KR200332722Y1 - The structure load-carrying capacity improvement method of construction using steel beam and bracket - Google Patents

Abstract

The present invention reinforces girders, beams, and slabs by placing them so that tension reinforcement and reinforcement plates can share the load-bearing deficiency of design loads due to the aging of concrete structures such as bridges and buildings, and bending stresses caused by dead and live loads. The purpose of the present invention is to provide a structural load-bearing reinforcement structure using steel beams and brackets to maximize resistance to live loads.

The present invention is Bo; In a structure consisting of a slab integrally installed on the upper portion of the beam, the step of wrapping the outer surface of the beam with a reinforcement plate and fixed at the same time; Fixing steel beams on both inner sides of the reinforcing plate; Fixing the reinforcement so as to be in close contact with the steel beam in the longitudinal direction across the steel beam on the one side and the steel beam on the other side and to be firmly adhered to the bottom surface of the slab; Fixing the steel beam and the reinforcement to each other by a connecting plate; It characterized in that the construction to increase the load capacity of the structure by sequentially performing the step of fixing the bracket to the lower side of the steel beam and the side of the reinforcement plate.

In addition, the structural load-bearing reinforcement structure using the steel beam and bracket according to the present invention is used to perform the load-bearing and repair reinforcement for various girders and slabs used in all kinds of bridges.

Description

The structure load-carrying capacity improvement method of construction using steel beam and bracket}

The present invention relates to a structural load-bearing reinforcement structure using steel beams and brackets, and in particular, to have a rising amount according to the portion of the structure to be reinforced, and to contact the side of the structure with the reinforcing plate at the middle of the structure Reinforce the beam in the enveloping shape, and press and push the both ends so that both ends of the reinforcing plate is extended horizontally and then fix it with a reinforced concrete bracket to bond the beam and the reinforcing plate to enhance the load capacity of the structure. The present invention relates to a structural load-bearing reinforcement structure used.

In order to prevent large-scale accidents such as breakdown and collapse of various buildings, we pay much attention to maintenance. However, it is impossible to build such old bridges and buildings in a timely and realistic state, which is impossible due to too much time and cost. There is an urgent need for a method for repairing and reinforcing the aging bridges and buildings at a faster and shorter cost.

Therefore, the present invention analyzes the causes of damage of old bridges and buildings in various ways to study the rehabilitation method that is suitable for reality. Was devised to obtain.

Therefore, the present invention was devised to solve the problems as described above, so that the tensile reinforcement and the reinforcement plate can share the load deficiency of the design load due to the aging of the bridge and the building and the bending stress due to the dead load and the live load. By reinforcing beams and slabs, the purpose is to provide a structural load-bearing reinforcement structure using steel beams and brackets to maximize resistance to live loads by reinforcement of dead loads.

1 is a structural load-bearing enhancement using the steel beam and bracket according to the present invention

Front view showing the reinforcement structure,

2 is an enlarged cross-sectional view of portion A of FIG. 1;

3 is to improve the load capacity of the structure using the steel beam and the steel bracket according to the present invention

Side view showing a reinforcement structure,

Figure 4 is a side view of the structure of the structure load-bearing enhancement reinforcement structure using the steel beam and reinforced concrete bracket of the present invention.

Explanation of symbols on the main parts of the drawing

10: beam 20: slab

30: reinforcement plate 32: both wings

34: main part 40: steel beam

50: reinforcement 60: connecting plate

62: bolt hole 70a: bracket 70b: reinforced concrete bracket

72: vertical member 74: horizontal member

76: inclined material 80: rubber plate

90: bridge 91: bridge device

92: piers and shifts 93: additional girder and slabs

Structural load-bearing reinforcement structure using the steel beam and bracket according to the present invention for achieving the above object Bo and; A structure comprising a slab integrally installed on an upper portion of the beam, the structure comprising: a reinforcing plate installed to surround an outer surface of the beam; A pair of steel beams installed on both inner sides of the reinforcing plate and at the same time installed on the lower surface of the slab; A reinforcement member installed in close contact with the steel beam in the longitudinal direction across the steel beam on one side and the steel beam on the other side, and at the same time; A connecting plate connecting the steel beam and the reinforcing material and a bolt hole formed at an inner side thereof; It is characterized by consisting of a bracket disposed on the bottom of the steel beam and fixed to the side of the reinforcement plate.

In addition, the structural load-bearing reinforcement method using the steel beam and the bracket according to the present invention for achieving the above object Bo and; In a structure consisting of a slab integrally installed on the upper portion of the beam, the step of wrapping the outer surface of the beam with a reinforcement plate and fixed at the same time; Fixing steel beams on both inner sides of the reinforcing plate; Fixing the reinforcement so as to be in close contact with the steel beam in the longitudinal direction across the steel beam on the one side and the steel beam on the other side and to be firmly adhered to the bottom surface of the slab; Fixing the steel beam and the reinforcement to each other by a connecting plate; It characterized in that the construction to increase the load capacity of the structure by sequentially performing the step of fixing the bracket to the lower side of the steel beam and the side of the reinforcement plate.

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

1 is a front view showing a structural load-bearing reinforcement structure using the steel beam and bracket according to the present invention, Figure 2 is an enlarged cross-sectional view of the portion A of Figure 1, Figure 3 is a structural load capacity using the steel beam and bracket according to the present invention Figure 4 is a side view showing an enhanced reinforcement structure, Figure 4 is a side view of the structure load-bearing enhanced reinforcement structure using the steel beam and bracket of the present invention installed on the bridge.

As shown in these drawings, the structural load-bearing reinforcement structure using the steel beam and bracket according to the present invention is a beam (10); In the structure consisting of a slab (20) integrally installed on the upper portion of the beam (10), Reinforcement plate (30) installed to surround the outer surface of the beam (10); A pair of steel beams 40 installed on both inner sides of the reinforcing plate 30 and at the same time installed on the lower surface of the slab 20; A reinforcement member 50 installed in close contact with the steel beam 40 in the longitudinal direction across the steel beam 40 on the one side and the steel beam 40 on the other side, and at the same time on the bottom surface of the slab 20; A connection plate 60 which connects the steel beam 40 and the reinforcement 50 and has a bolt hole 62 formed on an inner side thereof; The bracket 70 is disposed below the steel beam 40 and is fixed to the side of the reinforcing plate 30.

Here, the reinforcement plate 30 is formed in the same cross-sectional shape as the cross-sectional shape of the beam 10 to be covered, as shown in Figures 1 and 2, bent by bending the iron plate, the amount formed horizontally on both sides The center of the wing 32 and the two wings 32 is recessed downward and at the same time configured to have a recessed portion (34) bent in a square shape.

In addition, between the slab 20 and the reinforcing material 50, as shown in Figures 1 and 2, the rubber plate 80 is interposed, and performs a buffering role.

Meanwhile, as illustrated in FIGS. 1 and 2, the bracket 70 includes a vertical member 72 attached to the side of the reinforcing plate 30 and a horizontal member 74 horizontally installed on the upper surface of the vertical member 72. And an inclined member 76 provided to have a constant inclination along the ends of the vertical member 72 and the horizontal member 74.

That is, the structural load-bearing reinforcement structure using the steel beam and bracket according to the present invention is the reinforcement plate 30, the steel beam 40, the reinforcing material 50, the connecting plate 60 and the bracket 70 is organically coupled It is a structure.

Here, the reinforcing plate 30 is an iron plate surrounding the beam 10, made of the same cross-sectional shape according to the cross-sectional shape of the beam 10, both wings 32 and the both wings 32 formed horizontally on both sides ) Is formed to have recessed portions 34 which are bent in a downward direction at the same time.

In this way, the outer portion of the beam 10 for installing the reinforcing plate 30 to the beam 10 is wrapped around one end by the recessed portion 34 of the reinforcing plate 30 to reinforce the beam 10 to increase the amount of rise. In order to fix the reinforcing plate 30 at the same time as the main portion 34 of the reinforcing plate 30 is wrapped around the outer side of the beam 10 according to the cross-sectional shape of the reinforcing plate 30 for this purpose. Fasten and fasten the reinforcement plate 30 to the slab 20 by bolting the two blades 32 of the reinforcement plate 30 to the slab 20 located on the side of the beam 10.

In addition, the steel beam 40 is a general H beam, but the steel beam 40 in the state to be unfolded to push up both ends of the steel beam 40 to push up both wings of the reinforcing plate 30 It is fixed to the installation by welding (32), which reinforces between the beam (10) and the slab (20) by allowing the steel beam (40) to rise so as to share the load capacity deficiency of the design load due to the aging of bridges and buildings. This is to increase the load capacity of the structure.

In addition, the reinforcing material 50 is a PC beam (precast concrete beam) is in close contact with the lower surface of the slab 20 is installed in the longitudinal direction across the steel beam 40 on one side and the steel beam 40 on the other side. .

As such, the reason for installing the reinforcement member 50 is to reinforce the resistance of the live load by reinforcing the dead load by applying the bending stress due to dead load and live load to the reinforcing rod of the reinforcement member 50 as a reinforcement method to increase the load capacity of the aged structure. This is to maximize.

In addition, the connecting plate 60 is installed to connect the steel beam 40 and the reinforcement 50, the connecting plate 60 is a rectangular smooth plate of a predetermined number of bolt holes on the inner surface 62 is formed in the perforations, and the steel beam 40 and the reinforcing material 50 are integrally connected to each other when the bolt hole 62 is placed over the steel beam 40 and the reinforcing material 50 and fastened with bolts.

On the other hand, the bracket 70 is installed to support the steel beam 40 is installed on the upper bar, the bracket 70 is formed of the vertical member 72, the horizontal member 74 and the inclined member 76 integrally If necessary, the bracket 70 may be made of a non-ferrous metal material such as steel, reinforced concrete, carbon fiber, etc., and is not limited to any one specific material.

Reinforced concrete material is used as the material of the inclined material 76 of the bracket 70, but the other bracket may be formed of a material such as steel, or vice versa.

In addition, the bridge as shown in Figure 4 is installed on the lower side of the girder and the slab 93 while installing on the side of the pier and the shift 92 by using the structural load-bearing reinforcement structure using the steel beam and bracket of the present invention, such as a hydraulic jack Compression force is introduced to the girder and the slab 93 by using the lifting device to reinforce the load capacity of the bridge so as to secure the durability of the bridge and the strength of the bridge 90 to secure the bridge.

Hereinafter, a structure load-bearing enhancement reinforcing method using a steel beam and a bracket according to the present invention made of a configuration as described above will be described.

Structural load-bearing reinforcement method using the steel beam and bracket according to the present invention is the beam (10); In the structure consisting of a slab (20) integrally installed on the upper portion of the beam (10), wrapping the outer surface of the beam (10) with a reinforcing plate (30) and at the same time fixedly installed; Fixing steel beams 40 to both inner sides of the reinforcing plate 30; While the steel beam 40 of the one side and the steel beam 40 of the other side is in close contact with the steel beam 40 in the longitudinal direction and at the same time firmly fixed to the bottom surface of the slab 20 to securely install the reinforcement (50) step; Connecting and fixing the steel beams 40 and the reinforcement 50 to each other with a connecting plate 60; The bracket 70 is fixedly installed on the lower side of the steel beam 40 and the side of the reinforcing plate 30 to be sequentially installed to increase the load capacity of the structure.

The reinforcement method can be applied to the bridge 90, and when applied to the bridge 90 structure, the outer surface of the girder and slab 93 corresponding to the beam 10 is wrapped with a reinforcement plate 30 and then The reinforcement method is carried out in the previous step to reinforce the load capacity on the girder and the slab 93 of the bridge.

Here, the step of installing the reinforcing plate 30 is installed on the beam 10, which is the reinforcement target portion of the structure, by pressing both ends of the iron plate reinforcement plate 30 is formed with both wings 32 and recessed portion (34) ) Is installed in the form wrapped around the beam (10).

In addition, the step of installing the steel beam 40 is pushed up and pushed both ends so that the steel beam 40 is extended, and at the same time closely installed on both wings 32 of the reinforcing plate 30.

And, after installing the steel beam 40 before the reinforcement 50 is installed before the installation of the rubber plate 80 on the lower surface of the slab 20 is added.

Finally, after the bracket 70 is installed, formwork is installed over the steel beam 40 and the bracket 70, and the concrete is poured into the formwork to add curing.

That is, the structural load-bearing reinforcement method using the steel beam and the bracket according to the present invention is set to have a rising amount according to the portion of the structure to be reinforced by the reinforcement plate 30 in the middle of the beam 10 of the structure to be reinforced After contacting the outer surface of the beam 10 and bending the iron plate to have both wings 32 and the recessed portion 34 to reinforce the beam 10 with a reinforcement plate 30 in the form wrapped around the beam 10 In this case, the steel beam 40 is pushed up so that the steel beam 40 is extended to the reinforcing plate 30, and then fixed by the reinforced concrete bracket 70.

Therefore, the structural load-bearing reinforcement structure and the construction method using the steel beam and the bracket according to the present invention is a structure and method for improving the load capacity of the structure by binding the beam 10 and the reinforcement plate 30, the structure by dead and live load It has the effect of improving the resistance against dead and live loads by dividing the bending stress of the reinforcing bar and the reinforcement plate 30, and by constructing the aging structure in a simple way to increase the load-bearing life, There is an effect that can be used to extend.

As described above, the structural load-bearing reinforcement structure using the steel beam and the bracket according to the present invention has the following effects.

First, the structural load-bearing reinforcement structure using the steel beam and the bracket according to the present invention has the advantage that the tensile load and the reinforcing plate share the bending stress of the structure due to the dead load and the live load. .

Second, the structural load-bearing reinforcement structure using steel beams and brackets according to the present invention has the advantage of increasing the load-bearing capacity by constructing a simple method for aging buildings and bridges, and extending the service life of the buildings and bridges safely for a long time. There is this.

Claims (5)

Bowa; In the structure consisting of a slab integrally installed on the upper portion of the beam, A reinforcing plate installed to surround the outer surface of the beam; A pair of steel beams installed on both inner sides of the reinforcing plate and at the same time installed on the lower surface of the slab; A reinforcement member installed in close contact with the steel beam in the longitudinal direction across the steel beam on one side and the steel beam on the other side, and at the same time; A connecting plate connecting the steel beam and the reinforcing material and a bolt hole formed at an inner side thereof; The structural load-bearing reinforcement structure using the steel beam and the bracket, characterized in that the bracket is disposed on the bottom of the steel beam and fixed to the side of the reinforcement plate. The method of claim 1, The reinforcement plate is a structural load-bearing reinforcement structure using a steel beam and a bracket, characterized in that formed in the same cross-sectional shape and the cross-sectional shape of the beam to be covered. The method of claim 2, The reinforcing plate is formed by bending the iron plate, the two wings formed horizontally on both sides and the center of the two blades recessed downwards and at the same time configured to have a recess formed in a rectangular shape bent steel beams and brackets Reinforcement structure to increase load capacity of the structure. The method of claim 1, Reinforcement structure of a load-bearing structure with a steel beam and a bracket characterized in that the rubber plate is interposed between the slab and the reinforcement. The method of claim 1, The bracket is a steel beam and a bracket, characterized in that the vertical member attached to the side of the reinforcing plate and the horizontal member installed horizontally to the upper surface of the vertical member and the inclined member installed to have a constant inclination along the ends of the vertical member and the horizontal member. Reinforcement structure to increase the load capacity of the structure.