Furnace with modulating firing rate adaptation

US 8,876,524 B2
Filed: 03/02/2012
Issued: 11/04/2014
Est. Priority Date: 03/02/2012
Status: Active Grant

First Claim

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1. A method of operating a combustion appliance that has a burner, a variable speed combustion blower, three or more different firing rates including a minimum firing rate, a maximum firing rate and at least one intermediate firing rate between the minimum firing rate and the maximum firing rate, wherein each of the three or more firing rates have a different corresponding combustion blower speed, the combustion appliance further including a first pressure switch and a second pressure switch, the combustion appliance operating in a number of HVAC cycles in response to one or more calls for heat, the method comprising:

receiving a current call for heat to initiate a current HVAC cycle;

setting the combustion appliance to a first firing rate, wherein the first firing rate is above the minimum firing rate;

igniting the burner of the combustion appliance;

once ignited, modulating the firing rate from the first firing rate down towards the minimum firing rate;

determining if flame is lost as the firing rate is modulated down towards the minimum firing rate or after the firing rate has been modulated down toward the minimum firing rate, and wherein if flame is lost;

setting the combustion appliance to a second firing rate, wherein the second firing rate is above the firing rate at which the flame was lost;

igniting the burner of the combustion appliance;

maintaining the combustion appliance at a third firing rate that is above the firing rate at which the flame was lost until the current call for heat is satisfied or substantially satisfied; and

initiating a calibration cycle subsequent to the current HVAC cycle to identify an updated minimum firing rate, the calibration cycle comprising changing the blower speed of the variable speed combustion blower until the first pressure switch changes state, determining a first blower speed that is related to when the first pressure switch changes state, the first blower speed corresponding to the updated minimum firing rate of the combustion appliance, changing the blower speed of the variable speed combustion blower until the second pressure switch changes state, and determining a second blower speed that is related to when the second pressure switch changes state, the second blower speed corresponding to an updated maximum firing rate of the combustion appliance.

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Abstract

A furnace is disclosed that includes a burner with a firing rate that is variable between a minimum and a maximum firing rate. After a call for heat is received, the firing rate is set to an initial level above the minimum firing rate, and the burner is ignited. The firing rate is then modulated downward toward the minimum firing rate. If the flame is lost during or after modulation, the burner is reignited and the firing rate is maintained above the firing rate at which the flame was lost until the current call for heat is satisfied. In some cases, the firing rate is maintained until one or more subsequent calls for heat are satisfied.

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16 Claims

1. A method of operating a combustion appliance that has a burner, a variable speed combustion blower, three or more different firing rates including a minimum firing rate, a maximum firing rate and at least one intermediate firing rate between the minimum firing rate and the maximum firing rate, wherein each of the three or more firing rates have a different corresponding combustion blower speed, the combustion appliance further including a first pressure switch and a second pressure switch, the combustion appliance operating in a number of HVAC cycles in response to one or more calls for heat, the method comprising:
- receiving a current call for heat to initiate a current HVAC cycle;
  
  setting the combustion appliance to a first firing rate, wherein the first firing rate is above the minimum firing rate;
  
  igniting the burner of the combustion appliance;
  
  once ignited, modulating the firing rate from the first firing rate down towards the minimum firing rate;
  
  determining if flame is lost as the firing rate is modulated down towards the minimum firing rate or after the firing rate has been modulated down toward the minimum firing rate, and wherein if flame is lost;
  
  setting the combustion appliance to a second firing rate, wherein the second firing rate is above the firing rate at which the flame was lost;
  
  igniting the burner of the combustion appliance;
  
  maintaining the combustion appliance at a third firing rate that is above the firing rate at which the flame was lost until the current call for heat is satisfied or substantially satisfied; and
  
  initiating a calibration cycle subsequent to the current HVAC cycle to identify an updated minimum firing rate, the calibration cycle comprising changing the blower speed of the variable speed combustion blower until the first pressure switch changes state, determining a first blower speed that is related to when the first pressure switch changes state, the first blower speed corresponding to the updated minimum firing rate of the combustion appliance, changing the blower speed of the variable speed combustion blower until the second pressure switch changes state, and determining a second blower speed that is related to when the second pressure switch changes state, the second blower speed corresponding to an updated maximum firing rate of the combustion appliance.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The method of claim 1, wherein the first firing rate and the second firing rate are the same firing rate.
  - 3. The method of claim 1, wherein the first firing rate and the second firing rate both correspond to an ignition firing rate.
  - 4. The method of claim 3, wherein the ignition firing rate is in a range of 40-100% of the maximum firing rate of the combustion appliance.
  - 5. The method of claim 1, wherein the minimum firing rate is in a range of 25-40% of the maximum firing rate of the combustion appliance.
  - 6. The method of claim 1, wherein the third firing rate is the same as the second firing rate.
  - 7. The method of claim 1, wherein the third firing rate is in a range of 40-60% of the maximum firing rate of the combustion appliance.
  - 8. The method of claim 1, wherein the third firing rate corresponds to a last firing rate detected before flame was determined to have been lost.
  - 9. The method of claim 1, wherein the third firing rate is maintained for the current HVAC cycle and one or more subsequent HVAC cycles of the combustion appliance.
  - 10. The method of claim 1, further comprising indicating an error on a user interface that is associated with the combustion appliance if the determining step determines that flame was lost.
  - 11. The method of claim 1, wherein the calibration cycle is initiated after the current HVAC cycle is completed but before a subsequent HVAC cycle is initiated.
  - 12. The method of claim 1, wherein the calibration cycle is initiated after the current HVAC cycle is completed and one or more subsequent HVAC cycle are also completed.

13. A controller for a modulating combustion appliance having a burner and a variable firing rate that can be varied between a minimum firing rate and a maximum firing rate, the controller comprising:
- an input for receiving a call for heat;
  
  a first output for setting the firing rate of the modulating combustion appliance;
  
  a second output for commanding an igniter to ignite the burner;
  
  the controller configured to;
  
  receive a current call for heat via the input, and in response;
  
  set the combustion appliance to a burner ignition firing rate via the first output, wherein the burner ignition firing rate is above the minimum firing rate;
  
  ignite the burner of the combustion appliance by sending a command to the igniter via the second output;
  
  once ignited, modulate the firing rate from the burner ignition firing rate down towards the minimum firing rate;
  
  determine if flame is lost when the firing rate is modulated down towards the minimum firing rate;
  
  if flame was lost, reignite the burner by sending a command to the igniter via the second output, and maintain the firing rate of the combustion appliance above the firing rate at which the flame was lost;
  
  receive a subsequent call for heat via the input, and in response;
  
  set the combustion appliance to a burner ignition firing rate via the first output, wherein the burner ignition firing rate is above the minimum firing rate;
  
  ignite the burner of the combustion appliance by sending a command to the igniter via the second output;
  
  once ignited, modulate the firing rate from the burner ignition firing rate down towards the minimum firing rate;
  
  determine if flame is lost when the firing rate is modulated down towards the minimum firing rate; and
  
  if flame was lost, reignite the burner by sending a command to the igniter via the second output, and maintain the firing rate of the combustion appliance above the firing rate at which the flame was lost.
- View Dependent Claims (14, 15, 16)
- - 14. The controller of claim 13, wherein if flame was lost, the controller is configured to maintain the firing rate of the combustion appliance above the firing rate at which the flame was lost until the call for heat is satisfied.
  - 15. The controller of claim 14, wherein if flame was lost, the controller is configured to maintain the firing rate of the combustion appliance above the firing rate at which the flame was lost until the current call for heat is satisfied and until one or more subsequent calls for heat are satisfied.
  - 16. The controller of claim 13, wherein the controller is further configured to initiate a calibration cycle after the call for heat is satisfied.

Specification

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Litigation Campaign Assessment

Current Assignee
Ademco Inc. (Resideo Technologies, Inc.)
Original Assignee
Honeywell International Inc.
Inventors
Schultz, Michael William, McDonald, Jonathan, Cueva, Victor J.
Primary Examiner(s)
Rinehart, Kenneth
Assistant Examiner(s)
PRABHU, GAJANAN MADHAV

Application Number

US13/411,022
Publication Number

US 20130230812A1
Time in Patent Office

977 Days
Field of Search

431/12, 236/11, 126/116.A
US Class Current

431/12
CPC Class Codes

F23N 2227/20   Calibrating devices

F23N 3/082   using electronic means

F23N 5/00   Systems for controlling com...

F24D 19/1084   for air heating systems

F24H 15/242   Pressure

F24H 15/25   Temperature of the heat-gen...

F24H 15/269   Time, e.g. hour or date

F24H 15/31   of valves having only one i...

F24H 15/33   Control of dampers

F24H 15/35   Control of the speed of fans

F24H 15/36   of burners

F24H 15/395   Information to users, e.g. ...

F24H 3/065   using fluid fuel

F24H 9/2085   using fluid fuel

Furnace with modulating firing rate adaptation

First Claim

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Abstract

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16 Claims

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Furnace with modulating firing rate adaptation

First Claim

3 Assignments

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Abstract

Citations

16 Claims

Specification

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Use Cases

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