Apparatus for identifying a non-uniform share of cylinder power in an internal combustion piston engine system

US 7,926,329 B2
Filed: 11/21/2006
Issued: 04/19/2011
Est. Priority Date: 11/30/2005
Status: Active Grant

First Claim

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1. A method for identifying at least one cylinder in an internal combustion piston engine having an engine shaft coupled to a load shaft, the power output of which deviates substantially from power outputs of the other cylinders, comprising:

selecting a plurality of harmonic frequencies,measuring the angular velocity of the engine shaft and the angular velocity of the shaft of a load connected to the engine shaft,determining amplitude and phase of each of the selected harmonic frequencies of the measured angular velocities,determining an offset and angular acceleration of the engine shaft, as well as an offset of the load shaft at each of the selected harmonic frequencies of the measured angular velocities,determining frequency-dependent rigidity and frequency-dependent damping of the coupling between the engine shaft and the load shaft at the selected harmonic frequencies,calculating torques at the selected harmonic frequencies by using the measured angular velocities, the determined offsets and angular accelerations of said shafts, and the determined coupling parameters, andidentifying the cylinder or cylinders by comparing the calculated torques with a firing order of the engine'"'"'s cylinders,and wherein the step of identifying the cylinder or cylinders comprises comparing the torques calculated at each of the selected harmonic frequencies with ignition times of the cylinders in order to detect the cylinders that produce the most deviating amount of power at the selected harmonic frequencies, andthe cylinder that is found to produce too much or too little power at the selected harmonic frequencies is selected as the identified cylinder.

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Abstract

The invention utilizes the firing order of the cylinders within the engine to identify the cylinder or cylinders that mainly contribute or, alternatively, contribute as little as possible to the production of certain harmonic frequencies in the engine'"'"'s torque. In order to use the engine'"'"'s torque for this purpose, the calculation of torque must take into account the non-linearities of the engine system. Thus the calculation of torque takes into account not only the properties of the engine but also the properties of the load and the shaft.

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18 Claims

1. A method for identifying at least one cylinder in an internal combustion piston engine having an engine shaft coupled to a load shaft, the power output of which deviates substantially from power outputs of the other cylinders, comprising:
- selecting a plurality of harmonic frequencies,measuring the angular velocity of the engine shaft and the angular velocity of the shaft of a load connected to the engine shaft,determining amplitude and phase of each of the selected harmonic frequencies of the measured angular velocities,determining an offset and angular acceleration of the engine shaft, as well as an offset of the load shaft at each of the selected harmonic frequencies of the measured angular velocities,determining frequency-dependent rigidity and frequency-dependent damping of the coupling between the engine shaft and the load shaft at the selected harmonic frequencies,calculating torques at the selected harmonic frequencies by using the measured angular velocities, the determined offsets and angular accelerations of said shafts, and the determined coupling parameters, andidentifying the cylinder or cylinders by comparing the calculated torques with a firing order of the engine'"'"'s cylinders,and wherein the step of identifying the cylinder or cylinders comprises comparing the torques calculated at each of the selected harmonic frequencies with ignition times of the cylinders in order to detect the cylinders that produce the most deviating amount of power at the selected harmonic frequencies, andthe cylinder that is found to produce too much or too little power at the selected harmonic frequencies is selected as the identified cylinder.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. A method according to claim 1, wherein the step of identifying comprises identifying at least two cylinders having consecutive ignition times as a virtual cylinder.
  - 3. A method according to claim 1, comprising using cylinder-specific fuel volume, cylinder pressure and/or cylinder-specific exhaust temperature for identifying the cylinder or cylinders.
  - 4. A method according to claim 1, wherein the selected harmonic frequencies are three lowest harmonic frequencies.
  - 5. A method according to claim 1, wherein the selected harmonic frequencies are at least three lowest harmonic frequencies.
  - 6. A method according to claim 1, comprising performing a discrete Fourier transform on the measurement data before determining the amplitude and phase of the selected harmonic frequencies from the angular velocity measurement data.
  - 7. A method according to claim 6, wherein the transform is a Fast Fourier Transform.
  - 8. A method according to claim 6, wherein the torques are calculated using the formula
    X_FKM=JK_{FK{umlaut over (φ}
    - )}₁+DX_{FK{dot over (φ
      
      )}}₁+C(X_{FK{dot over (φ
      
      )}}₁−
      
      X_{FK{dot over (φ
      
      )}}₂)+K(X_FKφ₁−
      
      X_FKφ₂)in which X_FKMis the torque to be calculated, J is the engine'"'"'s moment of inertia, X_{FK{umlaut over (φ
      
      )}}₁is the angular acceleration of the engine shaft, D is the damping factor of the engine, X_{FK{dot over (φ
      
      )}}₁is the angular velocity of the engine, C is the dynamic damping factor of the coupling, X_{FK{dot over (φ
      
      )}}₂is the angular velocity of the load shaft, K is the dynamic rigidity of the coupling, X_FKφ₁is the angular offset of the engine shaft and X_FKφ₂is the angular offset of the load shaft.
  - 9. A method according to claim 1, wherein a top dead centre of one of the engine'"'"'s cylinders is used as a reference point for determining shaft offsets.

10. An apparatus for identifying at least one of an internal combustion piston engine'"'"'s cylinders, the power output of which deviates substantially from the power outputs of the other cylinders, the engine having an engine shaft coupled to a load shaft, wherein the apparatus comprises a central unit with interfaces for connection to measurement sensors for providing measurement data relating to the angular velocity of the engine shaft and measurement data relating to the angular velocity of a load shaft connected to the engine shaft,said central unit comprises means for determining amplitudes and phases of the angular velocity measurement data at least the three lowest harmonic frequencies of said angular velocities,second means for determining an offset and angular acceleration of the engine shaft, as well as an offset of the load shaft at each of said plurality of harmonic frequencies,third means containing information on frequency-dependent rigidity and frequency-dependent damping of the coupling between the engine shaft and the load shaft at each of said plurality of harmonic frequencies,fourth means for calculating torques at each of said plurality of harmonic frequencies by using the measured angular velocities, the determined offsets and angular accelerations of said shafts, as well as the coupling parameters, andfifth means for identifying the cylinder or cylinders by comparing the calculated torques with a firing order of the engine'"'"'scylinders and identifying the cylinder that is found to produce too much or too little power at all of the harmonic frequencies.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
- - 11. An apparatus according to claim 10, wherein at least two cylinders having consecutive ignition times constitute a virtual cylinder that can be identified.
  - 12. An apparatus according to claim 10, wherein the central unit comprises filters for filtering the measurement data and performing a Fourier transform.
  - 13. An apparatus according to claim 12, wherein the fourth means use the formula
    X_FKM=JX_{FK{umlaut over (φ}
    - )}₁+DX_{FK{dot over (φ
      
      )}}₁+C(X_{FK{dot over (φ
      
      )}}₁−
      
      X_{FK{dot over (φ
      
      )}}₂)+K(X_FKφ₁−
      
      X_FKφ₂)in which X_FKMis the torque to be calculated, J is the engine'"'"'s moment of inertia, X_{FK{umlaut over (φ
      
      )}}₁is the angular acceleration of the engine shaft, D is the damping factor of the engine, X_{FK{dot over (φ
      
      )}}₁is the angular velocity of the engine, C is the dynamic damping factor of the coupling, X_{FK{dot over (φ
      
      )}}₂is the angular velocity of the load shaft, K is the dynamic rigidity of the coupling, X_FKφ₁is the angular offset of the engine shaft and X_FKφ₂is the angular offset of the load shaft.
  - 14. An apparatus according to claim 10, wherein the second means are arranged to use a top dead centre of one of the engine'"'"'s cylinders as a reference point for determining shaft offsets.
  - 15. An apparatus according to claim 10, wherein the central unit comprises at least one additional interface through which the central unit can be connected to external systems.
  - 16. An apparatus according to claim 15, wherein the external device is an engine control unit, a CAN bus or a TCP/IP network.
  - 17. An apparatus according to claim 10, wherein the apparatus includes measurement sensors.

18. A method of operating a multi-cylinder internal combustion piston engine having an engine shaft coupled to a load shaft for driving a load, wherein each cylinder produces a power output and the engine shaft and the load shaft each rotate with an angular velocity, said method comprising:
- measuring the angular velocity of the engine shaft and the angular velocity of the load shaft,determining amplitudes and phases of selected harmonic frequencies of the angular velocities of the engine shaft and load shaft,determining an offset and angular acceleration of the engine shaft, as well as an offset of the load shaft at each of said selected harmonic frequencies of the angular velocities,determining parameters of the coupling between the engine shaft and the load shaft at the selected harmonic frequencies, the coupling parameters being frequency-dependent rigidity and frequency-dependent damping of the coupling,calculating torques at the selected harmonic frequencies by using the measured angular velocities, the determined offsets and angular accelerations of said shafts, as well as the coupling parameters, andidentifying at least one cylinder of which the power output deviates substantially from the power outputs of other cylinders of the engine, by comparing the calculated torques with a firing order of the engine'"'"'s cylinders,wherein the step of identifying at least one cylinder includes comparing the torque calculated at each selected harmonic frequency with ignition times of the cylinders in order to detect the cylinder that produces the most deviating amount of power at each selected harmonic frequency,and the method further comprises identifying the cylinder that produces too much or too little power at all of the selected harmonic frequencies as a cylinder of which the power output deviates substantially from power outputs of the other cylinders.

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Current Assignee
Wartsila Italia SPA (Wartsila Oyj Abp)
Original Assignee
Wartsila Italia SPA (Wartsila Oyj Abp)
Inventors
Östman, Fredrik
Primary Examiner(s)
Kirkland, III; Freddie

Application Number

US12/095,339
Publication Number

US 20080276697A1
Time in Patent Office

1,610 Days
Field of Search

731/141.3, 731/141.5
US Class Current

73/114.13
CPC Class Codes

F02D 2041/1432   the system including a filt...

F02D 2041/288   for performing a transforma...

F02D 2200/1004   Estimation of the output to...

F02D 2200/1012   Engine speed gradient

F02D 41/008   Controlling each cylinder i...

F02D 41/021   Introducing corrections for...

F02D 41/1498   measuring engine roughness

G01M 15/046   by monitoring revolutions f...

Apparatus for identifying a non-uniform share of cylinder power in an internal combustion piston engine system

First Claim

1 Assignment

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Abstract

Citations

18 Claims

Specification

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Apparatus for identifying a non-uniform share of cylinder power in an internal combustion piston engine system

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

18 Claims

Specification

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Solutions

Use Cases

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