Charge loss detection and prognostics for multi-modular split systems

US 7,159,408 B2
Filed: 07/28/2004
Issued: 01/09/2007
Est. Priority Date: 07/28/2004
Status: Expired due to Fees

First Claim

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1. A method of detecting refrigerant level within a refrigerant system comprising the steps of:

a) estimating a value of a parameter indicative of a current refrigerant level by determining a regression model between system parameters and the parameter indicative of the current refrigerant level at a full refrigerant level and estimating the value of the parameter indicative of the current refrigerant level based on said regression model;

b) measuring an actual value of the parameter; and

c) determining a charge indicator based on a difference between the actual value and the estimated value, wherein said charge indicator represents the level of refrigerant within the system.

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Abstract

A method for detecting and predicting refrigerant level includes the steps of determining an estimated value for a parameter indicative of refrigerant level and comparing that estimated value to an actual value. The difference between the actual and estimated value provides a refrigerant charge indicator value. The charge indicator value is indicative of the amount of refrigerant contained within the system. A change value is combined with the charge indicator value to provide a prediction for the future value of the charge indicator value. This future value is determined based on a rate of change and charge indicator value over a selected period of time.

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18 Claims

1. A method of detecting refrigerant level within a refrigerant system comprising the steps of:
- a) estimating a value of a parameter indicative of a current refrigerant level by determining a regression model between system parameters and the parameter indicative of the current refrigerant level at a full refrigerant level and estimating the value of the parameter indicative of the current refrigerant level based on said regression model;
  
  b) measuring an actual value of the parameter; and
  
  c) determining a charge indicator based on a difference between the actual value and the estimated value, wherein said charge indicator represents the level of refrigerant within the system.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The method as recited in claim 1, comprising the step of determining a loss of refrigerant for a value of the charge indicator below a desired threshold.
  - 3. The method as recited in claim 1, wherein said system parameters utilized for formulating said regression model comprise refrigerant discharge pressure and refrigerant mass flow.
  - 4. The method as recited in claim 1, wherein said system parameters utilized for formulating said regression model comprises refrigerant discharge pressure and fan speed.
  - 5. The method as recited in claim 1, wherein said parameter indicative of refrigerant level comprises a value indicative of an expansion valve opening size.
  - 6. The method as recited in claim 5, wherein said value comprises the number of current pulses counts.
  - 7. The method as recited in claim 1, comprising the step of predicting a value of the charge indicator at a future time based on the current value of the charge indicator and a change value representing rate of change of the charge indicator.
  - 8. The method as recited in claim 7, comprising the step of assigning a confidence value to the predicted charge indictor value.
  - 9. The method as recited in claim 8, comprising monitoring actual parameter values and adjusting said change value based on said monitored sensor values.

10. A method of detecting refrigerant level within a refrigerant system comprising the step of:
- a) estimating a value of a parameter indicative of a current refrigerant level by determining parameter values for different system operating conditions for a low refrigerant level and a full refrigerant level, determining a difference between parameter values at low and full refrigerant levels for each system operating condition, and determining a vector quantity representing system reaction to various operating conditions;
  
  b) measuring an actual value of a parameter; and
  
  c) determining a charge indicator based on a difference between the actual value and the estimated value, wherein said charge indicator represents the level of refrigerant within the system.
- View Dependent Claims (11)
- - 11. The method as recited in claim 10, comprising the step of determining a vector quantity representing the difference between estimated parameter values and actual parameter values, and combining the vector quantity representing system reaction with the vector quantity representing the difference between estimated parameter values and actual parameter values to obtain said charge indicator.

12. A method of predicting refrigerant amount within a refrigerant system comprising the steps of:
- a) determining a charge indicator representing a current amount of refrigerant within the system based on a difference between an actual value and an estimated value;
  
  b) determining a change value indicative of a rate of change in refrigerant level based on previous values of the charge indicator; and
  
  c) predicting a future value of the charge indicator by combining the current charge indicator value with the change value, wherein the future value of the charge indicator is determined for each charge indicator at a predetermined time interval.
- View Dependent Claims (13, 14)
- - 13. The method as recited in claim 12, comprising assigning a confidence level to each future value of the charge indicator.
  - 14. The method as recited in claim 13, comprising the steps of determining an estimated future value of the charge value based on the confidence level for each future value and the confidence level assigned to each charge indicator.

15. A heat pump system comprising:
- a refrigerant circuit containing a quantity of refrigerant;
  
  a compressor for circulating said refrigerant;
  
  a heat exchanger for transferring thermal energy from said refrigerant;
  
  an expansion valve for controlling flow of refrigerant through said refrigerant circuit, wherein said expansion valve includes an opening variable responsive to a number of current pulses; and
  
  a controller monitoring refrigerant level within said refrigerant circuit, said controller operable to estimate a number of current pulses indicative of current refrigerant level, measure an actual number of current pulses and determine a charge indicator based on a difference between said actual number of current pulses and said estimated number of current pulses.
- View Dependent Claims (16, 17, 18)
- - 16. The system as recited in claim 15, wherein said estimated value comprises an estimated number of current pulses and said controller determines said estimated number of current pulses in view of a refrigerant discharge pressure and a refrigerant mass flow.
  - 17. The system as recited in claim 15, wherein said estimated value comprises an estimated number of current pulses and said controller determines said estimated number of current pulses in view of refrigerant discharge pressure and a speed of a cooling fan.
  - 18. The system as recited in claim 15, wherein said controller determines a future quantity of refrigerant within said refrigerant circuit based on a current value of said refrigerant.

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Current Assignee
Carrier Corporation (Carrier Global Corporation)
Original Assignee
Carrier Corporation (Carrier Global Corporation)
Inventors
Finn, Alan M., Kang, Pengju, Sadegh, Payman, Farzad, Mohsen, Stricevic, Slaven
Primary Examiner(s)
Ali; Mohammad M.

Application Number

US10/900,478
Publication Number

US 20060021362A1
Time in Patent Office

895 Days
Field of Search

621/25, 621/26, 621/27, 621/29, 622/03, 622/08, 621/15
US Class Current

62/115
CPC Class Codes

F25B 2500/19   Calculation of parameters

F25B 2600/19   Refrigerant outlet condense...

F25B 2600/2513   Expansion valves

F25B 2700/04   Refrigerant level

F25B 49/005   of safety devices F25B49/02...

Charge loss detection and prognostics for multi-modular split systems

First Claim

1 Assignment

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Abstract

83 Citations

18 Claims

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Charge loss detection and prognostics for multi-modular split systems

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

83 Citations

18 Claims

Specification

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Solutions

Use Cases

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