KR101290330B1 - Caisson having circle cell and quay wall, breakwater, seawall using the same - Google Patents

Abstract

The present invention relates to the upper caisson 100 used for the sofa structure including a plurality of caisson 100 installed on the base layer (1), a plurality of cells 110 divided by the partition wall 120 in the vertical direction And a plurality of cells 110 are disposed in the front and a structure including a front circular cell 111 whose longitudinal section is formed as a circular structure, thereby causing a risk of damage during water-traction work for installation. It can be effectively resist the wave pressure and the side pressure of the filler material to reduce the amount of material, it is possible to obtain a buffer effect against the multi-directional wave.

Caisson, sofa, round cell

Description

CAYSSON HAVING CIRCLE CELL AND QUAY WALL, BREAKWATER, SEAWALL USING THE SAME}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a port technology field, and more particularly, to a caisson structure of a sofa structure.

A sofa structure is a shelter for protecting beach structures by dissipating the energy of blue waves, a quay wall for stable docking of a ship, and protection of the inner port from the blue waves of an outer port. It is a general name including the breakwater for this purpose.

1 shows a conventional inclined breakwater (seat inclined).

As shown, the foundation layer (1) made of sandstone or the like on the foundation ground is constructed to have both sides inclined, and the covering stone (2) is installed to protect the front and rear inclined surfaces, and a plurality of sofa blocks (3) are provided on the outside of the harbor. do.

Here, the dam structure 10 is installed at the top of the breakwater, in order to prevent the dam structure 10 from being damaged or pushed by the blue, the covering height of the sofa block (3) is near the floor height of the dam structure (10) If the depth is deep or the soft ground is deep, there is a problem that the construction cost increases significantly.

2 and 3 show a conventional caisson breakwater and a caisson used therein.

In order to prevent the amount of sandstone from being excessively deep, the base layer 1 is constructed only up to a certain height, and a large number of caissons 20 are installed thereon. By filling the filler 4, the wall is stabilized.

The upper structure 21 is installed at the top of the caisson 20, in order to reduce the weight of the upper structure 21 while preventing the wave, a parapet may be installed on the upper surface of the upper structure 21.

The reason why the caisson 20 is used in this way is to form a wall to increase the resistance to the wave pressure to facilitate the berthing of the ship, while the depth of the deep stone takes too much amount of stone to form the sofa structure This is to prevent.

In addition, a plurality of slits 22 are also formed on the front surface of the caisson 20, which is intended to protect the coastal structures by dissipating energy as the blue flows in and out through the slits 22.

As shown in FIG. 3, the conventional caisson 20 generally has a rectangular cross-sectional structure and generally includes a plurality of cells 24 having a quadrangular shape partitioned by the partition wall 23.

Such a caisson breakwater forms a base layer (1) by sandstone, etc., and after the caisson (20) manufactured on land by water barge by barges and tugboat is placed on the upper base layer (1), the caisson (20) It is constructed by the method of forming the upper structure 21 by spot casting on the top of the.

By the way, the conventional caisson and the sofa structure using the same has been pointed out as a problem in the following points.

First, the caisson simply takes the structure of a rectangular cross section, which is not a structure that can effectively resist hydraulic and wave pressure, so that the breakage occurs frequently during the water towing operation for installation.

Second, the inner and outer bulkheads of the installed caisson should resist not only the wave pressure but also the side pressure caused by the inner filling material. Since the conventional caisson simply takes the structure of a rectangular cross section, in order to resist such wave pressure and the side pressure of the filling material, The larger the cross section, the higher the amount of material required.

Third, the actual waves approach from a wide variety of directions, as well as the front of the sofa structure, there is no consideration for cushioning the multi-directional waves.

The present invention has been derived to solve the above problems, there is no fear of damage during water traction operation for installation, can effectively resist the side pressure of the wave pressure and the filling material can reduce the amount of material, for multi-directional wave The object of the present invention is to propose a caisson of a sofa structure and a quay wall, a breakwater, and a lake using the same to obtain a cushioning effect.

The present invention, in order to achieve the above object, in the caisson 100 used for the sofa structure including a plurality of caisson 100 installed on the base layer 1, the partition wall 120 in the vertical direction A plurality of cells 110 divided by the plurality of cells 110, wherein the plurality of cells 110 are disposed at the front and include a circular circular cell 111 having a longitudinal cross-section having a circular structure. The caisson 100 of the sofa structure provided.

The partition wall 120 may include a plurality of front cylindrical partition walls 121 formed in a cylindrical structure to form the front circular cell 111, and the plurality of front cylindrical partition walls 121 may be formed in a row in front of the partition wall 120. .

The plurality of cells 110 may include a rear circular cell 112 disposed at a rear side and having a longitudinal cross section as a circular structure.

The partition wall 120 includes a plurality of rear cylindrical partition walls 122 formed in a cylindrical structure to form the rear circular cell 112, and a plurality of rear cylindrical partition walls 122 are formed in a row at the rear thereof. Do.

The partition wall 120 preferably includes an intermediate partition wall 123 interconnecting edges of the front cylindrical partition wall 121 and the rear cylindrical partition wall 122.

The intermediate partition 123 is preferably a straight structure.

The partition wall 120 preferably includes an oblique partition wall 124 connecting the front cylindrical partition wall 121 or the rear cylindrical partition wall 122 and the intermediate partition wall 123 in a diagonal direction based on the longitudinal section.

The diagonal partition 124 is a central portion of the side end front cylindrical partition 121a disposed at both side ends of the plurality of front cylindrical partitions 121 and the side end intermediate partition 123a disposed at both side ends of the intermediate partition 123. Front side end diagonal partition 124a for connecting; It is preferable to include; the rear side end diagonal partition 124b connecting the central portion of the side end rear cylindrical partition 122a and the side end intermediate partition 123a disposed at both side ends of the plurality of rear cylindrical partitions 122.

In order for the front circular cell 111 to form an oil and gas chamber, the front cylindrical partition 121 is preferably formed with a slit 130.

It is preferable that the slit 130 is formed in the rear cylindrical partition wall 122 so that the rear circular cell 112 forms a running room.

The plurality of cells 110 includes a central cell 113 formed in an inner region of the front cylindrical partition 121, the rear cylindrical partition 122, and the intermediate partition 123 on both sides, and the central cell 113 includes: It is preferred that the filler is filled.

The present invention is a quay wall using the caisson 100, the base layer (1); It presents together the inner wall including; a plurality of the caisson 100 installed in the left and right directions on the base layer (1).

The present invention is a latent agent using the caisson 100, the base layer (1); A plurality of caissons 100 are installed on the foundation layer 1 and arranged in the left and right directions.

The present invention is a releasing agent using the caisson 100, the base layer (1); Presents a releasing agent including; a plurality of the caisson 100 is installed in the left and right directions on the base layer (1).

The present invention is a breakwater using the caisson 100, the base layer (1); A breakwater including a plurality of the caisson 100 is installed in the left and right direction on the base layer (1) present together.

The present invention provides a relief using the caisson 100, the base layer (1); Presented together with a raft including a plurality of the caisson 100 is installed in the left and right directions on the base layer (1).

The present invention has no fear of breakage during water traction work for installation, can effectively resist the lateral pressure of the wave pressure and the filling material to reduce the amount of material, the caisson of the sofa structure to obtain a cushioning effect against the multi-directional wave And it suggests a quay, breakwater, and revetment using the same.

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

As shown in Figure 4 below, the present invention relates to the upper caisson 100 used in the sofa structure including a plurality of caisson 100 is basically provided on the base layer (1), the vertical partition ( A plurality of cells 110 divided by 120, the plurality of cells 110 is characterized in that it comprises a front circular cell 111 is disposed in front, the longitudinal cross-section is formed as a circular structure.

That is, in forming the caisson 100 having a plurality of cells 100, such a front circular cell 111 by arranging the circular cell 111 in the front, the water traction in this direction (forward) is made. ) And the hydraulic pressure and wave pressure to act.

In the case of the conventional caisson, since the square cell is arranged in the water traction direction, stress concentration occurs at the edge portion due to hydraulic pressure and wave pressure, so that breakage is likely to occur, whereas in the case of the caisson 100 according to the present invention, water traction Since the circular cells 111 are arranged in the direction, the above-described stress concentration does not occur, and thus the effect of less possibility of breakage can be obtained.

Specifically, the caisson 100 according to the present invention has a configuration in which a plurality of front cylindrical partitions 121 are formed in a row in front, so that the front circular cell across the front surface by the inner region of the front cylindrical partitions 121. It is preferable in terms of structural stability that the (111) be formed.

In addition, when such a structure is taken, the plurality of front cylindrical bulkheads 121 form an uneven structure, and thus, an effect that the buffering effect can be exerted on all waves approaching in various directions after the installation of the caisson is added.

The wave pressure and the water pressure during water traction act not only on the front of the caisson 100 but also on the rear, so that when the rear circular cell 112 is formed in the rear of the caisson 100 with a longitudinal cross section, damage caused by wave pressure and water pressure You can further reduce your concern.

In this case, it is also structural that the rear cylindrical cells 112 are formed over the shear surface by the inner region of the rear cylindrical partitions 122 by forming a plurality of front cylindrical partitions 122 arranged rearward. It is preferable in terms of stability.

When the slit 130 is formed in the front cylindrical partition wall 121, seawater enters through the front circular cell 111, so that the front circular cell 111 forms an oil and water chamber, in which case the blue flows in and out through the slit 11. As energy is dissipated, the coastal structure can be effectively protected (FIG. 6).

When the slit 130 is also formed in the rear cylindrical partition wall 122, the rear circular cell 112 forms a flowing room so that the same effect as above can be obtained.

Meanwhile, when the edges of the front cylindrical partition 121 and the rear cylindrical partition 122 are interconnected by the intermediate partition 123, the front cylindrical partition 121, the rear cylindrical partition 122 and the intermediate partitions on both sides ( 123) A central cell 113 is formed in an inner region, that is, an region between the front circular cell 111 and the rear circular cell 112.

Here, when the intermediate bulkhead 123 has a straight structure, the center cell 113 has an arch structure in which the front and rear sides are curved inward, respectively, while the cross-sectional structure in which both sides are straight is formed (FIG. 5). ).

In the case of filling fillers such as sandstone in the region of the central cell 113, the side pressure of the filler acting on the rear of the front cylindrical partition 121 and the front of the rear cylindrical partition 122 is as described above. As 121 and 122 take the arch structure, it is distributed to both regions thereof, so that it is able to withstand a greater pressure than the conventional rectangular cell.

That is, the caisson 100 according to the present invention, as described above, exhibits excellent resistance against the same amount of material against wave pressure, water pressure, and side pressure due to the filling material, thereby reducing the amount of material compared to the conventional rectangular caisson having the same performance. It can be effective.

The scale of the caisson 100 according to the present invention can be freely adjusted by lengthening or shortening the length of the upper middle partition 123, in the case where the length of the middle partition 123 is long, the front cylindrical partition 121 or the rear It is preferable to reinforce by installing an oblique partition 124 connecting the cylindrical partition 122 and the intermediate partition 123 in a diagonal direction with respect to the longitudinal section.

Particularly, when the water is towed, considerably large hydraulic pressure and wave pressure act on both sides as well as on the front and rear sides of the caisson 100. The diagonal partition wall 124 may be used to reinforce both sides of the caisson 100.

That is, the front side diagonal partition wall connecting the central portion of the side front cylindrical partition 121a disposed at both side ends of the plurality of front cylindrical partitions 121 and the intermediate intermediate wall 123a disposed at both side ends of the middle partition wall 123. 124a; The rear end diagonal bulkhead 124b connecting the central portion of the side end rear cylindrical partition 122a disposed at both side ends of the plurality of rear cylindrical bulkheads 122 and the intermediate end bulkhead 123a; 7).

The front side end diagonal bulkhead 124a and the rear side end diagonal bulkhead 124b together with the side end intermediate partition 123a form a cross section of the truss structure, and are provided with respect to the hydraulic pressure and wave pressure acting on the outside of the side end intermediate partition 123a. Can effectively resist.

In the above, the case in which the caisson 100 according to the present invention is applied to the breakwater of the sofa structure as an example, but can be applied to other sofa structures, such as submerged, langue, quay wall, revetment, all can achieve the same effect have.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1,2 is a cross-sectional view showing a conventional breakwater.

Figure 3 is a perspective view of a conventional caisson.

Figure 4 below shows an embodiment of a caisson according to the present invention,

4 is a perspective view of a first embodiment;

5 is a plan view of the first embodiment;

6 is a perspective view of a second embodiment;

7 is a perspective view of a third embodiment.

DESCRIPTION OF REFERENCE NUMERALS

1: base layer 2: coated stone

3: sofa block 4: filling material

100: caisson 110: cell

111: forward circular cell 112: rear circular cell

113: center cell 120: bulkhead

121: front cylindrical bulkhead 122: rear cylindrical bulkhead

123: intermediate bulkhead 124: diagonal bulkhead

130: slit

Claims (16)

delete delete delete delete delete delete delete In the caisson 100 used in the sofa structure comprising a plurality of caisson 100 installed on the base layer 1, It is provided with a plurality of cells 110 divided by the partition wall 120 in the vertical direction, The plurality of cells 110 A front circular cell 111 disposed at the front and having a longitudinal cross section as a circular structure; And a rear circular cell 112 disposed at the rear and having a longitudinal cross section formed as a circular structure. The partition wall 120 A plurality of front cylindrical partitions 121 formed in a cylindrical structure to form the front circular cell 111; A plurality of rear cylindrical partitions 122 having a cylindrical structure to form the rear circular cell 112; And an intermediate partition wall 123 interconnecting edges of the front cylindrical partition wall 121 and the rear cylindrical partition wall 122. The front cylindrical partitions 121 are formed in a row in the front, the rear cylindrical partitions 122 are formed in a row in the rear, The intermediate partition 123 has a straight structure, The partition wall 120 An oblique partition 124 connecting the front cylindrical partition 121 or the rear cylindrical partition 122 and the intermediate partition 123 in a diagonal direction based on a longitudinal section; The diagonal partition 124 is A front side end diagonal partition wall connecting the central portion of the side end front cylindrical partition 121a disposed at both side ends of the plurality of front cylindrical partitions 121 and the side end intermediate partition 123a disposed at both side ends of the intermediate partition 123. 124a; A rear side end diagonal bulkhead 124b connecting the central portion of the side end rear cylindrical partition 122a disposed at both side ends of the plurality of rear cylindrical partitions 122 and the side end intermediate partition 123a; A caisson (100) of a sofa structure having a circular cell, characterized in that it comprises a. 9. The method of claim 8, The caisson (100) of the sofa structure having a circular cell, characterized in that the front cylindrical cell 111, the front cylindrical partition wall 121 is formed with a slit (130) so as to form a running room. 10. The method of claim 9, A caisson (100) of a sofa structure with a circular cell, characterized in that the rear cylindrical cell 112, the rear cylindrical partition wall 122 is formed with a slit 130, so as to form a running room. The method of claim 10, The plurality of cells 110 A central cell 113 formed in an inner region of the front cylindrical partition 121, a rear cylindrical partition 122, and intermediate partitions 123 on both sides; The caisson 100 of the sofa structure having a circular cell, characterized in that the center cell 113 is filled with a filler. As a quay wall using the caisson 100 of any one of claims 8 to 11, The base layer (1); A plurality of the caissons 100 installed in the left and right directions on the base layer 1; Including quay wall. As a latent agent using the caisson 100 of any one of claims 8 to 11, The base layer (1); A plurality of the caissons 100 installed in the left and right directions on the base layer 1; Containing latent. As the ophthalmic agent using the caisson 100 of any one of claims 8 to 11, The base layer (1); A plurality of the caissons 100 installed in the left and right directions on the base layer 1; Elans containing. As a breakwater using the caisson 100 of any one of claims 8 to 11, The base layer (1); A plurality of the caissons 100 installed in the left and right directions on the base layer 1; Breakwater containing. As a seashore using the caisson 100 of any one of claims 8 to 11, The base layer (1); A plurality of the caissons 100 installed in the left and right directions on the base layer 1; Including lanyards.

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