KR101844558B1 - Floating body for floating structure - Google Patents

Abstract

The present invention relates to a floating body for a floating structure, which floats on a sea surface or an inland water surface through self-buoyancy to provide a trail or a moving path or support a marine structure. According to the present invention, the floating body comprises: a buoy unit formed with a buoy floating on a water surface; and a water entering chamber unit individually arranged at an external side of the buoy unit, and reducing a water current provided to the buoy unit to restrict flow occurrence of the buoy unit. The water entering chamber unit has at least one hollow water entering chamber in which flowing water holes interconnected to a hollow portion are formed in an external wall, and each water entering chamber forming each of the water entering chamber unit shields a portion of a water current shock applied to the buoy unit through the external wall. Moreover, another portion of the water current shock is introduced into the inside of the hollow portion through the flowing water holes formed in the external wall to reduce the water current shock. Therefore, flow occurrence of the buoy unit floating on a water surface by the water current shock can be restricted.

Description

{Floating body for floating structure}

The present invention relates to a buoyant body for a watercraft, and more particularly, to a buoyant body for a watercraft, and more particularly to a buoyant body for a watercraft, To a buoyant body for a structure.

Generally, a buoyant body is a buoyant action that floats to the surface of water and is also called a buoy, a buoy, or a buoy.

The buoyant body can be applied to a position indicating the route to assist the safe navigation of the ship and can also be applied to warn the existence of dangerous goods such as reefs and sunken ships, It can be applied not only to indicate the position of an object, but also to fix a net installed for the production of fish, shellfish and algae.

Recently, various structures have been installed on the water through the above-mentioned buoyant body. For example, there are various deck structures such as an anchor deck, a photovoltaic power generator, a cage culture aquarium, a water house, a deck for learning aquatic ecosystem, It is widely used.

As an example of such a case, the prior art registration office 20-0323487 discloses a fishing boat using buoys. The prior art registration office 20-0390426 also discloses a watering apparatus using buoys.

Although the above-mentioned prior arts disclose a fishing boat and a watering mechanism using buoyancy of buoys, they are merely utilizing the basic principle that buoyancy is generated in water because the material of the buoys is lower than the specific gravity of water, It is merely to utilize the features that are gathered and displayed.

In addition, buoys used for decks, buoys, fishing cages, etc. for dealing with aquatic ecosystems are wound around a cylinder-shaped styrofoam with a string, and a plate material of a certain area is placed on the buoys.

Therefore, if there is an influence on the load of the buoy according to the movement of the person, the above-mentioned cylindrical buoy is applied to the cylindrical buoy, so that the load is applied to the buoy when the person is present and the buoy is flooded If there is no person again, the rebound is applied to the buoy as much as the load of the person, and the wave motion is continued. This continuous wave movement significantly reduces the stability and safety of decks, buoys, and cage farming buoys for aquatic ecosystem learning.

Particularly, water houses using buoys, water bridges, decks for water quality management of dams or the lake have always been pointed out as problems due to fluctuations of the waves, that is, waves caused by waves.

KR 10-1563211 B1 KR 20-0323487 U KR 10-0910730 B1

It is an object of the present invention, which is devised to overcome the above-described problems, to provide a watercraft and a watercraft which float on a sea surface or an inland water surface through self buoyancy, By forming the marker structure,

In particular, it is an object of the present invention to provide a buoyant body for a watercraft which can attenuate a watercraft impact due to a wave or a wave to suppress the occurrence of rocking due to pitching or rolling, thereby forming a stable floating state without undue rocking at the water surface.

The above object is achieved by the following constitutions provided in the present invention.

In the buoyant body for an aquatic structure according to the present invention,

A buoy part comprising buoys floating on the water surface;

And an intake chamber portion disposed at an outer side or a lower portion of the auxiliary table portion and including at least one inlet chamber for introducing the ballast water into the hollow portion to suppress the flow of the floating portion by the water flow,

Each of the inlet chambers constituting each of the inlet chamber portions maintains the horizontal position of the buoyant portion by the inflow and discharge of the ballast water introduced into the hollow portion,
Wherein the buoy part comprises a buoy floating on a water surface and a fixed frame fixed to the buoy,
The inlet chamber is connected to the stationary frame through a connection arm and is disposed on the outside of the buoy table.

Preferably, a water hole communicating with the hollow portion is formed on the outer wall of the water intake chamber, and a part of the water flow impact applied to the water surface portion is shielded by the outer wall, and a part thereof flows into the hollow portion through the water hole formed on the outer wall So as to suppress the occurrence of the flow of the floating surface floating on the water surface by the water flow impact.

More preferably, the water intake chamber is formed of a hollow tube which is opened on both sides, and the ballast water introduced into the hollow portion through the water hole formed on the outer wall is discharged through a drain hole formed on both sides.

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In addition, the connection arm is formed of a wire rope capable of bending by twisting a plurality of metal wires, and the connection arm is configured to attenuate an impact due to the water flow transmitted from the water inlet chamber to the fixed frame by self- bending action.

As described above, according to the present invention, the intake chamber portion is disposed outside the sub-table portion to attenuate an impact of water such as waves, waviness, and waves on the sub-table portion to suppress the occurrence of fluctuation due to pitching or rolling of the sub-table portion.

Particularly, the water intake chamber portion is formed of an intake chamber having a plurality of water holes formed in its outer wall, so that only a part of the water flows into the hollow portion through the water hole to attenuate the water flow impact, thereby stably attenuating the water flow impact applied to the water table portion , And the convenience of production is possible.

The inlet chamber is formed with drain holes on both sides thereof, and the water flows into the hollow portion through the water hole formed on the outer wall to the both sides. Therefore, the swinging of the buoyant portion by the water flow can be more stably suppressed.

Therefore, the buoyant body for a watercraft having such an intake chamber portion is prevented from being shaken in a floating state on the water surface, and consequently, the watercraft such as an undulating deck rod, a moving boat, It is possible to support it.

Fig. 1 shows the overall configuration of a submerged water side deck rod employing a buoyant body for a watercraft proposed as a preferred embodiment of the present invention,
FIG. 2 to FIG. 3 are cross-sectional views illustrating an overall configuration of a buoyant body for a watercraft, which is proposed as a preferred embodiment of the present invention,
4 to 5 show the operation state of the buoyant body for a water structure proposed as a preferred embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

Fig. 1 shows the overall construction of a sub-land water deck road deck adopting a buoyant structure for a watercraft proposed as a preferred embodiment of the present invention. Fig. 2 to Fig. 3 show the watercraft deck road proposed in the preferred embodiment of the present invention FIGS. 4 to 5 show the operation states of the buoyant body for a water structure proposed in the preferred embodiment of the present invention. FIG.

The buoyant body 1 for a water structure proposed in the preferred embodiment of the present invention floats on the sea surface or the inland water surface through self buoyancy to provide a walkway or a traveling path or to support the water structure.

As shown in FIG. 1, the buoyant body 1 according to the present embodiment is arranged on the sea surface so that the buoyant body 1 can be moved and the sea floor can be moved.

1 to 3, the buoyant body 1 for the aquatic structure includes a buoy part 10 including buoys 11 to be watered.

The buoy 11 may be a foaming type having a buoyancy by increasing the volume by foaming or a hollow type having a buoyancy formed by forming a hollow portion in the inside with a hermetically sealed body. In the present invention, 11) is adopted.

In the present invention, the ballast water is introduced into the hollow portion of the bottom face, both sides, or both of the bottom face portion 10 to maintain the parallelism of the bottom face portion 10, The buoyant portion 10 is provided with the intake chamber portion 20 for attenuating the impact of the laden water stream so as to suppress the phenomenon of the buoyant portion 10 being rolled or pitched to swing by the water impact caused by wave, Thereby realizing a stable support function of the water structure.

The water intake chamber part 20 includes at least one water intake chamber 21 formed with water holes 21a communicating with the hollow part at its outer wall and water holes 21a And a drain hole 21b for discharging the water introduced into the hollow portion to the outside through the hollow pipe.

In the present embodiment, as shown in FIG. 2, the water intake chamber portion 20 is disposed in each of the four chambers of the buoy portion 10 to attenuate the water flow impact applied to the buoy portion 10 by wave, Thereby preventing the buoyancy of the buoyant portion 10 from being generated by the water flow impact.

4A, an inlet chamber 20 composed of one inlet chamber 21 is disposed on the bottom of the sub-table, and the center of gravity of the buoy is formed at the bottom by the ballast water introduced into the hollow portion of the inlet chamber 21 Thereby suppressing the occurrence of fluctuation of the buoy section 10.

The stationary frame 12 having one or more frame members is provided in the buoys 10 and the intake chamber 20 including the intake chamber 21 is fixed to the outside of the stationary frame 12 Respectively.

The connecting arm 30 is assembled to the stationary frame 12 and the inlet chamber 21 constituting the inlet chamber 20 is disposed at the end of the connecting arm 30, So that the chamber 21 is disposed apart from the outer side of the buoyant portion 10.

At this time, the connection arm 30 is formed of a wire rope in which a plurality of metal wires are twisted, and the connection arm 30 is connected to the water stream transferred from the water intake chamber 21 to the fixed frame 12 by a flexible bending action So as to attenuate the impact caused by the impact.

More preferably, an assembly hole 12a is formed in the lower portion of the fixed frame 12 to allow the connection arm 30 to pass through the connection arm 30, and the connection arm 30 is passed through the assembly hole 12a, The inlet chamber 21 constituting the inlet chamber 20 is fixed to both ends of the connecting arm 30 penetrating the inlet chamber 12a.

The connection arm 30 is supported on the outer wall by a support spring 31 having one end supported by the fixed frame 12 and the other end supported by the intake chamber 21, The strength is reinforced by the reinforcing member 31, and the occurrence of excessive bending can be suppressed.

4B, when the buoyant portion 10 having the inlet chamber 20 disposed on the outer side through the connecting arm 30 is floated on the water surface, the buoyant portion 10 is lifted by the connecting arm 30, The inlet chamber portion 20 formed on the outer side of the buoyancy portion 10 is received on the water surface to secure a stable balance of the buoyancy portion 10 in the forward, backward, left and right directions.

In addition, the water flow impact applied to the buoy section (10) is attenuated to suppress the back and forth and left and right flows of the buoy section (10) floated on the water surface due to the water flow impact.

5, part of the water flow applied to the buoy part 10 is shielded through the outer wall, and part of the water flows into the water hole (not shown) formed on the outer wall 21a into the hollow portion to attenuate the water flow impact.

Thus, the fluctuation phenomenon including the rolling and pitching of the buoyant portion 10 can be minimized by the impact of the water flow generated by the crest, the swell and the wave due to the dispersion action of the water flow impact by the water intake chamber 21 .

Particularly, in the present embodiment, the structure of the water intake chamber 21 constituting the water intake chamber part 20 is improved so that the water flow impact applied to the water intake chamber 21 is gradually dispersed and attenuated, 20 and the buoyant portion 10 are gradually dispersed so as to suppress the occurrence of excessive swinging of the buoyant portion 10 and ensure the durability of the water intake chamber portion 20. [

To this end, in the present embodiment, at least one other pipe 22 having water holes 22a formed in the hollow portion of the water inlet chamber 21 is disposed in a concentric structure.

The water flow introduced into the water inlet chamber 20 is attenuated while passing through the water holes 21a formed in the outer wall of the water inlet chamber 21 and then the water flow is formed in the other pipe 22 disposed in the water inlet chamber 21. [ So that it is gradually attenuated while passing through the water hole 22a.

At this time, a reinforcement spring 24 made of a coil spring is disposed on the inner wall of the other inlet pipe 22, which is arranged concentrically in the inner wall of the inlet chamber or the hollow portion of the inlet chamber 21, So that the strength of the other pipe 22 is reinforced.

A shielding partition wall 23 having a plurality of water holes 23a is disposed on the outer wall of the water intake chamber 21 so that the water flow impact is applied to the shielding partition wall 23 before reaching the outer wall of the water intake chamber 21. [ To be attenuated primarily.

At this time, the water hole 23a formed in the shielding partition 23, the water hole 21a formed in the outer wall of the water inlet chamber 21, and the water hole 22a formed in the other pipe 22 are sequentially smaller in diameter .

That is, the water hole 23a formed in the shielding partition wall 23 has the largest diameter. Next, the diameter of the water hole 21a formed on the outer wall of the water inlet chamber 21 is the next largest, The diameter of the water hole 22a formed in the outer circumferential surface is made smallest.

Therefore, the water flow whose attenuation is primarily affected by the water flow through the shielding partition 23 is secondarily attenuated while passing through the water intake chamber 21 as shown in Figs. 4 to 5, and then the other pipe 22, And is attenuated in a tertiary manner.

As a result, the water flow impact applied to the buoyant portion 10 by the water attenuation action through the water intake chamber portion 20 thus configured is attenuated, so that the buoyant portion 10 floated on the water surface due to the water flow impact is excessively The phenomenon of rocking can be suppressed.

1. Buoyancy structure for aquatic structures
10. Buoyancy section 11. Buoy
12. Fixing frame 12a. Assembly
20. Receiving chamber part 21. Receiving chamber
21a. Water ball 21b. waterspout
22. Offices 22a. Water hole
23. Shielding bulkhead 23a. Water hole
24. Reinforcing spring
30. Connecting arm 31. Supporting spring

Claims (5)

A buoy part comprising buoys floating on the water surface;
And an inlet chamber portion disposed at an outer side or a lower portion of the auxiliary table portion and including at least one inlet chamber for introducing the ballast water into the hollow portion to suppress the flow of the floating portion by the water flow,
Each of the inlet chambers constituting each of the inlet chamber portions maintains the horizontal position of the buoyant portion by the inflow and discharge of the ballast water introduced into the hollow portion,
Wherein the buoy part comprises a buoy floating on a water surface and a fixed frame fixed to the buoy,
Wherein the inlet chamber is connected to the stationary frame through a connection arm and is spaced apart from the outside of the buoy table. [3] The apparatus of claim 1, wherein a water hole communicating with the hollow portion is formed on an outer wall of the water intake chamber,
A part of the water impact applied to the buoy part is shielded through the outer wall and a part of the water impact is introduced into the hollow part through the water hole formed in the outer wall to damp the water flow impact to generate the floating water floating on the water surface by the water impact. Wherein the buoyant body is configured to inhibit the buoyancy. [3] The apparatus of claim 1 or 2, wherein the inlet chamber comprises a hollow tube,
Wherein the ballast water flowing into the hollow portion through the water hole formed in the outer wall is discharged through the drain hole formed at both sides. delete The connector according to claim 1, wherein the connection arm comprises a wire rope capable of being bent by twisting a plurality of metal wires,
Wherein the connecting arm is configured to attenuate an impact due to the water flow transmitted from the water inlet chamber to the fixed frame by self bending action.

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