CORIOLIS MASS FLOW SENSOR
First Claim
1. A Coriolis mass flow sensor, comprising:
- a flow tube;
a tube position sensor, including a light source;
a light pipe having a light inlet situated to receive light from the light source, and a light outlet for emitting light received from the light source;
a light detector for receiving light from the light pipe light outlet; and
a drive device for vibrating the flow tube, such that the flow tube moves through a light path between the light outlet of the light pipe and the light detector.
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Accused Products
Abstract
A Coriolis mass flow sensor includes a flow tube, a light source, and a light pipe having a light inlet situated to receive light from the light source and a light outlet for emitting light received from the light source. A light detector receives light from the light pipe light outlet, and a drive device vibrates the flow tube such that the flow tube moves through a light path between the light outlet of the light pipe and the light detector. In certain embodiments, the light pipe defines a generally square cross section. A sensing aperture having a predetermined shape is situated between the light outlet of the light pipe and the light detector. The sensing aperture passes a portion of the light emitted from the light outlet of the light to the light detector, such that the light entering the light detector has the predetermined shape.
32 Citations
24 Claims
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1. A Coriolis mass flow sensor, comprising:
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a flow tube;
a tube position sensor, including a light source;
a light pipe having a light inlet situated to receive light from the light source, and a light outlet for emitting light received from the light source;
a light detector for receiving light from the light pipe light outlet; and
a drive device for vibrating the flow tube, such that the flow tube moves through a light path between the light outlet of the light pipe and the light detector.
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2. The Coriolis mass flow sensor of claim, wherein the light pipe defines a polygon-shaped cross section.
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3. The Coriolis mass flow sensor of claim, wherein the light pipe defines a generally square cross section.
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4. The Coriolis mass flow sensor of claim, further comprising a sensing aperture having a predetermined shape situated between the light outlet of the light pipe and the light detector, the sensing aperture passing a portion of the light emitted from the light outlet of the light to the light detector, such that the light entering the light detector has the predetermined shape.
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5. The Coriolis mass flow sensor of claim, wherein the predetermined shape is optimized to improve the linearity of the tube position sensor.
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6. The Coriolis mass flow sensor of claim, wherein the predetermined shape is a triangle.
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7. The Coriolis mass flow sensor of claim, wherein the light outlet is angled to direct the light emitted from the light outlet in a desired direction.
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8. The Coriolis mass flow sensor of claim, further comprising an optics module body, wherein the light pipe is received in a first opening defined in the optics module body.
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9. The Coriolis mass flow sensor of claim, wherein the optics module body defines a second opening having an axis oriented generally transverse to an axis of the first opening, the second opening having a lens therein receiving light from the light pipe light outlet.
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10. The Coriolis mass flow sensor of claim, wherein the optics module body defines a third opening having an axis oriented generally parallel to the axis of the first opening, the third opening having the light detector, and the sensing aperture situated therein.
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11. The Coriolis mass flow sensor of claim, further comprising a mirror adjacent the second and third openings to direct light from the second opening into the third opening.
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12. The Coriolis mass flow sensor of claim, further comprising a blocking aperture situated in the third opening, the blocking aperture blocking a portion of the light emitted from the light outlet of the light pipe.
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13. The Coriolis mass flow sensor of claim, further comprising a lens situated in the third opening.
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14. The Coriolis mass flow sensor of claim, further comprising a mirror adjacent the first and second openings to direct light from the light outlet of the light pipe into the second opening.
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15. The Coriolis mass flow sensor of claim, wherein the light outlet of the light pipe and the mirror are on generally opposite sides of the flow tube.
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16. The Coriolis mass flow sensor of claim, further comprising:
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a second light source;
a second light pipe having a light inlet situated to receive light from the second light source, and a light outlet for emitting light received from the second light source; and
a second light detector for receiving light from the second light pipe light outlet.
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17. A Coriolis mass flow sensor, comprising:
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a flow tube;
a tube position sensor, including a light source;
a light detector for receiving light from the light source;
a sensing member defining a sensing aperture therein situated between the light source and the light detector, the sensing member blocking a portion of the light received by the light detector, such that the light entering the light detector has a predetermined shape; and
a drive device for vibrating the flow tube, such that the flow tube moves through a light path between the light source and the light detector.
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18. The Coriolis mass flow sensor of claim, wherein the sensing aperture is in a shape to optimize the linearity of the tube position sensor.
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19. The Coriolis mass flow sensor of claim, wherein the sensing aperture is in the shape of a triangle.
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20. The Coriolis mass flow sensor of claim, further comprising a light pipe having a light inlet situated to receive light from the light source, and a light outlet for emitting light received from the light source.
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21. The Coriolis mass flow sensor of claim, wherein the light pipe defines a polygonal square cross section.
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22. The Coriolis mass flow sensor of claim, wherein the light pipe defines a generally square cross section.
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23. A Coriolis mass flow sensor, comprising:
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a flow tube;
a light source;
first means receiving light from the light source for converting the light from a Gaussian power distribution to a flat power distribution;
a light detector for receiving light from the first means;
a drive device for vibrating the flow tube, such that the flow tube moves through a light path between an output of the first means and the light detector.
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24. The Coriolis mass flow sensor of claim, further comprising second means for shaping the light reaching the light detector into a desired shape.
Specification