KR102080594B1 - Couple girder - Google Patents

Abstract

The present invention relates to a couple girder of a composite girder composited with steel and concrete, the couple girder is left and right openings spaced apart from each other to form an intermediate strip, and the image connecting the upper and lower portions of the left and right openings , Consisting of a lower connecting rod and a bodeck member installed in the intermediate strip portion, each of the left and right openings in a tubular shape consisting of the upper, lower and both sides so that the hollow portion is formed by continuously bending the steel sheet One side is made of a closed surface, and the other side is formed of the upper and lower ribs each bent in the upper and lower sides of the upper and lower portions are formed as an open surface formed in the longitudinally continuous opening therebetween. A continuous stepped portion protruding in the horizontal direction is provided below the open surface, and a plurality of diaphragms are spaced apart from each other in the hollow portion. It is characterized by being installed continuously.

Description

Couple Girder {COUPLE GIRDER}

The present invention relates to a composite girder made of a combination of steel and concrete, and more particularly to a composite girder having a shape that can achieve a slim floor and can safely transmit the load of the bottom plate to the pillar member.

In constructing the building, the slab deck plate is installed between the girders and the girders in the usual way to shorten the air while reducing the amount of construction work, and then the slab concrete is poured together with the girders.

At this time, if the construction load acting on the girder and the slab deck plate is supported by magnetic force, it is possible to work on other processes in the lower part, and in the reverse drilling method, it is possible to reduce the air shortening by allowing the subsequent process such as the lower gulting to be performed quickly. Make it possible to plan.

On the other hand, efforts are being made to reduce the height of floors while reducing the thickness of horizontal structures such as beams and slabs in order to maximize the available space and total floor area. In addition, each major member is manufactured at the factory to minimize construction work, such as completing construction by assembling or placing concrete.

1 is a wide composite beam combining a factory-prefabricated prestressed concrete and steel disclosed in Patent No. 1650431, issued August 17, 2016 as one of the examples described above.

The wide composite beam 1 is a precast concrete plate 10 having a width wider than the width of the column 2 and having a prestress strand into which prestress is introduced, and a thin steel plate integrally installed on both sides of the precast concrete plate. It is provided with a steel beam 20 made of a steel beam, the steel beam 20 is made of a thin steel sheet is formed by bending or welding a thin steel sheet in a T-shape or [shape or Z-shape, the precast concrete It is characterized in that it is installed in the vicinity of the width direction both ends of the plate 10.

When the wide composite beam 1 is manufactured at the factory and then transported to the site and installed on the pillar 2 through a bracket or the like, and the lightweight body 40 is installed on the upper surface of the precast concrete plate 10, the slab In addition, the concrete is poured into the cast-in-place concrete part 30 formed by the beams 20 on both sides to complete the beam structure.

Such a wide composite beam of the prior art can shorten the span length by increasing the width of the beam, but the prestress must be introduced to increase the independence stiffness, which entails complicated tension work, and the substructure of the composite beam is made of concrete plates. As it is composed of, there is a limitation in extending the width of the composite beam and there is a problem in that it is not possible to pursue a variety of structural forms. In addition, the wide composite beam of the prior art has another problem that the coupling site between the precast concrete plate and the cast-in-place concrete is different when the casting time is weak, there is a completely different process, such as the joining work of the steel sheet and concrete pouring work in the manufacturing step It is mixed, which increases the cost of production.

KR 10-1650431 B1

The present invention is to solve the above problems of the prior art, to form a wide girder, easy installation work of the reinforcement means and to improve the independence while promoting light weight using a deck plate to implement a slim floor To provide a couple girder that can be.

In addition, the present invention is to provide a couple girders that can be applied to a variety of structural forms, can be applied to different installation positions and to optimize the girder cross section.

In another aspect, the present invention is to provide a couple girder of the structure that can facilitate the connection with the pillar while reducing the number of installation of the floor frame.

According to the most preferred embodiment of the present invention for solving the above problems, the left and right openings arranged to be spaced apart from each other to form an intermediate strip, and the upper and lower connecting rods connecting the upper and lower portions of the left and right openings, Being made of a bodeck member installed in the intermediate strip portion, each of the left and right opening pipe is made of a tubular shape consisting of the upper, lower and both sides so that the hollow portion is formed by continuously bending the steel sheet, one side Is made of a closed surface, the other side is formed of the upper and lower ribs each bent in the upper and lower surfaces of the upper surface and the lower portion is formed with an open surface in which a continuous opening in the longitudinal direction is formed therebetween, The lower side is provided with a continuous stepped portion protruding in the horizontal direction, the plurality of diaphragms are continuously installed while being spaced apart from each other in the hollow portion The wide-type coupling is provided for the girder, characterized in that the building.

At this time, the left and the right overview may be arranged so that each open surface facing each other according to the structure type, each closed surface 130 may be arranged to face each other, in particular for the outermost part of the slab May be arranged such that the open faces of the face the same direction.

In addition, the deck deck member may be mounted on the upper surface of the continuous step portion according to the above-described structural type, may be mounted on the upper surface of the lower connecting rod, and the configuration of the continuous step portion from the top of the lower side according to the size of the upper load or the purpose of the building. To be horizontally bent to form, or to be formed to be horizontally bent from the upper end of the lower side in the state that the width of the lower surface of each side canal is formed larger than the upper surface width, or to extend from the lower surface of the side canal to protrude outward. Can be.

In addition, a lattice reinforcement for connecting the upper and lower pieces may be installed in the opening of the open surface, and a plurality of through holes may be formed in the upper portion of the lower connection table in which the dowel bar is installed to allow the dowel bar to be penetrated.

The present invention is not only to make the girder wider to reduce the height of the girder by slimming the girder, but also to increase the applicability of the deep-dive deep deck plate method using a deck plate having a limited manufacturing length, and the intermediate visible steel By reducing the span length of the beam, it reduces the overall cross section of the steel beam and improves the economics.

In addition, the present invention can vary the arrangement and cross-sectional size of a pair of side plate plate bent steel plate not only improves the applicability to various structural forms, but also can be effectively reinforced to the side plate plate girders It enables the optimization of the overall cross section, weight reduction and independence.

In addition, the present invention not only simplifies the configuration of the girder-column joint by arranging the pillar member in the middle strip portion between the pair of side plates, but also installs the floor frame with one coupler for one span area. The number of members is reduced to have the effect of saving air.

1 is a cross-sectional view of a wide composite beam according to the prior art.
2 is a perspective view of a couple girders according to the first embodiment of the present invention.
3 is a longitudinal sectional view of the couple girders according to the first embodiment.
4 is a perspective view of a side opening constituting the couple girders according to the first embodiment.
5 is a cross-sectional view of each embodiment of the continuous step portion provided in the side opening pipe in the first embodiment.
6 is a perspective view of a couple girders according to a second embodiment of the present invention.
7 is a longitudinal sectional view of the couple girders according to the second embodiment.
8 is a cross-sectional view of each embodiment of the continuous step portion provided in the side opening pipe in the second embodiment.
9 is a longitudinal sectional view of the couple girders according to the third embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention will be described in detail. However, in describing the present invention, when the technical concept of the present invention is obscured or obscured by describing the known configuration in detail, the description of the known configuration will be omitted.

2 is a view showing a couple girder according to an embodiment of the present invention as a whole, Figure 3 is a longitudinal section of the couple girder, Figure 4 is a perspective view of the shape of the side opening (100A, 100B) constituting the couple girder It is shown.

The couple girder of the present invention is to reduce the width of the slab and to make the girder slim by making the girder of the building wide, and to have a light weight structure to increase the independence and improve the workability. As shown in 2 and 3, a pair of side opening pipes 100A and 100B having the same shape are spaced apart from each other and have an intermediate strip portion 200 formed therebetween.

That is, while the left opening 100A and the right opening 100B are spaced apart from each other so that the intermediate strip portion 200 in which the deck deck member 220 is installed is formed, the wide girder of the efficient structure is constructed by the synthesis of concrete. Each upper portion of the left and right openings (100A, 100B) is connected by an upper connection rod 211, and each lower portion of the left and right openings (100A, 100B) is connected by a lower connection rod (212). Although not shown, a pillar may be disposed in the intermediate strip part 200.

According to the present invention having the above-described structure, each side opening 100A, 100B of the same shape constituting the girder is arranged in a symmetrical or asymmetrical structure of the couple form, each side opening 100A, 100B is shown in FIG. As described above, one steel plate is continuously formed in a tubular shape consisting of an upper surface 110 and a lower surface 120 and both sides such that the hollow portion 150 is formed therein, and one side of the two sides is a closed surface ( 130 is formed, the other side is made of an open surface 140, the opening 143 is formed.

The opening 143 is formed to be continuous in the longitudinal direction between the rib-shaped upper piece 141 bent downward from the upper surface 110 and the rib-shaped lower piece 142 bent upward from the lower surface 120. The vertical widths of the upper and lower pieces 141 and 142 are set according to the structural plan.

The opening 143 of the open surface 140 as described above not only enables the tight filling of the concrete to the hollow portion 150 inside the respective side openings 100A and 100B when the concrete is synthesized, but more importantly, the work. The function of the passage facilitates the installation of reinforcing means such as the diaphragm 151 described later.

However, when the upper load acts, the open surface 140 may have a local buckling in the upper piece 141 and the lower piece 142 due to the opening 143, and the upper piece 141 and the lower piece (in the opening 143). By installing a lattice reinforcing material 152 connecting the 142 to increase the self-supporting rigidity can be prevented the deformation of the side opening pipe (100A, 100B) due to the work load. The lattice reinforcement 152 is to increase the flexural rigidity of the side opening pipe (100A, 100B) itself to exhibit the effect of minimizing the upper and lower width of the couple girder.

A plurality of flow holes 111 may be further formed on the upper surface 110 of each side opening pipe 100A and 100B. The flow hole 111 functions as an air hole for the concrete filled in the hollow portion 150, and also allows the concrete to flow between the hollow portion 150 and the slab placed on the couple girder, thereby allowing the slab to couple with the slab. Increase the synthetic force between the girders.

The lower side 142 of the open surface 140 is provided with a continuous step portion 161 protruding in the horizontal direction.

The continuous stepped portion 161 functions as a mounting means for the deck deck member 220 or the slab deck plate installed in the intermediate strip portion 200, thereby reducing the girder weight and the height of the floor. To be able. The continuous step portion 161 may have various shapes, which will be described later.

A plurality of diaphragms 151 are continuously installed in the hollow part 150 formed inside the side opening pipes 100A and 100B while being spaced apart from each other.

The diaphragm 151 is installed perpendicular to the longitudinal direction of the side opening pipe (100A, 100B) to reinforce the shear stiffness of the side opening pipe (100A, 100B), while joining the steel beam 300 orthogonal to the couple girder In order to disperse the load by the steel beam 300 to the front end surface of the side opening pipe (100A, 100B) through the diaphragm 151 to prevent the local buckling to occur in the closed surface (130).

In addition, the mounting position of the upper and lower connecting rods 211 and 212 connecting the left and right openings 100A and 100B corresponds to the diaphragm 151 so that the stress caused by the load acting on the couple girder is mutually applied to the entire cross section. Dispersion can ensure structural stability.

The cross-sectional shape of the upper and lower connecting rods 211 and 212 need not be particularly limited, but as described below, the lower plate 230 is installed at only the center portion and closes the lower portion of the intermediate strip portion 200 at both ends. It is preferable to form a cross section so as to counteract the stress applied to the couple girders. In this case, when a gap is formed between the lower surface 120 and the lower plate 230 of the bodeck member 220, the lower connection table 212 serves as an end plate for the gap portion and is placed on the lower plate 230. Concrete should not be leaked to the outside.

Coupled girder of the present invention configured as described above has an optimal structure while varying the arrangement of the left and right openings (100A, 100B) according to the structure of the slab or the installation position thereof.

As shown in FIG. 2, the couple girders according to the first embodiment of the present invention are disposed such that each open surface 140 of the left side opening 100A and the right side opening 100B face each other. Therefore, the continuous step portion 161 provided on the open surface 140 is located inside the couple girders.

The couple girder of the first embodiment can be advantageously applied to reduce the height of the floor beam by reducing the span of the intermediate beam to reduce the overall steel beam 300 cross section.

That is, each side opening pipe (100A, 100B) forming the couple girder of the present invention is configured by bending the steel plate, the diaphragm 151 installed therein is a bending moment generated at the junction with the steel beam (300) To sufficiently resist shear stress. This minimizes the thickness of the steel sheet for the production of the side opening pipe (100A, 100B), while reducing the amount of steel used, the coupler girder has a structurally secure joint structure.

Couple girder and the steel beam 300 may be directly bonded by welding. In this case, it is preferable that the web of the steel beam 300 matches the position of the diaphragm 151 provided inside the side opening pipes 100A and 100B.

On the other hand, the steel beam 300 may be bonded through the bonding plate 170 as shown in FIG. That is, the joining plate 170 for joining the steel beam 300 to the couple girder may be installed on at least one of the closing surfaces 130 of the left and right openings 100A and 100B, in which case the joining plate ( 170 is preferably installed where the diaphragm 151 is located.

On the other hand, the continuous stepped portion 161 positioned on the inner side of the couple girder can be mounted on the upper surface of the deck member 220 to improve the workability.

The lower connecting table 212 connecting the lower left and right pipes can have a high structural stability with respect to the installation structure of the bow deck member 220 by matching the upper surface with the lower surface 120 of the bow deck member 220. have.

As such, the load acting on the deck member 220 is transmitted to the side opening pipes 100A and 100B on both sides through the continuous step portion 161 and the lower connecting rod 212, and the size of the load or the use of the building. Accordingly, the configuration of the continuous step portion 161 may be different.

5 illustrates each embodiment of the continuous step portion 161 that can be implemented in the first embodiment of the couple girders.

For example, when a general load is applied, as shown in (a) of FIG. 5, a horizontal step portion 161 may be formed by horizontally bending from the upper end of the lower piece 142 to the outside, but in the case of a heavy load, the side opening tube The continuous step portions 161 may be formed to be supported together by a portion of the concrete filled inside the 100A and 100B. This latter structure is formed by forming the width of the lower surface 120 of the side opening pipe (100A, 100B) larger than the width of the upper surface 110, while the continuous step portion 161 is horizontally bent inward from the upper end of the lower piece 142 The stepped portion 161 is implemented by placing on the concrete upper surface inside the side opening pipe (100A, 100B).

In addition, for a building requiring a low floor such as a parking lot, as shown in FIG. 5C, the continuous step portion 161 is formed to extend from the lower surface 120 of the side opening pipes 100A and 100B to protrude outward. And, by mounting the bodek member 220 to the continuous step portion 161 can minimize the dance of the couple girder. At this time, the lattice reinforcing material 152 installed in the opening 143 may be provided so that the lower end reaches the continuous stepped portion 161 so as to reinforce the cross section of the open surface 140.

The deck deck member 220 installed in the intermediate strip portion 200 of the couple girder according to the first embodiment is preferably a deep deck plate of irregularities. In addition, the installation of the bodek member 220 is installed only in the central portion except for both ends with respect to the entire length of the side opening pipe (100A, 100B), the left, right opening 100A at each end where the bodek member 220 is not installed Installing the lower plate 230 to close the middle strip portion 200 while connecting the lower surface 120 of each, 100B, to reduce the volume of concrete in the middle of the couple girder, which is the lower tension governing region, At the end of the couple girder, which is an area, it is preferable to effectively cope with the stress distribution acting on the couple girder by filling the entire girder with concrete.

Of course, even if a flat deck plate is used as the deck deck member 220 without using the deep deck plate in the first embodiment, by moving the continuous step portion 161 through which the flat deck plate is mounted to have the above-described working effect. You may. However, when the continuous step portion 161 is moved upward to mount the flat deck plate, the width of the opening 143 provided in the open surface 140 of the side opening pipe (100A, 100B) is narrowed, the side opening pipe (100A, 100B) not only the filling of the concrete to the hollow part 150 inside may be difficult, but also the installation work of the diaphragm 151 on the hollow part 150 may be difficult.

6 shows the couple girders according to the second embodiment of the present invention as a whole, and FIG. 7 shows a longitudinal section of the couple girders according to the second embodiment.

As shown in FIG. 6, the couple girders of the second embodiment are arranged such that the respective closed surfaces 130 of the left side opening 100A and the right side opening 100B face each other. Therefore, the continuous stepped portion 161 provided on the open surface 140 is located outside the couple girders.

The couple girder of the second embodiment can be particularly advantageous when applying the moving barb deep deck plate method by reducing the remaining span length of the slab.

As described above, in the couple girder of the second embodiment, the intermediate strip portion 200 is formed between the closing surfaces 130 of the side opening pipes 100A and 100B, and the bar deck members 220 are formed on each side. It has a structure that is mounted on the upper surface of the lower connecting table 212 connecting the opening (100A, 100B).

In the second embodiment, even if the continuous step portion 161 is not moved upward, only the lower connecting rod 212 increases the dance position of the bar deck member 220 by moving the bar upward. Excessive concrete casting on the slab can be avoided without using it.

In addition, when the closing surface 130 of the side opening pipe (100A, 100B) toward the middle strip portion 200, as in the second embodiment, the upper portion of the lower connecting portion 212 of the closing surface 130 is installed There is formed a plurality of through-holes 131, to insert the dowel bar or to allow concrete to flow between the intermediate strip portion 200 and the hollow portion 150 to improve the synthesis action on the side opening pipe (100A, 100B) It can have an effect.

The preferred installation range of the bow deck member 220 is not different from that of the first embodiment. That is, the bodek member 220 is installed only in the central portion except for both ends with respect to the entire length of the side opening pipe (100A, 100B), left and right openings (100A, 100B) at each end where the bodek member 220 is not installed By installing the lower plate 230 for closing the middle strip portion 200 while connecting the lower surface 120 of each can be implemented an efficient girder coupler.

The deck plate for the slab is mounted on the upper surface of the continuous step portion 161 located on the outer side of the couple girder. The slab deck plate may be used deep deck plate dances, it is also possible to apply a PC floor plate reinforced with steel wire to correspond to the long span.

The embodiment of the continuous step portion 161 is not different from the first embodiment, as shown in FIG. Therefore, the description thereof is replaced with the description related to FIG. 5.

9 illustrates a cross-sectional shape of the couple girders according to the third embodiment of the present invention.

If the couple girders of the first and second embodiments described above are applied to the middle span portion of the building plane, the couple girders of the third embodiment are applicable to the case where the couple girders of the third embodiment are located at the outermost span that is the edge of the building plane.

The couple girders of this third embodiment have a different arrangement structure from those of the first and second embodiments in that the left and right overviews 100A and 100B are arranged to face in one direction side by side without being disposed symmetrically with each other.

That is, in the coupler girder according to the third embodiment, as shown in FIG. 9, the left side opening 100A and the right side opening 100B are disposed so that each open surface 140 faces the same direction.

Therefore, one side of the couple girder in the outward direction of the closed surface 130 and the other side of the open surface 140 is located. The closed surface 130 is able to function as the finishing surface of the horizontal structure including the slab and the beam is improved construction.

At this time, by extending the vertical dance of the closed surface 130, which functions as the finishing surface of the horizontal structure to the upper surface of the slab can reduce the construction process and reduce the user material. That is, the outer closing surface 130 of the couple girder extending to the upper surface of the slab eliminates the need for installation of formwork for the outer surface of the slab, and makes it possible to clean the finishing surface of the horizontal structure.

The configuration and the like of the remaining continuous step portions 161 are not different from those in the first and second embodiments, and thus the description in the first and second embodiments is replaced with the description.

The present invention has been described in detail above with reference to specific embodiments, but the above embodiments are merely examples for easy understanding of the present invention, and those skilled in the art have the scope of the technical idea of the present invention. It will be apparent that various modifications can be made within the scope of the invention. For example, in the description of the first and second embodiments of the present invention, only the deep deck plate and the flat deck plate are illustrated with respect to the deck deck member 220. In addition, various deck plates in which the cross-sectional shape is changed to increase the bending rigidity Can be used. Therefore, such modifications will be described within the scope of the present invention as described in the claims.

100A; Left overview 100B; Right side
110; Top 111; Flow ball
120; If 130; Closed face
131; Through Hole 140: Open Side
141; Upper part 142; Sequel
143; Opening 150; Hollow part
151; Diaphragm 152; Lattice Reinforcement
161; Continuous step portion 170; Bonding Plate
200; Intermediate strip portion 211; Phase connection
212; Lower connecting rod 220; Bodeck member
230; Lower plate 300; Steel beam

Claims (17)

Left and right openings (100A, 100B) and spaced apart from each other so that the intermediate strip 200 is formed,
Upper and lower connecting rods 211 and 212 connecting the upper and lower portions of the left and right openings 100A and 100B,
As consisting of the bodeck member 220 is installed on the intermediate strip 200,
Each of the left and right openings (100A, 100B) is made of a tubular shape consisting of the upper and lower surfaces (110,120) and both sides so that the hollow portion 150 is formed by continuously bending the steel sheet, one side is closed Surface 130 is formed, the other side is formed in the longitudinal direction between the upper and lower ribs upper and lower portions 141 and 142 formed in each of the upper and lower portions 110 and 120, respectively 143 is formed of an open surface 140,
The lower side 142 of the open surface 140 is provided with a continuous step portion 161 protruding in the horizontal direction,
The plurality of diaphragms 151 are continuously installed in the hollow part 150 while being spaced apart from each other.
The upper and lower connecting rods 211 and 212 connecting the left and right openings 100A and 100B are installed to correspond to the diaphragm 151 installed in the hollow part 150 of each side opening 100A and 100B. Wide Couple Girder for Buildings. The method of claim 1,
The wide opening girder for buildings, characterized in that the left side opening (100A) and the right side opening (100B) is arranged so that each of the open surface 140 facing each other. The method of claim 1,
The wide opening girder for buildings, characterized in that the left side opening (100A) and the right side opening (100B) is disposed so that each closed surface 130 is facing each other. The method of claim 1,
The wide opening girder for buildings, characterized in that the left side opening (100A) and the right side opening (100B) is arranged so that each open surface 140 is directed in the same direction. The method of claim 2,
The wide deck girder for buildings, characterized in that the bodek member 220 is mounted on the upper surface of the continuous stepped portion (161). The method of claim 3,
The wide deck coupler for buildings, characterized in that the bodek member 220 is mounted on the upper surface of the lower connecting table (212). The method according to claim 5 or 6,
The continuous step portion 161 is a wide couple girder for buildings, characterized in that formed by horizontally bent outward from the upper end of the lower piece (142). The method according to claim 5 or 6,
The width of the lower surface 120 of each side opening 100A, 100B is greater than the width of the upper surface 110,
The continuous step portion 161 is a wide couple girder for buildings, characterized in that the horizontal bend is formed inward from the upper end of the lower piece (142). The method according to claim 5 or 6,
The continuous step portion 161 is a wide couple girder for buildings, characterized in that formed to extend from the lower surface 120 of the side opening pipe (100A, 100B) to protrude outward. The method of claim 5,
The deck member 220 is a wide couple girder for buildings, characterized in that the deep deck plate irregularities. The method of claim 6,
The wide deck coupler for buildings, characterized in that the deck member 220 is a flat deck plate. The method of claim 2,
Bonding plate 170 for joining the steel beam 300 is installed on the closed surface 130 of at least one side opening 100A, 100B of the left, right opening 100A, 100B, the joining plate ( 170 is a wide couple girder for buildings, characterized in that the diaphragm (151) is installed where. delete The method of claim 1,
The wide girder for buildings, characterized in that the opening 143 is provided with a lattice reinforcement 152 connecting the upper piece 141 and the lower piece 142. The method of claim 1
The wide coupler girder for buildings, characterized in that a plurality of flow holes 111 are formed on the upper surface 110 of each side opening (100A, 100B). The method of claim 1,
The bodek member 220 is installed only in the center portion except for both ends with respect to the entire length of the side opening pipe (100A, 100B), the left and right openings (100A, 100B) at each end that is not installed The wide plate girder for buildings, characterized in that the lower plate 230 is installed to close the lower portion of the intermediate strip 200 while connecting the lower surface (120) of each. The method of claim 3,
The wide couple girder for buildings, characterized in that a plurality of through-holes (131) is formed on the upper portion of the lower connection table 212 of the closed surface 130 is installed.

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