KR102275400B1 - Wave impact attenuation type floating pier - Google Patents

Abstract

In accordance with the present invention, a wave impact attenuation-type floating pier comprises: an air hole which is made of a curved pipe for introducing and discharging fluid and air and whose upper end and lower end are opened; inner buoyancy member forming a certain shape by surrounding the parts excluding the parts near both ends of the air hole; and a sheath member which surrounds the inner buoyancy member to prevent the inner buoyancy member from being exposed to the outside, and whose one surface is sheathed for the opening units of both ends of the air hole to be opened respectively toward the outside. The air hole can be installed either by a first method, which is to install a plurality of air holes on one or more surfaces of the inner buoyancy member at regular intervals, or by a second method, which is to surround the parts excluding the parts adjacent to both ends of the air hole, form an air hole block concrete in a hexahedron shape whose parts adjacent both ends protrude to one surface, form pockets corresponding to the hexahedron shape on one or more surfaces of the inner buoyancy member at regular intervals, and insert the air hole block concrete into the pockets. The air hole includes: a lower pipe installed lower than the seawater surface; an upper pipe installed higher than the seawater surface; and a connection pipe connecting the other end of the lower pipe to the other end of the upper pipe. The connection pipe is installed to have the seawater surface in the center unit in a heightwise direction. When a fluid is introduced through one of the opening units on both ends of the air hole, the fluid flows in the air hole and then leaks through the other opening unit. As such, in accordance with the present invention, the wave impact attenuation-type floating pier is able to reduce the behavior and agitation of the floating pier, which are generated by external force such as natural wave, ship wave by ships, and pressure of water mass or the like.

Description

Wave IMPACT ATTENUATION TYPE FLOATING PIER

The present invention relates to a floating pier, which is a type of mooring facility, and more particularly, to a wave influence attenuating type floating pier for attenuating the influence of waves.

A floating pier (浮棧橋) is a mooring facility connecting a box-shaped boat called a pontoon with a footbridge between it and the land at a certain distance from the naked eye. A pontoon is a floating body made to have a pier function by connecting one or more pontoons, and the pontoon is connected to an anchor by a chain, and there are transverse and longitudinal pier types.

Bujang Bridge is usually used in areas where it is difficult for general facilities to load and disembark, or where the water is deep and the soft ground is deep, so it is not economical. It should be installed in a calm place because it is weak to waves and agitation is severe. It is economically advantageous to respond as an auxiliary pier if the maintenance cost is high, but the construction cost is high in the soft ground or the water depth is deeper than necessary and the construction cost is high in a place with a normal quay wall or pier structure.

In addition, since the floating pier is a floating bridge, it is difficult to increase the overhead load, so it is usually used for passengers.

The main causes of damage to floating piers (ships) are “behavior” due to the influence of external forces such as winds generated in the harbor, swell waves, high waves that invade the harbor from the open sea, harbor waves that occur when the vessel moves, and the pressure of water masses that occur when the vessel is berthing. and “agitation” occurs, and as a result, collision damage between floating piers and ships, post-war collision damage of auxiliary piers, damage to auxiliary pier facilities, user slippage accidents, and safety accidents during loading and unloading of cargo occur frequently. There will be many economic losses as a result.

The auxiliary pier as described above is not installed so that the initial position is maintained without change like the ground structure, no matter what its purpose is, but it is a structure that is installed to maintain its position while floating on the water surface with fluctuations within a certain range. .

Therefore, in order to satisfy the characteristic of maintaining the position including the fluctuation within a certain range as described above, it is necessary to apply a technology capable of reducing the fluctuation due to the influence of the wave.

Republic of Korea Patent Registration No. 10-2173166 (Title: Multi-purpose pier and floating dock using the same, registration date: 2020.10.27. )

The present invention was invented to improve the above problems, and the wave effect that can reduce the "behavior" and "sway" of the floating bridge caused by external forces such as naturally occurring waves, sail waves by ships, and pressure of water masses It is to provide a damping type floating pier.

The technical problem of the present invention is not limited to those mentioned above, and another technical problem not mentioned will be clearly understood by those skilled in the art from the following description.

According to an embodiment of the present invention devised to achieve the above object, the wave influence attenuation type floating pier is formed of a pipe bent so that fluid or air flows in and out, and the upper and lower ends of the air hole are opened. The inner buoyancy material and the inner buoyancy material that surround the portion except for the vicinity of both ends and form a certain shape are covered so that the openings of both ends of the air hole are respectively opened toward the outside while surrounding so as not to be exposed to the outside. A plurality of air hole blocks are installed on at least one or more surfaces of the buoyancy material to be spaced apart at regular intervals, or air hole block concrete forming a hexahedral shape in which the vicinity of both ends protrude from one side by surrounding parts except for the vicinity of both ends of the air hole is formed. After forming pockets corresponding to the hexahedron shape on one or more surfaces to be spaced apart by a certain distance, the air hole block concrete can be inserted into the pocket and installed. It includes a pipe, a connection pipe connecting the other end of the lower pipe and the other end of the upper pipe, the connection pipe is installed so that the sea level comes to the central part in the height direction, and when a fluid flows into one of the openings at both ends of the air hole, the inside of the air hole flows After one, it is characterized in that it flows out through the other one.

In addition, as the material of the cladding material of the wave impact attenuation type auxiliary pier according to an embodiment of the present invention, any one or two or more materials of steel, concrete, PE (polyethylene), and FRP (fiber-reinforced plastic) can be selectively applied. characterized by having

In addition, the wave influence attenuation type auxiliary pier according to an embodiment of the present invention protrudes toward the direction in which the openings of both ends of the air hole are opened in the middle or near the separation distance of each of the openings at both ends of the surface of the cladding material, and the connecting pipe of the air hole It is characterized in that a protrusion having a length close to that is formed.

According to an embodiment of the present invention, it is possible to reduce the "behavior" and "agitation" of the floating pier caused by external forces such as naturally occurring waves, sail waves by ships, and pressure of water bodies. It has the effect of being able to do it.

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view of a first embodiment of a blue influence attenuation type floating pier according to an embodiment of the present invention.
Figure 2 is a perspective view of a second embodiment of the wave impact attenuation type pier according to an embodiment of the present invention.
Figure 3 is a perspective view of a third embodiment of the wave influence attenuation type pier according to an embodiment of the present invention.
Figure 4 is a perspective view of a fourth embodiment of the wave influence attenuation type pier according to an embodiment of the present invention.
5 is a side view of a wave-impact attenuation type pier at sea level at flat water level.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings to the extent that those of ordinary skill in the art to which the present invention pertains can easily practice the present invention.

In describing the embodiments, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted. This is to more clearly convey the gist of the present invention without obscuring the gist of the present invention by omitting unnecessary description.

For the same reason, some components are exaggerated, omitted, or schematically illustrated in the accompanying drawings. In addition, the size of each component does not fully reflect the actual size. In each figure, the same or corresponding elements are assigned the same reference numerals.

1 is a perspective view of a first embodiment of a wave impact attenuation type pier according to an embodiment of the present invention.

Referring to Figure 1 (a), the first embodiment 100 of the wave impact attenuation type floating pier according to the present invention is half submerged in water, and the first embodiment 100 is such that fluid or air flows in and out. The inner buoyancy material 20 and the inner buoyancy material 20 that surround the portion except for the vicinity of both ends of the air hole 10, which is formed of a curved tube and open at both upper and lower ends, and the inner buoyancy material 20 are externally formed. It surrounds so as not to be exposed and includes a covering material 30 coated on one surface so that both ends of the air hole 10 are opened toward the outside, respectively.

Here, the installation of the air hole 10 is one surface by either installing a plurality of them so as to be spaced apart at regular intervals on at least one surface of the internal buoyancy member 20, or enclosing a portion except for the vicinity of both ends of the air hole 10. After forming the air hole block concrete 24 in the shape of a hexahedron protruding from both ends, the air hole pocket 22 corresponding to the hexahedron shape is formed on one or more surfaces of the internal buoyancy material 20 to be spaced apart from each other at regular intervals. After the air hole block concrete 24 can be installed by inserting it into the air hole pocket 22, the air hole 10 is a lower pipe installed lower than sea level, an upper pipe installed higher than sea level, the other end and upper part of the lower pipe Including a connecting pipe (3) connecting the other end of the pipe, the connecting pipe (3) is installed in the central portion in the height direction at the sea level, and when the fluid flows into any one of the openings at both ends of the air hole (10), the air hole ( 10) is characterized in that it flows through the inside and then flows out through the other one.

Referring to Figure 1 (b), the air hole 10 is bent in the form of a curved tube so that fluid or air flows in and out,

The upper pipe (1) with the upper outlet (7) opened at one end and placed on the upper side,

Upgok pipe (2) that communicates with the other end of the upper pipe (1) and is bent to face downward;

A connection pipe (3) that communicates with the lower end of the upper gook pipe (2) and extends downward;

The lower curve pipe (4) that is connected to the lower end of the connecting pipe (3) and bent toward the left

A lower pipe (5) that communicates with the left end of the lower gong pipe (4) and extends toward the left,

A down outlet 6 that is opened toward the outside from one end of the lower pipe 5, and

It includes an upper outlet (7) that is opened toward the outside from one end of the upper pipe (1).

The air hole 10 formed in the same shape as described above has a function of attenuating the “behavior” and “sway” of the wave influence attenuation type floating pier according to the present invention generated by the pressure of waves, anti-frequency waves, water masses, etc. have.

When water enters the air hole (10) through the lower outlet (6), the lower pipe (5), the lower gog pipe (4), the connecting pipe (3), the upper gook pipe (2), the upper pipe (1), the upper outflow It flows in the order of the inlet (7) and is discharged to the outside of the floating bridge,

When water enters the air hole 10 through the upper outlet (7), the upper pipe (1), the upper gok pipe (2), the connecting pipe (3), the lower gook pipe (4), the lower pipe (5), the lower pipe It flows in the order of the inlet and outlet (6) and is discharged to the outside of the floating bridge,

When water enters both sides of the upper outlet 7 and the lower outlet 6 at the same time, each water flow is combined in the air hole 10 and then discharged to the outlet with a relatively low pressure.

According to an embodiment of the present invention, each embodiment of the wave influence attenuation type auxiliary pier is, as described above, the "behavior of the auxiliary pier generated by waves such as waves by the inflow and discharge action of water flow into the air hole 10" ” and “agitation” will be included.

Figure 2 is a perspective view of a second embodiment of the wave impact attenuation type pier according to an embodiment of the present invention.

Referring to FIG. 2 , the second embodiment 200 of the wave influence attenuation type auxiliary pier according to the present invention is substantially the same as the first embodiment 100 , but includes some differences. One of the differences is to include a recessed portion spaced apart from the air hole 10 by a predetermined interval, which is a form to disperse waves that collide with an auxiliary pier such as a wave.

Another difference when comparing the second embodiment 200 with the first embodiment 100 is that the vertical pipe 3 of the air hole 10 is in contact with the inner surface of the covering material 30, thus formed Accordingly, the possibility that the installation state of the air hole 10 will be maintained without shaking during long-term use ranging from several years to several decades is higher than that of the first embodiment 100 .

Figure 3 is a perspective view of a third embodiment of the wave impact attenuation type pier according to an embodiment of the present invention.

Referring to FIG. 3 , in the third embodiment 300 of the wave impact damping type auxiliary pier according to the present invention, the air hole 10 is inserted and installed inside the auxiliary pier, and after forming a concrete block shape, the internal buoyancy material of the auxiliary pier It can be seen that it is configured to be inserted into the air hole pocket 22 of (20).

Figure 3 (a), the air hole pockets 22 on one surface of the internal buoyancy member 20 is shown to be formed spaced apart at regular intervals.

3(b) shows that the air hole block concrete 24 and the air hole block 28 are manufactured in a hexahedral shape in which the vicinity of both ends protrude from one side by surrounding the portion except for the vicinity of both ends of the air hole 10. .

Figure 3 (c), the inner buoyancy member 20 shows a shape in which the air hole block 28 is coupled to the air hole pocket 22 on one surface.

Figure 3 (d), it shows that the air hole block 28 is coupled to the inner buoyancy material 20 is wrapped with the covering material (30). The right part was broken so that the inside could be seen.

Figure 4 is a perspective view of a fourth embodiment of the wave impact attenuation type pier according to an embodiment of the present invention.

Referring to FIG. 4 , in the fourth embodiment 400 of the wave influence attenuation type auxiliary pier according to the present invention, the projection 15 is formed on the surface of the covering material 30 . Here, the protrusion 15 protrudes toward the direction in which the openings 6 and 7 at both ends of the air hole 10 are opened, and has a length close to the air hole 10, and at the same time, the openings 6 and 7 at both ends, respectively. It has a shape protruding outward in the middle or near the separation distance of

Through the protrusion 15 as described above, waves such as waves hitting the floating pier are divided into both sides, thereby reducing the pressure acting on the floating pier, thereby reducing the possibility of "behavior" and "swaying" of the floating pier At the same time, the possibility of “erosion” can be reduced to some extent.

In addition, as the shape of the protrusion 15, any one of shapes such as a triangle, a square, a semi-circle, and a semi-ellipse can be selectively applied based on the cross-sectional shape of the protruding part, and the shape of the protrusion is in the main technical idea of the present invention. Since it does not affect, it is recommended to select and apply the most suitable form according to the conditions of each embodiment.

As described above with reference to FIGS. 1 to 4, through the first embodiment 100 to the fourth embodiment 400 of the wave influence attenuation type sub-pier according to the preferred embodiment of the present invention, naturally occurring waves , it is possible to provide a wave-impact damping type floating pier that can reduce the “behavior” and “sway” of the floating pier caused by external forces such as the ship's cruising wave and the pressure of the water mass.

In addition, the internal buoyancy material 20 included in each of the first embodiments 100 to the fourth embodiment 400 of the wave impact attenuation type floating pier according to a preferred embodiment of the present invention has a smaller specific gravity than water, such as reinforced styrofoam. It is formed of a material and configured to provide buoyancy to the floating pier.

In addition, the wave impact attenuation type auxiliary pier according to a preferred embodiment of the present invention may further include a buffer member for alleviating the impact applied to the outside of the covering material (30).

5 is a side view of a wave-impact attenuation type pier at sea level at flat water level.

On the other hand, in the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms are used, these are only used in a general sense to easily explain the technical content of the present invention and help the understanding of the present invention, It is not intended to limit the scope of the invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

1: upper tube 2: Sanggok tube
3 : connector 4 : lower gook pipe
5: lower pipe 6: lower outlet
7: upper outlet
10: air hole 15: projection
20: internal buoyancy material 22: air hole pocket
24: air hole block concrete 28: air hole block
30: covering material
100: first embodiment
200: second embodiment
300: third embodiment
400: fourth embodiment

Claims (3)

an air hole formed as a curved pipe to allow fluid or air to flow in and out and open at both upper and lower ends;
an internal buoyancy material that surrounds a portion except for the vicinity of both ends of the air hole and forms a certain shape; and
and a covering material that surrounds the inner buoyancy material so as not to be exposed to the outside and is coated so that both ends of the air hole openings are respectively opened toward the outside on one surface.
The installation of the air hole is,
A plurality of installations on at least one surface of the internal buoyancy member so as to be spaced apart at regular intervals, or
After forming air hole block concrete in a hexahedral shape in which the vicinity of both ends protrude from one side by surrounding a portion except for the vicinity of both ends of the air hole, a pocket corresponding to the shape of the hexahedron is formed on one or more surfaces of the inner buoyancy member at regular intervals After forming to be spaced apart, it can be installed by inserting the air hole block concrete into the pocket,
The air hole is
Lower pipe installed below sea level,
upper pipe installed above sea level,
and a connecting pipe connecting the other end of the lower pipe and the other end of the upper pipe,
The connection pipe is installed so that the sea level comes to the central part in the height direction,
When the fluid flows into one of the openings at both ends of the air hole, it flows through the inside of the air hole and then flows out through the other one.
According to claim 1,
The material of the covering material is,
Any one or two or more materials of steel, concrete, PE (polyethylene), and FRP (fiber-reinforced plastic) can be selectively applied.
The method of claim 1,
Among the surfaces of the covering material, in the middle or in the vicinity of the separation distance of each of the openings at both ends,
Both end openings of the air hole protrude toward the opening direction,
Wave impact attenuation type floating pier, characterized in that the projection having a length close to the vertical pipe of the air hole is formed.

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