JPH08170429A - Method for constructing arch concrete - Google Patents

Abstract

PURPOSE: To economize the construction of arch-concrete formwork. CONSTITUTION: Arched formwork timbering A is suspended between leg structures, and casting of concrete to be cast on formwork 4 is carried out separately for a crown portion a1 and for other arch portions a2 , a2 . First, concrete for the arch portions a2 , a2 is placed and in that case a compression resisting material 8 is placed between the upper end faces of the arch portions a2 , a2 so that an arched structure where the arched portions a2 , a2 are coupled to the compression resisting material 8 is formed while the arched portions a2 , a2 are connected to formwork timbering B by a connector 10. After the concrete of the arch portions a2 , a2 is set, concrete is placed for the crown portion a1 .

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of constructing arch concrete such as an arch bridge by using a form support provided in an arch shape.

[0002]

2. Description of the Related Art Recently, in the construction of arch concrete for arch bridges, etc., a formwork supporting work of a type in which both ends of an arch-shaped truss structure is supported by a leg structure such as an abutment or a pier (as an example, (See Japanese Patent Publication No. 4-15841)
The construction by has become popular.

By the way, in an arch bridge on a highway or the like, as shown in FIG. 5, a slab concrete 12 is formed on the arch concrete A through many pillar concretes 11 and 11.
There are many structures that are designed to support the above, and in such a case, the top portion of the arch concrete A is provided with a crown portion a ₁ which also serves as a part of the slab concrete over a required length. There is.

The arch concrete A is formed by placing a formwork on the upper surface of the formwork support and placing the concrete. At that time, the formwork support receives the total weight of the placed concrete. Become. In particular, since the crown portion a ₁ is thicker than the other parts of the arch concrete A, it not only has a large weight, but also because it is at the top, it is necessary to support the formwork when placing concrete on the crown portion a ₁ . Excessive stress acts on the work, and the formwork support works undesirably. In order to prevent this, it is necessary to greatly strengthen the formwork support work, and the cost required for the formwork support work increases significantly.

The present invention has been made in order to solve the above-mentioned problems. Concrete of the other arch portion excluding the crown portion is placed in the arch concrete, and at this time, between the opposite ends of both arch portions. With a compression resistant material interposed between the two parts, the concrete in the crown part is placed after the concrete in the arch part is hardened, and the load of the concrete placed in the crown part is changed by the concrete in both already hardened arch parts. By supporting it and preventing an excessive load from being applied to the frame support work, it is intended to reduce the weight and improve the economical efficiency of the frame support work.

[0006]

The structure of the present invention for achieving the above object will be described with reference to the drawings of the embodiments. Forming a frame support work B formed by connecting and connecting the arch-shaped flames b, b in parallel, and installing a compression resistant material 8 in the span direction of the crown part a ₁ on the top of the support work B, At the appropriate place of the supporting work B, the connectors 10 and 10 embedded in the arch concrete A are detachably projected, and the concrete of the arch portions a ₂ and a ₂ except the crown portion a ₁ of the arch concrete A is placed. , as well as embedded connectors 10, 10 in the concrete, between the upper end of the concrete of the arch a _2, a ₂ bonded via a pressure Chijimizai 8, after curing of the concrete, of the crown portion a ₁ Concree The is characterized in that pouring.

[0007]

In the present invention, the concrete pouring of the arch concrete A is divided into the crown portion a ₁ and the other arch portions a ₂ and a ₂ excluding the crown portion a ₁ . First, the concrete of the arch portions a ₂ and a ₂ is placed. Due to the hardening of the concrete, a series of arch-shaped structures are formed by the pressure-welding connection between the concrete of the arch portions a ₂ and a ₂ and the compression resistant material 8 arranged in the claw portion a ₁ . Also,
The arch portions a ₂ and a ₂ and the support B are connected through the connectors 10 and 10, so that the arch-shaped structure and the support B can cooperate with each other to counteract an external force.

Under this condition, the concrete of the crown portion a ₁ is placed, so the load due to the placement is supported by the support B, the arch portions a ₂ , a ₂ and the compression resistant material 8 in cooperation with each other. The support B is prevented from being overloaded.

[0009]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a front view showing a state in which arch concrete according to the present invention is applied, and FIGS. 2 to 4 are front views showing a process of performing arch concrete according to the present invention. In these figures, 1, 1 is a leg structure such as an arch bridge, and B is the leg structure 1, 1 which is erected by mounting the bases 2 and 2 at both lower ends with pin couplings 3 and 3. Formwork support (hereinafter referred to as support). Although the abutment is shown as a leg structure in the figure, it may be a pier.

The supporting work B is an arch formed by joining two half arch frames 5 and 5 by a truss or the like having an arc shape having a length obtained by roughly dividing the span of the arch concrete A to be constructed 6 to each other at their top ends. A plurality of frame-shaped frames b are arranged at intervals in the width direction (depth direction) of the arch concrete B to be constructed, and are respectively pin-connected to the leg structures 1 and 1 to mutually connect the members and the diagonal members ( Both are not shown). Then, the formwork 4 is installed on the support work B via the support tools 7, 7.

The arch concrete A is cast on the formwork 4. When placing concrete, the crown portion a ₁ formed on the top of arch concrete A and other arch portions a
_2, divided into a _2, first, as shown in FIG. 2, the concrete arch a _2, a ₂ and Da設, arches a _2, a
The formation of ₂ is preceded.

To cast concrete in the arch portions a ₂ and a ₂ , an end form (not shown) is installed at the upper end of the concrete and the upper surfaces of the arch portions a ₂ and a ₂ are molded. It is performed by installing a top form (not shown). At that time, as shown in FIG.
It is arranged in the crown part a ₁ such that both ends thereof contact the concrete of the end faces of the arch parts a ₂ , a ₂ . In this case, it is preferable to provide pressure receiving plates 9 and 9 at the end portion of the compression resistant material 8 that contacts the concrete. Compression resistant material 8
Is against the arch portion a _2, a ₂ of the punching concrete設圧pressed against between the end face of the arch portion a _2, a ₂ becomes突張Ri shape, both the arch portion a _2, a ₂ breakdown voltage Chijimizai It becomes an integrated connection state through 8.

Further, prior to the concreting of the arch portion a _2, a _2, a connector 10, 10 to be embedded in the concrete of the upper end portion of the arch a _2, a _2, a semi-arch Flame of shoring B 5 , 5, projecting detachably through the form. As a result, the connectors 10 and 10 have the arch portion a.
₂ and a ₂ are buried in concrete, and the hardening of the concrete causes the arches a ₂ and a ₂ and the support A to be connected via the connectors 10 and 10.

When concrete is poured into the arch portions a ₂ and a ₂ and hardened (curing period elapses), both arch portions a ₂ and a ₂ are bulged and joined together via a compression resistant material 8. In addition to supporting structure B, another arch structure has been created. The concrete of the crown portion a ₁ is placed by hardening the concrete of the arch portions a ₂ and a ₂ , and the compression resistant material 8 is embedded in the concrete.

The load of the concrete cast on the crown portion a ₁ is first transmitted to the crown portion of the support B, and the support B tends to sink due to the distortion of the member.
The subsidence transmits the stress to the arch portions a ₂ and a ₂ through the connector 10 which is a connecting member between the arch portions a ₂ and a ₂ and the support B. Stress transmitted to arch a _2, a ₂ is the stress experienced by the shoring B will be supported by configured arch structure by the arch portion a _2, a _2-voltage Chijimizai 8 of the crown portion a ₁ It does not receive all of the concrete weight and, if properly designed, can significantly reduce the load that the support B receives. That is, the load of the concrete cast on the crown portion a ₁ depends on the support work B and the arch portion a.
₂ and a ₂ and the arch-shaped structure made of the compression resistant material 8 are received in cooperation with each other, and the supporting work B is prevented from being overloaded. Through the above steps, the entire arch concrete A is formed. After that, if the support B and the connector 10 are uncoupled and the support B is removed,
The construction of arch concrete A will be completed.

[0016]

As described above, according to the present invention, in the construction of arch concrete, the arch portions on both sides of the crown portion are formed in advance, and at this time, the upper end faces of both arch portions are resistant to compression. By pressure welding with a material, an arch-shaped structure having a strength that can sufficiently resist the concrete placing load of the crown portion is formed, and by connecting the arch portion and the formwork support with a connector, the The arch-like structure and the formwork support work together to counter the load.

Therefore, the proportion of the frame supporting work to the load of placing a large amount of concrete in the crown portion is extremely small, and the weight and cost efficiency of the frame supporting work can be improved.

[Brief description of drawings]

FIG. 1 is a front view showing an embodiment of the present invention.

FIG. 2 is a front view showing a state in which the arch portion is formed.

FIG. 3 is an enlarged front view showing the main part.

FIG. 4 is an enlarged front view showing a state in which a crown portion is formed.

FIG. 5 is a front view showing the entire arch bridge.

[Explanation of symbols]

A arch concrete B formwork support a ₁ crown part a ₂ arch part b arched frame 1 leg structure 4 formwork 5 half arch frame 8 compression resistant material 10 connector

Claims (1)

[Claims] Forming a frame support structure formed by connecting and connecting arch-shaped frames in parallel between leg structures of arch concrete,
A compression resistant material extending over the span direction of the crown is installed on the top of the supporting structure, and a connector embedded in arch concrete is detachably projected at an appropriate position of the supporting structure to remove the crown part of the arch concrete. The concrete of the arch portion is cast, the connector is embedded in the concrete, and the upper end portions of the concrete of the arch portion are joined together via a compression resistant material, and after the concrete is hardened, the concrete of the crown portion is removed. Construction method of arch concrete, which is characterized by placing.