KR100679570B1 - Precast cantilever deck, bridge deck having such precast cantilever deck, and constructing method of such bridge deck - Google Patents

Abstract

A precast cantilever deck simultaneously forming a cantilever unit outside a bridge mold, a bridge deck having the same and a manufacturing method thereof are provided to prevent construct waste materials from being generated by manufacturing in a precast way. A precast cantilever deck(10) is made of a precast member of a predetermined long panel shape in a vertical direction, provided with an anchor bolt(13) of which laying end lays inside and of which exposed end projects toward the furthest outside mold(1) of the bridge. Tensile force is applied to the anchor bolt According as An anchor bolt fixing member(20) fixed to the mold, and then the anchor bolt are integrally bonded and the precast cantilever deck is adhered to one side of the furthest mold of the bridge.

Description

Precast Cantilever Deck, Bridge Deck having such Precast Cantilever Deck, and Constructing Method of such Bridge Deck}

 1 is a schematic lateral cross-sectional view of a bridge showing the shape of constructing the outer cantilever portion by cast-in-place concrete according to the prior art.

2 is a cross-sectional schematic cross-sectional view of a bridge deck with a precast cantilever deck according to one embodiment of the present invention.

FIG. 3 is a schematic perspective view illustrating a configuration of the precast cantilever bottom plate illustrated in FIG. 2.

Figure 4 is a schematic perspective view showing the configuration of the anchor bolt fixing member and the coupling structure of the anchor bolt and the anchor bolt fixing member according to an embodiment of the present invention.

5a to 5c are schematic enlarged cross-sectional views respectively showing the process steps of installing the precast cantilever bottom plate according to the present invention.

FIG. 6 is a view corresponding to FIG. 5C and is an enlarged cross-sectional view of an embodiment using a precast cantilever bottom plate having a deformed shape. FIG.

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

1 ... Mold

10 ... precast cantilever bottom plate

13 ... Anchor Bolts

20.Anchor bolt fixing member

The present invention relates to a precast cantilever bottom plate constituting the cantilever portion of the bridge bottom plate outside the bridge mold, a bridge bottom plate having the same, and a construction method thereof, and more particularly, to the cantilever portion of the bridge bottom plate outside the bridge mold. In construction, the present invention relates to a technology that enables the cantilever portion of a bridge deck to be constructed quickly, conveniently, and economically by assembling and installing a precast cantilever bottom plate having a half-section shape integrally with a bridge mold. The present invention provides a new structure of a precast cantilever deck, a bridge deck having the same, and a method of constructing the bridge deck.

In the construction of bridges, bridge decks mounted on molds are generally manufactured by cast-in-place concrete using clubbing and formwork installation. In the inner space between the mold and the mold, the bottom plate may be constructed by using a half-section precast panel or a shear surface precast panel, but an outer cantilever portion formed by protruding to the outside of the bridge, that is, the outermost mold ( The cantilever side is being constructed by cast-in-place concrete due to technical difficulties. FIG. 1 is a schematic lateral cross-sectional view of a bridge showing the shape of constructing the outer cantilever portion 100 by cast-in-place concrete. Although the bottom plate between the mold 200 and the inner space between the mold 200 can be constructed using a precast panel, it is impossible to construct the outer cantilever portion 100 in a precast manner using conventional techniques. There is no choice but to construct with cast concrete. In order to manufacture the outer cantilever portion 100 by the cast-in-place concrete as described above, the clubbing 101 and the formwork 102 should be installed at the height of the place. In addition to increasing the risk of accidents, such as additional costs, air delays, construction waste materials, etc. are also caused.

The present invention has been developed in order to solve the conventional problems as described above, so as not to depend on the cast-in-place concrete that must be installed at the height, such as the wheels, formwork, etc. in the construction of the cantilever portion of the bridge bottom plate outside the bridge mold It is an object of the present invention to reduce the risk of accidents due to aerial work, to reduce construction costs, to prevent air delay, and to prevent the occurrence of construction waste materials, such as copper bars and formwork, after use.

In order to achieve the object of the present invention, the present invention is a semi-sectional precast cantilever bottom that can form the outer cantilever portion of the bridge deck plate quickly and simply, safely and economically by integrally assembled and installed in the mold of the bridge Provide the edition. In addition, the present invention provides a bridge bottom plate forming the cantilever portion using the precast cantilever bottom plate of the half-section as described above and a method for constructing the same.

Specifically, in the present invention, is made of a precast concrete member made of a panel form having a predetermined length in the axial direction; One end is fixed and buried therein, and the other exposed end has an anchor bolt protruding in the outermost mold direction of the bridge; The anchor bolt is integrally coupled with the anchor bolt fixing member provided in the bridge mold to introduce a tensile force; A precast cantilever bottom plate is provided which is integrally installed in a state of being tightly attached to one side of the outermost mold of the bridge to form a cantilever portion of the bridge bottom plate.

In addition, in the present invention, the bridge bottom plate is provided on the bridge mold, having a cantilever portion on the outside of the outermost mold, made of a precast member made of a panel shape having a predetermined length in the direction of the bridge, one end is buried inside A fixed and other exposed end comprises a precast cantilever bottom plate having anchor bolts projecting in the outermost mold direction of the bridge; An anchor bolt fixing member is fixed to the outermost mold of the bridge; The anchor bolt is integrally coupled to one side of the outermost mold of the bridge by being integrally coupled with the anchor bolt fixing member provided in the bridge mold to introduce a tensile force; A bridge deck is provided, wherein the cast-in-place concrete is constructed on one side of the precast cantilever bottom plate and the anchor fixing part to form the cantilever portion.

In addition, in the present invention, as a bridge bottom plate construction method of the upper portion of the bridge mold having a cantilever portion on the outer side of the outermost mold, it is made of a precast member made of a panel form having a predetermined length in the axial direction, one end portion is the inside The precast cantilever bottom plate, which is fixed to and fixed to the other end, has an anchor bolt projecting in the outermost mold direction of the bridge in a precast manner; Fixing the anchor bolt fixing member to the outermost mold of the bridge; After lifting the precast cantilever bottom plate and installing it in close contact with one side of the bridge mold, the precast cantilever bottom plate is introduced by integrating the anchor bolt with the anchor bolt fixing member provided in the bridge mold to introduce a tensile force. Integrally installed in a state of being firmly in contact with one side of the outermost mold of the bridge; There is provided a method of constructing a bridge deck, wherein the cantilever portion is formed by pouring concrete in-place on one side of the precast cantilever bottom plate and an upper portion of the anchor fixing part.

In the present invention as described above, the side of the precast cantilever bottom plate in the direction of engagement with the mold, the "b" shape is provided with a projection and a vertical surface that extends over the upper surface of the mold so as to prevent falling and sag It can be configured as.

In addition, in the present invention, the anchor bolt fixing member is a vertical frame that is fixed to the lower end is buried in the upper portion of the mold, the end of the anchor bolt is fastened by a tightening nut member and supported by the vertical frame to move It may be configured to include a stopper to be fixed to introduce the tension force to the anchor bolt.

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

FIG. 2 is a schematic cross-sectional side view of a bridge deck with a precast cantilever deck 10 according to one embodiment of the present invention. For convenience, an oblique line showing a cross section is not shown in FIG. 2. FIG. 3 is a schematic perspective view showing the construction of the precast cantilever bottom plate 10 shown in FIG. 2.

The precast cantilever bottom plate 10 according to the present invention is made of a half-section precast member having an anchor bolt 13 therein, and the anchor bolt 13 is provided on the outermost mold 1 of the bridge. It is integrally coupled with the anchor bolt fixing member 20 is applied integrally to one side of the mold (1) by applying a tensile force to form the cantilever portion of the bridge bottom plate outside the bridge mold. Specifically, as illustrated in FIG. 3, the precast cantilever bottom plate 10 has a panel shape having a predetermined length in the axial direction. The side surface of the precast cantilever bottom plate 10 in the direction in which the mold 1 is engaged is provided with a projection 11 and a vertical surface 12 that extends over the upper surface of the mold 1 so as to prevent falling and sagging. It has the form "a". Accordingly, when the precast cantilever bottom plate 10 is coupled to the mold 1, the protrusion 11 is placed on the upper surface of the mold 1 so that the weight thereof is transferred to the mold 1, and the vertical surface 12 is In close contact with the side of the mold (1), the precast cantilever bottom plate 10 is stably installed on the side of the mold (1) in a state that sag and rotation is prevented.

The precast cantilever bottom plate 10 is provided with an anchor bolt 13 integrally. In the embodiment shown in the figure, one end of the anchor bolt 13 is buried and fixed in the precast cantilever bottom plate 10, the other exposed end of the anchor bolt 13 protrudes in the mold (1) direction have. The anchor bolt 13 is coupled to the anchor bolt fixing member 20 which is installed in the mold (1) as described below, the tensile force is introduced.

The precast cantilever bottom plate 10 may be made of a half-section precast member. When the concrete 30 for the completion of the bridge bottom plate is poured as described below, the precast cantilever bottom plate 10 may be fully synthesized. In order to achieve this, one side surface 14 of the precast cantilever bottom plate 10 is subjected to a rough surface treatment. In addition, one side surface 14 of the precast cantilever bottom plate 10 may be provided with a shear connector 15 to improve the shear resistance by shear synthesis with the post-pouring concrete 30.

On the other hand, the precast cantilever bottom plate 10 may be transversely connected reinforcing bar 16, one side of the transverse connecting bar 16 is formed on the side of the precast cantilever bottom plate 10 ( 1) is exposed in the lateral side is connected to the reinforcement is reinforced in the post-casting concrete (30). On the outer upper surface 17 of the precast cantilever bottom plate 10, facilities, such as bridge curb, are provided as described later.

In the present invention, the anchor bolt 13, one end of which is buried and fixed in the precast cantilever bottom plate 10 is coupled to the anchor bolt fixing member 20 installed in the mold (1) to introduce a tensile force. The anchor bolt fixing member 20 is fixed to the upper portion of the mold 1, the lower portion of the anchor bolt, when the precast cantilever bottom plate 10 is installed on one side of the mold (1), the anchor bolt ( By firmly fastening to the end of 13) to introduce a tensile force, the precast cantilever bottom plate 10 is to be integrally coupled in a state in close contact with one side of the mold (1). Specifically, Figure 4 is a schematic perspective view showing the configuration of the anchor bolt fixing member 20 and the coupling structure of the anchor bolt 13 and the anchor bolt fixing member 20 according to an embodiment of the present invention. . In the embodiment shown in the figure, the anchor bolt fixing member 20 is a stopper that the vertical frame 21 and the end of the anchor bolt 13 is fastened and supported by the vertical frame 21 to fix the movement. It is comprised including 22. An end of the anchor bolt 13 passes through the stopper 22 and is fixed by the tightening nut member 23, and the stopper 22 is supported by the side of the vertical frame 21. When the nut member 23 is tightened, a tension force is introduced into the anchor bolt fixing member 20 supported by the vertical frame 21, and thus the precast cantilever bottom plate 10 is one side of the mold 1. It is pulled in to be in close contact with the mold (1) in close contact. At this time, it is preferable that the anchor bolt fixing member 20 further includes a member for preventing the anchor bolt 13 from being conducted upward, as shown in the drawing, the stopper 22. The vertical frame 21 may be provided with a fall prevention bar 24 extending transversely to prevent the anchor bolt 13 from falling and the detachment of the stopper 22 accordingly. The fall prevention bar 24 shown in the drawing is only one embodiment for the fall of the anchor bolt 13 and the departure of the stopper 22 according to the fall, according to the fall of the anchor bolt 13 and accordingly In order to prevent the stopper 22 from being detached, various forms of deformation (for example, a structure in which a protrusion is formed on the vertical frame 21 to prevent the stopper 22 from moving upward on the vertical frame 21) May be added.

 The anchor bolt fixing member 20 is firmly installed on the upper part of the mold (1), by making the lower part of the anchor bolt fixing member 20 is buried in the upper part of the mold (1) when manufacturing the mold (1) The anchor bolt fixing member 20 can be fixedly installed. As such, when the lower part of the anchor bolt fixing member 20 is embedded in the upper part of the mold 1, the anchor bolt fixing member 20 is placed on the reinforcing bar in the mold 1 to facilitate the embedding position. To be set and embedded in the concrete of the mold (1) so that the mold (1) and the anchor bolt fixing member 20 can be firmly integrated, as shown in the embodiment of the anchor bolt fixing member 20 The connection bar 25 may be installed below the vertical frame 21. Reinforcing bar may be used as the connection bar 25 and the fall prevention bar 24 in the present invention. The configuration of the anchor bolt fixing member 20 described above with reference to FIG. 4 is merely an embodiment, and the anchor bolt fixing member 20 of the present invention is not limited thereto. That is, if the lower part is integrally fixed to the mold (1) is installed, and if the configuration that can be firmly coupled to the end of the anchor bolt 13 to introduce a tensile force to the anchor bolt 13 (an anchor bolt fixing member of the present invention ( 20 may be manufactured in various forms.

5a to 5c are schematic enlarged cross-sectional views showing the process of installing the precast cantilever bottom plate 10 according to the present invention, Figure 5a is a precast cantilever bottom plate 10 is the outermost mold (1) 5b shows a state in which the post-pouring concrete 30 for the bridge deck is poured on the mold 1, and FIG. 5c shows the precast cantilever bottom plate. (10) shows the state completed until the installation of the firewall, such as.

Looking at the specific construction process, first pre-fabrication of the precast cantilever bottom plate 10 according to the contents described above with respect to FIG. The anchor bolt fixing member 20 is fixed to the upper portion of the mold 1 in advance according to the contents described with reference to FIG. 4. Subsequently, as shown in FIG. 5A, the precast cantilever bottom plate 10 is lifted to the position of the outermost mold 1 of the bridge so that the protrusion 11 of the precast cantilever bottom plate 10 is removed from the mold 1. The vertical surface 12 of the precast cantilever bottom plate 10 is brought into close contact with the mold 1 by fastening the anchor bolt 13 to the anchor bolt fixing member 20 to introduce a tensile force. The precast cantilever bottom plate 10 is firmly combined with the outermost mold 1 of the bridge.

Subsequently, as shown in FIG. 5B, the bridge bottom plate is constructed by pouring the post-pouring concrete 30 onto the mold 1 and above the upper surface 14 of the precast cantilever bottom plate 10. It is preferable to connect the reinforcing bars 3 arranged in the post-installation concrete 30 on the upper part of the mold 1 and the transverse connecting bars 16 exposed to the side surfaces of the precast cantilever bottom plate 10. Do. As such, when the post-installation concrete 30 is constructed, the anchor bolt 13 and the anchor bolt fixing member 20 are completely embedded in the post-installation concrete 30.

Subsequently, as shown in 5c, a pavement material 40 such as ascone is laid on the post-installation concrete 30, and a bridge attachment such as a barrier, curb, or railing is provided on the outer upper surface 17 of the precast cantilever bottom plate 10. The facility 41 is installed.

In the present invention, the outer surface shape of the precast cantilever bottom plate 10 or the shape of one side upper surface 14 is not limited to the shape of the figure described above. That is, FIG. 6 is a view corresponding to FIG. 5C and shows an embodiment using a precast cantilever bottom plate 10 having a modified outer shape. As such, the shape of the outer surface of the precast cantilever bottom plate 10 or the shape of one side upper surface 14 may be variously changed.

As described above, in the present invention, after prefabrication of the precast cantilever bottom plate 10 having a half-section shape, the lifting bolt 13 and the anchor bolt fixing member 20 are lifted over the mold 1. By using this method, the cantilever portion of the bridge bottom plate is formed outside the bridge mold by tightly integrating with the mold 1. Therefore, according to the present invention, unlike the prior art in which the cantilever portion of the bridge deck using construction site cast concrete, there is no need for installation work, such as clubbing, formwork at a height. Therefore, it is possible to reduce the risk of accidents due to the installation work at height, and also significantly reduce the construction cost. In addition, the precast method can be produced to have a variety of curved surfaces or patterns, and the quality control can be easily improved, thereby greatly improving the quality of the bottom plate.

In addition, the anchor bolt fixing member has a simple mechanical structure, and cantilever part of the bridge bottom plate can be constructed even by easy coupling with the anchor bolt, which simplifies the work and greatly reduces the air. It is also possible to prevent the generation of construction waste materials such as.

Claims (6)

It is made of a precast member in the form of a panel having a predetermined length in the axial direction; The buried end is embedded and fixed therein and the exposed end has an anchor bolt 13 protruding in the direction of the outermost mold 1 of the bridge; The anchor bolt fixing member 20 fixed to the mold 1 and the anchor bolt 13 are integrally coupled so that a tension force is introduced into the anchor bolt 13; The precast cantilever bottom plate, characterized in that the cantilever portion of the bridge bottom plate is formed integrally installed in a state in tight contact with one side of the outermost mold (1) of the bridge. The method of claim 1, The side surface of the precast cantilever bottom plate 10 in the direction in which the mold 1 is engaged is provided with a projection 11 and a vertical surface 12 extending over the upper surface of the mold 1 so as to prevent falling and sagging. Precast cantilever bottom plate, characterized in that consisting of "a" shaped. The method of claim 1 or 2, wherein the anchor bolt fixing member 20, A vertical frame 21 embedded in an upper portion of the mold 1, After the end of the anchor bolt 13 passes through and is fastened by a tightening nut member 23 and supported by the vertical frame 21 to fix the movement stopper for introducing a tension force to the anchor bolt 13 ( 22) precast cantilever bottom plate, characterized in that it comprises a. A bridge bottom plate provided on a bridge mold and having a cantilever portion outside the outermost mold 1, The anchor bolt 13 is made of a precast member made of a panel having a predetermined length in the axial direction, and the embedded end is embedded and fixed therein, and the exposed end protrudes in the direction of the outermost mold 1 of the bridge. A precast cantilever bottom plate (10) provided; An anchor bolt fixing member 20 is fixed to the outermost mold 1 of the bridge; The anchor bolt fixing member 20 and the anchor bolt 13 provided in the mold 1 are integrally coupled so that a tension force is introduced into the anchor bolt 13 to one side of the outermost mold 1 of the bridge. Integrally installed in a tightly adhered state; Bridge deck, characterized in that the cast-in-place concrete (30) is constructed to the upper portion of the upper side of the one side and the anchor fixing portion 20 of the precast cantilever bottom plate (10) to form the cantilever portion. The method of claim 4, wherein the anchor bolt fixing member 20, A vertical frame 21 embedded in an upper portion of the mold 1, After the end of the anchor bolt 13 passes through and is fastened by a tightening nut member 23 and supported by the vertical frame 21 to fix the movement stopper for introducing a tension force to the anchor bolt 13 ( 22) Bridge deck, characterized in that configured to include.  As a bridge deck construction method of the upper part of the bridge mold which has a cantilever part in the outer side of the outermost mold 1, The anchor bolt 13 is made of a precast member made of a panel having a predetermined length in the axial direction, and the embedded end is embedded and fixed therein, and the exposed end protrudes in the direction of the outermost mold 1 of the bridge. Precast cantilever bottom plate (10) provided is pre-fabricated in a precast manner; Fixing the anchor bolt fixing member 20 to the outermost mold 1 of the bridge; After lifting and installing the precast cantilever bottom plate 10 in close contact with one side of the bridge mold 1, the anchor bolt 13 and the anchor bolt fixing member 20 provided in the bridge mold 1 and Integrate and integrally install the precast cantilever bottom plate (10) in tight contact with one side of the outermost mold (1) of the bridge by introducing a tensile force to the anchor bolt (13); Construction method of the bridge bottom plate, characterized in that the cantilever portion is formed by pouring the cast-in-place concrete (30) to the upper side of one side of the precast cantilever bottom plate (10) and the anchor fixing portion (20).

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