JP2006225961A - Pier head structure and construction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce working time at a high place, eliminate the need for an H-steel gantry and a supporting work to be buried, and prevent a shear failure at a precast concrete plate and a concrete covering portion. Providing a head structure.
SOLUTION: A PRC plate can be manufactured and installed by a pretension method at the site according to the shape of the leg head, and rebars, formwork, and concrete can be placed on the plate. The working time is drastically reduced and the construction method is excellent in terms of safety. Further, since the H steel frame and the supporting work are not required, it is economically advantageous. In addition, a precast concrete plate with a plurality of steel shapes protruding from the periphery was installed at the opening of the pier with a hollow cross section, and concrete was cast from above to form a pier head. It is possible to prevent shear failure at the concrete plate and the concrete cover.
[Selection] Figure 1

Description

  The present invention relates to a head structure of a bridge pier that supports an elevated road and the like and a construction method thereof.

  Some pier structures have a hollow interior. However, even such a hollow pier needs to have a solid head to support the bridge girder. For this purpose, after covering the hollow part, bar arrangement is performed on the hollow part, and after placing the formwork, concrete is placed.

  As a conventional construction method of the pier head, for example, as shown in FIGS. 8 and 9, the suspension scaffold 1 assembled on the ground is installed in the pier head opening 3 of the pier 2 with a crane or the like. A safety net 5 is attached to the suspension scaffold 1 in advance. The suspension scaffold 1 is fixed to a reinforcing bar 6 embedded in the pier 2. A worker rides on the installed suspension scaffold 1, drives a chemical anchor into the existing concrete, and constructs the bracket-type H steel frame 4. And H steel 7 is installed side by side on this bracket type H steel frame 4. After removing the suspension scaffold 1 and the safety net 5, the remaining H steel 7 is placed and the plywood is assembled to complete.

However, in the conventional construction method of the pier head, it is dangerous because the work must be performed for a long time on the suspension scaffold at a high place. In addition, the bracket-type H steel frame and supporting work are not necessary after the concrete is hardened, but they are buried in the pier head and are uneconomical.
Furthermore, even if it is going to place a precast concrete slab directly on the opening of the pier head without constructing a bracket-type H steel frame, the dimensions to the pier axial rebar are small and sufficient cover dimensions must be secured. However, there was a possibility that the concrete cover part of the pier head part would cause shear failure.

  The present invention has been proposed in view of the above, and a pier capable of preventing a shear failure at a covering portion of a leg head concrete by projecting a plurality of shape steels from the periphery of a precast concrete plate that closes the opening of the pier. It aims at providing a head structure and its construction method.

  In order to achieve the above object, the present invention provides a pier head by installing a precast concrete plate in which a plurality of shape steels protrude from the periphery in an opening portion of a pier having a hollow cross section, and placing concrete from above. Is formed.

  In the present invention, the section steel protruding from the precast concrete plate is arranged so as not to overlap with the pier axial rebar.

  In the present invention, the precast concrete slab is divided into a plurality of parts.

  Further, the present invention is characterized in that the top surface of the precast concrete plate is provided with irregularities to ensure adhesion with the leg head concrete.

  Further, the present invention provides a process for producing a precast concrete plate in a state in which a plurality of shape steels are protruded from the periphery of a formwork, and the plurality of shape steels protruding from the periphery at the opening of the pier having a hollow cross section. A step of installing a precast concrete plate so as not to overlap with an axial reinforcing bar, a step of installing an outer formwork and a reinforcing bar on the upper part after laying the precast concrete plate, and placing concrete on the precast concrete plate It consists of a process.

  The present invention also includes a step of producing a precast concrete plate by tensioning a tension member in a state in which a plurality of shape steels are protruded from the periphery of a formwork, and an opening of a pier having a hollow cross section that protrudes from the periphery. A step of installing a precast concrete plate so that a plurality of sections do not overlap with the pier axial reinforcing bars, a step of installing an outer formwork and a reinforcing bar on the upper part after laying the precast concrete plate, and a top of the precast concrete plate It is characterized by comprising the step of placing concrete in the wall.

  Since this invention consists of an above-described structure, there can exist an effect which is demonstrated below.

  In the present invention, a precast concrete plate having a plurality of steel shapes protruding from the periphery is installed in an opening of a pier having a hollow cross section, and a concrete pier is formed thereon to form a pier head. It is possible to prevent shear fracture at the concrete cover. Further, it is safe without requiring a long work on a suspended scaffolding at a high place as in the prior art, and the construction period is shortened without waiting for solidification of the driven chemical anchor. In addition, the bracket-type H steel frame and supporting work are not necessary after the concrete is hardened, but are buried and become uneconomical.

  Further, in the present invention, the shape steel projecting from the precast concrete plate is arranged so as not to overlap with the pier axial rebar, so that the opening is closed without obstructing the pier axial rebar rising from the pier 10. can do.

  In the present invention, since the precast concrete plate is divided into a plurality of parts, installation work is easy when the crane is lifted to a high place. Therefore, the work efficiency can be improved.

  Moreover, in this invention, since the unevenness | corrugation was formed in the upper surface of the said precast concrete plate, bondability with the concrete cast on it can be improved.

  Further, in the present invention, a step of producing a precast concrete plate in a state where a plurality of shape steels are protruded from the periphery of the formwork, and a plurality of the shape steels protruding from the periphery at the opening portion of the pier having a hollow cross section A step of installing a precast concrete plate so as not to overlap with an axial reinforcing bar, a step of installing an outer formwork and a reinforcing bar on the upper part after laying the precast concrete plate, and placing concrete on the precast concrete plate Since it consists of a process, a pier head can be constructed efficiently.

  Further, in the present invention, a step of producing a precast concrete plate by tensioning a tension member in a state where a plurality of shape steels are protruded from the periphery of the formwork, and an opening of a pier having a hollow cross section protruded from the periphery. A step of installing a precast concrete plate so that a plurality of sections do not overlap with the pier axial rebar, a step of installing an outer formwork and a reinforcing bar on the upper part after laying the precast concrete plate, and a top of the precast concrete plate It is possible to construct the pier head efficiently because it comprises the step of placing concrete on the wall.

  A pier head structure that can prevent shear failure at the cover part of the leg head concrete and its construction method were realized by projecting a plurality of steel shapes from the periphery of the precast concrete plate that blocks the opening of the pier.

  Hereinafter, the present invention will be described in detail with reference to the drawings illustrating an embodiment. FIG. 1 is an explanatory view showing a pier head structure according to the present invention, FIG. 2 is an explanatory view showing a construction method of the pier head according to the present invention, and FIG. 3 is an explanation showing a construction method of the pier head according to the present invention. 4 and 4 are plan views showing the construction method of the pier head according to the present invention. Here, in the pier head structure of the present embodiment, a precast concrete plate 13 in which a plurality of shape steels 12 protrude from the periphery is installed in the opening 11 of the pier 10 having a hollow cross section, and concrete is placed thereon. Thus, the pier head portion 14 is formed.

  FIG. 2 is an explanatory view showing a construction method of the pier head according to the present invention, and FIG. 3 is an explanatory view showing a construction method of the pier head according to the present invention. FIG. 2 is a cross-sectional view of the state in which the precast concrete plate 13 is placed in the opening 11 of the pier 10 cut in the bridge axis direction. The section steel 12 extending from the periphery of the precast concrete plate 13 is arranged so as not to overlap the pier axial rebar 15 extending on the upper surface of the pier 10. FIG. 3 is a cross section obtained by cutting the precast concrete plate 13 on the opening 11 of the pier 10 in a direction perpendicular to the bridge axis. In this embodiment, the section steel 12 is not arranged in the bridge axis direction.

  FIG. 4 is a plan view showing the construction method of the pier head according to the present invention. The shape steel 12 extended from the periphery of the precast concrete plate 13 is disposed at a position that does not interfere with the pier axial rebar 15. Therefore, when the precast concrete plate 13 is placed, there is no possibility that the end portion of the pier 10 is dropped off.

  FIG. 5 is a plan view showing a precast concrete plate used in the construction method of the pier head according to the present invention, and FIG. 6 is a side view showing the precast concrete plate used in the construction method of the pier head. In the present embodiment, the precast concrete plate 13 is divided into three parts 13a, 13b and 13c. In addition, the upper surface and side surfaces of the precast concrete plate 13 are roughened to improve the bondability with the concrete to be placed. At appropriate positions on the upper surface of the precast concrete plate 13, hanging brackets for suspending are embedded.

Next, the construction method of the pier head will be described.
First, in the process of manufacturing a precast concrete plate (in the case of a PRC plate or a PC plate), a simple tension device (H steel reaction force stand) surrounding the precast concrete plate is assembled using H steel or the like. Pre-stress can be easily introduced at the construction site due to a simple tension device. Next, formwork and rebar are assembled. A plurality of section steels 12 are protruded from the periphery of the mold, and after inserting the PC steel material, the PC steel material is tensioned with a jack or the like. After that, concrete is cast and cured. A set retarder is sprayed or applied to the surface of the concrete, and the surface is roughened by spraying high-pressure water on the surface and side. After the concrete is hardened, prestress is introduced by releasing the tension of the PC steel. In this way, the precast concrete plate 13 having a roughened surface and side surfaces can be manufactured.

  In the step of installing the precast concrete plate, a plurality of structural steels 12 protruding from the periphery of the opening 11 of the pier 10 having a hollow cross section are lifted by a crane or the like so as not to overlap the pier axial rebar 15. At this time, the precast concrete plate 13 is divided into three parts, so that the installation work is easy. The number of divisions is not limited to three, and may be two or four divisions considering the installation weight of the precast concrete plate 13.

  In the step of installing the outer formwork and the reinforcing bar, the outer formwork and the reinforcing bar are installed on the upper part of the precast concrete plate 13 placed on the upper surface of the pier 10. The outer mold is installed around the pier head 14. Next, in the step of placing concrete, concrete is placed in the outer mold frame on the precast concrete plate 13 to form the pier head 14. In this way, the pier head 14 can be constructed on the pier 10 having a hollow cross section.

  According to the construction method of the pier head as described above, it is a construction method that is superior in safety without requiring a suspension scaffold at a high place as before, and waits for the next work until the driven chemical anchor is solidified. There is no need, and the H steel frame and the support work are unnecessary, which is economically advantageous. Further, even when the dimension to the pier axial rebar is short and a sufficient cover dimension cannot be secured, there is no possibility that the cover part of the pier head concrete will be sheared and broken.

FIG. 1 is an explanatory view showing a pier head structure according to the present invention. FIG. 2 is an explanatory view showing a construction method of the pier head according to the present invention. FIG. 3 is an explanatory view showing the construction method of the pier head according to the present invention. FIG. 4 is a plan view showing a construction method of the pier head. FIG. 5 is a plan view showing a precast concrete plate used in the construction method of the pier head. FIG. 6 is a side view showing a precast concrete plate used in the construction method of the pier head. FIG. 7 is an explanatory view of a main part showing the relationship between a reinforcing bar and a shape steel when a precast concrete plate is placed on the opening of the leg head. FIG. 8 is an explanatory view showing a construction procedure of a conventional pier head. FIG. 9 is an explanatory view showing a construction procedure of a conventional pier head. FIG. 10 is an explanatory view showing a construction procedure of a conventional pier head. FIG. 11 is an explanatory view showing a construction procedure of a conventional pier head. FIG. 12 is an explanatory view showing a construction procedure of a conventional pier head. FIG. 13 is an explanatory view showing a construction procedure of a conventional pier head. FIG. 14 is a plan view showing a state in which an opening of a pier head is closed with an I-shaped steel material in a conventional construction method.

Explanation of symbols

10 Pier 11 Opening 12 Shaped Steel 13 Precast Concrete Plate 14 Pier Head 15 Bridge Pier Axial Rebar

Claims (6)

  At the opening of the pier with a hollow cross section, a precast concrete plate (RC plate, PC plate, PRC plate) with multiple shaped steel protruding from the periphery is installed, and concrete is cast from above to form the pier head. A pier head structure characterized by   2. The pier head structure according to claim 1, wherein the section steel protruding from the precast concrete plate is arranged so as not to overlap with a pier axial rebar. 3.   The pier head structure according to claim 1 or 2, wherein the precast concrete plate is divided into a plurality of parts.   The pier head structure according to any one of claims 1 to 3, wherein the upper surface of the precast concrete plate is formed with irregularities to ensure adhesion with the leg head concrete. Producing a precast concrete plate with a plurality of steel shapes protruding from the periphery of the formwork;
Installing a precast concrete plate so that a plurality of sections protruding from the periphery do not overlap with the pier axial rebar at the opening of the pier having a hollow section;
A construction method of a pier head comprising a step of installing an outer mold and a reinforcing bar on an upper portion after laying the precast concrete plate, and a step of placing concrete on the precast concrete plate. A process of producing a precast concrete plate by tensioning a tension material in a state where a plurality of shape steels are projected from the periphery of the formwork,
Installing a precast concrete plate so that a plurality of sections protruding from the periphery do not overlap with the pier axial rebar at the opening of the pier having a hollow section;
A construction method of a pier head comprising a step of installing an outer mold and a reinforcing bar on an upper portion after laying the precast concrete plate, and a step of placing concrete on the precast concrete plate.

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