JPH0641930A - Barrier for protection against big wave - Google Patents

Abstract

PURPOSE: To protect a port or the like by mounting a caisson provided with an opening passing a swell, a pool part absorbing the swell and a plurality of parallel vertical skirt parts damping the swell. CONSTITUTION: When a swell F comes toward the side part 4 of a caisson 12 supported on a lattice metal structural body 22 , water of the swell enters the pool part 3 of a half-immersed state from a plurality of openings 5 provided on the side part 4. The energy of the water of the swell is absorbed in the pool part 3 to be damped, and damped in a partition chamber 9. The swell is damped by vertical skirt parts 11, 12.

Description

Detailed Description of the Invention

The present invention is formed of a barrier for protection against large waves, especially a plurality of units of caisson with their ends aligned with each other and partially submerged in the sea, each caisson being located at a predetermined location on the seabed. Barriers or coastal levees mounted on a support fixed to.

[0002] Legal regulations, especially under French law,
Designers of offshore structures are obliged to comply with some legal regulations aimed at protecting the environment in coastal areas. For this reason, new constructions must be designed so as not to alter local tidal currents, and thus not alter coastal topography or erosion and / or sedimentation phenomena. The structure should also occupy a small area at the bottom of the sea, barely visible, or invisible above sea level. Finally, the method of constructing the structure is often required to be a method that does not excavate or cut out the seabed.

By constructing such a structure that satisfies such legal restrictions and guarantees free flow of tidal currents near the port without damaging the seabed, a port protected from large ocean waves will be constructed. Is now desired. Such a structure itself can act as a wharf for a ship.

To this end, from a unit of caisson made of, for example, reinforced concrete or prestressed concrete, arranged end-to-end, fixed on the seabed and mounted on a tubular lattice structure or pile. A construct was designed. Such a construct is described in the applicant's French patent application No. 91 00361 dated 15 January 1991.

This type of construction makes it possible to pass the tidal currents and thus fulfills the above-mentioned regulations in this respect. This structure provides good protection against sea surf. However, it is further desirable to limit the passage of ocean currents or surges below the structure to ensure that the sea surface becomes more calm.

Accordingly, it is an object of the present invention to provide a large wave protection barrier which is effective against both large sea waves and large sea waves.

It is an object of the present invention to be formed by a plurality of units of caissons with their ends aligned and partially submerged in the sea, each caisson being fixed to at least one seabed in place. Achieved for barriers against large waves, placed on the body, and others that will become apparent when the following description is read.

The present invention is formed of a caisson of a plurality of units whose ends are aligned and partially submerged in the sea.
At least one support, fixed in place on the seabed, mounts each caisson on a protective barrier against large waves that dissipates a portion of the energy of the incoming large waves and at least the water of the large waves. A semi-submerged absorption reservoir part that has an opening that allows a portion to pass through inside and has a side portion that is arranged so as to face the incoming large wave, and substantially in the direction of the incoming large wave. Each caisson is provided with at least two parallel vertical skirts vertically projecting from the bottom of the caisson toward the seabed and attenuating large waves in the sea propagating between the seabed and the caisson. It is a protective barrier against large waves characterized by inclusion.

With such a large-wave blocking barrier, large waves on the sea surface are attenuated in the absorbing reservoir part, and large waves in the sea are simultaneously attenuated in the submerged vertical skirt part.

According to a preferred embodiment of the barrier according to the invention, these skirt portions are provided with regularly distributed openings in their surface and on the side of the caisson which is perpendicular to the direction of the incoming large waves. It is arranged on the extension of the section.

Each caisson includes a semi-submerged compartment located behind the absorbing reservoir for incoming large waves, which compartment is located outside the water and protected from the large waves. A horizontal upper slab is provided which is suitable for piering. A baffle wall is provided between the absorption reservoir part and the horizontal upper slab of the compartment, which vertically projects from the caisson and enhances the protection of the horizontal upper slab. Therefore, this horizontal slab can form a wharf for vessels in a port protected by a barrier according to the invention.

[0012] According to another feature of the barrier of the invention, the bottom of the absorption basin portion is water that is located below the caisson due to the waves generated by the impingement of an incoming large wave on the caisson. It is extended to the incoming large wave by the amount of a horizontal slab having a predetermined width calculated to dampen the wobbling of the body.

Other features and advantages of the present invention will be apparent from the following description with reference to the accompanying drawings.

In the first embodiment of the present invention shown in FIGS. 1 to 3, the barrier of the present invention comprises a plurality of caissons 1 ₁ , 1 ₂ , which are made of reinforced concrete and / or prestressed concrete whose ends are connected to each other. 1 ₃ consists like (see FIG. 2), each caisson as in the case of caisson 1 ₂ of Figure 2, is carried by a lattice metal structure 2 _second tubular pairs, 2 _'2. These structures anchored to the seabed are commonly referred to in the art as jacks.
These are well known and will not be described in detail here.

Such a structure makes it possible to install the barrier caissons of the invention in a relatively deep sea, for example a sea of a few tens of meters. The height of this structure is such that the caissons 1 ₁ , 1 ₂ , 1 _3, etc. are half submerged as shown in FIG. 1 which is a cross-sectional view taken along line 1-1 of FIG. 1, for example, retarding basin portion 3 for absorbing the caisson indicated by reference numeral 1 ₂ is provided with a side portion of Jaran (JARLAN) type
Is included. Therefore, each of the reservoir parts will have an incoming large wave (from the direction indicated by arrow F).
Including a vertical side 4 facing the. Openings 5 are drilled in this side 4 and these openings are evenly distributed over the entire side.

As shown in FIG. 3, a reservoir part 3 for absorption
Further encompasses 6 ₅ to inner partition 6 ₁ a vertical with respect to the front surface of the vertical side portion 4. Openings 7 are also formed in the partitions themselves along the axis. This establishes communication between each part of the partitioned reservoir.

This reservoir part is designed to attenuate large waves on the sea surface. That is, it is dimensioned to optimize the dissipation of the energy of the dominant large wave at the location. This dissipation effect is ensured by the presence of Jalan-type sides and a reservoir part for absorption. In case of a large wave with a crest higher than the vertical side 4 of the caisson
Dissipation is enhanced by scattering the waves into the absorbing reservoir.

As shown in FIG. 1, the compartment 9 is located behind the reservoir part 3 with respect to the incoming large waves and is located in the reservoir part 3.
Connected to. The upper slab 9'of the compartment thus forms the pier for roads or vessels to be lined. The protection of this wharf can be enhanced by constructing a baffle wall 10 between the wharf and the absorbing reservoir part 3 which rises and points towards the absorbing reservoir part.

The compartment 9 can be used as a damping chamber for the large waves remaining behind the barrier. For this purpose, the openings 9 "are evenly distributed on the vertical walls 9"". The compartment 9 can also accommodate port facilities.

According to one characteristic of the partition according to the invention,
The barrier also includes vertical skirt portions 11,12. These skirts project from the bottom 3 of the caisson towards the seabed 14. The skirt portion 11 extends in line with the vertical side portion 4 of the absorption basin portion 3, whereas the skirt portion 12 has a vertical side portion of the compartment 9 opposite the side portion 4. It is an extension of the side. Per Bruun, "Port Engineering", 4th Edition, Second Edition, published by The Gulf Publishing Company.
As explained on pages 88-291, such a skirt portion greatly attenuates the propagation of incoming large waves. This book is referred to in calculating the height and spacing of the skirt portions to obtain the optimum attenuation of the energy of the large wave. According to this book, where λ is the wavelength of the incoming large wave, the maximum attenuation is at a skirt spacing l / l = 0.
Obtained in a relationship such as 25.

As described above, according to the present invention, the large wave attenuation on the sea surface by the absorbing water reservoir part 3 and the large wave attenuation in the sea by the skirt parts 11 and 12 can be obtained at the same time. The sea surface is thus effectively protected by the barrier of the invention.

This barrier can be installed in the jacket using the technique described in the above-mentioned French patent application. That is, this method prepositions the jacket,
This involves towing each caisson to its location and filling the caisson with water to abut its jacket. The caisson can be centered on the jacket with pins and centering guides that can slide within the sleeve. These members are placed at the interface between the caisson and the jacket. For more details on the technique for positioning the barrier of the present invention, see the above mentioned French patent application.

The barrier shown in FIGS. 1 to 3 is designed to be installed on a relatively deep seabed, for example, a seabed having a depth of several tens of meters. Therefore, the use of jackets is the most preferred means. At shallow depths of the sea, it is possible to follow the solution shown in FIGS. 4 to 6 for the second embodiment of the barrier of the invention. In these figures, the same reference numerals as those used in FIGS. 1 to 3 are used to indicate the same or similar elements or members.

The barriers shown in FIGS. 4 (a cross-sectional view taken along line 4-4 in FIG. 5) to FIG. 6 are composed of caissons 1 ₁ , 1 ₂ , 1 _3, etc. These caissons are roughly the same as the barrier caissons of FIGS. However, code 2 ₂ to slide as a result of the fact that the shallow depth of the sea floor 14, for example, through the sleeve 15 which is provided inside the caisson, 2 _'2,
It is possible to mount caisson on a support consisting of piles such as 2 " _2. These piles are driven and fixed to the seabed 14. Technique for driving sliding piles in sleeves. Are also described in the above-mentioned French patent application, so refer to it for details.

Due to the closeness of the sea floor and the need to conserve tidal currents in accordance with the aforementioned regulations, the rigid skirt portions 11, 12 of the barriers of FIGS. It is replaced by skirt portions 11 ', 12'. These skirt parts 11 ', 12'
Is also provided with an opening 16, the axis of which is shown. This configuration also makes it possible to limit scour on the legs of the structure.

The barrier of FIG. 4 has skirt portions 11 ', 12'.
It is possible to provide an additional skirt portion 21 in between. This skirt portion 21 has a skirt portion 11 ',
An opening 22 is provided similarly to 12 '. On the one hand a pair of skirt parts 11 ', 21 and on the other hand a skirt part 12', 2
One pair acts as an attenuator for large waves coming from the outside world and residual waves coming from the open water surface, respectively.

Two variants according to the invention are shown in FIGS.
Is shown in. These figures are the same cross-sectional views as FIGS. 1 and 4. In FIG. 7, it can be seen that the illustrated barrier includes a caisson mounted on a jacket of the type used for the barrier of FIG. 1, substantially similar to the caisson of FIG. However, this jacket has lateral sides 6'which project vertically from the bottom 13 of the reservoir and a longitudinal skirt 11 ".
And 12 "at the intersection. In this variant, the caisson skirt portions 11 ', 12' are perforated similarly to the caisson skirt portion of FIG. A horizontal slab 17 extending from the bottom 13 of the reservoir part 3 for absorbing caisson 3 to the sea side.
Also note that there is. 22-2 May 1990
As explained in Minutes II, Subject 2, page 6 of the AIPCN 27th Conference held in Osaka on the 6th, a large wave hits a vertical side such as side 4 of the caisson in Figure 7. Then, when it is hit back here, the amplitude of the overlapping waves that are formed is twice the amplitude in the open sea. Therefore, the volume of water below the caisson is disturbed by changes in pressure that correspond to variations in this amplitude. The function of the slab 17 is to reduce these variable changes. For this purpose, this slab is
The upstream surface of the volume of water located below the slab and caisson no longer occupies a line with the antinodes, but is provided with a length that is in line with the nodes of the overlapping waves. The amplitude of the large wave over the barrier of the present invention is further attenuated in this way.

On the one hand, the skirt portions 11 ', 1
1 ", on the other hand, the skirt portions 12 ', 12" are
Each is separated by an interval calculated to effectively attenuate large waves coming from the open sea and waves coming from protected open waters. The spacing between the skirt portions 11 "and 12" may be dimensioned to attenuate any residual waves in both directions as they pass under the barrier.

The barrier shown in FIG. 8 is intended to protect offshore constructions installed on a deeper seabed, for example 100 meters deep. Its function is to attenuate large waves. This structure is formed by a plurality of caissons 1'mounted on a jacket-type metal structure 2'laid on the seabed 14. The structure is secured to the seabed by struts 18 which pass through a vertical sleeve 18 'integral therewith. Such fastening structures are described, for example, in the aforementioned French patent application.

The caisson 1'differs from the caisson described above in that the compartment 9 supporting the wharf 9'is replaced by an uncovered absorbent chamber 19. This chamber 19 is intended to damp residual undulations in open water on the side of the construct to be protected. An opening 19 'is bored on the outer side portion thereof in the same manner as the reservoir part 3.

On the side of the incoming large waves, the side 20 of the absorbing reservoir part 3 facing the open sea is curved towards the inside of the caisson. This can reduce the impact from waves on the front of the structure.

Of course, the present invention is not limited to the embodiments illustrated and described in detail herein. These examples are given for illustration only. The large wave dampening barrier according to the present invention can be used not only to protect ports, but also to protect existing structures such as offshore platforms. Moreover, such barriers are
It can also be used to protect open water areas, such as marinas, that house urban facilities in water areas.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view of a barrier according to a first embodiment of the present invention.

FIG. 2 is a side view of the barrier shown in FIG.

FIG. 3 is a plan view of the barrier of FIG.

FIG. 4 is a vertical sectional view of a barrier according to a second embodiment of the present invention.

FIG. 5 is a side view of the barrier of FIG.

FIG. 6 is a plan view of the barrier of FIG.

FIG. 7 is a vertical cross-sectional view of a first modified example of the present invention.

FIG. 8 is a vertical cross-sectional view of a second modified example of the present invention.

[Explanation of symbols]

 1,1 'Caisson 2 Lattice metal structure 3 Reservoir part 4 Side 5 Opening 6 Internal partition 6'Lateral side 7 Opening 9 Compartment 9'Upper slab or wharf 9 "Opening 9'" Wall 10 Baffle wall 11 , 11 ', 11 "Skirt part 12, 12', 12" Skirt part 13 Bottom part 14 Seabed 15 Sleeve 16 Opening 17 Slab 18 Strut 18 'Sleeve 19 Room 19' Opening 20 Side part 21 Skirting part 22 Opening

Claims (13)

[Claims] 1. A caisson (1) of a plurality of units whose ends are aligned with each other and are partially submerged in the sea, each caisson being fixed at a predetermined position on the seabed (14). A barrier for protection against large waves, mounted on a support (2 _i , 2 ′ _i , 2 ″ _i ), which dissipates part of the energy of the incoming large waves and at least part of this water A semi-submerged absorption reservoir part (3) having an opening for passing through and having a side part (4) arranged so as to face the incoming large wave, and with respect to the direction of the incoming large wave. At least two parallel vertical skirt portions projecting substantially vertically from the bottom of the caisson (13) towards the seabed and sized and arranged to attenuate subsea waves propagating between the seabed and the caisson. (1
1, 12; 11 ', 12') are included in each of the caissons. 2. The barrier according to claim 1, wherein the skirt portion has openings (1) regularly distributed on its surface.
6, 22) perforated barriers. 3. Barrier according to claim 1 or 2, characterized in that the side (4) of the reservoir part facing the incoming large waves is vertical. 4. Barrier according to claim 1 or 2, characterized in that the side (20) of the reservoir part facing the incoming large waves is curved inward of the caisson. 5. A barrier according to any one of claims 1 to 3, wherein one of said vertical skirt portions (11;
A barrier characterized in that 11 ') extends to the sides (4; 20) of the reservoir part. 6. A barrier according to any one of claims 1 to 5, wherein each caisson is located behind the absorbing reservoir part with respect to incoming large waves in a submerged compartment ( A barrier containing 9), characterized in that this compartment is provided with a horizontal upper slab (9 ') which is arranged outside the water and which is suitable for being a pier and protected from large waves. 7. A barrier as claimed in claim 6, wherein it projects vertically from the caisson between the absorbing reservoir part (3) and the horizontal upper slab (9 ') of the compartment (9). Barrier characterized by the provision of a baffle wall (10) which enhances the protection of the horizontal upper slab. 8. A barrier according to any one of claims 1 to 7, wherein the bottom part (13) of the absorbing reservoir part.
Of a horizontal slab (17) having a predetermined width calculated to dampen the wobbling of the body of water located below the caisson with the rippling waves generated by the impingement of an incoming large wave on the caisson. A barrier characterized by being extended to the side of the incoming big wave by the minute. 9. The barrier according to claim 1, wherein the support comprises a tubular lattice structure. 10. The barrier according to claim 1, wherein the support is a pile. 11. Barrier according to any one of claims 1 to 10, wherein at least three vertical parallel skirt portions (11 ', 12', 21; 11 ', 11 ", 1).
2 ', 12 "), characterized in that each pair of adjacent skirt portions forms a means for damping large waves in the sea. 12. A barrier as claimed in any one of claims 1 to 5, wherein each caisson is located behind the absorbing reservoir part (3) with respect to incoming large waves and is a submersible absorber. A barrier comprising a room (19) for dampening residual sea surface undulations on the sea side protected by the barrier. 13. The barrier according to claim 1, wherein each caisson is constructed of reinforced concrete and / or prestressed concrete.