CN1580722A - Temperature automaticcompensating optical fiber grating force sensor - Google Patents

Abstract

This is a new pattern photo-fibre grating force sensor which can automatically compensate temperature and can sense the force with high accurate. This sensor's radiant symmetry wheel pattern mechanism has the shear force resistant function. Its two photo-fibre gratings are stacked on the middle part side face of wheel's spoke and make certain angles with the central axis. When the force act on the elastomer which located on the wheel's spoke, to make the wheel's spoke receive the shear force, then the photo-fibre grating period happen exchange, by the photo tester can gain the two reflective wave crests, to survey the difference between two wave crets can realize the force high accurate sense of the temperature automatically compensate.

Description

Temperature self-compensation formula fiber grating force transducer

Technical field

The present invention relates to a kind of novel sensor, particularly have fiber grating force transducer temperature self-compensation function, that can carry out high-precision sensing to power.

Background technology

Fiber grating is a kind of novel photonic device, and it is a kind of space periodicity index distribution that forms in optical fiber, and this structure can change and control the dissemination of light wave in optical fiber.Fiber-optic grating sensor is to make it to parameter sensitivity to be measured by the special package to fiber grating, and the size and the direction of coming sensing parameter to be measured by the variation of optic fiber grating wavelength.Combine with the fiber-optic grating sensor array and with wavelength-division multiplex and time division multiplex system, imbed backing material and inside configuration or be mounted on its surface, can realize the multiple spot monitoring properties of materials (as temperature, strain, stress, pressure, displacement, speed, acceleration etc.).Fiber-optic grating sensor has been widely used in numerous areas such as building structure, space flight and aviation, hydrospace detection and scientific research, belongs to a kind of Dynamic Non-Destruction Measurement of novelty.But there is the problem of temperature and strain cross sensitivity effect in current fiber-optic grating sensor.

The present invention is a kind of fiber grating force transducer with temperature self-compensation function, be to have on the basis of shear-stable symmetrical expression spoke mechanism in design, two fiber gratings are become different angles with neutral axis respectively as sensing element, intersection sticks on the centre position of two sides of same spoke, perhaps become identical angle with neutral axis, stick on the centre position of two symmetrical spoke sides symmetrically, thereby carry out the force measurement device of temperature self-compensation.Result for retrieval shows, does not still adopt the mode of spoke structure packaged fiber grating at present, realizes the patent report of the fiber grating force transducer of temperature self-compensation.

Summary of the invention

The purpose of this invention is to provide a kind of fiber grating force transducer, and can be applicable to the pressure of various loads and the accurate measurement of forces associated with temperature self-compensation function.Its technical scheme is as follows:

This fiber grating force transducer with temperature self-compensation function, it comprises two sensor fibre gratings, single-mode fiber, force column, interior ring, outer shroud, spoke, pedestal, fiber coupler, light source, photo-detector etc., characteristics are that the sticky position of fiber grating is equipped with dual mode, and are specific as follows:

Mode 1: same spoke is pasted.Two fiber gratings and neutral axis are angled respectively, and intersection sticks on the centre position of two sides of same spoke.

Mode 2: different spokes are pasted.Two fiber gratings are become equal angular simultaneously with neutral axis, and parallel symmetry sticks on the centre position of two symmetrical spoke sides.

The connected mode of sensor: two optical fiber of fiber coupler (or circulator) side connect two fiber gratings respectively; And two optical fiber of the other side of fiber coupler, one connects light source, and another root connects photo-detector.

The invention has the beneficial effects as follows: the power sensing element is two Fiber Bragg Gratings, adopts spoke architecture to intersect two sides that stick on same spoke at a certain angle, or sticks on the side of two symmetrical spokes symmetrically.The stickup angle and the position of sensing grating are flexible, can obtain changeable power sensing sensitivity, and have temperature self-compensation function, and be simple for structure, is easy to the system integration.Based on the advantage of fiber grating itself, this sensor have measuring accuracy height, anti-electromagnetic interference (EMI), corrosion-resistant, characteristics such as be adapted at working under the rugged surroundings.

Description of drawings

Basic structure of the present invention as shown in drawings.

Fig. 1 is the sensor construction synoptic diagram that fiber grating is pasted same spoke.Wherein, (a) cut-open view; (b) vertical view.

Fig. 2 is the sensor construction synoptic diagram that fiber grating is pasted different spokes.Wherein, (a) cut-open view; (b) vertical view.

Fig. 3 is a measurement mechanism structural drawing of the present invention.

Fig. 4 is the pressure typical case measured value of bearing load of the present invention.

Wherein: 1. fiber grating, 2. single-mode fiber, 3. force column, 4. in ring, 5. outer shroud, 6. spoke, 7. pedestal, 8. fiber coupler, 9. light source, 10. photo-detector.

Embodiment

Fig. 1 is the sensor construction synoptic diagram that fiber grating is pasted same spoke.Wherein, (a) cut-open view; (b) vertical view.

Fig. 2 is the sensor construction synoptic diagram that fiber grating is pasted different spokes.Wherein, (a) cut-open view; (b) vertical view.

This fiber grating force transducer with temperature self-compensation function, comprise transducing part and measure portion, transducing part is a drum structure, the outer shroud 5 of bucket is seated on the pedestal 7, in ring 4 place the middle part of bucket, but followingly do not link to each other with pedestal, central authorities are force columns 3, have the spoke 6 of 4 symmetries to be connected on the outer shroud in the interior ring, two fiber gratings stick on the spoke; Measure portion comprises fiber coupler 8, light source 9, photo-detector 10; It is characterized in that: sensing arrangement is the radial mechanism that has the shear-stable symmetry in the drum, and two fiber gratings (1,2) are to stick in two ways on the spoke; Measure portion, two optical fiber of fiber coupler one side connect two fiber gratings respectively; And two optical fiber of the other side of fiber coupler, one connects light source, and another root connects photo-detector.

The dual mode that two fiber gratings stick on the spoke is:

Mode 1: same spoke is pasted: as shown in Figure 1, with grating in two fiber gratings and neutral axis angle at 45, and another grating becomes 135 ° angle with neutral axis, and intersection sticks on the centre position of two sides of same spoke.

Mode 2: different spokes are pasted: as shown in Figure 2, two fiber gratings are at 45 with the neutral axis while or 135 ° angle, parallel symmetry sticks on the centre position of two symmetrical spoke sides.

The radial mechanism of symmetry can be the symmetrical mechanism of four spokes or eight spokes; Spoke is homogeneous, isotropic high-elastic gonosome, and its material is metal, alloy, organic material; Its xsect is a rectangle, and profile can be rectangle, trapezoidal and arc.

Fiber grating is a Fiber Bragg Grating.

Fiber coupler is 2 * 2 or 1 * 2 fiber coupler, or three ports, four-port photocirculator.

Light source is wideband light source or tunable optical fiber laser.

Photo-detector is multi-wavelength meter or fiber spectrometer.

This sensor can be worked between-20 ℃～80 ℃.

The sensor of pasting same spoke with fiber grating shown in Figure 3 is an example: for the radial sensing arrangement, every pair of spoke can be considered as the fixing elastic beam in two ends.With four spokes is example, and the shear stress that bears on every spoke is 1/4 of institute's bearing load.For the spoke of square-section, shear stress is parabola shaped distribution, and shear stress maximum on neutral surface is 1.5 times of average shearing stress.By the principle stress formula under the mechanics of materials plane stress state as can be known: to same spoke, normal stress at 45 with neutral surface and 135 ° of directions should equal maximum shear τ _Max, its computing formula is as follows:

${\mathrm{\τ}}_{\max }=\±\frac{\mathrm{\η}}{\mathrm{Ebh}}F=\±\mathrm{\ξF}---\left(1\right)$

η is a structure factor in the formula, and ξ is the sensitivity coefficient of power sensing, and its value is relevant with quality with the orientation that size (spoke cross-sectional width b, depth of section h etc.), material character (Young modulus E) and the fiber grating of sensing mechanism are pasted.The shear stress τ that represents for positive and negative number external force F to produce _MaxMake fiber grating produce stretching effect or pinch effect.

By theory of the fiber optical as can be known, when being subjected to uniform vertical load, interior ring top surface does the time spent, the power that load produces produces stretching or pinch effect by the shearing strain of spoke to two fiber gratings pasting on its side, causes the cycle of grating to change.And two fiber grating centre wavelength drifts are as follows with the computing formula of external force P and temperature variation Δ T:

Δ λ ₁=K _P1F+K _T1Δ T (to fiber grating FBG1) (2)

Δ λ ₂=-K _P2F+K _T2K in Δ T (to fiber grating FBG2) (3) formula _F1, K _F2And K _T1, K _T2Be respectively the sensitivity coefficient of the power and the temperature of two fiber gratings in the sensor, K _F1And K _F2Central wavelength lambda with fiber grating ₀And coefficient ξ is relevant; K _T1And K _T2Relevant with the backing material macroscopic property of the character of fiber grating and sensing mechanism.Because the adhesive material unanimity of two fiber gratings is adjusted paste position and angle, can make K _F=K _F1=-K _F2, K _T=K _T1=K _T2

The fiber grating centre wavelength drift value that is caused by load then is wavelength difference Δ λ ₁₂=Δ λ ₁-Δ λ ₂So, obtain the wavelength extent by (2)～(3) formula and be

Δλ ₁₂＝x ₁₂F (4)

X in the formula ₁₂=K _F1-K _F2=2K _FSensitivity coefficient for power F.

By (4) formula as can be known, the wavelength difference Δ λ of two gratings ₁₂With pressure F funtcional relationship in direct ratio, by measuring the changing value of two fiber grating centre wavelength drifts, can infer the size of the power F that causes by load, and irrelevant with temperature variation Δ T.Therefore, the present invention can realize having the sensing of the high-precision power of temperature self-compensation function.

For two fiber gratings are become identical angle with neutral axis, stick on the sensor situation of two symmetrical spoke sides, its analytical approach is similarly.

Embodiment

In Fig. 3, the diameter of force column is 35mm, and interior ring diameter is 37mm, and their height is 32mm.The outer shroud interior diameter is 70mm, and the outer shroud overall diameter is 100mm, highly is 35mm.Spoke material is elastomeric corrosion-resistant steel, and its height is 15mm, and thick is 2mm.Force column top in embedding in the ring is an arcuation, ring 5mm in being higher than; Interior ring bottom is apart from outer shroud bottom 3mm, and base thickness is 5mm.The length of two fiber gratings is respectively 12mm and 11mm, and their the free wavelength of cloth loudspeaker lattice is respectively 1551.48nm and 1556.26nm, and peak reflectivity is respectively 93% and 95%, and bandwidth is respectively 0.23nm and 0.24nm.Two fiber grating bonding methods have two kinds:

Mode 1: same spoke is pasted: with two fiber gratings and the at 45 and 135 ° of angles of neutral axis difference, intersection sticks on the centre position of two sides of same spoke, as shown in Figure 1.

Mode 2: different spokes are pasted: with two fiber gratings and at 45 or 135 ° of angles of neutral axis while, parallel symmetry sticks on the centre position of two symmetrical spoke sides, as shown in Figure 2.

Between-20 ℃～75 ℃, to the power sensing measurement of this sensor load application, the sensitivity measure value that records power is 0.092nm/KN, as shown in Figure 4.And, in the said temperature scope, be that the multi-wavelength meter of 0.02nm compares to measure and shows with measuring accuracy, the measurement by the double grating wavelength difference shows that temperature variation does not have influence to the force measurement result, this sensor has temperature self-compensation function.In actual applications, by photoelectric commutator light signal is converted to electric signal, carries out data processing with computing machine again, then the raising to the sensitivity of power sensing benefits.

Claims (8)

1. temperature self-compensation formula fiber grating force transducer, comprise transducing part and measure portion, transducing part is a drum structure, the outer shroud (5) of bucket is seated on the pedestal (7), in ring (4) place the middle part of bucket, but followingly do not link to each other with pedestal, central authorities are force column (3), have the spoke (6) of 4 symmetries to be connected on the outer shroud in the interior ring, two fiber gratings stick on the spoke; Measure portion comprises fiber coupler (8), light source (9), photo-detector (10); It is characterized in that: sensing arrangement is the radial mechanism that has the shear-stable symmetry in the drum, and two fiber gratings (1,2) are to stick in two ways on the spoke; Measure portion, two optical fiber of fiber coupler one side connect two fiber gratings respectively; And two optical fiber of the other side of fiber coupler, one connects light source, and another root connects photo-detector.

2. temperature self-compensation formula fiber grating force transducer according to claim 1 is characterized in that: the dual mode that two fiber gratings stick on the spoke is:

Mode 1: same spoke is pasted: with grating in two fiber gratings and neutral axis angle at 45, and another grating becomes 135 ° angle with neutral axis, and intersection sticks on the centre position of two sides of same spoke.

Mode 2: different spokes are pasted: two fiber gratings are at 45 with the neutral axis while or 135 ° angle, parallel symmetry sticks on the centre position of two symmetrical spoke sides.

3. temperature self-compensation formula fiber grating force transducer according to claim 1 is characterized in that: it is characterized in that: the radial mechanism of symmetry can be the symmetrical mechanism of four spokes or eight spokes; Spoke is homogeneous, isotropic high-elastic gonosome, and its material is metal, alloy, organic material; Its xsect is a rectangle, and profile can be rectangle, trapezoidal and arc.

4. temperature self-compensation formula fiber grating force transducer according to claim 1, it is characterized in that: fiber grating is a Fiber Bragg Grating.

5. temperature self-compensation formula fiber grating force transducer according to claim 1, it is characterized in that: optical fiber is single-mode fiber.

6. temperature self-compensation formula fiber grating force transducer according to claim 1 is characterized in that: fiber coupler is 2 * 2 or 1 * 2 fiber coupler, or three ports, four-port photocirculator.

7. temperature self-compensation formula fiber grating force transducer according to claim 1, it is characterized in that: light source is wideband light source or tunable optical fiber laser.

8. temperature self-compensation formula fiber grating force transducer according to claim 1, it is characterized in that: photo-detector is multi-wavelength meter or fiber spectrometer.

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