This disclosure relates to the field of fuel burning lamps and burners in general and, more specifically, to products capable of providing enhanced flame effects utilizing low flammability fuel.
Candles, lamps, and lanterns have been used for lighting since ancient times. Although modern households rely on electric lighting, the use of these combustion-based devices has never completely subsided. Combusting light implements are used even in modern times as a backup or emergency lighting source, for ambiance, to disperse scents or repellants, for decoration, and for other purposes.
Especially when used outdoors, regular fiber-wicked candles may suffer from inadvertent extinguishment owing to the low quantity of fuel they burn per wick. Larger wicks can produce more robust flames but these can be difficult to control satisfactorily and are often sooty or smoky in appearance. Similar problems may be faced with a liquid fueled apparatus since these are also based on traditional woven wicks. Moreover, in dealing with liquid fueled devices the fuel must usually be stored in an attached reservoir leading to issues of spillage and proper ventilation.
What is needed is a candle holder to address the above limitations.
The invention of the present disclosure, in one aspect thereof comprises a device having a canister, a bulk wick occupying at least most of the canister, and a lid affixed to the canister and in contact with the bulk wick. The lid defines an opening exposing a portion of the bulk wick for lighting.
The lid may be a mesh lid with a central ring exposing the bulk wick. The lid may be concave into the canister. In some embodiments the lid is solid except for the opening exposing a portion of the bulk wick.
The bulk wick may define a cavity below the opening in the lid. The cavity may extend to an interior bottom of the canister. In other embodiments, the cavity extends inside the canister to an insulative pad at the bottom of the canister. The cavity may have as a cylindrical wall extending downward through the bulk wick and a lip protruding inwardly from the wall.
The device may further include a woven wick extending from inside the bulk wick through the opening in the lid. In other embodiments, the bulk wick is formed into a plurality of fins extending inwardly from wall of the canister.
The invention of the present disclosure, in another aspect thereof, comprises, a canister having an exterior wall surrounding a canister floor to define a canister interior, a lid for affixing to the top of the canister, and a bulk wick in the canister interior, the bulk wick formed to contact the lid when the lid is affixed to the top of the canister. The lid provides an opening ring defining at least a first burn area for the bulk wick.
In some embodiments the bulk wick contacts the lid only at the opening ring. The bulk wick may define a cavity under the opening ring. The cavity may have a protruding lip providing for ease of lighting. In some embodiments the bulk wick fills the majority of the interior of the canister. The bulk wick may define a fins projecting inwardly from the direction of the exterior wall. An insulative pad may interpose the bulk wick and the canister. Some embodiments comprise a container holding the canister in a supported location.
The invention of the present disclosure, in another aspect thereof comprises a device having a bulk wick of sufficient volume to contain a quantity of liquid fuel for burning, a canister that contains the wick, and a lid that fits onto the canister and provides at least one opening appropriately sized to allow air to enter the canister for mixing with fuel in a combustion process and allowing the combustion products to escape. In some embodiments the bulk wick comprises polycrystalline cotton formed to contact an interior of the canister and the wick while providing a cavity as a burn area.
Like numbers refer to like parts throughout.
Referring now to
The light holder 100 comprises a container 102. In the present embodiment, the container 102 comprises an outer wall 104 and an inner wall 106. A space 107 is defined between the outer wall 104 and the inner wall 106. In some embodiments, this space 107 will serve as an insulating barrier and, in other embodiments, may be used for decorative purposes, as will be described further below. In the present embodiment, the outer wall 104 and the inner wall 106 connect to the base 108.
In some embodiments, the outer and inner wall 104, 106, will be formed from separate pieces and attached to the base 108. In other embodiments, the outer wall 104 and inner wall 106 may be formed integrally and then attached to the base 108. In some embodiments, the walls 104, 106 will be made from glass. In other embodiments, the walls 104, 106 may comprise some other heat resistant and suitably translucent or transparent material. In some embodiments, a substantially transparent wall design will be utilized to allow for lighting from a candle to shine through the walls and for allowing the candle to backlight decorative items, as will be described more fully below.
The base 108 may provide an opening 110 such that the bottom of the container 102 is open. The base may be made from a metal or plastic or other resilient or durable material. In one embodiment, the walls 104, 106 will be glued to the base 108.
The light holder 100 in the present embodiment also comprises a lid 120. The lid 120 has a top 122 which can be seen as being generally toroidal in shape. In the present embodiment, the top 122 is generally of an open disk shape with a width covering the distance between the outer wall 104 and the inner wall 106. A lip 124 may be formed around the periphery of the top 122 to ensure that the lip 120 is centered on the container 102 when placed thereon. A set of hangers 126 extends generally downwardly from the top 122 and suspends a candle platform 128. The candle platform 128 may also have a lip 130 around a periphery thereof to secure a candle. All of the components of the lid 120 may be metal or suitable heat resistant plastic. The hangers 126 may be a stiff wire that is capable of suspending the base 128 in a level and secure relationship with regard to the top 122.
Referring now to
Referring now to
Although generally cylindrical or circular walls 104, 106 are used in holder 100, as shown in
Referring now to
Burner cup 402 includes casing 502. The casing 502 may be stainless steel, aluminum, or another suitably heat resistant and resilient material. In one embodiment, the casing 502 is formed from a single piece of steel or other material. The casing 502 may be impermeable to the fuel utilized such that the fuel will not escape even if stored for an extended period of time. A vessel, such as container 102 (e.g.,
In the present embodiment, the casing 502 is filled mostly with a wick 504. The wick 504 may be made of polycrystalline cotton (PCC), or may comprise other materials. In one embodiment, wick 504 is made from about 60% to about 90% Al2O3 and from about 10% to about 30% SiO2. The wick 504 may be formed by wet vacuum processing or molding. The wick 504 may also be cut after forming to achieve desired shape and burn characteristics. An wick that may be shaped or configured into a variety of shapes (e.g., to fit a specific container) is referred to as a bulk wick. A bulk wick may also refer to a wick with amorphous characteristics such that it may be molded, compressed, or cut to fit a particular container.
The wick 504 may be saturated or at least partially imbued or infused with a quantity of fuel sufficient to support a flame on the exposed surfaces of the wick 504, e.g., proximate a top of the casing 502. In one embodiment, a screen 506 covers wick 504. The screen 506 may be stainless steel or another heat resistant material. The screen 506 serves to retain or aid in shaping wick 504 within casing 502. The screen 506 may have a generally concave or convex shape, or may have more complicated geometries.
The wick 504 may be configured in various shapes to control fuel consumption and burn time, to improve flame consistency or to create various flame effects. Such flame effects include, but are not limited to, taller or wider flames, large or smaller flames, and flames that occupy a certain area of the casing 502. The screen 506 provides a solid surface to aid in retaining the wick 504 in a chosen shape. The screen 506 also serves to promote and/or control air flow around the wick 504.
In some embodiments, the screen 506 provides an opening ring 507a that provides additional flame modification options. For example, burner cup 402 of
Referring now to
As discussed, in order to alter or control burn characteristics, the screen 506 may act to retain the wick 504 in specific shapes. Here a mounded wick area is created in the ring 507b. The wick 504 still largely fills the casing 502 but a gap 400 is created between the screen 506 and the wick 504 outside of the ring 507b.
Referring now to
Referring now to
In some embodiments, the pad 510 may also increase the burn time of burner cup 500 as excess fuel may be wicked from the pad 510 into the wick 504 and burned. In one embodiment, there is a single pad 510 in a short cylindrical shape that matches the bottom of casing 502. However, more pads may be provided and/or the pads may have different shapes. For example, a pad may be configured to line all, or substantially all, of the interior wall of the casing 502.
The shape and size of any portion of the wick 504 inside casing 502 can vary from that shown.
Referring now to
In the present embodiment, a hollowed out portion or cavity 508 does not extend completely to the bottom of the casing 502. A lip or ring 602 circumscribes an interior radius of the hollow portion or cavity 508. The lip or ring 602 may be a shelf-like protrusion extending laterally from the wall of the wick 504 toward the center of the opening 508. The depth of ring 602 in the opening or cavity 508 may be selected to provide a convenient location for lighting wick 504. The lip 602 may serve to demarcate to a user a depth within the opening or cavity 508 providing an ideal depth for ensuring a reliable light of the burner cup 600. In one embodiment, the lip 602 is about 0.5 to 1 inch below the surrounding wick material 504. The location of the lip 602 may be tailored to the specific fuel and wick combination being employed.
Referring now to
In the embodiment of
Referring now to
The burner cup 600 provides a wick 620, which may be a bulk wick. The wick 620 provides a cylindrical body 621 with an opening 622 that goes at least partway through the body 621. An upper surface 624 of the body 621 may have a contour that at least partially corresponds to the lower surface 606 of the cover 602.
The wick 620 is placed into the casing 102 and the cover 602 is placed atop the casing during assembly of the burner cup 600. In some embodiments, the cover 602 is permanently affixed to the casing 102; as the wick 620 may last the life of the burner cup 600, and the opening 608 allows for replenishment of the fuel in the wick 620 without disassembling the burner cup 600.
Referring now to
In operation, the wick 620 is imbued with a quantity of fuel and ignited at the opening 608. Fuel at the surface of the opening 622 burns with a flame produced in the opening 620 and/or opening 608. In order to promote ease of lighting and/or ensure adequate fuel supply, a portion of the upper surface 624 of the body 621 forms a shelf 612 around the opening 622. The shelf 612 may be at the same or a different height than the remainder of the upper surface 624. In the current embodiment, the shelf 612 is slightly depressed relative to the remainder of the supper surface 624 and is bounded by a rim 611 circumscribing the opening 608 in the cover 602. The rim 611 may comprise a part of the lower surface 604 of the cover 602 that contacts the upper surface 624 of the wick body 621 to secure the wick 620 in place in the casing 102.
In one embodiment, the casing 102 of the burner cup 600 is about 2.8 inches tall. The cover 602 has a diameter of about 3.4 inches while the opening 608 is about 2.0 inches in diameter. The opening 622 in the wick body 621 is about 1.5 inches in diameter, which means the shelf 612 is about 0.25 inches across where exposed around the opening 622.
The diameter of the opening 608 in the cover 602 may be from about 50% to about 60% of the diameter of the ridge 610. The height of the casing 102 may be about the same dimension as the overall width. These parameters promote desirable burn and fuel consumption characteristics. The configuration 600 with the solid lid 602 provides more consistent flame throughout the entire burn cycle without a significant decrease in fuel consumption.
The opening 608 is round in the present embodiment, but other shapes are possible. So similar shapes other than cylindrical may be used for the casing 102. However, the rounded or cylindrical embodiments shown promote desirable fuel consumption and flame characteristics.
Referring now to
Thus, the present invention is well adapted to carry out the objectives and attain the ends and advantages mentioned above as well as those inherent therein. While presently preferred embodiments have been described for purposes of this disclosure, numerous changes and modifications will be apparent to those of ordinary skill in the art. Such changes and modifications are encompassed within the spirit of this invention as defined by the claims.
This application is a continuation of U.S. patent application Ser. No. 14/462,909 entitled “BURNER CUP” filed Aug. 19, 2014, which claims priority of U.S. Provisional Patent Application No. 61/867,415, entitled “BURNER CUP,” filed Aug. 19, 2013, and U.S. Provisional Patent Application No. 61/887,120, entitled, “ILLUMINATION SOURCE,” filed Oct. 4, 2013, and U.S. Provisional Patent Application No. 62/018,344, entitled “SOLID LID BURNER CUP,” filed Jun. 27, 2014, the contents of each of which are hereby incorporated by reference.
Number | Date | Country | |
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61867415 | Aug 2013 | US | |
61887120 | Oct 2013 | US | |
62018344 | Jun 2014 | US |
Number | Date | Country | |
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Parent | 14462909 | Aug 2014 | US |
Child | 15661956 | US |