Claims
- 1. A gas-fired induced-draft furnace which has a low, a medium and a high firing rate, said furnace includes a burner, a circulating air blower for establishing a flow of circulating air, an inducer blower for establishing a flow of combustion air, and a heat exchanger, and which is adapted to operate in conjunction with temperature sensing means for sensing the temperature of a space to be heated and generating call-for-heat signals which correspond to one of said high, medium, and low firing rates; comprising:gas flow control means for controlling the rate at which gas is supplied to said burner, said gas flow control means serving to supply gas to said burner at one of said high, medium and low firing rates; pressure sensing means for generating differential pressure signals that vary in accordance with the pressure across said heat exchanger; furnace control means, responsive to said differential pressure signals and to said call-for-heat signals, for: (i) controlling the rate at which said gas flow control means supplies gas to said burner; (ii) applying, to said circulating air blower, blower control signals which cause said circulating air blower to establish circulating airflows having magnitudes which correspond to said high and low firing rates; (iii) applying, to said inducer blower, inducer control signals which cause said inducer blower to establish combustion airflows having magnitudes which correspond to said high, medium, and low firing rates; wherein the magnitudes of the circulating airflows which are established by said circulating air blower during steady state operation of the furnace at said low and medium firing rates are so related to one another, and to the magnitudes of the combustion airflows which are established by said inducer blower during steady state operation of said furnace at said low and medium firing rates, that the fuel utilization efficiency of said furnace is approximately the same during steady state operation at said low and medium firing rates.
- 2. A furnace as set forth in claim 1 in which the fuel utilization efficiency of said furnace during steady state operation at said low firing rate is equal to or greater than the fuel utilization efficiency of said furnace during steady state operation at said medium firing rate.
- 3. A furnace as set forth in claim 1 which said heat exchanger includes a wall composed of a material that is resistant to cold spot corrosion, and in which some part of said wall has a temperature that is lower than the condensation temperature of water during steady state operation of said furnace at said low firing rate.
- 4. A furnace as set forth in claim 1 in which the combustion airflows that are established during steady state operation of the furnace at said low, medium and high firing rates result in differential pressure signals which have different respective magnitudes.
- 5. A furnace as set forth in claim 4 in which the circulating airflows that are established during steady state operation of said furnace at said low and medium firing rates have magnitudes which are approximately equal to one another.
- 6. A furnace as set forth in claim 1 in which said pressure sensing means includes three pressure switches which are connected to sense the differential pressure across said heat exchanger and to provide different respective differential pressure signals to said furnace control means.
- 7. A furnace as set forth in claim 1 in which said gas flow control means includes a main gas valve having first and second open states, a throttling valve having first and second open states, and means for connecting said main and throttling valves in fluidic series between a source of gas and said burner, and in which said furnace control means controls the rate at which gas flows from said source to said burner by establishing predetermined combinations of states in said main and throttling valves.
- 8. A furnace as set forth in claim 7 in which said furnace control means is arranged to control the combination of states in said main and throttling valves so that, for operation at said low firing rate, gas is supplied to said burner at a first, relatively high rate prior to ignition and at a second, relatively low rate after ignition.
- 9. A gas-fired induced-draft furnace which has a low, a medium and a high firing rate, said furnace includes a burner, a circulating air blower for establishing a flow of circulating air, an inducer blower for establishing a flow of combustion air, and a heat exchanger assembly, and which is adapted to operate in conjunction with temperature sensing means for sensing the temperature of a space to be heated and generating call-for-heat signals which correspond to one of said high, medium, and low firing rates; comprising:a gas flow control assembly for controlling the rate at which gas is supplied to said burner, said gas flow control assembly serving to supply gas to said burner at one of said high, medium and low firing rates; at least one pressure sensor for generating at least one differential pressure signal that varies in accordance with the pressure across said heat exchanger assembly; a furnace control circuit responsive to said at least one differential pressure signal and to said call-for-heat signals, for: (i) controlling the rate at which said gas flow control assembly supplies gas to said burner; (ii) applying, to said circulating air blower, blower control signals which cause said circulating airflows having magnitudes which correspond to said high and low firing rates; (iii) applying, to said inducer blower, inducer control signals which cause said inducer blower to establish combustion airflows having magnitudes which correspond to said high, medium, and low firing rates; wherein the furnace control circuit applies, to said circulating air blower and said inducer blower, control signals having magnitudes which assure that the fuel utilization efficiency of said furnace is approximately the same during steady state operation at said low and medium firing rates.
- 10. A furnace as set forth in claim 9 in which the fuel utilization efficiency of said furnace during steady state operation at said low firing rate is equal to or greater than the fuel utilization efficiency of said furnace during steady state operation at said medium firing rate.
- 11. A furnace as set forth in claim 9 in which said heat exchanger assembly includes a primary heat exchanger having a wall composed of a material that is resistant to cold spot corrosion and a secondary heat exchanger, and in which some part of the wall of said primary heat exchanger has a temperature that is lower than the condensation temperature of water during steady state operation of said furnace at said low firing rate.
- 12. A furnace as set forth in claim 9 in which the combustion airflows that are established during steady state operation of the furnace at said low, medium and high firing rates have different respective magnitudes.
- 13. A furnace as set forth in claim 12 in which the magnitudes of the circulating airflows that are established during steady state operation of the furnace at said low and medium firing rates are approximately equal to one another.
- 14. A furnace as set forth in claim 9 in which said at least one pressure sensor includes three pressure switches which are connected to sense the differential pressure across said heat exchanger assembly and to provide different respective differential pressure signals to said furnace control circuit.
- 15. A furnace as set forth in claim 9 in which said gas flow control assembly includes a main gas valve having first and second open states, a throttling valve having first and second open states, and means for connecting said main and throttling valves in fluidic series between a source of gas and said burner, and in which said furnace control circuit controls the rate at which gas flows from said source to said burner by establishing predetermined combinations of states in said main and throttling valves.
- 16. A furnace as set forth in claim 15 in which said furnace control circuit is arranged to control the combination of states in said main and throttling valves so that, for operation at said low firing rate, gas is supplied to said burner at a first, relatively high rate prior to ignition and at a second, relatively low rate after ignition.
- 17. A gas-fired induced-draft furnace which has a low, a medium and a high firing rate, said furnace includes a burner, a circulating air blower for establishing a flow of circulating air, an inducer blower for establishing a flow of combustion air, and a heat exchanger assembly, and which is adapted to operate in conjunction with temperature sensing means for sensing the temperature of a space to be heated and generating call-for heat signals which correspond to one of said high, medium, and low firing rates; comprising:a gas flow control assembly for controlling the rate at which gas is supplied to said burner, said gas flow control assembly serving to supply gas to said burner at one of said high, medium and low firing rates; pressure responsive means for causing said gas flow control assembly to supply gas to said burner at one of said high, medium and low firing rates, depending on the differential pressure across said heat exchanger assembly; a furnace control circuit, responsive to said call-for-heat signals, for: (i) applying, to said circulating air blower, blower control signals which cause said circulating airflows having magnitudes which correspond to said high, medium, and low firing rates; and (ii) applying, to said inducer blower, inducer control signals which cause said inducer blower to establish combustion airflows having magnitudes which correspond to said high, medium and low firing rates; wherein the circulating airflows that correspond to said low and medium firing rates are at least approximately equal to one another; and wherein the furnace control circuit applies, to said circulating air blower and said inducer blower, control signals having magnitudes which assure that the fuel utilization efficiency of said furnace is approximately the same during steady state operation at said low and medium firing rates.
- 18. A furnace as set forth in claim 17 in which the circulating airflows that correspond to said low and medium firing rates are equal to one another.
CROSS-REFERENCES TO RELATED APPLICATIONS
This is a continuation-in-part of U.S. patent application Ser. No. 09/407,052, filed Sep. 27, 1999, now U.S. Pat. No. 6,161,535.
US Referenced Citations (14)
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
09/407052 |
Sep 1999 |
US |
Child |
09/629015 |
|
US |