The invention relates generally to wood-burning stoves, and more particularly to a wood-burning stove having internal baffles for increasing the length of time that a fire burns while decreasing the outside temperature of the stove to levels that are safe for human contact.
Wood-burning stoves have been used for cooking and heating for years. Typically, the stove is positioned inside a home's living area. For purposes of heating, a fire in a wood-burning stove must be stoked periodically in order to maintain heat output. Shortly after a fire is stoked, heat generated by the stove spikes as the fire's intensity increases. During such a spike, the wood burns rapidly and the stove's outer surfaces reach temperatures that can burn one's skin or clothing. After the wood has burned sufficiently, the stove's heat generation experiences a drop off in production during which a home's indoor temperature can drop rather quickly depending on outside temperatures. This burn cycle of heat spike and cooling reduces the effectiveness and desirability of wood-burning stoves. For example, when the cooling cycle occurs when a home's occupants are not home or asleep, the occupants come home to or wake up in a cold environment. Further, the heat spikes that occur shortly after a fire is stoked can cause safety issues for a home's occupants as a stove's outer temperature increases to skin-burning levels.
Accordingly it is an object of the present invention to provide a wood-burning stove.
Another object of the present invention is to provide a wood-burning stove having improved effective burn times to thereby reduce fire stoking requirements.
Still another object of the present invention is to provide a wood-burning stove that generates a steady level of heat.
Yet another object of the present invention is to provide a wood-burning stove whose heat generation is at a level suitable for use as home heat but low enough that the stove is safe for human touch throughout the stove's burn cycle.
Other objects and advantages of the present invention will become more obvious hereinafter in the specification and drawings.
In accordance with the present invention, a wood-burning stove includes a fireproof container having a floor, a ceiling, a front wall, a back wall opposing the front wall, and two opposing side walls spanning from the front wall to the back wall. The front wall, back wall, and two opposing side walls span between and are coupled to the floor and ceiling. The internal height H of the container is defined by a distance between the floor and the ceiling. The container has an air intake port at a lower portion of its front wall, and has a flue port in one of its ceiling and upper portion of its back wall. A first baffle disposed in the container and spaced apart from the front wall thereof spans between and is coupled to the two opposing side walls. The first baffle extends from the floor towards the ceiling to a first baffle height in a range of (0.65)H to (0.75)H. An air intake chamber is defined in the container between its front wall and first baffle, and a firebox is defined between the first baffle and the container's back wall. An internal depth D of the firebox is defined by a distance between the first baffle and the container's back wall. A second baffle disposed in the container spans between and is coupled to the container's two opposing side walls. The second baffle is also coupled to the container's back wall at a position thereon below the container's flue port. The second baffle extends from the back wall towards the first baffle to a second baffle depth of (0.7)D to (0.85)D. The second baffle terminates at an outboard edge that is spaced apart from the container's ceiling to define a flow area between the outboard edge and ceiling that is in a range of 0.5-1.0 times a cross-sectional area of the flue port.
Other objects, features and advantages of the present invention will become apparent upon reference to the following description of the preferred embodiments and to the drawings, wherein corresponding reference characters indicate corresponding parts throughout the several views of the drawings and wherein:
Referring now to the drawings and more particularly to
With respect to stove 10, simultaneous reference is made to
Stove 10 also includes an air intake port 24 and a flue port 28. Air intake port 24 is a hole passing through a lower portion of front wall 16. For example, air intake port 24 can be immediately adjacent to floor 12. A door 26 (e.g., a sliding door as shown, a rotating door, etc.) can be coupled to front wall 16 to allow a user to adjust the pass-through size of air intake port 24 as would be understood in the art. Flue port 28 is a hole passing through an upper portion of back wall 18 in proximity to ceiling 14 as would be understood in the art. The open area of flue port 28 is defined as AF.
Disposed within stove 10 are two baffles 30 and 40. Each of baffles 30 and 40 spans the width of stove 10 and is coupled to opposing side walls 20 and 22. Each of baffles 30 and 40 can be made from the same fireproof materials used for the floor, ceiling and walls of stove 10. As will be explained further below, baffles 30 and 40 are positioned and configured to control a fire's flow of combustion-air and post-combustion air/smoke to increase a fire's burn time, while simultaneously reducing the fire's intensity throughout its burn cycle in order to reduce the stove's surface temperature.
Baffle 30 is also coupled (e.g., welded) to floor 12 and is spaced apart from the portion of front wall 16 where air intake port 24 is located such that an air intake chamber (referenced by dashed-line box 32) is defined in stove 10 between front wall 16 and baffle 30. Baffle 30 extends from floor 12 to a height H30 that is in a range of (0.65)H to (0.75)H. The space between front wall 16 and baffle 30 is typically 2-4 inches. The region in stove 10 between baffle 30 and back wall 18 defines a firebox as referenced by dashed-line box 34. Wood (not shown for purpose of clarity) would be placed in and burned in firebox 34. The internal depth of firebox 34 between baffle 30 and back wall 18 is defined as D.
Baffle 40 is also coupled (e.g., welded) to back wall 18 at a position thereon below flue port 28. Baffle 40 extends from back wall 18 towards baffle 30 and terminates at an outboard edge 42. Baffle 40 spans a distance D40 that is in a range of (0.7)D to (0.85)D. As a result, outboard edge 42 of baffle 40 is positioned over firebox 34. Outboard edge 42 is spaced-apart from ceiling 14 by a gap 44 that is also shown in
The above-noted constraints regarding baffles 30 and 40 apply equally as well to stove 100 having a flue port defined in its ceiling. Accordingly, common reference numerals are used for the elements of stove 100 that are common to stove 10. In this embodiment, baffle 40 is perpendicular to back wall 18.
Although not a requirement of the present invention, front wall 16 can include a lower vertical portion 16A and an upper angled portion 16B to facilitate insertion of wood. More specifically, angled portion 16B forms an obtuse angle β with vertical portion 16A and an obtuse angle ϕ with ceiling 14. An opening 50 is defined through angled portion 16B such that a direct passageway from opening 50 to firebox 34 and between the top of baffle 30 and the bottom of baffle 40 is defined as indicated by the region between dashed-lines 52. A door 54 can be coupled to angled portion 16B by hinges 56 such that opening 50 can be closed off or accessed as needed. Door 54 can be solid and opaque, or can include a window (e.g., a tempered glass window) to provide visibility into firebox 34 without departing from the scope of the present invention.
Baffle 30 can terminate at its height H30 as described above. However, the present invention is not so limited. For example,
A stove in accordance with the present invention can be adapted to have its air intake chamber's baffle be adjustable in height. For example,
In operation, with burning wood (not shown) in the stove's firebox 34, ambient air is drawn into air intake port 24. The air flows up in chamber 32, over the top of baffle 30, and then down to the burning wood in firebox 34. The post-combustion air/smoke rises up to baffle 40 and flows there along towards baffle 30 before passing through gap 44 on its way to flue port 28. The combination of baffles 30 and 40 creates a tortuous flow path that provides air for combustion from above a fire in firebox 34 thereby slowing the burn process and reducing the heat transferred to the surface of a stove. In tests of stoves made from 12 gauge steel and in accordance with features and constraints described herein, burn times in excess of 12 hours have been achieved where outside stove temperatures have remained at temperatures that are sufficient to provide heat to a dwelling while remaining safe for human touch. Thus, the stoves of the present invention provide long-term, even heating at safe-to-touch stove temperatures.
Although the invention has been described relative to a specific embodiment thereof, there are numerous variations and modifications that will be readily apparent to those skilled in the art in light of the above teachings. It is therefore to be understood that, within the scope of the appended claims, the invention may be practiced other than as specifically described.