Claims
- 1. A controller for a variable output fluid conditioning appliance system comprising:
a) means for accepting an input from at least one sensor element monitoring a variable element of the variable fluid conditioning appliance system selected from the group including a variable compressor, a variable fuel valve, a variable combustion fan and a variable circulator; b) means for operating at least one variable element of the variable fluid conditioning appliance system, including at least two of:
i. an algorithm for determining a desired system demand including at least one of a firing rate of the variable fuel valve, a cooling rate of the variable compressor, and an operation speed of the variable circulator, ii. sensing and control means for modulating at least one of the variable compressor, the variable fuel valve, and the variable combustion fan, and iii. sensing and control means for modulating the variable circulator; to achieve the desired system demand.
- 2. The controller for a variable output fluid conditioning appliance system according to claim 1 wherein the algorithm is a heating algorithm for determining a combustion firing rate.
- 3. The controller for a variable output fluid conditioning appliance system according to claim 2 wherein the heating algorithm determines the speed of the variable combustion fan.
- 4. The controller for a variable output fluid conditioning appliance system according to claim 2 wherein the heating algorithm determines a fuel supply from the variable fuel valve.
- 5. The controller for a variable output fluid conditioning appliance system according to claim 2 wherein the combustion firing rate is determined by criteria including a previous firing rate, a previous ON cycle time, and a previous OFF cycle time of appliance operation.
- 6. The controller for a variable output fluid conditioning appliance system according to claim 5 wherein the combustion firing rate is further determined by criteria including whether one of a predetermined high firing rate and low firing rate is reached during a previous heating cycle.
- 7. The controller for a variable output fluid conditioning appliance system according to claim 1 wherein the algorithm is a cooling algorithm for determining a cooling rate of the variable compressor.
- 8. The controller for a variable output fluid conditioning appliance system according to claim 7 wherein the cooling rate is determined by criteria including a previous cooling rate, a previous ON cycle time, and a previous OFF cycle time of appliance operation.
- 9. The controller for a variable output fluid conditioning appliance system according to claim 7 wherein the cooling rate is determined by criteria including a temperature derived from a temperature sensor monitoring fluid discharged from the appliance.
- 10. A controller for a variable output heating or cooling system comprising:
a) means for accepting an input from at least one sensor element monitoring a variable element of the variable heating or cooling system, b) means for operating at least one variable element of the variable heating or cooling system, the means for operating including:
i. a thermostat algorithm for determining a desired firing rate of a burner; ii. a lookup table or equation accessible to determine a desired pressure from operation of a variable speed combustion fan suitable for the desired firing rate, and iii. sensing and control means for controlling the combustion fan speed in order to achieve the desired pressure.
- 11. The controller of claim 10 wherein the thermostat algorithm further includes means for determining a desired duty cycle of burner operation.
- 12. The controller of claim 10 wherein the desired pressure is a desired differential pressure across a heat exchanger of the burner.
- 13. The controller of claim 10 further including sensing and control means for controlling a variable speed circulator.
- 14. A variable output heating system comprising:
a) a variable speed combustion blower; b) a variable fuel supply valve; c) a variable speed circulator; d) a pressure sensor to measure a pressure produced by the variable speed combustion fan; e) a controller having input from the pressure sensor and outputs for at least the variable elements of a) and c) above, the controller including:
i. a thermostat algorithm for determining a desired firing rate, ii. a lookup table or equation accessible to determine a desired differential pressure of the variable speed combustion blower for the desired firing rate stoichiometry, iii. means for adjusting the variable speed combustion blower speed in order to achieve the desired differential pressure, and iv. means for adjusting the variable speed circulator so as to maintain a circulation according to one of a temperature criterion, a flow criterion and a pressure criterion.
- 15. The variable output heating system of claim 14 further comprising: means for modulating the variable fuel supply valve to achieve the desired firing rate stoichiometry.
- 16. The variable output heating system of claim 14 further comprising: the controller having means for controlling all equipment operation sequencing.
- 17. A variable output heating system comprising:
a) a variable speed combustion fan; b) a variable fuel supply gas valve; c) a variable speed air circulator fan; d) a pressure sensor to measure a pressure produced by the variable speed combustion fan; e) a discharge air temperature sensor located downstream of a heat exchanger served by the variable speed circulator fan; and f) a controller having inputs from sensor elements d) and e) above and outputs for the variable elements of a) and c) above, the controller including:
i. a thermostat algorithm for determining a desired firing rate, ii. a lookup table or equation accessible to determine a desired differential pressure of the variable speed combustion fan for the desired firing rate, iii. means for adjusting the inducer blower motor speed in order to achieve the desired differential pressure, and iv. means for adjusting the variable speed circulator fan so as to maintain an air discharge according to one of a temperature criterion, a pressure criterion, or an airflow criterion.
- 18. The variable output heating system of claim 17 further comprising: the controller having sensing and control means for the variable element b).
- 19. The variable output heating system of claim 17 further comprising: the controller having means for controlling all combustion operation sequencing.
- 20. A method of operating a fluid conditioning appliance, comprising the steps of:
a. accepting an appliance operation call from an input/output means; b. determining system demand on the appliance via previous appliance duty cycles, c. selecting at least one of a combustion fan speed, a variable fuel valve setting, a cooling compressor rate, and a circulator speed necessary to achieve proper appliance operation suitable to the conditioning demand; and d. modulating the at least one of a combustion fan speed, a variable fuel valve setting, a cooling compressor rate, and a circulator speed necessary to achieve to achieve the proper appliance operation.
- 21. The method of claim 20 wherein the input/output means includes an On/Off thermostat.
- 22. The method of claim 20 further including the step of selecting a fuel valve setting and modulating the fuel valve to achieve proper stoichiometry.
- 23. The method of claim 20 further including the step of supplying a fuel valve which modulates according to combustion fan operation to achieve proper stoichiometry.
- 24. The method of claim 20 further including the step of monitoring a pressure caused by the combustion fan.
- 25. The method according to claim 20 further comprising:
monitoring and fine tuning stoichiometry with a flame sensor.
- 26. The method according to claim 20 further comprising:
operating the circulator according to one of a temperature criterion, a flow criterion, and a pressure criterion.
Parent Case Info
[0001] This application claims the benefit of the filing date of U.S. Provisional Application Serial No. 60/322,133 filed Sep. 10, 2001.
Provisional Applications (1)
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Number |
Date |
Country |
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60322133 |
Sep 2001 |
US |