CN101915857A - Inertia parameter sensing device based on fiber microbending loss - Google Patents

Abstract

The invention discloses an inertia parameter sensing device based on fiber microbending loss. The device comprises a curved shell and a plurality of side A deformed teeth and side B deformed teeth which are separately arranged on the opposite sides in the curved shell and are staggered, wherein a signal fiber is clamped between the side A deformed teeth and side B deformed teeth; and one end of the curved shell is fixed on a base plate, and an oscillator is fixed on the other end. When the inertia parameter changes, such as the occurrence of vibration, the oscillator responds instantly and then the positions of the both ends of the curved shell are changed. Therefore, the distance between the side A deformed teeth and the side B deformed teeth in the curved shell is changed, the curvature of the signal fiber clamped between the side A deformed teeth and the side B deformed teeth is changed, the microbending loss of the signal fiber is changed; and a test unit is used to obtain the variation in the microbending loss of the signal fiber, thus the vibration amplitude, frequency and other parameters of the oscillator can be inferred and the inertia parameter can be obtained finally. The device of the invention has high precision, low failure rate and wide application prospect.

Description

Inertia parameter sensing device based on fiber microbending loss

Technical field

The present invention relates to a kind of inertia parameter sensor, or rather, relate to a kind of high-precision optical fiber type inertia parameter sensing device that changes based on fiber microbending loss.Inertia parameter comprises parameters such as acceleration, Oscillation Amplitude, vibration frequency.

Background technology

Inertia parameter such as acceleration, vibration testing tool is widely used in industry-by-industry, as a plurality of fields such as geologic prospecting, traffic, precision optical machinery, high-precise meter, generating, Aero-Space.What use in field of seismic exploration is to gather seismic signal by vibration-testing apparatus, can be finally inversed by underground geologic structure after these Data Processing, is widely used in industries such as oil, coal and mine.Usually adopt electromagnetic detector in the past few decades, but along with seismic prospecting faces: the influence of factors such as the electromagnetic interference (EMI) that zone of interest is darker, surface conditions is more complicated, data requirement is meticulousr and mankind's activity brings is more, original technology can not adapt to more and more higher requirement.

The developments of novel vibrating sensing apparatus is mainly reflected in several fields such as microelectron-mechanical (MEMS), novel piezoelectric material and optical fiber sensing technology.Wherein optical fiber technology is attracting researchist's sight with its unique advantage, optical fiber sensing technology has anti-electromagnetic interference (EMI), dynamic range is big, can long-distance transmissions, make up distributed or array sensor-based system or the like advantage easily, and wherein the optical fiber micro-bending sensing technology to have a cost low, easily measure, the survey frequency height, dynamic range is big, particularly its survey frequency and dynamic range advantage are very outstanding, survey frequency is easy to just can reach MHz, and conventional electromagnetic type vibration detector is generally in hundreds of Hz, aspect dynamic range, the optical fiber micro-bending sensing technology easily just can be accomplished more than the 200dB, but also can be higher, and conventional electromagnetic type vibration detector accomplishes that 100dB has compared difficulty, but existing optical fibre vibration sensor based on the microbending loss technology is not fully excavated out this potential mostly, is that 200410046705.9 Chinese patent discloses " reaction type optical fiber resonance sensor " as application number; The Chinese patent of application number 200420113787.4 discloses " three-component fiber-optic vibration measurement mechanism ", because of the defective of its structural design aspect, all causes not giving full play to and embodying the advantage of optical fiber micro-bending sensing technology.At present mainly to concentrate on the fiber grating be the technical of core to more optical fibre vibration sensor, number is that the Chinese patent of CN2784933Y discloses " optical fibre grating acceleration sensor " as Granted publication; Granted publication number is that the Chinese patent of CN2911635Y discloses " bispin arm beam optical fiber raster vibration sensor "; Publication number is that the Chinese patent of CN 1587946A discloses " based on the optical fiber vibrative sensor of fiber grating "; Publication number is the Chinese patent open " optical fiber raster vibration sensor of tunable matching filtering demodulation " of CN1752729A, yet based on the optical fibre vibration sensor subject matter of fiber grating be that dynamic range is little, testing tool cost height, test frequency are low, fiber grating encapsulation difficulty, be difficult for making up distributed or array sensor-based system, thereby limited the usable range of such sensor.

Summary of the invention

In order to overcome above-mentioned the deficiencies in the prior art, the invention provides a kind of inertia parameter sensing device based on fiber microbending loss, it is simple in structure, reasonable in design, processing and fabricating convenient and use-pattern is flexible, highly sensitive, result of use is good, can utilize optical fiber macrobending loss and microbending loss to detect simultaneously, make the dynamic range of test bigger, thereby make test result sensitiveer and accurate.

For solving the problems of the technologies described above, the technical solution used in the present invention is: a kind of inertia parameter sensing device based on fiber microbending loss, it is characterized in that: comprise a shaped form housing, be laid in a plurality of A side distortion teeth and a plurality of B side distortion tooth of the relative both sides of described described shaped form enclosure interior, described A side distortion tooth and B side distortion tooth are staggered and lay, A side distortion tooth and B side distortion tooth correspondence are laid in the both sides of signal optical fibre, one end of shaped form housing is fixed on the substrate, the other end of shaped form housing is fixed with an oscillator, and the extended fiber of signal optical fibre connects test cell.

When inertia parameter changes, as vibrate when taking place, oscillator responds immediately, and the variation of the position at the two ends of drive shaped form housing, thereby make the variable in distance between shaped form enclosure interior A side distortion tooth and the B side distortion tooth, the bending curvature that causes being clamped in the signal optical fibre between A, the B both sides distortion tooth changes, thereby changed the microbending loss of signal optical fibre, the microbending loss that obtains signal optical fibre by test cell changes, thereby infer the parameters such as amplitude, frequency of the vibration that oscillator response, finally obtain inertia parameter.

Described shaped form housing is a spiral fashion housing, is the cylinder that is slidingly matched outside the spiral fashion housing.

Described oscillator is a mass, also comprises a closed wire coil that is fixed together with mass, the corresponding magnet with damping action that is mounted with described closed wire coil.

Described oscillator is a piece magnet, and what settle on the described cylinder outside is the closed wire coil with damping action.

Described oscillator is a semi-girder, one end of this semi-girder is fixed in supporting seat, the other end is mounted with the annulus skeleton, be wound with closed wire coil on the annulus skeleton, be mounted with damping magnet with closed wire coil correspondence position, one end of described shaped form housing is fixed on the semi-girder, and the other end is fixed on the substrate.

Described annulus skeleton adopts copper or aluminum metal to make, and the annulus skeleton outside is the closed wire coil of coiling up and down, and the center of last lower coil is provided with damping magnet.

One end of the signal optical fibre between the A of described shaped form housing side distortion tooth and B side distortion tooth is mounted with light reflecting device, as catoptron or fiber grating, or on the end face of the end of signal optical fibre, plate reflectance coating, perhaps only be that the end with the signal optical fibre end pats whole.

1 mouthful of the other end of described signal optical fibre and 1X2 shunt is connected, and 2 mouthfuls of the 1X2 shunt are connected with light power meter with the stabilized light source that constitutes test cell respectively.

Be made of two or three oscillators and corresponding respectively two or three shaped form housings two groups or three groups of inertia test sensing apparatus fit together according to mutually perpendicular mode, constitute two dimension or three-dimensional inertia parameter proving installation.

Behind described test cell, be connected to processing unit.

Described waterproof material is a greasy for preventing water.

Described signal optical fibre is for the outside optical fiber that is surrounded by the multilayer fibers protective seam, as tight tube fiber, carbon coated fiber, polyimide coated optical fiber etc.; Described signal optical fibre also can be plastic optical fiber, multi-core fiber, thin footpath optical fiber or photonic crystal fiber.

The present invention compared with prior art has the following advantages:

1, based on the inertia parameter sensing device of fiber microbending loss, this sensor construction is simple, reasonable in design, method of operating convenient and use-pattern is flexible, highly sensitive;

2, based on the inertia parameter sensing device of fiber microbending loss, reason shaped form housing constitutes, preferably spiral shaped housing constitutes, increased effective bending length of signal optical fibre greatly, the precision and the sensitivity that detect have been increased on the one hand, and can reduce the bending curvature of signal optical fibre, thus prolonged the serviceable life of signal optical fibre, make this optical fiber detector have the characteristics of precision height, long service life;

3, based on the vibrating sensing device of fiber microbending loss, owing to the light source that can adopt-luminous power method is tested, thereby can reduce the cost of test cell significantly, be that this device has wide usable range.

In sum, the present invention is simple in structure, reasonable in design, processing and fabricating convenient and use-pattern is flexible, highly sensitive, result of use is good, the shaped form shell structure that is had can reduce the signal optical fibre bending curvature significantly, and the effective length that has prolonged signal optical fibre significantly, make device of the present invention have better precision and longer serviceable life.

Below by drawings and Examples, the technical scheme of inventing is described in further detail.

Description of drawings

Fig. 1 is the structural representation of the present invention's first embodiment.

Fig. 2 is the structural representation of the present invention's second embodiment.

Fig. 3 is the structural representation of the present invention's the 3rd embodiment.

Fig. 4 is the structural representation of the present invention's the 4th embodiment.

Fig. 5 is the cross sectional representation of shaped form housing in the present invention's first embodiment.

Description of reference numerals:

The 1-extended fiber;	4-shaped form housing;	The 5-test cell;
			The 6-signal optical fibre;	The 7-processing unit;	The 9-substrate;
The 10-cylinder;	The 11-oscillator;	The closed wire coil of 12-;
			13-magnet oscillator;	14-annulus skeleton;	The 15-damping magnet;
The 18-light reflection mirror;	The 20-semi-girder;	The 30-support bar;
			The 31-supporting seat;	The 33-1X2 optical branching device;	4-1-A side distortion tooth;
4-2-B side distortion tooth.

Embodiment

Embodiment 1

As shown in Figure 1, among the present invention, comprise a shaped form housing 4, be laid in a plurality of A side distortion teeth and a plurality of B side distortion tooth of described shaped form housing 4 inner both sides relatively, described A side distortion tooth and B side distortion tooth are staggered and lay, A side distortion tooth and B side distortion tooth correspondence are laid in the both sides of signal optical fibre 6, one end of shaped form housing 4 is fixed on the substrate 9, the other end of shaped form housing 4 is fixed with a magnet oscillator 13, in the periphery of shaped form housing 4 are the cylinders 10 that are slidingly matched with shaped form housing 4, on the outer wall of cylinder 10, be fixed with two closed wire coils 12 up and down, magnet oscillator 13 is positioned at the center of two closed wire coils 12 up and down, the extended fiber 1 of signal optical fibre 6 connects test cell 5, and test cell 5 back connect processing unit 7.

When inertia parameter changes, as vibrate when taking place, magnet oscillator 13 responds immediately, and the variation of the position at the two ends of drive shaped form housing 4, thereby make the variable in distance between shaped form housing 4 inner A side distortion teeth and the B side distortion tooth, cause being clamped in A, the bending curvature of the signal optical fibre 6 between the B both sides distortion tooth changes, thereby changed the microbending loss of signal optical fibre 6, the microbending loss that obtains signal optical fibre 6 by test cell 5 changes, and this changing value is transferred to processing unit 7, processing unit 7 is inferred the amplitude of the vibration that 13 responses of magnet oscillator, parameters such as frequency finally obtain inertia parameter.Cylinder 10 can be made by copper or aluminum metal, cylinder 10 prevent waving and twisting of shaped form housing 4 as the time spent.Two closed wire coils 12 interact with magnet oscillator 13 about being fixed with on the outer wall of cylinder 10, and magnet oscillator 13 is had damping action, can pass through the size of the described damping force of coil quantity regulating of the closed wire coil of adjusting.

Two or three magnet oscillators 13 and corresponding respectively two or three shaped form housings 4 can be constituted two groups or three groups of inertia test sensing apparatus fit together according to mutually perpendicular mode, constitute two dimension or three-dimensional inertia parameter proving installation.

Can select for use stabilized light source and light power meter to constitute described test cell 5, this scheme cost is lower, also can select for use optical time domain reflection technology (OTDR) and coincidence frequency modulated continuous wave technology (FMCW) to become described test cell 5 to realize measuring.

Described signal optical fibre 6 is for the outside optical fiber that is surrounded by the multilayer fibers protective seam, as tight tube fiber, carbon coated fiber, polyimide coated optical fiber etc.; Described signal optical fibre 6 also can be plastic optical fiber, multi-core fiber, thin footpath optical fiber or photonic crystal fiber; Or many signal optical fibres 6 are clamped in the distortion between cog side by side, or many signal optical fibres 6 are merged into signal optical fibre bundle or signal optical fibre band by resin.

Described signal optical fibre 6 and extended fiber 1 external packets are covered with waterproof material, as waterproofing unction, can further prevent the erosion of hydrone to signal optical fibre 6 and extended fiber 1, have prolonged the serviceable life of signal optical fibre 6 and extended fiber 1.

Certainly in actual applications, also should have a protectiveness shell that elements such as described shaped form housing 4, magnetic oscillator 13, cylinder 10 and substrate 9 are wrapped in it so that use, substrate 9 can be fixed on the described outer casing inner wall.

Embodiment 2

As shown in Figure 2, in the present embodiment, as different from Example 1: described shaped form housing 4 and cylinder 10 are fixed on the substrate 9, and oscillator 11 is fixed together damping magnet 15 and closed wire coil 12 corresponding arrangements with closed wire coil 12.In the present embodiment, the structure of remainder, annexation and principle of work are all identical with embodiment 1.

Embodiment 3

As shown in Figure 2, in the present embodiment, comprise a semi-girder 20, one end of this semi-girder 20 is fixed in supporting seat 31, the other end is mounted with annulus skeleton 14, annulus skeleton 14 outsides are the closed wire coil 12 of coiling up and down, the center of last lower coil is provided with damping magnet 15, damping magnet 15 is fixed on the substrate 9 by support bar 30, one end of described shaped form housing 4 is fixed on the semi-girder 20, the other end is fixed on the substrate 9, and the signal optical fibre 6 in the shaped form housing 4 connects test cell 5 by extended fiber 1, and test cell 5 back connect processing unit 7.

In the present embodiment, semi-girder 20 and annulus skeleton 14 and closed wire coil 12 common formation oscillators, as when inertia parameter changes, as vibrate when taking place, being configured oscillator by semi-girder 20 jointly with annulus skeleton 14 and closed wire coil 12 responds immediately, and the variation of the position at the two ends of drive shaped form housing 4, thereby make the variable in distance between shaped form housing 4 inner A side distortion teeth and the B side distortion tooth, cause being clamped in A, the bending curvature of the signal optical fibre 6 between the B both sides distortion tooth changes, thereby changed the microbending loss of signal optical fibre 6, the microbending loss that obtains signal optical fibre 6 by test cell 5 changes, and this changing value is transferred to processing unit 7, processing unit 7 is inferred and semi-girder 20, the amplitude of the vibration of annulus skeleton 14 and the 12 common oscillator responses that constitute of closed wire coil, parameters such as frequency finally obtain inertia parameter.Two closed wire coils 12 up and down fixing on annulus skeleton 14 interact with damping magnet 15, semi-girder 20, annulus skeleton 14 and the closed wire coil 12 common oscillators that constitute are had damping action, can pass through the size of the described damping force of coil quantity regulating of the closed wire coil of adjusting.

Two or three semi-girders 20, annulus skeleton 14 and the closed wire coil 12 common oscillators that constitute and corresponding respectively two or three shaped form housings 4 can be constituted two groups or three groups of inertia test sensing apparatus fit together according to mutually perpendicular mode, constitute two dimension or three-dimensional inertia parameter proving installation.

Can select for use stabilized light source and light power meter to constitute described test cell 5, this scheme cost is lower, also can select for use optical time domain reflection technology (OTDR) and coincidence frequency modulated continuous wave technology (FMCW) to become described test cell 5 to realize measuring.

Described signal optical fibre 6 is for the outside optical fiber that is surrounded by the multilayer fibers protective seam, as tight tube fiber, carbon coated fiber, polyimide coated optical fiber etc.; Described signal optical fibre 6 also can be plastic optical fiber, multi-core fiber, thin footpath optical fiber or photonic crystal fiber; Or many signal optical fibres 6 are clamped in the distortion between cog side by side, or many signal optical fibres 6 are merged into signal optical fibre bundle or signal optical fibre band by resin.

Described signal optical fibre 6 and extended fiber 1 external packets are covered with waterproof material, as waterproofing unction, can further prevent the erosion of hydrone to signal optical fibre 6 and extended fiber 1, have prolonged the serviceable life of signal optical fibre 6 and extended fiber 1.

Certainly in actual applications; also should have a protectiveness shell with described shaped form housing 4, semi-girder 20 with and go up elements such as attachment, damping magnet 15 and substrate 9 and be wrapped in it so that use, substrate 9 can be fixed on the described outer casing inner wall.

Embodiment 4

As shown in Figure 4, in the present embodiment, as different from Example 3: an end of the signal optical fibre 6 in described shaped form housing 4 is mounted with light reflection mirror 18, the other end of signal optical fibre 6 connects 1 mouthful of a 1X2 optical branching device 33 by extended fiber 1,2 mouthfuls of 1X2 optical branching device 33 connect test cell 5, test cell 5 back connect processing unit 7 when constitute test cell 5 be stabilized light source and light power meter the time, 2 mouthfuls of 1X2 optical branching device 33 connect stabilized light source and light power meter respectively.In the present embodiment, the structure of remainder, annexation and principle of work are all identical with embodiment 3.

The above; it only is preferred embodiment of the present invention; be not that the present invention is imposed any restrictions, everyly any simple modification that above embodiment did, change and equivalent structure changed, all still belong in the protection domain of technical solution of the present invention according to the technology of the present invention essence.

Claims (10)

1. based on the inertia parameter sensing device of fiber microbending loss, it is characterized in that: comprise a shaped form housing, be laid in a plurality of A side distortion teeth and a plurality of B side distortion tooth of the relative both sides of described shaped form enclosure interior, described A side distortion tooth and B side distortion tooth are staggered and lay, A side distortion tooth and B side distortion tooth correspondence are laid in the both sides of signal optical fibre, one end of shaped form housing is fixed on the substrate, the other end of shaped form housing is fixed with an oscillator, and the extended fiber of signal optical fibre connects test cell.

2. according to the described inertia parameter sensing device based on fiber microbending loss of claim 1, it is characterized in that: described shaped form housing is a spiral fashion housing, and a cylinder that is slidingly matched with the spiral fashion housing is arranged outside the spiral fashion housing.

3. according to claim 1 or 2 described inertia parameter sensing devices based on fiber microbending loss, it is characterized in that: described oscillator is a mass, also comprise a closed wire coil that is fixed together with mass, the corresponding magnet that is mounted with damping action with described closed wire coil.

4. according to the described inertia parameter sensing device based on fiber microbending loss of claim 2, it is characterized in that: described oscillator is a piece magnet, and what settle on the described cylinder outside is the closed wire coil with damping action.

5. according to the described inertia parameter sensing device of claim 1 based on fiber microbending loss, it is characterized in that: described oscillator is a semi-girder and the adjunct on it, one end of this semi-girder is fixed in supporting seat, the other end is mounted with the annulus skeleton, be wound with closed wire coil on the annulus skeleton, be mounted with damping magnet with closed wire coil correspondence position, an end of described shaped form housing is fixed on the semi-girder, and the other end is fixed on the substrate.

6. according to the described inertia parameter sensing device of claim 1 based on fiber microbending loss, it is characterized in that: described annulus skeleton adopts copper or aluminum metal to make, the annulus skeleton outside is the closed wire coil of coiling up and down, and the center of last lower coil is provided with damping magnet.

7. according to the described inertia parameter sensing device based on fiber microbending loss of claim 1, it is characterized in that: an end of the signal optical fibre between the A of described shaped form housing side distortion tooth and B side distortion tooth is mounted with light reflecting device.

8. according to the described inertia parameter sensing device of claim 7 based on fiber microbending loss, it is characterized in that: 1 mouthful of the other end of described signal optical fibre and 1X2 shunt is connected, and 2 mouthfuls of the 1X2 shunt are connected with light power meter with the stabilized light source that constitutes test cell respectively.

9. according to the described any inertia parameter sensing device of claim 1 to 8 based on fiber microbending loss, it is characterized in that: be made of two or three oscillators and corresponding respectively two or three shaped form housings two groups or three groups of inertia test sensing apparatus fit together according to mutually perpendicular mode, constitute two dimension or three-dimensional inertia parameter proving installation.

10. according to the described any inertia parameter sensing device of claim 1 to 8, it is characterized in that: behind described test cell, be connected to processing unit based on fiber microbending loss.

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