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A dual chamber burner assembly provides a header, a first burner chamber adjacent the header, and a second burner chamber on an opposite side of the first burner chamber from the header. The second burner chamber is provided with a flame sensor portion extending back through the first burner chamber

A dual chamber burner assembly provides a header, a first burner chamber adjacent the header, and a second burner chamber on an opposite side of the first burner chamber from the header. The second burner chamber is provided with a flame sensor portion extending back through the first burner chamber toward the header so that first and second flame sensors may be utilized to detect flame in the first and second chambers, respectively.

대표청구항 ▼

1. A burner assembly, comprising: a header including a first fuel and air inlet and a second fuel and air inlet;a first burner chamber adjacent the header, the first burner chamber including a first foraminous outer burner surface, the first fuel and air inlet being communicated with the first burne

1. A burner assembly, comprising: a header including a first fuel and air inlet and a second fuel and air inlet;a first burner chamber adjacent the header, the first burner chamber including a first foraminous outer burner surface, the first fuel and air inlet being communicated with the first burner chamber; anda second burner chamber on an opposite side of the first burner chamber from the header, the second burner chamber including a second foraminous outer burner surface located on an opposite side of the first foraminous outer burner surface from the header, the second fuel and air inlet being communicated with the second burner chamber, the second burner chamber having a flame sensor portion extending into the first burner chamber back toward the header, the flame sensor portion including a flame indicating foraminous outer burner surface of the second burner chamber extending from the second foraminous outer burner surface back toward the header, so that a flame sensor located adjacent the flame sensor portion of the second burner chamber need not be exposed to flame from the first burner chamber. 2. The burner assembly of claim 1, wherein: the first foraminous outer burner surface of the first burner chamber is partially cylindrical and has a circumferential gap, the flame indicating foraminous outer burner surface of the flame sensor portion of the second burner chamber extending into the circumferential gap. 3. The burner assembly of claim 2, wherein: the flame sensor portion of the second burner chamber extends to the header. 4. The burner assembly of claim 2, wherein: the circumferential gap has a circumferential width of at least about 1.5 inches. 5. The burner assembly of claim 2, wherein: the circumferential gap has a circumferential width of at least about 2.0 inches. 6. The burner assembly of claim 1, further comprising: an interior divider separating the first and second burner chambers, the interior divider including a generally circular divider wall and a duct extending from the divider wall into the first burner chamber and communicating the second burner chamber with the flame indicating foraminous outer burner surface of the flame sensor portion of the second burner chamber. 7. The burner assembly of claim 6, wherein: the interior divider is made of metal;the first and second foraminous outer burner surfaces are made of metal fabric surrounding a foraminous metal sleeve; andthe metal fabric, the sleeve and the duct of the interior divider are welded together form a seam to prevent flame from the first burner chamber from entering the duct. 8. A burner assembly, comprising: a first foraminous outer wall portion being partially cylindrical in shape and having a circumferential gap;a second foraminous outer wall portion including a finger shaped outer foraminous wall portion extending into the circumferential gap;at least one interior wall separating first and second interior zones, the first and second interior zones being adjacent the first and second foraminous outer wall portions, respectively, the at least one interior wall including a duct communicating the second interior zone with the finger shaped outer foraminous wall portion of the second foraminous outer wall portion;a first fuel and air inlet passage communicated with the first interior zone;a second fuel and air inlet passage communicated with the second interior zone; anda header including a header wall spaced from the at least one interior wall;wherein the first interior zone is cylindrical in shape and has first and second ends closed by the header wall and the at least one interior wall, respectively; andwherein the second interior zone is cylindrical in shape and has a first end closed by the at least one interior wall and a second end covered by foraminous material comprising part of the second foraminous outer wall portion; andwherein the second foraminous outer wall portion is located on an opposite side of the first foraminous outer wall portion from the header. 9. The burner assembly of claim 8, wherein: the header includes a header ring extending from the header wall toward the second interior zone. 10. The burner assembly of claim 8, wherein: the finger of the second foraminous outer wall portion extends to the header ring. 11. The burner assembly of claim 8, wherein: the circumferential gap has a circumferential width of at least about 1.5 inches. 12. The burner assembly of claim 8, wherein: the circumferential gap has a circumferential width of at least about 2.0 inches. 13. The burner assembly of claim 8, wherein: the at least one interior wall is a metal wall;the foraminous outer wall portions each include a foraminous metal sleeve surrounded by a metal fabric, the sleeve having inner and outer surfaces; andthe duct of the interior wall has a peripheral edge adjacent to and welded to the inner surface of the sleeve, and the metal fabric is welded to an outer surface of the sleeve along a border superimposed upon the peripheral edge of the duct. 14. A water heating apparatus, comprising: a multi-stage burner including: a header having first and second inlets;first and second internal zones separated by an internal barrier, the first and second internal zones being communicated with the first and second inlets, respectively;first and second external foraminous burner wall portions at least partially defining the first and second internal zones, respectively;a first blower communicated with the first internal zone of the burner for providing premixed fuel and air to the first internal zone to provide a first burner stage;a second blower communicated with the second internal zone of the burner for providing premixed fuel and air to the second internal zone to provide a second burner stage;a first flame sensor adjacent the first external foraminous burner wall portion;a second flame sensor adjacent the second foraminous burner wall portion; andan automated control system connected to the first and second blowers, the control system operable to provide air without fuel to the second internal zone when the second burner stage is not burning, so that air flowing through the second internal zone prevents flame from the first burner stage from being detected by the second flame sensor when the second burner stage is not burning. 15. The apparatus of claim 14, further comprising: a direct spark ignition element adjacent the first external foraminous burner wall portion. 16. The apparatus of claim 14, wherein: the first external foraminous burner wall portion is partially circular and defines a gap;the second external foraminous burner wall portion includes an extension through the gap to the header;the second flame sensor is located adjacent the extension; andthe first flame sensor is circumferentially spaced about the burner at least 90 degrees from the second flame sensor. 17. The apparatus of claim 14, wherein: the first and second flame sensors are substantially identical. 18. The apparatus of claim 14, wherein: the first and second flame sensors extend substantially equal distances from the header. 19. The burner assembly of claim 1, wherein: the flame indicating foraminous outer burner surface provides a carry-over ignition location for the second burner chamber to ignite via flame from the first burner chamber. 20. The burner assembly of claim 1, wherein: the flame indicating foraminous outer burner surface interrupts the first foraminous outer burner surface of the first burner chamber and thereby attenuates burner noise from the first burner chamber. 21. The burner assembly of claim 1, wherein: the header further includes a third fuel and air inlet; andthe burner assembly further comprises:a third burner chamber on an opposite side of the second burner chamber from the header, the third fuel and air inlet being communicated with the third burner chamber, the third burner chamber having a second flame sensor portion extending into the first and second burner chambers back toward the header, the second flame sensor portion including a remote communicating flame strip of the third burner chamber.