Claims
- 1. A fluid flow meter comprising:
- a flow structure defining a substantially annular flow passage extending along a direction of fluid flow;
- a pair of transducers spaced apart along the direction of fluid flow, said transducers also having an annular form corresponding to the annular flow passage;
- transmitting means for causing acoustic signals to be transmitted in both directions through the fluid by said transducers; and
- processing means for determining information relating to the fluid flow by monitoring the time of flight of acoustic signals received by said transducers.
- 2. A fluid flow meter according to claim 1, wherein said flow structure presents respective, angled plane faces to incoming acoustic signals.
- 3. A fluid flow meter according to claim 1, wherein said flow structure includes a central solid portion defining an inner wall of said annular flow passage.
- 4. A fluid flow meter according to claim 3, wherein said central solid portion is supported by vanes within a surrounding structure.
- 5. A fluid flow meter according to claim 1, wherein said transducers comprise piezoelectric elements which vibrate in a radial mode.
- 6. A fluid flow meter according to claim 1, wherein each transducer comprises:
- means for generating a magnetic field within an annular space; and
- a coil positioned within said annular space whereby or passage of an electric current through said coil, said coil vibrates to generate the acoustic signals.
- 7. A fluid flow meter according to claim 6, wherein said magnetic field generating means comprises a generally "E" shaped member, the depth of the arms of the member being approximately .lambda./2 where .lambda. is the wavelength of the acoustic signals transmitted through the fluid.
- 8. A fluid flow meter comprising:
- a flow structure defining a substantially annular flow passage with a constant outer diameter, said flow passage extending along a direction of fluid flow said flow structure having a portion defining an inner wall of said annular flow passage, which portion guides said fluid flow through said annular flow passage;
- a pair of transducers spaced apart along the direction of fluid flow;
- transmitting means for causing acoustic signals to be transmitted in both directions through the fluid by said transducers; and
- processing means for determining information relating to the fluid flow by monitoring the time of flight of acoustic signals received by said transducers, wherein said annular flow passage has a radial dimension such as to permit propagation of substantially only plane wave acoustic signals.
- 9. A fluid flow meter according to claim 8, wherein the flow structure presents respective, angled plane faces to incoming acoustic signals.
- 10. A fluid flow meter according to claim 8, wherein said portion is a central solid portion defining said inner wall of said annular flow passage.
- 11. A fluid flow meter according to claim 10, wherein said central solid portion is supported by vanes within a surrounding structure.
- 12. A fluid flow meter according to claim 8, wherein said annular flow passage is positioned so as to sample an annular region of waves emitted by said transducers.
- 13. A fluid flow meter according to claim 8, wherein said transducers have an annular form corresponding to said flow passage.
- 14. A fluid flow meter according to claim 8, wherein said transducers comprise piezoelectric elements which vibrate in a radial mode.
- 15. A fluid flow meter according to claim 14, wherein each piezoelectric element is bonded to a respective metal disc.
- 16. A fluid flow meter according to claim 8, wherein said transducers are constructed so as to generate an annular sound field which is input into said annular flow passage.
- 17. A fluid flow meter according to claim 8, wherein each transducer comprises:
- means for generating a magnetic field within an annular space; and
- a coil positioned within said annular space whereby on passage of an electric current through said coil, said coil vibrates to generate the acoustic signals.
- 18. A fluid flow meter according to claim 17, wherein said magnetic field generating means comprises tapered pole pieces.
- 19. A fluid flow meter according to claim 17, further comprising a non-conducting support diaphragm which carries said electrical coil.
- 20. A fluid flow meter according to claim 17, wherein said magnetic field generating means comprises a generally "E" shaped member, the depth of the arms of the member being approximately .lambda./2 where .lambda. is the wavelength of the acoustic signals transmitted through the fluid.
- 21. A gas flow meter comprising:
- a flow structure defining a substantially annular flow passage with a constant outer diameter, said flow passage extending along a direction of fluid flow said flow structure having a portion defining an inner wall of said annular flow passage, which portion guides said fluid flow through said annular flow passage;
- a pair of transducers spaced apart along the direction of fluid flow;
- transmitting means for causing acoustic signals to be transmitted in both directions through the fluid by said transducers; and
- processing means for determining information relating to the fluid flow by monitoring the time of flight of acoustic signals received by said transducers, wherein said annular flow passage has a radial dimension such as to permit propagation of substantially only plane wave acoustic signals.
- 22. A gas flow meter according to claim 21, wherein the flow structure presents respective, angled plane faces to incoming acoustic signals.
- 23. A gas flow meter according to claim 21, wherein said portion is a central solid portion defining said inner wall of said annular flow passage.
- 24. A gas flow meter according to claim 21, wherein said annular flow passage is positioned so as to sample an annular region of waves emitted by said transducers.
- 25. A gas flow meter according to claim 21, wherein said transducers have an annular form corresponding to said flow passage.
- 26. A gas flow meter according to claim 21, wherein said transducers comprise piezoelectric elements which vibrate in a radial mode.
- 27. A gas flow meter according to claim 21, wherein each transducer comprises:
- means for generating a magnetic field within an annular space; and
- a coil positioned within said annular space whereby on passage of an electric current through said coil, said coil vibrates to generate the acoustic signals.
- 28. A gas flow meter according to claim 27, wherein said magnetic field generating means comprises a generally "E" shaped member, the depth of the arms of the member being approximately .lambda./2 where .lambda. is the wavelength of the acoustic signals transmitted through the fluid.
Priority Claims (2)
Number |
Date |
Country |
Kind |
9301873 |
Jan 1993 |
GBX |
|
9316001 |
Aug 1993 |
GBX |
|
Parent Case Info
This application is a division of application Ser. No. 08/492,058, now U.S. Pat. No. 5,698,792 filed Aug. 28, 1995, a 371 of PCT/GB94/00157 filed Jan. 27, 1994. This application also claims priority from GB applications Nos. 93 01873.7, filed Jan. 30, 1993, and 93 16001.8, filed Aug. 2, 1993.
US Referenced Citations (7)
Foreign Referenced Citations (1)
Number |
Date |
Country |
249 689 |
Mar 1987 |
EPX |
Divisions (1)
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Number |
Date |
Country |
Parent |
492058 |
Aug 1995 |
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