KR100378090B1 - plate have a birdge and a method of construction therof - Google Patents

Abstract

The present invention relates to a bridge having an auxiliary slab to withstand loads and to facilitate the assembly, and to a method of assembling the bridge, the upper portion having a length horizontally, the lower portion is installed based on the ground and erected at regular intervals In a bridge provided with a pier and a bidirectional bearing installed on the upper portion, the bridge is vertically vertically spaced on the bearing to form a PC beam having a plurality of grooves on both sides and at least one hole in the transverse direction between the grooves. And inserting a plurality of shear blocks that penetrate laterally between the grooves, inserting and fixing a steel wire into the holes of the shear blocks and the PC beam grooves, and tensioning the wires. And arranging a plurality of auxiliary slabs having a female connecting portion and a male connecting portion in a line so as to span the formed locking jaw. And a gong.

Description

Bridges with auxiliary slabs and plate construction have a birdge and a method of construction therof

The present invention relates to a bridge having an auxiliary slab and a method for assembling the bridge, and more particularly, to a bridge having an auxiliary slab for enduring a load and making the assembly easy, and a method for assembling the bridge.

Typically, a prestressed concrete beam (PC beam) is a reinforced concrete upper slab that is applied to an external load such as a vehicle, and one or more arranged at predetermined intervals below the upper slab to support the upper slab and form a bridge of the bridge. It consists of a PC beam.

The PC beam bridge is composed of a reinforced concrete upper slab loaded to an external load such as a vehicle, and one or more PC beams disposed at predetermined intervals below the upper slab to support the upper slab and form a bridge of the bridge.

Hereinafter, a bridge with a conventional auxiliary slab and a method for assembling the bridge will be described with reference to the accompanying drawings.

1 is a view showing a bridge having a conventional auxiliary slab.

As shown in FIG. 1, the PC beam 10 has a plurality of grooves 20 formed vertically in a longitudinal direction at regular intervals on both sides thereof, and a bolt hole (not shown in the drawings) is formed between the grooves 20. Perforate). Then, the plurality of shear blocks 30 penetrating the bolt hole transversely corresponding to the bolt hole of the groove 20 is inserted between the grooves 20. In addition, a plurality of auxiliary slabs 40 are formed to span the locking projections formed on both upper sides of the PC beam 20.

At this time, the front block 30 and the PC beam 20 is assembled using the bolt 50 so as to be integral, and the auxiliary slab 40 is simply connected to each other.

However, in the conventional bridge auxiliary slab and the bridge assembly method provided with the same, there are the following problems.

When the auxiliary slab is formed to span the PC beam engaging jaw, the plurality of auxiliary slabs are simply connected, so that the load is insufficient later.

And since the assembly using the bolt in the shear block installation there is a problem that the bolt later loosened.

In order to solve the problems as described above, the present invention forms a plurality of auxiliary slabs in a continuous manner in such a manner as to be connected to each other so as to be able to withstand loads later, and a bridge having auxiliary slabs which can be constructed more conveniently. The purpose is to provide an assembly method for this bridge.

1 is a view showing a bridge with a conventional secondary slab

2 is a view showing a bridge having an auxiliary slab according to an embodiment of the present invention.

3 is a view showing a bridge assembly method having an auxiliary slab according to an embodiment of the present invention

4 to 6 are cross-sectional views showing an auxiliary slab according to an embodiment of the present invention.

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

100: pier 110: upper

120: bearing 130: PC beam

140: groove 150: shear block

170: hole 180: steel wire

190: auxiliary slab

Bridge assembly method provided with the auxiliary slab of the present invention for achieving the above object has a length of the upper side to the side, the lower part is installed on the ground based on the pier is installed at a predetermined interval, the upper A bridge having a bidirectional bearing, comprising: forming a PC beam having a plurality of grooves and at least one hole in a transverse direction between the grooves and vertically at regular intervals on both sides on the bearing; Inserting a plurality of transversely extending shear blocks, inserting and fixing a steel wire into the holes of the shear block and the PC beam groove, and tensioning them, and connecting the female connection portions to span the engaging jaw formed on both sides of the upper portion of the PC beam; And a step of forming a plurality of auxiliary slabs having a male connector in a row.

According to a preferred embodiment of the present invention, the auxiliary slab is formed such that a female connecting portion is formed at one end and a male connecting portion is formed at the other end, and the female connecting portion of the other auxiliary slab is connected to the male connecting portion of the other end so that the plurality of auxiliary slabs are arranged in a line. Characterized in that.

According to a preferred embodiment of the above features, the auxiliary slab is formed such that the female connecting portion and the male connecting portion formed at one end and the other end have a step, and the female connecting portion and the male connecting portion are formed in a shape such as 서로 and 서로 mutually arranged in a row. It features.

The preferred embodiment of the above features is characterized in that the tension using the grooving method when inserting the steel wire into the hole formed in the groove and the shear block.

According to a preferred embodiment of the present invention, the auxiliary slab may be formed of concrete having wire mesh in at least one to three or more wires in the longitudinal direction.

In addition, the bridge provided with the auxiliary slab of the present invention for achieving the above object has a length of the upper side horizontally and is installed on the ground based on the ground to the lower part of the bridge is installed at a predetermined interval, the upper In a bridge provided with a bidirectional bearing, a PC beam having a plurality of grooves on both sides and at least one hole in the transverse direction between the grooves, vertically vertically spaced on the bearing, and penetrating laterally between the grooves. A plurality of front end blocks, a plurality of front end blocks, and one end of the female connection part and the other end of the male connection part so as to span the tension wires and the locking jaws formed on both sides of the upper part of the PC beam after being fixed to the holes of the front block and the PC beam groove. It characterized in that it comprises a plurality of auxiliary slab which is formed in a series of excretion.

According to a preferred embodiment of the above feature, the auxiliary slab is formed such that the female connecting portion and the male connecting portion formed at one end and the other end have a step difference from each other, so that the serial excrement connection and the female connecting portion and the male connecting portion are formed in a shape such as 서로, 서로 with each other. It is characterized by connecting excretory.

According to a preferred embodiment of the present invention, the auxiliary slab may be formed of concrete having a wire mesh in at least one to three or more wires in a longitudinal direction.

Hereinafter, a bridge with an auxiliary slab of the present invention and an assembly method of the bridge will be described in detail with reference to the accompanying drawings.

2 is a view showing a bridge having an auxiliary slab according to an embodiment of the present invention, Figure 3 is a view showing an assembly method of a bridge having an auxiliary slab according to an embodiment of the present invention.

4 to 6 are cross-sectional views illustrating the auxiliary slab according to the embodiment of the present invention.

As shown in Figure 2 and 3, the upper portion 110 has a horizontal length to some extent, the pier 100 which is installed based on the ground to the lower side is installed at a predetermined interval, the pier 100 Concrete PC beams 130 are arranged at regular intervals between the upper portions 110, and bidirectional bearings 120 are installed at upper portions 110 of the lower portions of the PC beams 130. In addition, an upper plate (not shown) is mounted on the PC beam 130 to form a bridge.

Here, the PC beam 130 forms a plurality of grooves 140 vertically on both sides in the longitudinal direction at regular intervals, and a plurality of shear blocks penetrating the grooves 140 laterally between the grooves 140. Insert 150. In addition, less than one hole 170 is drilled in the transverse direction between the grooves 140 and the front end block 150, and the steel wire 180 is inserted into and fixed in the hole 170. At this time, when the steel wire 180 is inserted into the hole 170, it is tensioned using a grouty method.

Subsequently, a plurality of auxiliary slabs 190 are disposed in a line so as to span the locking step formed on both sides of the upper portion of the PC beam 130. At this time, the auxiliary slab 190 has a female connecting portion at one end and a male connecting portion at the other end, and the male connecting portion of the other auxiliary slab is connected to the female connecting portion at one end so that the plurality of auxiliary slabs 190 are disposed in a line. 200) to form.

The female connecting portion and the male connecting portion formed at one end and the other end of the auxiliary slab 190 as shown in FIG. 4 are formed to have a step, and the female connecting portion and the male connecting portion formed at one end and the other end of the auxiliary slab 190 as shown in FIG. It is formed in the form of 凹, 凸 and mutually excreted in a row.

In addition, the auxiliary slab 190 has at least one to three or more steel wires in the longitudinal direction.

In addition, as shown in FIG. 6, the auxiliary slab 190 is concrete having a wire mesh.

As such, the steel wire is put into the auxiliary slab 190 so that it can withstand the load later.

As described above, in the bridge provided with the auxiliary slab of the present invention and the assembly method of the bridge, the following effects are obtained.

One end and the other end of the auxiliary slab is formed in the shape of the step and 凹, 凸, and then a plurality of auxiliary slabs are arranged in a row to withstand later loads well.

In addition, since the concrete auxiliary slab having at least one or more steel wires and wire meshes therein, the future load is good.

In addition, since the steel wire is inserted into and fixed in one or more perforated holes after being stretched in the lateral direction between the PC beam grooves and the shear block, the construction is simpler and shorter the construction time when forming the shear block by field assembly. You can.

And the shear block is fixed with steel wire, so it is safer.

Claims (8)

In the bridge having the upper portion 110 has a length in the horizontal direction, the pier 100 is installed on the ground to the lower side and erected at regular intervals, the bi-directional bearing 120 is provided in the upper portion 110, Forming a PC beam 130 perpendicular to the longitudinal direction on the bearing 120 in a longitudinal direction and having a plurality of grooves 140 and at least one hole 170 in the transverse direction between the grooves 140 on both sides thereof. Wow; Inserting a plurality of shear blocks (150) penetrating laterally of the groove (140) between the grooves (140); Inserting and fixing a steel wire (180) in the hole (170) of the shear block (150) and the PC beam (130) groove, and tensioning; Comprising a step of forming a plurality of auxiliary slab 190 having a female connecting portion and a male connecting portion in a row so as to span the engaging jaw formed on both sides of the upper portion of the PC beam (130) Bridge assembly method. The method of claim 1, The auxiliary slab 190 has a female connector at one end and a male connector at the other end, and the female connector of the other auxiliary slab is connected to the male connector of the other end so that the plurality of auxiliary slabs 190 are arranged in a row. Bridge assembly method having an auxiliary slab, characterized in that. The method of claim 1, The auxiliary slab 190 is formed so that the female connection portion and the male connection portion formed at one end and the other end having a step, and the female connection portion and the male connection portion formed in a shape such as 凹, 서로 mutually excreted in a row Bridge assembly method with slab. The method of claim 1, Bridge assembly method with a secondary slab, characterized in that the tension using a grooving method when inserting the steel wire 180 in the hole 170 formed in the groove 140 and the shear block 150. The method of claim 1, The auxiliary slab (190) inside the bridge assembly method having a secondary slab characterized in that the steel wire in the longitudinal direction formed from at least one to three or more and the wire mesh. In the bridge having the upper portion 110 has a length horizontally and is installed based on the ground to the lower portion, the pier 100 is installed at a predetermined interval, the bi-directional bearing 120 is installed in the upper portion 110, A PC beam 130 perpendicular to the bearing 120 in the longitudinal direction at a predetermined interval and having a plurality of grooves 140 and at least one hole in the transverse direction between the grooves 140 on both sides; Between the grooves 140 and a plurality of shear block 150 penetrates laterally of the grooves 140 A steel wire 180 which is fixed after being inserted into and fixed to the hole 170 of the groove of the shear block 150 and the PC beam 130; The auxiliary slab is provided with a plurality of auxiliary slabs 190 which are arranged in a row to connect one end of the female connecting portion and the other end of the male connecting portion so as to span the engaging jaw formed on both sides of the upper portion of the PC beam 130. Bridges. The method of claim 6, The auxiliary slab 190 is formed such that the female connection portion and the male connection portion formed at one end and the other end have a step with each other to form a series of excretory connection and the female connection portion and the male connection portion in the form of 凹, 서로 mutually excreted in a row Bridge having an auxiliary slab, characterized in that. The method of claim 6, The secondary slab (190) is a bridge having a secondary slab, characterized in that the steel wire is formed of concrete having at least one to three or more wire mesh in the longitudinal direction.