CN207775953U - Corrode online detection instrument in a kind of offshore wind farm single-pile foundation Tidal zone - Google Patents
Corrode online detection instrument in a kind of offshore wind farm single-pile foundation Tidal zone Download PDFInfo
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- CN207775953U CN207775953U CN201721657148.8U CN201721657148U CN207775953U CN 207775953 U CN207775953 U CN 207775953U CN 201721657148 U CN201721657148 U CN 201721657148U CN 207775953 U CN207775953 U CN 207775953U
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Abstract
The utility model introduces a kind of offshore wind farm single-pile foundation Tidal zone corrosion online detection instrument, it includes the tower barrel base for extending sea from seabed to be set up in marine wind-driven generator, the tower barrel base of vertical tubular sequentially passes through the ooze area of ocean, submerged zone, Tidal zone, splash zone from bottom to top, until the atmospheric region that comes in and goes out;Detection device includes the buoy for being set in Tidal zone tower barrel base periphery, and buoy is equipped with the camera of multiple water-proofing treatments, and the camera lens of each camera carries out image taking towards the tower barrel base for being in Tidal zone with the outside wall surface of the tower barrel base to being immersed in Tidal zone.Pass through above-mentioned setting, so that buoy carries out corresponding lifting displacement with sea ups and downs tide in Tidal zone, it realizes that set camera shoots the tower barrel base of Tidal zone comprehensively on buoy, and then achievees the purpose that accurately to obtain the tower barrel base Corrosion monitoring information in Tidal zone.Meanwhile the utility model is simple in structure, method is succinct, significant effect, suitable for promoting the use of.
Description
Technical field
It being installed on marine wind power plant more particularly to a kind of offshore wind farm single pile base the utility model is related to a kind of
Corrode online detection instrument in plinth Tidal zone.
Background technology
Increasingly deficient in the fossil energies resource such as current coal, oil, greenhouse gas emission threatens environment for human survival
Under severe situation, wind energy as in nature can constantly regenerating, sustainable use green energy resource resource, it is huge with its reserves
The advantages such as greatly, widely distributed, pollution-free, are increasingly paid attention to by countries in the world.World's seat of honour marine wind electric field since 1991
Since Denmark builds up, offshore wind farm has become the major fields of world's Renewable Energy Development.By development in more than 20 years,
Offshore wind farm technology reaches its maturity, and has been enter into the large-scale development stage.To the end of the year 2014, European 11 countries, which build together, has set 84
Marine wind electric field, total installation of generating capacity 11,027MW.The Donghai Bridge 100MW marine wind electric fields that China generates electricity by way of merging two or more grid systems for 2010 are sub-
First, continent Large marine Wind Power Project reaches 428.58MW to 2013 end of the year China's offshore wind farm total installations of generating capacity.It is reported that
2.53 hundred million kilowatts of the land wind energy content that China can develop and utilize, the wind energy content that coastal waters can develop and utilize has 7.5 hundred million
Kilowatt, wind energy on the sea reserves are far longer than land, there is wide development space.Meanwhile Deposits in Eastern Coastal China regional economy is flourishing,
Energy shortages, energy supply structure will be effectively improved by developing abundant offshore wind energy resource.Therefore, although China's offshore wind farm rises
Walk later, but development potentiality is huge.
Compared with land wind-powered electricity generation, offshore wind farm local environment is increasingly complex, marine atmosphere zone high humility, high salt fog, long day
According to waves splash about area's alternation of wetting and drying, underwater area's seawater immersion, biological attachment etc., corrosive environment is very harsh, is set to offshore wind farm
Standby corrosion protection proposes severe challenge, while offshore wind farm is due to its special geographical environment and technology requirement, maintenance cost
With high.Therefore, marine corrosion not only brings huge security risk to offshore wind farm unit, shortens unit and runs the service life, also greatly
Big construction investment and the operation expense for increasing wind-powered electricity generation.Anticorrosion is the outstanding problem that offshore wind farm must take into consideration, anti-corrosion
Erosion is designed to one of the important link of marine wind electric field design.
Underwater foundation mainly has steel structure base and reinforced concrete structure basis from material angle;From structure type point master
There are the fixed basis such as gravity type foundation, single-pile foundation, multi-column pier foundation, jacket basis, suction type cylindrical foundation and floating
Formula basis etc..Single pile tower barrel base used by wind-driven generator in the prior art is mainly applied by brush anti-corrosion outside steel tower
Material is constituted, but since the offshore wind farm unit design service life is 25 years or more, at sea in rugged environment, anticorrosive paint is inevitable
It falls off, in the steel construction exposed seawater and marine atmosphere strong in corrosivity, the service life on damage offshore wind farm set structure basis, very
Serious safety accident can be extremely caused, therefore carry out Corrosion monitoring to the structure of offshore wind power foundation to be particularly important.
In view of this special to propose the utility model.
Utility model content
The purpose of this utility model for overcome the deficiencies in the prior art, provides a kind of offshore wind farm single-pile foundation Tidal zone
Corrode online detection instrument, the Tidal zone tower barrel base corrosion condition of offshore wind generating is precisely detected with realization
Purpose.
In order to realize above-mentioned purpose of utility model, technical solution is as follows used by the utility model:
Online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone, is set up in marine wind-driven generator and includes
Extend the tower barrel base on sea from seabed, the tower barrel base of vertical tubular sequentially passes through the ooze area of ocean, complete from bottom to top
Area, Tidal zone, splash zone are soaked, until the atmospheric region that comes in and goes out;Detection device includes the buoy for being set in Tidal zone tower barrel base periphery,
Buoy is equipped with the camera of multiple water-proofing treatments, and the camera lens of each camera is towards the tower barrel base for being in Tidal zone, with to leaching
Image taking is not carried out in the outside wall surface of the tower barrel base of Tidal zone.
Further, the buoy is annular in shape, and the internal diameter of annular float is straight more than the periphery of the tower barrel base in Tidal zone
Diameter.
Further, the first-class interval angles of annular float are placed with multiple cameras, the lens axis of each camera along with
The parallel plane of buoy is extended, to carry out multi-angle image acquisition to the tower barrel base outside wall surface in Tidal zone;
Preferably, the lens axis of each camera is in same level.
Further, buoy is equipped with the mounting base of multiple angles at equal intervals setting, and the upper surface of each mounting base is a peace
Plane is filled, each mounting plane is in same level, and correspondence is equipped with a camera respectively on each mounting plane.
Further, tower barrel base is equipped with the postive stop baffle of outward radial protrusion, the highest point of postive stop baffle and Tidal zone
To concordant setting, to stop that buoy is fluctuated by tide to beyond Tidal zone range.
Further, the postive stop baffle is the circle block reinforcement that tower barrel base outside wall surface protrudes above, and the outer diameter of postive stop baffle is big
In the internal diameter of toroid buoy, floated more than the height of postive stop baffle with limiting buoy;
Preferably, each camera and buoy inner circumferential be respectively at a distance of a determining deviation, the peripheral radius of postive stop baffle and buoy
The difference of inner circumferential radius is less than the spacing between camera and buoy inner circumferential, is touched with preventing from generating between camera and postive stop baffle
It hits.
Further, it is additionally provided with acceleration transducer on buoy, is monitored in real time with the wave to region residing for buoy.
Further, communication component is integrated on each camera respectively, is installed in communication component and wind-driven generator tower
Controller mutually long-range matching connection, the image information that camera acquires is collected to controller and issues controller
Control instruction is transmitted to camera.
Further, controller matches through communication component with set acceleration transducer on buoy and connect, so that controller
Obtain the detection signal of acceleration transducer;Controller is analyzed and determined suitable to obtain according to acquired detection signal
Shooting time node, and shooting instruction is sent to each camera through communication component in suitable shooting time node, make each camera shooting
Head takes pictures to the tower barrel base in Tidal zone.
Further, seashore is equipped with the control server of entire marine wind electric field, in the tower of marine each wind-driven generator
It is respectively equipped with controller, each controller is connected through communication cable with control server respectively, so that controller is serviced with control
Bidirectional data transfers can be carried out between device.
The utility model has following notable technological progress compared with prior art:
By above-mentioned setting buoy is realized so that buoy carries out corresponding lifting displacement with sea ups and downs tide in Tidal zone
Upper set camera shoots the tower barrel base of Tidal zone comprehensively, and then reaches accurate and obtain the tower base in Tidal zone
The purpose of plinth Corrosion monitoring information.
Meanwhile the utility model is simple in structure, method is succinct, significant effect, suitable for promoting the use of.
Specific embodiment of the present utility model is described in further detail below in conjunction with the accompanying drawings.
Description of the drawings
Fig. 1:Tower barrel base height branch schematic diagram in the utility model embodiment in seawater;
Fig. 2:The structure of offshore wind farm single-pile foundation Tidal zone corrosion online detection instrument is shown in the utility model embodiment
It is intended to;
Fig. 3:The structure of offshore wind farm single-pile foundation splash zone corrosion online detection instrument is shown in the utility model embodiment
It is intended to;
Fig. 4:Connection signal block diagram in the utility model embodiment between control assembly.
Major components explanation:1-tower barrel base, 2-buoys, 3-cameras, 4-mounting bases, 5-postive stop baffles, 6-
Annular platform, 7-guide rails, 8-storage cleaning storehouses, 9-cleaning devices, 10-driving motors, 11-draw high rope, and 12-distances pass
Sensor, 13-acceleration transducers, 14-controllers, 15-communication components, 16-control servers.
Specific implementation mode
Embodiment one
As depicted in figs. 1 and 2, a kind of corrosion on-line checking in offshore wind farm single-pile foundation Tidal zone is described in the present embodiment
Equipment, it includes the tower barrel base 1 for extending sea from seabed, the tower barrel base of vertical tubular to be set up in marine wind-driven generator
1 sequentially pass through ocean from bottom to top ooze area, submerged zone, Tidal zone, splash zone, until the atmospheric region that comes in and goes out;Detection device packet
The buoy 2 for being set in 1 periphery of Tidal zone tower barrel base is included, buoy 2 is equipped with the camera 3 of multiple water-proofing treatments, each camera 3
Camera lens towards the tower barrel base 1 for being in Tidal zone, image bat is carried out with the outside wall surface of the tower barrel base 1 to being immersed in Tidal zone
It takes the photograph.
By above-mentioned setting buoy is realized so that buoy carries out corresponding lifting displacement with sea ups and downs tide in Tidal zone
Upper set camera shoots the tower barrel base of Tidal zone comprehensively, and then reaches accurate and obtain the tower base in Tidal zone
The purpose of plinth Corrosion monitoring information.
In the present embodiment, the buoy 2 is annular in shape, and the internal diameter of annular float 2 is more than the tower barrel base 1 in Tidal zone
Outer circumference diameter, to realize that buoy 2 floats up and down with tidewater fluctuation and will not be produced with 1 outer wall of tower barrel base in location free procedure
Raw relative interference.
In the present embodiment, 2 first-class interval angles of annular float are placed with multiple cameras 3, the camera lens axis of each camera 3
Line is extended along the plane parallel with buoy 2, to carry out multi-angle image to 1 outside wall surface of tower barrel base in Tidal zone
Acquisition;Preferably, the lens axis of each camera 3 is in same level.
In the present embodiment, buoy 2 is equipped with the mounting base 4 of multiple angles at equal intervals setting, and the upper surface of each mounting base 4 is equal
For a mounting plane, each mounting plane is in same level, and correspondence is equipped with a camera 3 respectively on each mounting plane.
In the present embodiment, tower barrel base 1 is equipped with the postive stop baffle 5 of outward radial protrusion, postive stop baffle 5 and Tidal zone
Highest point is to concordant setting, to stop that buoy 2 is fluctuated by tide to beyond Tidal zone range.By in the Tidal zone of tower barrel base
Postive stop baffle is arranged in highest point so that floating on the buoy of seawater surface will not fluctuate with tide to splash zone, enable buoy quilt
Postive stop baffle is limited to tide area, achievees the purpose that carry out corresponding detection to the tower barrel base etch state in tide area.
In the present embodiment, the postive stop baffle 5 is the circle block reinforcement that 1 outside wall surface of tower barrel base protrudes above, postive stop baffle 5
Outer diameter is more than the internal diameter of toroid buoy 2, is floated more than the height of postive stop baffle 5 with limiting buoy 2.
Preferably, in the present embodiment, each camera 3 and 2 inner circumferential of buoy respectively at a distance of a determining deviation, postive stop baffle 5 it is outer
The difference of the inner circumferential radius of all radiuses and buoy 2 is less than the spacing between 2 inner circumferential of camera 3 and buoy, to prevent camera 3 and limit
Collision is generated between the baffle 5 of position.
In the present embodiment, acceleration transducer 13 is additionally provided on buoy 2, it is real to be carried out to the wave in region residing for buoy 2
When monitor, and then the motion state of buoy 2 is known, with when seawater surface is more tranquil, buoy is horizontal, control is taken the photograph
As first 3 pairs of tower barrel bases 1 carry out corresponding shooting, with accurate, the comprehensive outer wall corrosion figure for knowing tower barrel base 1 at corresponding height
Piece.
In the present embodiment, communication component 15, communication component and wind-driven generator tower 1 are integrated on each camera 3 respectively
Interior installed 14 phase of controller remotely matches connection, and the image information that camera 3 acquires is collected to controller 14 and incited somebody to action
The control instruction that controller 14 issues is transmitted to camera 3.
As shown in figure 4, in the present embodiment, controller 14 is with set acceleration transducer 13 on buoy 2 through communication component 15
Match connection, so that controller 14 obtains the detection signal of acceleration transducer 13;Controller 14 is according to acquired detection
Signal analyzed and determined to obtain suitable shooting time node, and suitable shooting time node through communication component 15 to
Each camera 3 sends shooting instruction, and each camera 3 is made to take pictures the tower barrel base 1 in Tidal zone.Preferably, floating
When the acceleration detection value of set acceleration transducer 13 is 0 on mark 2, controller 14 sends shooting instruction to camera 3, to obtain
The tower barrel base 1 at corresponding height is taken to corrode pictorial information.
Embodiment two
As shown in figures 1 and 3, a kind of offshore wind farm single-pile foundation splash zone corrosion on-line checking is described in the present embodiment
Equipment, it includes the tower barrel base 1 for extending sea from seabed, the tower barrel base of vertical tubular to be set up in marine wind-driven generator
1 sequentially pass through ocean from bottom to top ooze area, submerged zone, Tidal zone, splash zone, until the atmospheric region that comes in and goes out;Detection device packet
The annular platform 6 for being set in 1 periphery of splash zone tower barrel base is included, annular platform 6 is installed on through lifting gear on tower barrel base 1;
Annular platform 6 is equipped with the camera 3 of multiple water-proofing treatments, and the camera lens direction of each camera 3 is in the tower barrel base of splash zone
1, to be carried out to the outside wall surface of the tower barrel base 1 in splash zone during lifting gear driving annular platform 6 moves up and down
Image taking.
By above-mentioned setting, so that annular platform is driven by lifting gear and carries out corresponding lifting displacement in tide area, it is real
Set camera shoots the tower barrel base in tide area comprehensively on existing annular platform, and then reaches accurate obtain and be in tide
The purpose of the tower barrel base Corrosion monitoring information in area.
In the present embodiment, lifting gear includes the driving motor 10 being installed on tower barrel base 1, the rotation of driving motor 10
It holds and is connected with the one end for drawing high rope 11, the other end for drawing high rope 11 is fixedly connected with 6 phase of annular platform;Preferably, multiple drives
Dynamic motor 10 is connected through the corresponding rope 11 that draws high with annular platform 6 respectively, respectively draws high the company of the end and annular platform 6 of rope 11
Connect the uniformly distributed arrangement of the angle at equal intervals of the opposite annular platform in place 6.
In the present embodiment, lifting gear further includes the guide rail 7 being vertically arranged along tower barrel base outer wall, is set on annular platform 6
There is the respective slot passed through for guide rail 7, so that annular platform 6 axially lifts along guide rail 7, annular platform 6 is avoided to generate inclination;It is excellent
Choosing, 1 outer wall of tower barrel base is equipped with a plurality of guide rail 7 extended vertically, and each guide rail 7 is with respect to tower barrel base 1 axis angle at equal intervals
The arrangement of degree, the upper and lower side concordant setting corresponding with the top and bottom of splash zone difference of guide rail 7.
In the present embodiment, 7 outside of guide rail is equipped with groove, and the groove is axially extending along guide rail 7, and the rope 11 that draws high is buried
In in groove set on guide rail 7.By the way that the corresponding embedded and inside grooves of rope will be drawn high, can effectively prevent drawing high rope and sputtering
Seawater is in contact, and then effectively avoids drawing high the service life that rope extends lifting gear by seawater corrosion, significantly.
In the present embodiment, be additionally provided on the outer wall of tower barrel base 1 protrusion setting, the storage of Inner Constitution annular compartment it is clear
Bring down stocks 8, the storage cleaning storehouse 8 is set at the tower barrel base 1 at the top of splash zone, and storage cleaning storehouse 8 is lower ending opening, for ring
Shape platform 6 rises up into its internal chamber and is stored;It is additionally provided with the cleaning cleaned to camera 3 in the storage cleaning storehouse 8
Equipment 9.In the present embodiment, the cleaning equipment 9 can carry out clean set to be any in the prior art to camera 3
It is standby, such as:Ultrasonic cleaning probe, clear water jetter etc..
Preferably, in the present embodiment, driving motor 10 be fixedly installed in storage cleaning storehouse 8 top or with tower barrel base 1
It is mutually fixedly connected, draws high rope 11 and pass through storage cleaning storehouse 8 and be fixedly connected with 6 phase of annular platform.
In the present embodiment, acquisition annular platform 6 is installed on annular platform 6 and is passed at a distance from relative distance between seawater face
Sensor 12.By installing range sensor additional, accurately to be measured the distance between annular platform and seawater face, and then prevent
The occurrence of annular platform is submerged into seawater, effectively extends the service life of camera, reduces failure rate.
In the present embodiment, 6 first-class interval angles of annular platform are placed with multiple cameras 3, the camera lens axis of each camera 3
Line is extended along the plane parallel with annular platform 6, to carry out multi-angle to 1 outside wall surface of tower barrel base in Tidal zone
Image Acquisition;Preferably, the lens axis of each camera 3 is in same level.The top surface of annular platform 6 is one horizontal
Face, each camera 3 are mounted on the top surface of annular platform 6, and the camera lens of each camera 3 is in the horizontal plane of sustained height
In.
As shown in figure 4, in the present embodiment, communication component 15, communication component 15 and wind-force are integrated on each camera 3 respectively
14 phase of controller installed in generator tower remotely matches connection, and the image information that camera 3 acquires is collected to control
The control instruction that controller 14 issues simultaneously is transmitted to camera 3 by device 14 processed.
In the present embodiment, set range sensor 12 matches company through communication component 14 on controller 14 and annular platform
It connects, so that controller 14 obtains the detection signal of range sensor 12;Controller 14 is divided according to acquired detection signal
Analysis judges to obtain timing node that annular platform 6 is in contact with sea, and in correspondence timing node to the transmission of driving motor 10
Stop declining instruction, storage cleaning storehouse 8 is backed up to after so that annular platform 6 is fallen to sea level height.
Preferably, when range sensor 12 detects that annular platform 6 is in contact with sea, controller 14 is to driving motor
10, which send stopping, declining instruction, while controller 14 sends to camera 3 and stops shooting instruction.
In the present embodiment, the specific detection process of offshore wind farm single-pile foundation splash zone corrosion online detection instrument is as follows:
Step S1. controllers receive the instruction checked splash zone corrosion situation;
Step S2. controllers are sent to driving motor declines instruction, and driving motor drive draws high rope work, enables annular platform
Decline;
Step S3. controllers setting time node to camera send shooting instruction, camera to each height at
Splash zone tower barrel base carries out image taking acquisition;
For step S4. when range sensor detects that the relative distance between annular platform and sea is 0, controller is to drive
Dynamic motor, which is sent, stops declining instruction, and driving motor drive draws high rope work, annular platform is enabled to rise;Meanwhile controller is no longer
Shooting instruction is sent to camera, camera is stopped;
After annular platform is promoted to storage cleaning storehouse, driving motor is stopped step S5..
Through the above steps, using offshore wind farm single-pile foundation splash zone corrosion online detection instrument to the wave of tower barrel base
It splashes area and carries out primary covering shooting comprehensively, believed with obtaining the tower barrel base outer wall corrosion picture corresponding to splash zone whole height
Breath.
Embodiment three
As shown in figure 4, the present embodiment is based on above-described embodiment one and two, it is rotten to also describe a kind of offshore wind farm single-pile foundation
On-line detecting system is lost, seashore is equipped with the control server 16 of entire marine wind electric field, the tower of marine each wind-driven generator
It is inside respectively equipped with controller 14, each controller 14 is connected through communication cable with control server 16 respectively, so that controller 14
Bidirectional data transfers can be carried out between control server 16, make the offshore wind farm single-pile foundation tidal range described in above-described embodiment one
The sea described in offshore wind farm single-pile foundation Tidal zone corrosion signal and embodiment two that corrosion online detection instrument detection in area's obtains
Camera 3 on upper wind-power single-pile foundation splash zone corrosion online detection instrument detects the offshore wind farm single-pile foundation wave obtained and splashes
Area corrodes signal and is transmitted in tower set controller 14 through communication component 15, set control in each wind-driven generator tower
Device 14 will be acquired after information is compiled and is directly transferred at the control server 16 of marine wind electric field through communication cable, by controlling
Server 16 is further analyzed to arrange according to detection information to be corroded with the tower barrel base for knowing each offshore wind generating
Situation.
Above-described is only the preferred embodiments of the utility model.It should be pointed out that for the common of this field
For technical staff, in the case where not departing from the utility model principle, several improvement and deformations can also be made, this is also considered as
The scope of protection of the utility model.
Claims (10)
1. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone, it includes certainly to be set up in marine wind-driven generator
The tower barrel base on sea is extended in seabed, and the tower barrel base of vertical tubular sequentially passes through the ooze area of ocean, full leaching from bottom to top
Area, Tidal zone, splash zone, until the atmospheric region that comes in and goes out;It is characterized in that:Detection device includes being set in outside the tower barrel base of Tidal zone
The buoy in week, buoy are equipped with the camera of multiple water-proofing treatments, and the camera lens direction of each camera is in the tower base of Tidal zone
Plinth carries out image taking with the outside wall surface of the tower barrel base to being immersed in Tidal zone.
2. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone according to claim 1, feature exists
In the buoy is annular in shape, and the internal diameter of annular float is more than the outer circumference diameter of the tower barrel base in Tidal zone.
3. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone according to claim 2, feature exists
In the first-class interval angles of annular float are placed with multiple cameras, and the lens axis of each camera is along parallel with buoy
Plane is extended.
4. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone according to claim 3, feature exists
In buoy is equipped with the mounting base of multiple angles at equal intervals setting, and the upper surface of each mounting base is a mounting plane, each to install
Plane is in same level, and correspondence is equipped with a camera respectively on each mounting plane.
5. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone according to any one of claims 1 to 4,
It is characterized in that, tower barrel base is equipped with the postive stop baffle of outward radial protrusion, and postive stop baffle and the highest point of Tidal zone are to concordant
Setting.
6. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone according to claim 5, feature exists
In the postive stop baffle is the circle block reinforcement that tower barrel base outside wall surface protrudes above, and the outer diameter of postive stop baffle is more than toroid buoy
Internal diameter is floated with limiting buoy more than the height of postive stop baffle.
7. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone according to any one of claims 1 to 4,
It is characterized in that, acceleration transducer is additionally provided on buoy, monitored in real time with the wave to region residing for buoy.
8. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone according to any one of claims 1 to 4,
It is characterized in that, is integrated with communication component, the control installed in communication component and wind-driven generator tower on each camera respectively
Device mutually long-range matching connection.
9. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone according to claim 8, feature exists
In controller, which matches with set acceleration transducer on buoy through communication component, to be connect.
10. online detection instrument is corroded in a kind of offshore wind farm single-pile foundation Tidal zone according to claim 8, feature exists
In seashore is equipped with the control server of entire marine wind electric field, and control is respectively equipped in the tower of marine each wind-driven generator
Device, each controller is connected through communication cable with control server respectively, so as to can be carried out between controller and control server
Bidirectional data transfers.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109629612A (en) * | 2018-12-15 | 2019-04-16 | 浙江工业大学 | A kind of attachment submersible bridge pile foundation flushing monitoring system installation method |
CN109868847A (en) * | 2017-12-01 | 2019-06-11 | 大唐国信滨海海上风力发电有限公司 | Corrode online detection instrument in a kind of offshore wind farm single-pile foundation Tidal zone |
CN111624210A (en) * | 2020-07-07 | 2020-09-04 | 江苏华淼电子科技有限公司 | Marine wind turbine tower section of thick bamboo intertidal zone corrosion detection device |
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2017
- 2017-12-01 CN CN201721657148.8U patent/CN207775953U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109868847A (en) * | 2017-12-01 | 2019-06-11 | 大唐国信滨海海上风力发电有限公司 | Corrode online detection instrument in a kind of offshore wind farm single-pile foundation Tidal zone |
CN109868847B (en) * | 2017-12-01 | 2024-01-19 | 大唐国信滨海海上风力发电有限公司 | Corrosion on-line detection equipment for tidal range area of offshore wind power single pile foundation |
CN109629612A (en) * | 2018-12-15 | 2019-04-16 | 浙江工业大学 | A kind of attachment submersible bridge pile foundation flushing monitoring system installation method |
CN111624210A (en) * | 2020-07-07 | 2020-09-04 | 江苏华淼电子科技有限公司 | Marine wind turbine tower section of thick bamboo intertidal zone corrosion detection device |
CN111624210B (en) * | 2020-07-07 | 2023-03-28 | 江苏华淼电子科技有限公司 | Marine wind turbine tower section of thick bamboo intertidal zone corrosion detection device |
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