KR20170093743A - Beam bridge having beam support block and its construction method - Google Patents

Abstract

The present invention relates to a beam bridge having a beam support plate, and to a method for constructing the same. A beam support plate is installed, and thus the length of a beam can be reduced. A conduction preventing effect of a beam is improved, and productibility is enhanced through a structural simplification of a beam. Multiple beams and slabs arranged in a lateral direction (longitudinal direction/lateral direction) are integrally synthesized and constructed, and thus structural stability is maximized. The beam bridge having a beam support plate according to the present invention comprises: a bottom structure including a pair of abutments or a pair of abutments and one or more piers; a beam support plate used as a mold and a floor beam, produced by a precast concrete, and installed on the bottom structure through a bridge seat; two or more beams disposed on the beam support plate where both length direction sides thereof are in neighbor with; a rebar for coupling the beam support plate and the beam; and a synthetic-type slab simultaneously deposited to the inside of the beam support plate, between the beams, and at the top of the beams, and integrally synthesized with the beam support plate and the beam. The beam support plate comprises: a floor part; a beam arranging part stood on the floor part, and having the beams inserted and disposed thereon; a beam support wall serving as a mold; and a mold wall stood on a place where the beam support wall is not formed. Accordingly, as the beams are disposed, a concrete depositing space is formed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a beam bridge having a beam receiving plate,

The present invention relates to a beam bridge having a beam receiving plate and a method of constructing the beam bridge. More particularly, the present invention relates to a beam bridge having a beam receiving plate, It is possible to reduce the number of shoe by installing the beam supporting plate directly on the lower structure, and it is easy to manufacture by installing and removing the sole plate during the beam manufacturing. Also, it is possible to construct the upper structure (beam, A beam connected to the beam, and a slab placed on the upper part) to improve the structural stability, and a method of constructing the beam bridge.

A bridge is a structure to be installed to be able to cross a river, a valley, and the sea. The bridge is composed of a lower structure (alternation, pier) and an upper structure to be installed on the lower structure. In the beam bridge according to the present invention, A plurality of beams that are mounted through the calibration device, and a slab that is installed on the beam.

The background art of the present invention can be confirmed in, for example, Patent Registration No. 10-0703134.

Conventional beam bridges are arranged with a plurality of beams along the transverse direction and are respectively installed in the lower structure through a quasi-system.

However, in the beam bridge according to the related art, since the beam is directly supported on the lower structure, there is a problem that the length of the beam is so long as to be supported by a large area on the lower structure for stable support, Therefore, there is a problem in that conduction occurs during the construction. Since the sole plate must be provided to correspond to each of the beams, there is a problem in that it is troublesome to manufacture and use a large number of teaching apparatuses.

In addition, the conventional continuous bridge of beam is designed by designing the beam as a simple beam and by designing the continuous bridge in which only the slab is integrated, the structural efficiency of the beam is lowered by reinforcing the momentum generated at the fulcrum of the pier to the upper surface of the slab have.

In addition, the conventional beam bridge has a problem in that it requires a long time for the construction of the lower structure because of the stepwise difference in height between the alternating and pivoting bridges, considering the transverse inclination.

In the patent document (Japanese Unexamined Patent Application Publication No. 2009-256873), a longitudinal beam bearing flange (end portion) and a connecting portion concrete (focal point portion) are provided on a lower structure and a precast longitudinal beam is provided thereon. (End portion) and the connecting portion concrete (fulcrum portion). However, this is not a technique for integrally synthesizing the upper structure, but merely filling the empty space.

Korean Patent No. 10-0703134 Japanese Patent Application Laid-Open No. 2009-256873

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a beam receiving plate capable of reducing the length of a beam, increasing the effect of preventing the beam from being transmitted, The present invention provides a beam bridge having a beam receiving plate for maximizing structural stability by integrally combining a plurality of beams and slabs arranged in a lateral direction (longitudinal direction / lateral direction) and a construction method thereof.

In order to achieve the above object, a beam bridge with a beam receiving plate of the present invention includes a lower structure having a pair of alternating or alternating pairs and at least one pair of intersecting angles; A beam receiving plate which is made of precast concrete and which is provided on the lower structure and also serves as a formwork and a cross beam; Two or more beams that are placed on the beam receiving plates adjacent to each other in the longitudinal direction; A reinforcing bar for coupling the beam receiving plate and the beam; And a composite type slab which is concurrently disposed between the inside of the beam receiving plate and the beams and integrally combined with the beam receiving plate and the beam, and the beam receiving plate is fixed to the bottom and the bottom A beam supporting wall which forms a beam aligning part in which the beam is inserted and fixed, and a mold supporting wall which is formed at a position where the beam supporting wall is not formed, and which forms a pouring space of the concrete .

According to the beam bridge having the beam receiving plate of the present invention and the construction method thereof, after the beam is mounted on the beam receiving plate, it is combined with the composite slab and the concrete to make the length of the beam shorter than when the beam is installed directly on the lower structure And the beam is supported by the beam supporting wall of the beam receiving plate to prevent conduction of the beam during installation, and the sole plate is excluded from the beam and installed on the beam receiving plate, The support plate is installed on the lower structure via the coaxial device, thereby improving the productivity of the beam and reducing the number of the coaxial devices.

Since the beam supporting plate supports and aligns the beam and also functions as a formwork, it is possible to simultaneously insert the composite slab through the installation of the beam receiving plate, so that the construction is simple and the beam and the beam by the beam- The slab is constructed by simultaneous casting of a single process and is integrally formed, thereby securing a great rigidity and improving the stability.

Further, since the bridge surface of the lower structure can be easily horizontally installed through the transverse inclination of the beam receiving plate, the workability is excellent.

1 is a front view of a beam bridge with a beam receiving plate according to an embodiment of the present invention;
2 is a plan view of a beam bridge with a beam receiving plate according to an embodiment of the present invention;
3 is a perspective view of a beam receiving plate for an end applied to a beam bridge having a beam receiving plate according to an embodiment of the present invention.
4 is a perspective view of a beam receiving plate for a continuous focal point applied to a beam bridge having a beam receiving plate according to an embodiment of the present invention.
FIG. 5 is a front view showing an example of a beam applied to a beam bridge having a beam receiving plate according to an embodiment of the present invention; FIG.
FIGS. 6A and 6B are a plan view and a front view, respectively, of a beam applied plate and a beam receiving plate for a beam applied to a beam bridge having a beam receiving plate according to an embodiment of the present invention.
FIGS. 7A and 7B are a plan view and a front view, respectively, of a beam applied to a beam bridge having a beam receiving plate according to an embodiment of the present invention, and a beam receiving plate for a continuous spot portion.
FIG. 8 and FIG. 9 are front views showing a beam applied to a beam bridge having a beam receiving plate according to an embodiment of the present invention, and a beam receiving plate for a beam, and a beam receiving plate for a continuous spot, respectively.
10 is a view showing a construction process of a beam bridge having a beam receiving plate according to an embodiment of the present invention.
Figs. 11 and 12 are diagrams showing another construction state of the beam bridge with the beam receiving plate according to the present invention, respectively.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the user, the intention or custom of the operator, and the like.

Therefore, it goes without saying that the definition should be based on the contents throughout this specification.

As shown in FIGS. 1 and 2, a beam bridge with a beam receiving plate according to the present invention includes an alternating frame 10 and a bridge 20 as a lower structure, a beam receiving plate A beam 50 placed on the beam receiving plate at both sides in the longitudinal direction while being spaced apart from each other with a predetermined distance therebetween along the longitudinal direction, And a composite slab 60, which is integrally combined with the beam receiving plate and the beam 50 via a support plate, and is installed by being poured into concrete at the same time.

The lower structure is a bridge 20 of one or more (illustratively one shown in the figure) bridge 20 constructed between a pair of alternating 10 and alternating 10, It is also possible to construct with only the alternation (10). In addition, when the alternating beam 10 and the bridge 20 are formed, all the beams 50 can be continuous in the longitudinal direction and can be divided into two or more zones so that the upper structures of the neighboring zones are not continuous. Do.

The beam receiving plate is installed on the lower structure and supports two or more beams 50. The beam receiving plate is divided into a beam receiving plate 30 for the end and a beam receiving plate 40 for the continuous spot, .

The beam supporting plate 30 for the end is provided at the both ends of the beam bridge or at the portion where the beam is disconnected together with both edges in the case of the superstructure repeater beam bridge, thus supporting the beam 50 on only one side.

The beam receiving plate 50 for the consecutive focal points is configured to connect the adjacent beams 50 and thus supports the ends of the adjacent beams 50 together.

The beam receiving plate 30 for the end portion and the beam receiving plate 40 for the continuous post portion are characterized in that they function as a beam for connecting two or more beams 50 and a concrete for casting concrete. Beam supporting walls 33 and 43 which are formed on the bottom portions 31 and 41 and the bottom portions 31 and 41 and form a space of the beam arranging portions 32 and 42 and which support the beam 50, And form walls 34 and 44 functioning as a wall.

The beam supporting plate 30 for the end is preferably square in plan view and is provided with a beam supporting wall 33 on one side and a molding wall 34 on the other three sides in accordance with the function for the end, According to the structure, the beams 50 are inserted into the beam arranging portion 32 between the beam supporting walls 33 so that the beam supporting plate 30 for the end is clogged, Concrete can be poured.

The beam receiving plate 40 for the continuous focal point is preferably rectangular and has a beam supporting wall 43 on two facing faces (a relatively long face) as viewed in plan view, .

The beam receiving plate 30 for the end portion and the beam receiving plate 40 for the continuous portion are shown as being stepped from one side to the other side along the lateral direction in consideration of the transverse inclination in the drawing, There is also an effect of constructing the bridge surfaces of the substructures 10, 20 without steps. Of course, it is also possible that the beam receiving plate 30 for the end portion and the beam receiving plate 40 for the continuous spot portion do not have a stepped bottom for the case in which a stepped construction is unnecessary.

Likewise, when the beams 50 are inserted into the beam aligning portion 42, the peripheries of the beam receiving plate 40 for the continuous focal point are blocked so that a space opened only in the upper portion is formed therein.

The beam supporting plate 30 for the end portion and the beam supporting plate 40 for the continuous point portion are formed by projecting the reinforcing bars 35 and 45 to the upper portions of the bottom portions 31 and 41, Can be bound. At this time, the composite reinforcing rods 35 and 45 are formed at positions that do not interfere with the mounting of the beam 50. Also, the reinforcing steel for synthesis is formed by partially projecting reinforcing bars on the beam supporting plate 30 for the end portion and the beam supporting plate 40 for the continuous point portion, and the reinforcing bars are directly overlapped by the operator in the field.

A sol plate (55) is embedded in the beam supporting plate (30) for the end portion and the beam supporting plate (40) for the continuous point portion at the bottom corresponding to the shoe.

A stretch joint of the upper structure is installed together with the beam receiving plate 30 for the end. The expansion joint device can be made of a variety of products such as a plate-shaped or box-shaped elastic material, a filler material of an elastic material, and a finger joint.

Conventionally, when each beam is installed through a shoe, for example, four beams are installed, eight shots are used even if one shoe is provided on one side of the beam. However, the present invention is applicable to the two end beam supporting plates 30 ) And the beam supporting plate 40 for the continuous post part are installed through the shoe and use four shamans.

Although not shown in the drawings, an alignment jaw for supporting the end portion of the beam 50 may be provided inside the beam receiving plate 30 for the end portion and the beam receiving plate 40 for the continuous post portion.

The beam supporting plate 30 for the end portion and the beam supporting plate 40 for the continuous point portion are integrally formed with the bottom portions 31 and 41, the beam supporting walls 33 and 43 and the molding walls 34 and 44, The bottom portions 31 and 41 and the beam supporting walls 33 and 43 and the mold walls 34 and 44 are manufactured as a single product and then assembled in a factory or in the field ) Is also possible.

The beams 50 are arranged in the longitudinal direction between the lower structures and two or more are arranged at regular intervals along the lateral direction. At this time, the longitudinal direction (longitudinal direction) The end portions of the beam supporting plate 30 and the beam supporting walls 40 and 43 of the beam supporting plate 40 for the continuous focal point are supported by the beam supporting plates 30 and 40 for the continuous focal point, The left and right sides of the beam support walls 33 and 43 or the beam support walls 33 and 43 and the formwork wall 33 and 43 are inserted into the beam arranging parts 32 and 42 between the beam arranging parts 32 and 42, (34, 44).

The beams 50 can be various beams such as a PSC beam, a steel beam, a steel composite beam, and can be used in a longitudinal / transverse direction in a state of being mounted on the beam receiving plate 30 for the end and the beam receiving plate 40 for the continuous spot. A projecting reinforcing bar 51 for bonding with another beam 50 (or the beam supporting plate 30 for the end and the beam supporting plate 40 for the continuous supporting portion) adjacent to the beam supporting plate 50, and a joining steel. The projecting reinforcing bar has a longitudinally projecting reinforcing bar 51 (see FIG. 5) projecting longitudinally for binding with another longitudinally adjacent beam 50, and another longitudinally projecting reinforcing bar 51 A laterally protruding reinforcing bar projecting in the lateral direction, or the like is possible.

5 shows an example of the longitudinally projecting reinforcing bar 51. The longitudinally projecting reinforcing bar 51 is composed of a horizontal portion projecting forward from the beam 50 and a vertical portion extending vertically from the horizontal portion toward the lower portion or the upper portion Vertical portions, and are formed at two positions in the upper and lower portions, and a plurality of portions are projected and arranged along the lateral direction.

6A and 6B are plan views showing the connection state of the beam 50 and the beam receiving plate 30 for the end and the protruding reinforcing bar 51. FIGS. 7A and 7B are views showing the beam 50 and the beam receiving plate 50 and a projecting reinforcing bar 51. FIG.

As shown in Figs. 6A and 6B, the longitudinally projecting reinforcing bar 51 is disposed in the beam receiving plate 50 for the end, and is buried in the concrete of the composite slab 60. Fig. At this time, it is preferable that the longitudinally projecting reinforcing bars 51 are bound to the reinforcing bars 35 projecting upward from the bottom portion 31 of the beam supporting plate 30 as shown in FIG.

As shown in Figs. 7A and 7B, the neighboring beams 50-1 and 50-2 are inserted and held in the beam receiving plate 40 for the continuous focal point. At this time, as shown in Fig. 9, It is preferable to be joined to the reinforcing bar 45 which is protruded upward from the bottom portion 41 of the plate 40.

The composite reinforcing bars (35, 45) can be applied in various quantities, shapes and directions.

The longitudinally projecting reinforcing bars 51-1 and 51-2 overlap each other along the lateral direction and are bound together through a wire or the like.

The beam 50 includes a fixing flange 52 fixed to an end of the beam receiving plate 30 for the end portion and the bottom portion 31 and 41 of the beam supporting plate 40 for the continuous fulcrum do.

The fixing flange 52 is formed as a bottom portion of the beam 50 at two positions on the transverse direction and protrudes in the longitudinal direction or protrudes in the lateral direction to constitute an anchor hole for installation of the anchor 53.

In addition, the beam 50 may have a structure in which the entire section has the same cross section along the longitudinal direction, and a structure in which the cross section is used. For example, as shown in Figs. 6A to 7B, Shaped flange 54 arranged in line with the auxiliary beam supporting plate 30 and the beam supporting walls 33 and 43 of the continuous supporting beam supporting plate 40 to provide a concrete mounting surface.

The wall-like flange 54 can be both vertical and inclined (downwardly inclined to the end).

An elastic support is provided on the end portions 31 and 41 of the beam supporting plate 30 for the end portion and the beam supporting plate 40 for the continuous portion and the beam 50 is provided on the elastic support.

If the length of the beam 50 is long, for example, the middle portion between the longitudinally opposite ends of the beam 50 may be structurally weak. In order to solve this problem, the beam 50 may have one or more cross- It is also possible to do. And a beam for horizontal viewing.

The composite slab 60 is characterized by simultaneously piercing the continuous portion and the upper portion on the alternating side 10 side and on the pier 20 side and the plurality of beams 50 are bound together through the beam receiving plates 30, And the upper structures (the beam receiving plates 30 and 40, the beam 50, and the composite slab 60) are integrally formed by being integrally combined with each other by concrete pouring.

A construction method according to an embodiment of the present invention will be described with reference to FIG.

1. Construction of substructure.

A bridge 20 is constructed between a pair of alternations 10 and this alternation 10. The construction of these (10, 20) can be variously constructed by a method widely used in bridges, and a detailed description thereof will be omitted.

2. Construction of beam support plate.

The beam receiving plate 30 for the end portion is provided together with the hydraulic jack on the upper portion of the alternation 10 and the beam receiving plate 40 for the continuous point portion is provided on the pier 20 together with the hydraulic jack.

3. Install beam and anchor.

Both longitudinal ends of the beam 50 are mounted over the beam receiving plate 30 for the adjacent end and the beam receiving plate 40 for the continuous spot. The beam 50 is inserted and held in the beam arranging portions 32 and 42 between the beam supporting plate 30 for the end portion and the beam supporting walls 33 and 43 of the beam supporting plate 40 for the continuous post portion, 33, 43).

The elastic support is provided on the end portions 31 and 41 of the beam supporting plate 30 for the end portion and the beam supporting plate 40 for the continuous portion.

The beam 50 is fixed to the beam receiving plate 30 for the end and the beam receiving plate 40 for the continuous spot by providing the anchor on the fixing flange of the beam 50, Maximizes the anti-fall effect.

4. Concrete pouring after rebar assembly.

The reinforcing bars (various assemblies such as the assembling of the protruding reinforcing bar and the cast iron reinforcing bars) are assembled in the beam 50 and the beam supporting plate 30 for the end, the beam 50 and the beam 50 for the continuous focal point, (50, 30) (50, 50, 40).

Also, a mold is installed between the beams 50 and a reinforcing bar is assembled in the composite slab 60 space.

The beam receiving plate 30 for a single end, the plurality of beams 50, the beam receiving plate 40 for a continuous focal point, the plurality of beams 50, and the beam receiving plate 30 for the other end And a composite slab 60 is installed by simultaneously pouring concrete into the one space. Therefore, the end side beam-beam 50 by the beam receiving plate 30 for one end-the beam spot on the continuous point side by the beam receiving plate 40 for the continuous focal point-multiple beams 50- The upper structure connected to the end side beam by the beam supporting plate 30 for the end is integrally constructed.

5. Hydraulic jack demolition and bag construction.

The hydraulic jack installed in the previous process is removed, and the bridge of the composite type slab 60 is installed with additional facilities such as packaging and a barrier.

Although the present embodiment is shown by one bridge 20 in the figure, two or more bridge 20 can be used by the same configuration and method.

Up to this point, a pair of alternating beams 10 and a pair of piers 20 provided therebetween, a beam receiving plate 30 for each end of the alternating beam 10, An example in which the support plate 40 and the beam 50 mounted on the beam supporting plate 40 for the continuous focal point and the beam receiving plate 40 for the continuous focal point are respectively mounted on the beam supporting plate 30 for the end and the beam supporting plate 40 for the continuous focal point, And the present invention can be variously carried out as follows.

11 is an enlarged beam bridge in which the lower structure is constituted by only a pair of alternations 10 and the beam supporting plates 30 for the ends are provided symmetrically on the alternation 10 and both ends of the beams 50 are used for the ends And the composite slab 60 is installed after the beam supporting plate 30 is mounted.

Figure 12 is an upper structural repeater beam bridge in which the lower structure consists of a pair of alternating turns 10 and two or more (shown in Figure 3) piers 20 and the upper structure installed in the lower structure as a whole The beam supporting plate 30 for the end is provided on the bridge pier 20 as well as the alternation 10 and the beam support plate 30 for the two ends is provided on a single bridge pier 20 The upper structures on the left and right sides are not connected to each other but are disconnected from each other around the piercle 20 at the center.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10: shift, 20: pier
30: beam receiving plate for the end,
31, 41: bottom portion, 32, 42:
33, 43: beam supporting wall 34, 44:
35,45: Synthetic rebar,
40: beam receiving plate for continuous post part
50: beam, 51: protruding reinforcing bar
52: Fixing flange, 53: Anchor
54: wall flange, 55: sol plate
60: Composite slab,

Claims (8)

A substructure consisting of a pair of alternations or pairs of alternations and one or more bridge columns;
A beam receiving plate which is made of precast concrete and which is provided on the lower structure and also serves as a formwork and a cross beam;
Two or more beams that are placed on the beam receiving plates adjacent to each other in the longitudinal direction;
A reinforcing bar for coupling the beam receiving plate and the beam;
And a composite slab concurrently inserted into the beam receiving plate and between the beams, and integrally combined with the beam receiving plate and the beam,
The beam receiving plate includes a bottom portion, a beam supporting wall which is formed on the bottom portion and forms a beam aligning portion in which the beam is inserted and fixed, and a beam supporting wall serving as a formwork, Wherein the beams are mounted to form a concrete pouring space. 2. The apparatus according to claim 1, wherein the beam receiving plate comprises a beam receiving plate for an end in which the beam supporting wall is formed on one side of the bottom and the mold wall is formed on the other side, And a beam supporting plate for a continuous beam portion in which the support wall is formed and the mold wall is formed on the other surface of the beam support plate. [3] The beam bridge of claim 1 or 2, wherein the beam supporting wall of the beam receiving plate and the forming wall are assembled to the bottom. The beam bridge of claim 1, wherein the beam is one of a PSC beam, a steel beam, and a steel composite beam, and each of the beams includes a protruding reinforcing bar that is bound in the beam receiving plate on both sides in the longitudinal direction. 5. The beam bridge of claim 4, wherein the beam comprises a fixed flange projecting longitudinally or laterally to the bottom and fixed to the beam receiving plate by an anchor. The apparatus of claim 2, wherein the beam bridge with the beam receiving plate is an overhead beam or beam continuous beam bridge or an upper structure repeat beam bridge,
Wherein the lower structure is formed of a pair of alternating alternately and the beam supporting plate for the end serving as the beam receiving plate is provided for each of the pair of alternations, Are respectively mounted on a beam receiving plate provided at an alternating pair,
Wherein the lower structure comprises a pair of alternating portions and at least one pair of bridges provided between the pair of alternating portions, and the pair of beam supporting plates for the end serving as the beam supporting plate are respectively installed And the beam supporting plate for the continuous focal point is provided as the beam receiving plate in the bridge pier, and neighboring beams are continuous in the beam receiving plate for the continuous focal point,
Wherein the lower structure is composed of a pair of alternating portions and a plurality of bridge portions provided between the pair of alternating portions, and the beam supporting plate for one end, as the beam receiving plate, And the beam receiving plates for the two ends are provided to face the beam receiving plates for the ends provided at the pair of alternate or pierced beams as the beam receiving plate. . [3] The beam bridge of claim 1, wherein the bottom of the beam receiving plate is inclined in a lateral direction to horizontally construct a bridge surface of the lower structure. A beam gauge construction method comprising a beam receiving plate according to claim 1,
A first step of constructing a substructure consisting of a pair of alternations or pairs of alternations and one or more bridge columns;
A second step of installing a beam receiving plate together with the hydraulic jack on the lower structure constructed through the first step;
A third step of mounting a beam to be supported by a neighboring beam receiving plate in the beam receiving plate installed through the second step;
A fourth step of holding the beam through the third step and then binding the beam receiving plate and the beam to a reinforcing bar;
A fifth step of installing a composite slab by installing concrete between the beams, inside the beam-receiving plate, and at an upper portion of the beams;
And a sixth step of dismounting the hydraulic jack after the fifth step and installing an additional facility on the composite type slab, so that the beam and the composite type slab are integrally combined through the beam receiving plate A beam supporting plate having a beam supporting plate.

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