KR100323828B1 - Precast Concrete Bottom Plate Member for Bridge End and Method of Construction of Bottom Plate in Bridge End Using the Same - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

Precast concrete deck member for bridge end and method of construction of deck at bridge end using same.

2. The technical problem to be solved by the invention

The present invention provides a precast concrete deck member for a bridge end that greatly simplifies the process in the field, and a method of constructing a seaboard at the bridge end using the same.

3. Summary of Solution to Invention

In the method for laying the precast prestressed concrete bottom plate members on the mold of the bridge, introducing the prestress in the axial direction to the precast prestressed concrete bottom plate member, and then constructing the bottom plate on the bridge end side, Adjacent to the precast prestressed concrete floor plate member is placed in the precast concrete seaboard member for the bridge end pre-fabricated, the precast concrete bottom plate member for the bridge end is exposed to one end of the ring-shaped rebar, A lower portion of the exposed annular rebar is provided with a protrusion formed of concrete, and a sealing tape is attached between the precast prestressed concrete bottom plate member adjacent to the protruding end of the precast concrete bottom plate member for the bridge end, The precast pre The precast prestressed concrete slab member and the precast concrete floor for the bridge end to facilitate load transfer through the connection portion between the thrust concrete deck member and the precast concrete slab member for the bridge end. The annular rebars exposed on both sides of each plate member are overlapped, and a filler is filled in a connection portion between the precast prestressed concrete bottom plate member and the precast concrete bottom plate member for bridge ends. It is characterized by connecting the rest concrete seaboard member and the precast concrete deck plate member for the bridge end.

Description

Precast concrete deck member for bridge end and method of construction of deck at bridge end using same.

The present invention relates to a precast concrete deck plate for bridge end and a method of construction of the bottom plate at the bridge end using the same, and more specifically, the bridge end bottom plate, which was conventionally constructed by site casting, is manufactured as a precast member. Precast concrete deck for bridge ends with hooks for connecting the reinforcing bars to the joint sections for load transfer between joints between precast decks And a method of constructing a bottom plate at an end of a bridge using the same.

When constructing the bottom plate of the bridge using the precast prestressed concrete bottom plate, the prior art for installing the bridge end bottom plate with reference to Figure 4 as follows.

Conventionally, the precast prestressed concrete bottom plate members 1 are laid on the mold 3, and then the prestress 2 is introduced in the axial direction to integrate the bottom plate members. Next, a bridge scaffold base 16 was constructed by installing a scaffold for work under the bridge, then installing a formwork, processing and installing reinforcing bars in the formwork, and placing concrete.

However, such a conventional method requires many processes such as work for forming formwork, rebar processing and installation work, and concrete placing work, and has had a problem of performing such work in the field.

Accordingly, the present invention is to solve the problems of the prior art as described above, and to provide a precast concrete deck plate member for bridge end that greatly simplified the process in the field, and to provide a method of construction of the bottom plate at the bridge end using the same. have.

1 is a cross-sectional view for explaining the process of construction of the bottom plate of the bridge according to the present invention.

Figure 2 is a perspective view showing the structure of the precast concrete floor plate member for the bridge end according to the present invention.

3 is an enlarged side view of the bridge end joint of FIG. 2;

4 is a cross-sectional view illustrating a conventional bridge deck construction process.

* Explanation of symbols for main parts of the drawings

1: Precast Prestressed Concrete Floor Plate Member

2: internal tension material 3: mold

4: bridge bearing 5: concrete for connection

6: precast concrete deck for bridge end

7: Expansion joint fixing device 8: End bottom plate front pocket

9: cast bar 10: ring connecting bar

11: center bottom leaflet pocket 12: sealing tape

13: rebar 14: rough surface

15: protrusion 16: cast-in-place concrete deck

Precast concrete bottom plate member for bridge end according to the present invention for achieving the above object, the precast prestressed concrete bottom plate member is laid on the mold of the bridge, the precast prestress concrete bottom plate member in the axial direction After introducing the prestress into the precast prestressed concrete slab member, to connect with the precast prestressed concrete slab member, in order to connect the reinforcing bar having an annular shape on the contact surface, a plurality of shear Installing a shear pocket for accommodating the connecting member, and when the filler is exposed across the shear pocket and filling the filler material in contact with the precast prestressed concrete bottom plate member, the filler does not spill down To the exposed rebar It characterized in that the projection formed in the concrete portion provided.

In addition, in the bridge deck construction method at the bridge end according to the present invention, the precast prestressed concrete slab members are laid on the mold of the bridge, and the prestress is introduced to the precast prestressed concrete slab member in the axial direction. Then, in the method for constructing the bottom plate on the bridge end side, the precast concrete bottom plate member for the bridge end pre-fabricated adjacent to the precast prestressed concrete bottom plate member is settled, the bridge end free The cast concrete deck member is exposed at one end of the annular rebar, the lower portion of the exposed annular reinforcement is provided with a protrusion formed of concrete, adjacent to the protruding end formed in the precast concrete deck plate member for the bridge end Precast Prestressed Concrete Bar A sealing tape is attached between the plate members, and the precast prestress for smooth load transfer through the connection portion between the precast prestressed concrete bottom plate member and the bridge end precast concrete bottom plate member. The concrete slab member and the annular rebar exposed on both sides of each of the precast concrete slab members for the bridge end are overlapped, and the precast prestressed concrete slab member and the precast concrete slab member for the bridge end are overlapped. Filling material in the connecting portion between the precast prestressed concrete floor plate member and the bridge characterized in that for connecting the precast concrete floor plate member.

According to the present invention, by replacing the bridge end floor plate, which is conventionally constructed by site casting, with a precast concrete floor plate member, it is possible to eliminate the site pouring work and also to eliminate the form installation work for the site pouring work, so that the construction can be promptly performed. Can be done.

In addition, the present invention was to connect the joint between the precast prestressed concrete deck member and the precast concrete deck member for bridge ends with annular rebar for smooth load transfer, bridges to prevent leakage of the joint filler A protrusion was placed underneath the end of the precast concrete deck plate member to finally remove the extra work for filling between the deck plates. In addition, the size of the shear pocket was enlarged so that a large number of shear connectors to be disposed at the end can be easily disposed.

Now, the process of laying the precast prestressed concrete deck plate members on the bridge mold, introducing the prestress in the direction of the bridge, and constructing the bridge end bottom plate connected to the precast prestressed concrete deck plate member As follows.

First, the precast concrete bottom plate member for bridge ends is placed adjacent to the precast prestressed concrete bottom plate member. Thereafter, in order to facilitate the load transfer through the joint portion, the precast prestressed concrete bottom plate member and the annular rebar exposed to each of the precast concrete bottom plate members for the bridge ends are overlapped. Next, the filler is filled in the joint. At this time, after the lap step, the reinforcing bars may be inserted into the overlapped parts.

Here, the step of filling the filling material, by attaching a sealing tape between the protruding end of the lower end of the bridge precast concrete bottom plate member and the precast prestressed concrete bottom plate member so that the filler material does not flow out to serve as a formwork. Fill it with filler. A rough surface 14 is formed on the surface of the precast concrete bottom plate member for the bridge end so that the filler is attached well.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing an example of constructing the bottom plate of the bridge using the precast concrete bottom plate member for the bridge end according to the present invention.

After the precast prestressed concrete bottom plate members 1 are placed on the mold 3, the prestress 2 is introduced in the axial direction to secure the integrity between the bottom plate members and to improve the fatigue resistance. On the other hand, the bridge end precast concrete bottom plate member 6 installed on the bridge support 4 is connected to the adjacent precast prestressed concrete bottom plate member 1 with a joint 5.

Figure 2 is a perspective view for explaining the structure of the precast concrete floor plate member for the bridge end according to the present invention.

As shown in Figure 2, the precast concrete bottom plate member 6 for the bridge end according to the present invention is a large amount of shear connection material is disposed, so that the front pocket (8) precast prestressed concrete to accommodate this It was larger than the front end pocket 11 of the bottom plate member. At this time, the cast iron (9) across the shear pocket (8) is exposed. Meanwhile, the expansion joint fixing member 7 is installed in advance to facilitate the installation of the expansion joint, which allows the installation position and the installation type to be changed according to the type of expansion joint.

Figure 3 is an enlarged side view of the bridge end joint of Figure 2;

In the drawing, after connecting the precast prestressed concrete slab member 1 and the bridge end precast concrete slab member 6, the precast prestressed concrete slab to facilitate the load transfer through the joints The annular reinforcing bars 10 are exposed to the members and the precast concrete deck members for the bridge ends, respectively, and a plurality of reinforcing bars 13 are inserted in the overlapping parts. In addition, in order to fill the joint portion, it is required to fill it with a filling material that satisfies a predetermined condition.In this case, instead of installing a formwork so that the filling material does not leak out, the concrete is placed under the joint portion of the precast concrete bottom plate member for bridge ends. The formed protrusions 15 were placed, and the sealing tape 12 was attached to the edge thereof to form a mold. In addition, the surface of the precast concrete bottom plate member 6 for bridge ends is roughened so that the filler is attached to both bottom plates 1 and 6 to form a mounting surface 14.

The effect obtained when the bridge end bottom plate construction work using the precast concrete bottom plate member for the bridge end of the present invention as described above is as follows.

First, it is possible to prompt construction by skipping the site work process such as reinforcement, concrete placement and curing by precasting the bridge end floor plate without performing site casting.

Second, when the end bottom plate is cast in place, it is necessary to install the formwork for concrete molding. To this end, a workbench should be installed at the bottom, but in the present invention, a projecting part is provided at the bottom of the precast concrete bottom plate member for bridge ends. It can fill the bottom plate joint without additional formwork, eliminating the need for formwork and lower workbench.

Third, because of the large shear force at the end of the bridge, a large amount of shear connector must be disposed. By using a wide shear pocket, even if the amount of shear connector is large, the required spacing can be secured.

Claims (5)

In the method for laying the precast prestressed concrete bottom plate members on the mold of the bridge, introducing the prestress in the axial direction to the precast prestressed concrete bottom plate member, and then constructing the bottom plate on the bridge end side, Adjacent to the precast prestressed concrete bottom plate member is placed in the precast concrete bottom plate member for the bridge end made in advance, the precast concrete bottom plate member for the bridge end is exposed to the annular rebar at one end, A lower portion of the exposed annular rebar is provided with a protrusion formed of concrete, Attaching a sealing tape between the protruding edges formed on the precast concrete bottom plate member for the bridge end and the precast prestressed concrete bottom plate member adjacent to each other; The precast prestressed concrete bottom plate member and the bridge end pre-formed to facilitate load transfer through a connection portion between the precast prestressed concrete bottom plate member and the precast concrete bottom plate member for the bridge end. Laminated reinforcing bar exposed on both sides of each cast concrete deck member, The precast prestressed concrete bottom plate member and the precast concrete bottom plate member for the bridge end are filled by filling a filler in a connecting portion between the precast prestressed concrete bottom plate member and the bridge end precast concrete bottom plate member. Bridge deck construction method at the bridge end, characterized in that for connecting. The method of claim 1, In the lap joint of the annular reinforcement, bridge deck construction method at the bridge end, characterized in that for inserting the reinforcing bars in the lap. The method according to claim 1 or 2, The method of claim 1, wherein a rough surface is formed on the surface of the precast concrete bottom plate member for contacting the precast prestressed concrete bottom plate member. As a precast prestressed concrete base plate member is laid on the mold of the bridge, and prestress is introduced into the precast prestressed concrete base plate member in the axial direction, and is connected with the precast prestressed concrete base plate member. In order to connect with the precast prestressed concrete bottom plate member, a reinforcing bar having an annular shape is exposed at a contact surface, a shear pocket is installed to accommodate a plurality of shear connecting members, and the main steel is exposed across the shear pocket. In order to prevent the filling material from flowing out when filling the filling material in contact with the precast prestressed concrete bottom plate member, the exposed bridge is characterized in that the lower end of the bridge is provided with a protrusion formed of concrete Bouillon Precast Cone Discrete bottom plate member. The method of claim 4, wherein Precast concrete bottom plate member for a bridge end further comprising a expansion joint fixing member formed on one side to facilitate the installation of the expansion joint.