CN107600351B

CN107600351B - Anti-shaking device for offshore wind power operation and maintenance ship and wind power operation and maintenance ship

Info

Publication number: CN107600351B
Application number: CN201710666681.9A
Authority: CN
Inventors: 杨文献; 魏克湘; 李学军; 周舟
Original assignee: Hunan Institute of Engineering
Current assignee: Hunan Institute of Engineering
Priority date: 2017-07-19
Filing date: 2017-08-07
Publication date: 2020-04-07
Anticipated expiration: 2037-08-07
Also published as: CN107600351A

Abstract

The invention discloses an anti-swing device for an offshore wind power operation and maintenance ship, which comprises an installation frame, a heave plate and a pushing assembly, wherein the heave plate and the pushing assembly are installed on the installation frame, the pushing assembly comprises a push rod and a driving device, the heave plate is fixed at one end of the push rod, the other end of the push rod is connected with the driving device, the driving device drives the push rod and the heave plate to do linear reciprocating motion, and the motion direction of the push rod is parallel to a side plate of a ship body. The invention also provides a wind power operation and maintenance ship, wherein the anti-rolling devices are respectively arranged on two sides of the bow and the stern of the operation and maintenance ship, the mounting frame is perpendicular to the side plates of the ship body of the operation and maintenance ship, and one end of the mounting frame penetrates through the ship body to be fixed. The anti-swing device for the offshore wind power operation and maintenance ship and the wind power operation and maintenance ship have the advantages of simple structure, economy and reliability, no need of large-scale structural transformation on the small wind power operation and maintenance ship, no influence on the rotation operation flexibility of the operation and maintenance ship, and convenient deployment on the small wind power operation and maintenance ship.

Description

Anti-shaking device for offshore wind power operation and maintenance ship and wind power operation and maintenance ship

Technical Field

The invention relates to the technical field of offshore wind power operation and maintenance ships, in particular to an anti-swing device for an offshore wind power operation and maintenance ship and the wind power operation and maintenance ship.

Background

With the rapid development of the offshore wind power industry worldwide, more and more large wind turbine generators will be deployed offshore far from land. However, due to the influence of severe sea climate, inconvenient transportation and operation, the operation and maintenance efficiency of the offshore wind turbine is relatively lower than that of the onshore wind turbine. This also results in considerable maintenance and operation costs for offshore wind turbines, which in some way limits the rapid development of offshore wind power. Particularly, compared with onshore wind power, the offshore wind power generation system is influenced by severe offshore weather, and the operation and maintenance time window of an offshore wind power plant is very narrow, so that how to greatly improve the operation and maintenance efficiency of offshore wind power to realize rapid professional maintenance of offshore wind power generation equipment becomes an important link for ensuring safe and efficient production of offshore wind power in the future, and a wind power operation and maintenance ship is the most critical core equipment in the link. Therefore, along with the rapid development of the offshore wind power industry, the market of offshore wind power operation and maintenance ships can be greatly opened at home and abroad.

The offshore wind power operation and maintenance ship can be roughly divided into the following parts according to different functions: (1) a common operation and maintenance ship; (2) a professional operation and maintenance ship; (3) an operation and maintenance mother ship; (4) self-elevating operation and maintenance ship. The operation and maintenance mother ship and the self-elevating operation and maintenance ship are mainly used for storing, hoisting and replacing large parts (such as gear boxes, generators, blades and the like) of the wind generating set, so that the operation and maintenance ship generally has stronger hoisting and self-sustaining capabilities and also has very good wave resistance and wind wave resistance. However, such operation and maintenance vessels are expensive to use (or rent) and even comparable to the cost of offshore wind-powered installation vessels.

In addition, especially in humid and highly corrosive marine climates, the reliability of large parts (such as gear boxes, generators, blades and the like) of the offshore wind turbine is far higher than that of electronic components of an electric control system of the wind turbine, and frequent maintenance is generally not needed. Therefore, in the operation and maintenance practice of offshore wind power, the most frequently used are ordinary operation and maintenance ships and professional operation and maintenance ships which mainly have the task of rapidly transporting operation and maintenance personnel and small-sized parts. The two kinds of operation and maintenance ships have the characteristics of small size, economical use and convenience, and do not need to be used for storing, hoisting and replacing large parts of the wind generating set, so that the two kinds of operation and maintenance ships do not have strong hoisting capacity generally, and do not need to have too strict requirements on the dynamic stability. As such, in addition to the conventional ballast load of the hull and the stable design of the bilge keel, more advanced dynamic stabilization devices such as expensive fin stabilizer, tank stabilizer, high-speed gyroscope, etc. are not installed on these small wind power operation and maintenance ships.

In recent years, offshore wind power operation and maintenance practices at home and abroad show that due to poor motion stability of the small wind power operation and maintenance ships, when the small wind power operation and maintenance ships are used for offshore operation and maintenance, the ships often have difficulty in moving back and forth and carrying parts between the operation and maintenance ships and a fan bearing platform due to unstable ship bodies, even severe accidents such as damage or casualties of the parts occur, and the efficiency and the cost of offshore wind power operation and maintenance are seriously influenced. Therefore, how to improve the dynamic stability of the small-sized offshore wind power operation and maintenance ship during operation to the maximum extent without greatly increasing the capital investment is an urgent need for improving the safety level of the offshore wind power operation and maintenance operation and the efficiency of the offshore wind power operation and maintenance.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the technical problems in the prior art, the invention provides the anti-swing device for the offshore wind power operation and maintenance ship and the wind power operation and maintenance ship, which have the advantages of simple structure, economy and reliability, no need of large-scale structural transformation on the small wind power operation and maintenance ship, no influence on the flexibility of rotation operation of the operation and maintenance ship, and convenient deployment on the small wind power operation and maintenance ship.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

the utility model provides an anti-device that shakes for marine wind power fortune dimension ship, includes the mounting bracket, swings board and promotion subassembly, the mounting bracket is installed in the outside of hull, swing board and promotion unit mount on the mounting bracket, the promotion subassembly includes push rod and drive arrangement, swing the one end that the board is fixed in the push rod perpendicularly, the other end and the drive arrangement of push rod are connected, drive arrangement drives the push rod and swings the board and make sharp reciprocating motion with hanging down, the direction of motion of push rod is on a parallel with the hull curb plate.

As a further improvement of the above technical solution:

the driving device comprises a hydraulic motor and a hydraulic cylinder which are connected, one end of the push rod is arranged in the hydraulic cylinder, the hydraulic motor controls the pressure in the hydraulic cylinder to drive the push rod to slide, and the hydraulic cylinder is divided into an upper oil cavity and a lower oil cavity by the push rod.

The driving device further comprises an oil storage tank, the top end of the oil storage tank is connected with an upper oil port on the top end of the hydraulic cylinder through a first oil pipe, and the bottom of the oil storage tank is connected with a lower oil port on the lower end of the hydraulic cylinder through a second oil pipe.

The first oil pipe is provided with a two-way electromagnetic valve, and the second oil pipe is provided with a one-way electromagnetic valve.

The hydraulic motor is connected with an upper oil cavity of the hydraulic cylinder through a first control pipe, and the hydraulic motor is connected with a lower oil cavity of the hydraulic cylinder through a second control pipe.

The second control pipe is connected with a second oil pipe, and a two-way electromagnetic valve is arranged on the second oil pipe and positioned between the second control pipe and the hydraulic cylinder; the first control pipe is provided with a two-way electromagnetic valve.

The swing plate is a circular plate, the swing plate is perpendicular to the push rod and fixed, the push rod is located at the circle center of the swing plate, and a reinforcing rib is arranged between the swing plate and the push rod.

The invention also provides a wind power operation and maintenance ship, wherein the anti-rolling devices are respectively arranged on two sides of the bow and the stern of the operation and maintenance ship, the mounting frame is perpendicular to the side plates of the ship body of the operation and maintenance ship, and one end of the mounting frame penetrates through the ship body to be fixed.

As a further improvement of the above technical solution:

and a reinforcing plate is fixedly arranged between the mounting frame and the ship body.

Compared with the prior art, the invention has the advantages that:

(1) the invention relates to an anti-swing device for an offshore wind power operation and maintenance ship and the wind power operation and maintenance ship.

(2) The invention relates to an anti-swing device for an offshore wind power operation and maintenance ship and the wind power operation and maintenance ship.

(3) The anti-sway device for the offshore wind power operation and maintenance ship and the wind power operation and maintenance ship have the advantages that the anti-sway device is simple in structure, economical and reliable, large-scale structural transformation on the wind power operation and maintenance ship is not needed, the flexibility of rotation operation of the operation and maintenance ship is not influenced, the wind power operation and maintenance ship can be conveniently deployed on the wind power operation and maintenance ship, the heaving, rolling and pitching motions of the offshore wind power operation and maintenance ship can be fully reduced, and the operation efficiency of the offshore wind power operation and maintenance ship is improved.

Drawings

FIG. 1 is a schematic view of the anti-sway device of the present invention.

Fig. 2 is a schematic view of the structure of section E-E of fig. 1.

Fig. 3 is a schematic diagram of an application implementation of the anti-rolling device of the invention on a wind power operation and maintenance ship.

Description of the figure numbers:

1. a mounting frame; 11. a reinforcing plate; 2. a heave plate; 21. reinforcing ribs; 3. a hull; 4. a hydraulic motor; 41. a first control tube; 42. a second control tube; 43. a controller; 5. a push rod; 6. a hydraulic cylinder; 61. an oil feeding port; 62. a lower oil port; 63. an upper oil chamber; 64. a lower oil chamber; 7. an oil storage tank; 71. a first oil pipe; 72. a second oil pipe.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Fig. 1 to 3 show an anti-rolling device for an offshore wind power operation and maintenance ship and the wind power operation and maintenance ship, wherein the anti-rolling device is arranged at A, B, C, D two sides of a bow (namely a bow) and a stern (namely a stern) of the operation and maintenance ship, and 4 anti-rolling devices are arranged in total. Anti device that shakes includes mounting bracket 1, dangles board 2 and promotion subassembly, and mounting bracket 1 is installed in the outside of hull 3, and on the curb plate of mounting bracket 1 perpendicular to fortune dimension ship hull 3, the hull 3 is passed to the one end of mounting bracket 1 fixed, is equipped with reinforcing plate 11 between mounting bracket 1 and the hull 3. The heave plate 2 and the push assembly are mounted on the mounting frame 1. When seawater and the heave plate 2 placed under the water move relatively, the motion damping of the operation and maintenance ship in the heave, roll and pitch directions is improved by utilizing the fluid resistance which acts on the heave plate 2 and is opposite to the motion direction of the heave plate, so that the purpose of improving the motion stability of the operation and maintenance ship in the three directions is achieved.

In this embodiment, the heave plate 2 is a circular plate, the heave plate 2 is fixed perpendicular to the push rod 5, and the push rod 5 is located at the center of the heave plate 2. Four reinforcing ribs 21 are arranged between the heave plate 2 and the push rod 5, and the four reinforcing ribs 21 are uniformly distributed in the circumferential direction of the heave plate 2.

In this embodiment, the pushing assembly includes a push rod 5 and a driving device, the driving device includes a hydraulic motor 4, an oil storage tank 7 and a hydraulic cylinder 6 which are connected, one end of the push rod 5 is slidably disposed in the hydraulic cylinder 6, the heave plate 2 is fixed to the other end of the push rod 5, the hydraulic cylinder 6 is divided into an upper oil chamber 63 and a lower oil chamber 64 by the push rod 5, and the property of the oil chambers is determined by the moving direction of the push rod 5. When the push rod 5 moves downwards, the upper oil cavity 63 is an oil inlet cavity, and the lower oil cavity 64 is an oil outlet cavity; when the push rod 5 moves upwards, the upper oil cavity 63 is an oil outlet cavity, and the lower oil cavity 64 is an oil inlet cavity. The hydraulic motor 4 controls the pressure change in the hydraulic cylinder 6 to push the push rod 5 to slide in the hydraulic cylinder 6. The oil tank 7 is used to supply oil to the hydraulic cylinder 6 and the hydraulic motor 4.

In this embodiment, the top end of the oil storage tank 7 is connected to the upper port 61 at the top end of the hydraulic cylinder 6 through the first oil pipe 71, and the bottom of the oil storage tank 7 is connected to the lower port 62 at the lower end of the hydraulic cylinder 6 through the second oil pipe 72. The first oil pipe 71 is provided with a two-way solenoid valve, and the second oil pipe 72 is provided with a one-way solenoid valve.

In the present embodiment, the hydraulic motor 4 is connected to the upper oil chamber 63 of the hydraulic cylinder 6 through the first control pipe 41, and the hydraulic motor 4 is connected to the lower oil chamber 64 of the hydraulic cylinder 6 through the second control pipe 42. The second control pipe 42 is connected with a second oil pipe 72, and a two-way electromagnetic valve is arranged on the second oil pipe 72 and positioned between the second control pipe 42 and the hydraulic cylinder 6; the first control pipe 41 is provided with a two-way solenoid valve.

The working principle of the anti-shaking device when being used for the offshore wind power operation and maintenance ship is as follows:

when the operation and maintenance ship reaches a designated berth to start operation, the one-way electromagnetic valve is firstly opened, and hydraulic oil flows out from the oil storage tank 7 in a one-way mode and enters the lower oil cavity 64 through the second oil pipe 72. Meanwhile, the two-way solenoid valve of the first control pipe 41 is opened in the forward direction, the two-way solenoid valve of the first oil pipe 71 is opened in the reverse direction, and the two-way solenoid valve between the second control pipe 42 and the hydraulic cylinder 6 is opened. Then, the hydraulic motor 4 is controlled to rotate in the forward direction by the controller 43 of the hydraulic motor 4 to drive the push rod 5 in the double-acting hydraulic cylinder 6 to move downward, so that the heave plate 2 is stably placed at a predetermined anti-sway position under water to stabilize the motion of the maintenance vessel in the three directions of heave, roll and pitch. When the heave plate 2 needs to be retracted from the water when the operation and maintenance ship finishes the operation and maintenance work, the two-way solenoid valve of the first control pipe 41 is firstly opened reversely, the two-way solenoid valve of the first oil pipe 71 and the two-way solenoid valve between the second control pipe 42 and the hydraulic cylinder 6 are opened forwardly. The hydraulic motor 4 is controlled to rotate reversely by the controller 43 to drive the push rod 5 in the double-acting hydraulic cylinder 6 to move upwards and withdraw the hydraulic cylinder 6, so that the heave plate 2 is stably lifted out of the water surface and parked at the initial parking position, and the influence on the navigation performance of the offshore wind power operation and maintenance ship is avoided.

The foregoing is considered as illustrative of the preferred embodiments of the invention and is not to be construed as limiting the invention in any way. Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the technical scheme of the present invention, unless the technical spirit of the present invention departs from the content of the technical scheme of the present invention.

Claims

1. The utility model provides an offshore wind power fortune dimension ship, its characterized in that, the both sides of fore-aft and stern of fortune dimension ship are equipped with anti-device that shakes respectively, anti-device that shakes includes mounting bracket (1), hangs down and swings board (2) and promotion subassembly, mounting bracket (1) perpendicular to fortune dimension ship hull (3)'s curb plate, it is fixed that hull (3) are passed to the one end of mounting bracket (1), mounting bracket (1) is installed in the outside of hull (3), hang down board (2) and promote the subassembly and install on mounting bracket (1), it includes push rod (5) and drive arrangement to promote the subassembly, hang down board (2) and be fixed in the one end of push rod (5), the other end and the drive arrangement of push rod (5) are connected, drive arrangement drives push rod (5) and hangs down and swings board (2) and make straight reciprocating motion, the direction of motion of push rod (5) is on a parallel with hull (3), the swing plate (2) is a circular plate, the cross section of the swing plate (2) is H-shaped, the swing plate (2) is fixed perpendicular to the push rod (5), the push rod (5) is positioned in the circle center of the swing plate (2), and a reinforcing rib (21) is arranged between the swing plate (2) and the push rod (5);

the driving device comprises a hydraulic motor (4) and a hydraulic cylinder (6) which are connected, one end of the push rod (5) is arranged in the hydraulic cylinder (6), the hydraulic motor (4) controls the pressure in the hydraulic cylinder (6) to drive the push rod (5) to slide, and the hydraulic cylinder (6) is divided into an upper oil cavity (63) and a lower oil cavity (64) by the push rod (5);

the driving device further comprises an oil storage tank (7), the top end of the oil storage tank (7) is connected with an upper oil port (61) at the top end of the hydraulic cylinder (6) through a first oil pipe (71), and the bottom of the oil storage tank (7) is connected with a lower oil port (62) at the lower end of the hydraulic cylinder (6) through a second oil pipe (72);

the initial parking position of the heave plate (2) cannot influence the navigation performance of the offshore wind power operation and maintenance ship.

2. Offshore wind power maintenance and operation vessel according to claim 1, characterized in that the first oil pipe (71) is provided with a two-way solenoid valve and the second oil pipe (72) is provided with a one-way solenoid valve.

3. Offshore wind power maintenance and operation vessel according to claim 2, characterized in that the hydraulic motor (4) is connected to the upper oil chamber (63) of the hydraulic cylinder (6) via a first control pipe (41), and the hydraulic motor (4) is connected to the lower oil chamber (64) of the hydraulic cylinder (6) via a second control pipe (42).

4. An offshore wind power operation and maintenance vessel according to claim 3, characterized in that the second control pipe (42) is connected with a second oil pipe (72), and a two-way solenoid valve is arranged on the second oil pipe (72) between the second control pipe (42) and the hydraulic cylinder (6); the first control pipe (41) is provided with a two-way electromagnetic valve.

5. Offshore wind power maintenance and operation vessel according to claim 4, characterized in that a reinforcement plate (11) is fixedly arranged between the mounting frame (1) and the hull (3).