KR101426509B1 - A joint structure of a precast concrete girder and a steel beam - Google Patents

Abstract

The purpose of the present invention is to provide a joint structure between a precast concrete girder and a steel beam, wherein the precast concrete girder has a joint portion of which both sides have gusset plates to connect the steel beam to both sides of the central portion of the precast concrete girder, thereby lightening a building by installing the steel beam between the precast concrete girders. According to the present invention to accomplish the purpose, a joint structure between a precast concrete girder (2) and a steel beam (4) allows the steel beams (4) to be installed on both sides of the central portion of the precast concrete girder (2). Multiple stud bolts (7) are fixed to be embedded in both sides of the precast concrete girder (2). Gusset plates (12) are installed on both of the sides of the precast concrete girder (2) by being joined to be welded on one ends of the stud bolts (7). The webs (18) of the gusset plates (12) installed on both of the sides of the precast concrete girder (2) and the webs of the steel beam (4) are joined to each other by bolts. The lower flanges (13) of the gusset plates (12) and the lower flanges of the steel beam (4) are joined to each other by bolts. Multiple steel rods (15) separated from each other at predetermined distances are joined to be welded on the upper flanges of two of the adjacent steel beams (4). Sleeve joints (16) are coupled between the steel rods (15), so the steel rods are integrally connected.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a precast concrete girder and a steel beam,

The present invention relates to a joint structure of a precast concrete beam and a steel beam and relates to a precast concrete girder which reduces the weight of a building structure by improving the precast concrete joint structure so that the precast concrete girder and the steel beam are hinge- And a steel beam joining structure.

Generally, in a precast concrete structure, a reinforced concrete column is connected to a precast concrete girder, a precast concrete beam is connected between the precast concrete girders, and an upper load of the building structure transferred to the slab is connected to the precast concrete girder, Lt; / RTI >

1, a precast concrete girder 2 is connected between the reinforced concrete columns 1 and a precast concrete beam 3 is connected to both sides of a central portion of the precast concrete girder 2 The precast concrete girder (large beam) and the beam (small beam) are manufactured in the factory and installed in the field. The junction of the precast concrete girder and the beam is complicated in structure and is not easy to install, Since the weight of the concrete girder and the beam is weight, the structure weight of the whole building is increased.

In order to solve the problems of the prior art, a steel beam is installed between precast concrete girders so as to reduce the weight of the building structure. In order to reduce the weight of the precast concrete concrete girder, a steel beam is connected to both sides of the center of the precast concrete girder. And it is an object of the present invention to provide a joint structure of a precast concrete girder and a steel beam on both sides with a gusset plate.

In order to achieve the above object, the present invention provides a steel beam (4) installed on both sides of a center portion of a precast concrete girder (2)
A plurality of stud bolts 7 are embedded and fixed in both side surfaces of the precast concrete girder 2. A stud plate 12 is welded to one end of the stud bolts 7 to weld the precast concrete girders 7 2 are provided on both sides of a girder plate 12 and the web 18 of the girder plate 12 provided on both sides of the precast concrete girder 2 and the web 18 of the steel beam 4, The lower flange 13 of the cassette plate 12 and the lower flange of the steel beam 4 are bolted together,
A plurality of steel rods 15 are welded to the upper flanges of adjacent two steel beams 4 by a predetermined distance and the sleeve joints 16 are coupled between the steel rods 15 so that the steel rods are integrally connected. .

In the present invention as described above, the joining portion of the precast concrete girder and the steel beam is easily joined by the hinge joint or the steel joining by the gusset plate, the rigidity of the joining portion is increased and the joining structure of the joining portion is simplified by the gusset plate, Thus, there is a technical effect that the accuracy of construction of the joint portion is improved.

Also, when the joint between the precast concrete girder and the steel beam is rigidly joined, the center bending moment of the steel beam is reduced to reduce the weight of the steel beam, and the steel beam is connected to the precast concrete girder.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view showing a connection between a precast concrete girder and a beam,
2 is a plan view showing a connection between a precast concrete girder and a steel beam according to an embodiment of the present invention.
FIG. 3A is a cross-sectional view showing that a convex rectangular precast concrete girder and a steel beam, which is an embodiment of the present invention, are coupled by a set plate and a stud bolt
FIG. 3B is a cross-sectional view showing that a convex rectangular precast concrete girder and a steel beam, which is another embodiment of the present invention, are joined by a set plate and an anchor bolt
FIG. 3c is a cross-sectional view showing that a convex rectangular precast concrete girder and a steel beam, which is another embodiment of the present invention, are joined by a set plate and a hook;
FIG. 3D is a cross-sectional view showing that a convex rectangular precast concrete girder and a steel beam, which is another embodiment of the present invention, are joined by a set plate and a deformed reinforcing bar;
FIG. 3E is a cross-sectional view showing that a convex rectangular precast concrete girder and a steel beam, which is another embodiment of the present invention, are joined by a set plate and a C-shaped steel
Figure 3f is a plan view of Figure 3e;
FIG. 4A is a cross-sectional view showing a U-shaped precast concrete girder and a steel beam joined by a set plate and a stud bolt according to another embodiment of the present invention
FIG. 4B is a cross-sectional view showing that a U-shaped precast concrete girder and a steel beam, which are another embodiment of the present invention, are joined by a set plate and an anchor bolt
FIG. 4c is a cross-sectional view showing a U-shaped precast concrete girder and a steel beam joined by a set plate and a hook according to another embodiment of the present invention
FIG. 4D is a cross-sectional view showing that a U-shaped precast concrete girder and a steel beam, which is another embodiment of the present invention, are joined by a set plate and a deformed reinforcing bar;
FIG. 4E is a cross-sectional view showing a U-shaped precast concrete girder and a steel beam joined by a set plate and a U-shaped steel material according to another embodiment of the present invention
Fig. 4F is a plan view of Fig.
5 is a cross-sectional view showing a rectangular precast concrete girder and a steel beam joined by a set plate and a stud bolt according to another embodiment of the present invention
6A is a cross-sectional view showing the installation of a set plate and a stud bolt in a rectangular precast concrete girder according to another embodiment of the present invention
FIG. 6B is a perspective view showing the installation of a set plate and a stud bolt in a rectangular precast concrete girder according to another embodiment of the present invention. FIG.
6C is a perspective view showing that a rectangular precast concrete girder and a steel beam, which is another embodiment of the present invention, are rigidly joined by a set plate and a deformed reinforcing bar;
FIG. 6D is a perspective view showing a rectangular precast concrete girder and steel beam, which is another embodiment of the present invention, is rigidly joined by a set plate and a sleeve joint; FIG.
FIG. 6E is a perspective view showing that a rectangular precast concrete girder and a steel beam, which is another embodiment of the present invention, are rigidly joined by a set plate and a steel plate;
7A is a cross-sectional view showing a U-shaped pre-cast concrete girder having a set plate and a stud bolt installed in another embodiment of the present invention
FIG. 7B is a perspective view showing a U-shaped precast concrete girder according to another embodiment of the present invention in which a set plate and a stud bolt are installed.
7C is a perspective view showing that a U-shaped precast concrete girder and a steel beam, which is another embodiment of the present invention, are rigidly joined by a set plate and a deformed reinforcing bar;
FIG. 7D is a perspective view showing a U-shaped precast concrete girder and steel beam, which is another embodiment of the present invention, is rigidly joined by a set plate and a sleeve joint;
FIG. 7E is an enlarged perspective view of FIG.
7f is a perspective view showing that a U-shaped precast concrete girder and a steel beam, which is another embodiment of the present invention, are rigidly joined by a set plate and a steel plate;

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a plan view showing a connection between a precast concrete girder according to an embodiment of the present invention and a steel beam, FIG. 3a is a perspective view of a precast concrete girder and a steel beam according to an embodiment of the present invention, Fig.

As shown in FIG. 2, steel beams are installed between pre-cast concrete girders manufactured at factories to reduce the weight of the building structure to reduce weight.

3A, a steel beam 4 is installed on both sides of the central portion of the convex rectangular pre-cast concrete girder 2a, and the convex rectangular precast concrete girder 2a is installed on both sides of the center portion of the convex rectangular pre- And a plurality of stud bolts 7 are embedded and fixed in the inside of the stud bolt 7. The stud bolt 7 is welded and bonded to one end of the stud bolt 7, And are installed on both sides of the girder 2a.

The web of the girder plate 5 provided on both sides of the convex rectangular precast concrete girder 2a and the web of the steel beam 4 are bolted to each other to form the convex rectangular precast concrete girder 2a. And the steel beam 4 are hinge-bonded.

3A, the gusset plate 5 is installed on the surface of the convex rectangle pre-cast concrete girder 2a or on the surface of the convex rectangle precast concrete girder 2a, 5 are fitted into the precast concrete girder 2 so that their surfaces coincide with each other.

Fig. 3B is a cross-sectional view showing that the convex rectangular precast concrete girder and the steel beam are coupled by the set plate and the anchor bolt, which is another embodiment of the present invention, A plurality of anchor bolts 8 are embedded and fixed in the convex rectangular precast concrete girder 2a and one end of the anchor bolt 8 is welded And the gasket plate 5 is installed on both sides of the convex rectangle precast concrete girder 2a.

The web of the girder plate 5 provided on both sides of the convex rectangular precast concrete girder 2a and the web of the steel beam 4 are bolted to each other to form the convex rectangular precast concrete girder 2a. And the steel beam 4 are hinge-bonded.

Fig. 3C is a cross-sectional view showing that a convex rectangular precast concrete girder and a steel beam are coupled by a set plate and a hook, according to another embodiment of the present invention, and a steel beam A plurality of hooks 9 are embedded in and fixed to the inside of the convex rectangular precast concrete girder 2a and a plurality of hooks 9 are welded to one end of the hook plate 9, The girder plate 5 is installed on both sides of the convex rectangular precast concrete girder 2a.

The web of the girder plate 5 provided on both sides of the convex rectangular precast concrete girder 2a and the web of the steel beam 4 are bolted to each other to form the convex rectangular precast concrete girder 2a. And the steel beam 4 are hinge-bonded.

Fig. 3D is a cross-sectional view showing that a convex rectangle precast concrete girder and a steel beam, which are another embodiment of the present invention, are joined by a set plate and a deformed reinforcing bar, A plurality of deformed reinforcing bars 10 are embedded and fixed in the convex rectangular precast concrete girder 2a and welded to both ends of the deformed reinforcing bar 10 by welding And the gasket plate 5 is installed on both sides of the convex rectangle precast concrete girder 2a.

The web of the girder plate 5 provided on both sides of the convex rectangular precast concrete girder 2a and the web of the steel beam 4 are bolted to each other to form the convex rectangular precast concrete girder 2a. And the steel beam 4 are hinge-bonded.

FIG. 3E is a cross-sectional view showing a convex rectangular precast concrete girder and a steel beam joined by a set plate and a U-shaped steel material according to another embodiment of the present invention, and FIG. 3F is a plan view of FIG. 3E.

A steel beam 4 is installed on both sides of a central portion of the convex rectangle precast concrete girder 2a and a U-shaped steel material 11 is inserted in the convex rectangular precast concrete girder 2a in the height direction of the beam And the girder plate 5 is welded to one end of the U-shaped steel material 11. The girder plate 5 is welded to both sides of the convex rectangular precast concrete girder 2a Respectively.

The web of the girder plate 5 provided on both sides of the convex rectangular precast concrete girder 2a and the web of the steel beam 4 are bolted to each other to form the convex rectangular precast concrete girder 2a. And the steel beam 4 are hinge-bonded.

FIG. 4A is a cross-sectional view showing a U-shaped precast concrete girder and a steel beam joined to each other by a set plate and a stud bolt according to another embodiment of the present invention. In both sides of the center of the U-shaped precast concrete girder 2b, A plurality of stud bolts 7 are embedded and fixed in the U-shaped precast concrete girder 2b and a stud plate 5 is fixed to one end of the stud bolts 7 Welded to each other, and the gasket plate 5 is installed on both sides of the U-shaped precast concrete girder 2b.

The web of the girder plate 5 provided on both sides of the U-shaped precast concrete girder 2b and the web of the steel beam 4 are bolted to form the U-shaped precast concrete girder 2b. And the steel beam 4 are hinge-bonded.

FIG. 4B is a cross-sectional view showing that a U-shaped precast concrete girder and a steel beam are combined by a set plate and an anchor bolt according to another embodiment of the present invention. In both sides of a center portion of a U-shaped precast concrete girder 2b, A plurality of anchor bolts 8 are embedded and fixed within the U-shaped precast concrete girder 2b and one end of the anchor bolts 8 is welded And the gasket plate 5 is installed on both sides of the U-shaped precast concrete girder 2b.

The web of the girder plate 5 provided on both sides of the U-shaped precast concrete girder 2b and the web of the steel beam 4 are bolted to form the U-shaped precast concrete girder 2b. And the steel beam 4 are hinge-bonded.

Fig. 4C is a cross-sectional view showing a U-shaped precast concrete girder and a steel beam joined together by a set plate and a hook, according to another embodiment of the present invention. A steel beam And a plurality of hooks 9 are embedded and fixed in the U-shaped precast concrete girder 2b. The hook plate 9 is welded to one end of the hook 9, The girder plate 5 is installed on both sides of the U-shaped precast concrete girder 2b.

The web of the girder plate 5 provided on both sides of the U-shaped precast concrete girder 2b and the web of the steel beam 4 are bolted to form the U-shaped precast concrete girder 2b. And the steel beam 4 are hinge-bonded.

Fig. 4D is a cross-sectional view showing a U-shaped precast concrete girder and a steel beam joined by a set plate and a deformed reinforcing bar according to another embodiment of the present invention, A plurality of deformed reinforcing bars 10 are embedded in and fixed to the inside of the U-shaped precast concrete girder 2b and both ends of the deformed reinforcing bar 10 are welded And the gasket plate 5 is installed on both sides of the U-shaped precast concrete girder 2b.

The web of the girder plate 5 provided on both sides of the U-shaped precast concrete girder 2b and the web of the steel beam 4 are bolted to form the U-shaped precast concrete girder 2b. And the steel beam 4 are hinge-bonded.

FIG. 4E is a cross-sectional view showing a U-shaped precast concrete girder and a steel beam joined together by a set plate and a U-shaped steel material according to another embodiment of the present invention, and FIG. 4F is a plan view of FIG.

The U-shaped precast concrete girder 2b is provided with a steel beam 4 on both sides of a central portion thereof. The U-shaped precast concrete girder 2b is provided with a U-shaped steel material 11 at a predetermined interval , And a gasket plate (5) is welded to one end of the U-shaped steel material (11), and the gasket plate (5) is installed on both sides of the U-shaped precast concrete girder do.

The web of the bridge plate 5 provided on both sides of the U-shaped precast concrete girder 2b and the web of the steel beam 4 are bolted to the U- And the steel beam 4 are hinge-bonded.

FIG. 5 is a cross-sectional view showing a rectangular precast concrete girder and a steel beam joined by a set plate and a stud bolt, according to another embodiment of the present invention, and a steel beam (not shown) is attached to both sides of the center of the rectangular precast concrete girder 2c A plurality of stud bolts 7 are embedded and fixed in the rectangular precast concrete girder 2c and the stud plate 5 is welded to one end of the stud bolts 7 , And the girder plate 5 is installed on both sides of the rectangular precast concrete girder 2c.

The girder plate 5 provided on both sides of the rectangular precast concrete girder 2c and the web of the steel beam 4 are bolted to each other to form the rectangular precast concrete girder 2c and the steel beam 4) are hinge-bonded.

FIG. 6A is a cross-sectional view of a rectangular precast concrete girder according to another embodiment of the present invention, in which a set plate and a stud bolt are installed. FIG. 6B is a cross- FIG. 6C is a perspective view showing that a rectangular precast concrete girder and a steel beam, which is another embodiment of the present invention, are rigidly joined by a set plate and a deformed reinforcing bar; FIG.

A plurality of stud bolts 7 are embedded in and fixed to the inside of the rectangular precast concrete girder 2c at both sides of the center of the rectangular precast concrete girder 2c, The girder plate 12 is welded to one end of the rectangular pre-cast concrete girder 2c. The girder plate 12 is installed on both sides of the rectangular precast concrete girder 2c. The vibrating plate 12 includes a rectangular vertical plate 19, a web 18 protruding outward at a predetermined height from the center of the vertical plate 19, And the lower flange 13 is formed.

The web 18 of the girder plate 12 provided on both sides of the rectangular precast concrete girder 2c and the web of the steel beam 4 are bolted to each other and the lower flange The lower flange of the steel beam 13 and the lower flange of the steel beam 4 are bolted to each other and a plurality of deformed reinforcing bars 14 are welded between the upper flanges of the two adjacent steel beams 4 to weld the rectangular precast concrete girder 2c and the steel beam 4 are welded together.

Since the steel beam 4 is strongly bonded between the rectangular precast concrete girders 2c, the center bending moment of the steel beam 4 is reduced, and the weight and size of the steel beam can be reduced.

FIG. 6D is a perspective view showing a rectangular precast concrete girder and a steel beam, which is another embodiment of the present invention, is rigidly joined by a set plate and a sleeve joint. In the middle portion of the rectangular precast concrete girder 2c, A plurality of stud bolts 7 are embedded and fixed in the rectangular precast concrete girder 2c and the stud plate 12 is welded to one end of the stud bolts 7 , The girder plate 12 is installed on both sides of the rectangular precast concrete girder 2c.

The web 18 of the girder plate 12 provided on both sides of the rectangular precast concrete girder 2c and the web of the steel beam 4 are bolted to each other and the lower flange (13) and the lower flange of the steel beam (4) are bolted.

A steel bar 15 is provided at a predetermined length on the upper flanges of adjacent two steel beams 4 so that one end of each steel bar is welded and welded to the upper flange of the steel beam 4, (16) so that the rectangular precast concrete girder (2c) and the steel beam (4) are rigidly joined.

FIG. 6E is a perspective view showing a rectangular precast concrete girder and a steel beam, which are another embodiment of the present invention, by rigid joints between a girder plate and a steel plate. In the middle part of the rectangular precast concrete girder 2c, A plurality of stud bolts 7 are embedded and fixed in the rectangular precast concrete girder 2c and the stud plate 12 is welded to one end of the stud bolts 7 , The girder plate 12 is installed on both sides of the rectangular precast concrete girder 2c.

The web 18 of the girder plate 12 provided on both sides of the rectangular precast concrete girder 2c and the web of the steel beam 4 are bolted to each other and the lower flange (13) and the lower flange of the steel beam (4) are bolted.

A steel plate 17 is bolted to the upper flange of the steel beam 4 between the upper flanges of adjacent two steel beams 4 so that the rectangular precast concrete girder 2c and the steel beam 4 are welded to each other by a steel .

FIG. 7A is a cross-sectional view of a U-shaped precast concrete girder according to another embodiment of the present invention, in which a set plate and a stud bolt are installed. FIG. FIG. 7C is a perspective view showing that a U-shaped precast concrete girder and a steel beam, which is another embodiment of the present invention, are rigidly joined by a set plate and a deformed reinforcing bar. FIG.

A steel beam 4 is installed on both sides of a central portion of the U-shaped precast concrete girder 2b. A plurality of stud bolts 7 are embedded and fixed in the U-shaped precast concrete girder 2b, A stud plate 12 is welded to one end of the stud bolt 7. The girder plate 12 is installed on both sides of the U-shaped precast concrete girder 2b.

The web 18 of the cassette plate 12 provided on both sides of the U-shaped precast concrete girder 2b and the web of the steel beam 4 are bolted to each other and the bottom of the cassette plate 12 The flange 13 and the lower flange of the steel beam 4 are bolted to each other and a plurality of deformed reinforcing bars 14 are welded between the upper flanges of the adjacent two steel beams 4 to weld the U- So that the girder 2b and the steel beam 4 are strongly bonded.

FIG. 7D is a perspective view showing that a U-shaped precast concrete girder and a steel beam are rigidly joined by a set plate and a sleeve joint according to another embodiment of the present invention, and FIG. 7E is an enlarged perspective view of FIG. 7D.

A steel beam 4 is installed on both sides of a central portion of the U-shaped precast concrete girder 2b. A plurality of stud bolts 7 are embedded and fixed in the U-shaped precast concrete girder 2b, A stud plate 12 is welded to one end of the stud bolt 7. The girder plate 12 is installed on both sides of the U-shaped precast concrete girder 2b.

The web 18 of the cassette plate 12 provided on both sides of the U-shaped precast concrete girder 2b and the web of the steel beam 4 are bolted to each other and the bottom of the cassette plate 12 The flange 13 and the lower flange of the steel beam 4 are bolted together.

A steel bar 15 is provided at a predetermined length on the upper flanges of adjacent two steel beams 4 so that one end of each steel bar is welded and welded to the upper flange of the steel beam 4, And the U-shaped precast concrete girder 2c and the steel beam 4 are joined to each other.

Fig. 7f is a perspective view showing a U-shaped precast concrete girder and a steel beam joined together by a set plate and a steel plate according to another embodiment of the present invention. On both sides of a central portion of a U-shaped precast concrete girder 2b, A plurality of stud bolts 7 are embedded and fixed in the U-shaped precast concrete girder 2b and a stud plate 12 is fixed to one end of the stud bolts 7 Welded to each other, and the gasket plate 12 is installed on both sides of the U-shaped precast concrete girder 2b.

The web 18 of the cassette plate 12 provided on both sides of the U-shaped precast concrete girder 2b and the web of the steel beam 4 are bolted to each other and the bottom of the cassette plate 12 The flange 13 and the lower flange of the steel beam 4 are bolted together.

A steel plate 17 is bolted to the upper flange of the steel beam 4 between the upper flanges of two adjoining steel beams 4 so that the U-shaped precast concrete girder 2b and the steel beam 4 Strong bonding.

1: Reinforced concrete column 2: Precast concrete girder
2a: Precast concrete girder with convex rectangle
2b: U-shaped precast concrete girder
2c: rectangular precast concrete girder
3: precast concrete beam 4: steel beam
5, 12: Gasket plate 6: Bolt
7: Stud bolt 8: Anchor bolt
9: hooks 10, 14: deformed bars
11: U-shaped steel material 13: Lower flange
15: steel rod 16: sleeve joint
17: steel plate 18: web
19: vertical plate

Claims (7)

delete delete delete delete A steel beam (4) installed on both sides of a central portion of a precast concrete girder (2)
A plurality of stud bolts 7 are embedded and fixed in both side surfaces of the precast concrete girder 2. A stud plate 12 is welded to one end of the stud bolts 7 to weld the precast concrete girders 7 2 are provided on both sides of a girder plate 12 and the web 18 of the girder plate 12 provided on both sides of the precast concrete girder 2 and the web 18 of the steel beam 4, The lower flange 13 of the cassette plate 12 and the lower flange of the steel beam 4 are bolted together,
A plurality of steel rods 15 are welded to the upper flanges of adjacent two steel beams 4 by a predetermined distance and the sleeve joints 16 are coupled between the steel rods 15 so that the steel rods are integrally connected. Wherein the pre-cast concrete girder and the steel beam are joined to each other. 6. The method according to claim 5, wherein a plurality of steel rods (15) are welded to the upper flanges of the adjacent two steel beams (4) by a predetermined distance and a sleeve joint (16) And the steel rods are integrally connected,
Characterized in that a plurality of deformed reinforcing bars (14) are welded to each other between upper flanges of adjacent two steel beams (4) to constitute a joint structure of the steel beam. 6. The method according to claim 5, wherein a plurality of steel rods (15) are welded to the upper flanges of the adjacent two steel beams (4) by a predetermined distance, and a sleeve joint (16) And the steel rods are integrally connected,
Characterized in that a steel plate (17) is provided between the upper flanges of two adjoining steel beams (4) and replaced by being bolted to the upper flange of the steel beam (4) Beam splice structure.

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