JPH0296011A - Foundation structure - Google Patents

Abstract

PURPOSE:To increase resistance against horizontal external forces by a method in which concrete blocks provided with pile-through holes are connected to steel tubular piles set on the ground or the adjacent blocks are connected with connectors. CONSTITUTION:A pair of connectors 3 with upper expanded parts having pile- through holes 3a are integrally formed with one side of a concrete block 1. Also, a pair of connectors 4 with lower expanded parts having pile-through holes 4a are integrally formed with the other side of the block 1. An improved ground layer 2a and a rubble-mound 2b are formed on places where the blocks 1 of the seabed ground 2 are to be set. The adjacent blocks 1 are set by piercing steel tubular piles 5 set at a given interval through the holes 4a and 4a of the upper and lower expanded parts 3 and 4. The workability of the foundation structure can thus be raised and the construction can be performed with high economical advantage.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The first invention and the second invention relate to a basic structure (for example, a breakwater, a retaining wall, etc.) formed by placing a concrete block body on the ground.

[Conventional technology]

Conventionally, in the above-mentioned types of foundation structures, concrete block bodies (
The concrete block body (1) was held to the ground only by its single weight against the lateral external force (F) (wave force, earth pressure, etc.) acting on the concrete block body (1).

In addition, FIG. 9 and FIG. 10 show a breakwater as an example of a basic structure formed by placing a plurality of concrete block bodies (1) on seabed ground (2), and (2a) shows a ground improvement layer,
(2b) is the rubble mount layer, and (W) is the sea surface.

[Problem to be solved by the invention]

However, in the conventional type, a large unit weight is required to prevent the concrete block from displacing or falling due to lateral external force, making the concrete block heavy and large, which reduces workability and There were economic disadvantages.

The object of the first invention and the second invention is to suppress the above-mentioned problems through reasonable improvements.

[Means to solve the problem]

The characteristic configuration of the foundation structure according to the first invention is that in the foundation structure formed by placing concrete block bodies on the ground, the concrete block bodies are restrained by piles set up in the ground. The action is as follows.

[For production]

In other words, according to the configuration of the first invention described above, the concrete block body can be held against the ground against a horizontal external force by both the unit weight of the concrete block body and the restraining force by the piles erected in the ground, and It is possible to increase the resistance to external forces.

[Means to solve the problem]

The characteristic configuration of the foundation structure according to the second invention is that of concrete
In a foundation structure formed by placing gutter and lock bodies on the ground, the adjacent concrete block bodies are connected and relatively restrained by connecting devices, and the functions and effects are as follows. It is.

[For production]

In other words, according to the configuration of the second invention described above, both the unit weight of each concrete block body and the restraint force applied from the adjacent concrete block body via the connector allow the individual concrete blocks to resist the lateral external force. The block body can be held on the ground, and its resistance to lateral external forces can be increased.

〔Effect of the invention〕

As a result of the above, both the first invention and the second invention make it possible to significantly reduce the weight and size of the concrete block body compared to the conventional ones, and furthermore, this type of foundation structure can be This not only improves workability but also makes it economically advantageous.

〔Example〕

Next, an example will be described.

Figures 1 and 2 show a plurality of concrete block bodies (
1) shows an offshore breakwater formed by placing them in a row on the seabed ground (2), and the concrete block bodies (1) are placed in the seabed ground (2) where the concrete blocks (1) are placed.
Prior to the installation of step 1), a ground improvement layer (2a) and a rubble mount layer (2b) were formed.

As shown in Figure 5, each concrete block body (1)
A pair of upper bulging connecting parts (3) with pile insertion holes (3a) are integrally formed on the - side, and similar piles are installed on the other side of each concrete block body (1). Through hole (4a
) are integrally formed with a pair of lower bulging connecting portions (4).

In installing the concrete block body (1), a plurality of steel pipe piles (5) are erected in advance on the seabed ground (2) at predetermined intervals, and as shown in Figs. 3 and 4, The lower bulging connecting part (4) and the upper bulging connecting part (3) of the adjacent concrete block bodies (1) are interlocked, and the erected steel pipe pile (5) is connected to the lower bulging connecting part. Concrete blocks (1) are sequentially installed so as to be inserted across the pile insertion hole (4a) of (4) and the pile insertion hole (3a) of the upper bulging connection part (3).

Further, after the installation is completed, underwater concrete (6) is filled between the inner peripheral surface of each pile insertion hole (3a), (4a) and the outer peripheral surface of the inserted steel pipe pile (5).

In other words, as mentioned above, by restraining the concrete block body (1) placed on the seabed ground (2) with the steel pipe pile (5) erected on the seabed ground (2), the adjacent concrete block body (1) ) to the upper bulging connection part (3)
By connecting the steel pipe piles (5) inserted across the pile insertion holes (3a) and the pile insertion holes (4a) of the lower bulging connection part (4) as a connector and restraining them relatively. , to obtain a high resistance against lateral external force (wave force) (F).

[Another example]

Next, another embodiment will be described.

(b) As shown in Figures 6 to 8, the connection between adjacent concrete block bodies (1) is omitted, and the concrete block bodies (1) are erected on the ground (2) by piles (
5) may be used.

(b) In addition, it is omitted to restrain the concrete block bodies (1) with the piles (5) set up in the ground (2), and the adjacent concrete block bodies (1) are connected with each other using various connectors to make the concrete blocks stand relative to each other. It is also possible to simply restrict it.

(c) Piles (5) restraining the concrete block body (1)
) can be of various types, and various improvements can be made to the engagement structure between the concrete block body (1) and the pile (5).

(d) Various types of connections are available for connecting devices that connect adjacent concrete block bodies (1) and restrain them relatively.
Structures can be applied.

(E) The specific shape of the concrete block body (1) can be changed in various ways, and the concrete block body (1) can be changed in various ways.
1) may be either solid or hollow.

(to) Ground (2) on which the concrete block body (1) is placed
is not limited to undersea ground (2), but may be ground on land.

Further, the ground (2) on which the concrete block body (1) is placed may be one that has been subjected to various artificial treatments such as ground improvement and formation of rubble mounts.

(G) The foundation structure according to the present invention can be applied to various uses such as a breakwater, a seawall, or the foundation of a building.

[Brief explanation of drawings]

1 to 5 show embodiments of the present invention; FIG. 1 is a front view, FIG. 2 is a side view, FIG. 3 is an enlarged front view, FIG. 4 is an enlarged plan view, and FIG. 5 is an enlarged plan view. It is a perspective view of a concrete block body. 6 to 8 are front views showing another embodiment of the present invention,
They are a side view and a plan view. 9 and 10 are a front view and a side view showing a conventional example. (1) Concrete block body, (2) Ground, (5) Piles (connectors).

Claims (1)

[Claims] 1. A foundation structure formed by placing a concrete block body (1) on the ground (2), the concrete block body ( 1) A foundation structure that is restrained. 2. A foundation structure formed by placing concrete block bodies (1) on the ground (2), in which the adjacent concrete block bodies (1) are connected to each other by a connecting device (5) and restrained relative to each other. The basic structure.