KR20100045740A - Support assembly for precast half depth cantilever deck, constructing method of such cantilever deck, bridge using such assembly and constructing method for such bridge - Google Patents

Abstract

PURPOSE: A support assembly for construction of a cantilever of a bridge deck, a construction method for a cantilever using the same, a bridge with the cantilever and a construction method thereof, and a construction method of precast half-depth cantilever deck for the outermost girder of a bridge are provided to enable easy construction of a cantilever without a temporary structure. CONSTITUTION: A support assembly for construction of a cantilever of a bridge deck comprising a girth(11), a compressive supporter(12), and a horizontal tensile member(13) is installed to construct a cantilever outside a girder(100). The girth supports a precast deck for construction of a cantilever. The compressive support member bears a compressive force acting on the girth. The horizontal tensile member is formed out of a bent steel and bears the horizontal tensile force acting on the girth.

Description

Support assembly for cantilevered part construction of bridge deck, construction method of cantilevered part using it, construction method of bridges and bridges with such cantilevered part, and half-thickness precast deck construction method outside the outermost girder bridge for Precast Half Depth Cantilever Deck, Constructing Method of such Cantilever Deck, Bridge using such Assembly and Constructing Method for Such Bridge}

The present invention is a support assembly for the construction of the cantilever portion of the bridge deck plate, a method of constructing the cantilever portion using the same, a method of constructing bridges and bridges having such a cantilever portion and a method of constructing a semi-thickness precast deck plate outside the bridge outermost girder It is about. Specifically, the present invention, in the construction of the cantilever portion of the bottom plate formed on the outside of the outermost girder in the girder bridge, a support assembly installed to support the half-thick precast bottom plate constituting the cantilever portion, and the cantilever using the same A method of constructing a portion, a bridge having a cantilevered portion constructed using the support assembly, and a method of constructing such a bridge.

In constructing a bridge, when installing the bottom plate of a girder upper part, the half thickness precast bottom plate may be used in recent years. By the way, the problem part when constructing a bridge deck using a half-thick precast deck is a cantilever part. The cantilever portion is the cantilever portion that protrudes outward from the outermost girder of the bridge. In the past, although a half-thick precast sole plate was used for the other sole plate portion, the above cantilever portion is difficult to be precast. For this reason, it is common to construct in-cast concrete.

If the cantilevered part is to be constructed with cast-in-place concrete, hazardous work must be performed, such as installing clubs and formwork for the cast-in-place at a high position above the pier. Of course, even in the case of installing a half-thick precast bottom plate, the half-thick precast bottom plate constituting the cantilever portion must be supported by the temporary facility as described above. There is an accompanying problem.

In addition, when the length of the cantilever portion is longer, the size of the parent cement is increased accordingly, the thickness of the bottom plate is further increased and the reinforcement in the transverse direction is also increased, thereby lowering the economics of the bridge construction. For this reason, there are significant limitations in lengthening the cantilever portion in conventional bridges.

The present invention was developed to solve the conventional problems as described above, in completing the bridge by constructing the bottom plate of the bridge using a half-thick precast concrete deck, protruding outward from the outermost girder of the bridge The purpose of the cantilever portion corresponding to the bottom plate portion can be easily installed without installing a temporary facility.

In particular, in the construction of the cantilevered part, even if the length of the cantilevered part is long, the bottom plate does not become thick and the rebar reinforcement in the transverse direction is not increased to prevent the economic deterioration of the bridge construction.

In addition, it aims to minimize the work at the height of installation, such as installation of a copper bar, to improve the safety of work, to reduce the cost of construction and shorten the air.

In the present invention, in order to achieve the above object, as a support assembly for constructing the cantilever portion of the bridge bottom plate formed on the outermost girder of the bridge, a half-thick precast bottom plate installed for the construction of the cantilever portion A corner beam for supporting the beam; A compression support member installed between the edge beam and the outermost girder to bear the compressive force due to the load acting on the edge beam; And a transverse tension member provided in an inward direction of the corner beam to bear transverse tension due to the load acting on the corner beam.

In the support assembly according to the present invention, the transverse tension member is made of bent section steel, both ends thereof may be provided to be joined to the upper portion of the upper edge of the edge beam and the outermost girder, respectively, the transverse tension member is a tension member It may also be configured.

In the present invention, as a method for constructing the cantilever portion of the bridge bottom plate formed on the outermost girder of the bridge, after the assembly of the support assembly according to the present invention is prepared in advance, the support assembly is half the thickness of the cantilever portion The support assembly is integrally coupled to the transverse side of the outermost girder 100 so as to support the precast sole plate, and a half-thick precast sole plate on top thereof to be supported by the support assembly and the outermost girder. After the installation, there is provided a bottom plate cantilever part construction method of the outermost girder, characterized in that it comprises the step of pouring concrete on the half-thick precast bottom plate.

Of course, in the method of constructing a cantilever part of the bottom plate outside the outermost girder according to the present invention, each component of the support assembly may be individually brought to the outermost girder side and assembled.

In the present invention, a bridge in which the cantilever portion of the bottom plate is constructed outside the outermost girder by using the support assembly as described above is provided.

In the present invention, the girder may be a box girder, in which case the outermost girder is a side wall of the box girder.

In the present invention, there is provided a method for constructing a bridge by forming a bottom plate cantilever portion outside the outermost girder by the above method.

According to the present invention, when constructing the cantilever portion of the bridge deck with a half-thick precast deck, corner beams are used, so that a separate temporary supporting member as in the prior art is not required, and thus construction costs, construction periods, etc. Can be reduced.

In particular, according to the present invention, even if the length of the cantilever portion is increased to increase the size of the parent cement, it is not necessary to increase the transverse reinforcement amount unless it is necessary to increase the thickness of the half-precast base plate.

Therefore, the length of the cantilever portion can be longer than that of the conventional bridge, which is advantageous in terms of economics and practicality in designing and constructing the bridge.

Hereinafter, the configuration and construction method of the precast cantilever bottom plate according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1A and 1B show a half-thick precast bottom plate support assembly 1 (hereinafter abbreviated as " support assembly ") of a cantilever portion according to the present invention on the outermost girder in a bridge provided with a plurality of housing girders. A schematic perspective view is shown, each showing a state before and after being coupled to 100). 2 shows a schematic perspective view showing a support assembly 1 according to the invention coupled to the side of a box girder bridge.

The support assembly 1 according to the invention is for supporting the cantilever part in the bottom plate of the bridge. The cantilever portion of the bottom plate refers to the bottom plate portion formed outside the outermost girder 100 of the girder bridge. Although the outermost girder 100 is shown as consisting of an I beam in FIGS. 1A and 1B, the "outer girder" in the present specification, including claims, is a type I housing in a general girder bridge as shown in the drawings. It is not intended to mean more, but to include the box girder sidewall in the box girder bridge using a girder having a box-shaped cross section ("box girder") is connected to each other, as shown in FIG. Used.

As shown in the drawing, the support assembly 1 according to the present invention bears the edge beam 11 for supporting the half-thick precast bottom plate of the cantilever portion and the compressive force due to the load acting on the edge beam 11. The compression support member 12 is installed between the edge beam 11 and the outermost girder 100 so as to bear a transverse force (orthogonal direction) due to the load acting on the edge beam 11 The transverse tension member 13 provided in the inner direction (outer girder direction) of the edge beam 11 is comprised. That is, in the support assembly 1 according to the present invention, as shown in FIGS. 1A, 1B and 2, the edge beam 11 is disposed in the longitudinal direction (the axial direction), and in the direction of the outermost girder 100. Compression support member 12 is inclinedly coupled to the side of the edge beam 11 and the transverse tension member 13 has a structure that is horizontally coupled.

In more detail, the edge beam 11 made of a section steel having a height smaller than the outermost girder 100 is placed long in the longitudinal direction of the bridge, and the half-thick precast bottom plate 2 of the cantilever portion placed thereon as described below. ) To support the lower part.

The compression support member 12 is placed between the corner beam 11 and the outermost girder 100 so that both ends thereof are integrally coupled to the corner beam 11 and the outermost girder 100, respectively, and the corner beam 11 ). The compressive support member 12 is to support the compressive force, in the embodiment shown in the figure, one end of the compression support member 12 is coupled to the side of the corner beam 11, the other end is the outermost girder 10 Is coupled to the bottom of the In particular, in the embodiment shown in the drawings by using the coupling plate 101, both ends of the compression support member 12 was welded to the edge beam 11 and the outermost girder 100, respectively. However, the coupling between the both ends of the compression support member 12 and the edge beam 11 and the outermost girder 100 is not limited to welding, it is possible to use a variety of coupling methods. The compression support member 12 may be made of a member such as a steel pipe or a fiber reinforced plastic (“FRP”) pipe, and the like, and may be filled with a filler such as concrete, non-condensed mortar, or the like.

A transverse tension member 13 is coupled to the upper side of the edge beam 11 to support the edge beam 11, wherein the transverse tension member 13 is a plate-like member, a steel bar, or a bent section steel. It may be made of a rod member or may be made of a tension member as described below. In the embodiment shown in FIGS. 1A, 1B and 2, the transverse tension member 13 is made of a bending steel which is one of the rod members, and both ends of the upper and outermost girders 100 of the corner beam 11 are formed. The edge beam 11 is supported by joining to the upper part, respectively. In particular, the transverse tension member 13 in the embodiment shown in the figure has a rebar through hole 15 in the vertical plate 14 of the bent section steel, the reinforcing hole 15 is a half-thick precast floor. Concrete is placed on the plate to allow the reinforcing bars to be passed inside the base plate when the base plate is constructed. However, in the present invention, the transverse tension member is not limited to the above embodiment, and various members may be used as the transverse tension member, including another embodiment described later.

In the present invention, after manufacturing the support assembly 1 by assembling the corner beam 11, the compression support member 12 and the transverse tension member 13 in advance as described above, the support assembly 1 is the outermost girder ( Although may be coupled to the side of the 100, the corner beam 11, the compression support member 12 and the transverse tension member 13 are assembled to the side of the outermost girder 100 in the field in a separate state, respectively, to support it. The assembly 1 may be coupled to the outermost girder 100.

In addition, in coupling the support assembly 1 as described above to the side of the outermost girder 100, the support assembly 1 is coupled to the outermost girder 100 with the outermost girder 100 mounted on the piers. Alternatively, the outermost girder 100 may be lifted and mounted on the pier after the support assembly 1 is coupled to the outermost girder 100 while the outermost girder 100 is not yet mounted on the pier.

On the other hand, in the support assembly 1 according to the embodiment shown in the drawings, the compression support member 12 and the transverse tension member 13 are arranged in pairs at intervals in the longitudinal direction, but the number of these members Is not limited to this. That is, one or more compression support members 12 may be arranged in the longitudinal direction (or axial direction) at intervals of one or more, and the intervals may be different from each other, and their installation positions are also at both ends of the corner beams 11. It may be any position of the side of the corner beam 11 instead.

In addition, the transverse tension member 13 may also arrange one or more of the plurality in the longitudinal direction at various intervals, and the interval does not have to coincide with the interval of the compression support member 12 described above. Even if it is not the both ends of the corner beam 11 may be sufficient. In particular, the transverse tension members 13 are jointed between the half thickness precast bottom plates 2 so that no interference occurs with the transverse tension members 13 when the half thickness precast bottom plates 2 are placed. That is, it is preferable to be located between the half-thick precast bottom plates 2 when the plurality of half-thick precast bottom plates 2 are placed in the longitudinal direction.

In FIG. 1A and FIG. 1B, reference numeral 110 is a lower bracing member 110 disposed between the outermost girder 100 and a neighboring girder. When the support assembly 1 of the present invention is installed in the outermost girder 100, the compressive force is transmitted to the outermost girder 100 through the compression support member 12 of the support assembly 1, the lower bracing member ( When 110 is disposed between the housing girders, the compressive force transmitted through the compression support member 12 is transmitted to the other housing girders through the lower bracing member 110 via the outermost girder 100 and distributed. Since the effect is exerted, it is preferable to install the lower bracing member 110. Of course, it is also possible to further include an inclined bracing member 120 for connecting the lower bracing member 110 and the upper portion of the girder or inclinedly connecting the upper portion of the girder and the lower portion of the neighboring girder as shown in the figure. have. The member number 130 is a shear connector 130 for shear connection with the bottom plate by in-situ concrete. The installation position and the number of the lower bracing member 110 and the inclined bracing member 120 may be determined regardless of the compression support member 12 and the transverse tension member 13.

FIG. 3 is a schematic view showing a process in which a half-thick precast bottom plate 2 is placed on the corner beam 11 and the outermost girder 100 in the cantilever portion following the state shown in FIG. 1B. After the support assembly 1 of the present invention with the corner beam 11 is installed on the side of the outermost girder 100 as shown in FIG. 1B, the half-thick precast bottom plate 2 is shown as shown in FIG. 3. The edge beam 11 and the outermost girder 100 is placed on. The shear pocket 21 formed in the half-thick precast bottom plate 2 in the drawing is for inserting the shear connector 130 provided in the upper flange of the corner beam 11 for shear connection. FIG. 4 is a schematic view showing a state in which the half-thick precast bottom plate 2 is placed subsequent to FIG. 3. As shown in the figure, the half-thickness precast bottom plate 2 is stably installed in a state supported by the edge beam 11 and the outermost girder 100. In particular, when using the bending section steel as the transverse tension member 13, as shown in the embodiment shown in the figure may be placed so that the half-precast bottom plate (2) also spans the horizontal portion 16 of the bending section steel In this case, the horizontal portion 16 also exerts a function of directly contacting and supporting the half-thick precast base plate 2, and when the concrete is poured over the half-thick precast base plate 2, the concrete leaks. It will be able to block the possibility of becoming original.

In the conventional case, in order to construct the cantilever portion of the bridge deck with a half-thick precast deck, it was necessary to provide a separate temporary support member on the bottom of the half-thick precast deck. However, in the present invention, since the corner beam 11 is used, such a temporary supporting member is not necessary. In particular, in the conventional case, the longer the length of the cantilever portion, the larger the size of the parent cement, thereby increasing the thickness of the half-precast base plate and the transverse reinforcement amount, but the support assembly (1) of the present invention In this case, since the edge beam 11 firmly supported by the compression support member 12 and the transverse tension member 13 supports the half-thick precast bottom plate installed on the cantilever portion, the cantilever portion becomes longer. There is an advantage that it is not necessary to increase the thickness of the half-thick precast deck and increase the transverse reinforcement. Therefore, according to the present invention, the cantilever portion of the bridge can be made sufficiently long, and accordingly, the design and construction of the bridge can be freely performed.

FIG. 5 is a schematic cross-sectional view showing a state in which a half-thick precast bottom plate 2 is placed in a girder bridge having two outermost girders 100, and FIG. 6 shows a half-thick precast bottom plate 2. A schematic cross-sectional view is shown showing the state in which the concrete is cast in place on top of the bottom plate 3. 5 and 6 illustrate a bridge provided with two outermost girders 100, an additional housing may be further provided between the two outermost girders 100.

As shown in FIG. 5, the half-thick precast bottom plate 2 between the half-thick precast bottom plate 2 constituting the cantilever portion and the outermost girder 100, that is, between the girders supporting the bottom plate of the bridge, respectively. Install it. The half-thick precast bottom plate 2 may be installed to span the upper surface of the upper flange of the girder. Of course, after installing the half-thick precast bottom plate between the outermost girder 100 and the other housing girders, as described above, including the edge beam 10, the compression support member 12 and the transverse tension member 13 The support assembly 1 of the present invention may be installed on the side of the outermost girder 100 and a half-thick precast bottom plate for the cantilever portion thereon.

When the half-thick precast bottom plate is installed as described above, the bar is subsequently reinforced as in the prior art and the concrete is poured to complete the bottom plate as shown in FIG. 6. On the other hand, the transverse tension member 13 may be installed between the housing.

As described above, in the present invention, the transverse tension member 13 is not limited to the section steel, but may be configured in other forms. In FIG. 7, the tension member is used as the transverse tension member 13 as another embodiment of the present invention. A perspective view of a form corresponding to FIG. 1B is shown, showing an example. As shown in the figure, the tension member 131 can be used as the transverse tension member 13, the tension is imparted by the tension member 131, so that the concrete is not only half-precast base plate 2, Since the bottom plate formed by pouring can be firmly supported, it is very advantageous to increase the length of the cantilever portion. In addition, the tension member 131 may be disposed to tension the entire transverse length of the bridge deck. On the other hand, a steel bar may be used as the transverse tension member 13 instead of the tension member.

1A and 1B are schematic perspective views respectively showing a state before and after a support assembly according to the present invention is coupled to an outermost girder in a bridge having a plurality of housing girders.

Figure 2 is a schematic perspective view showing a state in which the support assembly according to the present invention is coupled to the side of the box girder bridge.

FIG. 3 is a schematic view showing a process in which a half-thick precast bottom plate is placed on a corner beam and an outermost girder in a cantilever portion subsequent to the state shown in FIG. 1B.

4 is a schematic view showing a state in which a half-thick precast bottom plate is placed subsequent to FIG. 3.

5 is a schematic cross-sectional view showing a state in which a half-thick precast deck is placed in a girder bridge with two outermost girders.

FIG. 6 is a schematic cross-sectional view showing a state in which concrete is cast on the top of a half-thick precast deck, and the bottom is constructed.

FIG. 7 is a perspective view of a shape corresponding to FIG. 1B showing an embodiment using a tension member as a transverse tension member as to another embodiment of the present invention. FIG.

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

1: support assembly

11: corner beam

12: compression support member

13: transverse tension member

100: outermost girder

Claims (11)

As a support assembly 1 for constructing a cantilever portion of a bridge deck formed outside the outermost girder 100 of a bridge, An edge beam 11 for supporting a half-thick precast base plate installed for the construction of the cantilever portion; A compression support member 12 installed between the edge beam 11 and the outermost girder 100 so as to bear a compressive force due to the load acting on the edge beam 11; And a transverse tension member (13) provided in an inward direction of the edge beam (11) to bear a transverse tension due to the load acting on the edge beam (11). The method of claim 1, The transverse tension member (13) is made of bent section steel, the both ends of the support assembly, characterized in that the upper end of the edge beam (11) and the top of the outermost girder (100) are provided respectively. The method of claim 1, The transverse tension member (13) is a support assembly, characterized in that made of a tension member (131). As a method of constructing the cantilever portion of the bridge bottom plate formed outside the outermost girder 100 of the bridge, An edge beam 11 for supporting a half-thick precast base plate installed for the construction of the cantilever portion; A compression support member 12 installed between the edge beam 11 and the outermost girder 100 so as to bear a compressive force due to the load acting on the edge beam 11; Assemble in advance a support assembly (1) comprising a transverse tension member (13) provided in the inward direction of the corner beam (11) to bear a transverse tension due to the load acting on the corner beam (11). Producing step; Integrally coupling the support assembly (1) to the transverse side of the outermost girder (100) such that the support assembly (1) supports the half-thick precast bottom plate of the cantilever portion; Installing a half-thick precast base plate on top thereof to be supported by the support assembly (1) and the outermost girder (100); And Partial construction method of the bottom plate cantilever outside the outermost girder comprising the step of placing concrete on the half-precast bottom plate. As a method of constructing the cantilever portion of the bridge bottom plate formed outside the outermost girder 100 of the bridge, Corner beams (11) for supporting a half-thick precast bottom plate installed for the construction of the cantilever portion on the transverse side of the outermost girder (100); A compression support member 12 installed between the edge beam 11 and the outermost girder 100 so as to bear a compressive force due to the load acting on the edge beam 11; Integrate the support assembly (1) comprising a transverse tension member (13) provided in the inward direction of the corner beam 11 to bear the transverse tension due to the load acting on the corner beam (11) Installing; Installing a half-thick precast base plate on top thereof to be supported by the support assembly (1) and the outermost girder (100); And Partial construction method of the bottom plate cantilever outside the outermost girder comprising the step of placing concrete on the half-precast bottom plate. In the girder bridge having a half-thick precast bottom plate is installed on the girder, and the bottom plate is formed by constructing the site-casting concrete on the upper part, An edge beam 11 for supporting a half-thick precast bottom plate of the cantilever portion in order to construct a cantilever portion of the bridge bottom plate formed outside the outermost girder 100; A compression support member 12 installed between the edge beam 11 and the outermost girder 100 so as to bear a compressive force due to the load acting on the edge beam 11; The cantilever is supported by a support assembly (1) comprising a transverse tension member (13) provided in an inward direction of the edge beam (11) to bear a transverse tension due to the load acting on the edge beam (11). Integrally coupled to the transverse side of the outermost girder 100 to support the half-thick precast bottom plate of the portion, A half-thick precast bottom plate is installed on the upper part so as to be supported by the support assembly 1 and the outermost girder 100, and then concrete is poured so that the cantilever portion of the bottom plate is outside of the outermost girder 100 of the girder bridge. The girder bridge which is formed. The girder according to claim 6, wherein the lateral tension member (13) is made of a bent section steel and both ends thereof are joined to the upper part of the edge beam (11) and the upper part of the outermost girder (100). Bridges. The method of claim 6, The lateral tension member 13 is a girder bridge, characterized in that made of a tension member (131). The method according to any one of claims 6 to 8, The girder is a box girder, The outermost girder (100) is a girder bridge, characterized in that the side wall of the box girder. As a method of constructing a girder bridge having a structure in which a half-thick precast bottom plate is installed on the girder, and on-site casting concrete is installed, An edge beam 11 for supporting a half-thick precast bottom plate of the cantilever portion in order to construct a cantilever portion of the bridge bottom plate formed outside the outermost girder 100; A compression support member 12 installed between the edge beam 11 and the outermost girder 100 so as to bear a compressive force due to the load acting on the edge beam 11; Assemble in advance a support assembly (1) comprising a transverse tension member (13) provided in the inward direction of the corner beam (11) to bear a transverse tension due to the load acting on the corner beam (11). Producing step; Integrally coupling the support assembly (1) to the transverse side of the outermost girder (100) such that the support assembly (1) supports the half-thick precast bottom plate of the cantilever portion; Installing a half-thick precast base plate on top thereof to be supported by the support assembly (1) and the outermost girder (100); And And placing the cantilever portion of the bottom plate on the outside of the outermost girder (100) of the girder bridge by placing concrete on the half-thick precast bottom plate. As a method of constructing a girder bridge having a structure in which a half-thick precast bottom plate is installed on the girder, and on-site casting concrete is installed, Corner beams (11) for supporting a half-thick precast bottom plate installed for the construction of the cantilever portion on the transverse side of the outermost girder (100); A compression support member 12 installed between the edge beam 11 and the outermost girder 100 so as to bear a compressive force due to the load acting on the edge beam 11; Integrate the support assembly (1) comprising a transverse tension member (13) provided in the inward direction of the corner beam 11 to bear the transverse tension due to the load acting on the corner beam (11) Installing; Installing a half-thick precast base plate on top thereof to be supported by the support assembly (1) and the outermost girder (100); And And placing the cantilever portion of the bottom plate on the outside of the outermost girder (100) of the girder bridge by placing concrete on the half-thick precast bottom plate.

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