KR200382569Y1 - Deck plate - Google Patents

Abstract

The present invention relates to a construction deck plate, more specifically in bending the steel plate of a certain thickness to form a deck plate 50, a plurality of reinforcing plate 70 protrudes vertically on the horizontal plate 60 formed horizontally The end portion 76 of each of the reinforcing plate 70 is formed to be bent into a "┍┑" shape, and a plurality of through holes 72 are formed in the base end 71 of the reinforcing plate 70, and the upper plate At both ends of the 60, the corresponding connecting plates 80a and 80b are formed to overlap the deck plates 50 side by side, but are formed on the same center line as the through-hole 72 formed in the reinforcing plate 70. By providing a constitution of the deck plate 50 each having another through hole 82 in the connecting plates 80a and 80b, the strength of the deck plate 50 can be improved without forming a thick steel sheet. Therefore, manufacturing cost reduction and weight due to the reduction of steel equivalent In addition to improving the ease and safety of work due to the weight reduction with the reduction, durability by integrating the respective parts of the concrete (8) poured between the reinforcing plate 70 and the connecting plate (80a, 80b) On the other hand, by installing the pipe (6) and the cable (7) in the through holes (72, 82) relates to a building deck plate having the effect of reducing the casting thickness of the concrete (8) and consequently reducing the construction cost .

Description

Deck Plates for Construction {DECK PLATE}

The present invention relates to a construction deck plate, and more specifically, by bending the end of the reinforcement plate formed on the upper plate of the deck plate to form a perpendicular to the upper plate to improve the bending strength of the deck plate and consequently the deck plate into a thin steel plate In addition, by forming a plurality of through holes in the base end of the reinforcement plate to improve the durability of the slab by integrating the deck plate and concrete, while installing the pipes and cables through the through holes installed concrete thickness It is related to the construction deck plate to reduce the construction cost because it can be reduced.

In general, the slab is formed by placing a deck plate between the beam of the steel structure and placing concrete. Looking at the structure of the general deck plate with reference to Figure 1, the deck plate 10 is bending a steel plate of a certain thickness The upper plate 20 formed horizontally is formed by protruding a plurality of "T" shaped reinforcement plate 30 vertically, and at both ends of the upper plate 20, corresponding connecting plates 40a and 40b. While forming a plurality of deck plates 10 so as to overlap side by side, while the top plate 20 is formed to improve the rigidity of the deck plate 10 by the embossing 22 processing and on the bottom surface of the top plate 20 Forming the rinsing installation groove 24 is configured to be installed in the slab fabric and lighting equipment.

Looking at the use state of the general deck plate 10 configured as described above with reference to Figure 2, a plurality of decks between the cheolgolbo (2) and cheolgolbo (2) usually formed of an H beam (H-beam) Plate 10 is installed in series, but integrated with stud bolts 3, spacer 4 is installed on top of the "T" shaped reinforcement plate 30 of the deck plate 10, and then wire mesh 5 is installed. By doing so, the deck plate 10 and the wire mesh 5 are spaced at regular intervals, and after installing the electrical or communication cable 7 together with the pipe 6 on the upper side of the wire mesh 5 concrete 8 Is poured to form a slab (1).

However, in view of the fact that in recent years the gap between the beam of the building and the beam is widening and on the other hand, demanding more durable against deformation and destruction of the slab caused in the event of a fire, the conventional deck plate as described above 10, the shape of the reinforcing plate 30 is formed in a "T" shape, not only susceptible to deflection, but also caused a problem by using a thicker steel plate to reinforce its strength. See in more detail with reference to FIG.

First, referring to FIG. 3, the stress distribution according to the bending of the beam is shown. As shown in FIG. 3, the maximum compressive stress acts on the uppermost side of the neutral axis with respect to the virtual neutral axis. , The lowermost side on the neutral axis is the maximum tensile stress (maximum pulling force) acts, the maximum bending stress of the beam can be seen that is proportional to the height (H) of the beam, while the conventional deck plate as shown in FIG. 10) it can be seen that the reinforcing plate 30 is formed in a "T" shape, so that the height (h) is lower than the width (b) in the upper portion of the reinforcing plate has a relatively weak structure against the bending load. .

Accordingly, in the case of the conventional deck plate 10, a wider steel plate or a thicker steel plate was used to increase durability against fire, and thus caused various problems. There is a problem in that the construction cost and the worker's accident caused by the increase in the weight of the deck plate 10 with the increase in the manufacturing cost of 10).

In addition, in the case of the conventional deck plate 10, as shown in FIG. 5, each portion of the concrete (8) poured between a plurality of "T" shaped reinforcement plate 30 is partitioned by the reinforcement plate 30 Not only is there a problem that cannot be integrated, but on the other hand, the pipe 6 and the cable 7 have to be installed on the upper side of the reinforcing plate 30, and as a result, the thickness of the concrete 8 is increased, resulting in increase in construction cost. There is this.

The purpose of the present invention for solving the problems as described above, by providing a configuration of the deck plate that can improve the strength without forming a thick steel sheet, there is no increase in manufacturing cost and weight increase due to the increase in steel In addition, there is no accident occurrence and construction difficulties due to the weight increase, and also increase the durability by integrating each part of the concrete placed between the reinforcement plate, while installing the pipes and cables inside the deck plate to pour concrete In order to reduce the thickness, the end portion of the reinforcing plate formed on the upper plate of the deck plate is bent to form a perpendicular to the upper plate, but constitutes a deck plate formed with a plurality of holes in the base end and the connecting plate of the reinforcing plate.

The construction of the construction deck plate according to the present invention for achieving the object as described above, by bending the end of the reinforcing plate formed on the top plate of the deck plate to form a perpendicular to the top plate to improve the bending strength and reinforcement plate While forming a plurality of through holes in the base end and the connecting plate of the deck plate and concrete, while installing the pipes and cables through the through holes as a result of reducing the thickness of the concrete placing, characterized in that the present invention A preferred embodiment of the building deck plate according to the present invention will be described in detail with reference to Figures 6 to 9, the same parts as Figures 1 to 4 are denoted by the same reference numerals to avoid duplication of description.

Looking at the configuration of the deck plate according to the present invention with reference to FIG. 6 first, a plurality of reinforcing plate 70 is vertical to the upper plate 60 formed horizontally in forming the deck plate 50 by bending a steel plate of a certain thickness Protruded to form the end portion 76 of each reinforcing plate 70 is formed to be bent into a "┍┑" shape so that the end of the end portion 76 is perpendicular to the upper plate 60 and In addition, a plurality of through holes 72 are formed in the proximal end 71 of the reinforcing plate 70.

And forming the connecting plate (80a) (80b) corresponding to both ends of the deck plate upper plate 60 so as to overlap a number of deck plates 50 side by side through the hole 72 formed in the reinforcement plate 70 Another through hole 82 is formed in each of the connecting plates 80a and 80b on the same center line, while embossing 62 is applied to the entire deck plate 50 to increase the strength of the deck plate 50. In addition, the bottom surface of the upper plate 60 is formed to rinse and install the groove 64 is configured to be installed in the slab fabric and lighting equipment and the like.

Looking at the use state of the deck plate 50 according to the present invention configured as described above with reference to Figure 7, while installing a plurality of deck plate 50 in succession between each cheolgolbo (2), each reinforcement plate The pipe 6 and the cable 7 are installed by the through holes 72 and 82 formed in the proximal end 71 of the 70 and the connecting plates 80a and 80b. A spacer 4 is installed at the ″ ″ type end portion 76 so that the wire mesh 5 is spaced apart from the deck plate 50 at regular intervals, and then the slab 100 is placed by pouring concrete 8. Form.

In the drawing, reference numeral “3” denotes a stud bolt 3.

Looking at the operation effect of the deck plate according to the present invention configured as described above with reference to Figures 8 and 9, the reinforcing plate 70 of the deck plate 50, the end portion 76 of the "┍┑" type It is formed to have a height (h) is higher than the upper end of the conventional "T" shaped reinforcement plate has a relatively strong structure against the bending load, while between the reinforcement plate 70 and the connecting plate (80a) (80b) Each portion of the poured concrete 8 is integrated by the through holes 72 and 82 formed in the proximal end 71 and the connecting plates 80a and 80b of the reinforcement plate 70 to improve durability. On the other hand, by installing the pipe (6) and the cable (7) through the through hole 72 of the reinforcing plate 70 and the through hole 82 of the connecting plate (80a, 80b) to reduce the casting thickness of the concrete (8) Can be.

According to the deck plate according to the present invention configured as described above, by bending the end of the reinforcement plate formed on the upper plate of the deck plate to form a vertical to the top plate and to form a plurality of through holes in the base end and the connecting plate of the reinforcement plate By providing a deck plate, it is possible to improve the strength of the deck plate without forming the thickness of the steel sheet thick, so that the ease of operation due to the weight reduction along with the manufacturing cost and weight reduction corresponding to the reduction of the amount of steel Not only can it improve safety, but it also increases durability by integrating each part of concrete poured between the reinforcement plate and connecting plate, while reducing the thickness of concrete by installing pipes and cables inside the deck plate. As a result, the construction cost is reduced.

1 is a perspective view showing the structure of a general deck plate

Figure 2 is a perspective view of the slab fracture surface showing the state of use of the general deck plate

Figure 3 is a schematic diagram showing the stress distribution according to the bending of the beam

4 is a front view showing the structure of a general deck plate

5 is a cross-sectional view of the slab showing the state of use of the general deck plate

Figure 6 is a perspective view showing the structure of the deck plate according to the present invention

7 is a perspective view of the slab fracture surface according to the use state of the present invention

8 is a front sectional view showing the structure of the deck plate according to the present invention

9 is a cross-sectional view of the slab according to the use state of the present invention

*** Explanation of symbols for the main parts of the drawing ***

1, 100: slab 2: steel ball 3: stud bolt

4 spacer 5 wire mesh 6 piping

7: cable 8: concrete 10, 50: deck plate

20, 60: top plate 22, 62: embossing 24, 64: rinse installation groove

30, 70: reinforcement plate 71: proximal end 72, 82: through hole

76: terminal parts 40a, 40b, 80a, 80b: connecting plate

Claims (2)

In the construction deck plate is formed with a plurality of reinforcing plate (70) protrudes perpendicular to the top plate (60) and the corresponding connecting plate (80a, 80b) is formed at both ends of the top plate (60); Building deck plate, characterized in that the end portion 76 of the reinforcing plate 70 is bent to form a "┍┑" shape. The method of claim 1; A plurality of through holes 72 are formed in the proximal end 71 of the reinforcing plate 70, and another through hole 82 is formed in the connecting plate 80 a and 80 b on the same center line as the through holes 72. Building deck plate, characterized in that.