Abstract
The present invention generally provides an improvement upon existing wood-gas stoves, in which the invention makes it possible for a user to start the fire in a well-ventilated single-walled stove configuration, and then easily and instantly convert the stove into a double-walled wood-gas stove configuration for improved start-up and boil times as well as increased fuel efficiency of the stove and reduced smoke particulates emanating therefrom. The invention also improves air flow and pyrolysis efficiency by elevating the canisters above the surface below, allowing less restricted air flow from underneath and a greater distance and time for gas to heat up between the canister walls.
Claims
1. A stove apparatus for facilitating the conversion of a biomass or wood-burning stove from a single-walled stove into a double-walled gasification stove compromising: a wood-gas stove having an outer removable canister; the outer removable canister having an array of supports attached to the outside of its wall and spaced apart from said wall; the supports capable of extending from a closed position into an opened position wherein the supports take shape and function both as two or more legs for holding the outer canister at an optimal height above the inner canister and perform as two or more pot supports above the stove; the supports incorporating one or more holes that can be used to safely lift the hot outer canister utilizing one or more mini-fire pokers inserted therein.
2. A stove apparatus as recited in claim 1, further comprising a substantially flat platter at its base serving as an ash catcher.
3. A stove apparatus as recited in claim 2, wherein the platform secures the inner canister of the stove, and is capable of conveying heat to edible consumables underneath said platform.
4. A stove apparatus as recited in claim 1, further comprising one or more handles attached to a platter at its base.
5. A stove apparatus as recited in claim 4, comprising the one or more handles designed to facilitate easy and safe moving of the stove, even when the stove is hot.
6. A stove apparatus as recited in claim 4, comprising the one or more handles designed to facilitate inversion of the stove after the outer canister has been removed, for the purpose of emptying any ash remaining in the stove after use.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0014] The drawings constitute a part of this specification and include exemplary embodiments of the present invention illustrating various objects and features thereof.
[0015] FIG. 1 is a perspective view of the invention, according to some embodiments. The outer canister with attached supports is in place around the inner canister, which is itself bolted to the circular platter below, and with tube spacers, i.e. standoffs; used to elevate the inner canister above the platter. Attached to the platter by means of bolts and wingnuts is a metal handle with an insulated grip made from a material such as wood. The stove can alternatively have two more compact handles attached to two opposing sides of the platter, according to other embodiments of the invention.
[0016] FIGS. 2A-B are perspective views of the stove with a skillet resting on top of the stove supports. Said supports form a level platform on top of the stove which can support both narrow and wide cooking implements such as pots, pans, skillets, kettles, Dutch ovens, grills and griddles, mugs, canteens, etc.
[0017] FIG. 3 is a perspective view of the stove with the outer canister with its attached supports removed from the inner canister. The inner canister is affixed by means of bolts and tube spacers to the platter below. The handle is also affixed to the platter. Holes surrounding the lower region of the inner canister can be seen. In addition to these, the floor of the inner canister is also perforated with multiple ventilation holes (said holes are not visible in this view). With the outer canister removed, biomass fuel can be placed into the inner canister and the fire started. With the stove in its single-canister state, the combustible fuel such as biomass (i.e., wood or charcoal, etc.), is easier to load into the stove, and the fire is easier to start in this well-ventilated single-canister configuration. Once the fire is well established, the outer canister can be placed back around the inner canister, transforming the stove to a wood-gas stove, and beginning the pyrolysis process.
[0018] FIG. 4 is a perspective view of the invention, in which the inner and outer canisters have been partially cut away in order to reveal their interior details. The ventilation holes in the floor of the inner canister can be seen, as well as the bolts and nuts that secure the inner canister to the platter below. The gap between the walls of the inner and outer canisters is also evident. Once a fire is established in the stove, air entering the inner canister from below mixes with gasses emitted from the heated fuel in the inner canister. This mixture will flow up through the burning fuel. As air rises between the canister walls it is progressively heated by the hot metal walls of the stove, which improves the efficiency of the pyrolysis, such that most of the particulates in the gasses are combusted, which virtually eliminates the amount of smoke rising out of the stove.
[0019] FIG. 5 is a perspective view depicting an alternative embodiment of the invention, in which the inner canister wall incorporates a ring of holes near its top. In this configuration, most of the air that flows up between the walls of the two canisters enters the inner canister through this ring of holes nearest the top of the inner canister. In order to restrict the flow of gas over the rim of the inner canister and direct most of said gas through the ring of holes near the top of the inner canister, the inner canister rim reaches higher than in the previously depicted embodiment, such that the rim ideally would touch the overhanging lip of the outer canister, so that the convected air between the canister walls can only enter the inner canister via the air intake holes near the top of the canister. In an embodiment with top holes in the inner canister, a fan may optionally be incorporated below the stove or to one side with piping to boost air flow through the stove.
[0020] FIGS. 6A-B are perspective views of the invention exploded into its component parts.
[0021] FIG. 7 is a perspective view of the invention above a wooden board or other mostly flat semi-heat-tolerant surface, upon which has been placed a flatbread, such as a tortilla or pita bread. The stove platter is to be placed down upon said flatbread. This illustrates an added benefit to the stove, whereby the user is able to heat a flatbread underneath the platter, which absorbs some heat from the fire in the stove and transfers it to the flatbread. This can be performed while the user cooks food to be wrapped in the flatbread in a pan or pot or grill, etc. on top of the stove. The platter may be composed of a dark metal or have a dark coating such as a black anodizing or powder coating, to increase its heat absorption performance.
[0022] FIGS. 8A and 8B are perspective views of an embodiment of the stove in which an folding handle has been configured such that it can fold up for more compact storage of the stove, as depicted in FIG. 8B. The stove may alternatively be configured with a non-folding detachable handle for compact storage. Such a handle could be inserted a slot that is permanently affixed to the patter below, and tightened or held in place by various means such as one or more wingnuts and bolts.
COMMON COMPONENTS AND TECHNOLOGY TO ALL EMBODIMENTS
Common Operation to the the Present Invention
[0023] 100 The stove invention [0024] 110 Outer canister [0025] 112 Bolt holes in outer canister [0026] 120 Inner canister [0027] 122 Ventilation holes [0028] 124 Vent Holes near top of inner canister in alternative embodiment of the present invention [0029] 126 Bolt holes in base of inner canister [0030] 128 Upper Rim of inner canister [0031] 130 Support [0032] 132 Foot section of Support [0033] 134 Horizontal pot support section of Support [0034] 135 Holes in supports for inserting one or more fire pokers or skewers to safely lower down as well as to lift off the outer canister, in order to convert the stove to and from a single-walled and double-walled stove [0035] 136 Side Tube Spacers, i.e. standoffs, for distancing the supports from the outer canister [0036] 138 Support Bolts [0037] 139 Support Nuts [0038] 140 Platter [0039] 142 Tube Spacers, i.e. standoffs, between platter and inner canister base [0040] 144 Base bolts for attaching inner canister to platter [0041] 146 Base nuts [0042] 148 Bolt holes in platter [0043] 150 Handle [0044] 152 Metal core of handle [0045] 154 Bolts for attaching handle to platter [0046] 156 Wingnuts for attaching handle to platter [0047] 158 Insulated gripper section of handle [0048] 170 Folding handle [0049] 152 Hinge on folding handle [0050] 174 Anchor plate for folding handle [0051] 200 Cooking implement, depicted here as a skillet [0052] 300 Wood board, or other mostly flat heat-tolerant surface [0053] 310 Flatbread such as a tortilla, pita bread or pizza bread.
DETAILED DESCRIPTION OF THE DRAWINGS
[0054] As required, detailed aspects of the present invention are disclosed herein, however, it is to be understood that the disclosed aspects are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting; but merely as a basis for the claims and a representative basis for teaching one skilled in the art of how to variously employ the invention in virtually any appropriately detailed structure.
[0055] Certain terminology will be used in the following description for convenience in reference only and ought not be construed as limiting or restricting the scope of the design. For example, up, down, front, back, right and left refer to the invention as orientated in the view being referred to. The words, “inwardly” and “outwardly” refer to directions toward and away from, respectively, the geometric center of the aspect being described and designated parts thereof. Forwardly and rearwardly are generally in reference to the direction of travel, if appropriate. Said terminology will include the words specifically mentioned; derivatives thereof and words of similar meaning.
[0056] FIG. 1 is a perspective view of the stove invention 100, according to some embodiments. The outer canister 110 with attached supports 130 is in place around the inner canister 120, which is itself bolted to the circular platter 140 below, and with tube spacers 142 used to elevate the inner canister 120 above the platter 130. Attached to the platter 140 by means of bolts and wingnuts 156 is a handle 150 with a metal core 152, and an insulated grip 158 made from a material such as wood. The stove 100 can alternatively have two more compact handles attached to two opposing sides of the platter, according to other embodiments of the invention. Supports 130 are bolted to the outer canister 110 by means of bolts 138 and nuts 139, and are separated from the outer canister by means of tube spacers 136 through which said bolts pass. In addition, said supports may incorporate apertures 135. These apertures 135 enable the user to use one or more metal fire pokers, skewers, tent pegs or sturdy wires to safely manipulate and lower the outer canister 110 around the inner canister 120, as well as lift it off, by inserting said fire poker into said apertures. The supports are formed such that their lower leg sections 132 rest on the platter 140 thereby elevating the outer canister 110 above the platter 140 to the height necessary for convected air between the canister walls to have the optimal flow into the burn area in the inner canister 120 over the upper rim of said inner canister. The supports are also formed such that their upper extents 134 are horizontal in order to form a broad and level platform upon which cooking implements may be placed.
[0057] FIGS. 2A-B depict upper and lower perspective views, respectively, of the stove 100 with a skillet 200 resting on top of the horizontal extents 134 of the supports 130. Said supports 130 provide a level platform above the stove which can support both narrow and wide cooking implements such as pots, pans, skillets, kettles, Dutch ovens, grills and griddles, mugs and canteens, etc.
[0058] FIG. 3 is a perspective view of the stove 100 with the outer canister 110, with its attached supports 130, removed from around the inner canister 120. The inner canister 120 is affixed by means of bolts 144 and nuts 146 and tube spacers 142 to the platter 140 below, with the tube spacers 142 shrouding said bolts and elevating the inner canister 120 above the platter 140 which facilitates air flow through the floor of the inner canister and also reduces the transfer of heat from the fire to the surface below the stove assembly. The handle 150 is also affixed to the platter 140 by means of bolts and wingnuts 156. Air intake holes 122 surrounding the lower region of the inner canister 120 can be seen. In addition to these holes, the floor of the canister is also perforated with multiple ventilation holes, which are not visible in this view. With the outer canister 110 removed, biomass fuel can be placed into the inner canister and the fire started. With the stove in its single-canister state, the combustible fuel such as biomass (e.g. wood sticks, twigs, etc.) or charcoal, etc., is easier to load into the stove, and the fire is easier to start in this well-ventilated single-canister configuration. Once the fire is well established, the outer canister 110 can be placed back around the inner canister 120, transforming the stove to a wood-gas stove, and beginning the pyrolysis process.
[0059] FIG. 4 is a perspective view of the stove 100, in which the inner and outer canisters have been partially cut away in order to reveal their interior details. The ventilation holes 122 in the walls and floor of the inner canister 120 can be seen, as well as the bolts 144 and nuts 146 that secure the inner canister to the platter below, with tube spacers 142 elevating the inner canister 120 above the platter 140. The gap between the walls of the inner and outer canisters is also evident. Once a fire is established in the stove, air entering the inner canister 120 from below mixes with gasses emitted from the heated fuel in the inner canister. This mixture will flow up through the burning fuel. As air rises between the canister walls it is progressively heated by the hot metal walls of the stove, which improves the efficiency of the pyrolysis, such that most of the particulates in the gasses are combusted, which virtually eliminates the amount of smoke rising out of the stove.
[0060] FIG. 5 is a perspective view depicting an alternative embodiment of the stove 100, in which the inner canister wall incorporates a ring of holes 124 near its top. In this configuration, most of the air that flows up between the walls of the two canisters enters the inner canister through this ring of holes 124 nearest the top of the inner canister. In order to restrict the flow of gas over the rim of the inner canister and direct most of said gas through the ring of holes 124, the inner canister rim 128 reaches higher than in the previously depicted embodiment, such that the rim 128 ideally would touch the overhanging lip of the outer canister 110, so that the convected air between the canister walls can only enter the inner canister via the air intake holes 124 near the top of the canister.
[0061] FIGS. 6A-B are perspective views of the stove 100 exploded into its component parts. FIG. 6A is a view from above and FIG. 6B is a view from below the stove. Elements not clearly visible in other figures, such as bolt holes 112 in the outer canister 110, bolt holes 126 in the inner canister 120, and bolt holes 148 in the platter 140 can be seen in these views.
[0062] FIG. 7 is a perspective view of the stove 100 above a wooden board 300 or other mostly flat semi-heat-tolerant surface, upon which has been placed a flatbread 310, such as a tortilla or pita bread. The stove 100 is to be placed down upon said flatbread. When the user makes a fire in the stove, some radiant heat energy from the fire is absorbed by the platter 300, and some of this heat energy is in turn transferred into the flatbread 310 that is sandwiched between the platter 140 and the wooden board 300 below.
[0063] FIGS. 8A and 8B are perspective views of an embodiment of the stove in which an folding handle 170 has been configured such that it can fold up for more compact storage of the stove, as depicted in FIG. 8B, Said handle incorporates a hinge 172, which is connected to an anchoring plate 174, which is bolted to the platter 140, according to some embodiments.
