1. Field
This disclosure relates to hearth products, and more specifically, to ethanol-burning hearth products.
2. Description of Related Art
Hearth products, such as fireplaces, fireplace inserts, log sets, stoves, heaters, furnaces, outdoor fire products, water heating products, barbeque and grilling products, and the like, are commonly fueled by wood or coal products. However, regulations may limit the use of these fuels.
Natural and propane gas have also been used. However, these may require a gas supply line and, in some case, a power source to operate the product.
Ethanol products, in the form of a gel-based mixture packaged in a small metal container, have been developed for a homeowner to burn within a hearth product, without having to install natural or propane gas lines. When certified, however, these ethanol products are described as candles and are classified under certification standards such as self-contained candle products. This eliminates the need to test and certify their combustion properties. However, they may not be classified for use with vent-free hearth devices or sealed combustion products, such as a direct vent or B vented fireplace or stove. Further, these ethanol products usually burn for only a short time and may not provide an adequate flame pattern. These hearth products have also traditionally required manual lighting and shutoff which has made them unsuitable for use in sealed combustion products.
Fuels for gel-based products may be provided in small cans. They must also be disposed after use, and may leave a residue from incomplete combustion. These gel-based products may also produce an undesirable amount of soot and carbon monoxide. The costs of the small cans can also be very expensive, compared to natural gas or propane.
Liquid ethanol has also been used in hearth products. However, it can present significant challenges. For example, the hearth product may not generate a wood-burning-like yellow, dancing flame. The hearth product may also be difficult to ignite without also getting ethanol on the igniter, thus causing the igniter to also catch fire. It may also be difficult to add more ethanol while a flame is burning, so as to avoid the flame going out prematurely. It may also be difficult to extinguish a flame before the fuel is spent. These problems, as well as others, have heretofore made it impractical to use ethanol in hearth products.
In one aspect of the disclosure an apparatus includes a sealed, vented firebox having a substantially air-sealed, transparent, front through which a flame within the firebox may be viewed, and a burner configured to hold and burn a liquid fuel and positioned so as to cause a flame from the burning fuel to appear within the firebox. A “vented” firebox includes a direct vent firebox, a B vented firebox, or any other suitable vented firebox.
In another aspect of the disclosure, an apparatus includes a firebox, a burner configured to hold and burn liquid ethanol and positioned so as to cause a flame from the burning fuel to appear within the firebox, an igniter that has a user-operated igniter control that may be operated by a user from outside of the firebox that, upon operation, causes liquid ethanol within the burner to be ignited, and an extinguisher that has a user-operated extinguisher control that may be operated by a user from outside of the firebox that, upon operation, causes the flame to be extinguished.
In a further aspect of the disclosure, an apparatus includes a firebox, a burner configured to hold and burn liquid ethanol and positioned so as to cause a flame from the burning fuel to appear within the firebox, an ethanol fuel inlet located outside of the firebox, and a fuel channel between the ethanol fuel inlet and the burner.
It is understood that other aspects of the invention will become readily apparent to those skilled in the art from the following detailed description, wherein various aspects of the invention are shown and described by way of illustration. As will be realized, the invention is capable of other and different configurations and implementations and its several details are capable of modification in various other respects, all without departing from the scope of this invention. Accordingly, the drawings and detailed description are to be regarded as illustrative in nature and not as restrictive.
The drawings disclose illustrative embodiments. They do not set forth all embodiments. Other embodiments may be used in addition or instead. Details that may be apparent or unnecessary may be omitted to save space or for more effective illustration. When the same numeral appears in different drawings, it is intended to refer to the same or like components or steps.
a)-(c) are profile views of the spark gap illustrated in
a) illustrates a burner that may only produce a substantially blue flame that moves downwardly along with the level of the liquid fuel as it is depleted.
b) illustrates a burner that may produce a substantially yellow dancing flame that may not move downwardly along with the level of the liquid fuel as it is depleted.
a) illustrates a profile of the burner illustrated in
b) illustrates a profile of the burner illustrated in
c) illustrates a profile of the burner illustrated in
a) and (b) illustrate the fuel tank illustrated in
a) and (b) illustrate the fuel tank illustrated in
a)-(c) illustrate the fuel tank and spring-loaded check valve illustrated in
The detailed description set forth below in connection with the appended drawings is intended as a description of various embodiments of the invention and is not intended to represent the only embodiments in which the invention may be practiced. The detailed description includes specific details for the purpose of providing a thorough understanding of the invention. However, it will be apparent to those skilled in the art that the invention may be practiced without these specific details. In some instances, well known structures and components are shown in block diagram form in order to avoid obscuring the concepts of the invention.
In the following detailed description, various concepts will be described in the context of a sealed, direct vent fireplace. While these concepts are well suited for this application, those skilled in the art will readily appreciate that these concepts are likewise applicable to other hearth products, including by way of example, and without limitation, B vented and vent-free fireplaces, as well as fireplace inserts, log sets, stoves, heaters, furnaces, outdoor fire products, water heating products, barbeque and grilling products, and the like, whether vented (e.g., direct vent or B vented) or vent-free. Accordingly, any reference to a sealed, direct vent fireplace is intended only to illustrate these concepts, with the understanding the such concepts have a wide range of applications.
They may also be adapted to outdoor fire products, water heating products, and/or barbecue and grilling products. They may also be adapted to inserts for existing wood burning fireplaces.
The floor 103, side walls 105 and 107, rear wall 109, and ceiling 111 may be made of any material, such as material that does not readily melt or burn. For example, the floor 103, side walls 105 and 107, rear wall 109, and/or ceiling 111 may be made of metal, cement panels or masonry products or any combination of these.
The front of the firebox 101 may be covered with a transparent plate, such as glass plate 113 or screen mesh. A double wall pipe system 116 may be used to pull outside air into the firebox 101 for combustion and to exhaust flue gas back to the outside. Except for the double wall pipe system 116, the firebox 101 may be substantially air-sealed by virtue of substantially air-tight fittings between the components of the enclosure that defines the firebox 101, namely the floor 103, the side walls 105 and 107, the rear wall 109, the ceiling 111, and the glass plate 113.
A burner 115 may be configured to hold and burn a liquid fuel, such as ethanol. The burner 115 may be positioned with respect to the firebox 101 so that a flame from liquid fuel that is burning within the burner 115 appears within the firebox 101. A portion of the burner 115 may be beneath the floor 103, while another portion of the burner 115 may be above the floor 103. In other embodiments, all portions of the burner 115 may be beneath or above the floor 103. The burner 115 may be made of any material, such as material that does not readily burn or melt, such as steel, ceramic, glass or high temperature thermoplastic.
The fireplace may include a fuel inlet 117 covered by a fuel cap 119. After removal of the fuel cap 119, liquid fuel, such as ethanol, may be poured into the fuel inlet 117, causing the burner 115 to fill with the liquid fuel that is supplied. A fuel tank (not shown in
The fireplace may include a user-operated igniter control 121. This control may be located or otherwise configured so that it may operated by a user from outside of the firebox. In cooperation with other components of an igniter, operation of the user-operated igniter control 121 may cause liquid fuel within the burner 115 to ignite. More details about various igniters are provided below in connection with the discussion of
The fireplace may include a user-operated extinguisher control 123. This control may be located or otherwise configured so that it may be operated by a user from outside of the firebox. In cooperation with other components of an extinguisher, operation of the user-operated extinguisher control 123 may cause a flame that may be burning within the burner 115 to be extinguished. More details about various extinguisher are provided below in connection with the discussion of
The user-operated igniter control 121 may be of any type. It may be an electrical switch that, upon actuation, closes an electrical circuit with an external source of power, such as a battery or line voltage. The user-operated igniter control 121 may instead include a magnet and electrical coil that generate electricity upon actuation. The user-operated igniter control 121 may instead be a wireless control located external to the fireplace. A transformer or inductor may in any event be used to increase the voltage.
a)-(c) are profile views of the spark gap illustrated in
The ignition rod 301 may be in any other shape, form or position. For example, it may include or consist of a spring coiled around ember material.
a) illustrates a burner that may only produce a substantially blue flame that moves downwardly along with the level of the liquid fuel as it is depleted. As illustrated in
b) illustrates a burner that may produce a substantially yellow dancing flame that may not move downwardly along with the level of the liquid fuel as it is depleted. As shown in
a) illustrates a profile of the burner illustrated in
b) illustrates a profile of the burner illustrated in
c) illustrates a profile of the burner illustrated in
Thus, the configuration of the burner illustrated in
Applicants have discovered the dimensional relationships that cause the flame to at as illustrated and described above in connection with
As illustrated in
Any other type of linkage or means may be used to operate the lid 1005 from outside of the firebox 101. For example, an electric solenoid or motor may be used to operate the lid after being actuated by an external switch. The switch may be outside of the firebox. It may be attached to the fireplace or may be part of a wireless control that is operated outside of the firebox. The lid may also be closed automatically in response to a heat sensor that senses the absence of a flame.
The fuel tank 1401 may be of any configuration and may be made of any material, such as material that does not readily react to liquid fuel that may be placed within the tank. Examples include steel, copper, aluminum or durable plastics. The fuel tank 1401 may be configured to fit underneath the floor 103 of the firebox 101. It may be sized to hold enough liquid fuel so as to provide a desired burn time, consistent with the space that may be available under the floor 103. The fuel tank 1401 may instead be wholly or partially remote from the fireplace.
The fuel cap 119 may include a check valve that allows air to enter the fuel inlet 117 as the level of a surface 1403 of the liquid fuel 1405 within the fuel tank 1401 decreases. The check valve may also be configured not to allow fuel or fumes from within the tank to escape through the fuel cap 119.
A passageway restriction device 1407 may be placed within the fuel channel 1411. The passageway restriction device 1407 may be configured to allow fuel to flow through the fuel channel 1411 from the fuel tank 1401 to the burner 115, while blocking any flame in the burner 115 from flashing back through the fuel channel 1411 to the fuel tank 1401 when the fuel in the burner 115 is exhausted. The passageway restriction device 1407 may include an interior channel 1409 that is large enough to allow fuel to flow from the fuel tank 1401 to the burner 115 at least the consumption rate of the fuel in the burner 115. However, it may be small enough so as to reduce the temperature of any flame that enters the passageway restriction device from the burner 115 to an amount that causes the flame to extinguish by the time it leaves the other end of the passageway restriction device 1407. To accomplish this, the passageway restriction device 1407 may be made of a heat-sinking material, such as copper, aluminum or brass. The passageway restriction device 1407 may also have a length that is sufficient to provide the needed amount of cooling in view of the size of the interior channel 1409. For example, an interior channel diameter of approximately 1/16 inch may require a length of at least one inch to reliably extinguish any flame that attempts to pass through the passageway restriction device 1407.
The level of the surface 403 of the liquid fuel 401 in the burner 115 may eventually rise to the level of the surface 1403 of the liquid fuel 1405 in the fuel tank 1401. To insure that the level of the surface 403 of the liquid fuel 401 in the burner 115 does not rise above or get too close to the height of the burner 115, the top of the fuel tank 1401 may be positioned so as to be below the top of the burner 115, as illustrated in
With the design illustrated in
The fuel tank 1401 may be mounted underneath the floor 103 of the firebox 101 on a sliding track. This may allow the fuel tank 1401 to be slid to the rear of the fireplace when it is not being filled with fluid, thereby positioning the fuel cap 119 and the fuel inlet 117 behind the front panel of the fireplace and out of sight. When fuel needs to be added, the fuel tank 1401 may be slid forward, thus moving the fuel cap 119 and the fuel inlet 117 in front of the fireplace, thus allowing liquid fuel to easily be pored into the fuel inlet 117. A removable cover, door or other means may be positioned over the front face of the fireplace, to hide the fuel cap 119, the fuel inlet 117, and the fuel tank 1401 after they are slid rearward. A flexible hose may be used to attach the fuel tank to the fuel channel 1411. The slide may use a detent in both the open and closed position to prevent movement while filling and while in operation. This detent may include notches in the slide rail to hold captive rollers or bearings.
a) and (b) illustrate the fuel tank in
As illustrated in
a) and (b) illustrate the Gel tank illustrated in
a)-(c) illustrate the fuel tank and spring-loaded check valve illustrated in
The shaft of the fuel shut-off rod 1701 may be threaded, so as to allow it to be rotated between its open and closed positions. In addition or instead, a snap-lock mechanism may be provided that allows the fuel shut-off rod 1701 to be raised and snapped into an open position and/or lowered and snapped into a closed position. A solenoid or other type of automated means may be used in addition or instead to open and close the fuel path from the fuel tank 1401 to the fuel channel 1411.
Although having thus far been illustrated as having a rectangular cross section, the burner that is used in the fireplace may have other types of cross sections and shapes. For example, the burner may be oval.
The burner also need not be linear.
The components, steps, features, objects, benefits and advantages that have been discussed are merely illustrative. None of them, nor the discussions relating to them, are intended to limit the scope of protection in any way. Numerous other embodiments are also contemplated, including embodiments that have fewer, additional, and/or different components, steps, features, objects, benefits and advantages. The components and steps may also be arranged and ordered differently.
For example, liquid fuel other than ethanol may be used, such as kerosene or clean burning organic fuels. Also, the fireplace need not be sealed and/or directly vented. Instead, it may be unsealed, vent-free, and/or may have other vents.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein, but is to be accorded the full scope consistent with the claims, wherein reference to an element in the singular is not intended to mean “one and only one” unless specifically so stated, but rather “one or more.” All structural and functional equivalents to the elements of the various embodiments described throughout this disclosure that are known or later come to be known to those of ordinary skill in the art are expressly incorporated herein by reference and are intended to be encompassed by the claims. Moreover, nothing disclosed herein is intended to be dedicated to the public regardless of whether such disclosure is explicitly recited in the claims. No claim element is to be construed under the provisions of 35 U.S.C. §112, sixth paragraph, unless the element is expressly recited using the phrase “means for” or, in the case of a method claim, the element is recited using the phrase “step for.”
This application claims benefit under 35 U.S.C. §119 to U.S. Provisional Application No. 60/979,322, filed Oct. 11, 2007, entitled SEALED, DIRECT VENT ETHANOL-BURNING FIREPLACE, and U.S. Provisional Application No. 61/037,699, filed Mar. 18, 2008, entitled ETHANOL-BURNING HEARTH APPARATUS. The disclosures of the prior applications are hereby incorporated by reference in their entirety.
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