KR102236580B1 - Assembly beam deck plate - Google Patents

Abstract

According to the present invention, an assembly beam deck plate comprises: a deck panel for forming therein a pouring space for pouring concrete; and a plurality of stirrups continuously arranged to be spaced apart from each other in the longitudinal direction of the pouring space formed by the deck panel, and coupled to the inner surface of the deck panel. The deck panel includes: a side plate in which side plate units having, at upper and lower ends, first upper ribs and first lower ribs vertically bent inward of the pouring space are continuously arranged, and the first upper ribs and the first lower ribs of the side plate units adjacent to each other are coupled to each other to overlap each other so that both the side surfaces of the pouring space are formed; and an edge plate which has, at upper and lower ends, second upper ribs and second lower ribs vertically bent inward of the pouring space, of which the side surfaces are vertically bent, and in which the second upper ribs are coupled to the first lower ribs of the side plate positioned on both side surfaces of the pouring space to overlap each other, and the second lower ribs facing each other are coupled thereto to overlap each other so that the edge and lower surfaces of the pouring space are formed.

Description

Assembled beam deck plate{ASSEMBLY BEAM DECK PLATE}

The present invention relates to an assembly-type beam deck plate, and more particularly, to assemble a plurality of deck panels of a certain standard to form one deck plate. The present invention relates to an assembled beam deck plate that can be applied to various beam standards by adjusting the number of panels, has excellent manufacturing efficiency, and can be easily combined with stirrups inside.

The reinforced concrete construction method is a method of completing a structure by installing a formwork for each member construction, reinforcing reinforcement inside the formwork, and pouring concrete.

The formwork is a temporary structure that is temporarily installed in order to make the concrete having fluidity in a predetermined shape and size until the concrete is cured, and formwork is essential in the reinforced concrete structure.

In general, the formwork is composed of a formwork panel for forming a concrete surface and a frame bar that supports the formwork panel, and after the formwork is installed, temporary construction such as joists, yokes, and copper bars are involved to support the formwork.

However, such temporary construction requires not only an excessive amount of temporary materials, but also a lot of time and cost to assemble and dismantle a formwork or a movable bar, and a separate surface treatment process is required after the formwork is demolded, so the process to be performed is complex and inefficient.

In order to solve this problem, in the prior art No. 10-1009753, a U-shaped pre-assembled form was developed in which a thin metal sheet was bent.

In the prior art, since a thin steel sheet having a thickness of 1.0mm to 1.2mm is roll-formed to automatically produce a formwork, production is easy, there is no separate support frame, so the weight is light, and handling and installation are easy.

In addition, since the formwork is brought in and installed on site in the state of the finished product pre-assembled at the factory, it is possible to reduce the input manpower and shorten the construction period by minimizing on-site work. It is possible to prevent noise civil complaints and improve the on-site environment when demolding the formwork.

However, since the size of the beam is different for each site, and various dance beams are designed at the same site, when applying the above technology, it is necessary to separately produce roll forming for each standard of the beam, and a separate roll forming line is driven according to the standard of the beam. Since it must be done, there is a problem that the initial cost is high.

In addition, it is difficult to supply and receive materials and manage inventory because the required quantity must be separately manufactured for each standard.

In addition, in order to support the lateral pressure during concrete pouring, the stirrup that is laid inside the formwork is fixed by welding.At this time, there is a problem that the welding part is easily dropped by external force by simply spot welding on the ribs formed integrally with the formwork.

Korean Patent Publication No. 10-1009753

The present invention is an invention conceived to solve the problems of the prior art described above. By assembling and combining a plurality of deck panels of a certain standard to form a single deck plate, it can be applied to beams of various standards and manufactured. It has the purpose of providing an assembled beam deck plate that can maximize efficiency.

In addition, it has the purpose of stably coupling the stirrup disposed inside the deck plate.

The problems of the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

The assembly-type beam deck plate of the present invention for achieving the above object is a deck panel for forming a pouring space in which concrete is poured, and a continuous arrangement to be spaced apart from each other along the length direction of the pouring space formed by the deck panel. The deck panel includes a plurality of stirrups coupled to the inner side of the deck panel, and the deck panel has a first upper rib and a first lower rib vertically bent in the direction of the pouring space at the top and bottom of the deck panel. A second upper portion disposed and vertically bent in the direction of the pouring space at the top and bottom of the side plates that are combined so that the first upper ribs and the first lower ribs of the side plate units adjacent to each other overlap each other to form both sides of the pouring space It has a rib and a second lower rib, and one side is vertically bent, and the second upper ribs are coupled to overlap each of the first lower ribs of the side plate located on both sides of the pouring space, and each facing each of the The second lower ribs are coupled to overlap each other and include a corner plate forming a corner surface and a lower surface of the pouring space.

In this case, the deck panel may further include a lower plate unit having a third coupling rib that is disposed and coupled between the corner plates according to the standard of the pouring space to be formed, and both ends are vertically bent in the direction of the pouring space. .

In this case, one side of the bent portion vertically bent toward the inside of the pouring space may be bent in two stages in a'b' shape.

In addition, the first upper rib, the first lower rib, the second upper rib, and the second lower rib may be bent in two stages in a'b' shape at one side of the bent portion vertically bent in the inner direction of the pouring space.

At this time, any one of the first upper rib and the first lower rib includes a first support portion formed by bending one end to extend, and the first support portion supports one side of the stirrup, and allows the stirrup to be welded together. I can.

In addition, the first support portion may be vertically bent upward from one end of the first upper rib or the first lower rib.

In addition, one or both of the second upper rib and the second lower rib includes a second support portion formed by bending one end to extend, and the second support portion may be welded to support a side surface of the stirrup.

At this time, the first upper rib, the first lower rib, the second upper rib, the second lower rib, and the third coupling rib are respectively corresponding according to the arrangement shape of the side plate unit, the corner plate, and the lower plate unit, and the overlapping portions are welded. Can be combined by

In addition, the side plate unit, the corner plate and the lower plate unit are formed on the surfaces between the ribs formed at both ends of each, further comprising a reinforcing part for preventing the deck panel from being deformed by the pressure of the concrete poured into the pouring space. can do.

In this case, the reinforcing portion may be formed in a plurality of embossed shapes continuously formed at equal intervals along the length direction on each inner surface of the side plate unit, the corner plate, and the lower plate unit.

In addition, the side plate unit may include a first side plate unit disposed at an uppermost portion of the side plate and a second side plate unit continuously disposed below the first side plate unit.

In this case, one end of the first upper rib formed on the first side plate unit may be vertically bent upward or downward so that the side surface of the stirrup may be supported on one side.

The assembled beam deck plate of the present invention for solving the above problems has the following effects.

First, by forming a beam deck plate by assembling a deck panel consisting of a side plate, a corner plate, and a lower plate unit, it can be applied to construct beams of various standards, thereby maximizing work efficiency.

Second, since it is made of a relatively small deck panel, it is easy to transport and install, and there is little risk of damage between transports, and even if it is damaged, only a part of the deck panel can be replaced, thereby minimizing loss. There is this.

Third, there is an advantage that a stirrup provided inside the deck plate can be stably supported and coupled by forming a support portion on the rib for assembling and coupling the deck panel.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a structural diagram showing an assembled beam deck plate according to an embodiment of the present invention;
2 is an exemplary view showing an assembly state of a deck panel and a stirrup in the assembled beam deck plate according to an embodiment of the present invention;
3 is an exemplary view showing an assembled state of a deck panel and stirrup for forming a deck plate having a large standard in the assembled beam deck plate according to an embodiment of the present invention;
4 is an exemplary view showing a side plate in the assembled beam deck plate according to an embodiment of the present invention;
5 is an exemplary view showing a reinforcement part formed on a side plate in the assembled beam deck plate according to an embodiment of the present invention;
6 is an exemplary view showing a reinforcement part formed on a corner plate in the assembled beam deck plate according to an embodiment of the present invention; And
7 is an exemplary view showing a reinforcement part formed on a lower plate unit in the assembled beam deck plate according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention in which the object of the present invention can be realized in detail will be described with reference to the accompanying drawings. In describing the present exemplary embodiment, the same name and the same reference numerals are used for the same configuration, and additional description thereof will be omitted.

1 is an overall structural diagram showing an assembled beam deck plate according to an embodiment of the present invention.

The assembled beam deck plate according to the present invention is a deck plate in which concrete is poured inside to construct a beam, and by assembling and combining a plurality of modular deck panels, it is easy to install and transport, and it is easy to cope with damage. It relates to an assembly-type beam deck plate that allows, as shown in FIG. 1, a deck panel 100 made of a side plate 110 and a corner plate 120, and the deck panel 100 is assembled and combined. A plurality of stirrups 400 are continuously disposed so as to be spaced apart from each other along the length direction of the pouring space 500 in which concrete formable inside the deck plate can be poured, and are coupled to the inner surface of the deck panel 100. It may be made of a structure including.

According to an embodiment of the present invention, the deck panel 100 may have a structure including a side plate 110 and a corner plate 120 and a lower plate unit 130 constituting the deck plate made of a certain standard. , By assembling each part, a pouring space 500 in which concrete is poured may be formed.

At this time, the side plate 110 is capable of forming both sides of the pouring space 500, and a first upper rib 210 and a first bent vertically in the inner direction of the pouring space 500 at the top and bottom. The side plate unit 111 having the lower rib 220 may be continuously disposed, and the first lower rib 220 and the first upper rib 210 of the side plate unit 111 adjacent to each other overlap each other. By being combined, it may be made to form both sides of the pouring space 500.

At this time, the side plate 110 is made of one side plate unit 111 according to the standard of the beam to be constructed, or has a structure in which a plurality of the side plate units 111 are continuously assembled and coupled, so that one site In the construction of beams that can be made in various standards, all can be applied.

For example, the side plate unit 111 constituting the side plate 110 includes a first side plate unit 111a disposed at the top of the side plate 110 and a second side plate unit 111a disposed at the lower end of the first side plate unit 111a. It may be made of a structure including a side plate unit 111b, and when it is made of one side plate unit 111 according to the standard of the beam to be constructed (corresponds to the height of the beam), the first side plate unit 111a ) Only one can be used, and when the side plate unit 111 is to be assembled and coupled continuously, the first side plate unit 111a is located at the top of the side plate 110 and at the bottom of the first side plate unit 111a. Since the second side plate unit 111b has a structure in which it is assembled and coupled to be continuous, both sides of the pouring space 500 can be formed to correspond to the standard of the beam to be constructed.

At this time, the first upper rib 210 formed on the first side plate unit 111a has one end vertically bent upward or downward, and is disposed along the length direction of the pouring space 500 on one bent side. The side surfaces of the stirrup 400 may be supported and joined by welding 600 to be coupled.

According to an embodiment of the present invention, the corner plate 120 has a second upper rib 230 and a second lower rib 240 vertically bent in the inner direction of the pouring space 500 at the upper and lower ends. It may be, and one side may be vertically bent so that a corner can be formed in the pouring space 500 formed by the deck panel 100.

In addition, the second upper ribs 230 may be assembled and coupled to overlap each other with the first lower ribs 220 formed on the side plates 110 forming both sides of the pouring space 500, and mutually By assembling and coupling so that each of the second lower ribs 240 facing each other of the corner plate 120 disposed in a symmetrical position overlap, the pouring space ( 500) can be made.

In this case, a lower plate unit 130 may be further provided between the edge plates 120 arranged to be coupled to each of the second lower ribs 240 facing each other according to the standard of the beam to be constructed.

For example, when the width of the beam to be constructed is wide, the width of the pouring space 500 formed by the deck panel 100 should also be widened to correspond to the width of the corresponding beam, and accordingly, the width of the beams facing each other should be widened. The lower plate unit 130 is provided between the edge plates 120 so that the second lower ribs 240 and both ends of the lower plate unit 130 of the edge plates 120 are provided on both sides, respectively. Can be assembled and combined.

At this time, both ends of the lower plate unit 130 are formed so that the third coupling ribs 250 vertically bent in the inner direction of the pouring space 500 are formed, so that the second lower ribs 240 of the corner plate 120 are formed. ), so that the combination can be made.

According to an embodiment of the present invention, the first upper rib 210 and the first lower rib 220 and the second upper rib 230 and the second lower rib 240, and the third coupling rib 250 ) May be formed in a structure in which one side of the bent portion vertically bent in the inner direction of the pouring space 500 is bent in two stages in a'b' shape.

For example, the first upper rib 210 and the first lower rib 220, the second upper rib 230 and the second lower rib 240, and the third coupling rib 250 are the deck panel ( In the state of being vertically bent in the inner direction of the pouring space 500 formed by 100), the side plate unit 111 and the corner plate 120 are made to be bent in a'b' shape once more, Further, according to the arrangement of the lower plate unit 130, the assembly and coupling of the ribs corresponding to each other can be made more accurately, and the welding 600 can be made double on the bent surface to be joined, so that the respective ribs It can be made so that their bonding power can be strengthened.

At this time, of the first upper ribs 210 formed on the side plate unit 111, the first upper ribs 210 formed on the first side plate unit 111a described above are not assembled and coupled with other ribs. Accordingly, as shown in FIG. 4, the bent portion is not bent in two stages in a'b' shape, and the end of the bent portion is bent upward or downward only once to support one side of the stirrup 400 and at the same time The stirrup 400 may be coupled by welding 600.

According to an embodiment of the present invention, one of the first upper rib 210 and the first lower rib 220 may further include a first support part 310 formed by bending one end to extend.

For example, among the side plate units 111, a first lower rib 220 formed on the first side plate unit 111a and a first upper rib 210 or a first lower portion formed on the second side plate unit 111b In the rib 220, the first support part 310 is formed so that one end of the bent part double-folded in a'b' shape is vertically bent, so that the stirrup 400 provided inside the pouring space 500 is formed. One side may be supported, and the stirrup 400 may be coupled without shaking by welding 600.

At this time, the first support portion 310 is vertically bent upward from one end of the first upper rib 210 or the first lower rib 220, so that the concrete poured in the pouring space 500 is completely It is desirable to allow it to be filled.

In addition, one or both of the second upper rib 230 and the second lower rib 240 is formed with a second support part 320 formed by bending one end to extend to be the same as the first support part 310. As with the first support part 310, one side of the stirrup 400 provided in the pouring space 500 may be supported by the second support part 320, and welding ( By 600), the stirrup 400 may be coupled to the deck panel 100.

In this way, the stirrup 400 is supported on one side of the first support part 310 and the second support part 320 so that the stirrup 400 can be welded 600, which is welded to the deck plate in the prior art. It is a structure that prevents the stirrup from falling off due to external pressure between moving or pouring concrete.

That is, by securing a wide area where the stirrup 400 is welded 600 to the deck panel 100 by the first support 310 and the second support 320, the welding 600 can be performed. By doing so, the bonding force of the stirrup 400 coupled to the deck panel 100 can be further strengthened.

As described above, the side plate 110 and the corner plate 120, and the lower plate unit 130 that can be additionally coupled as the size of the beam to be constructed increases, each of the first upper rib 210 , The first lower rib 220, the second upper rib 230, the second lower rib 240 and the third coupling rib 250 are assembled and coupled to the welding 600 is made, the stirrup 400 The assembly structure of the deck panel 100 is supported by the first support 310 and the second support 320 and is welded 600 to form a deck plate in which concrete is poured. See FIG. 3 to make it easier to understand.

According to an embodiment of the present invention, the deck panel 100 is deformed on one side of the side plate unit 111 and the corner plate 120 and the lower plate unit 130 constituting the side plate 110. A reinforcing part 140 that can be prevented may be formed.

For example, the reinforcing part 140 is an inner surface of the side plate unit 111, the edge plate 120, and the lower plate unit 130, that is, the pouring space ( 500) may be continuously formed at equal intervals along the length direction of the side plate unit 111, the corner plate 120, and the lower plate unit 130 on the surfaces between the ribs formed at both ends in the formation direction. By being made in the form of embossing, the deck panel 100 can be prevented from being bent or unfolded due to the pressure generated when concrete is poured into the pouring space 500. .

By providing the assembled beam deck plate of the present invention having the structure as described above, the construction work of beams of various standards can be smoothly performed in one site in response to the standard of the beam to be constructed, and transport and operation are simple. The risk of damage is small, and even if damage occurs, replacement of a part is made easily, thereby minimizing wasted material and reinforcing the binding force of the stirrup coupled to the deck plate.

As described above, a preferred embodiment according to the present invention has been examined, and the fact that the present invention can be embodied in other specific forms without departing from its spirit or scope other than the above-described embodiments is known to those skilled in the art. It is self-evident to them. Therefore, the above-described embodiments should be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description and may be changed within the scope of the appended claims and equivalents thereof.

100: deck panel 110: side plate
111: side plate unit 111a: first side plate unit
111b: second side plate unit 120: corner plate
130: lower panel unit 140: reinforcement
210: first upper rib 220: first lower rib
230: second upper rib 240: second lower rib
250: third coupling rib 310: first support
320: second support 400: stirrup
500: pouring space 600: welding

Claims (12)

A deck panel for forming a pouring space in which concrete is poured; And
A plurality of stirrups that are continuously disposed to be spaced apart from each other along the length direction of the pouring space formed by the deck panel, and are coupled to the inner surface of the deck panel;
Including,
The deck panel,
A side plate unit having a first upper rib and a first lower rib vertically bent in the direction of the pouring space at the top and bottom are continuously arranged, and the first upper rib and the first lower rib of the side plate units adjacent to each other overlap each other. Side plates are combined to form both sides of the pouring space; And
It has a second upper rib and a second lower rib that are vertically bent in the direction of the pouring space at the top and bottom, and one side is bent vertically, and the first lower rib of the side plate located on both sides of the pouring space A corner plate that is coupled so that the second upper ribs overlap each other, and that the second lower ribs that face each other are coupled to overlap each other to form a corner surface and a lower surface of the pouring space;
Including,
The deck panel,
A lower plate unit having a third coupling rib arranged and coupled between the corner plates according to the standard of the pouring space to be formed, and both ends vertically bent toward the inside of the pouring space;
It further includes,
The third coupling rib,
One side of the bent portion vertically bent in the direction inside the pouring space is bent in two stages in a'b' shape,
The first upper rib, the first lower rib, and the second upper rib and the second lower rib,
One side of the bent portion vertically bent toward the inside of the pouring space is bent in two stages in a'b' shape,
The first upper rib, the first lower rib, the second upper rib, the second lower rib, and the third coupling rib,
The side plate unit, the corner plate, and the lower plate unit are respectively corresponded to each other according to the arrangement shape, so that when assembled and combined, the assembly and connection is accurately performed by the two-stage bent shape, and the double welding is made on the overlapped surface at the joined two-stage bent part. Thus, the first upper rib, the first lower rib, the second upper rib, the second lower rib, and the third coupling rib, respectively, to strengthen the coupling force between the ribs that are mutually coupled to each other,
The side plate unit and the corner plate and the lower plate unit,
A reinforcing portion formed on the surfaces between the ribs formed at both ends of each, and preventing the deck panel from being deformed by the pressure of the concrete poured into the pouring space;
It further includes,
The reinforcement part,
An assembly-type beam deck plate made of a plurality of embossed shapes continuously formed at equal intervals along the length direction on each inner surface of the side plate unit, the corner plate, and the lower plate unit.
delete delete delete The method of claim 1,
In any one of the first upper rib and the first lower rib,
A first support part formed by bending one end to extend;
Including,
The first support portion supports one side of the stirrup, and the assembled beam deck plate so that the stirrup is welded to each other.
The method of claim 5,
The first support part,
An assembled beam deck plate that is vertically bent upward from one end of the first upper rib or the first lower rib.
The method of claim 1,
In any one or both of the second upper rib and the second lower rib,
A second support part formed by bending one end to extend;
Including,
The second support portion is an assembled beam deck plate that is welded to each other by supporting a side surface of the stirrup.
delete delete delete The method of claim 1,
The side plate unit,
A first side plate unit disposed on the top of the side plate; And
A second side plate unit continuously disposed below the first side plate unit;
Assembled beam deck plate comprising a.
The method of claim 11,
The first upper rib formed on the first side plate unit,
An assembled beam deck plate whose one end is vertically bent in an upper or lower direction to support the side surface of the stirrup on one side.

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