Clamp-on ultrasonic flowmeter

US 6,615,674 B2
Filed: 01/10/2002
Issued: 09/09/2003
Est. Priority Date: 04/02/2001
Status: Expired due to Fees

First Claim

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1. A flow rate-measuring structure comprising a pipe in which a fluid flows and a pair of ultrasonic transmitting-receiving devices arranged on the pipe at an outer surface thereof, each transmitting-receiving device comprising a composite of an ultrasonic transducer and an ultrasonic propagating element which propagates an ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer, the composite being arranged at an acute angle from the center line of the pipe, and an ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe, which has a viscosity in the range of 0.5×

10^−

3to 3×

10 Pa-sec at 25°

C. and a rate of sonic propagation in terms of V₁at 25°

C. satisfying the condition of 0.5<

V₁/V₂<

1.7 in which V₂represents a rate of sonic propagation of material of the pipe at 25°

C., the ultrasonic propagating layer being placed in a case having an opening on a bottom surface thereof.

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Abstract

A clamp-on ultrasonic flowmeter has a pair of ultrasonic transmitting-receiving devices which are placed on a pipe in which a liquid flows. Each device is composed of a composite of a ultrasonic transducer and a ultrasonic propagating element which propagates ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer (which is arranged at an acute angle from the center line of the pipe), and a ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe. The ultrasonic propagating layer has a viscosity of 0.5×10⁻³to 3×10 Pa.sec at 25° C. and a rate of sonic propagation in terms of V₁at 25° C. satisfying the condition of 0.5<V₁/V₂<1.7 in which V₂represents a rate of sonic propagation of material of the pipe at 25° C. Otherwise, the ultrasonic propagating layer has a rate of penetration of needle in the range of 10 to 300 at 25° C. and a rate of sonic propagation satisfying the same condition.

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36 Claims

1. A flow rate-measuring structure comprising a pipe in which a fluid flows and a pair of ultrasonic transmitting-receiving devices arranged on the pipe at an outer surface thereof, each transmitting-receiving device comprising a composite of an ultrasonic transducer and an ultrasonic propagating element which propagates an ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer, the composite being arranged at an acute angle from the center line of the pipe, and an ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe, which has a viscosity in the range of 0.5×
- 10^−
  
  3to 3×
  
  10 Pa-sec at 25°
  
  C. and a rate of sonic propagation in terms of V₁at 25°
  
  C. satisfying the condition of 0.5<
  
  V₁/V₂<
  
  1.7 in which V₂represents a rate of sonic propagation of material of the pipe at 25°
  
  C., the ultrasonic propagating layer being placed in a case having an opening on a bottom surface thereof.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The flow rate-measuring structure of claim 1, wherein the ultrasonic propagating layer comprises a liquid.
  - 3. The flow rate-measuring structure of claim 1, wherein the ultrasonic propagating layer comprises water, oil, glycerol, water glass, vaseline, or grease.
  - 4. The flow rate-measuring structure of claim 1, wherein both of the composite and the ultrasonic propagating layer are placed in a case having an opening on a bottom surface thereof.
  - 5. The flow rate-measuring structure of claim 1, wherein the ultrasonic propagating element is composed of a plurality of sheet units in which each sheet unit is composed of plural high modulus fibers aligned in parallel in resinous material.
  - 6. The flow rate-measuring structure of claim 5, wherein the sheet units of the ultrasonic propagating element are produced under the condition that the high modulus fibers in one sheet unit are arranged to make a right angle with the high modulus fibers in an adjoining sheet unit.
  - 7. The flow rate-measuring structure of claim 1, wherein the pipe is made of fluororesin.

8. A flow rate-measuring structure comprising a pipe in which a fluid flows and a pair of ultrasonic transmitting-receiving devices arranged on the pipe at an outer surface thereof, each transmitting-receiving device comprising a composite of an ultrasonic transducer and an ultrasonic propagating element which propagates an ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer, the composite being arranged at an acute angle from the center line of the pipe, and an ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe, which has a rate of penetration of needle in the range of 10 to 300 at 25°
- C. and a rate of sonic propagation in terms of V₁at 25°
  
  C. satisfying the condition of 0.5<
  
  V₁/V₂<
  
  1.7 in which V₂represents a rate of sonic propagation of material of the pipe at 25°
  
  C., the ultrasonic propagating layer being placed in a case having an opening on a bottom surface thereof.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
- - 9. The flow rate-measuring structure of claim 8, wherein the ultrasonic propagating layer comprises elastic material.
  - 10. The flow rate-measuring structure of claim 8, wherein the ultrasonic propagating layer comprises polymeric gel.
  - 11. The flow rate-measuring structure of claim 8, wherein the ultrasonic propagating layer comprises polyurethane gel or silicone gel.
  - 12. The flow rate-measuring structure of claim 8, wherein both of the composite and the ultrasonic propagating layer are placed in a case having an opening on a bottom surface thereof.
  - 13. The flow rate-measuring structure of claim 8, wherein the ultrasonic propagating element is composed of a plurality of sheet units in which each sheet unit is composed of plural high modulus fibers aligned in parallel in resinous material.
  - 14. The flow rate-measuring structure of claim 13, wherein the sheet units of the ultrasonic propagating element are produced under the condition that the high modulus fibers in one sheet unit are arranged to make a right angle with the high modulus fibers in an adjoining sheet unit.
  - 15. The flow rate-measuring structure of claim 8, wherein the pipe is made of fluororesin.

16. An ultrasonic transmitting-receiving device comprising a composite of an ultrasonic transducer and an ultrasonic propagating element which propagates an ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer, the composite being arranged at an acute angle from the center line of the pipe, and an ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe, which has a viscosity in the range of 0.5×
- 10^−
  
  3to 3×
  
  10 Pa-sec at 25°
  
  C. and a rate of sonic propagation at 25°
  
  C. is in the range of 700 to 2,000 m/sec, the ultrasonic propagating layer being placed in a case having an opening on a bottom surface thereof.
- View Dependent Claims (17, 18, 19, 20, 21)
- - 17. The ultrasonic transmitting-receiving device of claim 16, wherein the ultrasonic propagating layer comprises a liquid.
  - 18. The ultrasonic transmitting-receiving device of claim 16, wherein the ultrasonic propagating layer comprises water, oil, glycerol, water glass, vaseline, or grease.
  - 19. The ultrasonic transmitting-receiving device of claim 16, wherein both of the composite and the ultrasonic propagating layer are placed in a case having an opening on a bottom surface thereof.
  - 20. The ultrasonic transmitting-receiving device of claim 16, wherein the ultrasonic propagating element is composed of a plurality of sheet units in which each sheet unit is composed of plural high modulus fibers aligned in parallel in resinous material.
  - 21. The ultrasonic transmitting-receiving device of claim 20, wherein the sheet units of the ultrasonic propagating element are produced under the condition that the high modulus fibers in one sheet unit are arranged to make a right angle with the high modulus fibers in an adjoining sheet unit.

22. An ultrasonic transmitting-receiving device comprising a composite of an ultrasonic transducer and an ultrasonic propagating element which propagates an ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer, the composite being arranged at an acute angle from the center line of the pipe, and an ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe, which has a rate of penetration of needle in the range of 10 to 300 at 25°
- C. and a rate of sonic propagation at 25°
  
  C. is in the range of 700 to 2,000 m/sec, the ultrasonic propagating layer being placed in a case having an opening on a bottom surface thereof.
- View Dependent Claims (23, 24, 25, 26, 27, 28)
- - 23. The ultrasonic transmitting-receiving device of claim 22, wherein the ultrasonic propagating layer comprises elastic material.
  - 24. The ultrasonic transmitting-receiving device of claim 22, wherein the ultrasonic propagating layer comprises polymeric gel.
  - 25. The ultrasonic transmitting-receiving device of claim 24, wherein the ultrasonic propagating layer comprises polyurethane gel or silicone gel.
  - 26. The ultrasonic transmitting-receiving device of claim 22, wherein both of the composite and the ultrasonic propagating layer are placed in a case having an opening on a bottom surface thereof.
  - 27. The ultrasonic transmitting-receiving device of claim 22, wherein the ultrasonic propagating element is composed of a plurality of sheet units in which each sheet unit is composed of plural high modulus fibers aligned in parallel in resinous material.
  - 28. The ultrasonic transmitting-receiving device of claim 22, wherein the sheet units of the ultrasonic propagating element are produced under the condition that the high modulus fibers in one sheet unit are arranged to make a right angle with the high modulus fibers in an adjoining sheet unit.

29. A flow rate-measuring structure comprising a pipe in which a fluid flows and a pair of ultrasonic transmitting-receiving devices arranged on the pipe at an outer surface thereof, each transmitting-receiving device comprising a composite of an ultrasonic transducer and an ultrasonic propagating element which propagates an ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer, the composite being arranged at an acute angle from the center line of the pipe, and an ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe, which has a viscosity in the range of 0.5×
- 10^−
  
  3to 3×
  
  10 Pa-sec at 25°
  
  C. and a rate of sonic propagation in terms of V₁at 25°
  
  C. satisfying the condition of 0.5<
  
  V₁/V₂<
  
  1.7 in which V₂represents a rate of sonic propagation of material of the pipe at 25°
  
  C., the ultrasonic propagating element being composed of a plurality of sheet units in which each sheet unit is composed of plural high modulus fibers aligned in parallel in resinous material.
- View Dependent Claims (30)
- - 30. The flow rate-measuring structure of claim 29, wherein the sheet units of the ultrasonic propagating element are produced under the condition that the high modulus fibers in one sheet unit are arranged to make a right angle with the high modulus fibers in an adjoining sheet unit.

31. A flow rate-measuring structure comprising a pipe in which a fluid flows and a pair of ultrasonic transmitting-receiving devices arranged on the pipe at an outer surface thereof, each transmitting-receiving device comprising a composite of an ultrasonic transducer and an ultrasonic propagating element which propagates an ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer, the composite being arranged at an acute angle from the center line of the pipe, and an ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe, which has a rate of penetration of needle in the range of 10 to 300 at 25°
- C. and a rate of sonic propagation in terms of V₁at 25°
  
  C. satisfying the condition of 0.5<
  
  V₁/V₂<
  
  1.7 in which V₂represents a rate of sonic propagation of material of the pipe at 25°
  
  C., the ultrasonic propagating element being composed of a plurality of sheet units in which each sheet unit is composed of plural high modulus fibers aligned in parallel in resinous material.
- View Dependent Claims (32)
- - 32. The flow rate-measuring structure of claim 31, wherein the sheet units of the ultrasonic propagating element are produced under the condition that the high modulus fibers in one sheet unit are arranged to make a right angle with the high modulus fibers in an adjoining sheet unit.

33. An ultrasonic transmitting-receiving device comprising a composite of an ultrasonic transducer and an ultrasonic propagating element which propagates an ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer, the composite being arranged at an acute angle from the center line of the pipe, and an ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe, which has a viscosity in the range of 0.5×
- 10^−
  
  3to 3×
  
  10 Pa-sec at 25°
  
  C. and a rate of sonic propagation at 25°
  
  C. is in the range of 700 to 2,000 m/sec, the ultrasonic propagating element being composed of a plurality of sheet units in which each sheet unit is composed of plural high modulus fibers aligned in parallel in resinous material.
- View Dependent Claims (34)
- - 34. The ultrasonic transmitting-receiving device of claim 33, wherein the sheet units of the ultrasonic propagating element are produced under the condition that the high modulus fibers in one sheet unit are arranged to make a right angle with the high modulus fibers in an adjoining sheet unit.

35. An ultrasonic transmitting-receiving device comprising a composite of an ultrasonic transducer and an ultrasonic propagating element which propagates an ultrasonic wave transmitted by the transducer predominantly in the direction perpendicular to a plane of the transducer, the composite being arranged at an acute angle from the center line of the pipe, and an ultrasonic propagating layer placed between the ultrasonic propagating element and the pipe which has a rate of penetration of needle in the range of 10 to 300 at 25°
- C. and a rate of sonic propagation at 25°
  
  C. is in the range of 700 to 2,000 m/sec, the ultrasonic propagating element being composed of a plurality of sheet unites in which each sheet unit is composed of plural high modulus fibers aligned in parallel resinous material.
- View Dependent Claims (36)
- - 36. The ultrasonic transmitting-receiving device of claim 35, wherein the sheet units of the ultrasonic propagating element are produced under the condition that the high modulus fibers in one sheet unit are arranged to make a right angle with the high modulus fibers in an adjoining sheet unit.

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Current Assignee
Kazumasa Ohnishi
Original Assignee
Kazumasa Ohnishi
Inventors
Ohnishi, Kazumasa
Primary Examiner(s)
Lefkowitz, Edward
Assistant Examiner(s)
THOMPSON, JEWEL VERGIE

Application Number

US10/041,604
Publication Number

US 20020139198A1
Time in Patent Office

607 Days
Field of Search

738/612.7, 738/612.6, 738/612.8, 738/610.8, 73/614.9, 738/611.8, 310/334
US Class Current

73/861.27
CPC Class Codes

G01F 1/662 Constructional details

Clamp-on ultrasonic flowmeter

First Claim

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Abstract

52 Citations

36 Claims

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Clamp-on ultrasonic flowmeter

First Claim

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Accused Products

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Abstract

52 Citations

36 Claims

Specification

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Use Cases

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Others