CN109374000A - High-precision real-time monitoring system for the positioning of remote submarine cable and deformation - Google Patents

Abstract

The present invention relates to ocean observation technology fields, and in particular to a kind of high-precision real-time monitoring system for the positioning of remote submarine cable and deformation.Including monitoring host computer；Monitoring host computer is set in bank base and is connected with photoelectric converter；Detection system includes flexible circuit board, and weldering sets several MEMS modular assemblies that bunchiness is concatenated by 485 bus connection wires on flexible circuit board, and MEMS modular assembly includes that TTL turns 485 bus modules and MEMS acceleration sensor module；485 connector of four-wire system is additionally provided between 485 bus connection wires and MEMS modular assembly；485 bus connection wires connect central controller, and central controller connects electrooptic modulator.The present invention can be realized the real-time monitoring of positioning and the deformation of submarine cable, realizes the long-range real-time positioning self-checking function of submarine cable, can be used for improving the stability and failover capabilities of submarine cable.

Description

High-precision real-time monitoring system for the positioning of remote submarine cable and deformation

Technical field

The present invention relates to ocean observation technology fields, and in particular to one kind is for the positioning of remote submarine cable and deformation High-precision real-time monitoring system.

Background technique

" ocean intelligence tube cable key technology " is the forward position heat in current international ocean intellectual technology and equipment research and development field Point, and restrict the technical bottleneck of the exploitation of China's marine resource and energy information transmission.It is rapid with China's new energy industry Emergence and extremely swift and violent growth momentum, provide great market to submarine pipeline and cable product.Currently, Submarine Pipeline cable is main Applied to two fields, one is marine electric energy transmission, the other is offshore drilling platforms.In recent years, domestic off-lying sea The acquisition tremendous expansion of upper wind-power market has even more driven submarine pipeline and cable especially submarine cable product demand.

Submarine cable has become the bridge tie that remote energy source and new energy scale over strait utilizes and concern is burnt Point.The standards system for establishing Submarine Pipeline cable, develop under the manufacturing technology of novel seabed cable, high sea conditions construction technology and High precision monitor technology is that system solves following larger lengths, bigger depth, the core of higher precision marine engineering operation problem And key, it can be obviously improved the intelligent level of the energy and information transmission network in marine economy development process, enhancing is resisted certainly The ability and safe operation reliability of right disaster.Therefore, Development of Marine intelligence tube cable key technology, for supporting and ensureing energy Source safety and Sustainable Socioeconomic Development have very great strategic importance.

While the application of Submarine Pipeline cable is grown rapidly, the safety problem of Submarine Pipeline cable is also always that people are closed Note.Different from land tube cable, Submarine Pipeline cable operation risk is bigger, and failure probability is higher, this mainly with its working environment item Part is badly closely related.The effects of tube cable in seabed not only may be by wave, ocean current, tide, corrosion is operated in, but also may face Face ship anchor, platform or ship and fall the shocks such as object, fishing net and pull danger, it is easy to failure accidents occur.

Notification number is a kind of submarine cable vibration monitor system of Chinese patent literature of CN107328465A, includes vibration Detect fore device, submarine cable vibration monitoring processing center and user terminal, vibration detection fore device and extraction seabed One or more slack in cable composite fiber is connected as vibration monitoring distributed sensor, vibration detection front end Device and submarine cable vibration detection processing center and user terminal distinguish communication connection.The present invention directly utilizes seabed composite cable In slack as sensor fibre, so that it is acted as the effect of vibration monitoring distributed sensor, but serve as monitoring letter Transmission medium is ceased, without being laid with dedicated sensing and signal transmission fiber, monitoring technology is easy to implement, with low investment quick.But It is on the one hand the invention needs submarine cable to include the slack needed for it, the submarine cable for being fully loaded with is simultaneously uncomfortable With carrying that add above-mentioned function obviously also unpractical for having designed the submarine cable that has encapsulated；Another aspect optical fiber prison The precision of survey is limited, is difficult to be accurately positioned and reflect the form of submarine cable, is not easy to meet the monitoring of submarine cable key position High-precision requirement.

Notification number discloses a kind of based on the underwater of MEMS attitude transducer for the Chinese patent literature of CN107339969A Deformation of surface figure monitors system, main including main control computer, underwater data storage unit and multiple strip sensor arrays arranged side by side Control computer is connected by underwater data storage unit with each sensor array；The outside of sensor array is close by encapsulating material Envelope, inside include the more piece rectangular tube connected by flexible joint；A MEMS attitude transducer is arranged in every section rectangular tube, respectively MEMS attitude transducer is connected by cable connection acquisition unit, the latter with underwater Master Control Unit；MEMS attitude transducer is 9 axis Attitude transducer, including three axis accelerometer, three-axis gyroscope and triaxial magnetometer, can by the acceleration of acquisition, angular speed with Magnetic field strength carries out data fusion to obtain posture information, and is displayed as the data mode of Eulerian angles or quaternary number.But it should The monitoring that invention is deformed mainly for underwater topography is not particularly suited for the case where monitoring submarine cable, and sensor array is adopted With stainless steel rectangular pipe plus rubber flexible joint structure, poor reliability, joint is easy to damage, there is the probability being distorted, MEMS attitude transducer uses 9 axis attitude transducers, and energy consumption is relatively high, is not suitable for laying for a long time under water.

Summary of the invention

The technical problem to be solved by the present invention is to overcome the deficiencies in the prior art, provide a kind of remote sea The high-precision real-time monitoring system of the positioning of bottom cable and deformation.

In order to solve the technical problem, solution of the invention is as follows:

A kind of high-precision real-time monitoring system for the positioning of remote submarine cable and deformation is provided, including in monitoring Position machine；It further include detection system；

Monitoring host computer is set in bank base and is connected with photoelectric converter；

Detection system includes flexible circuit board, and weldering sets several by 485 bus connection wires concatenation bunchiness on flexible circuit board MEMS modular assembly, MEMS modular assembly includes that TTL turns 485 bus modules and MEMS acceleration sensor module；485 buses 485 connector of four-wire system is additionally provided between connecting line and MEMS modular assembly；485 bus connection wires connect central controller, center Controller connects electrooptic modulator, and electrooptic modulator is using certain electro-optic crystals, such as lithium columbate crystal (LiNb03), GaAs Modulator made of the electrooptic effect of crystal (GaAs) and lithium tantalate (LiTa03).Electrooptic effect, which is worked as, applies voltages to electricity When on luminescent crystal, the refractive index of electro-optic crystal will change, and as a result cause the variation of the light wave characteristic by the crystal, realize Modulation to the phase of optical signal, amplitude, intensity and polarization state.

Central controller is connected with central controller and electrooptic modulator battery module with electrooptic modulator；MEMS accelerates Degree sensor module is connected with probe power module.

Detection system fits in the outside at submarine cable position to be detected, and central controller is connected by data transmission fiber Photoelectric converter；Data transmission fiber is also bonded with submarine cable, and passes through wire armoring for submarine cable, data transmission fiber It is encapsulated jointly with detection system.

As an improvement central controller includes embedded controller and independent current source, embedded controller is responsible for institute There are the data of MEMS acceleration sensor module to acquire.

As an improvement MEMS acceleration sensor module is 3 axle acceleration sensors, can by the acceleration of acquisition into Row data fusion is displayed as the data mode of quaternary number or Eulerian angles to obtain posture information.

As an improvement photoelectric converter is photodiode.

As an improvement MEMS acceleration sensor module spacing adjacent on flexible circuit board is 5m.

As an improvement probe power module is the patch battery of 5V；Central controller and electrooptic modulator battery Module is the patch battery pack of 24V.

As an improvement flexible circuit board uses multi-layer flexible sheet, and use two panel construction；Dielectric material is poly- for glue Acid imide, conductor material are copper foil, and glue material is oxyphenisatin acetal.

As an improvement flexible circuit board ends are equipped with flexible circuit board fixing end, set in flexible circuit board fixing end There is buckle, for realizing the connection between submarine cable.

In the present invention, entire monitoring system is laid in Exterior cable after processing is completed in submarine cable, to having processed At cable internal structure design do not have an impact, it is logical that whole process will not damage submarine cable itself and cable data The functions such as news.

Inventive principle description:

In technical solution of the present invention, the data of MEMS acceleration sensor module to central controller are transmitted through 485 Bus realizes that the carrier of sensor node is flexible circuit board, on the one hand ensure that the reliability of data transmission, on the other hand makes Sensor is bonded submarine cable, guarantees undistorted in the Morphological Reconstruction of submarine cable.100 meters emphasis monitoring positions every 5 meters of arrangements, one MEMS acceleration sensor module, placing 20 MEMS acceleration sensor modules in total ensures centainly missing The form of submarine cable is positioned and reflected in poor range.Central controller receives the storage of MEMS acceleration sensor module data And degree will be accelerated by a whole set of data transmission system of electrooptic modulator, data transmission fiber and photoelectric converter after being packaged According to the monitoring host computer for being transferred to bank base.Using optical fiber as transmission medium submarine cable it is longer, apart from the farther away feelings of bank base Transmission time can be reduced under condition, it is ensured that the real-time of monitoring.Being located through for submarine cable calculates each MEMS acceleration biography The position of sensor module is realized, obtains seabed electricity by each MEMS acceleration sensor module alternate position spike value on this basis The form of cable.

During submarine cable processing, it is first determined the total length of submarine cable transmission line of electricity, then determine emphasis prison The position of survey.Then determine arrive bank base monitoring platform distance, customize data transmission fiber, the electrooptic modulator of equal length with And photoelectric converter is a set of, while making 100 meters of flexible circuit board, and MEMS acceleration sensor module and center are controlled Device is welded on above.Submarine cable after processing is completed, MEMS acceleration sensor module and flexible circuit board are arranged in pass Key monitoring position simultaneously guarantees perfect fitting, while fixed data transmission fiber and mating electrooptic modulator, photoelectric converter, and makes Make the connection circuit of electrooptic modulator and central controller.After the completion of entire external process, one is enclosed in flexible circuit The rubber membrane of layer insulation, then ensures the waterproof of entire circuit and TCP data segment using wire armoring package outside.Whole A cable monitors system when seabed is laid and is put into togerther seabed with cable, reduces the unnecessary trouble of subsea construction. If continuing working, battery after a period of time exhausts or event occurs in the MEMS acceleration sensor module of some data acquisition node Barrier need to only be repaired for battery module or particular sensor module.

The definition of multi-layer flexible sheet, which refers to, contains the route of multilayer copper foil composition in flexible board, use silk not comprising silver paste etc. The conductive number of plies that India side formula is formed.It requirement according to MEMS acceleration sensor module array to flexibility and reliably examines Consider, the flexible circuit board in this system uses two panel construction.In flex design, the type and structure of material are very heavy It wants, it mainly decides flexibility, electrical characteristic and other machinery characteristic of flexible board etc..As further preferred, medium material Material selects polyimides (having glue), and conductor material selection is the most frequently used, is easiest to the copper foil of processing, and glue material selects heat curable properties It is good, the strong oxyphenisatin acetal of flexible characteristic.

MEMS acceleration sensor module acquisition node is used to acquire the acceleration information of each physical points of submarine cable, is used for The submarine cable Morphological Reconstruction in later period；As example is applied, the special intelligence of dimension is can be used in MEMS acceleration sensor module acquisition node It can SCA3300 3-axis acceleration sensor, included temperature-compensating and Kalman filtering；Central controller controls plate is each for summarizing The data of a acceleration sensor module data acquisition node complete the storage and pretreatment of data, as using example, center The CX5100 of BECKHOFF can be used in controller control panel；Photoelectric converter is used to the data of control centre being converted to optical signal It is transmitted for data, and is that MEMS sensor module data is used for submarine cable form by optical signal demodulation in bank base receiving end It is a pair of that LHGD photoelectric converter GS-03-AB can be used as example is applied in reconstruct；Data transmission fiber is used for transmission electric signal JINKUNYU single mode single-core fiber wire jumper FC-FC can be used as example is applied by seabed to bank base monitor supervision platform；Power supply mould Block is to provide electric energy, respectively 24V and 5V for central controller and slave station data acquisition unit, and 24V is connected by lithium battery Or be formed in parallel, as example is applied, fleet-footed 5V lithium battery can be used.Electrooptic modulator is public using U.S. ConOptics Take charge of low pressure electrooptic modulator.

Compared with prior art, the invention has the benefit that

(1) the high-precision real-time monitoring system for the positioning of remote submarine cable and deformation of the invention, can be realized The real-time monitoring of positioning and the deformation of submarine cable realizes the long-range real-time positioning self-checking function of submarine cable, can be used for improving The stability and failover capabilities of submarine cable.

(2) present invention innovatively proposes the mode of electrooptic modulator, photoelectric converter and data transmission fiber collocation Realize the long distance transmission of data, not only speed is fast for fiber optic communication, but also can guarantee the stability of long-range data transmission, can To effectively achieve the requirement of submarine cable real time monitoring, and key position is monitored using MEMS acceleration sensor module, For more traditional FBG monitoring, and greatly improve monitoring accuracy.

(3) in the present invention, MEMS acceleration sensor module node is connected by flexible circuit board as carrier, data Communication is realized by 485 buses, not only simplifies circuit structure, while ensure that MEMS acceleration sensor module and seabed electricity The perfect fitting of cable.Whole system is wrapped up by wire armoring shell, plays the function of waterproof.Furthermore MEMS acceleration transducer Module, controller, each photoelectric conversion module and battery small volume, realize positioning, can be effective on the basis of monitoring function Cost is saved on ground.

Detailed description of the invention

Fig. 1 is that entirety of the invention lays structural schematic diagram；

Fig. 2 is the submarine cable sectional view that the present invention applies；

Fig. 3 is flexible circuit board structure schematic diagram of the invention.

Appended drawing reference in figure: 1- bank base；2- monitors host computer；3- photoelectric converter；4- winch；6- submarine cable waits supervising Survey position；7- data transmission fiber；8- submarine cable；9- wire armoring shell；10- flexible circuit board fixing end；11- flexible electrical Road plate；12-TTL turns 485 bus modules；13-MEMS acceleration sensor module；485 connector of 14- four-wire system；15-485 is total Line connecting line；16- central controller；17- probe power module；18- electrooptic modulator；19- central controller and electric light tune Device battery module processed.

Specific embodiment

Invention is further described in detail with specific implementation with reference to the accompanying drawing.

As shown in Figure 1-3, a kind of high-precision real-time monitoring system for the positioning of remote submarine cable and deformation, packet Include monitoring host computer 2.It further include monitoring system.Monitoring host computer 2 is set in bank base 1 and is connected with photoelectric converter 3.Photoelectricity turns Parallel operation 3 is photodiode.

Monitoring system includes flexible circuit board 11, and flexible circuit board 11 uses multi-layer flexible sheet, and uses two panel construction. Dielectric material is glue polyimides, and conductor material is copper foil, and glue material is oxyphenisatin acetal.11 both ends of flexible circuit board are equipped with flexibility 11 fixing end 10 of circuit board, 11 fixing end 10 of flexible circuit board is equipped with buckle, for realizing the connection between submarine cable 8.

Weldering sets 20 spacing as the MEMS module for concatenating bunchiness by 485 bus connection wires 15 of 5m on flexible circuit board 11 Component, MEMS modular assembly include that TTL turns 485 bus modules 12 and MEMS acceleration sensor module 13.MEMS acceleration passes Sensor module is 3 axle acceleration sensors, the acceleration of acquisition can be carried out to data fusion to obtain posture information, and shown It is shown as the data mode of quaternary number or Eulerian angles.Four-wire system 485 is additionally provided between 485 bus connection wires 15 and MEMS modular assembly Connector 14.485 bus connection wires 15 connect central controller 16, and central controller 16 connects electrooptic modulator 18, center control Device 16 processed includes embedded controller and independent current source, and embedded controller is responsible for the number of all MEMS acceleration sensor modules According to acquisition.

Electrooptic modulator 18 is using certain electro-optic crystals, such as lithium columbate crystal (LiNb03), gallium arsenide (GaAs) Modulator made of electrooptic effect with lithium tantalate (LiTa03).Electrooptic effect, which is worked as, to be applied voltages on electro-optic crystal When, the refractive index of electro-optic crystal will change, and as a result cause the variation of the light wave characteristic by the crystal, realize to optical signal Phase, amplitude, intensity and polarization state modulation.

Central controller 16 and electrooptic modulator 18 with the central controller and electric light that are made of the patch battery pack of 24V Modulator battery module 19 is connected.17 phase of patch battery sensor power module of MEMS acceleration sensor module 13 and 5V Even.

Monitoring system fits in the outside at submarine cable position 6 to be monitored, and submarine cable passes through the winch that bank base 1 is equipped with 4 are laid, and central controller 16 connects photoelectric converter 3 by data transmission fiber 7.Data transmission fiber 7 also with seabed Cable 8 is bonded, and is encapsulated submarine cable 8, data transmission fiber 7 and monitoring system jointly by wire armoring.

In the present invention, entire monitoring system is laid in Exterior cable after processing is completed in submarine cable 8, to having processed At cable internal structure design do not have an impact, whole process will not damage 8 data of submarine cable 8 itself and submarine cable The functions such as communication.

As shown in Fig. 2, data transmission fiber 7 and submarine cable 8 form compound umbilical, no matter in processing or When laying and cable and when monitoring system worked well, the phenomenon that two lines road is all independent from each other, is not in interference. The outside of compound umbilical is wrapped up by wire armoring shell 9, on the one hand has water-proof function, certain guarantor is played to monitoring system Shield effect.On the other hand it avoids that cost can be effectively reduced using expensive copper wire armored shell.

The course of work of the invention is as follows:

Entire monitoring system is directly attached to submarine cable 5 and lays with cable, the main cable for monitoring key position 6 Form.The monitoring system being attached on cable can acquire the acceleration information of each physical points, and then passing through 485 buses 15 will Data are transmitted directly to central controller 16, central controller 16 data are classified and are packaged after by electrooptic modulator 18 Optical signal is converted the data into, 3-axis acceleration data are transferred to by monitoring host computer 2 by data transmission fiber 8, then pass through Photoelectric converter 3 will position by the algorithm of host computer 2 and reconstruct the shape of key monitoring point after data convert, pass through light The fast characteristic of fine transmission speed guarantees real-time.Entire submarine cable monitoring system has the working characteristics of normally closed type, when there is ship Only when key position passes through or casts anchor, host computer, which sends instruction, allows monitoring system to start, and sensor starts to acquire acceleration Data, position and reconstruct the form of cable, and whether monitoring cable damages.When sea situation is stablized, host computer, which sends signal, to be made Sensor is closed.The working characteristics of normally closed type can be such that the energy consumption of whole system is preferably minimized, furthermore can be by periodically starting Monitoring system finds the breakage or existing security risk of cable in time.

It needs to illustrate, the above is only preferable implementation examples of the invention, are not intended to restrict the invention, all in spirit of that invention Within principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (7)

1. a kind of high-precision real-time monitoring system for the positioning of remote submarine cable and deformation, including monitoring host computer； It is characterized in that, further including monitoring system；

The monitoring host computer is set in bank base and is connected with photoelectric converter；

The monitoring system includes flexible circuit board, and weldering sets several by 485 bus connection wires concatenation bunchiness on flexible circuit board MEMS modular assembly, MEMS modular assembly includes that TTL turns 485 bus modules and MEMS acceleration sensor module；485 buses 485 connector of four-wire system is additionally provided between connecting line and MEMS modular assembly；485 bus connection wires connect central controller, center Controller connects electrooptic modulator, central controller and electrooptic modulator with central controller and electrooptic modulator battery module It is connected；MEMS acceleration sensor module is connected with probe power module；

The monitoring system fits in the outside at submarine cable position to be monitored, and the central controller passes through data transmission fiber Connect the photoelectric converter；The data transmission fiber is also bonded with submarine cable, and by wire armoring by submarine cable, Data transmission fiber encapsulates jointly with monitoring system.

2. system according to claim 1, which is characterized in that the MEMS acceleration sensor module is 3 axle accelerations Sensor.

3. system according to claim 1, which is characterized in that the photoelectric converter is photodiode.

4. system according to claim 1, which is characterized in that adjacent MEMS acceleration sensing on the flexible circuit board Device intermodule is away from for 5m.

5. system according to claim 1, which is characterized in that the probe power module is the patch battery of 5V；Institute Central controller and electrooptic modulator battery module are stated as the patch battery pack of 24V.

6. system according to claim 1, which is characterized in that the flexible circuit board uses multi-layer flexible sheet, and uses Two panel construction；Dielectric material is glue polyimides, and conductor material is copper foil, and glue material is oxyphenisatin acetal.

7. system according to claim 1, which is characterized in that the flexible circuit board ends are fixed equipped with flexible circuit board End, flexible circuit board fixing end is equipped with buckle, for realizing the connection between submarine cable.