KR20180050082A - Floating bridge and method of manufacturing for floating bridge - Google Patents

Abstract

Disclosed is a floating bridge. The floating bridge comprises: a pile disposed to protrude on a surface of the water; a first precast floor plate covering one side of the transverse direction of an outer circumferential surface of the pile; a second precast floor plate covering the other side of the transverse direction of the outer circumferential surface of the pile and coupled to the first precast floor plate; and a floating body disposed at a lower side of the first precast floor plate to enable the first precast floor plate and the second precast floor plate to be floated on the water. Moreover, the first precast floor plate and the second precast floor plate cover the pile to be moved in the height direction with respect to the pile.

Description

TECHNICAL FIELD [0001] The present invention relates to a flooring bridging method,

The present invention relates to a bridge and bridge construction method.

In general, various types of bridges are being constructed in rivers, lakes, parks, and coastal areas in order to more effectively provide space for walks on waterside in order to improve convenience and health of residents and tourists.

Korean Patent Registration No. 10-1439232 is disclosed as one of such conventional bridges.

The disclosed technique relates to deck rods, in which a main pier is erected, a horizontal beam is installed on the main pier, and a wooden top plate made of wood is installed on the top of the horizontal beam. However, such a deck road has a problem in that it can not be constructed due to the change of the water level due to high tide, low tide, and waves, and thus takes a long construction period.

It is an object of the present invention to provide a bridge and bridge construction method capable of improving the workability and shortening the construction period while securing structural stability.

It should be understood, however, that the technical scope of the embodiments of the present invention is not limited to the above-described technical problems, and other technical problems may exist.

As a technical means for achieving the above technical object, a bridge according to the first aspect of the present invention comprises: a file arranged to protrude on a water surface; A first precast floor plate surrounding one lateral side of an outer circumferential surface of the file; A second precast bottom plate that surrounds the other lateral side of the outer circumferential surface of the file and is coupled to the first precast deck; And a body disposed below the first precast deck to float the first precast deck and the second precast deck to the aquifer, wherein the first precast deck and the second free The cast deck may wrap the file so that it is movable in a height direction relative to the file.

According to a second aspect of the present invention, there is also provided a method of installing a bridge, comprising: disposing a file so as to protrude on a water surface; Disposing a first precast deck to surround one lateral side of the outer circumferential surface of the file; Disposing a second precast deck to surround the other lateral side of the outer circumferential surface of the file; And engaging the first precast deck with the second precast deck, wherein in the step of disposing the first precast deck, the first precast deck has, on its underside, 1 < / RTI > precast deck and a second precast deck so that the first precast deck and the second precast deck can be moved in a height direction relative to the file The file can be wrapped.

The above-described task solution is merely exemplary and should not be construed as limiting the present disclosure. In addition to the exemplary embodiments described above, there may be additional embodiments in the drawings and the detailed description of the invention.

According to the above-mentioned problem solving means of the present invention, after the file is laid, the first precast deck coupled with the body is first placed on one side of the pile to float by the debris, and then the second precast deck is lifted, It is possible to provide a bridge capable of improving the workability and shortening the construction period while securing the structural stability.

1 is a schematic perspective view of a bridge according to one embodiment of the present application;
2 is a schematic exploded perspective view of a first precast deck according to one embodiment of the present disclosure and a first precast deck according to one embodiment of the present invention, wherein the file is not shown.
3 is a schematic perspective view illustrating a first divided steel pipe and a second divided steel pipe according to an embodiment of the present invention.
4 is a schematic diagram for explaining a first transverse coupling concavity and a second transverse coupling concavo-convex portion according to an embodiment of the present invention.
Figs. 5A and 5B are perspective views showing a second precast bottom plate (second precast concrete portion) and a receiving post portion (second precast concrete portion) in order to explain an example of the lateral seating receiving portion according to an embodiment of the bridge according to an embodiment of the present invention. (First precast concrete section) provided on the first precast deck, as viewed from above.
FIG. 5C is a schematic side view showing the configuration shown in FIG. 5A or FIG. 5B in a side view.
Figs. 6A and 6B are views showing another example of the mount receiving portion according to another embodiment of the bridge according to the embodiment of the present invention, in which the second precast bottom plate (second precast concrete portion) and the mount receiving portion are provided 1 is a schematic plan view showing the first precast deck (first precast concrete section) viewed from above.
Fig. 6C is a schematic side view showing the configuration shown in Fig. 6A or 6B in a side view.
FIG. 7A is a schematic longitudinal sectional view showing a construction of a bridge according to an embodiment of the present invention. FIG.
FIGS. 7B and 7C illustrate a second precast deck (a second precast concrete section) and a longitudinally projected and deployed 1 is a schematic plan view showing a first precast deck (a first precast concrete section) provided with a body in a longitudinally spaced arrangement.
FIG. 7D is a schematic plan view of the configuration and the peripheral state shown in FIG. 7A as viewed from above. FIG.
Figure 8 is a schematic perspective view of a bridge according to one embodiment of the present invention having a first longitudinal connection concave portion according to another embodiment of the present application.
9 is a schematic flow diagram of a bridging construction method according to one embodiment of the present application.
10A is a schematic side view for explaining step S100 according to an embodiment of the present invention.
10B is a schematic side view for explaining the step S300 according to an embodiment of the present invention.
FIG. 10C is a schematic side view for explaining the step S300 according to an embodiment of the present invention in the case where the receiving part is provided below the first precast concrete part.
10D is a schematic side view for explaining steps S500 and S700 according to an embodiment of the present invention.
FIG. 10E is a schematic side view for explaining steps S500 and S700 according to an embodiment of the present invention in the case where the receiving part is provided below the first precast concrete part.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. It should be understood, however, that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, the same reference numbers are used throughout the specification to refer to the same or like parts.

Throughout this specification, when a part is referred to as being "connected" to another part, it is not limited to a case where it is "directly connected" but also includes the case where it is "electrically connected" do.

It will be appreciated that throughout the specification it will be understood that when a member is located on another member "top", "top", "under", "bottom" But also the case where there is another member between the two members as well as the case where they are in contact with each other.

Throughout this specification, when an element is referred to as "including " an element, it is understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise.

The term (lateral direction, one side, other side, longitudinal direction, front side, front side, rear side, rear side, etc.) related to the direction and the position in the description of the embodiments of the present invention is set based on the arrangement state of each structure shown in the drawings . For example, referring to Fig. 1, it can be seen that the 2 o'clock-8 o'clock direction is generally in the lateral direction, the 8 o'clock direction is the other side in the lateral direction reference, the 2 o'clock direction is the one in the lateral direction reference side, The direction in which the 4 o'clock direction is the front direction, the direction in which the o'clock direction is the front direction, the direction in which the 4 o'clock direction is the rear direction in general, have.

The present invention relates to a bridge and bridge construction method. For example, the bridge according to an embodiment of the present invention can be applied to a waterfront bridge (coast bridge) such as a bridge bridge, a walking bridge, etc. that can be constructed in a river, . However, the application of the bridge according to one embodiment of the present invention is not limited thereto, and can be widely applied to various structures, facilities, and the like to which the technical structure of the bridge according to one embodiment of the present invention can be applied. For example, the bridge according to one embodiment of the present application can be applied to a ship berthing facility such as a yacht.

First, a bridge (hereinafter referred to as " bridge ") according to an embodiment of the present invention will be described.

FIG. 1 is a schematic perspective view of the present pedestal, and FIG. 2 illustrates a first precast deck according to an embodiment of the present invention and a first precast deck according to an embodiment of the present invention, 3 is a schematic perspective view for explaining a first divided steel pipe body and a second divided steel pipe body according to an embodiment of the present invention, and FIG. 4 is a perspective view illustrating a first divided steel pipe body and a second divided steel pipe body according to an embodiment of the present invention. FIGS. 5A and 5B are views for explaining an example of a mount receiving portion according to an embodiment of the present invention; FIGS. 5A and 5B illustrate an example of a mount receiving portion according to an embodiment of the present invention; FIGS. 5A and 5B are schematic views for explaining the first transverse coupling concave / convex portion and the second transverse coupling concave / Fig. 5C is a plan view schematically showing a first precast deck having a second precast deck and a mount receiving portion, viewed from above, Fig. 5C is a side view of the structure shown in Fig. 5A or 5B, One 6A and 6B are schematic side views showing a second precast bottom plate (second precast concrete portion) and a second precast bottom plate (second precast concrete portion) in order to explain another example of the mount receiving portion according to another embodiment of the bridge according to the embodiment of the present invention; FIG. 6C is a schematic plan view showing a first precast bottom plate (first precast concrete section) provided with a mount support portion from above, FIG. 6C is a schematic plan view showing the construction of FIG. 6A or 6B viewed from the side FIG. 7A is a schematic vertical sectional view showing the construction of the bridge according to the embodiment of the present invention, and FIGS. 7B and 7C are diagrams showing the construction of the bridge according to the embodiment of the present invention, (First precast concrete section) provided with two precast decks (a second precast concrete section) and a vertically protruding entity are arranged in a longitudinal direction Plan view, and Figure 7d is a schematic plan view as viewed from the upper side of the configuration and the surrounding conditions as shown in Figure 7a, Figure 8 is a schematic perspective view of the floating bridge having a first longitudinal connecting irregularities according to other embodiments of the present application. 5A and 5B each show longitudinal connecting concave portions (first and second longitudinal connecting concave portions) of different embodiments, and each of Figs. 6A and 6B shows a longitudinal connecting portion (First and second longitudinal connecting concave-convex portions), and Figs. 7B and 7C each show longitudinal connecting concave-convex portions (first and second longitudinal connecting concave-convex portions) of different embodiments have.

Referring to FIG. 1, the present bridge includes file (1). The file 1 may be one which has been inserted into the underwater floor (underwater floor). Further, the file 1 is arranged so as to protrude on the water surface. Illustratively, file 1 may be a PHC file. The construction of the PHC file can be carried out by a conventional PHC pile construction method having a process such as excavation, cement paste (cement milk) injection, PHC punching, and the like. In this way, since the foundation pile such as the PHC file is applied to the foundation, the forehead support force can be stably secured even though the field construction is performed more quickly and easily. However, the file (1) of the present application is not limited to the above application example. For example, in the file (1) of the present application, not only concrete files such as PHC files but also steel files such as steel pipe piles can be applied. In addition, various types of files Files can be applied.

Further, referring to Fig. 1, the present bridge includes a first precast deck 2. As shown in Fig. 1, the first precast deck 2 surrounds one lateral side of the outer circumferential surface of the pile 1. The first precast deck 2 may be prefabricated on a terrestrial worksite and disposed at the time of construction of the present piers. For example, a land-based workshop may be established near the site where the bridge is constructed. However, land-based workplaces are not limited to those referring to workplaces near the site. For example, it is desirable to understand them as a concept that covers workplaces such as factories. In addition, at the time of construction of the bridge, the pre-fabricated first precast deck 2 is arranged so as to surround one lateral side of the outer circumferential surface of the pile 1, and then can be joined to the pile 1. Illustratively, the first precast deck 2 (the first precast deck 2 (details of which will be described later) to which the deck 4 is bonded) can be mounted on the pre-installed file 1, Thereafter, the file 1 and the first precast deck 2 are temporarily fixed by a hypothetical rope so that the first precast deck 2 can be joined to the file 1 . Accordingly, the position of the first precast deck 2 can be fixed until it is combined with the second precast deck 3 to be described later. The second precast deck 3 can be mounted on the mount receiver 5 provided on the lower side of the first precast deck 2, The bottom plate 2 and the second precast bottom plate 3 can be fully joined after the bolts of the first wing member 22 and the second wing member 322 are joined. After joining of the first precast deck 2 and the second precast deck 3 is completed as described above, the joining of the first precast deck 2 and the file 1 as described above is released For example, temporary relief by a hypothetical rope).

At this time, the first precast deck 2 and the second precast deck 3 to be described later wrap the file 1 so as to be movable in the height direction with respect to the file 1. Accordingly, the first precast deck 2 and the second precast deck 3 can be moved up and down according to the movement of the water surface (change in water level between the lowest water level and the maximum water level).

Referring to FIG. 2, the first precast deck 2 includes a first precast concrete portion 21. As shown in FIG. The first precast concrete portion 21 may include concrete and reinforcing bars. In addition, the first precast concrete part 21 can be transported to a site where it is prefabricated on a land work site (construction site) and the present bridge is installed. The first precast concrete portion 21 may be provided with a first depression corresponding to one lateral side of the outer circumferential surface of the pile 1. 2, the first depressed portion is a portion where a first divided steel pipe body 22 to be described later is disposed.

2, the first precast deck 2 may include a first divided steel pipe 22. 2 and 3, the first divided steel pipe body 22 includes a first half ring 221 and a second half ring 221 disposed in the first depression so as to surround one lateral side of the outer peripheral surface of the pile 1, 221 extending from both longitudinal ends of the first wing member 222 and the first wing member 222, respectively.

2, the first half ring 221 and the first wing member 222 are connected to the other lateral side of the first precast concrete portion 21 including the first depression and the stud 29 (see FIG. 3) ). ≪ / RTI > Accordingly, the first divided steel pipe bodies 22 can be integrally connected to the first precast concrete part 21. [

1, the present ply includes a second precast deck 3. The second precast deck (3) surrounds the other lateral side of the outer peripheral surface of the pile (1). The second precast deck (3) can be prefabricated on a land-based work site and placed upon construction of the present bridge. For example, a land-based workshop may be established near the site where the bridge is constructed. However, land-based workplaces are not limited to those referring to workplaces near the site. For example, it is desirable to understand them as a concept that covers workplaces such as factories. The second precast deck 3 may also be disposed on the other side of the file 1 after the first precast deck 2 is disposed on one side of the file 1. At this time, the second precast deck 3 can be mounted on the seating receiving unit 5 provided below the first precast deck 2 described later. Further, the second precast deck 3 is engaged with the first precast deck 2.

Referring to FIG. 2, the second precast deck 3 includes a second precast concrete section 31. The second precast concrete portion 31 may include concrete and reinforcing bars. In addition, the second precast concrete part 31 can be transported to a site where it is manufactured in advance on a land work site (work site) and the present bridge is installed. The pre-cast concrete section 31 may be provided with a second depression corresponding to the other lateral side of the outer circumferential surface of the pile 1. 2, the second depressed portion is a portion where a second divided steel pipe body 32 to be described later is disposed.

2, the second precast bottom plate 3 may include a second divided steel pipe 32. [ 2 and 3, the second divided steel pipe body 32 includes a second half ring 321 and a second half ring 321 disposed in the second depression so as to surround the other lateral side of the outer peripheral surface of the pile 1, And a second wing member 322 extending forwardly and rearwardly from both longitudinal ends of the first wing members 321 and 321 and engaged with the first wing members 222 in a state of being opposed to each other.

2, the second half ring 321 and the second wing member 322 are fixed to one lateral side of the second precast concrete portion 31 including the second depression and the stud 39 (see FIG. 3) ). ≪ / RTI > Accordingly, the second divided steel pipe 32 can be integrally connected to the second precast concrete part 31. [

2, the first wing member 222 and the second wing member 322 are provided so that a part of the first wing member 222 and the second wing member 322 protrude upward from the first depressed portion and the second depressed portion, (281). 2 and 3, a first bolt hole 28 may be formed in the first wing member 222 and a second bolt hole 28 may be formed in the second wing member 322 in a position corresponding to the first bolt hole 28 A second bolt hole 38 may be formed. By way of example, the bolt can be engaged with the nut through the first bolt hole 28 and the second bolt hole 38 at the same time, so that the bolt connection 281 can be made. However, the bolt connection is not limited to such a bolt-nut connection method, but is preferably understood as a concept including various known connection methods using bolts. As such, the first precast deck 2 and the second precast deck 3 can be joined by the mutual engagement of the first wing member 222 and the second wing member 322.

2 and 4, at the other lateral side of the first precast concrete portion 21, a first transverse coupling concave / convex portion 23 is formed at a portion where the first depression is not formed, A second transverse coupling concavo-convex portion 33 engaging with the first transverse coupling concavo-convex portion 23 is formed at a portion of the precast concrete portion 31 on the transverse side where the second depression is not formed .

Since the first precast deck 2 and the second precast deck 3 are not combined depending on the combination of the first wing member 222 and the second wing member 322, The stress acting on the engagement portion of the first wing member 222 and the second wing member 322 can be dispersed toward the concavo-convex coupling portion without being concentrated. Therefore, the durability and structural safety of the present bridge can be greatly improved.

4, the first transverse coupling concavo-convex portion 23 and the second transverse coupling concavo-convex portion 33 are formed in the concave portion 232 of the concavity and convexity so as to prevent the interlocking engagement from being released in the transverse direction 332 may be smaller than the longitudinal widths of the inner portions 2321, 3321. In this case, Also, the convex portions 231 and 331 may have a shape engaging with the concave portions 232 and 332. Accordingly, even if lateral vibration or external force is generated in the first precast deck 2 and the second precast deck 3, the first precast deck 2 and the second precast deck 3, The separation of the plate 3 can be effectively and stably prevented without depending only on the engagement of the first wing member 222 and the second wing member 322. [

At least one of an exposing agent and an elastic body may be injected between the first transverse coupling recessed portion 23 and the second transverse coupling recessed portion 33 which are engaged with each other. Thus, breakage (for example, concrete breakage) due to direct interference between the first transverse coupling concave / convex portion 23 and the second transverse coupling concave / convex portion 33 can be prevented. Illustratively, the filling standard at the time of injection may be between 5 mm and 10 mm.

The longitudinal widths of the inlets 2322 and 3322 of the concave portions 232 and 332 of the first transverse coupling concave and convex portion 23 and the second transverse concave concave and convex portion 33 respectively are larger than the longitudinal widths of the inside portions 2321 and 2322 of the concave portions 232 and 332, 3321, the second precast deck plate 3 has a first transverse coupling concavoconvex portion 33 and a second transverse concave concave portion 33, Can be disposed on the other side in the transverse direction of the pile (1) while being moved from the upper side to the lower side with respect to the bottom plate (2).

5A and 6A, in the uneven coupling between the first precast deck 2 and the second precast deck 2, the first precast deck 2 and the second precast deck 2, (Lateral receiving seat portion or temporary seating supporting portion) (at least part of the second precast floor plate 3) which can be seated (supported) can be provided on the lower side (lower side) A bracket 5 may be provided. Referring to Figs. 5A to 5C and Figs. 6A to 6C illustratively, the seating receiving portion 5 may be provided protruding to the other side in the transverse direction. Also, the seat receiving portion 5 can be applied to the concave / convex engagement between the first precast bottom plate 2 and another first precast bottom plate adjacent to the first precast bottom plate 2 in the longitudinal direction. That is, at least a part of the other first precast deck adjacent to the longitudinal direction of the first precast deck (2) is seated (supported) on the lower side (lower side) of the first longitudinal connecting concave / (Longitudinal seat receiving portion or seating seat supporting portion) capable of holding the seat back can be provided. Illustratively, such a seat receiving portion for the longitudinal direction can be provided in such a form that the supporting body 4 is partially protruded in the longitudinal direction. The provision of the seat support unit allows the adjustment of the height when the two bottom plates are coupled with each other to be concaved and recessed more clearly and easily.

Illustratively, referring to FIG. 5A, the seating receiving portion 5 may have a concrete material. As another example, referring to FIG. 6A, the seating receiving portion 5 may be provided with a structure including Steel-H (H steel). However, the material or structure of the seating receiving portion 5 is not limited to the above example, and various materials or structures capable of stably supporting the seated precast bottom plate can be applied.

7 (a), the present bridge is disposed below the first precast deck 2 and supports the first precast deck 2 and the second precast deck 3, (4). The body (4) can be preprocessed in combination with the first precast deck (2) in the field workshop.

7B and 7C, the supporting body 4 is disposed in the longitudinal direction (one direction in the longitudinal direction, FIGS. 7B and 7C) than the first precast bottom plate 2 (the first precast concrete portion 21) 7c < / RTI > reference 6 o'clock direction). The supporting body 4 supports a part of the other first precast bottom plate 2 (the first precast concrete portion 21) which is adjacent in the longitudinal direction (one direction in the longitudinal direction) by the partially projected portion .

Further, the supporting body 4 is arranged on the lower side of the other first precast bottom plate (first precast concrete portion) adjacent to the longitudinal direction (the other direction in the longitudinal direction, the 12 o'clock direction with reference to Figs. 7B and 7C) A part of the first precast deck 2 (the first precast concrete section 21) is partly projected by a partly protruding body provided in a direction of a part of the longitudinal direction (one direction in the longitudinal direction, the direction of 6 o'clock in FIG. (The other direction in the longitudinal direction) than the first precast deck 2 (the first precast concrete portion 21) so that the first precast concrete block 21 can be supported. Referring to Figures 7b and 7c, the body 4 has a longitudinal direction (one direction in the longitudinal direction, Figures 7b and 7c) of the adjacent body in the longitudinal direction (the other direction in the longitudinal direction, the 12 o'clock direction in Figures 7b and 7c) (Protruding amount) protruding in the direction of the reference 6 o'clock in Fig. 7 (c)).

The first precast deck portion 25 of the first precast deck 2 and the first precast deck 2 adjacent to the longitudinal direction of the first precast deck 2, Of the first precast deck (25) of the first precast deck (2) is located on the body (4) of the first precast deck (2) And the integrity of the engaging portion can be improved. Accordingly, when the bridge is constructed, the longitudinally unified behavior can be ensured, and the structural stability can be ensured since the higher loadability can be ensured and the working load can be shared by the longitudinally unified behavior even after the installation.

When the supporting body 4 is disposed on the lower side of the first precast bottom plate 2 so as to protrude in the longitudinal direction, the first longitudinal connecting concave and convex portions 25 of the first precast bottom plate 2 (Longitudinal receiving seat) disposed on the lower side of the receiving seat can be omitted. On the other hand, when the present bridge includes a seating support portion (longitudinal seating support portion) disposed below the first longitudinal connection concavo-convex portion 25 of the one precast deck 2, Or may be provided in a structure that is not protruded or recessed in some directions.

7D, the lateral width of the first precast deck 2 may be wider than the width of the second precast deck 3 in the lateral direction. Since the second precast bottom plate 3 is lifted and joined to the first precast bottom plate 2 floating in the water phase by the body 4, And is provided in the form of a cantilever extending to the other side in the transverse direction using the first precast deck plate 2 and the support body 4 as fixing points. Accordingly, in order to prevent the first precast deck 2 from tilting or conducting due to the own weight of the second precast deck 3 at the time of the installation of the bridge, the lateral width of the first precast deck 2 Is preferably sufficiently wider than the transverse width of the second precast deck (3).

In addition, with the same or similar effect as described above, the body 4 can be provided to prevent the first precast deck 2 from being tilted or turned toward the second precast deck 3 side. Referring to FIG. 7A, it is preferable that the support body 4 is provided so as to have a wide width on the lower side of the first precast bottom plate 2. This is because when the transverse width of the body 4 is smaller than a predetermined value, the second precast bottom plate 3 protruding in the form of a cantilever on the other side of the transverse direction is less stable in tilting due to its own weight and in stability against conduction It is because.

The first precast deck 2 coupled with the deck 4 is placed on the upper side of the first precast deck 2 and the first precast deck 2 connected to the lower deck 4 The first precast deck 2 is lifted by the first precast deck 2 while the second precast deck 3 is lifted with respect to the first precast deck 2 floated by the support 4, The first precast deck plate 2 and the second precast deck plate 2 for one pile 1 before the water level change corresponding to the highest water level and the lowest water level are significantly generated, The construction of one set of the cast bottom plate 3 can be quickly and stably completed.

According to the present invention, when the first precast deck 2 is disposed on one side of the pile 1, the first divided steel pipe body 22 is in a state of wrapping one lateral side of the outer peripheral surface of the pile 1 The first precast deck 2 can be fixed in position until engagement with the second precast deck 3 is achieved and the position of the first precast deck 2 can be fixed The second precast bottom plate 3 can be lifted and coupled to the first precast bottom plate 2, so that the ease of construction can be maximized. Further, as described above, after the temporary fixing, the lifting of the second precast bottom plate 3, which is smaller in size (smaller in width) than the first precast bottom plate 2 and relatively lighter than the first precast bottom plate 2, The connection to the plate 3 can be made quickly before a large change in the water level occurs in the marine environment or the like.

2 and 8, at least one of the front surface and the rear surface in the longitudinal direction of the first precast concrete portion 21 is formed with a first longitudinal connection concavo-convex portion 25, The connection concave and convex portions 25 can be engaged with the other first longitudinal connection concave portions 25 of the first precast concrete portion 21 adjacent to the longitudinal direction. Thus, the first precast deck 2 and the neighboring first precast deck 2 disposed in at least one of the front and rear of the first precast deck 2 in its longitudinal direction can be joined to each other.

2, the first longitudinal connection concaved portion 25 and the other first longitudinal connection concavo-convex portion 25 are formed in the concave portion 251 of the concavo-convex portion 251 so as to prevent the engaging engagement from being released in the longitudinal direction, The lateral width of the inlet 2512 of the inner portion 2511 may be smaller than the lateral width of the inner portion 2511 thereof. In addition, the convex portion 252 may have a shape engaging with the concave portion 251 during the concave and convex portions. Accordingly, even if an unexpected external force (movement) occurs in a direction away from the first precast deck 2 adjacent to the first precast deck 2, the first precast deck 2 and the first precast deck 2 The engagement of the second precast deck plate 3 can be firmly maintained.

When the transverse width of the inlet 2512 of the concave portion 251 of the first longitudinal connecting concave-convex portion 25 is smaller than the transverse width of the inside 2511, The bottom plate 2 is formed so as to engage with the first longitudinal connecting concave portions 25 of the first precast bottom plate 2 in a state in which the first longitudinal connecting concave portions 25 thereof are disposed before, And can be disposed and engaged with the first precast deck 2 while being moved from the upper side to the lower side.

8, the concave portion 251 of the first longitudinal coupling concavo-convex portion 25 has a width in the lateral direction of the inlet and a width in the transverse direction of the inside of the concave portion 251. In other words, The directional width can be made constant.

8, the first precast deck 2 has a first longitudinal connecting concave-convex portion 25 and a first longitudinal connecting concave-convex portion 25 which are mutually engaged with each other, And a forming member 8. The hinge shaft forming member 8 has a first longitudinal connecting concaved portion 25 and a first longitudinal connecting concave portion 25 which are mutually engaged with each other while connecting the first precast bottom plate 2 and its adjacent The precast deck 2 can be allowed to rotate relatively within a predetermined angular range about the hinge axis. In other words, the hinge shaft forming member 8 can be given a predetermined degree of freedom of rotation about the hinge axis (degree of freedom that allows it to tilt more than a predetermined degree along the longitudinal direction) A more flexible structural behavior can be realized, such as absorbing some of the applied external force through rotation, rather than resisting only the righid force against the external force action. For example, a steel bar, a strand, a wire, or the like may be applied to the hinge shaft forming member 8.

8, when the hinge shaft forming member 8 is separated from the mutually engaged portion of the first longitudinal connecting concave-convex portion 25 different from the first longitudinal connecting concave-convex portion 25, as shown in Fig. 8, And a first bonding plate 81 for bonding the hinge shaft forming member 8 to the first precast concrete part 21 so that the first precast concrete part 21 is not bonded. That is, the hinge shaft forming member 8 may be installed on the first precast concrete portion 21 by a first joint plate plate 81, a nut, an anchorage, or the like.

Further, as shown in FIG. 8, one of the front and rear surfaces in the longitudinal direction of the first precast concrete portion 21 may be provided with a hole 82 through which the hinge shaft forming member 8 crosses. Illustratively, such a hole 82 may be formed by a metallic member in the form of a tube.

8, when the concave portion 251 of the first longitudinal connection concavo-convex portion 25 is formed so that the lateral width of the inlet and the transverse width of the interior thereof are constant, the hinge- (8) of the first precast deck (25) of the first precast deck (25) of the first precast deck (2) adjacent to the first longitudinal connecting uneven portion (25) of the first precast deck It is preferable to arrange it across the engaging portion. Even if the concave portion 251 of the first longitudinal connecting concavoconvex portion 25 has a shape in which the lateral width of the inlet 2512 and the lateral width of the inside 2511 are constant, 8 can prevent the engagement of the first longitudinal connecting concave-convex portion 25 and the other longitudinal connecting concave-convex portion 25 from being released in the longitudinal direction.

Further, at least one of the exponent and the elastic body may be injected between the first longitudinal connection concavo-convex portion 25 and the other first longitudinal connection concavo-convex portion 25 which are engaged with each other. Accordingly, breakage (concrete breakage) due to direct interference between the first longitudinal connection concavo-convex portion 25 including the concrete material and the other first longitudinal connection concavo-convex portion 25 can be prevented. Illustratively, the filling standard at the time of injection may be from 5 mm to 10 mm.

2 and 8, at least one of the front surface and the rear surface in the longitudinal direction of the second precast concrete portion 31 is formed with a second longitudinal connection concavo-convex portion 35, The connection concave-convex portion 35 can be engaged with another second longitudinal concave-convex portion 35 of the second precast concrete portion 31 adjacent to the longitudinal direction. Thus, the second precast deck 3 and the neighboring second precast deck 3 disposed at least one of the front and rear in the longitudinal direction thereof can be coupled to each other.

8, the second precast deck plate 3 is provided with a second longitudinal concavo-convex portion 35 and a second longitudinal concavo-convex portion 35, And an axis forming member 8. Since the hinge shaft forming member 8 is constructed so as to be similar to the hinge shaft forming member 8 of the first precast bottom plate 2, a detailed description thereof will be omitted.

The hinge shaft forming member 8 is formed so as not to be separated from the mutually engaged portion of the second longitudinal connecting concave-convex portion 35 and the other second longitudinal connecting concave- 8) to the second precast concrete portion 31. The second pre-cast concrete portion 31 may be formed by joining the first precast concrete portion 31 and the second precast concrete portion 31 to each other. That is, the hinge shaft forming member 8 may be installed in the second precast concrete portion 31 by a second joint plate, a nut, an anchorage, or the like.

Further, as shown in FIG. 8, a hole 82 in which the hinge shaft forming member 8 is crossed may be formed on one of the front and rear surfaces in the longitudinal direction of the second precast concrete portion 31. Illustratively, such a hole 82 may be formed by a metallic member in the form of a tube.

Further, at least one of an exponent and an elastic body may be injected between the second longitudinal connection concave-convex portion 35 and the second longitudinal concave-convex portion 35 which are engaged with each other. Accordingly, breakage (for example, concrete breakage) due to direct interference between the second longitudinal connection concave-convex portion 35 including the concrete material and the other second longitudinal concave-convex portion 35 can be prevented . Illustratively, the filling standard at the time of injection may be from 5 mm to 10 mm.

The configuration of the second longitudinal connection concavo-convex portion 35 can be understood to be similar to that of the first longitudinal connection concavo-convex portion 25 described above, and thus a detailed description thereof will be omitted.

8, when the concave portion of the second longitudinal connection concavo-convex portion 35 is formed so that the lateral width of the inlet and the transverse width of the interior thereof are constant, the hinge shaft forming member 8 ) Of the second precast deck (35) of the second precast deck (35) of the second precast deck (3) adjacent to the second longitudinal connecting uneven portion (35) of the second precast deck Lt; / RTI >

7A and 7D, the file 1 may be spaced apart from the coast (waterfront) 91 in the lateral direction. In this case, in the present application, the transverse side may be a portion facing the coast 91 with respect to the transverse direction. 7A and 7D, the first precast deck 2 is arranged such that one side thereof is directed to the coast 91, .

7A and 7D, the bridge may include an access portion 6 forming an access path connecting one side of the first precast deck 2 to the coast 91. The pedestrian can enter the bridge from the coast 91 through the access portion 6. As shown in Figs. 7A and 7D, the access portion 6 includes a foot plate 61 disposed in the coastline 91, a slide footrest (not shown) disposed laterally slidably on the foot plate 61 62 and a hinge foot plate 63 hinged to one side of the slide foot plate 62 and connected to one side of the first precast bottom plate 2 on the other side.

1 and 8, in the present bridge, a plurality of piles 1 may be provided and spaced along the longitudinal direction, and as shown in Figs. 1 and 8, The bottom plate 2, the second precast bottom plate 3, and the supporting body 4 may be provided in a plurality corresponding to the plurality of files 1, respectively. For reference, the longitudinal direction may mean the longitudinal direction (spanwise direction) of a bridge formed by continuous construction of the present bridge.

Hereinafter, a method of installing a bridge (hereinafter referred to as " bridge construction method ") according to an embodiment of the present invention will be described. However, since the method of constructing the bridge is related to the method of constructing the bridge as described above, the same reference numerals are used for the same or similar components as those of the bridge described above, and redundant explanations are simplified or omitted .

10A is a schematic side view for explaining step S100 according to an embodiment of the present invention, and FIG. 10B is a schematic side view for explaining step S300 according to an embodiment of the present invention. FIG. 10C is a schematic side view for explaining the step S300 according to an embodiment of the present invention in the case where a mount receiving portion is provided below the first precast concrete portion, FIG. 10D is a schematic side view And FIG. 10E is a schematic side view for explaining steps S500 and S700 according to an embodiment of the present invention. FIG. 10E is a view for explaining steps S500 and S700 according to an embodiment of the present invention in a case where a receiving part is provided below the first precast concrete part And is a schematic side view.

Referring to Figs. 9 and 10A, the present bridge construction method includes a step (S100) of placing a file (1). Referring to Fig. 10A, S100 arranges the file 1 so as to protrude on the water surface.

For reference, before the step S100 is performed, referring to FIG. 10A, the maximum water level and the minimum water level of the construction site where the present bridge is constructed can be examined. In addition, considering the shape of the bridge, the slope of the underwater floor can be partially arranged. Illustratively, if the bridge is installed in a river, the river slope can be arranged. Further, the measurement of the position where the file 1 is to be placed can be made before the step S100 is performed.

9 and 10B, the present bridge construction method includes a step (S300) of arranging the first precast deck 2. In step S300, the first precast deck 2 is disposed so as to surround one lateral side of the outer circumferential surface of the pile 1. As will be described in greater detail below, the first precast deck 2 may be pre-fabricated in a land-based workshop and transported to a site where the present bridge is constructed. For example, a land-based workshop may be established near the site where the bridge is constructed. However, land-based workplaces are not limited to those referring to workplaces near the site. For example, it is desirable to understand them as a concept that covers workplaces such as factories. In addition, in step S300, the first precast deck 2 may be joined to the file 1. Since the joining method has been described above, detailed description is omitted. Accordingly, the position of the first precast deck 2 can be fixed until it is combined with the second precast deck 3 to be described later.

10B, in step S300, the first precast deck 2 is provided with a first precast deck 2 and a second precast deck 3 on the lower side thereof, 4 may be disposed. The lateral width of the first precast deck 2 is greater than the width of the second precast deck 3 in S300 and the width of the first precast deck 2 So that it can be prevented from being inclined or conducted to the second precast bottom plate 3 side.

The supporting body 4 may be provided so as to protrude from the first precast bottom plate 2 (the first precast concrete section 21) in the longitudinal direction (one direction of the longitudinal direction). The supporting body 4 supports a part of the other first precast bottom plate 2 (the first precast concrete portion 21) which is adjacent in the longitudinal direction (one direction in the longitudinal direction) by the partially projected portion . Further, the support body 4 is disposed on the lower side of another first precast deck plate (the first precast concrete section) adjacent in the longitudinal direction (the other direction in the longitudinal direction) The first precast bottom plate 2 (the first precast concrete section 21) can be supported so that a part of the first precast bottom plate 2 (the first precast concrete section 21) (The other direction of the longitudinal direction) than the first direction (the second direction 21). The supporting body 4 corresponds to a protruding portion (protruding amount) in the longitudinal direction (the other direction in the longitudinal direction, the 12 o'clock direction in Figs. 7B and 7C) It can be collapsed.

10C, the seating catching portion 5 (the lateral seating catching portion) protrudes laterally from the other side of the first transverse coupling concave / convex portion 23 of the first precast floor plate 2, May be provided. The seating receiving portion 5 can support at least a part of the second precast concrete portion 3.

In addition, the first precast deck 2 may be provided with a mount receiving portion (longitudinal mount receiving portion) protruding in the longitudinal direction below the first longitudinal connecting concave / convex portion 25. The seating receiving portion can support at least a part of the first precast concrete portion 21 adjacent to the longitudinal direction.

When the supporting body 4 is disposed on the lower side of the first precast bottom plate 2 so as to protrude in the longitudinal direction, the first longitudinal connecting concave and convex portions 25 of the first precast bottom plate 2 (Longitudinal receiving seat) disposed on the lower side of the receiving seat can be omitted. On the other hand, when the present bridge includes a seating support portion (longitudinal seating support portion) disposed below the first longitudinal connection concavo-convex portion 25 of the one precast deck 2, Or may be provided in a structure that is not protruded or recessed in some directions.

9 and 10D, the present bridge construction method includes a step S500 of placing the second precast deck 3. Step S500 is to arrange the second precast deck 3 so as to surround the other lateral side of the outer circumferential surface of the pile 1. Step S500 may be performed after step S300. In other words, the second precast deck 3 may be disposed on the other side of the file 1 after the first precast deck 2 is disposed on one side of the file 1.

In addition, as described above, when the seating receiving portion 5 is provided below the first lateral coupling concave / convex portion 23 of the first precast floor plate 2, referring to FIG. 10E, And the second precast deck 3 may be arranged such that at least a part of the second precast deck 3 is seated on the seating receiver 5 provided on the lower side of the first precast deck 2. [

9 and 10D, the present bridge construction method includes a step (S700) of joining the first precast deck 2 and the second precast deck 3 together. The first precast deck 2 and the second precast deck 3 may be disposed around the piles 1 and joined to each other by steps S300, S500 and S700, The precast deck 2 and the second precast deck 3 wrap the file 1 so as to be movable in the height direction with respect to the file 1.

Specifically, the present bridging construction method includes the step of fabricating a first precast deck (2) coupled with a body (4) at a land work site prior to the step of arranging the first precast deck (2) can do.

The step of fabricating the first precast deck 2 may comprise the step of preparing a first precast concrete portion 21 having a first depression corresponding to one lateral side of the outer circumferential surface of the pile 1 have.

In the step of preparing the first precast concrete portion 21, the first transverse coupling concavo-convex portion 23 is formed on the other lateral side of the first precast concrete portion 21 at the portion where the first concaved portion is not formed . The first transverse coupling concavo-convex portion 23 has a longitudinal width of the inlet 2322 of the concave portion 232 in the concavo-convex portion 232, so as to prevent the engagement with the second transverse coupling concavo- May be smaller than the longitudinal width of the inner portion 2321.

The longitudinal widths of the inlets 2322 and 3322 of the concave portions 232 and 332 of the first transverse coupling concave and convex portion 23 and the second transverse concave concave and convex portion 33 respectively are larger than the longitudinal widths of the inside portions 2321 and 2322 of the concave portions 232 and 332, The step of joining the second precast bottom plate 3 so as to engage with the first transverse coupling concave and convex portion 23 is performed so that the second transverse coupling concavo- 1 can be disposed on the other side in the transverse direction of the pile 1 while being moved from the upper side to the lower side with respect to the precast deck 2. [

In addition, in the step of preparing the first precast concrete part 21, at least one of the front surface and the rear surface in the longitudinal direction of the first precast concrete part 21 is formed with the first longitudinal connecting concavo- . The first longitudinal connection concave portions 25 can be engaged with the other first longitudinal connection concave portions 25 of the first precast concrete portions 21 adjacent to each other in the longitudinal direction. In addition, in the step of preparing the first precast concrete part 21, the first longitudinal connection concavo-convex part 25 is connected to the other first longitudinal connection concavo-convex part 25 of the other first precast concrete part 21, The lateral width of the inlet 2522 of the concave portion 252 of the concave and convex portion 25 may be smaller than the transverse width of the inside 2521 thereof so as to prevent the engagement with the concave portion 252 from being released in the longitudinal direction.

In addition, the step of fabricating the first precast deck 2 may include the step of joining the first divided steel pipe 22 with the first precast concrete portion 21. [ Specifically, the first divided steel pipe body 22 includes a first half ring 221 disposed in the first depression so as to surround one lateral side of the outer peripheral surface of the pile, And a first wing member 222 extending from the first wing member 222. At this time, the step of joining the first divided steel pipe body 22 with the first precast concrete part 21 may be performed by joining the first half ring 221 and the first wing member 222 to the first pre- And can be coupled with the other side in the transverse direction of the cast concrete portion 21 with the stud 29.

In addition, in the step of joining the first divided steel pipe 22 with the first precast concrete part 21, a part of the first wing member 222 may be provided so as to protrude upward from the first depression.

In addition, the present bridge construction method may include the step of manufacturing the second precast deck 3 at the land-based work site before the step S500.

The step of fabricating the second precast deck 3 may include the step of preparing a second precast concrete portion 31 having a second depression corresponding to the other lateral side of the outer peripheral surface of the pile 1 have.

In the step of preparing the second precast concrete portion 31, the second transverse coupling concavo-convex portion 33 is formed at a portion of the second precast concrete portion 31 on the lateral side where the second depression is not formed . The second transverse coupling concavo-convex portion 33 has a longitudinal width of the inlet 3322 of the recessed portion 332 in the concavo-convex portion 332 to prevent the engagement with the first transverse coupling concavo- May be smaller than the longitudinal width of the inner portion 3321.

In addition, in the step of preparing the second precast concrete part 31, a second longitudinal connection concavo-convex part 35 is formed on at least one of the front surface and the rear surface in the longitudinal direction of the second precast concrete part 31 . The second longitudinal connection concave and convex portions 35 can be engaged with the other second longitudinal connection concave portions 35 of the second precast concrete portion 31 adjacent to the longitudinal direction. In the step of preparing the second precast concrete part 31, the second longitudinal connection concavo-convex part 35 is connected to the second longitudinal connection concavo-convex part 35 of the other second precast concrete part 31, The lateral width of the entrance of the concave portion of the concave and convex portion 35 may be smaller than the width of the inside of the concave and convex portion 35 so as to prevent the engagement with the concave and convex portion 35 from being released in the longitudinal direction.

In addition, the step of fabricating the second precast bottom plate 3 may include the step of joining the second divided steel pipe 32 with the second precast concrete portion 31. Specifically, the second divided steel pipe 32 has a second half ring 321 disposed in the second depression so as to surround one lateral side of the outer peripheral surface of the pile 1, And a second wing member 322 extending forward and rearward, respectively. In this case, the step of joining the second divided steel pipe 32 with the second precast concrete part 31 may be performed by joining the second half ring 321 and the second wing member 322 to the second pre- And can be coupled with one side of the cast concrete portion 31 in the transverse direction by the stud 39.

The second wing member 322 may be partially protruded upward from the second depression in the step of joining the second divided steel pipe 32 with the second precast concrete part 31. [

The step (S700) of joining the first precast deck 2 and the second precast deck 3 together with the upwardly protruding portions of the first wing member 222 and the second wing member 322 The bolts can be joined together.

In addition, the present bridging construction method may include joining the first precast deck 2 with the longitudinally adjacent first precast deck 2. The step of engaging the first precast deck plate 2 with the longitudinally adjacent first precast deck plate 2 comprises the step of joining the first longitudinally connecting concave and convex portions 25 of the first precast deck plate 2 And engaging with the other first longitudinal connecting concavity (25) of the neighboring first precast deck (2).

As described above, when the transverse width of the inlet 2512 of the concave portion 251 of the first longitudinal connecting concave-convex portion 25 is smaller than the transverse width of the inside 2511, The step of engaging the first longitudinal connection concave portion 25 of the bottom plate 2 with the other first longitudinal connection concave portion 25 of the first precast bottom plate 2 adjacent to the first longitudinal connection concave portion 25 of the bottom plate 2, So that the first precast deck 2 is engaged with the first longitudinal connecting concave portion of the first precast deck 2 in a state where the first longitudinal connecting concave and convex portions 25 thereof are disposed before, The first precast deck 2 can be disposed while being moved from the upper side to the lower side with respect to the first precast deck 2 in a state where it has been disposed before.

The step of engaging the first precast deck plate 2 with the vertically neighboring first precast deck plate 2 may further include joining the first longitudinal connecting concave and convex portions 25 and the first longitudinally connected concave / And the step of disposing the hinge shaft forming member 8 across the mutually engaged portions of the hinge shaft forming member 25.

The present bridge construction method includes a step of arranging the mutually engaged portions of the first longitudinal connection concavo-convex portion 25 and the other first longitudinal connection concavo-convex portion 25 across the hinge shaft formation member 8 At least one of the front surface and the rear surface in the longitudinal direction of the first precast concrete portion 31 is provided with a hole 82 to which the hinge shaft forming member 8 crosses May be formed.

In addition, the present bridging construction method may include joining the second precast deck 3 with the second vertically adjacent second precast deck 3. The step of engaging the second precast deck plate 3 with the longitudinally adjacent second precast deck plate 3 is carried out by joining the second longitudinally connecting concave and convex portions 35 of the second precast deck plate 3 Engaging with another second longitudinally connecting concave portion 35 of the neighboring second precast deck plate 3.

Further, the step of engaging the second precast deck plate 3 with the vertically adjacent second precast deck plate 3 may be performed by joining the second longitudinally connected concave- And the step of disposing the hinge shaft forming member 8 across the mutually engaged portions of the hinge shaft 35. Since the hinge shaft forming member 8 can be understood to be similar to the hinge shaft forming member 8 of the first precast bottom plate 2, a detailed description will be omitted.

In addition, the present bridge construction method includes the step of arranging the portions of the second longitudinal connection concavo-convex portion 35 and the second longitudinal connection concavo-convex portion 35 mutually engaged with each other across the hinge shaft forming member 8 At least one of the front surface and the rear surface in the longitudinal direction of the second precast concrete portion 31 is provided with a hole (not shown) in which the hinge shaft forming member 8 crosses, in the step of preparing the second precast concrete portion 31, (Not shown).

The shape and function of the second longitudinal connection concavo-convex portion 35 are similar to those of the first longitudinal connection concavo-convex portion 25, and thus a detailed description thereof will be omitted.

In addition, the step S100 described above can separate the file 1 from the coast 91 in the lateral direction. In this case, in the present application, the transverse side may be a portion facing the coast 91 with respect to the transverse direction. That is, when the pile 1 is spaced laterally from the coast 91, the first precast deck 2 can be arranged such that one side thereof faces the coast 91.

In addition, the present bridge construction method may include the step of disposing the entry / exit portion 6 so that an entrance / exit connecting the one side of the first precast deck 2 to the coast 91 is formed. 7A and 7D, in the step of disposing the access portion 6 on the coast, the access portion 6 is slidably movable in the lateral direction on the foot plate 61, the foot plate 61 And a hinge foot plate 63 hingedly coupled to the other side of the slide foot plate 62 and having one side connected to one side of the first precast bottom plate.

Further, in the present bridge construction method, in step S100, a plurality of the files 1 may be arranged at intervals along the longitudinal direction.

Illustratively, in the present bridge construction method, after a plurality of files 1 are arranged (step S100), steps S300, S500, and S700 may be sequentially performed, and thereafter, Placing and joining a first precast deck plate 2 adjacent to the precast deck plate 2 in the longitudinal direction and placing and joining the vertically adjacent first precast deck plates 2 in the step S500, And a step of disposing and joining the second precast decks 3 can be sequentially performed. At this time, in the step of arranging the neighboring second precast decks 3, the neighboring second precast decks 3 are arranged laterally adjacent to the neighboring first precast decks 2 .

Thereafter, a step of joining the first precast deck 2 disposed next to the second precast deck 3 disposed next to the first precast deck 2 may be performed. Thereafter, the step of disposing another first precast deck 2 adjacent to the first precast deck 2 adjacent in the longitudinal direction, the step of disposing the first neighboring second precast deck 3 ) And arranging the other first and second precast decks (2, 3) to each other repeatedly can be carried out repeatedly have.

In another embodiment, the step S300 may include a plurality of the first precast decks 2 corresponding to the plurality of files 1, respectively. In step S500, a plurality of the second precast decks 3 may be provided corresponding to the plurality of files 1, respectively.

Specifically, after a plurality of files 1 are arranged (step S100), a plurality of first precast decks 2 may be arranged for each of the plurality of files 1, and then a plurality The plurality of first precast decks 3 and the plurality of second precast decks 3 may be arranged for each of the first and second precast decks 1 and 2, So that the first and second precast decks 2, 3 adjacent to each other can be joined to each other.

The method of the present bridge construction is characterized in that a first precast deck 2 coupled with a body 4 is produced in a terrestrial workshop and then a first precast deck 2 coupled with a body 4 is placed in a file 1 And the first precast deck 2 is lifted by the support body 4 while the second precast deck 3 is lifted with respect to the first precast deck 2, And the second precast deck (3) are connected to each other, so that the bridge can be easily constructed despite the change of the height of the water surface according to the highest water level and the lowest water level.

According to the present bridge construction method, when the first precast deck 2 is disposed on one side of the pile 1, the first divided steel pipe body 22 is slid along one lateral side of the outer peripheral surface of the pile 1 The arrangement of the second precast deck 2 and the arrangement of the first precast deck 2 and the first precast deck 2 in a state in which the position of the first precast deck 2 is fixed, The coupling between the bottom plates 2 and 3 can be performed, and the ease of installation can be greatly improved.

It will be understood by those of ordinary skill in the art that the foregoing description of the embodiments is for illustrative purposes and that those skilled in the art can easily modify the invention without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be interpreted as being included in the scope of the present invention.

1: File
2: First precast deck
21: First precast concrete part
22: first divided steel pipe body
221: first half ring
222: first wing member
23: First transverse coupling concave /
231: convex portion of the first transverse coupling concavo-convex portion
232: concave portion of the first transverse coupling recessed portion
2321: inside of concave part of first transverse coupling concavo-convex part
2322: entrance of concave portion of first transverse coupling concave portion
25: first longitudinal connecting concave /
251: concave portion of the first longitudinal connecting concavity and convexity
2511: Inside the concave portion of the first longitudinal connecting concave portion
2512: entrance of concave portion of first longitudinal connecting concave portion
252: convex portion of the first longitudinal connecting concavity and convexity
28: 1st bolt hole
281: Bolt connection
29: Stud
3: Second precast deck
31: second precast concrete section
32: second divided steel pipe body
321: second half ring
322: second wing member
33: third transverse coupling concave /
331: convex portion of the second transverse coupling concavo-convex portion
332: concave portion of the second transverse coupling concave portion
3321: the inside of the concave portion of the second transverse coupling concave portion
3322: Entrance of concave portion of second transverse coupling concave portion
35: second longitudinal connecting concave /
351: Convex portion of the first longitudinal connecting concavity and convexity
38: first bolt hole
39: Stud
4:
5:
6: Access
61:
62: slide scaffold
63: Hinge scaffold
8: Hinge shaft forming member
81: first bonded plate plate
82: hole
91: Coastal

Claims (15)

In addition,
A file disposed so as to protrude on the surface of water;
A first precast floor plate surrounding one lateral side of an outer circumferential surface of the file;
A second precast bottom plate that surrounds the other lateral side of the outer circumferential surface of the file and is coupled to the first precast deck; And
And a body disposed below the first precast deck to float the first precast deck and the second precast deck to the aquarium,
Wherein the first precast deck and the second precast deck wrap the file to be movable in a height direction relative to the file. The method according to claim 1,
The transverse width of the first precast deck is greater than the transverse width of the second precast deck,
Wherein the support is configured to prevent the first precast deck from tipping or turning toward the second precast deck. The method according to claim 1,
The first precast deck comprises:
A first precast concrete portion having a first depression corresponding to one lateral side of the outer circumferential surface of the pile; And
A first half ring disposed in the first depression so as to surround one side of the outer circumferential surface of the file and a first wing member extending forward and backward from both longitudinal ends of the first half ring, Lt; / RTI >
Wherein the second precast deck comprises:
A second precast concrete portion having a second depression corresponding to the other lateral side of the outer circumferential surface of the pile; And
A second half ring disposed in the second depression so as to surround the other lateral side of the outer circumferential surface of the file, and a second half ring extending in the forward and backward directions from both longitudinal ends of the second half ring and in contact with the first wing member And a second wing member coupled to the second wing member. The method of claim 3,
Wherein the first half ring and the first wing member are joined by the stud and the other lateral side of the first precast concrete portion including the first depression,
Wherein the second half ring and the second wing member are joined by a stud and a lateral side of the second precast concrete portion including the second depression,
Wherein the first wing member and the second wing member are partly protruded upward from the first and second depressions, and the upwardly projecting portions are bolted together. The method of claim 3,
A first transverse coupling concavo-convex portion is formed at a portion of the first precast concrete portion on the transverse side where the first depression is not formed,
A second transverse coupling concavo-convex portion engageable with the first transverse coupling concavo-convex portion is formed in a portion of the second precast concrete portion in the transverse direction where the second depression is not formed,
The first transverse coupling concavo-convex portion and the second transverse concave concave-convex portion are provided such that the longitudinal width of the inlet of the concave portion of the concavo-convex portion is smaller than the longitudinal width of the interior thereof so as to prevent the engaging engagement from being released in the transverse direction Which is, a subsidiary. 6. The method of claim 5,
Further comprising a seating support portion protruding laterally outwardly of the first transverse coupling concavo-convex portion to support at least a part of the second precast concrete portion. The method of claim 3,
Wherein at least one of the front surface and the rear surface in the longitudinal direction of the first precast concrete portion has a first longitudinal connection concavo-
Wherein the first longitudinal connection concave portion engages another first longitudinal connection concave portion of the longitudinally neighboring first precast concrete portion. 8. The method of claim 7,
The first longitudinal connection concave portion and the other first longitudinal connection concave portion may be formed so that the lateral width of the inlet of the concave portion of the concavo-convex portion is smaller than the transverse width of the inside thereof so as to prevent the longitudinally- Wherein the bridge is provided. 8. The method of claim 7,
Wherein the first precast deck further comprises a hinge shaft forming member crossing a portion where the first longitudinal connecting concavine and convex portion and the other first longitudinal connecting concave portion intersect each other. 8. The method of claim 7,
Wherein the support body is partly protruded in one direction of the longitudinal direction from the first precast concrete part to support a part of another first precast concrete part neighboring in one direction of the longitudinal direction. 11. The method of claim 10,
The main body is disposed below the other first precast concrete portion adjacent to the other direction in the longitudinal direction so that a part of the first precast concrete portion can be supported by a body provided partially protruding in one direction of the longitudinal direction Wherein the first precast concrete portion is provided in a state of being recessed in the other direction in the longitudinal direction than the first precast concrete portion. The method according to claim 1,
The file is laterally spaced from the coast,
Wherein the one lateral side is a portion facing the coast with respect to the lateral direction. The method according to claim 1,
A plurality of said files are arranged at intervals along the longitudinal direction,
Wherein the first precast deck, the second precast deck, and the body are provided in plurality corresponding to the plurality of files, respectively. In the bridging construction method,
Placing the file so as to protrude on the surface of the water;
Disposing a first precast deck to surround one lateral side of the outer circumferential surface of the file;
Disposing a second precast deck to surround the other lateral side of the outer circumferential surface of the file; And
And combining the first precast deck and the second precast deck,
In the step of disposing the first precast deck, the first precast deck has a lower body disposed with a body for floating the first precast deck and the second precast deck to the water level,
Wherein the first precast deck and the second precast deck enclose the file to be movable in a height direction relative to the file. 15. The method of claim 14,
The transverse width of the first precast deck is greater than the transverse width of the second precast deck,
Wherein said body is provided to prevent said first precast deck from tipping or turning toward said second precast deck.

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