Claims
- 1. A fiber optic displacement sensor, comprising:
a support base; a mounting post extending from the base; a flexural disk connected to the mounting post, the flexural disk having first and second sides; a first spiral wound optical fiber coil formed on the first side of the flexural disk, the first coil having a first inner optical fiber lead and a first outer optical fiber lead extending therefrom; a second spiral wound optical fiber coil formed on the second side of the flexural disk, the second coil having a second inner optical fiber lead and a second outer optical fiber lead extending therefrom; an optical coupler arranged to couple optical signals between the first and second optical fiber coils to form an interferometer; an inertia ring connected to the periphery of the flexural disk, the inertia ring having a plurality of peripheral slots therein for routing the first and second optical fiber leads from the first and second optical fiber coils, respectively to the optical coupler.
- 2. The fiber optic displacement sensor of claim 1 wherein the inertia ring includes curved oppositely facing end edges with the plurality of peripheral slots being formed between the curved side edges, the curved end edges being formed such that the optical fiber leads may be spiral wound thereon between the first and second coils and the peripheral slots to prevent damage to the optical fiber leads from sharp bends
- 3. The fiber optic displacement sensor of claim 1 wherein the plurality of slots in the inertia ring are arranged to accommodate mismatches in optical fiber lead lengths so that so that the inner and outer fiber leads from both the first and second fiber coils exit the coil assembly together and take the same path to the coupler to provide improved common mode rejection of extraneous environmentally-induced phase shifts.
- 4. The fiber optic displacement sensor of claim 1, further comprising a housing cover attached to the base such that the mounting post so that the first and second flexural disks and the optical coupler are contained within the housing cover, the housing cover including an inwardly directed projection arranged to retain fiber leads in a selected position within the housing.
- 5. The fiber optic displacement sensor of claim 4, wherein the flexural disk includes a central passage therethrough, further comprising a bolt extending from the mounting post through the central passage in the flexural disk; and a nut engaged with the bolt to clamp the flexural disk independently from attachment of the housing cover to the base.
- 6. The fiber optic displacement sensor of claim 5, further comprising a hinge formed in the flexural disk adjacent the central passage to increase the sensitivity of the sensor.
- 7. The fiber optic displacement sensor of claim 5, further comprising an inner hinge formed in the flexural disk adjacent the central passage and a outer hinge formed in the flexural disk adjacent the outer periphery near the inertia ring to further to increase the sensitivity of the sensor and reduce any tendency to twist the ring.
- 8. The fiber optic displacement sensor of claim 5 wherein the housing cover includes a dome-shaped lid that is threadedly engaged with an end of the bolt.
- 9. The fiber optic displacement sensor of claim 1 wherein the support base includes a passage extending therethrough generally perpendicular to the mounting post and wherein the optical coupler is mounted within the passage and connected to the optical fiber coils to form a Michelson interferometer.
- 10. The fiber optic displacement sensor of claim 1 wherein the support base includes a pair of parallel passages extending therethrough generally perpendicular to the mounting post and wherein each of the passages has an optical coupler mounted therein, the optical couplers being connected to the optical fiber coils to form a Mach-Zehnder interferometer.
- 11. The fiber optic displacement sensor of claim 1 wherein the flexural disk has a first curved groove formed in the first side thereof and a second curved groove formed in the second side thereof, the first and second curved grooves being arranged to provide paths for the first and second inner optical fiber leads to be routed under the first and second optical fiber coils, respectively.
- 12. The fiber optic displacement sensor of claim 11 wherein the first curved groove is formed to allow the first inner optical fiber lead to emerge from under the first optical fiber coil in a direction tangential thereto such that the first inner optical fiber lead may be spiral wound on both inner and outer portions of the inertia ring without having a bend radius that is less than a predetermined minimum.
CROSS REFERENCE TO RELATED APPLICATION
[0001] Applicants claim the benefit of Provisional Application Ser. No. 60/178,334, filed Jan. 27, 2000 for Fiber Optic Displacement Sensor.
Provisional Applications (1)
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Number |
Date |
Country |
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60178334 |
Jan 2000 |
US |