KR100227463B1 - A complex girder for a building - Google Patents

Abstract

The present invention, while utilizing the advantages of reinforced concrete and steel frame at the same time to easily construct the horizontal structure of the long span at a low cost, to allow the load transfer through the connecting steel to be gradually made to the composite composite beam for building without fear of local damage As a technical feature of the present invention; It is located in the middle portion and has a predetermined length of the steel-shaped steel section 110, starting from the inner side by the fixing interval (m) at both ends 121 of the steel-shaped steel section 110 and extends to the outside and the steel-shaped steel section Consists of the concrete end portion 120 is formed as a reinforced concrete to have a cross-sectional shape surrounding the 110, and the connecting hardware 130 is embedded in the concrete end portion to extend the outer fixing length (L ₁ ) to the outside. The upper stud bolts 111 are welded to each upper part of the steel-shaped steel part 110 at required intervals, and the inside of the concrete end part 120 has a predetermined shape in such a manner as to surround the upper and lower ends of the steel-shaped steel part 110. The ribs 122 arranged at intervals, and the auxiliary roots 133 disposed at predetermined intervals so as to extend in the longitudinal direction inside the ribs 122 are embedded, the ribs 122 are the upper end of the concrete end To the top of 120 In protruding; Lower stud bolts 112 are welded to the lower portion of the steel-shaped steel portion 110 in the portion embedded in the concrete end portion 120 at the required intervals, and the connection hardware 130 is made of the concrete root portion 133. Starting from the central end of the 120, penetrating both ends of the end has a measurement resistance (L ₂ ) as much as the entire length of the concrete end (120).

Description

Composite beam for building

1 is a view of the composite beam for the present invention building,

Fig. 1 (a) is a longitudinal cross-sectional view on the front face.

Fig. 1 (b) is a longitudinal cross-sectional view taken along the line A-A of Fig. 1 (a).

Figure 1 (c) is a perspective view taken from one side.

2 is a view showing an example in which the small beam of the steel frame is bonded to the composite beam of the present invention,

Fig. 2 (a) is a perspective view of a state before joining.

Fig. 2 (b) is a plan sectional view of the bonded state.

3 (a), 3 (b), 3 (c), and 3 (d) show step by step working steps for constructing a horizontal structure as a composite beam of the building of the present invention.

4 is a plan view illustrating a horizontal structure constructed as a composite beam for a building of the present invention.

* Explanation of symbols for main parts of the drawings

10: small beam 20: slab mounting plate

30: slab reinforcement 40: slab

100: composite beam 110: steel section

111: upper stud bolt 112: lower stud bolt

113: connecting iron plate 113a: connecting hole

120: concrete end 121: both ends

122: frame 130: connecting steel

133: the main pillar 200: concrete pillar

244: approximation 255: columnar

ℓ ₁ : Outer settling length ℓ ₂ : Measured length

m: settling interval

[Industrial use]

The present invention relates to a composite composite beam for building so that while using the advantages of reinforced concrete and steel frame at the same time easy to install the horizontal structure at low cost, the load is gradually transferred.

[Prior art]

Japanese Laid-Open Utility Model No. 7-6338 has a PC beam member having a center portion of a steel beam beam member and both ends of a reinforced concrete beam member, and a fixing plate is provided at an end of the steel beam beam member embedded in the reinforced concrete beam member. In the fixing plate, the connecting rod with its tip end fixed in a panel join of a PC machine is fixed, and the bed plate is wound around the beam root of the reinforced concrete beam member overlapped with the steel beam member end at proper intervals. A PC beam is disclosed, and Japanese Utility Model Utility Model No. Hei 6-73203 extends an end of a steel beam to a predetermined length so as to cover concrete, and a concrete beam having reinforcing bars disposed therein, and the concrete A tension member installed to penetrate the beam and a column for joining the beam simultaneously with the tension member, Beams provided with a fixing member for holding a list of less-known bonding a columnar structure.

[Problems with Prior Art]

These conventional technologies have a technical configuration of connecting the connecting hardware to the steel-type steel through the fixing plate or fixing member. It is true that this helps to ensure that the load acting on the steel-shaped steel part is transmitted to the connecting steel, and then to the column or the adjacent beam through the connecting steel again.

However, such a load transfer structure allows the load to be concentrated around the fixing plate or the fixing member. This concentrated transfer structure of loads is not a desirable load transfer structure. This is because localized damage is concerned when the concentrated load acts on the concrete structure.

That is, the prior art has a problem that local damage to the concrete structure may occur due to the concentrated load due to the technical configuration of connecting the connecting hardware to the steel-shaped steel through the fixing plate or the fixing member.

[Purpose of invention]

An object of the present invention is to build a composite beam for building without fear of local damage by allowing the load transfer through the connecting steel to be gradually made while easily constructing the horizontal structure of the long span at a low cost by taking advantage of the reinforced concrete and steel frame at the same time To provide.

[Configuration of Invention]

Hereinafter, the technical configuration of the present invention in detail.

Building composite beam 100 of the present invention is located in the middle portion of the steel-shaped steel portion 110 having a predetermined length, the inner side of the fixing interval (m) at both ends 121 of the steel-shaped steel portion 110 The concrete ends 120 are formed as reinforced concrete so as to have a cross-sectional shape that extends to the outside and surround the steel-shaped steel part 110, and are embedded in the concrete ends 120 and have an outer fixing length to the outside. It consists of a connection hardware 130 extending by ℓ ₁ ), the upper stud bolts 111 are welded at the required intervals on the upper portion of the steel-shaped steel portion 110, the inside of the concrete end portion 120 The ribs 122 arranged at predetermined intervals in a shape surrounding the upper end and the lower end of the unit 110, and the auxiliary roots 133 disposed at predetermined intervals so as to extend in the longitudinal direction inside the ribs 122 are arranged. Buried, the roots 122 The upper portion of which protrudes to the upper portion of the concrete end 120; Lower stud bolts 112 are welded to the lower portion of the steel-shaped steel portion 110 in the portion embedded in the concrete end portion 120 at the required intervals, and the connection hardware 130 is made of the concrete root portion 133. It is characterized in that the technical configuration has a measurement resistance length (L ₂ ) as much as the total length of the concrete end 120, starting from the central end of the 120 and penetrating both end ends.

Here, the measurement measurement length (L ₂ ) and the lower stud bolts 112 of the connection hardware 130 has a load transfer structure that transfers the load acting on the steel-like steel portion 110 to the connection hardware (130) Has the effect of having it.

Hereinafter, the present invention will be described in detail with reference to embodiments of the present invention.

The upper stud bolts 111 are welded at the required intervals over the entire length of the steel-shaped steel part 110 as shown in the first (a), the first (b), and the first (c). It is desirable to be. As described above, the upper stud bolts 111 welded to the upper portion of the steel member 110 are embedded in the slab 40 formed by being cast on the upper portion of the steel member 110 and the composite beam 100 of the present invention. Helping the slab 40 is firmly coupled.

As shown in FIG. 1 (a), FIG. 1 (b) and FIG. 1 (c), the lower stud bolt 112 is embedded in the concrete end portion 120 at the lower portion of the steel-shaped steel part 110. Are preferably welded at the required intervals.

The lower stud bolts 112 welded in this way are embedded in the concrete end 120 to help the concrete end 120 and the steel-shaped steel 110 is firmly coupled.

As shown in the first (a), the first (b) and the first (c) in the interior of the concrete end 120, the predetermined shape in a shape surrounding the upper end and the lower end of the steel-shaped steel 110 The roots 122 which are arranged at intervals of and the auxiliary roots 133 which are arranged at predetermined intervals so as to extend in the longitudinal direction in the interior of the roots 122 are embedded.

Here, the roots 122 are preferably protruded to the upper portion of the concrete end 120. This is to ensure that the composite beam 100 of the present invention is firmly coupled to the cast-in-place slab 40 that is cast on top thereof.

In addition, as shown in the first (a), the first (b), the first (c) of the connecting hardware 130, the root roots 133 to the outside of the concrete end 120 It is preferable that it is formed to extend by the outer fixing length (L ₁ ).

This is for the composite beam of the present invention to be firmly coupled with the concrete pillars 200 through the connecting hardware (130).

On the other hand, the concrete column 200 is a composite beam 100, as shown in Fig. 3 (a), 3 (b), 3 (c), 3 (d) and 4 It is preferable to have a structure of the partially exposed existing concrete column in which the upper roots 244 and the column roots 255 are partially exposed.

This is to allow the concrete pillar 200 and the composite beam 100 of the present invention to be easily and firmly coupled to the construction of the whole building quickly.

The slab installation pipe 20 is preferably a half slab or deck plate to which the slab reinforcement 30 is exposed. This eliminates the arrangement of slab formwork, which greatly reduces the amount of construction work on the construction site, enabling the construction of the entire building quickly.

In addition, the steel-shaped steel portion 110 is shown in Fig. 1 (a), Fig. 1 (b), Fig. 1 (c), Fig. 2 (a), Fig. 2 (b) and Fig. 4 As described above, it is preferable to have a cross-sectional shape of the H-shaped steel, and to have a structure in which one side of the connecting steel plate 113 is erected and welded at right angles to a required position. This allows the composite beam 100 of the present invention to be easily performed to support the small beam 10 of the steel frame.

As shown in FIG. 2 (a) and FIG. 2 (b), the connecting steel plate 113 is machined so that the connecting holes 113a are drilled so that the small beams 10 of the steel frame are bolted together. Allow easy joining to the composite beam.

The connection hole 113a preferably has a long horizontal shape. Typically, bolt holes for bolted joints in steel frames have a circular hole shape. However, since the composite beam 100 of the present invention is composed of a relatively heavy concrete end portion 120 at both ends thereof, it is difficult to finely adjust the position in the state of being placed on the concrete pillar 200.

Therefore, in order to finely control the construction error generated when the small beam 10 of the steel frame bolted to the composite beam 100 of the present invention so that the connection hole 113a has a horizontally long shape. It is desirable to.

[Effects of the Invention]

The present invention configured as described above lowers the stud bolts to increase the surface area of the steel-shaped steel to structurally integrate the steel-shaped steel with the concrete end, and the connecting steels have a measurement-proof length inside the concrete end, the load acting on the steel-shaped steel It is very useful to have the effect of having a load transfer structure that gradually transfers to the connecting hardware.

Claims (2)

It is located in the middle portion and has a predetermined length of the steel-shaped steel section 110, starting from the inner side by the fixing interval (m) at both ends 121 of the steel-shaped steel section 110 and extends to the outside and the steel-shaped steel section Consists of the concrete end portion 120 is formed as a reinforced concrete to have a cross-sectional shape surrounding the 110, and the connecting hardware 130 is embedded in the concrete end portion to extend the outer fixing length (L ₁ ) to the outside. The upper stud bolts 111 are welded to each upper part of the steel-shaped steel part 110 at required intervals, and the inside of the concrete end part 120 has a predetermined shape in such a manner as to surround the upper and lower ends of the steel-shaped steel part 110. The ribs 122 arranged at intervals, and the auxiliary roots 133 disposed at predetermined intervals so as to extend in the longitudinal direction inside the ribs 122 are embedded, the ribs 122 are the upper end of the concrete end To the top of 120 In protruding; The lower stud bolts 112 are welded to the lower portion of the steel-shaped steel portion 110 in the portion embedded in the concrete end portion 120 at the necessary intervals, and the connecting hardware 130 is the main root 133 of the concrete end portion ( The composite beam for buildings, characterized in that it has a measurement resistance (L ₂ ) as much as the total length of the concrete end portion 120, starting from the central end of the 120 and penetrating both end portions. According to claim 1, wherein the one side of the middle portion of the steel-shaped steel portion 110, the connecting iron plate 113 is erected in a direction perpendicular to the required position, the connecting iron plate 113 is a horizontally long connection hole The composite beam for buildings, characterized in that the (113a) is processed to be drilled so that the small beam 10 of the steel frame can be connected by a bolted joint.