KR20160142985A - Concrete Girder With Coupler And Method For Constructing Rhamen Bridge Using The Same - Google Patents

Abstract

The present invention relates to a Rahmen bridge structure and a construction method for a Rahmen bridge, wherein the construction method comprises the following steps of: (S1) manufacturing a girder; (S2) constructing an abutment or a pier; (S3) mounting the girder in the abutment or the pier; (S4) individually and spirally coupling a reinforcing bar to couplers (2, 2a); (S5) demolishing a temporary vent; (S6) depositing a slab and a major angle portion to be integrated; and (S7) backfilling and paving the Rahmen bridge.

Description

Technical Field [0001] The present invention relates to a concrete girder having a coupler and a method of constructing a concrete girder using the same,

The present invention relates to a concrete girder having a coupler and a method of constructing a ramen bridge using the same, more particularly, to a concrete girder using a coupler, wherein an upper structure including a girder, a beam, a slab, And a method of construction thereof.

Unlike the girder bridges, which are constructed separately from the upper structure and the lower structure of the bridges, the bridges are constructed with the upper structure and the lower structure of the bridges integrally, which is advantageous from the standpoint of maintenance and maintenance. However, since the moment generated by the external load increases as the span of the reinforced concrete ramen bridge becomes longer, it can not be applied to a bridge having a span of 15 m or more. Therefore, in order to widen the span, To the girder. When reinforcing a stranded wire to a girder, the joints of the alternating and superstructures are to be strengthened by means of steel rods or joints.

There are the following conventional techniques as a technique of using a steel rod or a connecting body to form a strong connection.

Korean Patent No. 10-1007708 discloses a foundation grounded on a ground; A wall on which the concrete section is installed separately; Means for connecting the wall to the foundation; A connection rigidly mounted on the wall; An upper beam coupled to the connecting rigid; And semi-hinged ramen bridges composed of a covering concrete paved so as to cover the connection steel with the upper beam. However, in the above-mentioned patent, when a connecting steel is to be installed on the upper part of the wall and the connecting steel is connected to the upper structure at the same time as the concrete is poured, the connecting operation is very difficult due to the movement of the girder. In addition, it is necessary to use a large amount of connection steel, which leads to an increase in construction cost and a long construction period.

In Korean Patent No. 10-0889273, a steel girder made of an I-shaped steel plate or a section steel is used, and both ends of the girder are formed with through holes penetrating the upper and lower surfaces, Shaped channel member are connected to each other by a connecting member formed by a 'C' -shaped channel member provided laterally on the upper surface of the upper flange of the steel girder, and the upper end of the inner reinforcing bar And the inner reinforcement and the steel girder drawn out from the alternation are connected to each other. However, in the above-mentioned patent, in order to alternately strengthen both ends of the girder, an inner reinforcing bar and a tension member are alternately installed in advance, and a through hole is formed in the upper and lower flanges so that a steel bar, It is necessary to provide a fixing fixture and a tension member in advance at the upper part of the wall as in the above patent, and when these are connected to the upper structure at the same time as the concrete is poured, the connecting operation of the tension member is very difficult due to the movement of the girder. to be.

Korean Patent No. 10-1260027 discloses a synthetic ramen bridge construction method of connecting a bridge between a girder and an alternating bridge. When such a bridge bridge is used to connect the bridge with the girder, the roots of the bridge bridge It is not deep and drawability is high.

In Korean Patent Application No. 10-2013-0015767, PS steel through-holes are formed in both ends of the PSC girder in the vertical direction, and PS steel through-holes are formed in the both side crossbar blocks in the lateral direction, PSC girder bridges are described which are composed of simple PS steel, reinforced concrete and concrete. However, in the above patent, it is very troublesome to insert the steel rods in a complicated manner by drilling holes in advance and in the girders in advance, and furthermore, it is very difficult to accurately insert the steel rods. Further, holes are formed in the girder, which causes a problem that the structural strength is affected by the sectional loss.

As described above, in the above-mentioned known patent documents, a method in which a steel bar or a connecting body is first embedded in a bridge substructure and then connected to an upper structure is used. In order to accurately insert or connect the girder, It is difficult to precisely embed the concrete into the concrete structure, and there is a problem that it is difficult to secure the position due to the movement due to the concrete pouring during the substructure construction.

In addition, it may be necessary to dismantle a part of the already installed lower structure in order to accurately insert or connect the steel rods or the connecting body to the girder.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a method and apparatus for connecting a steel bar or a connecting body installed alternately to a girder by simply and easily connecting a coupler to a lower surface of the girder without breaking the lower structure And a method of constructing a ramen bridge using the same.

It is an object of the present invention to provide a railway bridge made up of girders, alternating or piercing, and reinforcing rods which are laid on right and left piers, and which have a hexagonal or octagonal plane, A plurality of " a " -type tensions which are bent in a vertical direction and have a helix functioning as a bolt, are formed in the upper part of the coupler, Characterized in that the vertical reinforcement is embedded in the upper surface of the alternating wall vertically and the end is formed with a spiral and the tension member and the vertical reinforcement are spirally coupled by the coupler.

In another embodiment of the present invention, the end portion of the right-angled portion of the right-angled portion of the right-angled portion of the alternating right-angled portion is vertically bent downwardly and the end portion thereof is formed with a helix functioning as a bolt. The present invention provides a railway bridge structure in which a helical line functioning as a bolt is formed at the end portion of a right-angled main-rail and a right-angled portion of a vertical reinforced-

Another embodiment of the present invention is to provide a raymen bridge structure characterized in that the ends of the vertical reinforcing bars embedded in the alternation are bent downwardly in an inclined manner in order to increase the inner vocalization.

The present invention also provides a method of constructing a ramen bridge comprising the following steps S1 to S7:

A step S1 of forming a girder by connecting a '?' Shaped torsion bar having a spiral functioning as a bolt to a lower surface of both ends of the girder, after spirally coupling the torsion bar with a coupler;

(S2) of forming a spiral on one side of the end portion and embedding the downwardly bent right side portion of the vertical reinforcing bar so as to expose the spiral end so as to increase the inner vocalization;

- installing (S3) a temporary vent to mount the girder over the shift;

A step (S4) of joining the reinforcing bars to the alternating bottom plate (11), the right corner portion and the fulcrum portion after connecting the torsion bar reinforcing bars, the alternating wall reinforcing bars, the right reinforcing bars and the right reinforcing bars to the couplers respectively;

(Step S5) of pouring the concrete into the lower surface of the girder 1 so as to bury the vertical reinforcing bars 4 and the right reinforcing bars 4a on the alternate floor 8 to form the bottom plate 11, );

- step (S6) of putting the slab and the right-angled portion into a unified body; And

- backfilling and packing (S7).

According to another embodiment of the present invention, there is provided a method of constructing a ramen bridge using an alternation or pier in which a protruding block is formed at an upper end, instead of using a temporary vent to mount the girder in step S3.

When a concrete girder having a coupler according to the present invention and a ramen bridge using the same are used, a steel bar or a connecting body installed alternately without breakage of a lower structure already constructed for installing a steel bar or a connecting body can be easily The construction cost can be greatly reduced, and the construction period can be greatly shortened.

1 is an exploded perspective view of a ramen bridge constructed by installing a plurality of couplers on a lower surface of a girder according to the present invention.
2 is a side cross-sectional view of a girder provided with a plurality of couplers according to the present invention.
3 is a bottom view of a girder provided with a plurality of couplers according to the present invention.
FIG. 4 is a view showing a state in which a tension member and a vertical reinforcing bar are connected to each other by a coupler in the right and left corners of the girder, and a right reinforcing bar and a vertical reinforcing bar are respectively connected.
5 is a view showing a state in which a vertical reinforcing bar provided at a pier of a continuous bridge is connected to a coupler.
6 is a view showing that a coupler is connected and then a bottom plate is formed according to the present invention.
7 is a view showing a state in which a slab and a right angle part are integrally poured with concrete according to the present invention.
FIG. 8 is a process diagram for constructing a ramen bridge by using a temporary vent in order to mount a girder provided with a plurality of couplers alternately according to the present invention.
FIG. 9 is a process diagram for constructing a ramen bridge using a protruding block on an alternate floor in order to mount a girder provided with a plurality of couplers on an alternate embodiment according to the present invention.

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

1 is an exploded perspective view of a ramen bridge constructed by installing eight couplers 2 on the lower surface of both ends of the girder 1 according to the present invention. The coupler 2 according to the present invention can be suitably used for the girder 1, particularly the PSC (Prestressed Concrete) box girder 1. [

2 is a side cross-sectional view of a girder 1 provided with a coupler 2 according to the present invention. The coupler 2 is formed in a hexagonal or octagonal planar shape and has a hole 5 through which a spiral is formed at its center. Therefore, the coupler 2 has a function of a kind of a nut. The upper part of the coupler 2 is coupled with the 'a' shaped tie 3. A reinforcing bar is used as the tension member 3 and the tension member 3 is embedded in the lower portion of the girder 1 in order to reduce the momentum applied to the girder 1 and extends in the longitudinal direction of the girder 1 And the end portion thereof is formed with a helical line functioning as a bolt and bent in the vertical direction to be helically engaged with the coupler 2. At this time, the helical end of the tensile member 3 is fastened only about half the length of the helical hole 5 of the coupler 2. The torsionally coupled tension member 3 and the coupler 2 are embedded in the girder 1 when the girder 1 is manufactured.

The spiral end of the tension member 3 is embedded in the remaining spiral hole 5 which is fastened to about half of the spiral end with the spiral end exposed perpendicularly to the upper surface of the alternating column 8 and the pier wall, And is coupled with the vertical bar 4 formed with the spiral.

3 is a bottom view of a girder 1 provided with eight couplers 2 according to the present invention. The coupler 2 is embedded at both ends of the girder 1 so as to coincide with the lower surface of the girder 1. Although the number of couplers 2 is shown in the drawings of the present invention, the number of couplers 2 can be increased or decreased as needed.

Fig. 4 is a view showing a state in which the tension member 3 and the vertical reinforcing bars 4 and the right and left vertical bars 4 and 7a and the right and left vertical reinforcing bars 4a, And connected to the coupler 2a. The main section 7 of the right angles is installed on the girder 1 before the slab 6 is installed and the ends of the main section 7 are bent downward perpendicularly to the right corner of the girder 1, Of the screw hole length. The right-angled vertical reinforcing bars 4a are embedded in the shift 8, and the ends of the vertical reinforcing bars 4a are bent downward at an end portion thereof in order to increase the inner vocalization (see FIG. 4).

The tension member 3 and the vertical reinforcing bars 4 and the right and left vertical reinforcing bars 7 and 4a are connected to the couplers 2 and 3 at the right corner where the shift 8 and the girder 1 are connected, Are connected to the respective corner couplers (2a), thereby decreasing the moment at the focal point.

In the case where a bridge bridge is constructed between the alternation and alternation and a continuous bridge is constructed, only the pier vertical rebar 4a is used, but the vertical bridge is not used (see FIG. 5).

Hereinafter, a method of constructing a ramen bridge using the coupler (2,2a) according to the present invention will be described in detail.

A girder (1) which can be preferably used in the present invention is a PSC box girder (1). The 'a' shaped torsion bar 3 having a spiral function as a bolt is formed on the lower surface of both ends of the girder 1 by spirally coupling the torsion bar 3 with the coupler 2 and then embedded to manufacture the girder 1 (step S1).

A spiral line is formed on one side of the end portion and a downwardly bent right side vertical bar 4a is embedded in the other side so as to expose the spiral end so as to increase the inner vocalization.

Next, a temporary vent 9 is installed to mount the girder 1 on the shift 8 (step S3). (8), the wall reinforcing bars (4), and the reinforcing bars (7) and the right reinforcing bars (4a) are connected to the couplers (2, 2a) 11), reinforcing bars are arranged in the right and left corner portions (Step S4). The bottom plate 11 is formed by pouring concrete into the lower surface of the girder 1 so as to embed the vertical reinforcing bars 4 and the right reinforcing bars 4a on the alternation 8 6) and removes the hypothetical vent 9 (step S5). Then, as shown in Fig. 7, the slab and the right-angled portion are poured into concrete and integrated (see Fig. 7) (Step S6). Then, backfilling and packing are performed to complete the construction of the ramen bridge (step S7).

As another embodiment of the present invention, an alternation 8 or a bridge having a protruding block 10 at the top may be used instead of using the temporary vent 9 for mounting the girder 1 in the step S3. All the other processes (steps S1, S2, S4, S5, S6, and S7) are the same as described above.

1: PSC box girder 2: Coupler for girder
2a: Right Angle Coupler 3: Tension Reinforcing Bar
4: Alternating wall vertical wall 4a: Vertical wall vertical wall
5: Spiral hole 6: Slab
7: Rectangular section of right angles 8: Shift
9: hypothetical vent 10: protruding block
11: bottom plate

Claims (5)

In a girder (1), an alternation or pier, and a ramen bridge made of reinforcing bars laid at the right and left piers,
A plurality of couplers 2 each having a hexagonal or octagonal plane and through which a hole 5 having a helix formed at its center is passed are embedded at both ends of the girder 1 so as to coincide with the lower surface of the girder 1 , And an end portion of the coupler 2 is connected to the upper portion of the coupler 2 so that the end portion thereof is bent in the vertical direction and the spirally formed 'A' shaped tension member 3 having a bolt function is spirally engaged. Characterized in that the reinforcing bridges (3) and the vertical reinforcing bars (4) are spirally engaged by the coupler (2).
The method according to claim 1,
The ends of the right and left main reinforcing rods 7 are bent downward perpendicularly at the corners of the alternating and girders, and the ends of the right and left reinforcing rods 4a are alternately buried. And the vertical reinforcing bars 4a, which are alternately buried at the ends of the right leg steel rods, are helically connected by the coupler 2a.
The ramming bridge structure according to claim 1 or 2, wherein the ends of the vertical reinforcing bars (4a) of the right-angled portion embedded alternately are bent downwardly in an inclined manner in order to increase the inner vocal tract.
A method of constructing a ramen bridge comprising the steps of:
(S1) of fabricating a girder by embedding a spiral-connected tensile steel bar (3) and a coupler (2) in a girder (1);
A step (S2) of alternating or piercing the vertical reinforcing bars (4a) on the walls of alternating or piers;
- mounting (S3) the girders alternately or at a pier after installing the hypothetical vent (9);
- Reinforcing bars are placed in the bottom plate (11), the alternating corners and the bridge piers, and the torsion bars and the alternating wall vertical bars and the vertical bars (7) and the vertical bars (4a) (S4);
- step (S5) of pouring the concrete into the lower surface of the girder so that the vertical reinforcing bars (4) and the right reinforcing bars (4a) are embedded in the alternating frame to form the bottom plate (11) and then removing the temporary vent (9);
A step (S6) of putting the slab (6) and the right-angled portion into a unified body; And
- the step of installing the backfill and connecting slab (S7).
5. The method of claim 4,
Wherein a protruding block (10) is formed at the top of alternating or pierced bridges (10) instead of using said temporary vent (9).

Images