KR100370177B1 - Compression bracket for external prestressing reinforcement of girder - Google Patents

Abstract

The present invention relates to a compression type end bracket for reinforcing the external steel wire of the girder to give a tension force to the girder to increase the load capacity of the bridge, the compression type end bracket for reinforcing the external steel wire of the girder of the present invention to achieve the above object. Silver, to increase the load capacity of a concrete structure, such as a bridge or building, the girders are provided with an external steel wire to increase the load capacity, the end plate member is attached to the end surface of the girder, the outer steel wire is fixed at both ends; One end is coupled to each other at both ends of the end plate member, and the other end extends in the longitudinal direction of the girder, characterized in that it comprises a reinforcing member coupled to each side of the girder, respectively. As a result, the design of the end plate and the fixing plate, which is the weakest part of the existing end bracket, is changed to receive compression instead of tensile force, thereby reducing the size and weight of the end bracket, simplifying the construction cost and process of the reinforcement work. The maintenance of the bracket can be facilitated, and the load capacity and reliability of the end bracket are improved.

Description

Compression bracket for external prestressing reinforcement of girder

The present invention relates to a bracket of a girder, and in particular, in a concrete structure such as a bridge, an external steel wire reinforcement of a girder is used to reinforce the damage of a girder caused by cracking and deterioration by using an external steel wire. It relates to a compression type end bracket for.

In general, when the load capacity is insufficient in a concrete structure such as a bridge, sag or flexural tensile cracking occurs and, if left unattended, ultimately leads to collapse of the bridge. In order to prevent such collapse, a variety of repair reinforcement methods are used. For repair reinforcement of bridges, external prestressing method using PS steel wire is widely used.

External prestressing reinforcement method using PS steel wire is very economical and efficient, and it is almost the only repair reinforcement method for long span bridges. There are many bridges that can be repaired and reinforced using PS steel wire.

Existing reinforcement methods using such external steel wires are divided into four methods, such as leaflet paper method, acupressure support method, friction support method, composite support method, depending on the installation method of the anchorage.

However, these fixing methods, which are widely used in actual reinforcement, have many disadvantages. That is, the leaflet paper method and the friction support method has a disadvantage that the magnitude of the tension force to withstand is small, in particular, the friction support method has a disadvantage that the tension force is not transmitted to the end, the compound support method is simply a parallel of the two methods as There is a disadvantage that the design of the anchorage is not easy because the load transmission structure is complicated.

In addition, a new anchorage, which overcomes the limitations of these existing anchorages, is filed by the present inventor (application number: 98-16293, filed date: May 16, 98, name of the invention: improvement for external prestress reinforcement method) Acupressure-supporting fixing method and apparatus).

1 is a plan view showing a tension type end bracket for reinforcing the external steel wire of the girder according to the prior art, Figures 2a to 2b is a side view and a front cross-sectional view of the tension type end bracket of Figure 1, respectively.

As shown, the tension type end bracket for reinforcing the external steel wire of the girder according to the prior art, the end plate 17 is supported on the end face of the girder 5, each bolt 18 on both sides of the girder 5 The fixing plate 10 is supported, and the fixing table 11 is fixed by welding to fix the steel wire 3 generating tension in the middle portion of the fixing plate 10.

At this time, a plurality of triangular reinforcement plate 13 and a square reinforcement plate to fix the fixing unit (7) for fixing the steel wire (3) to the fixing plate 11, and to support the fixing plate 11 to the fixing plate (10) 14 is provided. Here, the triangular reinforcement plate 13 connects the fixing plate 11 and the fixing plate 10, and the square reinforcing plate 14 connects the end plate 17, the fixing plate 10, and the fixing plate 11. They are all attached and connected to each other by welding.

A bolt 18, such as an anchor bolt, is also used to fix the fixing plate 10 to the girder 5. At this time, the anchor bolt does not need a large number of anchor bolts because it only has a function to position the heavy fixing plate in the correct position of the girder (5) during construction, and even when the anchor bolt is installed to drill a shallow depth of the hole Thus, damage to the girder 5 can be minimized.

In the tension type end bracket for reinforcing the external steel wire of the girder according to the related art, which is configured as described above, when the tension force acting on the steel wire 3 is transmitted to the fixing device 7, this force is fixed through the fixing table 11. This force is transmitted to the plate 10, which in turn is transmitted to the end plate through the weld 19 shown to show that the fixing plate 10 and the end plate 17 are joined by welding.

In other words. Tension force generated by the steel wire (3) generates a tension force on the support (11), this tension force is welded to indicate that the fixing plate 10, the square reinforcing plate 14 and the end plate 17 is welded to each other ( Since the tensile force acts on 19) and causes a crack in the welded portion 19, the load bearing capacity of the end bracket is lowered, thereby lowering the durability and reliability of the end bracket.

In addition, in most cases of girder construction, there is a problem in that the perforation of the hole formed to drive the anchor bolt damages the steel wire or other fixing device supported by the girder.

Therefore, an object of the present invention for solving the above problems, when the tension force generated from the external steel wire is installed to increase the load capacity of the bridge is applied to the fixing plate through the end plate, by acting as a compressive force rather than a tensile force The purpose of the present invention is to provide a compression type end bracket for reinforcing the external steel wire of a girder which increases the load bearing capacity and reliability of the end bracket and thus greatly reduces the size and weight of the end bracket.

1 is a plan view showing a tension type end bracket for reinforcing the external steel wire of the girder according to the prior art.

2A and 2B are side and front cross-sectional views, respectively, of the tensionable end bracket of FIG.

Figure 3 is a plan view showing a compression type end bracket for reinforcing the external steel wire of the girder according to the present invention.

4A to 4B are front and rear views of the compression type end bracket of FIG. 3, respectively.

5 is a plan view showing a compression type end bracket according to another embodiment of the present invention.

6A to 6C are front, side and back views of the compression type end bracket of FIG. 5, respectively.

<Description of the symbols for the main parts of the drawings>

3 .. Liner 5 .. Girder

7 .. Fixture 10, 34, 50. Fixture

11 .. Fixture 13, 30, 53. Triangular reinforcement plate

14. Reinforced square plates 17, 32. End plates

18, 19. Bolt 36. Weld

In order to achieve the above object, the compression type end bracket for reinforcing the external steel wire of the girder of the present invention increases the load capacity of a concrete structure such as a bridge or a building, and in the girder provided with an external steel wire which increases the load capacity, the girder An end plate member padded at an end surface of the end plate, the outer steel wire being fixed at both ends thereof; One end is coupled to each other at both ends of the end plate member, and the other end extends in the longitudinal direction of the girder, characterized in that it comprises a reinforcing member coupled to each side of the girder, respectively.

The reinforcing member may include a fixing plate member having one surface coupled to the end plate member and the other surface being provided in a cramped shape so as to be supported by the side of the girder; And a triangular reinforcing plate member having at least one triangular shape inside the fixing plate member so as to support a tension force, and thus, the tension force generated in the steel wire is the end plate member, the fixing plate member, and the triangular reinforcing plate. It is characterized in that to act as a compressive force on each joint of the member.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to FIGS. 3 to 6B.

Figure 3 is a plan view showing a compression type end bracket for reinforcing the external steel wire of the girder according to the present invention. 4A to 4B are front and rear views of the compression type end bracket of FIG. 3, respectively.

As shown, the compression type end bracket for reinforcing the external steel wire of the girder according to the present invention is an end plate 32 which is an end plate member and a fixing plate 34 attached to the side of the girder and a triangular to connect them to each other The reinforcement plate 30 is included.

The end plate 32 is a steel plate that is applied to the end face of the girder 5, and is provided at both ends to support the outer steel wire 3, which enhances the load capacity of the girder 5, by the fixing unit 7.

The fixing plate 34 is provided to be attached to both sides of the girder 5 by bolts 18, and in this state the fixing plate 34 and the end plate 32 are attached to the girder, respectively. ) And the end plate 32 are joined to each other by the weld 36 to be welded. Here, bolt 18 is used very few bolts, unlike the prior art. For example, they are used in the order of several bolts to secure the fixing plate 34 at the fixed position of the girder 5 during construction of the end bracket.

The triangular reinforcement plate 30 is provided with at least one to support the tension force generated in the steel wire (3) from the end plate 32 to the girder 5 through the fixing plate 34. As an example, one side is joined by welding 36 showing welding to the end plate 32, the other side is welded and attached along the fixing plate 34, and the fixing plate 34 is bolt 18 It is fixed to the girder 5 by).

Compression type end bracket for reinforcing the external steel wire of the girder according to the present invention configured as described above, when a force acts on the fixing member 7 by the tension applied to the steel wire (3), the end plate ( 32 generates a compressive force on the triangular reinforcing plate 30, the compressive force is applied to the fixing plate 34.

In addition, since the tensile force applied between the fixing plate 34 and the end plate 32 is converted into a compressive force and applied as in the prior art, the welding part 36 to which the fixing plate 34 and the end plate 32 are joined to each other is provided. There is no risk of breakage, and accordingly, the size and weight of the bracket are smaller than in the prior art, and the production cost is lowered.

Figure 5 is a plan view showing a prefabricated compression type end bracket for external steel wire reinforcement of another embodiment according to the present invention. 6A to 6C are front, side and back views of the compression type end bracket of FIG. 5, respectively.

As shown, the compression type end bracket for external steel wire reinforcement of another embodiment according to the present invention includes an end plate 32 which is an end plate member and a fixing plate 50 that is a reinforcing member.

The end plate 32 is a steel plate that is padded on the end face of the girder 5, and the steel wire 3 for supporting a load capacity to the girder 5 at both ends thereof is supported by the fixing unit 7.

The fixing plate 50 is provided in a clamp shape so that one surface is coupled by bolts 19, which are fasteners at both ends of the end plate 32, and the bolts 18, which are fasteners on the other side, of the girder 5 Combined on both sides. At this time, the fixing plate 50 is provided with at least one triangular reinforcement plate 53 on the inner side in order to transfer the compressive force applied from the end plate 32 to the one end of the girder 5 of the other end.

Eventually, the compression type end bracket for external steel wire reinforcement according to the present invention configured as described above is provided with the clamp-type fixing plate 50 and the triangular reinforcing plate 53 integrally with the end plate 32. It is installed on the girder 5 while being coupled by a high tension bolt 19.

That is, in order to mount the compression type end bracket of the present invention, the fixing plate 50 is fixed using the bolt 18 which is the anchor bolt at the side of the girder 5, and the high tension bolt is fixed to the fixed fixing plate 50. The bolt 19 is used to engage the end plate 32.

And both ends of the fixed end plate 32 to support the steel wire (3) by using a fastener (7). In this way, the construction of the girder can be applied directly to the girder 5 by simply tightening the bolts without welding the fixing plate 50 and the end plate 32 at the construction site for constructing the bridge. Greatly improved.

In addition, although described with respect to the girder applied to the bridge as an embodiment, the compression type end bracket of the present invention can be applied to concrete structures such as buildings will be apparent in the art.

The drawings and specification are merely exemplary of the invention, which are used for the purpose of illustrating the invention only and are not intended to limit the scope of the invention as defined in the appended claims or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

According to the present invention, since the size and weight of the end bracket can be drastically reduced by applying a compressive force rather than a tensile force to the welded portion of the end plate and the fixing plate, which is the weakest portion of the end bracket, the construction of the external steel wire fixing bracket of the girder is facilitated. The load capacity of the bracket has an advantage that increases.

In addition, since the force due to the tension of the steel wire is generated as a compressive force instead of a tensile force at each component connection portion of the end bracket, the load bearing capacity of the end bracket is increased and reliability is improved compared to the prior art. Since it can be reduced in size, there is an advantage in that the productivity and workability of the end bracket are improved.

Claims (3)

In the girder to increase the load capacity of a concrete structure, such as a bridge or building, and provided with an external steel wire to increase the load capacity, An end plate member which is padded on an end face of the girder and fixed to the outer steel wire at both ends thereof; And One end is coupled to each other at both ends of the end plate member, and the other end extends in the longitudinal direction of the girder and includes a reinforcing member coupled to both sides of the girder and the fixing plate member is installed on the side wall of the girder, respectively. Compression end bracket for reinforcing external steel wire of the girder. The method of claim 1, wherein the reinforcing member, A fixing plate member having one surface coupled to the end plate member and provided with a cramped shape such that the other surface is supported on the side surface of the girder; And At least one triangular reinforcing plate member is provided inside the fixing plate member so as to be a triangular shape to support the tension force, Accordingly, the compression type end bracket for reinforcing the external steel wire of the girder, characterized in that the tension force generated in the steel wire acts as a compressive force on each joint of the end plate member, the fixing plate member and the triangular reinforcement plate member. The method of claim 1, wherein the fixing plate member, Compression type end bracket for reinforcing the external steel wire of the girder, characterized in that coupled to the end plate member by at least one of fastening or welding a high tension bolt.