and installation method which can be used as a structural material as well as formwork, easy and safe to move and install.

In general, the deck plate is used as a substitute for formwork in forming a slab of a building, and refers to a material for slab manufactured by processing a metal plate such as galvanized steel sheet to form a structure without being dismantled after concrete pouring.

When the slab structure is constructed using the deck plate as described above, the formwork for slab concrete construction is not needed and the site reinforcement is minimized, thereby reducing the time and cost required for the construction work and the site reinforcement. Construction can be done simply by fixing it continuously, which makes construction quick and easy. In addition, it has the advantage of ensuring good quality in reinforcement by using the factory-produced products. As such, construction of slab structures using deck plates is increasing. In particular, it is widely used in buildings such as steel frame and reinforced concrete.

1 is a photograph showing a conventional deck plate 10.

The above two of the conventional deck plate 10 is not a structural principle, but a formwork, and should be used to reinforce additional tensile reinforcing bars.

The lower one of the conventional deck plate 10 is used to reinforce the tensile reinforcing bar even though the deck plate 10 has a rigidity to replace the reinforcing bar, which is the deck plate 10 is slab It is because it is not exposed to fireproof certification because it is exposed to the lower part.

Therefore, the reinforcing bar is placed separately on the deck plate 10 and the slab concrete is poured to complete the slab construction.

Due to the reinforcement work of the tensile reinforcing bar, the construction cost is increased, a lot of air, and if the skill of the skilled worker is not guaranteed, the construction quality is significantly lowered may cause a problem that the structural strength is lowered.

In addition, the conventional deck plate 10 is bent one plate to form the floor 12 and the valley 14 together to produce a unit (unit).

In addition, since the conventional deck plate 10 is a unit formed with the floor 12 and the valley 14 together, the empty space is left or the last deck plate is crumpled after the last deck plate is installed according to the distance between the beam and the beam. There is a problem that does not exactly correspond to the gap between the beam, such as broken.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art.

Its purpose is to provide a prefabricated deck plate for construction and its installation method which can be used as a structural material as well as formwork as it is easy and safe to move and install.

In order to solve the above technical problem, the present invention provides a top plate 112 having a rectangular plate shape and a side plate having a shape in which both sides of the top plate 112 are bent at an acute angle downward. 114 is formed integrally, the upper plate 110, the upper plate binding unit 116 is configured integrally with the lower end of the side plate 114; And a groove formed by folding the both ends at both ends so that the upper plate binding portion 116 of the upper plate 110 is diagonally inserted from the top to the bottom in a shape in which a plate of a rectangular shape is laid down. Shaped lower plate binding portion 124 is formed, the truss girder (truss girder) 126 in the center of the lower plate 120 is joined in the longitudinal direction; building prefabricated deck plate ( 100) and its installation method.

In addition, the side plate 114 provides a prefabricated deck plate 100 and the installation method of the building, characterized in that bent at least once at an acute angle toward the bottom, the concavity and convexity to strengthen the bond with the concrete Provides a buildable prefabricated deck plate 100 and a method for installing the same, characterized in that a plurality of the upper plate 112 and the side plate 114 of the upper plate 110 is formed in plural.

According to the present invention, the following effects are expected.

First, since it can be used as a structural deck plate by installing a truss girder, it is not necessary to reinforce tensile reinforcing bars, which eliminates reinforcing bar reinforcement work, which requires less construction cost and air, and construction quality regardless of skill of skilled workers. This maintenance provides a structurally safe prefabricated deck plate and its installation method.

Secondly, since the upper plate and the lower plate are pre-fabricated separately and assembled and installed in the field, the weight of the unit member is reduced to provide a prefabricated deck plate for building construction and a method of installing the same.

Thirdly, the upper plate and the lower plate are divided separately and pre-fabricated to the desired size, so the prefabricated deck plate does not break because the last deck plate is not crumpled and there is no empty space next to the last deck plate installed regardless of the gap between the beam and the beam. And it provides a method of installation thereof.

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

2 is a perspective view showing the upper plate 110 of the prefabricated deck plate 100 of the present invention, Figure 3a is a perspective view showing the lower plate 120 of the prefabricated deck plate 100 of the present invention, Figure 3b is a cross-sectional view of the lower plate 120 of the prefabricated deck plate 100 of the present invention. In addition, Figure 4 is a cross-sectional view showing a coupling and construction state of the prefabricated deck plate 100 for construction of the present invention.

In deck plates used for building slabs,

Building prefabricated deck plate 100 of the present invention is a top plate 112 and a side plate having a shape in which both sides of the top plate 112 is bent at an acute angle downward to form a rectangular plate (sheet). 114 is formed integrally, the upper plate 110, the upper plate binding unit 116 is configured integrally with the lower end of the side plate 114; And a groove formed by folding the both ends at both ends so that the upper plate binding portion 116 of the upper plate 110 is diagonally inserted from the top to the bottom in a shape in which a plate of a rectangular shape is laid down. The lower plate binding portion 124 of the shape is formed, the lower plate 120, the truss girder (truss girder) 126 is joined in the longitudinal direction in the center of the upper;

The upper plate 110 is integrally formed with a top plate 112 having a rectangular plate shape and a side plate 114 having a shape in which both sides of the top plate 112 are bent at an acute angle downward. Is formed as, the upper plate binding portion 116 is configured integrally with the lower end of the side plate 114.

The upper plate 110 is manufactured by bending a metal plate such as a galvanized steel sheet as in the conventional deck plate 10.

Therefore, the upper plate 112, side plate 114 and the upper plate binding portion 116 may be manufactured separately and welded together, but it is easy to be integrally manufactured by bending one plate and the welding process is omitted. It is preferable because it can be done.

When placing slab concrete on the upper plate 112 or the side plate 114 of the upper plate 110, a dovetail (dove tail) used in the conventional deck plate 10 to strengthen the binding with the slab concrete ) Or a plurality of irregularities such as a shear connector may be formed, or a stud bolt may be welded to each other.

In addition, the side plate 114 of the upper plate 110 may be bent at least once at an acute angle downward as shown in FIGS. 2b and 4b. In this case, the upper plate 110 forms an arch of the fin as a whole, so that the upper plate 110 is more resistant to the upper load.

The lower plate 120 has a shape of laying down a plate of a rectangular shape as a whole, and the upper plate binding portion 116 of the upper plate 110 is fitted at both ends in a diagonal direction from the top to the bottom thereof. A groove-shaped lower plate binding portion 124 formed by folding both ends is formed, and a truss girder 126 is joined in the longitudinal direction at the center of the upper portion.

The lower plate 120 is manufactured by bending a metal plate such as a galvanized steel sheet used in the manufacture of a conventional deck plate 10 in the same manner as the upper plate 110.

The lower plate binding unit 124 of the lower plate 120 determines the direction of the groove in accordance with the bent angle of the upper plate binding unit 116 of the upper plate 110. At this time, the bent angle of the upper plate binding unit 116 and the direction of the groove of the lower plate 120 should be formed in an oblique oblique direction, even if the deck plate is installed and the slab concrete is finished after the upper plate 110 ) And the lower plate 120 are strongly engaged with each other without being separated from each other, thereby further strengthening the binding.

The truss girder 126 of the lower plate 120 is mainly used in a conventional deck plate, and is shown in FIG. 3B in consideration of the width of the lower plate 120 and the height of the slab concrete being poured. As described above, the shape and size of the triangle or the straight shape can be freely adopted.

Building method of the prefabricated deck plate 100 of the present invention is as follows.

Prefabricated deck plate 100 installation method of the present invention,

In deck plate installation work,

(A) a lower plate installation step of mounting a plurality of the lower plate 120 of claim 1 at a predetermined interval so that both ends between the beam and the beam before placing the slab concrete; And, (b) between the upper plate 110 of claim 1 or claim 2 between the adjacent lower plate 120 mounted between the beam, the upper plate binding portion of both ends of the upper plate 110 The upper plate installation step of fastening so that 116 is inserted into the lower plate binding portion 124 of the lower plate 120 in a diagonal direction from the top to the bottom;

In the lower plate installation step, the distance between the beam to be installed and the beam is accurately measured and the width of the upper plate 110 is accurately taken into consideration, so that the interval of the width of the upper plate 110 is increased and the lower plate 120 is predetermined. It should be mounted in parallel in number.

The conventional deck plate 10 is a unit formed with the floor 12 and the valleys 14 together, so the width is wide and installed according to the gap between the beam and the beam, and then the empty space is left or the last deck plate is next to the last deck plate. There was a problem that does not exactly correspond to the gap between the beam and the beam, such as wrinkles are broken.

However, the prefabricated deck plate 100 of the present invention is the upper plate 110 and the lower plate 120 is divided into two units installed to correspond to the gap between the beam and the beam, so the empty space is left next to the last deck plate There is no problem such as the last deck plate is wrinkled and broken.

In the upper plate installation step, it is important that the upper plate binding portion 116 of the upper plate 110 is fitted into the lower plate binding portion 124 of the lower plate 120 in an oblique direction from top to bottom.

At this time, since the bent angle of the upper plate binding unit 116 and the groove direction of the lower plate 120 is formed in an oblique oblique direction, the upper plate even after receiving the upper load after the installation of the deck plate and the slab concrete is finished The 110 and the lower plate 120 do not deviate from each other, but rather unite stronger.

After completing the upper plate installation step is to perform the additional work, such as slab reinforcing bars and conventional wiring and piping, and to place the slab concrete.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

1 is a photograph showing a conventional deck plate 10.

Figure 2 is a perspective view of the upper plate 110 of the prefabricated deck plate 100 of the present invention.

Figure 3a is a perspective view of the lower plate 120 of the prefabricated deck plate 100 of the present invention.

Figure 3b is a cross-sectional view of the lower plate 120 of the prefabricated deck plate 100 of the present invention.

Figure 4 is a cross-sectional view showing the coupling and construction of the prefabricated deck plate 100 for construction of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: Conventional Deck Plate

12: flooring

14: Goal

100: prefabricated deck plate for building construction of the present invention

110: upper plate

112: top plate

114: side plate

116: upper plate binding portion

120: lower plate

124: lower plate binding part

126: truss girder

Claims (5)

In the construction deck plate, The deck plate, An upper plate 112 having a shape of a rectangular plate laid down and a side plate 114 having a shape in which both sides of the upper plate 112 are bent at an acute angle downward are integrally formed. An upper plate 110 having an upper plate binding unit 116 integrally formed at a lower end of the 114; And, The plate shape of the rectangular (long rectangle) as a whole lying down, the upper plate binding portion 116 of the upper plate 110 of the groove shape made by folding both ends at both ends so as to be fitted in the diagonal direction from the top to the bottom A lower plate 120 having a lower plate binding part 124 formed thereon and having a truss girder 126 at the center thereof in the longitudinal direction; Building prefabricated deck plate 100, characterized in that consisting of. In claim 1, Prefabricated deck plate for building, characterized in that the side plate 114 is bent at least once at an acute angle downward. The method of claim 1 or 2, Building prefabricated deck plate 100, characterized in that a plurality of irregularities to strengthen the binding with the concrete is formed on any one or both of the top plate 112 and the side plate 114 of the upper plate (110). In deck plate installation work, (A) a lower plate installation step of mounting a plurality of the lower plate 120 of claim 1 at a predetermined interval so that both ends between the beam and the beam before placing the slab concrete; And, (b) the upper plate 110 of claim 1 or claim 2 is installed between the adjacent lower plate 120 mounted between the beam and the upper plate binding part 116 at both ends of the upper plate 110. The upper plate installation step of fastening so that the) is inserted into the lower plate binding portion 124 of the lower plate 120 in a diagonal direction from the top to the bottom; Prefabricated deck plate installation method for building, characterized in that consisting of. delete

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