KR200402132Y1 - Upper part bracket for constructing median strip side end of bridge slab - Google Patents

Abstract

The present invention relates to an upper bracket for constructing the medial side side end portion of a bridge slab, the configuration of which is fixed to an adjacent side end of one of the two bridges to be constructed adjacently to the adjacent side of the bridge slab to be constructed later Removable support means for forming the slab side end of the fixing member, which is in close contact with the upper surface of the adjacent side end portion of the pre-installed bridge slab and performs a function as a main body for supporting the remaining members, and the upper portion of the PC plate Connection support means for vertically oriented medium embedded in the slab during concrete slab curing, the upper end is coupled to the front end of the fixing member and the lower end is connected to the end of the PC plate to support one end of the PC plate Suspended member and the construction bridge slab with the fixed member formed It is characterized in that it comprises a fastener for fixing to be detachable, according to the technology of the present invention, after the construction is completed, the conventional application structure that was forced to remove some of the disassembled parts of the temporary material by freely falling toward the ground below the bridge By eliminating the problem, it is possible to remove all the parts above the bridge, so that it is possible to solve the risk of human accident or damage due to the conventional parts falling.

Description

Upper part bracket for constructing median strip side end of bridge slab}

The present invention relates to the upper bracket for the construction of the side ends of the median side of the bridge slab, and in particular, the PC plate which can be synthesized integrally with the slab for the construction of adjacent bridges as a substitute for the formwork, as well as the post-construction bridge In a bridge construction method using a temporary member installed on an adjacent slab of a pre-built bridge as a means for supporting the adjacent PC plate of the bridge, after disassembly, some parts of the temporary member are freely dropped to the ground below the bridge to be removed. By improving the conventional application structure, which had to be done, it was possible to remove all the parts above the bridge, so that the center separation side of the bridge slab was able to solve the risk of human accident or damage due to the fall of the conventional parts. It relates to a side bracket upper construction.

The general structure of a bridge includes a plurality of piers (Pier) placed on the ground at regular intervals, a girder disposed in parallel in the horizontal direction at regular intervals between the upper surface of each adjacent piers, It consists of a cross beam formed in the orthogonal direction at regular intervals between the adjacent girder to reinforce the deflection of the gird, and a slab which is poured and cured on top of the girder.

In addition, when two roads (bridges) are disposed adjacent to each other on the side end portions of the slab, for example, for up and down roads, a median strip (median strip) is provided. In consideration of expansion and contraction due to environmental changes such as the season (temperature) of the slab, a predetermined expansion margin is provided, and a joint filler such as styrofoam is generally inserted therebetween.

In general, in order to construct a slab corresponding to the upper work of the bridge, a deck plate as a temporary floor plate for placing concrete on the upper surface and both side ends of the girder must be installed. The formwork is fixed by supporting the lower portion with a plurality of lower brackets (circles) while each end or end thereof is mounted on an adjacently arranged girder, wherein the lower brackets are longitudinally extended to both sides of the girder. After each of the equal intervals and fixed to install the formwork on the top.

Recently, in addition to replacing the function of the formwork, it can be installed on the upper part of the girder to allow the concrete to be poured to form a part of the structure that can be synthesized integrally with the slab after completion to further improve the strength The application of the new construction method by PC plate (PCC plate; Precast Concrete Plate) which made it possible is wide. Here, the PC plate refers to a concrete plate that is pre-manufactured by a pre-casting method in a factory in a predetermined size and number, and put into a construction site, and includes a plurality of reinforcing bars (lower end muscles) in a rectangular frame having a predetermined depth. ) In the longitudinal and orthogonal directions, and the truss frame (upper muscle) is placed so as to protrude to the upper part of the rectangular frame at a position symmetrical from the longitudinal center thereof, and then the concrete is poured into the rectangular frame. It can manufacture by curing.

On the other hand, in the upper construction by the conventional method of completing two adjacent reciprocating roads (bridges), such as up and down roads, the following construction difficulties arise. That is, since the upper work on the bridge side to be pre-installed has sufficient space on the lower side of the slab, it can easily remove the formwork or the lower bracket on the lower side after the completion of construction, but the upper work on the bridge side to be constructed after the completion of construction Because the spacing space between adjacent slabs of N is maintained narrowly by the degree of expansion margin, it was difficult for the operator to remove the formwork or the lower bracket. In addition, the removal process of the temporary material is carried out on the work platform of limited size (width) connected to the bottom side of the formwork, there is a risk of falling accident due to the loss of work during the work demands the need for a more stable working environment It became.

Therefore, in view of the difficulty in performing the process and the risk of safety accidents, there is an urgent need for a construction method that can remove supporting temporary materials, such as brackets, from the top of the slab after the top construction of adjacent up and down bridges is completed. In addition, the applicant of the present invention, in the 2004 patent application No. 103219, previously proposed a technology regarding the construction method and the upper bracket applied to the side end portion of the median side of the bridge slab.

The above-described design by the present applicant is applied to the upper work that replaces the PC plate with the formwork and completes two adjacent reciprocating roads (bridges) such as up and down roads with a narrow working space. As a technique, a PC plate installed at an adjacent side end portion of a bridge to be constructed later is used as an upper bracket installed at an upper part of a slab of a pre-installed bridge instead of a lower bracket. By supporting it in place, the risk of safety accidents such as falling off during work on the dismantling and removal work at the bottom of the slab after completion of the use of the existing lower bracket and falling on the scaffold can be reliably eliminated. In this way, work efficiency, work safety, and bridge strength can be improved.

The upper bracket according to the line design by the present applicant is in close contact with the upper surface of the adjacent side end portion of the line construction bridge slab, the front end is bent upward on the same side as the side of the adjacent side end portion of the line construction bridge slab to form a vertical plane A fixed side member having a through hole formed on a vertical surface, and adjacent side end side surfaces of the pre-installed bridge slab and a vertical surface of the fixed member, the lower end of which is bent outward toward the bottom of the post-construction bridge slab to form a mounting portion; A support side member having a through hole communicating therewith at a position corresponding to the vertical surface side through hole of the fixing member, a connecting bolt and a connecting nut through which the fixing side member and the support side member overlap through the overlapping through hole, and fastening them integrally; Anchor beam for fixing the fixed side member to the line construction bridge slab After the slab has been cured and completed the upper construction, the connecting bolt and the connecting nut are loosened, and the supporting side member is separated to freely fall to the ground below the bridge. The fixing tool is pulled out to separate and remove the fixing side member.

However, the upper bracket of the wire design has a structure in which the mounting portion at the lower side of the supporting side member is bent to a greater width than the expansion margin between both slabs, so that it cannot pass through the space between the expansion margins and falls toward the ground below the bridge. Inevitably, it has to be removed, and therefore, there is a risk of damaging objects such as a vehicle that is running with the risk of a human accident due to falling of parts.

The present invention has been proposed to solve the above problems, and its purpose is to apply a PC plate that can be synthesized integrally with the slab during the construction of two adjacent bridges as a substitute for formwork, as well as post-installation. In the bridge construction method using the temporary material installed on the adjacent slab of the pre-built bridge as a means for supporting the adjacent PC plate of the bridge, after the construction is completed, some parts of the temporary material are dropped freely toward the ground below the bridge. By improving the conventional application structure that had to be removed and allowing the removal of all the parts above the bridge, it is possible to solve the risk of human accident or damage due to the fall of the conventional parts. Installation, disassembly and removal of the product can be performed very easily. It is possible to minimize the risk of safety accidents such as falling due to the fall, thereby providing an upper bracket for the construction of the side end of the median side of the bridge slab to improve the work efficiency, work safety and bridge strength. .

The upper bracket for construction of the median side side end portion of the bridge slab according to the present invention for achieving the above object, the upper construction of the bridge for curing the slab of the composite form with a predetermined plate to the top of the girder Applied to the bridge slab construction method to be carried out, as the bottom plate to be fixed to the adjacent side end of one of the two bridges to be constructed adjacently to form the slab side end of the remaining bridge to be constructed later Removable support means for mounting the PC plate, the fixing member which is fixed in close contact with the upper surface of the adjacent side end portion of the pre-construction bridge slab to function as a main body for the support of the remaining members, and the top of the PC plate Vertical direction buried in slab during concrete slab curing As a directing medium, the upper end thereof is coupled to the front end of the fixing member, and the lower end thereof is a suspension member having connecting support means connected to an end of the PC plate to support one end of the PC plate, and the fixing member being mounted on the line bridge. Characterized in that it comprises a fastener for fixing to be detachable to the slab.

The fixing member has a ground plate portion in close contact with the upper surface of the pre-installed slab at the lower end thereof, a through hole for fastening the fastener is formed at the extended rear end portion of the ground plate portion, and above the ground plate portion. The support plate portion is formed parallel to each other while maintaining a predetermined gap therebetween, a through hole for fastening through the upper end portion of the suspension member is formed in the extended end portion of the support plate portion, a vertical partition wall between the ground plate portion and the support plate portion It is preferable to have an integral H-beam structure, which is formed by forming ribs to reinforce them in the form.

In addition, the hanging member is made of a hook bowl formed as a connecting support means of the lower end of the hook portion capable of being held by the upper end of the PC plate, the hook penetrates through the through hole in the front end of the support plate portion It is preferable that the connection nut is fastened and fixed to the upper end of the bolt.

Alternatively, the suspension member is made of a steel wire that can be suspended by winding a plurality of layers of the upper end of the PC plate, the upper end of the steel wire is bound to be tensioned after penetrating through the through hole on the end of the support plate portion It can also be fixed.

Alternatively, the suspending member is made of a steel wire which is suspended by embedding one end in the plate body during the precasting process of the PC plate, and passes through the upper end of the steel wire through a through hole at the distal end of the support plate. It can also be implemented by binding and tightening to be tense.

In addition, the fixing member and the suspension member is composed of an integral metal plate formed by bending stepped, and is horizontally oriented so that the upper end and the lower end face each other with respect to the suspension plate in the middle of the metal plate directed in the vertical direction. Herein, the upper end portion is formed of a ground plate portion to perform the function of the fixing member in close contact with the upper surface of the pre-installed slab, but a through hole for fastening the fastener is formed at the rear end thereof is extended, the lower end of the suspension plate portion The buried plate portion which is embedded in the plate body during the pre-casting process of the PC plate may be implemented to form a buried plate portion to perform a function as a connection support means of the PC plate.

Alternatively, the lower end of the suspension plate portion may be formed to form a buried plate portion which is welded to the upper end of the PC plate to perform a function as a connection support means of the PC plate.

In addition, the fastener is preferably made of any one element selected from anchor bolts, concrete nails and median reinforcing bars fastened through the through-hole formed in the rear end of the horizontal surface side of the fixing member.

Hereinafter, on the basis of the accompanying drawings, the upper bracket for the construction of the median side side end portion of the bridge slab according to a preferred embodiment of the present invention.

1 (FIGS. 1A to 1F) to 5 show various structures of the upper bracket 10 for the construction of the medial side side end portion of the bridge slab according to the present invention, Figures 1A to 1F are both bridge slabs ( Figure 4 is a process diagram showing an example of the construction method according to the present invention for each side side end portion of the center separation stand, Figure 2 of the upper bracket 10 applied to the bridge slab construction method of the present invention Figure 3 is an exploded perspective view showing an example, Figure 3 is a partially enlarged cross-sectional view showing in detail the installation state of the post-construction bridge adjacent the PC plate (P) by the upper bracket 10 according to the embodiment of FIG. 5 is an exploded perspective view showing another embodiment of the upper bracket 10 applied to the bridge slab construction method of the present invention, Figure 5 is a post-construction bridge adjacent side plate by the upper bracket 10 according to the embodiment of FIG. (P) detail of installation It shows a partial enlarged cross-sectional view, respectively.

The structure of the bridge by the construction method to which the upper bracket 10 of the present invention is applied is similar to that of a general bridge, as shown in FIG. 1F. That is, a plurality of piers 1 placed on the ground at regular intervals, a plurality of girders 2 arranged in parallel in the horizontal direction at regular intervals between the upper surfaces of the adjacent piers 1, In order to reinforce the deflection of the girder 2, a plurality of cross beams 3 are formed in the orthogonal direction at regular intervals between each adjacent girder 2, and are poured and cured on top of the girder 3 It consists of a slab (4). However, the structure of the PC plate (P) for the floor and both ends is synthesized with the slab (4) has already been disclosed in the prior patent application No. 103219 of the present applicant mentioned in the prior art, and also the lattice bar deck type Regarding the construction method of the composite slab to which the PC plate (P) is applied, the inventions of 2000 Patent Application No. 56002 and 2004 Patent Application No. 90300 proposed by the applicant of the present invention prior to the above Patent Application No. 103219, etc. In addition, the construction process for the slab bottom surface except for the construction of the bridge slab side end according to the present invention is as described in detail in the specification of the above-mentioned prior application design.

Bridge slab construction method using the Lattice bar deck type PC plate of the present invention is applied to all girder bridges such as Prestressed Concrete Beam (PSC Beam), Steel Box Girder (Steel Box Girder), etc. It is widely applicable.

Most important point in the present invention, the structure that can be easily installed and removed from the top of the slab 4 irrespective of the spatial limitation between the adjacent slab 4 of the two bridges on which the central separator 5 is installed In order to simplify the process by eliminating the difficulty of the installation of the PC plate (P) to the adjacent side end of the post-construction bridge slab during the sequential construction of the bridge construction by applying the upper bracket (10) of.

Hereinafter, various structures that can be implemented in the upper bracket 10 according to the preferred embodiment of the present invention will be described with reference to the accompanying drawings.

The upper bracket 10 according to the preferred embodiment of the present invention, as shown in the representative example of Figures 2 and 3, of the form synthesized with a predetermined PC plate (P) to the top of the girder (2) Applied to the bridge slab construction method to perform the upper work of the bridge for curing the slab (4), the remaining bridges to be fixed to the adjacent side end of any one bridge slab pre-construction of two bridges to be built adjacently Corresponding to detachable support means for mounting the PC plates (P) as a bottom plate to form the side end of the slab (4) of the upper surface of the adjacent side end of the pre-installed bridge slab (4) When fixed to the fixing member 12 to perform a function as a main body for the support of the remaining member and the slab (4) by the concrete pouring to the PC plate (P) upper part A vertically oriented medium embedded in the slab (4), the upper end is coupled to the front end of the fixing member 12 and the lower end is connected to the end of the PC plate (P) to one end of the PC plate (P) Suspending member 11 having a connecting support means (not shown) for supporting and fixing the fixing member 12 to the pre-installed bridge slab 4, for example anchor bolt 15, etc. A structure containing the same fasteners is formed.

In the above embodiment, the fixing member 12 has a ground plate portion 12a which is in close contact with the upper surface of the pre-installed slab 4 at the lower end thereof, and an extended rear end portion of the ground plate portion 12a. A through hole 12d for fastening the fastener 15 is formed therein, and an upper side of the ground plate portion 12a is provided with a support plate portion 12b disposed in parallel with each other while maintaining a predetermined gap therebetween. An extended tip portion of the supporting plate portion 12b is formed with a through hole 12e through which the upper end portion of the suspension member 11 can be fastened, and a vertical partition wall shape is formed between the ground plate portion 12a and the supporting plate portion 12b. The rib 12c for reinforcing the furnace is formed, it is composed of an integral H-Beam (H-Beam) structure.

Here, the suspension member 11, the hook portion 11b which can be supported by the upper end 23 and the string 24 of the PC plate (P) hook hook formed as a connecting support means of the lower end The connection nut 11c is fastened and fixed to the threaded portion 11a, which is an upper end portion of the hook bolt 11, penetrated through the through hole 12e at the tip end side of the support plate portion 12b. Achieve.

In addition, although not shown in the drawing, the suspension member 11 may be replaced with a steel wire that may be suspended by winding a plurality of layers on the upper end 23 and the string 24 of the PC plate P. . In this case, what is necessary is just to bind and fix the upper end part of the said steel wire so that it may be tensioned after penetrating through the through-hole 12e of the front end part of the said support plate part 12b.

In addition, the suspending member 11 may be made of a steel wire which is suspended by embedding one end in the plate body 21 during the precasting process of the PC plate (P). In this case as well, the upper end portion of the steel wire may be fixed and fixed so as to be tensioned after penetrating through the through hole 12e on the tip end side of the support plate portion 12b.

On the other hand, the fixing member 12 and the suspension member 11, as shown in the exemplary diagram according to another embodiment shown in Figures 4 and 5, made of an integral metal plate formed by bending stepwise, vertical The upper and lower ends thereof are horizontally oriented so as to face each other with the suspending plate part 14 in the middle of the metal plate oriented in the direction, wherein the upper end part is in close contact with the upper surface of the line construction slab 4. A ground hole 13a which performs the function of (12) is formed, and a through hole 13a for fastening the fixture 15 is formed at the extended rear end thereof, and the lower end of the suspension plate part 14 It is also applicable to the configuration formed to form the buried plate portion 14a which is embedded in the plate body 21 during the precasting process of the PC plate (P) to perform a function as a connection supporting means of the PC plate (P).

At this time, as another example of the connection supporting means between the PC plate (P) and the upper bracket (10) can also be implemented by welding. That is, the buried plate portion 14a, which is the lower end of the suspension plate portion 14, may be welded to the upper end 23 and the string 24 of the PC plate P to achieve connection with the PC plate P. It is.

In addition to the anchor bolt mentioned above, the fastener 15 may be a concrete nail or a median reinforcing bar fastened through the through holes 12d and 13a formed at the rear end of the horizontal surface of the fixing member 12. It does not matter whether you apply it selectively.

An example of a construction method of two adjacent bridge slabs 4 to which the upper bracket 10 of the present invention having various structures as described above is applied will be described with reference to the respective process charts of FIGS. 1A to 1F as follows.

First, in the factory, the pre-casting step of pre-fabricating the PC plate (P) for the floor and both side ends of the concrete material to be installed on the upper part of the girder, respectively by a predetermined size and a predetermined number (Pre-casting Step) Proceed). That is, the precasting step is a truss frame so as to reinforce a plurality of reinforcing bars in the longitudinal and orthogonal directions in a rectangular frame of a predetermined depth, and protrude to the top of the rectangular frame at a position symmetrical from the longitudinal center thereof ( After placing the upper roots 23 and the strings 24 structures), the concrete is cast and cured in the rectangular frame.

On the other hand, a plurality of girders (2) are mounted in parallel at equal intervals, respectively, on tops of each bridge (1) of both bridges to be constructed adjacently. Next, a work cart (not shown) consisting of a rail, a support, and a crane is respectively installed on tops of the girder 2 of both bridges, and a cross beam formwork is installed on the crane of the work cart using a wire (not shown). (Not shown) while lowering the crossbeam formwork at each desired position while moving the work cart in the longitudinal direction of the girder 2 in a fixed state, and then placing concrete in each of the crossbeam formwork. Cross beams 3 are formed at regular intervals between the girder 2, and after the concrete is cured, the construction is completed by dismantling and removing the cross beam formwork, respectively. At this time, the structure such as the rail and the support for installing the work cart may be unnecessary depending on the type of work cart to be applied.

After forming the crossbeams 3 between the respective girders 2 of the two bridges in this manner, as shown in Figs. 1A and 1B, the bottom side of the slab 4 side end of one side bridge to be pre-constructed Each of the plates P is supported by a conventional lower bracket 7 so that the slab 4 is synthesized thereon, and when the slab 4 is cured, the plurality of lower portions at the top of the compound slab 4 The preliminary construction process of the side end of the one side bridge slab 4 which removes the bracket 7 is advanced.

In more detail, while moving the work cart in the longitudinal direction of the girder (2) in the traction fixed state of the floor PC plate (P) already made on the wire of the crane, the one side of the bridge to be pre-construction They are arranged in close proximity one by one at an appropriate position in the upper opening, that is, the upper opening formed by the girder 2 and the crossbeam 3. At this time, the mounting direction of the floor PC plate (P) is installed so that the truss frame is perpendicular to the girder (2).

In addition, while the PC plate P for the side end to be disposed on the middle squad side of the pre-construction bridge is also moved to the work cart, the proper position of the upper side of both the outer girder 2 and the lower bracket 7 fixed to the outer surface side thereof. Place one close by. At this time, as shown in Figure 1a a plurality of the lower brackets 7 are fixed on the outer surface at every predetermined interval along the longitudinal direction of the both outer girder (2).

In addition, after the installation of each PC plate P in the pre-construction bridge is completed, caulking the periphery of the joint portion of the PC plate P with silicon or the like to prevent leakage of mortar during concrete pouring and concrete material. It is possible to prevent separation of the liver.

Further, in the state where each PC plate P in the pre-construction bridge is installed, the work cart installed in the upper part of the girder 2 is dismantled, and the rebar is placed in the upper part of the PC plate P. As shown in FIG. 1B, the slab 4 is cured by pouring concrete from the upper portion thereof.

In addition, after a predetermined time has passed to form a structure of a composite slab in which the PC plate (P) and the slab (4) of the pre-construction bridge is integrally combined, it is fixed on the outer surface of the outer girder (2) After dismantling the lower bracket 7 and pulling it off the top of the slab 4, the slab 4 side end of the pre-built bridge adjacent to the bridge to be constructed later, as shown in Figure 1c, A plurality of upper brackets 10 for supporting the PC plates P to be disposed on the bottom surface side of the slab 4 side end of the post-construction bridge are disposed and fixed at predetermined intervals along the longitudinal direction of the girder 2. The process is performed.

As an example of the process of installing the upper bracket 10 according to the present invention, as shown in Figure 1d and 3, the fixing member 12 is in close contact with the upper surface of the adjacent side end of the pre-installed bridge slab (4) The fasteners 15 such as anchor bolts can be fastened to the through holes 12d. Then, the hook portion 11b of the hook bolt 11 is mounted on the other side upper end 23 while the one end of the PC plate P is mounted on the adjacent girder 2 of the bridge to be constructed later. In addition, the threaded portion 11a of the hook bolt 11 is secured by being fastened with the connecting nut 11c in a state in which the screw thread 11a is penetrated through the through hole 12e of the fixing member 12. Alternatively, in the state in which the upper end of the hook bolt 11 is fixed to the fixing member 12, between the hook portion 11b and the girder 2 of the post-construction bridge, both ends of the PC plate P. You can also mount each.

In some cases, as shown in FIG. 5, in the precasting process of the PC plate P, a part of the upper bracket 10 is embedded to prefabricate an integrated support structure, and then the fixture 15 is used. It can also be fixed on the pre-installed slab (4).

In addition, after fixing the PC plate (P), after the reinforcement on the upper portion of the PC plate (P) is poured into the concrete to allow the slab (4) to be synthesized, the upper construction process of the post-construction bridge is in progress.

In addition, after a predetermined time passes, the composite slab 4 of the construction bridge and the slab 4 are integrally and completely combined, and as shown in FIG. 1E, the composite slab 4 is formed. The upper bracket 10 removal process of disassembling and removing the plurality of upper brackets 10 is performed at the upper portion of the upper bracket 10.

In carrying out the above process, the present invention, the lower bracket (7) for supporting any one of the PCB plate (P) of either side end portion of the slab (4) of the post-construction bridge, and the other (line construction bridge of The upper bracket 10 supporting the PC plate P of the adjacent side) can be easily dismantled and disassembled and removed on the slab 4. That is, since the slab side end portion of one side on which the lower bracket 7 is installed can secure a sufficient space in an open form, installation and dismantling of the lower bracket 7 on the upper side of the slab 4 can be easily performed. The other side of the slab side end on which the bracket 10 is installed maintains a very narrow space with a stretch margin of about 10 to 20 mm, but irrespective of this, as shown in FIG. 1E, curing of the post-installation slab 4 is performed. When the exposed portion of the hanging member 11 or the suspension plate portion 14 (see FIG. 5) embedded with the cutting is removed and removed, the fixing member 15 is released to release the fixing member 12 or the ground plate portion 13. (See FIG. 5).

This process of removing the upper bracket 10 of the present invention is not a removal by dropping to the bridge ground for the separated part, as in the case of the line design by the applicant of the present invention mentioned above. All removal work above the slab 4 for the part can be made.

By performing the multi-stage process as described above, it is possible to construct two adjacent bridge slabs 4, and the construction is completed by installing a central separator 5 between the adjacent slabs 4 of both bridges. FIG. 1F shows that two roads (bridges) are adjacent to each other for applications such as an up and down reciprocating road when the central separator 5 is constructed by placing concrete on both side ends of adjacent slabs 4. In this case, the state where the central separator 5 is constructed on both adjacent side ends thereof is illustrated. In addition, in the central separator 5, as described briefly above, a predetermined expansion margin d is provided in consideration of the expansion and contraction caused by environmental changes such as seasons (temperature) of each slab 4, and A seam filler 6 can be inserted therein.

According to the bridge slab construction method applying the upper bracket for the construction of the center side of the side of the present invention as described above, the PC plate which can be synthesized integrally with the slab during the construction of the adjacent two bridges is applied as a formwork replacement. In addition, in the bridge construction method applying the temporary material installed on the adjacent side slab of the pre-built bridge as a means for supporting the adjacent PC plate of the post-construction bridge, some parts of the temporary construction material after the construction is completed, The conventional application structure, which had to be freely dropped and removed, was improved to allow removal of all the parts above the bridge, thereby eliminating the risk of human accidents or damages caused by the fall of the conventional parts. Installation, disassembly, and removal of temporary materials can be performed very easily, as well as formwork. Compared to the conventional method used, it can expect 50 ~ 70% reduction in construction period and cost reduction in construction, and minimize work using scaffolding, thus eliminating the risk of safety accidents such as falling due to loss. Therefore, there is an effect that can improve both work efficiency, work safety and bridge strength.

The present invention has been described with reference to the embodiments shown in the accompanying drawings, which can be referred to as exemplary, and those skilled in the art can devise various modifications and equivalent embodiments therefrom. Such equivalent embodiments are also to be seen as included within the utility model registration claims of the present invention is quite natural. Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

Figures 1a to 1f is an example of the construction method according to the present invention for the median side side end of both bridge slab is shown for each of the sequential process,

FIG. 1A shows a plurality of girders respectively mounted on upper portions of piers of two bridges to be adjacently constructed, and a cross beam is formed therebetween, and then a PC plate is installed on top of one bridge to be pre-installed. Flowchart,

1B is a second process diagram in which reinforcing steel is placed on the PC plate of the pre-built bridge and the concrete is poured to cure the slab integrally with the PC plate;

Figure 1c is to remove the lower plate for supporting the PC plate on the outer side of the outer girder after the PC plate and the slab of the pre-construction bridge is synthesized, and to install the PC plate on the upper side and the adjacent side of the adjacent bridge to be constructed, A third process diagram in which the fixing member of the upper bracket for supporting an outer PC plate according to the present invention is fixed to a slab upper surface portion of the pre-construction bridge adjacent to the bridge to be constructed afterwards;

FIG. 1D is a fourth process diagram in which a suspension plate is coupled to a distal end of the fixing member and a corresponding PC plate is installed at upper and adjacent side ends of the post-construction bridge, respectively;

Figure 1e is to reinforce the reinforcing bar on the upper plate of the post-construction bridge and cast concrete to cure the slab integrally with the PC plate, the lower bracket and the upper bracket is installed on both side ends of the post-construction bridge A fifth process drawing in a state of cutting, dismantling and disassembling on a slab,

FIG. 1F is a sixth process diagram in which a center separator is constructed by installing a concrete filler in a joint free space between adjacent slabs of both bridges and then placing concrete outside thereof.

Figure 2 is an exploded perspective view showing an example of the upper bracket applied to the bridge slab construction method of the present invention.

3 is a partial enlarged cross-sectional view showing in detail the installation state of the post-construction bridge adjacent PC plate by the upper bracket according to the embodiment of FIG.

Figure 4 is an exploded perspective view showing another embodiment of the upper bracket applied to the bridge slab construction method of the present invention.

5 is a partial enlarged cross-sectional view showing in detail the installation state of the post-construction bridge adjacent PC plate by the upper bracket according to the embodiment of FIG.

<Description of Symbols for Main Parts of Drawings>

P; PC plate d; New construction

One ; Pier 2; Girder

3; Crossbeam 4; Slab

5; Median 6; Joint Filler

7; Lower bracket 10; Upper Bracket

11; Suspension member (hook bolt) 11a; Najobu

11b; Hook portion 11c; Connecting nut

12; Fixing members 12a and 13; Ground plate part

12b; Support plate portion 12c; live

12d, 12e, 13a; Through hole 14; Suspension board part

14a; Buried plate portion 15; Fixture (anchor bolt)

21; Plate body 23; Upper root (upper lattice bar)

24; Kang Hyun

Claims (8)

It is applied to the bridge slab construction method that performs the upper work of the bridge for curing the slab of the composite form with the predetermined PC plate to the upper part of the girder, and the one of the pre-constructed bridge slab among the two bridges to be constructed adjacently. As removable support means for mounting the PC plates as a bottom plate which is fixed to an adjacent side end and allows the slab side end of the remaining bridge to be constructed later, A fixing member which is fixed to the upper surface of the adjacent side end of the pre-built bridge slab and functions as a main body for supporting the remaining members, and is vertically embedded in the slab during curing of the slab by placing concrete on the PC plate. As a directing medium, the upper end thereof is coupled to the front end of the fixing member, and the lower end thereof is a suspension member having connecting support means connected to an end of the PC plate to support one end of the PC plate, and the fixing member being mounted on the line bridge. The upper bracket for the construction of the median side side end of the bridge slab, characterized in that it comprises a fastener for fixing detachably to the slab. The method of claim 1, The fixing member has a ground plate portion in close contact with the upper surface of the pre-installed slab at the lower end thereof, a through hole for fastening the fastener is formed at the extended rear end portion of the ground plate portion, and above the ground plate portion. The support plate portion is formed parallel to each other while maintaining a predetermined gap therebetween, a through hole for fastening through the upper end portion of the suspension member is formed in the extended end portion of the support plate portion, a vertical partition wall between the ground plate portion and the support plate portion The upper bracket for the construction of the median side side end of the bridge slab, characterized in that formed of an integral H-beam structure formed by forming ribs to reinforce them in the form. The method of claim 2, The hanging member is made of a hook bowl formed as a connecting support means of the lower end of the hook portion capable of being held by the upper end of the PC plate, The upper bracket for the construction of the center end side of the bridge slab, characterized in that the connecting nut is fastened to the upper end of the hook bolt through the through hole in the front end of the support plate. The method of claim 2, The suspending member is made of a steel wire which can be suspended by winding a plurality of layers on the upper end of the PC plate, and the upper end of the steel wire through the through hole in the front end of the support plate to bind and tension to be tensioned The upper bracket for the construction of the median side side end portion of the bridge slab. The method of claim 2, The suspending member is made of a steel wire which is suspended by embedding one end in the plate body during the precasting process of the PC plate, and the upper end of the steel wire is tensioned after penetrating through the through hole at the distal end of the support plate. An upper bracket for construction of the side end portion of the median side of the bridge slab, characterized in that the fixing is fixed. The method of claim 1, The fixing member and the suspension member are composed of an integral metal plate formed by bending stepwise, and are horizontally oriented so that the upper end and the lower end face each other with respect to the suspension plate part in the middle of the metal plate directed in the vertical direction. Of these, the upper end is a ground plate portion to perform the function of the fixing member in close contact with the upper surface of the pre-installed slab, the through hole for fastening the fastener is formed in the extended rear end thereof, The lower end of the suspension plate portion is embedded in the plate body during the precasting process of the PC plate is formed to form a buried plate portion to perform a function as a connection support means of the PC plate, the side of the median side of the bridge slab construction Upper bracket. The method of claim 1, The fixing member and the suspension member are composed of an integral metal plate formed by bending stepwise, and are horizontally oriented so that the upper end and the lower end face each other with respect to the suspension plate part in the middle of the metal plate directed in the vertical direction. Of these, the upper end is a ground plate portion to perform the function of the fixing member in close contact with the upper surface of the pre-installed slab, the through hole for fastening the fastener is formed in the extended rear end thereof, The upper bracket for the construction of the center side of the bridge side slab, characterized in that the lower end of the suspension plate portion is formed to form a buried plate portion that is welded to the upper end of the PC plate to perform a function as a connection support means of the PC plate. The method according to any one of claims 1 to 7, The fastener, the median side side end portion of the bridge slab, characterized in that made of any one of the elements selected from the anchor bolt, the concrete nail and the reinforcing bar is placed through the through hole formed in the rear end of the horizontal surface side of the fixing member Construction upper bracket.