JP3518379B2 - Construction method for underwater structures - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for constructing an underwater structure, and more particularly to an improved technique for constructing an underwater structure by utilizing a pressure difference.

[0002]

2. Description of the Related Art When constructing an underwater structure such as a pier or a dolphin on the sea or a lake away from land, first, a pile is driven as a foundation part by a pile driving ship, and then the pile is It is common practice to build a superstructure on top.

However, such a conventional construction method for an underwater structure has the following technical problems.

[0004]

That is, in the above-mentioned conventional construction method, when constructing an underwater structure at a place where the water depth is deep, a large-scale construction machine is required to drive the piles,
Since the construction is complicated, it takes a lot of time and money to complete the construction.

Further, pile driving work on the sea is affected by weather conditions and sea conditions, and when wind power and waves are large, the pile driving work is also difficult, which further delays the construction period and increases the construction cost. .

The present invention has been made in view of such conventional problems, and an object of the present invention is to realize an underwater structure capable of simultaneously shortening the construction period and reducing the construction cost. To provide a construction method. .

[0007]

In order to achieve the above-mentioned object, the present invention provides a skirt portion at the lower end of an underwater structure which penetrates into the water bottom ground to prevent the inflow of water. by applying a suction pressure to the object, the
In the construction method of the underwater foundation for submerging the underwater structure to a predetermined depth of the submarine ground , the underwater structure is divided into a superstructure portion and a foundation portion having the skirt portion, and suction with one end opened to the skirt portion The pipe is vertically penetrated through the foundation portion and the superstructure portion, the decompressor is connected to the other end side, the skirt portion is penetrated into the water bottom ground, and the foundation portion is sunk and installed. After the upper work portion is placed and coupled to the upper part of the portion, a construction method of decompressing the inside of the skirt through the decompression device, wherein the upper work portion and the base portion coupled up and down,
One unit is configured, and a plurality of the units are connected in the lateral direction. The upper part and the base part may be manufactured in advance and precast. According to this configuration, the underwater structure, tow the prefabricated precast superstructure part and the foundation part respectively to the construction site, after the skirt part is penetrated into the water bottom ground and the foundation part is sunk and installed, It is constructed by decompressing the inside of the skirt after the superstructure part is placed and coupled on the upper part of the foundation part, and the sea work is significantly less than that when pile driving, so it is possible to shorten the construction period and the construction period. Become. In addition, in the present invention, the upper work portion and the foundation portion that are combined vertically form one unit, and a plurality of units are connected in the horizontal direction, so that the required number of units are connected in the horizontal direction. By doing so, it becomes possible to cope with any scale of the underwater structure. The superstructure part and / or the base part may have a hollow inside. If the superstructure part and / or the foundation part are hollowed out, towing can be done easily, and if water is poured into the hollowed part, they can be easily sunk.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. 1 and 2 show an embodiment of a method for constructing an underwater structure according to the present invention.

In the construction method shown in the figure, the underwater structure 1
0 comprises a divided superstructure part 12 and a base part 14, and these superstructure part 12 and base part 14 are
It is made of reinforced concrete pre-fabricated on the ground side and is precast.

The upper portion 12 is a flat plate having a predetermined thickness, has a substantially square planar shape, and is provided with a closed cavity 15 at the center in the thickness direction.

The base portion 14 is a rectangular tube having a diameter smaller than that of the superstructure portion 12, and has a hollow main body 16 whose four circumferences are closed by walls, and a skirt portion 18 provided at the lower end of the main body 16.
It has and. A closed cavity 20 is formed inside the main body 16, and the cavity 20 is provided with an on-off valve 22 that communicates with the cavity 20.

The skirt portion 18 extends downward from the lower end four circumferences of the main body 16, is provided with a sharp blade portion 24 at the tip, and is formed on the lower surface of the main body 16 surrounded by the skirt portion 18 for four circumferences. A filter 26 having a predetermined thickness is fixed in the recess 25.

The filter 26 allows the permeation of moisture,
It has the function of blocking the permeation of sediment. In the recess 25, one end of a suction pipe 27 that vertically penetrates the main body 16 and the upper working portion 12 mounted on the upper portion of the main body 16 is opened, and the other end of the suction pipe 27 that extends upwardly is opened. A pressure reducing device (not shown) is connected to the side.

In the case of the present embodiment, the skirt portion 18 and the base portion 14 are formed on the upper portion of the base portion 14 by the skirt portion 18.
Are mounted to connect the two, and these are paired, and the unit 28 is configured by combining the two.

In the example shown in FIGS. 1 and 2, the unit 28 is composed of four units, and the units 28 which are adjacently installed in the lateral direction are connected to each other. The required quantity of the superstructure portion 12 and the foundation portion 14, which are pre-manufactured and precast on the ground side, are towed to the construction site of the underwater structure 10.

At the time of this towing, since the hollow portion 15 is provided in the superstructure portion 12, it can be levitated, so that it can be easily transported. Further, since the cavity portion 20 that communicates with the outside through the opening / closing valve 22 is provided in the base portion 14, it is possible to float similarly by closing the opening / closing valve 22.
It can be easily transported.

Up to the construction site Superstructure part 12 and foundation part 1
When 4 and 4 are transported, the base part 14 is first sunk. This sinking is performed by causing the blade portion 24 of the skirt portion 18 to face downward and opening the opening / closing valve 22 to inject seawater or the like into the hollow portion 20.

When a part of the tip side of the skirt portion 18 is penetrated into the submarine ground 30 and the submersible installation is completed, the superstructure portion 12 is placed on the upper portion thereof and the two are vertically joined. The submerged installation of one unit 28 is completed.

After that, by repeating the same operation, another unit 28 is sequentially sunk and installed on the side of the already installed unit 28, and the units 28 are mutually connected laterally.

When the required number of units 28 have been submerged and installed, the depressurizing device connected to each suction pipe 27 is driven to remove the water in the recesses 25 of each unit 28, thereby forming the recesses. The inside of the unit 25 is depressurized, and the suction pressure is applied to the main body 16, so that the unit 28
The construction of the structure 10 is completed by submerging the entire structure 10 in which the above are connected to a predetermined depth in the water bottom ground 30.

In the above embodiment, when the unit 28 is submerged and installed, the foundation part 14 is first submerged in a state where the superstructure part 12 and the base part 14 are separated. It is also possible to combine the base part 14 and the base part 14 in advance, and to install the unit 28 in a submerged state.

By the way, according to the construction method of the underwater structure constructed as described above, the underwater structure 10 is formed by the superstructure portion 12
And a base portion 14 having a skirt portion 18,
These are manufactured in advance and precast.

Therefore, the superstructure portion 12 and the foundation portion 14 can be produced on land, and high quality products can be obtained.

In the undercast structure 10 thus precast, the superstructure portion 12 and the foundation portion 14 are towed to the construction site, respectively, and the skirt portion 18 is penetrated into the submarine ground 30 so that the foundation portion 14 is sunk. After installation,
It is constructed by placing and coupling the superstructure portion 12 on the upper portion of the base portion 14 and then depressurizing the inside of the skirt portion 18,
Since offshore work is significantly less than with pile driving,
It is possible to shorten the construction period and the construction period.

Further, in the case of the present embodiment, the upper work portion 12 and the base portion 14 are provided with a plurality of units 28 which make a pair to be joined vertically, and the upper work portion 12 and the base portion 14 are combined. Since the combined units 28 can be connected in the lateral direction, when the necessary number of units 28 are connected,
It is possible to accommodate any size of the underwater structure 10.

In the case of this embodiment, the superstructure part 1
2. Since the base portion 14 is hollowed by providing the hollow portions 15 and 20 therein, the towing can be easily performed, and when the hollow portion 20 is filled with water, the foundation portion 14 can be easily sunk.

FIG. 3 shows another embodiment of the method for constructing an underwater structure according to the present invention. Parts which are the same as or correspond to those in the above-mentioned embodiment are assigned the same reference numerals and explanations thereof are omitted. In addition, only the characteristic points will be described below.

In the embodiment shown in the figure, the underwater structure 10
Similar to the above-mentioned embodiment, a has a precast superstructure portion 12a which is divided and prefabricated, and a base portion 14a.

The upper portion 12a is of a flat plate shape and is arranged on the surface of the water, and no cavity is provided. However, as in the above embodiment, the cavity is provided inside. May be.

In the case of this embodiment, the base portion 14a is
It has a columnar shape and has a main body 16a and a skirt portion 18
a and a filter 26 and the like, and substantially,
It has the same structure as the basic portion 14 of the above embodiment.

The superstructure part 12a is a plurality of base parts 1
It is supported by 4a. When constructing the underwater structure 10a having such a configuration, similarly to the above-described embodiment, the precast superstructure portion 12a and the plurality of foundation portions 14a are towed to the construction site, and first, the foundation is constructed. Part 14
a is submerged in the subsoil 30.

The submerged foundation portion 14a is used for the suction pipe 2
The decompression device connected to 7 is operated and suction pressure is applied, so that the submarine ground 30 is submerged to a predetermined depth.

At this time, for example, when the submarine ground 30 has an inclination and the submerged structure 10a is constructed at the inclined portion, the amount of the foundation portions 14a to be sunk is adjusted appropriately according to the inclination.

When the foundation 14a is completely installed, the superstructure 12a is placed on the upper side of the foundation 14a and the two are joined to complete the construction of the underwater structure 10a.
Also in the embodiment configured in this way, the superstructure portion 12a supported by the plurality of columnar base portions 14a can be configured as one unit, and
It is also possible to laterally connect a plurality of units including a plurality of columnar base portions 14a and a superstructure portion 12a.

According to the construction method for an underwater structure constructed as described above, the same working effect as that of the above-described embodiment is obtained, and since the upper work portion 12a is supported by the plurality of foundation portions 14a, Even if the water bottom ground 30 has an inclination, it can be dealt with by adjusting the amount of the subsidence of the foundation portion 14a.

[0036]

As described above in detail in the embodiments,
According to the method of constructing an underwater foundation according to the present invention, since offshore work can be significantly reduced, the influence of weather and sea conditions can be significantly reduced, and the construction period and the construction cost can be reduced at the same time. .

[Brief description of drawings]

FIG. 1 is a sectional view of a construction state showing an example of a method for constructing an underwater structure according to the present invention.

FIG. 2 is a top view of FIG.

FIG. 3 is an explanatory view of a construction state showing another embodiment of the method for constructing an underwater structure according to the present invention.

[Explanation of symbols]

10, 10a Underwater structure 12, 12a Superstructure part 14, 14a Foundation part 15 Cavity 16,16a body 18, 18a Skirt part 20 cavity 22 Open / close valve 24 blade 25 recess 26 filters 28 units 30 subsoil

Continuation of the front page (56) References JP-A-10-292403 (JP, A) JP-A-5-79022 (JP, A) JP-A-53-80696 (JP, A) JP-A-9-316894 (JP , A) JP-A-5-98651 (JP, A) JP-A-3-151409 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) E02B 17/00-17/08 E02D 29/09

Claims (3)

(57) [Claims] The lower end of the 1. A underwater structures, by penetrating into the sea bed soil, a skirt portion to prevent the inflow of water is provided, by the action of suction pressure to the underwater structure, the
In the construction method of the underwater foundation for submerging the underwater structure to a predetermined depth of the submarine ground , the underwater structure is divided into a superstructure portion and a foundation portion having the skirt portion, and suction with one end opened to the skirt portion The pipe is vertically penetrated through the foundation portion and the superstructure portion, the decompressor is connected to the other end side, the skirt portion is penetrated into the water bottom ground, and the foundation portion is sunk and installed. A construction method of depressurizing the inside of the skirt through the decompression device after the upper work portion is placed and coupled on the upper part of the portion, and the upper work portion and the foundation portion that are joined vertically are one. A method for constructing an underwater structure, comprising a unit, wherein a plurality of the units are laterally connected. 2. The method for constructing an underwater structure according to claim 1, wherein the upper part and the base part are manufactured in advance and precast. 3. The method for constructing an underwater foundation structure according to claim 1, wherein the superstructure portion and / or the foundation portion has a hollow inside.