This invention relates generally to an appliance exhaust system, and, more particularly, to a method and apparatus for an appliance exhaust duct cover.
At least some known ovens include an oven cavity, at least one heating element in the oven cavity, and a plurality of electric heating elements and/or gas burners on an upper surface of the oven. The heating elements and/or gas burners facilitate cooking food positioned on the heating elements and/or gas burners. During the cooking process, undesirable gases and/or fumes may be generated by the heating elements and/or gas burners in the cooking area and subsequently released into the surrounding environment.
To facilitate reducing the release of such gases and/or fumes into the environment, at least some known ovens include a separate venting system, e.g. a range hood, positioned above the oven. Known range hoods include an electric fan/blower that channels the gases and/or fumes generated during the cooking process through a vent duct, wherein the gases and/or fumes are either filtered and re-circulated back into the kitchen, i.e. ductless venting, or released directly to the outside atmosphere, i.e. ducted venting. Typically, the appliance owner selects whether the range hood should be configured to re-circulate the gases and/or fumes, or discharge the gases and/or fumes directly to the environment, and the vent duct is then permanently installed for the desired configuration. More specifically, if the owner selects a re-circulated configuration a vent duct that includes a plurality of openings within the kitchen is installed. Alternatively, if the owner selects to discharge the gases and/or fumes directly to the environment, i.e. a non-re-circulated configuration, a vent duct that does not include a plurality of openings is installed.
Since the gases and/or fumes may contain moisture, at least one known vent duct is fabricated from a galvanized metallic material. To increase the aesthetics of an exposed vent duct within a kitchen, for example, a one-piece vent duct cover may be positioned over an exterior surface of the galvanized metallic vent duct. However, different venting configurations require the use of different duct covers. For example, a one-piece vent duct cover used with a re-circulated vent duct may not be utilized as a vent duct cover with a non-recirculated configuration. Fabricating multiple vent duct covers not only increases design and fabrication costs, but also increases the quantity of parts that must be maintained by the appliance vendors and the likelihood of an incorrect vent duct cover being installed.
In one aspect, a method for assembling an appliance vent duct cover assembly is provided. The method includes providing a first cover portion, slidably coupling a second cover portion to the first cover portion, the second cover portion including a plurality of openings, and selectively positioning the second cover portion with respect to the first cover portion to enable the openings to be substantially covered by the first cover portion.
In another aspect, an appliance vent duct cover assembly is provided. The vent duct cover assembly includes a first cover portion, and a second cover portion including a plurality of openings, wherein the second cover portion is slidably coupled to the first cover portion such that the second cover portion is selectively positionable with respect to the first cover portion to enable the plurality of openings to be substantially covered by the first cover portion.
In a further aspect, an appliance range hood is provided. The appliance range hood includes a vent duct coupled to the range hood. The vent duct extends from an upper surface of the range hood to a ceiling. The appliance range hood also includes a vent duct cover assembly at least partially circumscribing the vent duct. The vent duct cover assembly includes a first cover portion, and a second cover portion including a plurality of openings, wherein the second cover portion is slidably coupled to the first cover portion such that the second cover portion is selectively positionable with respect to the first cover portion to enable the openings to be substantially covered by the first cover portion.
Vent duct 12 includes a length 22 that extends from an upper surface 24 of range hood 10 and a ceiling 26. In the exemplary embodiment, vent duct 12 has a cross-sectional profile 28 that is substantially circular. Although vent duct 12 is described in the exemplary embodiment as having a substantially circular cross-sectional profile. In other embodiments, vent duct 12 has a cross-section profile that is not circular. For example, vent duct 12 may have a substantially square or rectangular cross-sectional profile. In the exemplary embodiment, vent duct 12 is fabricated from a galvanized sheet metal for example and is secured to range hood 10 using a plurality of fasteners (not shown).
In one embodiment, vent duct 12 is configured for ductless operation and includes a plurality of re-circulation exhaust holes 30 positioned at a first end 32 of vent duct 12. In another embodiment, vent duct 12 is configured for ducted operation and does not include a plurality of re-circulation exhaust holes 30 at first end 32 of vent duct 12, rather vent duct 12 includes a substantially solid outer surface 34.
Vent duct cover assembly 50 includes a first cover portion 62 and a second cover portion 72. First cover portion 62 includes a substantially solid outer surface 64 having a first cross-sectional profile 68. Second cover portion 72 includes a first end 77, a second end 78, and an outer surface 74 having a second cross-sectional profile 75 similar to first cross-sectional profile 68. Second cover portion 72 further includes a plurality of openings 76 extending through outer surface 74 at first end 77. In the exemplary embodiment, both first cover portion 62 and second cover portion 72 are fabricated from stainless steel metal.
Second cover portion 72 is slidably coupled to first cover portion 62. In one embodiment, vent duct cover assembly 50 is assembled in the ductless configuration as shown in
In another embodiment, vent duct cover assembly 50 is assembled in the ducted configuration as shown in
Vent duct cover 50 facilitates providing a single duct cover which can be used in a plurality of appliance applications operating in either a ductless or ducted configuration. Accordingly, the vent duct cover described herein facilitates reducing fabrication costs by eliminating the need to fabricate duct covers having a different operational configuration, and thereby increases the flexibility to meet different demands while reducing the quantity of parts that must be maintained by the appliance vendors and also reducing the likelihood of an incorrect vent duct cover being installed.
Exemplary embodiments of a vent duct cover are described above in detail. The vent duct cover is not limited to the specific embodiments described herein, but rather, components of the vent duct cover may be utilized independently and separately from other components described herein. Each portion of the vent duct cover can also be used in combination with other vent duct components.
While the invention has been described in terms of various specific embodiments, those skilled in the art will recognize that the invention can be practiced with modification within the spirit and scope of the claims.