KR200399130Y1 - Deck plate - Google Patents

Abstract

The disclosed subject matter relates to a deck plate of a deck panel for reinforced concrete slab, in particular, through the structural improvement of the weld support (rib) of the deck plate to which the lattice foot of the truss girder is welded, the deck plate by the truss girder welding The present invention relates to a deck plate that prevents welding defects such as corrosion and damage such as forming holes, and is very easy to wipe off condensation when a welding support part occurs.

The deck plate according to the present invention, in the deck plate of the deck panel for reinforced concrete slab, the truss girders are seated and provided with ribs as many times as the number of the truss girders at equal intervals in the width direction, the ribs, part of the deck plate is folded The first support piece and the second support piece are formed to be in contact with each other by being convex upward, and the front end side of the support pieces is bent in an inverted V shape to be positioned at a distance from the deck plate surface, and the first support piece is positioned. The deck plate to which the lower end of the second support piece is connected is formed in a form in which the curved rounded surface is faced upwards to form a semi-circular groove on the rib bottom surface of the deck plate is a constitution of the configuration.

Description

Deck plate

The present invention relates to the deck plate of the deck panel for reinforced concrete slab, in particular, through the structural improvement of the weld support (rib) of the deck plate to which the lattice foot of the truss girder is welded, the corrosion of the deck plate by the truss girder welding And it prevents welding defects, such as damage such as the formation of holes, and relates to a deck plate that is very easy to wipe off when condensation phenomenon occurs in the weld support.

The most common method of constructing reinforced concrete slab in a general reinforced concrete structure is to construct a formwork to form the outer surface of concrete, a copper support supporting the formwork, and to reinforce the reinforcement on the formwork and then cast concrete. After that, if the concrete is cured through a curing process for a period of time is made of a process for removing the formwork and copper bar.

However, this method requires a lot of manpower and work according to the construction and dismantling of the formwork and the copper bar, and it is necessary to perform separate reinforcement work, and finish work due to the surface defect of the structure when removing formwork after concrete curing. There is a lot of problems such as economical due to the generation of waste materials due to form damage during form dismantling due to the need for considerable air.

Therefore, in recent years, a slab of reinforced concrete is formed by using a deck plate composed of a deck plate serving as a formwork and a truss girder installed to maintain the strength of the slab on the deck plate, without using a circle and formwork. Deck slab method is mainly used.

A number of domestic and foreign patents are already known for the deck panel, and a representative example thereof is as shown in FIGS. 1 to 2.

1 to 2 are a perspective view and a front view of a deck panel generally used in the prior art, a deck plate 100 having a predetermined thickness designed to withstand the weight and construction load of concrete, and the deck plate ( It consists of a truss girder (Truss girder; 200) fixed to the upper surface of the 100 in the longitudinal direction.

The truss girder 200 is provided with a lattice 210 continuously bent along a longitudinal direction in a constant waveform, and reinforcing bars 220 and 230 respectively installed in the longitudinal direction of the deck plate of the upper and lower portions of the lattice to secure tensile strength of the slab. The bottom of the lattice 210 is bent horizontally and consists of a foot (212) formed in contact with the welding support protrusion (hereinafter referred to as "rib"; 110) of the deck plate.

In addition, the deck plate 100 is formed in a pair so that the mountain ribs 110 formed by bending a part of the deck plate in the longitudinal direction may support both foots 212 of the truss girder 200 in a width direction. It is formed at intervals, and joint portions 120 and 120 'are formed at both ends of the width direction to form overlapping seams for connection with another deck plate adjacent to each other.

The conventional deck panel is a truss girder 200 on the deck plate 100 by placing the foot 212 of the truss girder 200, the lattice 210 on the rib 110 of the deck plate 100 and spot welding them ) Was fixed (see FIG. 2).

However, since the thickness of the conventional deck plate 100 is only 0.5 mm, the thickness of the ribs 110 is melted at the time of welding, causing a problem, and even if the hole is not formed, the metal structure near the ribs is caused by heat. There is a problem that the oxidation is easily corroded or rust occurs. In addition, due to the melting of the deck plate during welding, there is a problem that the welding trace due to the overcurrent is generated on the lower surface of the deck plate, which is the back surface of the rib, which is the welding point.

Therefore, in order to solve problems such as welding defects generated when welding the conventional deck plate and the truss girder as described above, in the Republic of Korea Patent Registration No. 20-0355398, ribs bent to protrude upwards to each other to reinforce the thickness rigidity ribs The structure of the deck plate which prevented a hole from forming and leaving no welding mark in the deck plate of the back surface was disclosed.

By the way, the structure disclosed in the ribs are in contact with each other, it is not easy to remove the moisture generated in the contact area of the rib when the condensation phenomenon occurs on the back of the deck plate due to the difference between the concrete and the air temperature when the concrete is placed. The disadvantage is that the moisture that is not removed eventually leads to corrosion of the deck plate, which leads to a loss of resistance to the concrete and truss girder loads that are placed on it, thereby degrading its structural stability.

The present invention has been made to solve the problems of the prior art, and through the structural improvement of the rib of the deck plate to which the lattice foot of the truss girder is welded, such as corrosion and holes of the deck plate by the truss girder spot welding It is an object of the present invention to provide a deck plate having almost no welding defects such as damage, inducing moisture discharge when condensation occurs on the ribs after concrete pouring, and very easy to wipe them off.

As a technical means for achieving the above object, the deck plate of the present invention, in the deck plate of the reinforced concrete slab deck panel is provided with truss girders, the ribs are provided by the number of the truss girders at equal intervals in the width direction. ,

The ribs are formed in such a way that the first support piece and the second support piece come into contact with each other by folding a part of the deck plate and bending it convexly, and the tip side of the support pieces is bent in an inverted V shape so as to be spaced apart from the deck plate surface. Is composed throughout,

The deck plate to which the lower ends of the first support piece and the second support piece are connected is formed in a form in which the curved rounded surfaces face upwards, so that semicircular grooves are formed on the rib bottom surface of the deck plate.

The convex portion of the rib in the present invention is characterized in that it is formed in the shape of a sharp tip end for ease of welding during spot welding.

The support piece bending angle of the rib is preferably configured to have a bending angle within a range of 30 degrees or more and 60 degrees or less.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in this embodiment, the same members and the same reference numerals will be used for the same parts as the conventional configurations shown above.

Figure 3 is a front view showing the overall configuration of the deck panel to which the deck plate according to the present invention is applied.

As shown in the drawing, the deck panel has a deck plate 100 having a predetermined thickness designed to sufficiently withstand the weight and construction load of concrete, and a truss girder fixedly installed on the upper surface of the deck plate in a longitudinal direction ( Truss girder; 200.

The truss girder 200 is provided with a lattice 210 continuously bent along a longitudinal direction in a constant wave form, and reinforcing bars 220 and 230 respectively installed in the longitudinal direction of the deck plate of the upper and lower portions of the lattice to secure tensile strength of the slab. The bottom of the lattice 210 is formed, the foot (212) bent horizontally for contact with the deck plate, this configuration is the same as the configuration of the conventional truss girder described above.

The deck plate 100 also has ribs 110 extending in the longitudinal direction at regular intervals such that both foots 212 of the truss girder 200 can be supported as in the prior art, and adjacent to both ends of the width direction. Joint portions 120 and 120 'for overlapping seaming with other deck plates are formed.

According to the present invention, when water is generated due to condensation on the lower surface of the rib 110 of the deck plate 100 after the concrete is placed on the deck panel configured as described above, the deck plate ( In the state where the rib 110 provided on the 100 is bent in an inverted V shape, there is a fine gap G therebetween, and a lower curved round surface is formed at the bottom thereof.

That is, as shown in the enlarged view of the main part of FIG. 4, the rib 110 has a shape in which the first support piece 110a and the second support piece 110b come into contact with each other by convexly folding a portion of the deck plate 100. The front end sides of the support pieces 110a and 110b are bent in an inverted V shape to be positioned at a predetermined distance from the surface of the deck plate 100, and the first support piece 110a and the second support piece. The deck plate 100 to which the bottom end is connected is formed in a shape in which the rounded rounded surfaces face upward, so that a semicircular groove 112 is formed on the bottom surface of the deck plate rib 110.

Here, the support piece (110a, 110b) of the rib 110 may be bent to have a shape as shown, for example, by forming such as multi-stage roller processing, the support piece (110a, 110b) This bent and convex curved portion is in contact with the foot 212 will be good to form a pointed tip shape so that the welding can be made at the time of spot welding.

In addition, the first support piece 110a and the second support piece 110b may have a fine gap G that extends outward toward the lower side of the deck plate. (Iii) when moisture is generated on the lower surface of the rib 110, the generated water is led to the lower surface of the deck plate 100 through the gap G between the rib support pieces 110a and 110b and is easily discharged. It is intended to be.

The bending angles of the support pieces 110a and 110b may be preferably selected from a range capable of supporting the truss girder 200 and the concrete load most stably, in consideration of strength according to material properties. Structurally calculated, the more stable support structure in the bending angle range of 30 ~ 60 degrees, the most preferable support structure can be obtained when bent at 45 degrees. Therefore, it would be most preferable to bend it around 45 degrees.

According to the present invention having such a configuration, the rib 100 supporting the truss girder 200 is formed by two support pieces 110a and 110b overlapping or overlapping each other, thereby reducing the thickness of about 2 or more conventional truss girder supports. Will be carried. Therefore, it is possible to more stably support the load of the truss girder 200 and the concrete to be poured, when spot welding the lattice 210 of the truss girder to the ribs 110, even if high heat occurs during welding of the joint portion A defect such as a hole near the rib 110 does not occur, and even if heat deformation or rust occurs in the welded portion due to heat applied during welding, the impact on the supporting structure of the truss girder is less than that of the conventional deck plate.

In addition, since the tip portion of the rib 110 applied to the present invention is located on the surface at a distance from the upper surface of the deck plate, the tip of the lattice 210 is welded and the surface of the deck plate 100 are separated. Therefore, even when spot welding welding the lattice 210, the deck plate 100 itself does not cause damage due to welding, and also overlaps the lower surface of the deck plate 100 exposed to the outside. It is possible to maintain a very good appearance without welding marks or traces such as back bead by the.

In particular, since the rib 110 is made of a configuration in which a fine gap (G) is present between the plurality of support pieces (110a, 110b) in a state inclined in one direction, due to the temperature difference with the outside after the concrete casting When condensation occurs near the ribs 110, including the bottom surface of the deck plate 100, moisture is transferred to the bottom surface of the deck plate 100 through an inclined passage caused by the minute gap G. Since it is easily discharged, the removal thereof becomes very easy.

In addition, since the curved rounded surface is formed upward on the deck plates extending from the lower ends of the support pieces 110a and 110b of the ribs 110, the support rigidity of the deck plate 100 is increased as a result of structural dynamics. In addition to improving the overall strength of the slab after pouring, it is possible to further improve the resistance to resist local and overall loads due to concrete loads. As a result, it is possible to prevent the deflection of the def plate due to the load and the resulting damage.

Moreover, the groove 112 is formed in the lower surface of the rib 110 due to the round surface, the groove 112 is a deck plate (easily through the passage generated by the above-described fine gap (G) moisture plate ( 100) not only serves to guide the lower surface, but also provides a space to wipe away the discharged water very easily. As a result, the water generated in the bottom surface of the deck plate 100 having the ribs 110 bent by the grooves 112 may be easily removed, and corrosion of the deck plate due to moisture effects may be prevented in advance. .

As described above, according to the deck plate of the present invention, it is structurally very stable to support the load of the truss girder and the concrete to be poured more stably, and the spot plate is corroded and holes when the truss girder is spot welded on the rib. There is almost no welding defects such as this damage, so that it can maintain a good appearance, and when condensation occurs on the ribs after concrete placement, it induces water discharge and is very easy to wipe off due to condensation. There is an effect that the deck plate can be prevented in advance.

1 is a perspective view showing the overall installation of the conventional deck panel.

2 is a front view according to FIG. 1;

Figure 3 is a front view showing the overall configuration of the deck panel applied deck plate according to the present invention.

FIG. 4 is an enlarged view illustrating main parts of the coupling plate between the rib of the deck plate and the lattice of the truss girder according to FIG.

<Description of Signs of Major Parts of Drawings>

100 ... deck plate

200 ... Truss Girder

110 ... rib

110a ... First support

110b ... Secondary Support

112 Home

212 Lattice's foot

Claims (3)

In the deck plate of the deck panel for reinforced concrete slab in which the truss girders are seated and ribs are provided at equal intervals in the width direction with the number of the truss girders, The rib 110 is a part of the deck plate 100 is folded and bent convex upward, the first support piece (110a) and the second support piece (110b) is in contact with the form, but the support pieces (110a, 110b) ), The tip side is bent in an inverted V shape and configured to be spaced apart from the deck plate 100 surface, The deck plate 100 connected to the lower ends of the first support piece 110a and the second support piece 110b is formed in a shape in which a curved rounded surface is faced upwards to form a rib of the deck plate 100. 110) Deck plate, characterized in that the semicircular groove 112 is formed on the lower surface. The method of claim 1, The convex portion of the rib 110, the deck plate, characterized in that formed in the shape of a sharp tip end for ease of welding during spot welding. The method of claim 1, The bending angle of the rib support pieces (110a, 110b) is a deck plate, characterized in that it is configured to have a bending angle in the range of 30 degrees to 60 degrees.