KR101803363B1 - Barge for offshore wind tower installation - Google Patents

Abstract

The present invention relates to a barge that can be installed on a barge to allow an offshore wind tower to be erected easily at sea by means of a structure provided on a barge after the assembly of the offshore wind tower is completed.
The barge for installing a offshore wind tower according to the present invention comprises a barrel housing having a flat top surface horizontally and parallel to the water surface and floating on the water surface and having a cut-out portion formed from a central portion to a rear portion in a 'U' shape, A center support having a rod rotatably coupled to each of the housings and a clamp shoe formed at one end of the rod for clamping the offshore wind tower, A rear support platform which is installed on the rear support platform and which supports the lower end of the offshore wind power tower and which is moved left and right with reference to the cutout section, It is wrapped around the outer periphery so that the offshore wind tower is vertically erected And a winch provided with a wire to which the wire is connected.

Description

[0001] Barge for offshore wind tower installation [

The present invention relates to an apparatus for installing an offshore wind tower, and more particularly, to a barge capable of loading an offshore wind tower mounted on the ground and carrying it to a construction site and installing an offshore wind tower on the sea easily. .

Generally, the wind turbine generator is equipped with a windmill on the rotary shaft of the generator, and the wind turbine is rotated by the wind to generate power using the rotational force generated. Such a wind turbine generator should be installed in a place having a strong wind speed to generate a strong rotational force to increase the amount of generated power. Therefore, the wind turbine generator should be installed in a place where there are obstacles affecting wind movement such as mountains and buildings. Thus, many wind turbines are installed on the sea, which are easy to obtain strong winds and have no obstacles to obstruct the winds around. In contrast to the process of constructing a wind tower on land, the construction of a wind tower on the sea requires relatively heavy equipment, manpower, Time is being invested.

The conventional method for installing an offshore wind tower shown in Fig. 1 comprises an offshore wind tower 5 consisting of a tower 1, a nacelle 2, a rotor head 3 and a wind turbine blade 4 The marine wind tower 5, which has been assembled in the sea, carries the components by the outrigger 7 and the submarine 7, It was erected vertically using the crane of the crane line (6) fixed on the surface and installed in the sea. In order to install the offshore wind tower as described above, at least one large crane line determined according to the size of the offshore wind tower must be mobilized. Therefore, these large crane lines must be moved to a construction site located on the sea, The barge had to transport its materials several times to the shore, and the process was complicated, the duration of the work was long, and the expense was also small.

Korean Registered Patent No. 10-1259089 'Ship for installation of maritime facilities' has posted a ship for installation of marine facilities, but it is related to a technique for maintaining the horizontal level of the deck portion provided with a crane. There is no difference from the prior art described above in that the construction is carried out by raising.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above and it is an object of the present invention to provide a wind power tower which is assembled on the ground and horizontally stacked to a construction site, And it is an object of the present invention to provide a barge for installing an offshore wind tower capable of improving the workability and shortening the air space and reducing the reliance on the large crane to reduce construction costs.

As a means for solving the above problems, the barge for installing a offshore wind tower according to the present invention is characterized in that the barge for mounting a wind turbine tower according to the present invention has a flat top surface which is horizontally and horizontally aligned with the water surface, , A housing mounted opposite to both sides of the incision at the central portion of the pants housing, a rod extending to be rotatably coupled to each housing, and a central support having a clamp shoe formed at one end of the rod for clamping the offshore wind tower, A rear support member which is installed opposite to both the left and right sides of the rear end of the pants compartment and which supports the lower end of the offshore wind tower and which is moved left and right with reference to the cutaway portion, And the outer periphery of the lower end of the offshore wind tower rotated by its own weight is supported It includes a winch provided with a offshore wind tower of the wire guide so as to stand vertically.

Preferably, the front support includes a front support which is formed in the vicinity of the forward portion of the incision of the pants housing and supports the upper end of the offshore wind tower when the offshore wind tower is mounted.

Preferably, the rod of the center support includes a central hydraulic cylinder, one end of which is coupled to the housing so as to be rotatable about a central axis, and is configured to be moved along a central axis formed in the longitudinal direction of the rod.

Preferably, the rear support pedestal includes a rear hydraulic cylinder, one end of which is coupled to the upper surface of the pants compartment and is horizontally fixed to the rear support so as to be laterally displaced relative to the incision of the pants compartment.

Preferably, the center support is provided with at least one or more engagement projections formed on the outer side of the housing, and at least one or more projections on the outer circumferential surface of the rod so as to stop the rotation while the off- And at least one stopper interposed between the stopper and the stopper.

According to the present invention, the construction work in which the materials of the offshore wind tower are respectively transported in the sea, assembled in the sea and assembled in the vertical direction by using a large crane line, is installed on the land, It is possible to carry out all the steps from the installation site to the work of erecting directly, so that the construction step is simplified and the equipment to be mobilized is reduced, so that the construction cost can be reduced and the period for the construction can be shortened.

1 is a state diagram showing a conventional method for installing an offshore wind tower.
2 is a perspective view of a barge for installing an offshore wind tower according to an embodiment of the present invention;
3 is a perspective view of a barge for installing an offshore wind tower according to an embodiment of the present invention in which an offshore wind tower is installed.
4 is a perspective view illustrating an intermediate process for vertically erecting an offshore wind tower in a barge for installing an offshore wind tower according to an embodiment of the present invention;
FIG. 5 is a perspective view illustrating a state in which an offshore wind tower is vertically installed on a barge for installing an offshore wind tower according to an embodiment of the present invention; FIG.
FIG. 6 is a view illustrating an operation state of a catching jaw and a stopper in a barge for installing an offshore wind tower according to an embodiment of the present invention; FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It does not mean anything.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator It should be noted that the definitions of these terms should be made on the basis of the contents throughout this specification.

The barge for installing an offshore wind tower according to the present invention can be implemented as follows.

FIG. 2 is a perspective view of a barge for installing an offshore wind tower according to an embodiment of the present invention, and FIG. 3 is a perspective view of a barge for installing an offshore wind tower according to an embodiment of the present invention.

2 to 3, the barge for installing an offshore wind tower according to an embodiment of the present invention is roughly divided into a horizontal section in the form of a U-shape, a cut-out section 110 is formed rearward from the center, A housing 210 mounted to be opposed to both left and right sides of the cutout 110 at the center of the pants housing 100, a rod 220 rotatably coupled to the respective housings 210, A center support 200 formed at one end of the rod 220 and provided with a clamp shoe 230 for clamping the offshore wind tower 5, A rear support table 300 supporting the lower end of the offshore wind tower 5 and moving left and right with reference to the cutout 110 and a rear support table 300 formed on one side of the rear support table 300, (200) by the weight of the rod (220) as a central axis And a winch 400 having a wire 410 wrapped around the outer periphery of the lower end of the rotating offshore wind power tower 5 to guide the offshore wind power tower 5 vertically.

Each of the above-described configurations will be described in detail below.

FIG. 4 is a perspective view illustrating an intermediate process for vertically installing an offshore wind tower in a barge for installing a offshore wind tower according to an embodiment of the present invention, FIG. 5 is a perspective view of a barge for installing a offshore wind tower according to an exemplary embodiment of the present invention, And FIG. 6 is an operating state view of a catching jaw and a stopper in a barge for installing an offshore wind tower according to an embodiment of the present invention.

Referring to Figures 2 to 6,

The pants hanger 100 is a flat bottomed freight carrying barge which is flatly formed horizontally and horizontally with respect to the water surface and has a horizontal cross section that is formed in a U- (110).

The center support 200 supports the load of the offshore wind tower 5 loaded at the center of the pants enclosure 100 and is connected to an offshore wind tower (not shown) The housing 210 is formed to face the left and right sides of the incision 110 on the central portion of the body 100. The housing 210 is rotatably supported by the housing 210, And a rod 220 which is moved to the left and right by a central hydraulic cylinder 222 provided at one end opposite to the cutout 110 and a clamp shaft 220 formed on the rod 220 in the direction of the cut- (230).

The housing 210 is rigidly formed to withstand a high load on the upper surface of the pants housing 100. When the bow of the pants housing 100 is called forward and the stern is called rearward, And it can be realized in various forms applicable to the technical field according to the embodiment to which the present invention is applied.

The rod 220 is configured to penetrate through the left and right portions of the respective housings 210 and to be coupled with the portion coupled to the housing 210.

The clamp shoe 230 is formed at one end of the rod 220 in the direction of the cutout 110 to contact the outer periphery of the middle portion of the loaded offshore wind power tower 5 for clamping on both sides thereof, And is formed in a sufficient area that can be held in contact with the outer periphery. At this time, the protection shoe (230) is provided with a protection material (600) formed of a material that increases the frictional force with a buffering action on a portion where the shore wind turbine (5) is interviewed, so that the clamped portion of the offshore wind tower And the grounding force is increased.

The central hydraulic cylinder 222 is provided at the outer ends of the pair of rods 220 fastened to the respective housings 210 formed opposite to the both sides of the cutout 110 to move the rods 220 to the left and right This is because the rod 220 is moved toward the cutout 110 in order to clamp the offshore wind tower 5 and the rod 220 is moved in the left and right directions away from the cutout 110 To move outwardly.

The rear support platform 300 is formed to be opposed to the stern of the barrel housing 100 at the stern of the barrel housing 100 with the incision 110 therebetween and is moved left and right by the operation of the rear hydraulic cylinder 310, A rack gear coupled with the pinion gear and the pinion gear and connected to the rear support 300 may be used, although not shown in the drawings, to support the lower end of the wind tower 5 to distribute the load May be implemented to support the load by supporting the lower end of the offshore wind tower 5 in various ways applicable in the art according to the embodiment to which the present invention is applied.

In addition, the protection member 600, which has been described above, is provided at a portion where the rear support platform 300 is in contact with the offshore wind power tower 5, thereby preventing damage to the offshore wind tower 5 and enhancing the grounding force.

The winch 410 is formed on the pants housing 100 at a position close to the rear support 300 and winds or unwraps the wire 410 surrounding the outer periphery of the lower end of the offshore wind tower 5.

The front support 500 is formed at the bow of the barrel housing 100 to support the load of the upper end of the offshore wind tower 5 when the offshore wind tower 5 is loaded, The shoe 230 and the rear support 300 together with the protection windshield 600 are provided at a site where they are to be contacted with the offshore wind tower 5.

Referring to FIG. 6, when the catching jaw 211 and the offshore wind power tower 5, which are formed on at least one outside of the housing 210, are rotated to erect the vertical wind direction, 5) at least one stopper 221 formed on the rod 220 so as to limit the amount of rotation to a predetermined angle.

Hereinafter, an example of using a barge for installing an offshore wind tower according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The offshore wind power tower 5 is composed of a tower 1, a nacelle 2 and a wind turbine blades 4 and is a technology for generating electric power by driving a generator (not shown) by the rotational force of the wind turbine blades 4 And the detailed description of the construction and operation thereof will be omitted.

As shown in FIGS. 2 and 3, all parts constituting the offshore wind tower 5 on the land are assembled and then loaded on the pants housing 100 by using a cray or the like. That is, the offshore wind tower 5 is installed on the pants housing 100 so as not to be moved by the front support table 500 mounted on the same center line, and the central support 200 and the rear support 300, Fixed to center of gravity.

The upper end portion of the offshore wind power tower 5 is supported by a front support 500 provided on a bow of the barrel housing 100 and the lower end portion of the offshore wind power tower 5 is supported on the rear portion of the barrel housing 100 And is supported by the support base 300. The middle portion of the offshore wind turbine tower 5 includes a pair of rods 220 driven by the extension of the central hydraulic cylinder 222 included in the central support 200 of the pants 100, And is compressed by the semicircular clamp shoe 230 connected to the rod 220 as it is moved toward the part 110. The lower end of the offshore wind tower 5 is wound around the outer circumference of the lower end of the offshore wind tower 5 by the wire 410 wound by the winch 400 mounted adjacent to the rear support 300.

Thus, it is possible to prevent the offshore wind tower 5 from flowing in the left and right and front and rear directions due to the waves or the like that are loaded on the pants housing 100 and generated during transportation.

At this time, a protection material 600 is provided at a portion of the center support 200, the front support 500, and the rear support 300 to be in contact with the offshore wind power tower 5 to prevent damage to the offshore wind tower 5 can do.

3, the offshore wind tower 5 loaded on the pants housing 100 after being completely assembled on the land is transported along a tug (not shown) pulling the pants housing 100 to the marine place where the construction is performed do.

2 and 4, when the barrel housing 100 on which the above-described offshore wind tower 5 is loaded reaches the sea of the destination, the winch 400 mounted adjacent to the rear support 300 is driven The lower end portion of the offshore wind tower 5 is pulled in the direction of the sea floor by the wire 410 that surrounds the lower end portion of the offshore wind tower 5. That is, at the beginning of the operation of the winch 400, the lower end of the offshore wind power tower 5 is pulled in the direction of the sea bottom by the wire 410, so that the upper end of the offshore wind tower 5 is lifted off the front support platform 500 The lower end of the offshore wind tower 5 is submerged in the water via the cut-off portion 110. At this time, the rear support 300 is moved in a direction away from the incision 110 by the retraction of the rear hydraulic cylinder 310 mounted on the pants housing 100.

Since the rod 220 connected to the clamp shoe 230 pressing the intermediate portion of the offshore wind tower 5 is rotatably coupled to the housing 210 by a bearing (not shown), the offshore wind tower 5 Is rotated in the clockwise direction with respect to the orientation of FIG. That is, the lower end of the offshore wind tower 5 is rotated around the rod 220 by its own weight, and is vertically erected. At this time, the compressed state of the clamp shoe 230 by pressing the middle portion of the offshore wind tower 5 maintains the initial state. When the offshore wind tower 5 is rotated beyond the predetermined angle (90 degrees in the horizontal direction), the stopper 221 formed on the rod 220 is interfered by the engagement protrusion 211 formed on the outer side of the housing 210 do. That is, it is possible to prevent the offshore wind tower 5 from being rotated beyond the predetermined angle (90 degrees in the horizontal direction) by the stopping jaw 211 and the stopper 221.

2 and 5, when the above-described offshore wind turbine tower 5 is rotated in the vertical direction by its own weight, a central hydraulic cylinder (not shown) for pressurizing the clamp shoe 230 and pressing the offshore wind tower 5 222 to reduce the pressing force of the clamp shoe 230. As a result, the offshore wind tower 5 slides along the inner surface of the clamp shoe 230 due to its own weight, and is vertically lowered. That is, it is possible to adjust the descending speed of the offshore wind tower 5 by the pressing force of the central hydraulic cylinder 222 which presses the rod 220.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

1: Tower 2: Nacelle
3: rotor head 4: windmill wing
5: Offshore wind tower 6: Crane line
7: Outrigger 100: Pants Enclosure
110: incision part 200: center support part
210: housing 211:
220: rod 221: stopper
222: Central hydraulic cylinder 230: Clamp shoe
300: rear support member 310: rear hydraulic cylinder
400: winch 410: wire
500: Front support 600: Protection member

Claims (6)

A barge for installing an offshore wind tower composed of towers, nacelle and windmill wings on the sea,
A pants housing on which a flat top surface floats above the water surface and a cut-out is formed from the center to the rear;
A center support unit having a rod rotatably coupled to each of the housings, and a clamp shoe formed at one end of the rod to clamp the offshore wind tower;
A rear supporter installed opposite to both right and left sides of the rear end of the pants compartment to support the lower end of the offshore wind tower and to move left and right with reference to the incision; And
A wire is provided on one side of the rear support and is wrapped around the outer periphery of the lower end of the offshore wind tower rotated by its own weight with the rod of the center support as its center axis to guide the offshore wind tower vertically Including a winch,
Wherein the rod of the center support includes a central hydraulic cylinder whose one end is coupled to the housing so as to be rotatable with respect to the central axis and is configured to be moved along a central axis formed in the longitudinal direction of the rod, Barge for installation.
The method according to claim 1,
And a front support member formed near the forward portion of the incision of the pants housing and supporting the upper end of the offshore wind power tower when the offshore wind power tower is mounted.
delete The method according to claim 1,
Wherein the rear support bar includes a rear hydraulic cylinder having one end connected to an upper surface of the pants housing so as to be laterally moved with respect to an incision of the pants housing and a rear support bar horizontally fixed.
The method according to claim 1,
The center support being formed at least on the outside of the housing; And
At least one or more stoppers are formed on the outer circumferential surface of the rod so as to interfere with and engage with the stoppers so that the offshore wind tower is vertically erected when the rod is rotated to stop the rotation of the offshore wind tower in the vertical direction And the barge for installing the offshore wind tower.
The method according to claim 1,
Wherein the barrel housing is formed in a U-shaped horizontal cross-section.

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