KR20130062833A - Sea water supplying apparatus for wind turbine installing vessel - Google Patents

Abstract

PURPOSE: A seawater supply device for a wind turbine installation ship is provided to smoothly supply seawater to a cooling system of a wind turbine installation ship by stably submerging a seawater pump under the seawater using a suction mast. CONSTITUTION: A seawater supply device for a wind turbine installation ship comprises a suction mast(10). The seawater supply device supplies seawater to a cooling system of a hull(1) using a seawater pump(15) submerged under the seawater. The suction mast is installed in the hull to be vertically moved. The seawater pump is fixed and installed under the suction mast. Multiple suction holes are formed at the bottom of the suction mast. The seawater pump is arranged adjacent to the suction holes.

Description

SEA WATER SUPPLYING APPARATUS FOR WIND TURBINE INSTALLING VESSEL}

The present invention relates to a wind turbine installation ship, and more particularly, to a seawater supply apparatus of a wind turbine installation ship that can effectively supply seawater to the cooling system side of the hull irrespective of the general navigation mode or jack-up mode of the wind turbine installation ship.

The wind turbine installation ship is a ship for installing the wind turbines at sea, has the capability of operating in the Transit Mode, and lifts the boat above the water at a fixed position to install the wind turbines at sea. Jacking-up Mode, hereinafter referred to as 'jack-up mode' is configured to fix and install a wind turbine.

The wind turbine installation ship may use the coolant to cool the engine and other equipment by suctioning seawater from the sea chest in the normal navigation mode. However, in hull jack-up mode, the sea chest cooling system cannot be operated because the chest is located above the water.

Therefore, in the related art, an air-cooled cooling system or a hose equipped with a submersible pump is used to submerge in seawater to operate a cooling system using seawater.

However, in the case of an air-cooled cooling system, the installation space occupies so much space that the space utilization is lowered in the installation line.In addition, when the hose is used, the hose is shaken due to sea wind or algae, so that the stable water supply is not realized. There was a disadvantage.

In order to overcome the disadvantages of the prior art, the prior art disclosed in the Republic of Korea Patent Application No. 10-2009-129497 (hereinafter referred to as 'prior art') is a submerged containment chamber and submerged installed in the through hole of the vessel to move up and down It consists of a submersible seawater pump that descends through the containment chamber.

However, according to the prior art, the fixing means for fixing the moved position of the submerged containment chamber is not disclosed at all, and because the smooth up and down movement of the submerged containment chamber is not precisely realized, the inhalation of the seawater is not smooth, so that the seawater is efficiently directed to the cooling system. There was a disadvantage that can not supply.

The present invention has been made in view of the above, it is an object of the present invention to provide a seawater supply apparatus of a wind turbine installation ship that can efficiently supply the seawater to the cooling system in the hull in the hull is jack-up lifted state stably. There is this.

According to an aspect of the present invention for achieving the above object, as a seawater supply apparatus of the wind turbine installation ship for supplying seawater to the cooling system of the hull using a seawater pump submersible below the surface, the vertical movement to the hull (1) Including a suction mast (10, suction mast) is installed, the seawater pump 15 is fixed to the lower portion of the suction mast 10, a plurality of suction holes on the lower end of the suction mast (10) 14 is formed, the sea water pump 15 is disposed adjacent to the plurality of suction holes 14; provides a sea water supply apparatus of the wind generator installation line.

A plurality of supports 20 are installed in the jack-up house (2) of the hull (1) spaced apart in the vertical direction; The suction mast 10 is passed through the plurality of supports 20, the It is possible to move through the hull (1), and is fixedly installed on at least part of the support 20 side of the plurality of the support (20);

A pair of teeth 11 are formed symmetrically on both left and right sides of the suction mast 10, and a pair of pinion gears 12 are individually engaged with the pair of teeth 11. The suction mast 10 is moved vertically by the rack and pinion of the pinion gear 12 and the teeth 11.

The tooth portion 11 is composed of a plurality of rollers (11a) are provided on the left and right both sides of the suction mast 10 at regular intervals up and down, the outer diameter of each roller (11a) and the tooth of the pinion gear (12) It is formed in a dimension that can be engaged, each roller (11a) is installed on the left and right both sides of the suction mast 10 via a fixing bracket (11b), the flat surface recessed on both left and right sides of the suction mast (10) 13 is formed, respectively, a plurality of rollers (11a) are provided on each flat surface 13 at regular intervals via the fixing bracket (11b);

Sea water suction pipe (16, 17, 18) is connected to the upper end of the sea water pump (15), the sea water suction pipe (16, 17, .18) is installed in the longitudinal direction in the suction mast (10); It is done.

The seawater suction pipes 16, 17, and 18 are first seawater suction pipes 16 installed in the longitudinal direction inside the suction mast 10, and second sealingly coupled to the lower ends of the first seawater suction pipes 16. A seawater suction pipe (17), the third seawater suction pipe (18) which is sealingly coupled to the lower end of the second seawater suction pipe (17), the seawater pump (15) is sealed at the bottom of the third seawater suction pipe (18) It is coupled to the first, the first sea suction pipe 16 is attached to the inner surface of the suction mast 10, the third sea suction pipe 18 is disposed in the center of the lower portion of the suction mast 10 It is characterized by.

A plurality of connecting pipes 16a are connected in a horizontal direction to one side of the first sea suction pipe 16, and the plurality of connecting pipes 16a are vertically spaced apart from each other in the longitudinal direction of the first sea suction pipe 16. Spaced apart; characterized by.

The plurality of supports 20 are installed on the jack-up house 2 side of the hull 1 spaced apart at regular intervals, and each support 20 moves while the suction mast 10 passes in the vertical direction. It has a through hole 21; characterized in that.

A plurality of guide rollers 22 are rotatably installed on each support 20 through the support bracket 23, and each guide roller 22 is in rotational contact with an outer circumferential surface of the suction mast 10. When the mast 10 passes through the through hole 21 of the support 20 to guide the shangdong.

According to another aspect of the present invention, a seawater supply apparatus of a wind turbine installation vessel for supplying seawater to the cooling system of the hull by a seawater pump submersible under the water surface, the through hole (5) formed in the hull (1) and the The seawater pump 15 is fixed to the lower portion of the suction mast 10 that can move upward and downward through a plurality of supports 20 formed in the jack-up house 2 of the hull 1, and the suction mast 10 ) Is fixed to at least part of the support 20 side of the plurality of supports 20; provides a seawater supply apparatus for a wind turbine installation line.

Sea water suction pipes (16, 17, 18) is connected to the upper end of the sea water pump (15), a plurality of connecting pipes (16a) on one side of the sea water suction pipes (16, 17, 18) spaced apart at regular intervals in the vertical direction Is formed, the connecting pipe (16a) of the housing is connected to the seawater supply pipe 19 of the cooling water tank (6) installed on the hull (1) as the suction mast 10 moves up and down individually It is characterized by;

According to another aspect of the present invention. A seawater supply apparatus of a wind turbine installation ship that supplies seawater to a cooling system of a hull by a seawater pump submersible below the surface, wherein the seam supply device is installed at a lower portion of a suction mast 10 installed on the hull 1 so as to be movable upward and downward. The seawater pump 15 is fixedly installed so that the seawater pump 15 is moved by Shanghaidong of the suction mast 10. Provides a seawater supply apparatus for a wind turbine installation ship.

According to the present invention, by using the suction mast penetrating the hull in the state that the wind turbine installation line is operated in the jack-up mode at a predetermined position of the sea, it is possible to stably submerge the seawater pump under the sea water, thereby The cooling system has the advantage of smoothly supplying seawater.

In addition, the present invention has the advantage that in the normal operation mode of the wind turbine installation ship can move the suction mast to the jack-up house side of the hull up through the support to secure the general navigation mode of the wind turbine installation ship efficiently.

1 is a side view showing a seawater supply apparatus of a wind turbine installation ship according to an embodiment of the present invention.
FIG. 2 is an enlarged view of a portion A of FIG. 1.
FIG. 3 is a front view as viewed from the arrow B direction of FIG. 2.
FIG. 4 is an enlarged view of a portion C of FIG. 3.
5 is a partial cross-sectional view showing a suction mast of the seawater supply apparatus according to the present invention and a state in which a seawater suction pipe and a seawater pump are installed.
FIG. 6 is a cross-sectional view taken along line DD of FIG. 5.
FIG. 7 is a cross-sectional view taken along line EE of FIG. 5.
FIG. 8 is a view along the FF line of FIG. 2.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following examples can be modified in various forms, and the scope of the present invention is not limited to the following examples.

1 to 8 illustrate a seawater supply apparatus of a wind turbine installation ship according to an embodiment of the present invention.

As shown, the seawater supply device of the wind turbine installation ship according to the present invention is a suction mast (10, suction mast) installed in the hull (1), the bottom of the suction mast (10) is fixed to the sea water pump (15) ).

The jack up house 2 is installed on the deck of the hull 1, the jack up house 2 may be formed with a plurality of supports 20 which are spaced apart in the vertical direction, the suction mast (10, suction mast) Adjacent to the jack-up house (2) of the hull (1) can be moved up and down through the hull (1), it is installed to pass through a plurality of supports.

A through hole 5 may be formed adjacent to the jack up house 2, and the suction mast 10 may be installed to move vertically through the through hole 5.

2 to 4, a pair of teeth 11 is formed on both left and right sides of the suction mast 10, and a pair of pinion gear 12 is provided on the pair of teeth 11. Composed individually. Each pinion gear 12 is provided on the upper deck side of the hull 1, and the suction mast 10 moves up and down by the rack and pinion driving of the pinion gear 12 and the teeth 11.

On the other hand, as shown in Figure 4 the teeth 11 may be composed of a plurality of rollers (11a) provided at regular intervals up and down on a part of the left and right sides of the suction mast 10, the outer diameter of each roller (11a) It is formed to a dimension that meshes with the teeth of the pinion gear (12). 6 and 7, the rollers 11a are installed on both left and right sides of the suction mast 10 via the fixing bracket 11b, and flattened on both left and right sides of the suction mast 10. Surfaces 13 are formed, respectively, and a plurality of rollers 11a are installed on the flat surfaces 13 at regular intervals through the fixing brackets 11b.

A plurality of suction holes 14 are formed at the lower end of the suction mast 10, and a seawater pump 15 is disposed inside the lower end of the suction mast 10, and such a seawater pump 15 is provided. Is configured to suck the seawater introduced through the suction hole 14 of the suction mast, the seawater suction pipe (16, 17, 18) is connected to the top of the seawater pump (15), seawater suction pipe (16, 17, 18) Silver is installed in the longitudinal direction in the suction mast (10).

Seawater pump 15 according to one embodiment may be installed on the lower side of the suction mast 10, the seawater pump 15 according to an alternative embodiment is integral to the lower side of the suction mast 10 It may be configured as.

Seawater suction pipe (16, 17, 18) is a first sea suction pipe 16 installed in the longitudinal direction inside the suction mast 10, the second seam suction coupled to the lower end of the first sea suction pipe (16) Seawater suction pipe 17, the third seawater suction pipe 17 is composed of a third seawater suction pipe (18) sealingly coupled to the lower end. 5 to 7, the first seawater suction pipe 16 is installed in a structure attached to the inner surface of the suction mast 10, the seawater pump 15 at the lower end of the third sea suction pipe 18. ) Is hermetically coupled. By this configuration, the first sea suction pipe 16 is in close contact with one side of the suction mast 10, the third sea suction pipe 18 is inclined through the second sea suction pipe 17 is the suction mast 10 By being disposed in the center of the efficient suction of seawater can be made smoothly.

6 to 8 illustrate that the first seawater suction pipe 16 is configured as a rectangular cross-sectional structure, but may be configured as various cross-sectional structures such as a circular cross-sectional structure. 5 and 7, a plurality of connecting pipes 16a are connected to one side of the first sea suction pipe 16 in the horizontal direction, and the plurality of connecting pipes 16a are the first sea suction pipes 16. Spaced apart at regular intervals up and down along the longitudinal direction of), the end of each connecting pipe (16a) is provided with a valve (16b). Thus, when the vertical movement position of the suction mast 10 is determined, the seawater supply pipe 19 may be connected to any one of the plurality of connecting pipes (16a) of the connecting pipe (16a), the seawater pump (15) and The seawater sucked through the seawater suction pipes 16, 17, and 18 may be supplied to the cooling water tank 6 of the cooling system through the seawater supply pipe 19.

At this time, the seawater supply pipe 19 is a flexible hose (flexible hose) so that even if the connecting pipe (16a) does not exactly match the height of the seawater supply pipe 19 to adjust the height of the seawater supply pipe 19 to some extent It is desirable to be able to connect smoothly to the connecting pipe (16a).

In particular, the suction mast 10 and the jack-up house 2 of the present invention may be disposed adjacent to the cooling water tank 6 of the hull so that the seawater supply to the cooling water tank 6 can be more smoothly provided.

5 and 7, openings 10a are formed in sidewalls of the suction mast 10 adjacent to the connection pipes 16a, respectively, and through the openings 10a, the connection pipes 16a are formed. Seawater supply pipe 19 may be connected.

As described above, when the wind turbine installation line is to install the wind turbine at a predetermined position on the sea through the vertically movable structure of the suction mast 10, the suction mast 1 is lifted above the sea water, that is, the suction mast in the jack-up mode. 10 is lowered through the through hole 5 of the hull 1 so that the seawater pump 15 at the lower end of the suction mast 10 can submerge into the seawater to suck the seawater.

The plurality of supports 20 are installed on the jack up house 2 side of the hull 1 at regular intervals up and down, and each support 20 has a through hole 21 through which the suction mast 10 passes. Accordingly, the suction mast 10 may move to the upper side of the hull 1 through the through hole 21 of the support 20.

The suction mast 10 lifted to the upper portion of the hull 1 may be fixed by a fixing unit (not shown) on at least part of the support 20 side of the plurality of supports 20. This is because the suction mast 10 in the normal navigation mode of the hull 1 prevents the resistance from occurring at the bottom of the hull 1 when the hull 1 is operated when the suction mast 10 protrudes below the bottom of the hull 1. It is for lifting 10 to the hull 1 upper part and fixing it to the support 20 side of the hull 1.

The support 20 allows the suction mast 10 to be stably fixed to the hull even when the suction mast 10 is lowered below the seawater.

Then, a plurality of guide rollers 22 are provided on the upper surface of each support 20, and the guide rollers 22 are rotatably installed on the upper surface of each support 20 via the support bracket 23. When the suction mast 10 passes through the through holes 21 of the support 20 through the plurality of guide rollers 22, the shangdong can be stably guided.

The seawater supply apparatus of the wind turbine installation vessel according to another embodiment of the present invention is a seawater supply apparatus of the wind turbine installation vessel supplying seawater to the cooling system of the hull by a seawater pump submersible below the water surface, formed in the hull (1) The seawater pump 15 is fixedly installed in the lower portion of the suction mast 10 which can move upward and downward through a plurality of supports 20 formed in the through-hole 5 and the jack-up house 2 of the hull 1. The suction mast 10 may be fixed to at least part of the support 20 from the plurality of supports 20.

Sea water suction pipes (16, 17, 18) is connected to the upper end of the sea water pump (15), a plurality of connecting pipes (16a) is formed on one side of the sea water suction pipes (16, 17, 18) to be spaced apart in a vertical interval The plurality of connection pipes 16a may be individually connected to the seawater supply pipe 19 of the cooling water tank 6 installed on the hull 1 as the suction mast 10 moves up and down.

That is, the connection tube 16a and the seawater supply pipe 19 near the height of the seawater supply pipe 19 are connected by the movement of the suction mast 10 so that the seawater is supplied to the cooling water tank to cool the hull 1. This can work smoothly.

The seawater supply apparatus of the wind turbine installation vessel according to another embodiment of the present invention is a seawater supply apparatus of a wind turbine installation vessel supplying seawater to the cooling system of the hull by a seawater pump that can be submerged below the water surface, the top and bottom of the hull (1) The seawater pump 15 is fixedly installed at the lower portion of the suction mast 10 which is installed to be movable, so that the seawater pump 15 is moved up and down by the Shanghai-dong of the suction mast 10.

Obviously, the technical configurations applied to the various embodiments of the present invention may be adopted with each other.

According to the present invention, by using the suction mast 10 penetrating the hull in the state in which the wind turbine installation line is operated in the jack-up mode at a predetermined position of the sea, it is possible to stably submerge the seawater pump 15 under the sea water, This has the advantage of smoothly supplying seawater to the cooling system of the wind turbine installation ship.

In addition, the present invention, in the normal operation mode of the wind turbine installation ship to move the suction mast 10 to the jack-up house (2) side of the hull upwards and secured through the support 20 to efficiently proceed the general navigation mode of the wind turbine installation ship There are advantages to it.

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 and scope of the invention will be.

10: Suction Mast 11: Tooth
11a: fixed roller 12: pinion gear
13: recessed flat surface 14: suction hole
15: sea water pump 16: the first sea suction pipe
17: 2nd sea suction pipe 18: 3rd sea suction pipe
19: seawater supply pipe 20: support
21: through hole 22: guide roller
23: support bracket

Claims (12)

It is a seawater supply device of a wind generator installation ship that supplies seawater to the cooling system of the hull by using a seawater pump that can be submerged below the surface.
It includes; a suction mast (10, suction mast) installed to be movable up and down on the hull (1),
The sea water pump 15 is fixed to the lower portion of the suction mast 10, a plurality of suction holes 14 are formed at the lower end of the suction mast 10, the sea water pump 15 is a plurality of Disposed adjacent to the suction hole 14;
Seawater supply apparatus of the wind turbine installation ship, characterized in that. The method according to claim 1,
A plurality of supports 20 are installed spaced apart in the vertical direction in the jack-up house (2) of the hull (1);
The suction mast 10 is movable through the plurality of supports 20 and penetrates the hull 1, and is fixed to at least part of the supports 20 from the plurality of supports 20. Being installed;
Seawater supply apparatus of the wind turbine installation ship, characterized in that. The method according to claim 1,
A pair of teeth 11 are formed symmetrically on both left and right sides of the suction mast 10, and a pair of pinion gears 12 are individually engaged with the pair of teeth 11. The suction mast 10 moves vertically by the rack and pinion of the pinion gear 12 and the teeth 11;
Seawater supply apparatus of the wind turbine installation ship, characterized in that. [Claim 3]
The tooth portion 11 is composed of a plurality of rollers (11a) are provided on the left and right both sides of the suction mast 10 at regular intervals up and down, the outer diameter of each roller (11a) and the tooth of the pinion gear (12) It is formed in a dimension that can be engaged, each roller (11a) is installed on the left and right both sides of the suction mast 10 via a fixing bracket (11b), the flat surface recessed on both left and right sides of the suction mast (10) 13 are respectively formed, and a plurality of rollers (11a) are provided on each flat surface 13 at regular intervals through the fixing bracket (11b);
Seawater supply apparatus of the wind turbine installation ship, characterized in that. The method according to claim 1,
Sea water suction pipes (16, 17, 18) are connected to the upper end of the sea water pump (15), the sea water suction pipes (16, 17, .18) are installed in the longitudinal direction in the suction mast (10);
Seawater supply apparatus of the wind turbine installation ship, characterized in that. [Claim 5]
The seawater suction pipes 16, 17, and 18 are first seawater suction pipes 16 installed in the longitudinal direction inside the suction mast 10, and second sealingly coupled to the lower ends of the first seawater suction pipes 16. It consists of a seawater suction pipe 17, the third seawater suction pipe 18 is sealed to the lower end of the second seawater suction pipe 17,
The seawater pump 15 is hermetically coupled to a lower end of the third sea suction pipe 18, and the first sea suction pipe 16 is attached to an inner surface of the suction mast 10 and the third sea water Suction tube 18 is disposed in the center of the lower portion of the suction mast 10;
Seawater supply apparatus of the wind turbine installation ship, characterized in that. The method of claim 6,
A plurality of connecting pipes 16a are connected in a horizontal direction to one side of the first sea suction pipe 16, and the plurality of connecting pipes 16a are vertically spaced apart from each other in the longitudinal direction of the first sea suction pipe 16. Spaced apart;
Seawater supply apparatus of the wind turbine installation ship, characterized in that. The method according to claim 2,
The plurality of supports 20 are installed on the jack-up house 2 side of the hull 1 spaced apart at regular intervals, and each support 20 moves while the suction mast 10 passes in the vertical direction. Having through-holes 21;
Seawater supply apparatus of the wind turbine installation ship, characterized in that. The method according to claim 8,
A plurality of guide rollers 22 are rotatably installed on each support 20 through the support bracket 23, and each guide roller 22 is in rotational contact with an outer circumferential surface of the suction mast 10. Guiding the shanghai dong when the mast 10 passes through the through hole 21 of the support 20;
Seawater supply apparatus of the wind turbine installation ship, characterized in that. It is a seawater supply device of a wind turbine installation ship that supplies seawater to the cooling system of the hull by a seawater pump submersible below the surface.
Under the suction mast 10 which is movable up and down through the plurality of supports 20 formed in the through-hole 5 formed in the hull 1 and the jack-up house 2 of the hull 1 The seawater pump 15 is fixedly installed, the suction mast 10 is fixed to at least part of the support 20 side of the plurality of supports 20;
Seawater supply apparatus of the wind turbine installation ship, characterized in that. The method of claim 10,
Sea water suction pipes (16, 17, 18) is connected to the upper end of the sea water pump (15), a plurality of connecting pipes (16a) on one side of the sea water suction pipes (16, 17, 18) spaced apart at regular intervals in the vertical direction Is formed, the connecting pipe (16a) of the housing is connected to the seawater supply pipe 19 of the cooling water tank (6) installed on the hull (1) as the suction mast 10 moves up and down individually ;
Seawater supply apparatus of the wind turbine installation ship, characterized in that. It is a seawater supply device of a wind turbine installation ship that supplies seawater to the cooling system of the hull by a seawater pump submersible below the surface.
The seawater pump 15 is fixed to the lower portion of the suction mast 10 installed on the hull 1 so as to be movable upward and downward, so that the seawater pump 15 is moved by the shanghai dong of the suction mast 10. Going to Shanghai;
Seawater supply apparatus of the wind turbine installation ship, characterized in that.

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