KR102180560B1 - Method for constructing composite beam using bar arrangement beam strip and fix plate - Google Patents

Abstract

The present invention relates to a method for constructing a composite beam and, more specifically, to a method for constructing a composite beam using a prefabricated beam strip and a fixed plate, which inserts the prefabricated beam strip by pulling and rotating an elastic fastener in a state of coupling the prefabricated beam strip into a galvanized steel plate by using the elastic fastener pre-fastened to both side surfaces and the bottom of the galvanized steel plate prefabricated in a rectangular box shape having an opened upper surface and fixes the prefabricated beam strip while the elastic fastener returns to an original position by elastic force when the elastic fastener is released after rotated in an opposite direction.

Description

Composite beam construction method using pre-assembled beam strip and fixed plate{METHOD FOR CONSTRUCTING COMPOSITE BEAM USING BAR ARRANGEMENT BEAM STRIP AND FIX PLATE}

The present invention relates to a method of constructing a composite beam, and in detail, a pre-assembled beam strip is formed of a zinc steel sheet by using elastic fasteners connected at equal intervals on both sides and bottom of a zinc steel sheet assembled in the form of a square box with an open top surface. The pre-assembled beam strip is inserted by pulling and rotating the elastic fastener while it is connected to the inside, and then, when the elastic fastener is rotated in the opposite direction and released, it returns to its original position by the elastic force and fixes the pre-assembled beam strip. It relates to a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate.

The currently used composite beam construction method can be roughly divided into a buried composite beam in which the steel beam is completely wrapped with concrete and an exposed composite beam that maximizes moment performance by constructing a composite slab on top of the steel beam.

In the case of buried composite beams, if the cover thickness specified in the norm is satisfied, even without a separate shear connector, the composite behaves completely, but there are not many applications in Korea because it is disadvantageous in constructability and economics.

The exposed composite beam is a method that maximizes the moment performance by constructing a concrete slab on the top of the steel beam. It has high load-bearing performance and rigidity, and can be used for relatively long spans while being lightweight. However, since the slab is installed on the top of the steel beam, the floor height increases, and there are problems such as fireproof coating, the compression flange on the top of the steel beam, and the local buckling of the web.

On the other hand, recently, the floor slab uses a deep deck plate or hollow precast concrete slab so that the floor slab can be constructed within the dance of the steel beam, and the lower flange width of the steel beam is expanded to support it. The slim floor construction method has been developed and used in various ways.

Explaining this in more detail, the joint structure of the non-destructive beam formwork and the deck plate that does not require fixing work published in Korean Patent Publication No. 10-2018-0045140 is a non-destructive beam formwork (10) installed on the outside of the beams. The deck plate base plate (11) is bent on the upper surface of the field, and the deck plate (20) with vertical deck fixing rods (23) is placed on both ends of the trigger girder (22) fixedly installed on the top of the bottom substrate (21). It is placed between the two non-destructive beam formwork 10 respectively installed in the deck plate 20, including a portion of both sides of the bottom substrate 21, and the deck vertical fixing rods 23 are each two non-destructive beam formwork ( 10) to be placed on the upper surface of the deck plate base plate 11, and then the deck vertical fixing rod 23 or the bottom substrate 21 of the deck plate 20 through welding as shown in FIG. ) Of the deck plate support plate (11), or by using screws 40 as shown in FIG. 2 to remove the bottom substrate (21) of the deck plate (20), the deck plate support plate of the beam formwork (10) It has a coupling structure that is detachably fixed to (11).

In addition, the strip 32 is inserted into the support protruding inside the beam formwork 10, and then all the joints are welded, and then the reinforcing bars 31 are combined to fix the strip 32.

However, when the strip and the support are welded, there is a problem in that the number of welding is large and the space for performing the welding operation is insufficient, thereby increasing the working time.

In order to solve this problem, a demolded beam deck is published in Korean Patent Publication No. 10-1959041.

As shown in Figs. 3 and 4, the demolding beam deck (A) is in the demoulding beam deck plate unit 200 forming a formwork, and the demoulding beam deck spacer 100 of the demolding beam deck plate unit 200. It includes a stirrup 240 to be assembled and reinforced, a reinforcing bar 250 for supporting the side plate, and a main reinforcing bar 260 connected to the stirrup 240.

The demolding beam deck plate 210 is composed of a demolding beam deck plate 200a for a bottom plate and a demolding beam deck plate 200b for a side plate (200b').

When the demolding beam deck plate 200a for the bottom plate and the demolding beam deck plate 200b for the side plate are assembled, the corner angle pipe 300 is placed on the lower edge and fastened.

Corner square pipe 300 serves to support the demolded beam deck (A) by supporting the feldspar.

When the corner angle pipe 300, the demolded beam deck plate 200a for the bottom plate, and the demolded beam deck plate 200b for the side plate (200b) (200b') are fastened and assembled with a long bolt and nut (not shown), the demolding for the top side plate The wooden stick 400 is put on the joint plate 213b' of the beam deck plate 200b'.

This wooden bar 400 is a material that the slab deck B will put on the demolded beam deck A.

After placing both ends of the slab deck (B) on the wooden bar 400, it is driven with a nail to prevent it from moving, and after the concrete pouring is completed, the nail is removed and the wooden bar 400 is also removed.

When the spacer 100 is fastened to the demolding beam deck plate 210 with only one piece (not shown) in this way, the spacer 100 may be loosened and loosened arbitrarily during transportation or on-site placement.

However, such a demoulding beam deck does not use pre-assembled strips because each U-shaped strip must be fastened to the spacer, and thus, there is a problem in that the working time is increased.

Korean Patent Publication No. 10-2018-0045140 Korean Patent Publication No. 10-1959041

The present invention is to solve the above problems, and a fixed plate smaller than the size of the zinc steel plate is installed inside the zinc steel plate assembled in the form of a square box with an open top surface, and the pre-assembled beam strip is fixed inside the fixed plate. Its purpose is to provide a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate in which a composite beam is manufactured by placing concrete inside the plate and then pouring concrete.

Features of the present invention for achieving the above object,

A zinc steel plate installation process of fixing the zinc steel plate assembled in the shape of a square box with an open top surface to the floor slab structure; A fixing plate installation process of fixing a fixing plate bent in a square box shape with an open upper surface of a metal material to the inside of the zinc steel plate; A pre-assembled beam strip inserting step of inserting a pre-assembled beam strip in which a plurality of U-shaped banding reinforcing bars are fixed with a wire into the fixing plate; A connecting reinforcing bar fixing process of inserting and fixing a connecting reinforcing bar into the pre-assembled beam strip in a longitudinal direction; And a composite beam forming process in which concrete is poured into the zinc steel sheet and then cured to form a composite beam.

Here, the zinc steel sheet has a structure in which the side and bottom connection portions are each bent in a V-shape to overlap each other, and the upper ends of both sides are horizontally bent outward to provide a wing.

Here, also, the zinc steel sheet has a rib formed on the inner surface to prevent deformation in the circumferential direction.

Here, in the zinc steel sheet, coupling protrusions for coupling the fixing plate are formed to protrude at equal intervals on the upper surface of the wing.

Here, the fixing plate is provided with a plurality of through-holes so as to be integrated during concrete pouring, and the fixing blades horizontally protrude on upper ends of both sides so as to be coupled to the coupling protrusions of the zinc steel plate.

Here, the fixing plate includes first irregularities protruding outwardly to reinforce strength while being spaced apart from the zinc steel plate on both sides and bottom surfaces; It has a second unevenness protruding inward to fix the pre-assembled beam strip on both side surfaces and bottom surfaces at a position without interference with the first irregularities.

According to the method of constructing a composite beam using a pre-assembled beam strip and a fixing plate configured as described above, a fixing plate smaller than the size of the zinc steel sheet is installed and fixed inside the zinc steel sheet assembled in the form of a square box with an open top surface. The working time can be relatively shortened by placing the pre-assembled beam strip inside the plate and then pouring concrete to make the composite beam.

In addition, according to the present invention, it is possible to improve the seismic performance by integrating a fixed plate made of a steel plate with a composite beam together with a pre-assembled beam strip.

1 and 2 are views showing a coupling structure of a non-decomposable beam formwork and a deck plate that do not require a conventional fixing operation.
3 and 4 are views showing a conventional demolding beam deck.
5 is a cross-sectional view showing the configuration of a zinc steel plate, a fixed plate, and a pre-assembled beam strip applied to a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate according to the present invention.
6 is a partially exploded perspective view of FIG. 5.
7 is a process diagram illustrating a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate according to the present invention.
8A to 8E are explanatory diagrams for explaining each step of a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate according to the present invention.

Hereinafter, configurations of a zinc steel plate, a fixed plate, and a pre-assembled beam strip according to a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of users or operators. Therefore, the definition should be made based on the contents throughout this specification.

5 is a cross-sectional view showing the configuration of a zinc steel plate, a fixed plate, and a pre-assembled beam strip applied to a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate according to the present invention, and FIG. 6 is a partial exploded perspective view of FIG.

Referring to FIG. 6, according to the method of constructing a composite beam using a pre-assembled beam strip and a fixed plate according to the present invention, it is composed of a zinc steel plate 110, a fixed plate 120, and a pre-assembled beam strip 130.

First, the zinc steel sheet 110 is formed by bending each of three plates having a thickness of 1 mm, and the side and bottom connecting portions are each bent in a V-shape to have an overlapping joint structure 111.

At this time, the zinc steel plate 110 is provided with a wing 113 by bending the upper ends of both sides horizontally outward, and a rib 115 is formed on the inner surface to prevent deformation in the circumferential direction, and a fixing plate ( A coupling protrusion 117 for coupling of 120) is formed to protrude at equal intervals on the upper surface of the wing 113.

Further, the fixing plate 120 is manufactured in the shape of a square box with an open top surface by bending the steel plate to be inserted into the zinc steel plate 110, and a plurality of through holes 121 are provided to be integrated when concrete is placed, and zinc Fixing blades 123 horizontally protrude at the top of both sides so as to be coupled to the coupling protrusion 117 of the steel plate 110. At this time, a coupling hole 124 into which the coupling protrusion 117 is inserted is formed in the fixing blade 123, and the coupling hole 124 is formed longer than the width of the coupling protrusion 117 so that the fixing plate 120 Make sure you can adjust the spacing left and right.

In addition, the fixing plate 120 is spaced apart from the zinc steel plate 110 on both sides and the bottom surface, and the first irregularities 125 protruding outward to reinforce the strength, and both sides and bottom surfaces at a position without interference with the first irregularities 125 It includes a second uneven 127 protruding inward to fix the pre-assembled beam strip 130. At this time, a part of the first irregularities 125 may be partially cut to adjust the gap with the zinc steel sheet 110 to form the gap adjusting plate 129.

Subsequently, the pre-assembled beam strip 130 is manufactured by fixing a plurality of U-shaped bending reinforcing bars 131 with wires 133 as being previously manufactured in the factory and moved to the installation position.

Hereinafter, a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate according to the present invention will be described in detail with reference to the accompanying drawings.

7 is a process chart for explaining a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate according to the present invention, and FIGS. 8A to 8E are each process of a method of constructing a composite beam using a pre-assembled beam strip and a fixed plate according to the present invention. It is an explanatory diagram for explaining.

7 to 8E, the method of constructing a composite beam using a pre-assembled beam strip and a fixing plate according to the present invention includes a zinc steel plate installation process (S10), a fixing plate installation process (S20), and a pre-assembled beam strip insertion process ( S30), and the connection reinforcement fixing process (S40) and the pouring process (S50).

《Zinc steel plate installation process-S10》

And, as shown in Figure 8a, respectively, the zinc steel sheet 110, the fixed plate 120 and the pre-assembled beam strip 130, which were previously manufactured in the factory, are transferred to the installation site, and the blades of the zinc steel sheet 110 Fix it to the floor slab structure (reinforcement, deck plate, etc.)(S) using (113).

《Fixing plate installation process-S20》

When the installation of the zinc steel plate 110 is completed, the coupling protrusion 117 of the zinc steel plate 110 is inserted into the coupling hole 124 formed in the fixing blade 123 of the fixing plate 120 as shown in FIG. 7B. The fixing plate 120 is inserted into the zinc steel sheet 110 by inserting and combining it. At this time, it is preferable that the first irregularities 125 of the fixing plate 120 contact the zinc steel sheet 110, but if an error occurs, the fixing plate 120 can be adjusted left and right in the zinc steel sheet 110, and the gap adjustment plate You can also adjust the position through (129).

《Pre-assembled beam strip fixing process-S30》

Subsequently, as shown in FIG. 7C, the pre-assembled beam strip 130 is inserted into the fixing plate 120. At this time, the pre-assembled beam strip 130 is spaced apart from the fixing plate 120 by the second irregularities 127 of the fixing plate 120.

《Connection Rebar Fixing Process-S40》

When the fixing of the pre-assembled beam strip 130 is completed, a connection reinforcing bar R1 is inserted into the pre-assembled beam strip 130 in the longitudinal direction to be fixed as shown in FIG. 7D. In this case, the pre-assembled reinforcing bar R2 may be further coupled to the upper part of the pre-assembled beam strip 130.

<<Pouring process-S50>>

Then, as shown in FIG. 7e, after pouring concrete into the zinc steel plate 110 and curing it, the zinc steel plate 110, the fixing plate 120, the pre-assembled beam strip 130, and the connecting reinforcing bar (R) are Form an integrated composite beam.

The present invention may be variously modified and may take various forms, and in the detailed description of the present invention, only specific embodiments thereof have been described. However, it should be understood that the present invention is not limited to a particular form mentioned in the detailed description, but rather, it is understood to include all modifications, equivalents, and substitutes within the spirit and scope of the present invention as defined by the appended claims. Should be.

110: zinc steel plate 120: fixed plate
121: through hole 123: fixed wing
125: 1st irregularities 127: 2nd irregularities
130: pre-assembled beam strip R1: connection reinforcement
S: floor slab structure

Claims (6)

A zinc steel plate installation process of fixing the zinc steel plate assembled in the shape of a square box with an open top surface to the floor slab structure;
A fixing plate installation process of fixing a fixing plate bent in a square box shape with an open upper surface of a metal material to the inside of the zinc steel plate;
A pre-assembled beam strip inserting step of inserting a pre-assembled beam strip in which a plurality of U-shaped banding reinforcing bars are fixed with a wire into the fixing plate;
A connecting reinforcing bar fixing process of inserting and fixing a connecting reinforcing bar into the pre-assembled beam strip in a longitudinal direction; And
Including a composite beam forming process of forming a composite beam by pouring concrete into the zinc steel sheet and curing it,
The fixing plate,
First irregularities protruding outwardly to reinforce strength while being spaced apart from the zinc steel plate on both sides and bottom surfaces;
A method of constructing a composite beam using a pre-assembled beam strip and a fixed plate, characterized in that it has second unevenness protruding inward to fix the pre-assembled beam strip on both sides and bottom at a position without interference with the first unevenness. The method of claim 1,
The zinc steel sheet,
A composite beam construction method using a pre-assembled beam strip and a fixed plate, characterized in that the side and bottom connection parts are each bent in a V-shape to have an overlapping joint structure, and the upper ends of both sides are horizontally bent outward to provide wings. . The method of claim 1,
The zinc steel sheet,
Composite beam construction method using a pre-assembled beam strip and a fixed plate, characterized in that ribs are formed on the inner side to prevent deformation in the circumferential direction. The method of claim 2,
The zinc steel sheet,
Composite beam construction method using a pre-assembled beam strip and a fixed plate, characterized in that the coupling protrusions for coupling the fixing plate are formed to protrude at equal intervals on the upper surface of the wing. The method of claim 4,
The fixing plate,
A composite beam construction method using a pre-assembled beam strip and a fixed plate, characterized in that a plurality of through holes are provided so as to be integrated when concrete is placed, and the fixing blades protrude horizontally at the top of both sides so as to be coupled to the coupling protrusion of the zinc steel plate. delete

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