CN201540180U - Novel pressure sensing system - Google Patents

Abstract

The utility model relates to a novel pressure sensing system, which comprises a pulse laser 1, a coupler 2, a photoelectric detector 3, an amplifier 4, a data acquirer 5 and a computer 6, wherein the laser is connected with the coupler 2, an output end of the coupler 2 is connected with the photoelectric detector 3, the photoelectric detector 3 converts optical signals into electric signals, the electric signals amplified by the amplifier 4 are transmitted to the data acquirer 5 and processed by the same, and the processed signals are then transmitted to the computer 6 and displayed and detected on the same finally. Compared with the conventional pressure detection equipment, the pressure sensing system is high in flexibility, can actuate multipoint measurement and can also realize fixed-point detection to fixed locations after fixed portions are encircled according to needs.

Description

The novel pressure sensor-based system

Technical field

The utility model belongs to a kind of optical fiber vibration intrusion-detection system, specifically a kind of polarization optical fiber vibration intrusion-detection system of energy measuring pressure.

Background technology

Optical fiber vibration sensing technology range of application is very extensive, in the national defence field, this Fibre Optical Sensor can be laid in the abominable border of environment, and border security is carried out unattended real-time monitoring, utilize the contour science and technology of virtual instrument, can effectively differentiate activities such as the mankind, animal and vehicles.At public safety field, Fibre Optical Sensor can be laid on around airport, stadium and other key activities place, and emergency case such as personnel's invasion are effectively monitored.At energy field, the safety of petroleum pipe line is most important, and the stolen incident takes place often, and distributed fiberoptic sensor can carry out early warning to artificial destruction, has effectively guaranteed energy security;

The utility model uses pulsed laser as the 1550nm pulsed laser light source, by induction optical fiber, and optical module, photoelectric probe, signal amplifier, data acquisition unit and computing machine are formed.Its principle of work is: laser instrument is continuously launched laser pulse in the middle of optical module enters sensing optic cable, laser pulse is transferred to photoelectric probe after via mirror reflects light echo module and is converted into electric signal, advancing signal amplifier, data acquisition unit enters computing machine and carries out output alarm signal after the signal Processing.

Summary of the invention

Technical problem to be solved in the utility model is: the polarization optical fiber vibration intrusion-detection system that a kind of energy measuring pressure is provided.In addition, the variation of the utility model application optical fiber curvature radius realizes the monitoring to pressure intensity information, uses the OTDR technology to come the place that the time takes place is positioned simultaneously.

The decay of optical fiber can be described as following formula with the variation of bending radius:

${2\mathrm{\&alpha;}}_c=\frac{\sqrt{\mathrm{\&pi;}}{U}^2}{e_{\mathrm{\&gamma;}}{\mathrm{<figure-callout\; id="3"\; label="W"\; filenames="H2009200727877E00011.png"\; state="\{\{state\}\}">W</figure-callout>}}^{3/2}\sqrt{\mathrm{aR}}{V}^2{K}_{\mathrm{\&gamma;}-1}\left(W\right)K_{\mathrm{\&gamma;}+1}\left(W\right)}\&CenterDot;\exp (-\frac{{2\mathrm{<figure-callout\; id="3"\; label="W"\; filenames="H2009200727877E00011.png"\; state="\{\{state\}\}">W</figure-callout>}}^3}{3a^2{\mathrm{\&beta;}}^2}\frac{R}{a})---\left(1\right)$

In the formula, $U=\sqrt{k^2{n}_1^2-{\mathrm{\&beta;}}^2}a,$ $W=\sqrt{{\mathrm{\&beta;}}^2-k^2{\mathrm{<figure-callout\; id="2"\; label="n"\; filenames="H2009200727877E00011.png"\; state="\{\{state\}\}">n</figure-callout>}}_2^2}a,$ $V=\sqrt{n_1^2-{\mathrm{<figure-callout\; id="2"\; label="n"\; filenames="H2009200727877E00011.png"\; state="\{\{state\}\}">n</figure-callout>}}_2^2}\mathrm{ka}.$ N wherein ₁Be the refractive index of fibre core, n ₂Be the refractive index of covering, $k=\frac{2\mathrm{\&pi;}}{\mathrm{\&lambda;}}$ Be the wave number of free space, R is the bending radius of optical fiber, and n is a fiber core radius, and β is a propagation constant, and γ is an order of model, for basic mode e _γ=2, for high-order mode e _γ=1.In optical fiber, because the loss of high-order mode is much larger than the loss of low-order mode, so we mainly consider LP ₀₁And LP ₁₁Bending loss.Analyze bending loss as shown in Figure 2 by following formula with the variation relation figure of bending radius.

By accompanying drawing 2 as seen, the bending loss of optical fiber reduces along with the increase of bending radius, when bending radius is approximately 100mm, bending loss is very little, be approximately 0, when actual design, the condition that satisfies bending radius as far as possible and be 30mm reduces unnecessary bending loss, it can also be seen that by figure, when bending radius bending loss of optical fiber after less than 30mm can have clearly variation along with the variation of radius, test section optical fiber makes bending radius change because of ambient pressure changes, thereby has changed the middle transmission light intensity signal of optical fiber, comes pressure is detected by the variation that detects these light intensity signals.

Utility model uses the OTDR technology to position.OTDR is a kind of technology of the backscattering that produced of Rayleigh scattering when utilizing light to transmit in optical fiber and Fresnel reflection.After the light that laser instrument sends is modulated through pulse producer, produce the light pulse (being generally 10ns-400ns) of required width, behind coupling mechanism, incide testing fiber, rear orientation light in the optical fiber and Fresnel reflection light are gone into photodetector through coupling mechanism is laggard, photodetector converts the light signal that receives to electric signal, enters computer or oscillograph and carries out data processing.

(2) formula and (3) formula are exactly to calculate in the optical fiber to decay along the basic theoretical formula of length distribution in OTDR.Adopt the OTDR technology, the position of tie point, Coupling point and breakpoint in optical fiber is easy to be measured to, and if optical fiber have one section bending excessive or also can be measured to by situations such as overweight exterior object compactings.

The pulsed light wave of pulsed laser output transfers to case point D, and after Rayleigh scattering, back-scattering light is detected device and receives behind laser pulse output t, make case point D to the distance of detector be Z, then:

$Z=\frac{1}{2}\&CenterDot;v\&CenterDot;t=\frac{1}{2}\&CenterDot;\frac{C}{n}\&CenterDot;t---\left(2\right)$

Wherein v is light transmission speed in optical fiber, and n is the optical fiber effective refractive index, and C is the light velocity in the vacuum.

If the light pulse duration is Δ t, then at t constantly, detected rear orientation light is [z, z+ (υ Δ t)/2] backward scattered gross energy of this section optical fiber.So the spatial resolution of OTDR is:

$\mathrm{\&Delta;Z}=\frac{\mathrm{\&upsi;}\&CenterDot;\mathrm{\&Delta;t}}{2}---\left(3\right)$

Like this, the intensity of reflected light measured of different time just corresponding the scattering of whole sensor fibre diverse location.Therefore, can be by measuring the back scattering information that the backward scattered function of time obtains different distance.

On the border of different refractivity two transmission mediums, as connector, mechanical splice, fracture or optical fiber termination place, Fresnel reflection can take place.This phenomenon is used for accurately definite position along point of discontinuity on the fiber lengths by OTDR.The size of reflection depends on the flatness and the refringence of border surface, utilizes index-matching fluid can reduce Fresnel reflection.

The novel pressure sensor-based system, mainly comprise pulsed laser, your elder sister's coupling mechanism of laser instrument, coupling mechanism one output terminal connects photodetector, photodetector is transformed into electric signal to light signal and passes to data acquisition unit after amplifier amplifies, data acquisition unit is passed to computing machine with processing, finally shows on computers and surveys.

As a kind of preferred version of the present utility model, the another port of described coupling mechanism connects induction module;

As a kind of preferred version of the present utility model, described induction module is wound into the ring spiral fashion, and the radius of the ring of spiral successively decrease (or increasing progressively);

It is that pulsed laser sends pulse signal and enters in the middle of the photo-coupler that its major function is implemented, enter in the middle of the sensor fibre by coupling mechanism, the ring diameter that specific induction position is wound in the middle of the sensor fibre is slightly less than the optical fiber angularity, scattering takes place in light signal in the middle of sensor fibre, and scattered signal has some losses during through these rings in the middle of the sensor fibre, when the external world executes when these circulating application plus-pressures are made that ring is crooked, the loss of ring further increases, and the asynchronism(-nization) of the light signal of different regions reflected back arrival photodetector is determined the loss which position is shone with this, signal is changed the back by photodetector and is become electric signal by light signal, passing through photo amplifier successively, data acquisition unit input computing machine carries out computing, the figure of still not locating that shows at last is if there is invasion to take place and can also show this partial pressure value.

The beneficial effects of the utility model are: for traditional pressure checking device, this product highly sensitive, can carry out multimetering, in the middle of installation process promptly can with optical cable according to need the coiled ring-type also can be as required fixed part coiled ring-type be fixed a point to detect for the fixed location for gamut is carried out pressure detection.

Description of drawings

Fig. 1 is the composition synoptic diagram of the utility model system.

Fig. 2 is the process flow diagram of the utility model method.

Embodiment

Describe preferred embodiment of the present utility model in detail below in conjunction with accompanying drawing.

See also Fig. 1, the utility model has disclosed a kind of positioning optical fiber vibration intrusion-detection system, and it comprises pulsed laser 1, coupling mechanism 2, photodetector 3, amplifier 4, data acquisition unit 5, computing machine 6 and induction module 7.

Described induction module 7 comprises several sensing units.

A kind of optical fiber pressure measurement sensor-based system as shown in Figure 1 mainly comprises the distribution type optical fiber sensing equipment sensing part.Fiber laser inserts in the middle of the photo-coupler in the system, and the photo-coupler other end connects sensor fibre, and the induction position in the sensor fibre is wound into spiral fashion, and the radius that changes successively decreases or increases progressively; Coupling mechanism is connected photo-detector with the same end of laser instrument, and detector connects photoamplifier circuit, and photoamplifier circuit connects data acquisition unit, and data acquisition unit connects computing machine again

It is that pulsed laser sends pulse signal and enters in the middle of the photo-coupler that its major function is implemented, enter in the middle of the sensor fibre by coupling mechanism, the ring diameter that specific induction position is wound in the middle of the sensor fibre is slightly less than the optical fiber angularity, scattering takes place in light signal in the middle of sensor fibre, and scattered signal has some losses during through these rings in the middle of the sensor fibre, when the external world executes when these circulating application plus-pressures are made that ring is crooked, the loss of ring further increases, and the asynchronism(-nization) of the light signal of different regions reflected back arrival photodetector is determined the loss which position is shone with this, signal is changed the back by photodetector and is become electric signal by light signal, passing through photo amplifier successively, data acquisition unit input computing machine carries out computing, the force value to different parts show.

Here description of the present utility model and application are illustrative, are not to want with scope restriction of the present utility model in the above-described embodiments.Here the distortion of disclosed embodiment and change are possible, and the various parts of the replacement of embodiment and equivalence are known for those those of ordinary skill in the art.Those skilled in the art are noted that under the situation that does not break away from spirit of the present utility model or essential characteristic, and the utility model can be with other forms, structure, layout, ratio, and realize with other elements, material and parts.Under the situation that does not break away from the utility model scope and spirit, can carry out other distortion and change here to disclosed embodiment.

Claims (2)

1. novel pressure sensor-based system, it comprises pulsed laser (1), laser instrument connects coupling mechanism (2), coupling mechanism (2) one output terminals connect photodetector (3), photodetector (3) is transformed into electric signal to light signal and passes to data acquisition unit (5) after amplifier (4) amplifies, data acquisition unit (5) is passed to computing machine (6) with processing, finally shows on computers and surveys

It is characterized in that the other end of described coupling mechanism (2) connects induction module, induction module is made up of several sensing units, and each sensing unit is laid on the scene of detection on demand.

2. novel pressure sensor-based system according to claim 1 is characterized in that: described sensing unit is the radius increasing or decreasing successively of screw type and each ring.

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