A modulating burner apparatus includes a variable speed blower feeding a multi-chamber burner having first and second burner chambers. A manifold system communicates the blower with the burner, and a flow control valve member is located between the blower and the second chamber of the burner. The fl
A modulating burner apparatus includes a variable speed blower feeding a multi-chamber burner having first and second burner chambers. A manifold system communicates the blower with the burner, and a flow control valve member is located between the blower and the second chamber of the burner. The flow control valve is configured to provide fuel and air mixture from the blower to only the first burner chamber at lower blower speeds of the blower and to both the first and second burner chambers at higher blower speeds of the blower.
대표청구항▼
1. A modulating burner apparatus, comprising: a variable speed blower, the blower including a blower outlet;a multi-chamber radially outward firing burner configured to burn a pre-mixed fuel and air mixture, the burner including at least a first burner chamber and a second burner chamber, the second
1. A modulating burner apparatus, comprising: a variable speed blower, the blower including a blower outlet;a multi-chamber radially outward firing burner configured to burn a pre-mixed fuel and air mixture, the burner including at least a first burner chamber and a second burner chamber, the second burner chamber being located adjacent the first burner chamber so that the second burner chamber can be ignited by the first burner chamber;a supply manifold communicating the blower with the burner, the supply manifold including a first passage portion communicated with the blower outlet, a second passage portion communicating the first passage portion with the first burner chamber, and a third passage portion communicating the first passage portion with the second burner chamber; anda valve between the first passage portion and the third passage portion, the valve including a valve member and a biasing spring, the valve being configured such that as the blower speed increases from a lower speed range through a transition speed range to a higher speed range, the valve member moves from a closed position when blower-speed is in the lower speed range to an open position when blower speed is in the higher speed range, and wherein the biasing spring biases the valve member toward the closed position. 2. The apparatus of claim 1, wherein: the biasing spring is configured such that as the blower speed increases through the transition speed range, pressure from the blower acting on the valve member overcomes the biasing spring to move the valve member to the open position. 3. The apparatus of claim 1, further comprising: a spring pre-load adjuster configured to adjust an opening force required to open the valve member against the biasing spring. 4. The apparatus of claim 1, wherein: the valve member is a disc shaped valve member; andthe biasing spring is a compression spring arranged co-axial with the disc shaped valve member. 5. The apparatus of claim 1, wherein: the biasing spring is a tapered coil compression spring having a larger diameter at one end than at another end. 6. The apparatus of claim 1, wherein: during operation of the first burner stage when blower speed is in the lower speed range, a positive pressure differential exists across the valve from the first passage portion to the third passage portion, thereby preventing backflow through the second burner stage. 7. A modulating burner apparatus, comprising: a variable speed blower, the blower including a blower outlet;a multi-chamber burner configured to burn a pre-mixed fuel and air mixture, the burner including at least a first burner chamber and a second burner chamber, the second burner chamber being located adjacent the first burner chamber so that the second burner chamber can be ignited by the first burner chamber;a supply manifold communicating the blower with the burner, the supply manifold including a first passage portion communicated with the blower outlet, a second passage portion communicating the first passage portion with the first burner chamber, and a third passage portion communicating the first passage portion with the second burner chamber; anda valve between the first passage portion and the third passage portion, the valve including a valve member and a biasing spring, the valve being configured such that as the blower speed increases from a lower speed range through a transition speed range to a higher speed range, the valve member moves from a closed position when blower-speed is in the lower speed range to an open position when blower speed is in the higher speed range, and wherein the biasing spring biases the valve member toward the closed position;wherein the first and second burner chambers are cylindrical chambers;wherein the third passage portion is defined by a cylindrical duct extending axially out of the first burner chamber; andwherein the valve is located outside of the burner chambers. 8. A modulating burner apparatus, comprising: a variable speed blower, the blower including a blower outlet;a multi-chamber burner configured to burn a pre-mixed fuel and air mixture, the burner including at least a first burner chamber and a second burner chamber, the second burner chamber being located adjacent the first burner chamber so that the second burner chamber can be ignited by the first burner chamber;a supply manifold communicating the blower with the burner, the supply manifold including a first passage portion communicated with the blower outlet, a second passage portion communicating the first passage portion with the first burner chamber, and a third passage portion communicating the first passage portion with the second burner chamber; anda valve between the first passage portion and the third passage portion, the valve including a valve member and a biasing spring, the valve being configured such that as the blower speed increases from a lower speed range through a transition speed range to a higher speed range, the valve member moves from a closed position when blower-speed is in the lower speed range to an open position when blower speed is in the higher speed range, and wherein the biasing spring biases the valve member toward the closed position;wherein the burner includes a cylindrical burner housing defining equal outside diameters of the first and second burner chambers, and an annular interior wall attached to an inner cylindrical surface of the cylindrical burner housing to separate the first and second burner chambers. 9. An apparatus for heating water, comprising: a water conduit having an inlet and an outlet;a heat exchanger having a water side defining a portion of the water conduit;a pre-mix burner configured to burn a pre-mixed fuel-air mixture, the burner operatively associated with the heat exchanger to heat water in the water side of the heat exchanger, the burner including a first plenum having a constant first volume communicated with a first foraminous burner surface, and a second plenum having a constant second volume communicated with a second foraminous burner surface, the first and second plenums being separated by a fixed divider, the first and second plenums having equal outside diameters, the first and second foraminous burner surfaces being sufficiently close to each other so that flame from the first foraminous burner surface will ignite fuel-air mixture exiting the second foraminous burner surface;a variable flow blower having a blower outlet communicated with the first and second plenums;a damper located between the second plenum and the blower outlet; anda biasing spring biasing the damper toward a closed position, the damper being movable toward an open position when fluid pressure from the blower acting on the damper overcomes the biasing spring. 10. The apparatus of claim 9, further comprising: a spring pre-load adjuster configured to adjust an opening force required to move the damper from the closed position. 11. The apparatus of claim 9, wherein: the damper includes a disc shaped damper plate; andthe biasing spring includes a compression spring arranged co-axial with the disc shaped damper plate. 12. The apparatus of claim 9, further comprising: one and only one ignition element adjacent the first foraminous burner surface. 13. The apparatus of claim 9, further comprising: one and only one flame sensor adjacent the first foraminous burner surface. 14. A method of modulating energy input to a multi-stage burner, the method comprising: (a) modulating blower speed of a variable speed blower within a lower speed range to modulate energy input to a first stage of the burner within a lower burner input range while a second stage of the burner is inoperative, the burner being a radially outward firing burner;(b) biasing a valve member to a closed position with a biasing force from a spring thereby preventing fuel and air mixture from flowing from the blower to the second stage of the burner during at least a lower portion of the lower burner input range;(c) opening the valve as a result of outlet pressure from the blower acting on the valve member and overcoming the biasing force from the spring to allow fuel and air mixture to flow past the valve to the second stage of the burner; and(d) modulating blower speed of the variable speed blower within a higher speed range to modulate energy input to the combined first and second stages of the burner within a higher burner input range. 15. The method of claim 14, wherein: during step (c), blower speed increases through a transition speed range separating the lower speed range from the higher speed range. 16. The method of claim 14, further comprising: adjusting a spring pre-load of the valve to adjust an opening force required to move the valve from the closed position to an open position. 17. The method of claim 14, further comprising: during step (a), maintaining a positive pressure differential across the valve and thereby preventing backflow through the second stage of the burner. 18. The method of claim 14, further comprising: igniting fuel-air mixture exiting the second stage of the burner with flame from the first stage of the burner. 19. The method of claim 14, wherein: in step (a), the blower speed is continuously modulated within the lower speed range; andin step (d), the blower speed is continuously modulated within the higher speed range. 20. The method of claim 14, wherein: in step (a), the blower speed is non-continuously modulated within the lower speed range; andin step (d), the blower speed is non-continuously modulated within the higher speed range.
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