CN209386023U - A kind of distal end Distributed Detection pipeline - Google Patents

Abstract

The utility model provides a kind of distal end Distributed Detection pipeline, which includes pipe main body, more than one optical signal transceiver equipment and optical fiber；The optical fiber and one above optical signal transceiver equipment are arranged between the inner wall of the pipe main body and/or the outer wall of the pipe main body and/or the inner and outer wall of the pipe main body；The optical signal transceiver equipment includes optical emitting module, optical signal receiving module, photoelectric conversion module, middle control module and communication module.The distal end Distributed Detection pipeline realizes that the remote distributed of pipeline detects using reflection characteristic of the optical fiber to optical signal, and the transmission and acquisition of optical signal are carried out by multiple optical signal transceiver equipment, data upload is carried out based on wired or wireless mode, has the characteristics that pipe detection continuity is good, positioning performance is good, monitoring effect is good.

Description

A kind of distal end Distributed Detection pipeline

Technical field

The utility model relates to arrive Monitoring Pinpelines field, and in particular to arrive distal end Distributed Detection pipeline.

Background technique

In traditional Monitoring Pinpelines field, the subsurface equipments such as aqueduct, blow-off line are largely using regular people The mode of work maintenance is monitored maintenance.During urban construction, as surface structures quantity gathers increase, water-supply-pipe The monitoring and maintenance cost of the subsurface equipments such as road, blow-off line is higher and higher；In addition, with the scale and complexity of piping network Increase, personal monitoring maintenance workload greatly increase.That therefore, it is necessary to a kind of monitoring costs is lower, task difficulty is lower Equipment is monitored pipeline.

Utility model content

In order to overcome described problem, the utility model provides a kind of distal end Distributed Detection pipeline, has pipe detection The features such as continuity is good, positioning performance is good.

The utility model provides a kind of distal end Distributed Detection pipeline, and the distal end Distributed Detection pipeline includes pipeline Main body, more than one optical signal transceiver equipment and optical fiber；

The inner wall of the pipe main body is arranged in the optical fiber and one above optical signal transceiver equipment, and/or Between the inner and outer wall of the outer wall of the pipe main body and/or the pipe main body；

The optical signal transceiver equipment includes optical emitting module, optical signal receiving module, photoelectric conversion module, middle control Module and communication module；

One end of the optical fiber is connect with the optical emitting module and optical signal receiving module, the other end it is open or with The optical emitting module of adjacent optical signal transceiver equipment is connected with optical signal receiving module；

The middle control module and the optical emitting module use signal connection type, the optical signal receiving module warp It is connect after the photoelectric conversion module with the middle control module, the middle control module and the communication module use signal connection side Formula.

The shaft axis of optic fibre is parallel with the axis of the pipe main body.

The optical fiber is arranged on the pipe main body with helical structure.

The optical emitting module includes laser generator, laser modulator and optical splitter；The laser generator Output end and laser modulator input terminal connect；The output end of the input terminal of the optical splitter and the laser modulator Connection；

The optical splitter has outer output end and interior output end, and outer output end is connect with the optical fiber, interior output end warp It is connect after the photoelectric conversion module with the middle control module.

The optical signal receiving module includes wavelength division multiplexer；The wavelength division multiplexer include an input terminal, one it is defeated Outlet and multiple branch output ends；The outer output end of the input terminal of the wavelength division multiplexer and optical splitter connects, output end with Distributed light sensor connection；Multiple branch output ends have different filtering wavelength of optical signal, and through the photoelectric conversion It is connect after module with the middle control module.

The middle control module is based on 80C51 single chip circuit and is made.

The communication module includes wireless communication module, and the middle control module is based on the wireless communication module and cloud service Device communication.

The communication module includes wire communication module, and the wire communication module includes fiber optic telecommunications module；In described Control module is attached based on the fiber optic telecommunications module and adjacent optical signal transceiver equipment.

The optical signal transceiver equipment also has a waterproof case；The optical signal transceiver equipment is based on the waterproof case It is fixed on the pipe main body inner wall.

Correspondingly, the utility model additionally provides a kind of Distributed Detection pipe-line system, Distributed Detection pipeline system System includes Distributed Detection pipeline described in any of the above item, for outputting optical signals to the optical fiber and to receive the optical fiber anti- The optical signal transceiver equipment for the modulated optical signal penetrated；The optical signal transceiver equipment with it is any one in one or more the optical fiber The one or both ends connection of optical fiber.

The utility model provides a kind of distal end Distributed Detection pipeline, is realized using reflection characteristic of the optical fiber to optical signal The remote distributed of pipeline detects, and the transmission and acquisition of optical signal are carried out by multiple optical signal transceiver equipment, based on wired Or data upload is wirelessly carried out, have the characteristics that pipe detection continuity is good, positioning performance is good, monitoring effect is good.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 shows the Distributed Detection pipe-line system structural schematic diagram of the utility model embodiment；

Fig. 2 shows optical fiber back-scattering spectrum distribution maps；

Fig. 3 shows the OTDR test curve figure corresponding to each state of optical fiber；

Fig. 4 shows the utility model embodiment OTDR mechanism principle figure；

Fig. 5 shows optical fiber the first setting structure schematic diagram of the utility model embodiment；

Fig. 6 shows optical fiber the second setting structure schematic diagram of the utility model embodiment；

Fig. 7 shows the optical fiber third setting structure schematic diagram of the utility model embodiment；

Fig. 8 shows the 4th setting structure schematic diagram of optical fiber of the utility model embodiment；

Fig. 9 shows the optical signal transceiver device structure schematic diagram of the utility model embodiment.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts All other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1 shows the Distributed Detection pipe-line system structural schematic diagram of the utility model embodiment.The utility model is real The Distributed Detection pipeline for applying example includes optical signal transceiver equipment 3, pipe main body 1, distributed fiberoptic sensor 2.

The pipe main body 1 can be used the materials such as plastics, cement or metal and be made, for originally water transport, sewage fortune The purposes such as defeated.Under normal circumstances, pipe main body is buried in underground, in place on be provided with the vertical pipeline for leading to bottom surface Well head.

In order to obtain the whole operating condition of pipe main body 1, the Distributed Detection pipeline of the utility model embodiment uses distribution Formula fibre optical sensor 2 is used as detecting element, and the quantity type of distributed fiberoptic sensor has more than 70 kinds, can be used for measuring a variety of objects Reason amount, such as sound field, electric field, pressure, temperature, angular speed, acceleration.In specific implementation, distributed fiberoptic sensor it is main There are two types of types, and one kind is physical property type fibre optical sensor, and one kind is structural type fibre optical sensor.

Physical property type fibre optical sensor is to be transformed to the physical quantity of environment to the sensibility of environmental change using optical fiber itself The optical signal of modulation, light modulation effect of the working principle based on optical fiber, i.e. optical fiber in outside environmental elements, as temperature, pressure, Under the influence of the factors such as electric field, magnetic field, light characteristic, such as phase, wavelength and light intensity light characteristic can change.Therefore, pass through Measurement and calculating to the light phase of optical fiber, wavelength and light intensity, the situation of change of available measurand.

Structural type fibre optical sensor is to carry out the detection of environmental physics amount by photodetector, and light detection original part is in environment object Under the influence of reason amount, the light characteristic of the light by light detection original part can be changed, by optical fiber to the conduction of light, in a fiber It catches and grabs corresponding optical signal, the environmental physics amount of pipeline can be obtained.Using structural fibre optical sensor, light Fibre is only as the communication media of light.Specifically, photodetector can be the light detections original parts such as fiber grating, wherein application is most To be widely Bragg optical-fiber grating sensor.

In conclusion the working principle of physical property type fibre optical sensor and structural type fibre optical sensor is optical fiber or light detection Element can make the light characteristic of the part light transmitted in optical fiber change under the change of external physical quantity, be generated by obtaining The optical signal of light characteristic variation, can derive the situation of change of external physical quantity；It, can when using physical property type light sensor Remote computation goes out the light characteristic situation of change of optical fiber any position, to understand the physical quantity variation feelings of pipe main body any position Condition obtains the operating condition of pipe main body in real time.

Physical property type fibre optical sensor and structural type fibre optical sensor two ways implement the utility model individually below The Distributed Detection pipeline of example is introduced:

Embodiment one:

Physical property type fibre optical sensor uses optical fibers as sensing responsive element and transmission signal media according in optical fiber simultaneously The generated light characteristic variation in different fiber positions of the light of transmission, can obtain the physical quantity variation feelings on optical fiber any position Condition.Fig. 2 shows optical fiber back-scattering spectrum distribution maps, specifically, when laser pulse is propagated in a fiber with optical fiber molecule phase Interaction, it may occur that three kinds of Rayleigh scattering, Brillouin scattering, Raman scattering effects scatter between the wavelength of light and intensity and all have There is apparent otherness, various light can be distinguished by wavelength；Three classes sensing technology is derived based on the principle, respectively To the sensing technology of Rayleigh scattering, the sensing technology using Ramam effect, the sensing technology using brillouin effect after utilization；With It is lower that various sensing technologies are introduced respectively.

To the sensing technology of Rayleigh scattering after utilization: Rayleigh scattering main feature has: Rayleigh scattering belongs to elastic scattering, no Change the frequency of light wave, i.e. Rayleigh scattering light and incident light wavelength having the same；Four times of scattered light intensity and lambda1-wavelength Side is inversely proportionalλ is lambda1-wavelength, and I is Rayleigh scattering light light intensity；Scattered light intensity becomes with direction of observation, not On same direction of observation, scattered light intensity is different, is represented by I (θ)=I₀(1+cos²θ), wherein θ is incident light direction and Rayleigh Scatter the angle of light direction；I₀It isScattered light intensity on direction；Rayleigh scattering light has polarizability, and polarization degree takes Certainly in the angle theta of scattering light and incident light.

When light wave onwards transmission in a fiber, Rayleigh scattering light backwards can be constantly generated along optical fiber, Rayleigh dissipates The power for penetrating light is directly proportional to the light wave power of scattering is caused；Due to there is loss in optical fiber, when light wave is propagated in a fiber Energy can constantly decay, therefore the loss letter along optical fiber is carried in the Rayleigh scattering signal generated at different location in optical fiber Breath.In addition, the polarization state since light wave before scattering can be kept when Rayleigh scattering occurs, so Rayleigh scattering signal includes simultaneously light The information of wave polarization state.Therefore, after Rayleigh scattering light returns to optical fiber incidence end, by the function for detecting Rayleigh scattering signal Phenomena such as information such as rate, polarization state, the defect occurred in optical fiber after can acting on external factor, detects, to realize to work It is measured with physics such as the associated arguments on optical fiber such as pressure, bending.

Fig. 3 shows the OTDR test curve figure corresponding to each state of optical fiber.In specific implementation, OTDR, i.e. optical time domain are anti- Penetrate instrument its application principle be after to Rayleigh scattering principle；Assuming that when the non-reflective events such as welding, bending occur for optical fiber, OTDR Test curve shows as decaying；Assuming that OTDR test is bent when optical fiber occurs the reflection events such as to be flexibly connected, be mechanically connected, be broken Line is decayed after showing as step；Optical fiber connector is then that can generate irregular vibration, and light intensity is close to 0.

The operation process of traditional OTDR are as follows: processor issues driving signal to light source, and driving light source begins to send out optical signal, And the timing since the moment for issuing driving signal；Optical signal is exported after fiber coupler to optical fiber, with the biography of optical signal It broadcasts, to Rayleigh scattering after each point generates on optical fiber；Backward Rayleigh scattering light is converted to after fiber coupler and photoelectric converter Electric signal is for processor processing；Processor judges to dissipate after generating this to Rayleigh according to the backward Rayleigh scattering light time received Penetrate the fiber distance of light；In actual implementation, since photoelectric converter needs certain conversion time, and optical signal is in a fiber Spread speed is very fast, and small time difference will lead to fiber distance measuring and calculating and deviation occurs.

Fig. 4 shows the utility model embodiment OTDR mechanism principle figure.In the utility model embodiment, processor is driven Dynamic light source issues optical signal, and the optical signal of light source output passes through the beam splitters such as optical splitter from outer output end and interior output end two Road synchronizes output, wherein outer output end is connected to optical fiber through fiber coupler, interior output end after photoelectric converter with place Manage device connection, the enabling signal as timing signal；Since the enabling signal and end signal of timing signal are undergone similarly Treatment process, therefore, timing are more accurate, and the measuring and calculating of fiber distance is more accurate.

It should be noted that the calculation formula of fiber distance d isWherein d is fiber distance, and t is timing time, C is vacuum light speed, and n is optical fibre refractivity.Ramam effect explained below, brillouin effect also need using the optical fiber away from From the calculating that calculation formula carries out fiber distance.

Utilize the sensing technology of Ramam effect: Raman scattering is the thermal vibration and photon interaction hair due to optical fiber molecule It gives birth to energy exchange and generates, if a part of luminous energy is converted into thermal vibration, a light longer than optical source wavelength will be issued, Referred to as stokes light；If a part of thermal vibration is converted to luminous energy, a light shorter than optical source wavelength will be issued, referred to as Anti-Stokes light.According to Raman scattering theory, under the conditions of spontaneous Raman scattering, stokes light is unglazed with temperature, instead this The intensity of lentor light then varies with temperature, and specific formula for calculation isR (T) is Temperature, I_asFor anti-Stokes light light intensity, I_sFor stokes light light intensity, λ_sFor Stokes optical wavelength, λ_asFor anti-stoke This optical wavelength, h are Planck's constant, and c is the speed of light in a vacuum, and μ is wave-number migration, and k is Boltzmann constant, and T is Absolute temperature.

In specific implementation, since the difference in attenuation and detector of both different wavelengths of light are to the difference in response of both light It is different, it needs to eliminate the effects of the act by setting calibration area.Specifically, calibration area may be provided at the preceding 200m of optical fiber, optical fiber can be put Enter in insulating box as reference optical fiber, sets its temperature as T₀, thenIn temp measuring system After calibration, the temperature value along each measurement point of optical fiber can be confirmed by measuring R (T).

Utilize the sensing technology of brillouin effect: Brillouin scattering be light wave, sound wave interaction and one kind for generating is non- Elastic scattering, the stokes light generated in scattering process has a frequency displacement, referred to as Brillouin shift relative to pump light, right In common light, value is about more than ten of gigahertz (GHZ)；It the temperature of the power of brillouin scattering signal and frequency displacement and optical fiber and answers Power is related.Distributed sensing technology based on Brillouin scattering can be divided into two major classes: be based on stimulated Brillouin scattering The technology of (Stimulated Brillouin Scattering, SBS) and technology based on spontaneous brillouin scattering (Spontaneous Brillouin Scattering, spBS).Sensor or sensor-based system based on analytical technology generally have Preferable performance, because the system based on SBS has higher signal-to-noise ratio (signal-to-noise ratio, SNR), thus Keep its signal detection and signal processing relatively simple, but analytical technology is generally required from optical fiber both ends while being detected；Another party Face, the reflection technology signal based on spBS is weaker, needs complicated signal processing method, but its advantage is that only need to be in optical fiber One end detection, and the still measurable optical fiber between end of probe to breakpoint when fibercuts.In specific implementation, have Five kinds of embodiments of BOTDR, BOTDA, BOCDA, BOCDR, BOFDA.

In conjunction with attached drawing optical fiber back-scattering spectrum distribution map shown in Fig. 2, scattered light signal caused by each scattering effect has There is more apparent wavelength difference, extracted various scattering light respectively by wavelength division multiplexer, and carry out corresponding photoelectric conversion, The purpose that a variety of scattering effect Simultaneous Monitorings or timesharing monitoring can be achieved, is greatly saved device resource.

In conclusion physical property type fibre optical sensor is using optical fiber itself as sensor, by by fiber arrangement in pipeline In main body, the operating condition of pipe main body can detect, according to the difference of fiber arrangement form, it can be achieved that pipe main body two dimension, three-dimensional Detection effect.

Basic, for using pipe main body made of the hard materials such as cement, metal, in order to accurately obtain pipeline external With internal operating condition, optical fiber can be arranged on the periphery of pipe main body, can also be arranged on the inner wall of pipe main body.

When fiber arrangement is outside pipe main body, it is mainly used for obtaining external environment to shadow caused by pipe main body It rings, temperature change outside the vibration that is generated such as the pressure of outer bound pair pipe main body periphery, pipe main body periphery, pipe main body, Whether pipeline occurs leakage etc.；When fiber arrangement is inside pipe main body, it is mainly used for obtaining internal flow to pipe main body Caused influence destroys, in pipeline as whether internal fluid pressure is excessive, whether pipeline occurs leakage, whether pipeline occurs Whether portion's fluid flows normal etc.；Specifically, in order to increase fiber lifetime, needing apparatus when fiber arrangement is inside pipeline There is the adhesive of antifouling property and waterproof performance to conform to optical fiber in inner wall of the pipe.

It, can will be by pipeline since flexible plastic has certain elasticity for using pipe main body made of flexible plastic Internal or external pressure is transferred to the inside of pipe main body, and therefore, optical fiber, which can be embedded in, to be arranged in pipe main body, utilizes pipe Road main body is protected optical fiber itself, and can accurately obtain the inside and outside pressure information of pipe main body simultaneously, to pipeline Operating condition obtained.

In addition, when optical fiber is embedded in pipe main body, when breakage occurs for pipe main body, various scattering effects Apparent variation can be generated, therefore, when FDDI FDM Fiber Duct is embedded in pipe main body, the breakage for detecting pipeline has good Effect.

Fig. 5 shows optical fiber the first setting structure schematic diagram of the utility model embodiment.Specifically, optical fiber 201 can be with The mode parallel with 1 axis direction of pipe main body is arranged in the inner wall of pipe main body, periphery or is embedded in pipe main body, and curved The optical fiber set-up mode of song setting is compared, and since the order of reflection of light is reduced, the propagation distance of light in a fiber increases, same Under light conditions, the Distributed Detection distance of light increases.In specific implementation, an optical fiber 201 can be installed to the optical fiber is corresponded to Pipe main body 1 on position realizes one-dimensional operating condition detection；In order to realize the operating condition inspection to the multiple directions dimension of pipe main body 1 It surveys, multifiber 201 can be set on the different directions of pipe main body, and the density that optical fiber 201 is arranged is higher, to pipe main body 1 Detection area coverage it is bigger；It will not be unexpected cataclysm, such as since the operating condition of pipe main body is with centainly successional The breakage of pipe main body hole always has certain area, pressure always to have certain area to the active area of pipe main body, Therefore, by the comprehensive monitoring of multifiber 201, the actual condition of pipe main body 1 can accurately be obtained.

Fig. 6 shows optical fiber the second setting structure schematic diagram of the utility model embodiment.Specifically, optical fiber 401 can be with Mode spirally is arranged in the inner wall of pipe main body 1, periphery or is embedded in pipe main body 1, and is parallel to pipe main body The optical fiber set-up mode of axis is compared, and the mode of optical fiber 401 spirally, which is arranged, can form one around the three of pipe main body Tie up network；The helical angle of optical fiber 401 is smaller, and the detection density of the three-dimensional network is bigger, gets over to the Effect on Detecting of pipe main body 1 It is good.

Fig. 7 shows the optical fiber third setting structure schematic diagram of the utility model embodiment.Specifically, can also be by more The mode of root optical fiber spirally is arranged, and forms be more good pipeline operating condition detection effect.Specifically, multifiber 501 can be arranged in 1 inner wall of pipe main body, periphery with different helical angles, different rotation directions or are embedded in pipe main body 1, It, can high-precision determining pipeline operating condition by the information of comprehensive multifiber.

Fig. 8 shows the 4th setting structure schematic diagram of optical fiber of the utility model embodiment.Specifically, multifiber 601 Composite construction can be used to be arranged.Specifically, at least one optical fiber in multifiber 601 using in parallel with pipe main body axis The mode of line is arranged in 1 inner wall of pipe main body, periphery or is embedded in pipe main body 1, at least one in multifiber 601 Optical fiber is arranged in 1 inner wall of pipe main body, periphery with helical structure or is embedded in pipe main body 1, with attached drawing mode shown in fig. 5 It compares, error when being routed for Helical Fiber is more accurate for the calculating of pipeline distance due to the presence of straight optical fiber, pipe The positional accuracy measurement of road main body 1 is higher.

Embodiment two:

It is commonly fiber-optic grating sensor (Fiber Grating in numerous structural type fibre optical sensors Sensor).Fiber-optic grating sensor is to obtain biography to the modulation of optical fiber Bragg (Bragg) wavelength by extraneous physical parameter Feel information, is a kind of wavelength modulation fiber sensor.Fiber-optic grating sensor can be realized to strain, temperature, acceleration, pressure Etc. the detection of more physical quantitys.

Specifically, strain grating sensor that is, under the influence of the strain of itself, can change itself under extraneous pressure influence The wave length shift of fiber grating in concrete application, since fiber grating is more fragile, is very easy to broken in a bad working environment It is bad, thus could be used after needing to be packaged it, currently used packaged type mainly has substrate formula, tubular type and based on pipe The both ends of formula are clipping.

Specifically, temperature grating sensor is also the factor for directly affecting optic fiber grating wavelength variation, answered with fiber grating Change sensor is the same, and Temperature fiber Grating Sensor is also required to be packaged, and the main function of encapsulation technology is protection and enhanced sensitivity.

Since structural fibre optical sensor can only act in generation on the position that sensor is arranged, usually in specific position Middle use.In blow-off line application, strain grating sensor may be provided at the high-load regions such as highway bottom, massif bottom On pipe main body；And to may be provided at plateau region, high geothermal area etc. biggish with room temperature temperature difference for temperature grating sensor In main body；Correspondingly, fiber-optic grating sensor can be similarly disposed at the inner wall of pipe main body, periphery or be embedded in pipe main body In.

The structure of distributed fiberoptic sensor is introduced respectively above, since distributed fiberoptic sensor is passive device Part, correspondingly, the utility model carries out the transmitting-receiving and processing of optical signal by optical signal transceiver equipment.

Embodiment three:

Common, for different types of testing principle, existing optical signal transceiver equipment mainly includes DTS, BOTDA etc. Several major class, the utility model embodiment are answered to realize a variety of measurement methods in optical signal transceiver equipment for single-ended detection Structure with mode, the optical signal transceiver equipment of the utility model embodiment is as follows:

The optical signal transceiver equipment of the utility model embodiment includes optical emitting module, optical signal receiving module, light Signal processing module and middle control module；Since the detecting distance of an optical signal transceiver equipment is limited, and the arrangement of piping network It is intricate, therefore, in practical applications, needs to be arranged multiple optical signal transceiver equipment and carry out relaying detection.In order to multiple The information of optical signal transceiver equipment, which is acquired, to summarize, and the optical signal transceiver equipment of the utility model embodiment further includes simultaneously leading to Believe module.

Specifically, optical emitting module is used to generate the laser of specific wavelength, frequency, including a tunable laser；It can Adjusting laser can be divided into internal modulated laser and externally modulated laser two types, for the ease of middle control module to tunable laser Laser parameter be adjusted, the tunable laser of the utility model embodiment uses externally modulated laser, externally modulated laser Including laser generator and laser modulator.After laser generator generates laser, laser modulator is modulated laser；Specifically , on the modulator plus modulated signal voltage, make certain physical characteristics of modulator that the variation of phase occur, when laser passes through it Modulated；The modulation system of externally modulated laser has Electro-optical Modulation, acousto-optic modulation, magneto-optic modulation and power modulation etc. a variety of Mode, it is Electro-optical Modulation mode that the utility model embodiment, which uses, i.e., laser modulator is electrooptic modulator.

Specifically, part testing principle needs to be applied to otherness or ratio between output optical signal and modulated optical signal It is calculated, therefore, in specific implementation, an optical splitter can be accessed in laser modulator end, there are two defeated for optical splitter tool Outlet, an output end are outer output end, and an output end is interior output end；Laser is after laser modulator is modulated, from outer defeated Outlet exports outer output optical signal, output optical signal in interior output end synchronism output.

Specifically, due to using single-ended detection mode, the light of the optical signal transceiver equipment of the utility model embodiment Signal output end is simultaneously optical signal input；Outer output optical signal imports inside of optical fibre after light signal output end output, by Modulation, the production of the modulated optical signal of distributed fiberoptic sensor can be generated in distributed fiberoptic sensor in outer output optical signal Raw is the function of distance of the distributed fiberoptic sensor apart from light signal output end, and according to OTDR principle, as optical signal is inputted Termination receives the function of the time of modulated optical signal.For example, light signal output end starts outer output optical signal, t at the t=0 moment =t1 moment optical signal input receives a modulated optical signal a1, and modulated optical signal a1 corresponding is distance L1=v*t1, V=C/n, wherein v is light transmission speed in a fiber, and C is the light velocity in vacuum, and n is optical fibre refractivity；By to continuous time Sampling, can obtain the modulated optical signal of whole section of optical fiber.

Due to, there is outer output optical signal and more modulation optical signal, being needed inside optical signal transceiver equipment in optical fiber The separation of optical signal is carried out, is provided with optical signal separation module, this reality in the optical signal transceiver equipment of the utility model embodiment It include multipath light signal split circuit in optical signal separation module, per light all the way with the optical signal separation module of new embodiment The optical signal of the corresponding interval range wavelength of Signal separator route；Specifically, optical signal separation module includes wavelength division multiplexer. Specifically, circulator can be used to export optical signal since light signal output end and optical signal input are using the form of multiplexing End and optical signal input carry out duplexing multiplexing, guarantee the isolation of optical signal output and input, but in actual implementation, due to output Optical signal and the wavelength of modulated optical signal, frequency, intensity all have certain otherness, and the setting of circulator can play certain Effect, but be not necessary；In fact, being directed to different testing principles, it is a variety of that wavelength division multiplexer, optical splitter etc. can be used Element separates optical signal；By that can be carried out under more detection patterns to repeated use of device such as wavelength division multiplexer, optical splitters Switching, to realize different detection modes.

Optical signal needs just to can be used by photoelectric conversion after separation acquisition, therefore, the utility model embodiment Optical signal transceiver equipment inside be additionally provided with photoelectric conversion module, photoelectric conversion module is internally provided with multiple photoelectric converters Part, each electrooptical device respectively corresponds every optical signal split circuit all the way in optical signal separation module, by optical signal The optical signal of split circuit is converted to electric signal；Meanwhile an electrooptical device in photoelectric conversion module also needs to correspond to In interior output end, the optical signal of interior output end is converted into electric signal.

After photoelectric conversion module, a variety of optical signals are converted to electric signal, and middle control module is needed to adopt electric signal Collection and processing；In specific implementation, for middle control module after being acquired to electric signal, the calculation processing of electric signal can be in middle control module Itself upper progress；Since final data requires to be uploaded to Cloud Server, the calculation processing of electric signal can also be in cloud service It is carried out in device, to reduce the hardware requirement of the middle control module of optical signal transceiver equipment, middle control module has only needed to be implemented powered-down The data of signal acquire and are packaged work, advantageously reduce the cost of manufacture of middle control module；It is corresponding, the utility model embodiment Optical signal transceiver equipment also wrap expand communication module, communication module includes wireless communication module and wire communication module, cable modem Believe that module is fiber optic telecommunications module in the utility model embodiment；The position wireless signal set by the optical signal transceiver equipment When better, can by wireless communication module by it is middle control module packing acquisition information be uploaded to Cloud Server；If light is believed When position wireless signal set by number transceiver is poor, using distributed fiberoptic sensor, i.e. the utility model is implemented The optical fiber of example carries out data transmission, and the packing acquisition information of middle control module is transmitted to prime optical signal transceiver equipment by optical fiber Or rear class optical signal transceiver equipment, it retransmits after relaying to Cloud Server.

It should be noted that prime optical signal transceiver equipment or rear class optical signal transceiver equipment and current demand signal transceiver Between can be attached based on distributed fiberoptic sensor (i.e. the optical fiber of the utility model embodiment), on the one hand, distributed light Fiber sensor can be used for data transmission；On the other hand, when using the detection method of optical fiber double-end monitor, two continuous light letters The double-end monitor device being mutually paired can be formed between number transceiver, thus the detection mode of expansion line main body, with Preferably obtain pipe main body operating condition.

Fig. 9 shows the optical signal transceiver device structure schematic diagram of the utility model embodiment.In conclusion this is practical new The optical signal transceiver equipment of type embodiment includes middle control module, optical emitting module, optical signal receiving module, photoelectric conversion mould Block and communication module.

Wherein, optical emitting module includes laser generator, laser modulator and optical splitter, laser generator it is defeated The connection of the input terminal of outlet and laser modulator, the output end of laser modulator and the input terminal of optical splitter connect, optical branching There are two output end, respectively outer output end and interior output end, the input terminal connections of interior output end and photoelectric conversion module for utensil.

Optical signal receiving module includes wavelength division multiplexer；The wavelength division multiplexer includes an input terminal, an output end With multiple branch output ends；The input terminal of wavelength division multiplexer and the outer output end of optical splitter connect, output end and distributed light The connection of line sensor；Multiple branch output ends are respectively used to extract the scattering light of different wave length, such as Rayleigh scattering light, anti-stoke The input terminal of this light, stokes light, Brillouin scattering etc., multiple branch output ends and photoelectric conversion module connects.

There are multiple photo-electric conversion elements, multiple photo-electric conversion elements are to access photoelectric conversion mould inside photoelectric conversion module Block carries out photoelectric conversion processing, the data collection terminal of the output end of multiple photo-electric conversion elements and middle control module per optical path all the way Connection.

Since middle control module is only responsible for carrying out laser generator and laser modulator Laser Modulation control, acquisition electric signal Packing operation and based on communication module and Cloud Server, prime optical signal transceiver equipment, rear class optical signal transceiver equipment into Row data communication does not need to carry out excessively complicated calculating, and therefore, middle control module can be used that cost is relatively low and small volume The microcontroller or 51 single-chip microcontrollers of STM32 series, specifically, the 80C51 that the utility model embodiment is used with Intel company Single chip circuit acquires the telecommunications after photoelectric conversion of each optical path by data collection terminal (substantially read-write memory address) Number, after being then packaged in a particular form, output to communication module；Meanwhile it program based on preset value or being received from communication module The control instruction arrived, controls optical emitting module and optical signal receiving module.

Communication module includes that wireless communication module and wire communication module include optionally optical fiber in wire communication module Communication module.Communication module regards the intensity of current radio signal, and the package information of middle control module is sent out based on wireless communication module Send to Cloud Server, or by wire communication module be sent to prime optical signal transceiver equipment or rear class optical signal transceiver equipment into It retransmits after row relaying to Cloud Server；Since the distributed fiberoptic sensor of the utility model embodiment has sensor simultaneously Therefore between two adjacent optical signal transceiver equipment, it can be connected by distributed fiberoptic sensor with data-transformation facility It connects；Meanwhile distributed fiberoptic sensor can be also used for realizing distributed fiberoptic sensor both-end cooperation detection function, in reality There is good practicability in.

Specifically, SFP optical module can be selected in fiber optic telecommunications module, LTE protocol 4G module is can be selected in wireless communication module.

In specific implementation, modular setting is can be used in optical signal transceiver equipment, and the shell of water proof and dust proof is arranged in outside, It is fixed on the inner wall of pipe main body, periphery or is embedded in pipe main body, in specific implementation, due in optical signal transceiver equipment Zero device is all existing electronic device, and the setting of Highgrade integration can be used, to reduce the volume of optical signal transceiver equipment；Optical fiber The SC interface of small volume can be used in interface, to further reduce the volume of optical signal transceiver equipment.

The utility model provides a kind of distal end Distributed Detection pipeline, is realized using reflection characteristic of the optical fiber to optical signal The remote distributed of pipeline detects, and the transmission and acquisition of optical signal are carried out by multiple optical signal transceiver equipment, based on wired Or data upload is wirelessly carried out, have the characteristics that pipe detection continuity is good, positioning performance is good, monitoring effect is good.

Above to a kind of distal end Distributed Detection pipeline provided by the utility model embodiment, it is described in detail, Specific case used herein is expounded the principles of the present invention and embodiment, and the explanation of above embodiments is only It is the method and its core concept for being used to help understand the utility model；At the same time, for those skilled in the art, foundation The thought of the utility model, there will be changes in the specific implementation manner and application range, in conclusion in this specification Appearance should not be construed as a limitation of the present invention.

Claims (9)

1. a kind of distal end Distributed Detection pipeline, which is characterized in that the distal end Distributed Detection pipeline includes pipe main body, one A above optical signal transceiver equipment and optical fiber；

The inner wall of the pipe main body and/or described is arranged in the optical fiber and one above optical signal transceiver equipment Between the inner and outer wall of the outer wall of pipe main body and/or the pipe main body；

The optical signal transceiver equipment includes optical emitting module, optical signal receiving module, photoelectric conversion module, middle control module And communication module；

One end of the optical fiber is connect with the optical emitting module and optical signal receiving module, the other end it is open or with it is adjacent The optical emitting module of optical signal transceiver equipment is connected with optical signal receiving module；

The middle control module and the optical emitting module use signal connection type, described in the optical signal receiving module warp It is connect after photoelectric conversion module with the middle control module, the middle control module and the communication module use signal connection type.

2. Distributed Detection pipeline in distal end as described in claim 1, which is characterized in that the shaft axis of optic fibre and the pipeline master The axis of body is parallel.

3. Distributed Detection pipeline in distal end as described in claim 1, which is characterized in that the optical fiber is arranged with helical structure On the pipe main body.

4. Distributed Detection pipeline in distal end as described in claim 1, which is characterized in that the optical emitting module includes swashing Optical generator, laser modulator and optical splitter；The output end of the laser generator and the input terminal of laser modulator connect； The input terminal of the optical splitter is connect with the output end of the laser modulator；

The optical splitter has outer output end and interior output end, and outer output end is connect with the optical fiber, described in interior output end warp It is connect after photoelectric conversion module with the middle control module.

5. Distributed Detection pipeline in distal end as described in claim 1, which is characterized in that the optical signal receiving module includes wave Division multiplexer；The wavelength division multiplexer includes an input terminal, an output end and multiple branch output ends；The wavelength-division multiplex The input terminal of device and the outer output end of optical splitter connect, and output end is connect with distributed light sensor；Multiple branch outputs End has different filtering wavelength of optical signal, and connect after the photoelectric conversion module with the middle control module.

6. Distributed Detection pipeline in distal end as described in claim 1, which is characterized in that it is mono- that the middle control module is based on 80C51 Piece electromechanics road is made.

7. Distributed Detection pipeline in distal end as described in claim 1, which is characterized in that the communication module includes wireless communication Module, the middle control module are based on the wireless communication module and communicate with Cloud Server.

8. Distributed Detection pipeline in distal end as described in claim 1, which is characterized in that the communication module includes wire communication Module, the wire communication module include fiber optic telecommunications module；The middle control module be based on the fiber optic telecommunications module with it is adjacent Optical signal transceiver equipment be attached.

9. Distributed Detection pipeline in distal end as claimed in any one of claims 1 to 8, which is characterized in that the optical signal transceiver Equipment also has a waterproof case；The optical signal transceiver equipment is based on the waterproof case and is fixed on the pipe main body inner wall On.