KR101640041B1 - Jack-up house for wind turbine installation vessel - Google Patents

Abstract

The present invention relates to a jack-up house for an offshore wind turbine installation dedicated line, and more particularly, to a jack-up house for a marine wind turbine installation dedicated line in which a ring is formed outside a lift space of a leg so as to safely supply hydraulic pressure to the jack.
The present invention relates to a jack-up house for a dedicated line for installing an offshore wind power generator, comprising: a lifting and lowering space extending from a lower portion of an upper deck to an upper portion of an upper deck so as to guide a leg for fixing a dedicated line for installing the off- A horizontal fixed cylinder formed in the elevating space of the upper deck to fix the legs; A guide frame formed in the lifting space and guiding the legs; A jack for raising and lowering the guide frame; And a ring formed outside the elevating space for distributing and supplying the hydraulic pressure to the jack and the horizontally fixed cylinder.

Description

{Jack-up house for wind turbine installation vessel}

The present invention relates to a jack-up house for an offshore wind turbine installation dedicated line, and more particularly, to a jack-up house for a marine wind turbine installation dedicated line in which a ring is formed outside a lift space of a leg so as to safely supply hydraulic pressure to the jack.

If the atmosphere does not exist, the Earth will emit light energy from the sun, so the average surface temperature is -20 ° C. However, because of the atmosphere, the long wavelengths of light received from the sun can not be released to the outside, but are absorbed into the atmosphere and increase the momentum of gas molecules, so the average temperature of the surface rises to 15 ° C.

However, as the industry develops in recent years, the use of fossil fuels such as petroleum and coal increases, and the forests are destroyed in order to secure agricultural land, and the amount of carbon dioxide that causes greenhouse gas is rapidly increasing, and global warming is accelerating.

Accordingly, the international community has been regulating the amount of greenhouse gas emissions from each country through various international agreements in order to prevent disasters such as weather changes due to global warming.

In order to reduce the amount of greenhouse gases, researches on alternative energy replacing fossil fuels are being actively carried out.

Solar power generation, tidal power generation, geothermal power generation, wind power generation, and the like are being carried out using the natural environment as the alternative energy.

In particular, wind power generation is a pollution-free energy source.

In addition, the wind turbine generator is simple in construction and installation, easy to operate and manage, and can be operated unmanned and automated.

Due to these advantages, wind power generators with 32,154MW capacity are operating as of the end of 2002 worldwide.

A suitable place for installing the wind power generator is a place where the wind speed is fast and the direction is constant according to time and season because the wind power uses wind power.

Therefore, in the past, wind turbines were mainly installed on land, but there is a limit to the aesthetics and places on the land, and wind turbines are being built on the sea because the wind speed is relatively smaller than the sea.

However, it has become necessary to construct special methods for landing wind turbines at the same height as blades or installing them at high positions.

Barges equipped with a crane are used as equipment for transporting and installing wind power structures. Barges are generally designed for use in the installation of wind power generation structures. Therefore, problems such as overturning of the wind power generation structure can not be overcome .

In order to prevent the ship from moving during the installation of the wind power structure, the legs must be fixed on the bottom of the vessel and the bottom of the sea floor firmly.

A jack-up house is needed to lift and maintain these legs.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and has a guide frame for guiding legs and a horizontal fixing cylinder for fixing the legs, so that the legs can be safely lifted and secured to the sea floor, It is intended to provide a jack-up house.

Further, according to the present invention, since the ring is formed outside the elevating and lowering space to distribute and supply the hydraulic pressure to the jack and the horizontally fixed cylinder, it is possible to prevent the cutting of the hydraulic line, .

Further, it is an object of the present invention to provide a jack-up house for installing an offshore wind turbine generator installed on an offshore wind power generator, which is installed as an upper guide frame and a lower guide frame and can prevent the legs from tilting to one side.

Further, the present invention aims to provide a jack-up house dedicated to installing an offshore wind power generator which can reliably cope with an emergency even when the ring is composed of three stages of an upper ring, a middle ring and a lower ring.

Further, according to the present invention, since the upper and lower jacks are provided for each of the six jacks, the guide frame can be kept horizontal so that the upper and lower ends of the guide frame can be prevented from being damaged by contact with the legs, The purpose is to provide.

Further, it is an object of the present invention to provide a jack-up house dedicated to installing an offshore wind power generator having a structure that is mechanically very stable because three horizontal fixed cylinders are installed.

The present invention relates to a jack-up house for a dedicated line for installing an offshore wind power generator, comprising: a lifting and lowering space extending from a lower portion of an upper deck to an upper portion of an upper deck so as to guide a leg for fixing a dedicated line for installing the off- A horizontal fixed cylinder formed in the elevating space of the upper deck to fix the legs; A guide frame formed at upper and lower portions of the upper side lifting and lowering space of the horizontal fixed cylinder and guiding the legs; A jack for vertically connecting and fixing the guide frame to the guide frame; And a ring formed outside the elevating space for distributing and supplying the hydraulic pressure to the jack and the horizontally fixed cylinder.

Wherein the guide frame comprises an upper guide frame and a lower guide frame provided in a vertical direction with respect to a central axis of the up / down space, the jack including an upper jack for lifting the upper guide frame, .

The ring preferably comprises an upper ring for supplying hydraulic pressure to the horizontal fixed cylinder, an intermediate ring for supplying hydraulic pressure to the upper guide frame, and a lower ring for supplying hydraulic pressure to the lower guide frame.

In addition, the upper jack and the lower jack are preferably installed in each of six pieces.

It is preferable that three horizontal fixing cylinders are provided.

Therefore, the jack-up house for the installation of the offshore wind turbine generator according to the present invention includes the guide frame for guiding the legs and the horizontal fixing cylinder for fixing the legs, so that the heavy legs can be safely lifted and fixed to the seabed.

Further, according to the present invention, since the jack-up house for exclusive use for installing the offshore wind power generator forms a ring outside the elevating and lowering space for distributing and supplying the hydraulic pressure to the jack and the horizontal fixed cylinder, it is possible to prevent the cutting of the hydraulic line, .

Further, the jack-up house for the installation of the offshore wind turbine generator according to the present invention is provided with an upper guide frame and a lower guide frame, so that the legs can be prevented from being tilted to one side.

In addition, the jack-up house for exclusive use for installation of offshore wind turbine generator according to the present invention can reliably cope with emergencies because the ring is composed of three stages of an upper ring, a middle ring and a lower ring.

In the jack-up house for a marine wind power generator installation line according to the present invention, the upper jack and the lower jack are installed for each of the six jacks, so that the guide frame can be kept horizontal so that the upper and lower ends of the guide frame can be prevented from being damaged by contact with the legs .

Further, in the jack-up house for the installation of the offshore wind turbine generator according to the present invention, three horizontally fixed cylinders are installed, which provides a mechanically very stable structure.

1 is a perspective view showing a jack-up house of a dedicated line for installing an offshore wind power generator according to an embodiment of the present invention.
2 is a plan view showing a lower guide frame and a horizontal fixed cylinder installed in a jack-up house of a dedicated line for installing a offshore wind power generator according to an embodiment of the present invention.

Hereinafter, a jack-up house dedicated to installing an offshore wind power generator according to an embodiment of the present invention will be described with reference to the accompanying drawings.

In an exclusive line for installing a offshore wind power generator according to an embodiment of the present invention, an upper deck and an intermediate deck are formed.

The jack-up house of the dedicated line for installing an offshore wind power generator includes a lift space 30 extending to the lower portion of the middle deck and the upper portion of the upper deck so as to guide the legs R for fixing the dedicated line for installing the wind turbine generator on the seabed, A horizontal fixing cylinder 42 formed in the elevating space 30 of the upper deck to fix the leg R and an upper and a lower part of the upper side elevating and lowering space 30 of the horizontal fixing cylinder 42 Guide frames 40 and 50 formed to guide the legs R and composed of an upper guide frame 40 and a lower guide frame 50 and upper ends connected to the guide frames 40 and 50, The upper jack 60 and the upper jack 70 are provided with jacks 60 and 70 made up of an upper jack 60 and a lower jack 70 provided to raise and lower the frame, And includes rings 80, 82, 84 for distributing and supplying.

The lifting and lowering space 30 should extend from the upper part of the upper deck to the lower part of the middle deck so that the legs R can move to the upper part of the upper deck and the lower part of the middle deck.

The guide frames 40 and 50 are installed in the lifting and lowering space 30 as a device for fixing the legs R. The upper guide frame 40 and the lower guide frame 50 are moved up and down with respect to the center axis of the lifting and lowering space 30 in order to prevent the legs R from being turned to one side, As shown in Fig.

The horizontal fixed cylinder 42 is formed in the elevating space 30 of the upper deck as a cylinder which presses the center R toward the center to fix the legs R. Preferably, the horizontal fixing cylinders 42 are mechanically stabilized and fixed three at intervals of 120 degrees.

The jacks 60 and 70 are provided to raise and lower the guide frames 40 and 50 and are installed outside the outer circumferential surfaces of the guide frames 40 and 50 so as not to interfere with lifting and lowering of the guide frames 40 and 50. The jacks 60 and 70 include an upper jack 60 for raising and lowering the upper guide frame 40 and a lower jack 70 for raising and lowering the lower guide frame 50. The upper and lower ends of the guide frames 40 and 50 are in contact with the legs R to be damaged or damaged due to the fact that the upper and lower jacks 60, Can be prevented.

The rings 80, 82 and 84 are provided to distribute and supply the hydraulic pressure to the jacks 60 and 70 and the horizontal fixed cylinder 42 and prevent the legs R and the guide frames 40 and 50 And is formed on the outside of the lifting and lowering space (30). The rings 80, 82 and 84 include an upper ring 80 for supplying hydraulic pressure to the horizontal fixed cylinder 42, an intermediate ring 82 for supplying hydraulic pressure to the upper jack 60, And a lower end ring 84 for supplying hydraulic pressure to the hydraulic cylinder 70. The rings 80, 82, and 84 are composed of the upper ring 80, the intermediate ring 82, and the lower ring 84, so that they can be flexibly coped with in an emergency.

30: lift-up space 40: upper guide frame
42: Horizontal fixed cylinder 50: Lower guide frame
60: upper jack 70: lower jack
80: upper ring 82: middle ring
84: Lower ring R: Leg

Claims (5)

In the jack-up house for the installation of offshore wind turbine generator,
An elevating space extending from a lower portion of the upper deck to an upper portion of the middle deck so as to guide the legs for fixing the dedicated line for installing the offshore wind turbine generator to the sea floor in a vertical direction;
A horizontal fixed cylinder formed in the elevating space of the upper deck to fix the legs;
A guide frame formed at upper and lower portions of the upper side lifting and lowering space of the horizontal fixed cylinder and guiding the legs;
A jack for vertically connecting and fixing the guide frame to the guide frame;
And a ring formed outside the lifting and lowering space to distribute and supply the hydraulic pressure to the jack and the horizontal fixed cylinder.
The method according to claim 1,
The guide frame is composed of an upper guide frame and a lower guide frame arranged in the vertical direction with respect to the central axis of the up / down space, and the jack includes an upper jack for lifting the upper guide frame and a lower jack for lifting / lowering the lower guide frame And a jack-up house for a dedicated line for installing a offshore wind power generator. The method of claim 2,
Wherein said ring comprises an upper ring for supplying hydraulic pressure to said horizontally fixed cylinder, an intermediate ring for supplying hydraulic pressure to said upper guide frame, and a lower ring for supplying hydraulic pressure to said lower guide frame Leased line jack-up house.
The method of claim 2,
Wherein the upper jack and the lower jack are installed at six each.
The method according to claim 1,
Wherein the three horizontally fixed cylinders are installed.

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