Claims
- 1. A fuel oil-type burner including:
- a fuel oil combustion chamber;
- a power source for providing an AC voltage;
- a hot surface ignitor electrode associated with said combustion chamber, said ignitor electrode being sintered to full density with essentially no porosity;
- a fan blower driven by a split-phase type of motor and having both a main and start winding for providing fuel oil and air to said combustion chamber;
- an AC/DC converter coupled to said AC voltage for providing a DC voltage output;
- a voltage regulator circuit to provide a regulated low voltage DC voltage output;
- a first controllable switch coupled between said AC voltage and said hot surface ignitor;
- a second controllable switch coupled between said AC voltage and said fan blower motor main winding;
- a third controllable switch coupled between said AC voltage and said fan blower motor auxiliary start winding;
- a flame detector associated with said combustion chamber for generating an electrical signal if a flame is detected; and
- a control assembly coupled to said series voltage regulator circuit, said flame detector, and said first, second, and third controllable switches for:
- energizing said first controllable switch to heat said hot surface ignitor with DC voltage from said AC voltage for a predetermined preheat time period;
- energizing said second and third controllable switches to operate said blower motor with said AC voltage during a predetermined trial ignition time period;
- de-energizing the third controllable switch immediately following said trial ignition time period to de-energize the start winding of said blower motor;
- causing said motor to continue to run during a time period of approximately one second, known as the "flame test time period"; and
- turning the second controllable switch OFF to shut down the heater if no ignition occurs during said flame test time period.
- 2. A fuel oil burner as in claim 1 wherein said control assembly includes:
- a first time constant circuit for generating a first signal to said first controllable switch for coupling said rectified DC voltage to said hot surface ignitor to preheat said ignitor for said predetermined preheat time period and to cause said ignitor to maintain said preheat condition for the predetermined trial ignition time period;
- a second time constant circuit for generating a second signal to said second and third controllable switches to couple said AC voltage to said blower motor main and start windings beginning with said predetermined trial ignition time period; and
- a third time constant circuit for causing said fan blower motor to operate only if a flame is detected and to de-energize said fan blower motor if said flame is not detected within said predetermined flame test time period.
- 3. A fuel oil burner as in claim 2 wherein said control assembly further includes:
- a first drive circuit coupled to said first controllable switch;
- said first time constant circuit being coupled to said first drive circuit for generating said first signal to cause said ignitor to preheat for said predetermined preheat time period and to continue heating for said predetermined trial ignition time period;
- a second drive circuit coupled to said blower motor main winding;
- a third drive circuit coupled to said blower motor start winding;
- said second time constant circuit being coupled to said second and third drive circuits for energizing said blower motor and providing said fuel oil and air at the beginning of said predetermined trial ignition time period; and
- said third time constant circuit being coupled between said flame detector and said second drive circuit for maintaining said blower in said energized state if said flame is detected by said flame detector no later than the expiration of said flame test time period.
- 4. A fuel oil burner as in claim 3 wherein said control assembly further includes a circuit which permits restart after power down, even if there is a flame in the combustion chamber, to allow safe burning of excess fuel that may have collected in the chamber due to previously unsuccessful ignition tries.
- 5. A fuel oil burner as in claim 4 wherein said control assembly further includes a circuit that provides shorted flame detector protection during normal operation of the burner.
- 6. A fuel oil burner as in claim 5 wherein said voltage regulator circuit further includes a voltage phase regulator for providing constant power to the ignitor.
- 7. A fuel oil burner as in claim 6 wherein the voltage phase regulator is a half-wave voltage phase regulator.
- 8. A fuel oil burner as in claim 1 further including a current and voltage dependent ignitor power regulator circuit coupled to the power source for averaging the duty cycle of the voltage supplied to the hot surface ignitor.
- 9. A fuel oil burner as in claim 8 further including:
- a second AC/DC converter for changing said AC power source to pulsating DC voltage for powering said hot surface ignitor; and
- said current and voltage dependent ignitor power regulator circuit being coupled between said second AC/DC converter and said hot surface ignitor.
- 10. A fuel oil-type burner as in claim 1 wherein said control assembly further includes:
- an AC line voltage controller coupled to said power source for controlling the AC line voltage being applied to the ignitor, the blower motor main, and auxiliary start windings thereby eliminating the need for a separate motor start relay or posistor for starting split-phase motors; and
- a preregulator circuit coupled between the AC/DC converter and the voltage regulator circuit to provide output voltage during the negative going half cycle of the said AC voltage to improve current capacity and low voltage operation;
- said low voltage regulator circuit being used along with the preregulator circuit to minimize voltage variations of the output of the low voltage regulator so as to result in more consistent control timing for each of the time periods.
- 11. A fuel oil burner as in claim 1 wherein said control assembly includes:
- a first time constant circuit for generating a first signal to said first controllable switch and said AC/DC converter to couple said pulsating DC voltage to said hot surface ignitor to preheat said ignitor for said predetermined preheat time period and to cause the ignitor to maintain said preheat condition for the predetermined trial ignition period of time;
- a second time constant circuit for generating a second signal to said second and third controllable switches to couple said AC voltage to said blower motor main and start windings beginning with said predetermined trial ignition period of time; and
- a third time constant circuit for causing said fan blower motor to continue to operate only if a flame is detected and to de-energize said blower motor if said flame is not detected within said predetermined flame test time period.
- 12. A fuel oil burner as in claim 11 wherein said fuel oil-type burner further includes:
- a rectifier circuit to provide full-wave pulsating DC circuit; and
- an analog voltage regulator coupled to said full-wave pulsating DC rectifier circuit for providing constant voltage to the ignitor.
- 13. A fuel oil burner as in claim 12 wherein said analog voltage regulator is a series-type regulator with a zener reference diode.
- 14. A fuel oil burner as in claim 1 wherein said control assembly includes:
- a first time constant circuit for generating a first signal to said first controllable switch for coupling said AC voltage to said hot surface ignitor to preheat said ignitor for said predetermined preheat period of time and to cause said ignitor to maintain said preheat condition for said predetermined trial ignition period of time;
- a second time constant circuit for generating a second signal to said second and third controllable switches to couple said AC voltage to said blower motor main and start windings beginning with said predetermined trial ignition period of time;
- a circuit coupled between said first and second time constant circuits for reducing said second and first said time constants, in that order, depending upon the ignitor current;
- a third time constant circuit associated with said second time constant circuit for causing said fan blower motor to continue to operate if a flame is detected and to de-energize said fan blower motor if said flame is not detected within said predetermined flame test time period; and
- a control circuit in said first controllable switch for maintaining said ignitor at half-wave power level during said predetermined "flame test" time period.
- 15. A fuel oil burner as in claim 1 wherein said control assembly includes:
- a first time constant circuit for determining the total time period for which full power is supplied to said first controllable switch for coupling said AC voltage to said hot surface ignitor;
- a second time constant circuit for determining said preheat time period and supplying a signal to said second and third controllable switches to couple said AC voltage to said blower motor main and start windings only during said predetermined trial ignition time period;
- a third time constant associated with said second time constant circuit for supplying a signal to said second controllable switch for causing said fan blower motor to continue to operate if a flame is detected, and to de-energize said fan blower motor if said flame is not detected within said predetermined flame test time period;
- a current-sensing circuit for sensing the current of said ignitor; and
- a transistor coupled to said second time constant circuit and said current-sensing circuit so as to decrease said second time constant and reduce the preheat time period and turn the blower motor ON to prevent ignitor over-temperature as said ignitor current increases.
- 16. A fuel oil burner as in claim 1 wherein said control assembly includes:
- a first time constant circuit for determining the total time period for which the AC voltage source is applied to said first controllable switch for coupling said AC voltage to said hot surface ignitor;
- a second time constant circuit for determining said preheat time period and supplying a signal, starting at the end of said second time constant, to said second and third controllable switches to couple said AC voltage to said blower motor main and start windings only during said trial ignition time period;
- a current-sensing circuit for sensing the current of said ignitor;
- a transistor coupled to said second time constant circuit and said current-sensing circuit so as to shorten said second time constant to reduce the preheat time period and turn the blower motor ON to prevent ignitor over-temperature as said ignitor current increases; and
- a drive circuit coupled to said first time constant circuit and that is activated by said current-sensing circuit to reduce the total ignition ON time including the trial ignition time period.
- 17. A fuel oil burner as in claim 1 wherein said control assembly further includes:
- a first drive circuit coupled to said first controllable switch;
- said first time constant circuit being coupled to said first drive circuit for generating said first signal to cause said ignitor to preheat for said predetermined preheat time period and to continue heating for said predetermined trial ignition time period;
- a second drive circuit coupled to said blower motor main winding;
- said second time constant circuit being coupled to said second drive circuit for energizing said blower motor main winding;
- a third drive circuit coupled to said blower motor start winding;
- said second time constant circuit being coupled to said second and third drive circuits for energizing said blower motor main and start windings and providing said fuel oil and air at the beginning of said trial ignition time period;
- said third time constant circuit being coupled between said flame detector and said second drive circuit for maintaining said blower in said energized state if said flame is detected no later than the expiration of said flame test time period; and
- said third time constant circuit permitting restart after power-down even if there is a flame in the combustion chamber, to allow safe burning of excess fuel that might collect in the chamber due to previously unsuccessful ignition tries.
- 18. A fuel oil burner as in claim 1 wherein said AC power supply provides at least 100 volts AC RMS.
- 19. A fuel oil burner as in claim 1 wherein said AC power supply further includes:
- a first drive circuit coupled to said first controllable switch;
- said first drive circuit preventing carbon buildup on said ignitor electrode by heating said ignitor continuously with full-wave rectified DC voltage during STARTUP sufficiently to evaporate or burn off any fuel that might collect on said ignitor electrode during operations, including diesel fuel;
- a control circuit coupled to said first controllable switch for activating said first controllable switch and intermittently providing half-wave voltage to said ignitor electrode to prevent carbon buildup on said ignitor electrode during a normal RUN; and
- an optical circuit in said first controllable switch for causing either said intermittent or said continuous heating of said ignitor electrode to prevent carbon buildup on the said ignitor electrode.
Parent Case Info
This application is a continuation of Ser. No. 08/893,919, filed Jul. 11, 1997, now U.S. Pat. No. 5,899,684.
US Referenced Citations (9)
Continuations (1)
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Number |
Date |
Country |
Parent |
893919 |
Jul 1997 |
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