FLOATING STRUCTURE HAVING VARIABLE WEIGHT TANK

Hereinafter, reference to drawing with an according to an embodiment of the present invention configuration and. rapidly and to reduce a memory against the operation. A claimed hereinafter patent description of aspects of the present invention (aspects) is one, of the following description the clamper detailed the present invention may form part.

Just, the present invention describes the publicly known write test by data writing to a for configurations or a as specific for to clear the present invention can be omitted.

Various modification of the present invention refers to various that can apply the active mode, and for conserving may include in the embodiment, specific drawing illustrated in the embodiment are defined in the description are disclosed and. described. However, this is the present invention with a particular embodiment of the physical shape not defined to be, included within the scope of the present invention all changing a concept and techniques, including replacement water and equalization should understood.

Number 1, number 2 including a ordinal number signifies such as various elements term provided to permit more accurate may be used; however, such the term corresponding components are not limited to, by. Is terms are in the other one of the configurations an object from said components is carried out by using an acidulous only.

The present application only a term use in a particular embodiment used to describe the thereby, the cold air flows are added, is not intending to be defining the present invention. Contextually representation a plurality of differently it is apparent that without the carelessly, includes multiple representations.

Hereinafter, reference to drawing with an described the focuses of the present invention embodiment.

and a perspective view indicating structure floating also Figure 1 shows a, Figure 2 shows a floating structure is indicative of the state propped up of side view, one embodiment according to Figure 3 of the present invention outlines structure composite building is indicative of the side of Figure 1.

Also 1 to also as shown in 3, hull according to an embodiment of the present invention (100) weight a ship with reduced frictional resistance than the second floating structure (100) and a, leg (200) and variable weight tank (300) may comprise an.

Wherein, provided wind power generator structure floating ship (WTIV, Wind Turbine Installation Vessel) or propped up platform (Jack-up Platform) which may be, the present in the embodiment as a ship installed generator the wind structure diffusion device is, for example, a the described example. However, idea of the present invention which not limited to, the after alcoholic beverage it will do propped up mode floating structure all rights can be included within the scope of the present invention.

Specifically, said hull (100) the rectangular geographical regions, and may have a plane structure, general two l/l (e.g.: seaports) height having a broader width compared to a low length may be formed as structure. However, the persons can just which is an exemplary, hull idea of the present invention according to (100) has legs (200) may be installed any material may have a steric structure.

Said hull (100) according to function of structure float blood property (2) can be loaded with.. Hull (100), which are part of an generator offshore wind the, blades and nacelle, tower and the like blood property (2) which can be loaded as, blood property (2) a hull (100) to secure a bottom loading unit substantially in (12) can be is provided.

Furthermore, hull (100) a propellant for controlling location and the device (not shown) may be provided with, hull (100) nacelle and the blade, such as tower blood property (2) the offshore wind generator crane the stopping hole to be able to (40) can be is provided.

Furthermore, also 2 as shown well to said leg (200) the hull (100) vertically moving the, leg (200) at a lower part of the sputter [...] (210) can be equipped by..

Leg (200) the on a seabed for improving support during the seafloor for topography tailored leg (200) of which the height and support structure connected to each other.. Said leg (200) has hull (100) vertically penetrates is made, task status hull to (100) such a degree that it can withstand a load acting on the rigid which has, cylindrical, square truss structure, triangular truss structure nor the various forms may be formed as.

Furthermore, said leg (200) is a spur [...] (210) a floating structure pile anchor for fixing a configuration, propped up mode a seabed can be allow deep penetration of the constant. Sputter said [...] (210) legs (200) is connected to the lower end of, floating structure according to the control of constitution: at a rate impermeable. Sputter [...] (210) legs (200) stable for fixing a leg (200) of said surface being larger than the a plane of a plane is formed such that they have a.

Sputter said [...] and propped up mode (210) is on a seabed fix the, also hull as shown in 2 (100) from the a-holes are provided in an the guide rail, and necessary can, the sputter [...] (210) is fixed when the sea-ground is to be soft ground leg one of (200) is fast-constant amount of ink and is mounted a seabed is a key rather than the, abalone structure floating result can be.

Therefore, chip selection signal is enabled when performing mode propped up in soft ground hull (100) from the-holes are provided in an prior to said variable weight tank (300) the depression to which is likely can be sufficient state that a bending load is applied.

Sufficient state that a bending load is applied to leg order (200) and a sputter [...] (210) and is received and a digital-a state that a bending load is, for this purpose hull (100) provided on the ballast tank water to fully filled hull (100) can be increasing the weight of the. However using the ballast tanks hull (100) of increasing weight very finite CDK leg (200) and sputter [...] (210) discharged air from the first drying portion load delivered to silver not, the present embodiment relate state that a bending load is applied sufficient in pre-load a variable a weight tank (300) is provided in a.

Said variable weight tank (300), as required said hull (100) may be affixed to, variable weight tank (300) the flooding predetermined the interior of said hull (100) can be increasing the weight of the.

Specifically, said leg (200) and sputter [...] (210) large loads as if they need communicate to said hull (100) coupled to a variable weight tank (300) hull by flooding to (100) and produces a luminance overall weight of, the ship body (100) weight of legs (200) and sputter [...] (210) is transmitted to the solenoid housing and the ground is soft ground are later sufficiently loose to prevent depression can be.

Said variable weight tank (300) enables to obtain the implantation of one side of the water may be formed is a variable weight tank (300) end portion of the injection water can be discharged from the crystal growth can be formed a center axis is installed in. Variable weight tank (300) filled in the water around the perimeter cannot is restricts forward power control in obtained sea water for less can be used.

When water, hull (100) provided on the ballast tank hull implanted into the water content on the equilibrium (100) with a leg while hull (100) coupled to said variable weight tank (300) filler port through sea water by. can be injected.

Furthermore, propped up mode is terminated or navigation mode hull has a predetermined speed proportional to an (100) the hull water equilibrium (100) and suspending the variable weight tank (300) opening the vents in variable weight tank (300) injected into external sea water for less recorded in the machining program to exit the hull (100) can be reduced weight of.

Hereinafter, also 6 also to 4 according to one embodiment of the present invention reference to a variable weight tank relates to floating structure.

According to one embodiment of the present invention Figure 4 shows a also dovetail structure of composite building outlines and plane view indicative of the, variable hull and Figure 5 in Figure 4 indicating a choice is coupled tank weight is side view, Figure 6 shows a modified outlines thereby, the cold air flows is indicative of the plane of Figure 4.

4 as shown in also first, said variable weight tank (300) and said hulls (100) such as the aired the dove tail shape dovetail (Dove Tail) structure can be interconnected by a. Dovetail structure, groups, or with an, by solidifying a catalyst using a groove are practically non-separated inserted on top of each other and combined to the composite yarn is retained as structure to prevent ease of separating the convenience to by solidifying a catalyst using a. tilted surface is formed like. Dovetail structure pre defined agent program provided for the shape provided is dispensed a further described.

Specifically, said variable weight tank (300) one side of the dovetail the adjacent finger has a conducting housing outwardly (310) is formed, said hull (100) variable weight tank (300) where surface facing the protrusions (310) the one arm of the correspondence with a hull (100) into an engagement groove is recessed in (110) can be formed is.

Also 4 the variable weight tank (300) projections (310) which is configured to be is, said hull (100) engagement grooves (110) is formed is shown but, to a modem is an exemplary and visa versa to said hull (100) projections is formed said variable weight tank (300) to form coupling recess to to embodiment may be loaded with.

In addition also 4 and 5 as shown in said protrusions (310) touch the engagement groove (110) inside protrusions (310) bag easily penetrated by each other ball bearing or roller bearing (120) .can be provided. Said ball or roller bearing (120) may be provided with predetermined the passageway a distance from the light can be disposed apart from one. Thus said variable weight tank (300) the ridges of (310) is hull (100) coupling groove (110) first controller is connected with the when protrusions (310) and a coupling groove (110) between reducing the friction of the boss part (310) is an engagement groove (110) can be easily inserted in.

Said variable weight tank (300) is hull (100) having a dovetail when first controller is connected with the projections since shape self (310) is an engagement groove-enters the horizontal direction (110) coupled to since it is impossible to, said protrusions (310) the engagement groove (110), on an upper portion of the. can be fitted in a downward direction.

Said protrusions (310) in the upper engagement groove (110) and a door fittable to said hull (100) has balanced-temperature water down into predetermined depth from the through-holes are provided in an to a state where, protrusions (310) is an engagement groove (110) is placed at the location, which fits into a hull surface (100) the hull water equilibrium (100) a suspended.

Hull (100) in the flotation is said protrusions (310) the engagement groove (110) is formed hull with (100) where it is heated by moving that finger or post toward the bottom of, the protrusions (310) in order to reduce the impact with said engagement groove (110) is formed hull with (100) bottom part of a shock absorber means (S) .can be provided.

Shock absorber (S) means a variable weight tank (300) is an engagement groove (110) formed on a lower portion of hull with (100) with the sole directly as to avoid the collision of an for, impact dampening member e.g., rubber or elastic and such can be used.

In addition said protrusions (310) and a coupling groove (110) also the dog, as shown 4 to 1 may be provided but variable weight tank (300) and said hulls (100) also to cohesion as shown in 6 said variable weight tank (300) and said hull (100) respectively can be provided one or more 2.

Hereinafter, also 7 and 8 reference to other embodiment of the present invention described the focuses.

According to other embodiment of the present invention Figure 7 shows a also outlines structure composite building indicative of the and plane view, Figure 8 in Figure 7 hull and variable weight tank is coupled is side indicating a choice.

Also as shown in 7, said hull (100) in said variable weight tank (300) on both sides of point variable weight tank (300) the guide part and with the center of the pulling head (150) can be is provided.

Said guide section (150), for example a separate bolt, (b) engaging means through said hull (100) removably attachable to which may be releasably bound through which the welding may be provided.

Specifically, said guide section (150) tapered predetermined table apparatus of wire bonder (151) is may be formed, said tapered portion (151) generates a variable weight tank (300) has a value of a range of variable weight tank with the center of the pulling head (300) is hull (100) of correctly outputs a relay driving signal. can be fitted.

Furthermore, said guide section (150) inside elastic member (152) which can be mounted to the valve, said elastic member (152) has hull (100) for transmitting the variable weight tank (300) is guide section (150) and an impact being damaged to prevent elastic strainable member e.g., Mastermatch synthetic rubber or can be such as.

Also as shown in 8, variable weight tank (300) facing a hull, (100) the vertical wall an entry a variable weight tank (300) to cushion the impact with a shock buffering means (S) .can be provided. Said variable weight tank (300) is guide section (150) is guided by hull while (100) the hull for the input unit is engaged with a (100) when changing to a predetermined position of variable weight tank (300) has hull (100) vertical wall can be impinged upon the active mode, and for conserving, in the event of a collision hull (100) and variable weight tank (300) and thereby preventing damage to the impact in order to reduce the hull (100) vertical wall (S) means shock absorber. can be provided.

On the other hand, said variable weight tank (300) with the center of the pulling head is completed variable weight tank (300) is hull (100) of their arrival at locations variable weight tank (300) has hull (100) have to be joined to the active mode, and for conserving, said hull (100) and variable weight tank (300) for a separate connecting member (160) may be connected to through.

Said connecting member (160) a side of hull (100) located and the other side with a first variable weight tank (300) to the signal from the collision sensor, e.g. bolt, a fastening member is fixed to the mediated said variable weight tank (300) and said hulls (100) can be integrally joined a.

Or more, using the present invention a preferred embodiment disclosed but thereby, the cold air flows, the particular described range rights of the present invention embodiment are not limited aspect, typically encountered in the art having knowledge of grow replacement and component 162 within the range of the present invention capable of changing bar, is. belonging to rights in addition of the present invention.