Self-correcting self-checking turbine meter

US 4,305,281 A
Filed: 06/04/1979
Issued: 12/15/1981
Est. Priority Date: 06/04/1979
Status: Expired due to Term

First Claim

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1. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, output means actuated by said metering rotor to provide an output indicative of the fluid flow through said metering rotor, a sensing rotor downstream of said metering rotor for sensing the exit angle of the fluid leaving the blades of said metering rotor, said sensing rotor having blades oriented at a discrete angle with respect to the axis of rotation of said sensing rotor and being adapted for normally continuous rotation at a speed substantially less than the speed of said metering rotor, means actuated by said sensing rotor for modifying the output from said metering rotor in accordance with changes in said exit angle.

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Abstract

A turbine meter is disclosed in which a sensing rotor downstream from the metering rotor senses changes in the exit angle of the fluid leaving the metering rotor, the output from the sensing rotor being combined with the output from the metering rotor to produce a corrected output indicative of the flow of fluid through the meter. The output from the sensing rotor and the output from the metering rotor may be compared to provide an indication of deviation from performance at calibration.

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54 Claims

1. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, output means actuated by said metering rotor to provide an output indicative of the fluid flow through said metering rotor, a sensing rotor downstream of said metering rotor for sensing the exit angle of the fluid leaving the blades of said metering rotor, said sensing rotor having blades oriented at a discrete angle with respect to the axis of rotation of said sensing rotor and being adapted for normally continuous rotation at a speed substantially less than the speed of said metering rotor, means actuated by said sensing rotor for modifying the output from said metering rotor in accordance with changes in said exit angle.
- View Dependent Claims (2, 3, 4)
- - 2. The turbine meter defined in claim 1 in which said sensing rotor is adapted to rotate in the same direction as said metering rotor.
  - 3. The turbine meter defined in claim 1 in which the speed of said sensing rotor is one order of magnitude less than the speed of said metering rotor.
  - 4. The turbine meter defined in claim 3 in which said sensing rotor is adapted to rotate in the same direction as said metering rotor.

5. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, means actuated by said metering rotor to provide a first signal representative of the speed of said metering rotor, a sensing rotor downstream of said metering rotor, said sensing rotor having blades oriented at a discrete angle with respect to the axis of rotation of said sensing rotor and being adapted for normally continuous rotation at a speed substantially less than the speed of said metering rotor, means actuated by said sensing rotor to provide a second signal representative of said exit angle, means for combining the values of said signals to produce an output indicative of the performance of said meter.
- View Dependent Claims (6, 7)
- - 6. The turbine meter of claim 5 in which said last mentioned means comprises means to subtract the value of the signal representative of said exit angle from the value of the signal representative of the speed of said metering rotor to provide an output indicative of the fluid flow through the meter.
  - 7. The turbine meter defined in claim 5 in which the speed of said sensing rotor is one order of magnitude less than the speed of said metering rotor.

8. A turbine metering system comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, means actuated by said metering rotor to provide a first output having a value representative of the speed of rotation of said metering rotor, a sensing rotor downstream of said metering rotor for sensing the exit angle of the fluid leaving said metering rotor, said sensing rotor having blades oriented at a discrete angle with respect to the axis of rotation of said sensing rotor and being adapted for normally continuous rotation at a speed substantially less than the speed of said metering rotor, means actuated by said sensing rotor to provide a second output having a value representative of the speed of rotation of said sensing rotor, means to make a comparison the values of said first and second output.
- View Dependent Claims (9, 10, 11)
- - 9. The turbine meter defined in claim 8 in which the speed of rotation of said sensing rotor is one order of magnitude less than the speed of said metering rotor.
  - 10. The turbine meter defined in claim 8 together with means to compare the value of said comparison with a pre-selected range of values and means to provide an output when the value of said comparison is not within said preselected range of values.
  - 11. The turbine meter of claim 10 together with means to adjust the limits of said preselected range of values.

12. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, means actuated by said metering rotor to provide a first signal representative of the speed of said metering rotor, a sensing rotor downstream of said metering rotor adapted for rotation in the same direction as said metering rotor for sensing the exit angle of the fluid leaving said metering rotor, means actuated by said sensing rotor to provide a second signal representative of said exit angle, means to subtract the value of said second signal from the value of said first signal to produce an output representative of fluid flow through said meter.

13. A turbine meter comprising a housing, metering rotor having spaced blades and mounted for rotation in said housing in response to the flow fo fluid through said meter, means actuated by said metering rotor to provide a first signal representative of the speed of said metering rotor, a sensing rotor downstream of said metering rotor adapted for rotation in the same direction as said metering rotor for sensing the exit angle of the fluid leaving said metering rotor, means actuated by said sensing rotor to provide a second signal representative of said exit angle, means to make a comparison of the values of said first and second signals and means to compare the value of said comparison with a preselected range of values and means to provide a signal when the value of said comparison is not within said preselected range of values.
- View Dependent Claims (14)
- - 14. The turbine meter of claim 13 together with means to adjust the limits of said pre-selected range of values.

15. A turbine metering system comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, means actuated by said metering rotor to provide a first output having a value representative of the speed of rotation of said metering rotor, a sensing rotor downstream of said metering rotor mounted for normally continuous rotation in the same direction as said metering rotor and at a speed which varies with the value of the exit angle of the fluid leaving said metering rotor, means actuated by said sensing rotor to provide a second output having a value representative of the speed of rotation of said sensing rotor, means to subtract the value of said second output from the value of said first output, and means to produce a third output the value of which is representative of the difference between the values of said second and first outputs.

16. A turbine metering system comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, said actuated by said metering rotor to provide a first output having a value representative of the speed of rotation of said metering rotor, a sensing rotor downstream of said metering rotor mounted for rotation in the same direction as said metering rotor and at a speed which varies with the value of the exit angle of the fluid leaving said metering rotor, means actuated by said sensing rotor to provide a second output having a value representative of the speed of rotation of said sensing rotor, means to make a comparison of values of said first and second outputs and means to compare the value of said comparison with a preselected range of values and means to provide an output when the value of said comparison is not within said preselected range of values.
- View Dependent Claims (17)
- - 17. The turbine meter of claim 16 together with means to adjust the limits of said pre-selected range.

18. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, means actuated by said metering rotor to provide a first output representing registration differing from 100% registration, sensing means downstream of said metering rotor for sensing the exit angle of the fluid leaving said metering rotor, means actuated by said sensing means provide a second output representative of the amount by which said first output is representative of registration differing from 100%, means to subtract the value of said second output from the value of said first output, and means to provide a third output representative of the difference between the values of said first and second output.
- View Dependent Claims (19)
- - 19. The turbine meter defined in claim 18 in which said first output is representative of registration greater than 100%.

20. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, means actuated by said metering rotor to provide a first output representative of registration in excess of 100% registration, sensing means downstream of said metering rotor for sensing the exit angle of the fluid leaving said metering rotor, means actuated by said sensing means to provide a second output representative of the amount by which said first output is representative of registration in excess of 100% registration, means to make a comparison of the values of said first and second outputs.
- View Dependent Claims (21, 22)
- - 21. The turbine meter defined in claim 20 together with means to compare the value of said comparison with a pre-selected range of values and means to provide an output when the value of said comparison is not within said pre-selected range of values.
  - 22. A turbine meter defined in claim 21 together with means to adjust the limits of said preselected range.

23. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, first pulse producing means actuated by said metering rotor to produce a given number of pulses per revolution of said metering rotor, a sensing rotor downstream of said metering rotor for sensing the exit angle of fluid leaving the blades of said metering rotor, second pulse producing means actuated by said sensing rotor to produce a given number of pulses per revolutions of said sensing rotor, first counting means responsive to a preselected number of pulses from said second pulse producing means, second counting means for counting the number of pulses from said first pulse producing means during the time period it takes for said first counting means to count said preselected number of pulses from said second pulse producing means, means to produce an output representative of the number of pulses counted by said second counting means during said time period, and means to produce an output representative of said preselected number of pulses counted by said first counting means.
- View Dependent Claims (24, 25)
- - 24. The turbine meter defined in claim 23 together with means to subtract the value of said last mentioned output from the value of said first mentioned output.
  - 25. The turbine meter defined in claim 23 together with means to make a comparison of the values of said outputs.

26. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, first pulse producing means actuated by said metering rotor to produce a preselected number of pulses for a given number of revolutions of said metering rotor, a sensing rotor downstream of said metering rotor for sensing the exit angle of fluid leaving the blades of said metering rotor, second pulse producing means actuated by said sensing rotor to produce a pre-selected number of pulses for a given number of revolutions of said sensing rotor, first counting means responsive to a pre-selected number of pulses from said first pulse producing means, second counting means controlled by said first counting means for counting the number of pulses from said second pulse producing means during the time period it takes said first counting means to count said pre-selected number of pulses from said first pulse producing means, means to produce an output representative of the number of pulses counted by said second counting means during said time period, and means to produce an output representative of said pre-selected number of pulses counted by said first counting means.
- View Dependent Claims (27, 28)
- - 27. The turbine meter defined in claim 26 together with means to subtract the value of said last mentioned output from the value of said first mentioned output.
  - 28. The turbine meter defined in claim 26 together with means to make a comparison of the values of said outputs.

29. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, first pulse producing means actuated by said metering rotor to produce a pre-selected number of pulses for a given number of revolutions of said metering rotor, a sensing rotor downstream of said metering rotor for sensing the exit angle of fluid leaving the blades of said metering rotor, second pulse producing means actuated by said sensing rotor to produce a pre-selected number of pulses for a given number of revolutions of said sensing rotor, first time controlled counting means for counting the number of pulses received from said first pulse producing means during a given time interval, second time controlled counting means for counting the number of pulses received from said second pulse producing means during said time interval, means to produce an output representative of the number of pulses counted by said first time controlled counting means during said time interval, and means to produce an output representative of the number of pulses counted by said second time controlled counting means during said time interval.
- View Dependent Claims (30, 31)
- - 30. The turbine meter defined in claim 29 together with means to subtract the value of said last mentioned output, from the value of said first mentioned output.
  - 31. The turbine meter defined in claim 29 together with means to make a comparison of the values of said outputs.

32. A self-correcting metering system for providing an accurate manifestation of fluid flow through a meter corrected to compensate for conditions of use, said system comprising:
- a. a metering rotor mounted for rotation in response to the flow of fluid through said meter;
  
  b. a sensing rotor disposed downstream of said metering rotor and mounted for rotation at a speed dependent upon the value of the exit angle of the fluid leaving said metering rotor;
  
  c. first means responsive to the rotation of said metering rotor for providing a first output indicative of the rotational speed of said metering rotor;
  
  d. second means responsive to the rotation of said sensing rotor for providing a second output indicative of the rotational speed of said sensing rotor; and
  
  e. processing means comprising means responsive to the first and second outputs for providing respectively a first signal representative of fluid flow which differs from 100% registration of the volume of the fluid flowing through said meter and a second signal representative of the amount that said first signal differs from 100% registration of the volume of the fluid flow through said meter and means for obtaining the difference between the values of said first and second signals to provide an accurate indication of the volume of fluid flowing through said meter.
- View Dependent Claims (33, 34, 35, 36, 37, 38, 40, 41)
- - 33. The metering system as claimed in claim 32, wherein said processing means comprises a digital computer processor and memory means.
  - 34. The metering system as claimed in claim 33, wherein said first means is coupled to said metering rotor to provide a first series of pulses whose frequency is dependent upon the speed of said metering rotor, and said second means is coupled to said sensing rotor for providing a second series of pulses whose frequency is dependent upon the speed of said sensing rotor.
  - 35. The metering system as claimed in claim 34, wherein said processing means includes means for counting each of said first and second series of pulses for a given time interval to provide respectively first and second indications of the volume of fluid flow during said given interval.
  - 36. The metering system as claimed in claim 35, wherein said memory means stores a metering rotor factor dependent upon the number of pulses produced by said metering rotor at calibration for each unit of volume passed through said meter, and a sensing rotor factor dependent upon the number of pulses produced by said sensing rotor at calibration for each unit of volume passed through said meter.
  - 37. The metering system as claimed in claim 36, wherein said control means comprises first means for processing said first signal with said metering rotor factor to provide an offset manifestation of the volume of fluid flow through the meter for said given interval and for processing said second signal with said sensing rotor factor to provide a second offset manifestation of the volume of fluid flow through said meter for said given interval.
  - 38. The metering system as claimed in claim 37, wherein said metering rotor factor is selected to provide a manifestation of fluid flow in excess of the actual flow through said meter at initial calibration, and the sensing rotor factor is selected to provide a manifestation of flow which is equal to the excess manifestation of fluid flow provided by said metering rotor such that the actual flow at calibration is equal to the difference between the values of the manifestations provided by said metering rotor and said sensing rotor.
  - 40. The self-checking metering system as claimed in claim 37, wherein said first means generates the first signal as a series of pulses whose frequency is dependent upon the rotational speed of said metering rotor and said second means generates the second signal as a series of pulses dependent upon the rotational speed of said sensing rotor.
  - 41. The self-checking metering apparatus as claimed in claim 37, wherein said processing means includes counting means for counting each of the first and second series of pulses for a given interval to provide a first count manifestation and a second count manifestation, and means for processing each of said first and second count manifestations with a metering rotor factor and a sensing rotor factor respectively to provide first and second volume manifestations respectively, said first means for obtaining a first ratio of the first and second current volume manifestations and second means for obtaining a second ratio of the first and second volume manifestations at calibration.

39. A self-checking metering system for providing an indication of change in rotor performance from an initially calibrated value comprising:
- (a) a metering rotor mounted for rotation in response to the flow of fluid through said meter;
  
  (b) a sensing rotor mounted downstream of said metering rotor for rotation at a speed dependent upon the value of the exit angle of the fluid leaving said metering rotor, said sensing rotor having blades oriented at a discrete angle with respect to the axis of rotation of said sensing rotor;
  
  (c) first means responsive to the rotation of said metering rotor for providing a first signal indicative of the rotational speed of said metering rotor;
  
  (d) second means responsive to the rotation of said sensing rotor for providing a second signal indicative of the rotational speed of sensing rotor; and
  
  (e) processing means including first processor means responsive to the first and second signals for obtaining a first ratio signal indicative of the ratio of the current rotational speed of said metering rotor to the current rotation speed of said sensing rotor, second processor means for providing a second ratio signal indicative of the ratio of the rotational speed at calibration of said metering rotor and the rotational speed at calibration of said sensing rotor, and a means for obtaining the difference between the first and second ratio signals to provide an indication of the change in rotor performance between calibration and current operation.
- View Dependent Claims (42)
- - 42. The self-checking metering system as claimed in claim 39, wherein said processing means further comprises storge means for storing limit values of the difference between said first and second ratios and means for comparing the change in rotor performance with the stored limit values and if not within said stored limit values, means to provide a manifestation thereof.

43. A self-correcting and checking metering system comprising:
- (a) a meter rotor mounted for rotation in response to the flow of fluid through said meter;
  
  (b) a sensing rotor disposed downstream of said metering rotor and mounted for rotation at a speed dependent upon the value of the exit angle of the fluid leaving said metering rotor;
  
  (c) first means responsive to the rotation of said metering rotor for providing a first series of pulses whose frequency is indicative of the rotational speed of said metering rotor;
  
  (d) second means responsive to the rotation of said sensor rotor for providing a second series of pulses whose frequency is indicative of the rotational speed of said sensing rotor; and
  
  (e) processing means comprising a clock for generating a series of timing signals, the interval there between defining a counting interval;
  
  means for counting each of the first and second series of pulses for said intervals to provide respectively first and second volume manifestations;
  
  storage means for storing a metering rotor factor determined at calibration and a sensing rotor factor determined at calibration;
  
  calculation means for periodically processing said first volume manifestation and said metering rotor factor to provide a first calibrated offset manifestation of the volume of the fluid flow through said meter and for processing said second volume manifestation and said sensing rotor factor to provide a second calibrated offset manifestation of the volume of the fluid flow through said meter;
  
  first means for obtaining the difference between said first and second offset manifestations to provide a manifestation of the actual volume of the fluid flowing through said meter;
  
  means responsive to the first and second series of pulses for obtaining a first ratio signal indicative of the ratio of the present rotational speed of said metering rotor to the present rotational speed of said sensing rotor;
  
  means responsive to the first and second series of pulses for obtaining a second ratio signal indicative of a ratio of the rotational speed at calibration of said metering rotor and the rotational speed at calibration of said sensing rotor; and
  
  second means for obtaining the difference between the first and second ratio signals to provide an indication of the change of rotor performance between calibration and its present operation.
- View Dependent Claims (44, 45, 46)
- - 44. The self-correcting and checking metering system as claimed in claim 43, wherein said first difference means is operative in response to each of the series of clock timing signals to effect its calculation of the volume difference.
  - 45. A self-correcting and checking metering system as claimed in claim 43, wherein said processing means further comprises means responsive to a predetermined number of pulses of said second series to initiate the operation of said second difference means to obtain an indication of the change in the performance of either or both.
  - 46. The self-correcting and checking metering system as claimed in claim 45, wherein said storage means stores limit values of the difference between said first and second ratio signals and means for comparing the ratio difference with the stored limit values and if not within said stored limit values means to provide a manifestation thereof.

47. A turbine meter comprising a metering rotor having blades oriented to form an angle with respect to the axis of rotation of said metering rotor, means actuated by said metering rotor for providing a first electric signal representative of the speed of said metering rotor, a sensing rotor downstream from said metering rotor for sensing the exit angle of the fluid leaving said metering rotor and having blades oriented to form an angle with respect to the axis of rotation of said sensing rotor, said last mentioned angle being substantially less than said first mentioned angle, means actuated by said sensing rotor for providing a second electrical signal representative of the speed of said sensing rotor, means for combining the values of said first signal and said second signal to produce a third electric signal representative of the value of fluid flow through said meter.
- View Dependent Claims (48)
- - 48. The turbine meter defined in claim 47 in which said last mentioned means is comprised of means to subtract said second signal from said first signal.

49. A turbine meter comprising a metering rotor having blades oriented to form an angle with respect to the axis of rotation of said metering rotor for providing a first electric signal representative of the speed of said metering rotor, a sensing rotor downstream from said metering rotor for sensing the exit angle of the fluid leaving said metering rotor and having blades oriented to form an angle with respect to the axis of rotation of said sensing rotor, said last mentioned angle being substantially less than said first mentioned angle, means actuated by said sensing rotor for providing a second electric signal representative of the speed of said sensing rotor, means for comparing the values of said first and second signals and means to produce a third signal representative of the value of said comparison.
- View Dependent Claims (50)
- - 50. The turbine meter defined in claim 49 in which said means for comparing the value of said first and second signals is comprised of means to take the ratio of the values of said first and second signals.

51. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, means to minimize the tangential component in the direction of fluid flow into said metering rotor, output means actuated by said metering rotor to provide a first output representative of the fluid flow through said metering rotor, sensing means downstream of said metering rotor for sensing the exit angle of the fluid leaving the blades of said rotor, said sensing means comprising a sensing rotor adapted to rotate in the same direction as said metering rotor at calibration, means actuated by said sensing means to provide a second output representative of the value of said exit angle and means to subtract the value of said second output from the value of said first output to produce a third output representative of the flow through said meter compensated for deviations in the performance of said metering rotor from its performance at calibration.

52. A turbine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, output means actuated by said metering rotor to provide an output indicative of the fluid flow through said metering rotor, a sensing rotor downstream of said metering rotor for sensing the exit angle of the fluid leaving the blades of said metering rotor, said sensing rotor being adapted for normally continuous rotation in the same direction as said metering rotor and at a speed substantially less than the speed of said metering rotor, and means actuated by said sensing rotor for modifying the output from said metering rotor in accordance with changes in said exit angle.
- View Dependent Claims (53)
- - 53. The turbine meter defined in claim 52 in which the speed of said sensing rotor is one order of magnitude less than the speed of said metering rotor.

54. A tubine meter comprising a housing, a metering rotor having spaced blades and mounted for rotation in said housing in response to the flow of fluid through said meter, means actuated by said metering rotor to provide a first signal representative of the speed of said metering rotor, a sensing rotor downstream of said metering rotor for sensing the exit angle of the fluid leaving said metering rotor, said sensing rotor being adapted for normally continuous rotation at a speed substantially less than the speed of said metering rotor, means actuated by said sensing rotor to provide a second signal representative of said exit angle and means to subtract the value of the signal representative of said exit angle from the value of the signal representative of the speed of said metering rotor to provide an output indicative of the fluid flow through the meter.

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Current Assignee
M&FC Holding, LLC
Original Assignee
Rockwell International Corporation
Inventors
Sciulli, Felice M., White, Raymond V., Lee, Winston F. Z., Charwat, Andrew
Primary Examiner(s)
Goldstein, Herbert

Application Number

US06/045,532
Time in Patent Office

925 Days
Field of Search

73/195, 73/196, 73/230, 73/231, 73/861.83, 73/861.84
US Class Current

73/195
CPC Class Codes

G01F 1/12 Adjusting, correcting, or c...

G01F 25/13 using a reference counter

Self-correcting self-checking turbine meter

First Claim

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Abstract

30 Citations

54 Claims

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Self-correcting self-checking turbine meter

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

30 Citations

54 Claims

Specification

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Use Cases

Quick Links

Others