Consumers in modern society are facing an ever-increasing cost of living. The cost of energy is near the top of the list among the highest costs that consumers must deal with. In the home, a conventional clothes dryer can consume a large amount of energy, as much or more than a refrigerator. This consumption of energy occurs despite the fact that a clothes dryer does not operate constantly, as a refrigerator does. The modern consumer is also faced with more demands on his or her time. A clothes dryer that would provide significant cost and time savings would clearly be a boon to the modern consumer.
A clothes dryer according to various implementations comprises: (A) a housing; (B) a laundry receptacle, mounted within the housing, that is adapted for receiving a load of wet laundry that is to be dried by the clothes dryer, the laundry receptacle comprising at least one ultraviolet permeable portion that is permeable to ultraviolet light; and (C) an ultraviolet light assembly that is adapted to direct ultraviolet light through the ultraviolet permeable portion of the laundry receptacle. In particular implementations, the clothes dryer is adapted to dry a wet load of laundry by transmitting ultraviolet light through the ultraviolet permeable portion of the laundry receptacle.
A clothes dryer according to further implementations comprises: (A) a housing; (B) a laundry receptacle that is rotatably mounted within the housing, the receptacle defining an interior portion that is dimensioned for storing a load of laundry; (C) a motor that is adapted for rotating the receptacle; and (D) one or more ultraviolet light assemblies that are adapted to substantially facilitate drying the load of laundry by directing ultraviolet light onto a load of laundry while the load of laundry is disposed within the interior portion of the receptacle and, optionally, while the receptacle is rotating.
A method of drying a load of laundry according to various implementations comprises the steps of: (A) providing a clothes dryer that comprises: (1) a laundry receptacle, and (2) an ultraviolet light assembly that is adapted to produce an amount of ultraviolet light that is sufficient to dry a load of wet laundry that is disposed within the laundry receptacle; and (B) while the load of laundry is disposed within the laundry receptacle, using the clothes dryer to dry the load of laundry. In various implementations, the clothes dryer dries the load of laundry by using the ultraviolet light assembly to direct the ultraviolet light onto the load of laundry until the load of laundry is substantially dry.
Having thus described various implementations in general terms, reference will now be made to the accompanying drawings, which are not necessarily drawn to scale, and wherein:
Various implementations of the present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which various implementations of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Like numbers refer to like elements throughout.
Similar to the housing of a conventional clothes dryer, the housing 105 may be of a metallic material, such as a metallic alloy, or any other type of metallic material. The housing 105 may have the same size and style of the housing of a conventional hot air clothes dryer such as that used in a residential household, a laundromat, or any industrial laundering facility.
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In various implementations, the drum 110 is made at least partially of a UV-permeable material, such as plastic. Because at least part of the drum 110 is UV-permeable, UV radiation (including UV radiation from one or more UV light sources 115) may pass through the walls of the drum 110. The drum 110 may comprise any suitable percentage of UV-permeable material. In particular implementations, about at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, and/or at least 95% of the drum 110 is made of a UV-permeable material. Many types of plastic materials exist and, depending on design choice, any suitable type of UV-permeable (e.g., transparent) material of varying levels of transparency may be used.
As discussed above, although the entire drum 110 may be made of a UV-permeable material, there is no requirement that 100% of the drum 110 be made of UV-permeable material (whatever that UV-permeable material may be). One may appreciate that nuts, bolts, screws, washers, and other components of the drum 110 may be made of metal, opaque plastic materials, or any other opaque materials. Portions of the drum 110, for example the trap-door of a top-loading dryer 100 having a UV-permeable drum 110, may be made of a non-transparent material.
It should be understood that the drum 110 may come in a variety of different physical configurations. In one implementation, substantially the entire drum is made of one or more types of UV-permeable material, such as a UV-permeable plastic or glass. In another implementation, which is shown in
In a further implementation, which is shown in
In certain implementations, the dryer may include a subassembly of one or more ultraviolet lights that are collectively positioned circumferentially around an exterior surface of the drum (e.g., immediately adjacent the drum's UV-permeable strips 155). These one or more ultraviolet lights may be adapted to direct light through the UV-permeable strips 155 around substantially the entire circumference of the drum.)
While various implementations described above indicate that the dryer includes a drum (e.g., a cylindrical drum) for storing wet laundry as the laundry is dried by the dryer, any other suitable receptacle may be used for storing the laundry as the laundry is processed by the drier. Such receptacles may be, for example, in the shape of a suitable conical section, or in the shape of a substantially rectangular prism. In such implementations, the laundry receptacle may be mounted to rotate adjacent an axis (e.g., a central axis of the receptacle). The dryer may include a motor for mechanically driving the receptacle's rotation about this axis. In certain implementations, the receptacle may remain substantially still as the dryer uses ultraviolet light to dry the laundry.
Generally speaking, the more UV-permeable the material, the more ultraviolet light will be able to pass through the material. Because selecting a material that is more or less permeable to UV radiation may have an effect on the amount of UV radiation that may pass through the transparent drum 110, a variety of other design factors of the dryer 100 may be impacted. For example, if a plastic material is selected in which a lower percentage of UV radiation can pass through the material, in at least some cases, it may take longer to dry any wet laundry or other fabric items contained within the drum 110. Or, to dry roughly the same load in roughly the same amount of time, a drum 110 having a lower level of UV-permeability may require more intensity in UV radiation from the UV light sources 115 than the intensity of a drum 110 having a higher level of LTV-permeability; or, a greater number of UV light sources 115 may be required; or, the distance of the UV light sources 115 from the drum 110 may need to be reduced; or the configuration, grouping, or placement of the UV light sources 115 may need to be varied (for example, a circular array with each UV source 115 closer together may need to be used, versus a more spread-out circular array, or a linear array). In various implementations, the drum's materials and the dryer's UV light sources 115 are selected so that the dryer dries a load of laundry of about 2, about 4, about 6, or about 8 pounds in less than about 6 hours, less than about 4 hours, and/or less than about 2 hours.
The drum 110 may also have a closed rear end that defines a plurality of rear vent holes 125 through which water that is evaporated from laundry or other fabric articles during the drying process may exit. A vent fan may be used to assist in the egress of moisture through the vent holes 125. In
To assist in tumbling wet fabric articles during the drying process, the drum 110 may also have one or more fins 130 (e.g., substantially planar fins) that extend inwardly from the drum's interior surface.
One or more UV light sources 115 may be placed so that they direct UV light through the drum's exterior surface and into the drum's interior (e.g., and onto wet laundry or other fabric articles disposed within the drum 110). For example, the UV light sources 115 may be disposed outside of the drum adjacent the drum's exterior surface and focused so that they direct UV light toward the drum 110.
The UV light sources 115 may be, for example, cylindrical, bulbous, or of any other suitable shape or size. Depending on design choice, the UV light sources 115 may emit more or less UV light, of higher or lower intensity. The UV light sources may, for example, be attached to one or more sides of the interior walls of the dryer's housing 105 and/or to the ceiling and/or floor of the housing 105. Similarly, the UV light sources 115 may be attached to the inside of the access door of the housing 105, and/or to the housing 105 behind the rear of the drum 110. The UV light sources 115 may also, or alternatively, be attached to any other structures, such as rods or brackets, within the housing 105. In some example implementations, the UV light sources 115 may also be detachably mounted so that any UV light sources 115 can be selectively replaced if needed.
As may be understood from
In some example implementations, as depicted in
In certain example implementations, the UV light sources 115 may be of the elongated cylindrical type. Such UV light sources 115 may be mounted (e.g., by their respective bases) to the housing's back wall. In particular implementations, the UV light sources 115 are roughly equidistant from the outer perimeter of the drum 110. Various methods (including the use of brackets or rods) can be used to attach the UV light sources 115 so that they are at least substantially equidistant from the outer perimeter of the drum 110.
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Various concepts described above may also be implemented within the context of a kit that is adapted for use in conjunction with a standard clothes dryer. For example, an ultraviolet dryer retrofit kit according to a particular implementation comprises a UV light source that it adapted to be mounted within the interior of the drum of a standard clothes dryer. In such implementations, the UV light source may, for example, be sufficiently heat resistant to withstand temperatures found within the drums of standard clothes dryers while the clothes dryers are in operation. The UV light source may also include a protective cover (e.g., a UV-permeable cover) that is adapted to protect the UV light source from laundry circulating around the UV light source.
In particular implementations, the UV light source is adapted to be removably mounted (and, in various implementations, electrically connected) within a central portion of the standard clothes dryer's drum. In various implementations, the UV light source assembly (which may, for example, be substantially cylindrical) is adapted to be mounted (and, in various embodiments, electrically connected) so that a central axis of the UV light source assembly is substantially co-linear with a central axis of the clothes dryer's drum as shown, for example, in
In particular embodiments, the dryer 100 includes controls that are adapted to control the operation of the dryer 100. For example, knobs or buttons (or other suitable controls) may be used to increase or decrease the intensity of the UV light sources 115 or to set the amount of time that the dryer 100 would be in operation for the cycle.
Operationally, in example implementations, the user would place a load of wet laundry or other items into the drum 110. The user may use knobs or buttons to set the parameters for the dryer 100 and to start the dryer 100. Upon commencement of operation, the drum 110 begins to rotate. As the drum 110 rotates, the UV light sources 115 emit ultraviolet radiation, which irradiates the wet fabric articles contained within the drum 110. (In particular implementations, the UV radiation passes through the walls of the drum 110 before irradiating the wet fabric articles.) As the wet fabric articles become dry in the drum 110, the evaporated water exits the drum 110 via the vent holes 125. Upon reaching the end of the drying cycle, the drum 110 may coast to a stop, or cease rotating in another appropriate manner, and the UV light sources 115 can be turned off either before or after the rotation stops.
Safety-wise, the dryer 100 may include programming or hardware, such as an interlock device, that may automatically turn off the UV light sources 115 in response to the dryer's access door being opened in order to prevent the continuing operation of the UV light sources 115 until the access door is detected to be closed and/or the drying cycle is resumed or restarted. Additional safety features may prevent the dryer 100 from operating if the dryer's load exceeds a certain weight, which may be caused, for example, by the presence of a child or animal in the dryer 100. Additionally, audio sensors in the dryer 100 may prevent operation of the dryer 100 if sound patterns match that of a screaming or distressed person or animal.
Additionally, if the dryer access door is transparent (e.g., for allowing users to view laundry inside the dryer 100), in order to prevent UV light from causing unwanted damage to skin or eyes, the transparent portion of the door may be coated with UV blocking film. In example implementations, the access door may include a double-paned window, with UV blocking film being applied to the respective inner sides of the window's respective panes (such that the UV blocking material is positioned between the two panes).
Conclusion
Implementations of the subject matter and the functional operations described in this specification can be provided in digital electronic circuitry, or in computer software, firmware, or hardware, including the structures disclosed in this specification and their structural equivalents, or in combinations of one or more of them. Just because a feature is described in one example implementation does not mean that it cannot work with another. Various combinations or subcombinations of features can be used. Thus, the example dryer 100 of this disclosure, and components thereof, may be realized by hardware or software as appropriate, and may include one or more modules of computer readable instructions stored in one or more memory locations that upon execution, for example by one or more processors, cause one or more of the processes or functions mentioned above to be carried out. Processors suitable for the execution of a computer program include, by way of example, both general and special purpose microprocessors, and any one or more processors of any kind of digital computer.
While this specification contains many specific implementation details, these should not be construed as limitations on the scope of any invention or of what may be claimed, but rather as descriptions of features that may be specific to example implementations of particular inventions. Certain features that are described in this specification in the context of separate implementations can also be implemented in combination in a single implementation. Conversely, various features that are described in the context of a single implementation can also be implemented in multiple implementations separately or in any suitable subcombination. Moreover, although features may be described above as acting in certain combinations and even initially claimed as such, one or more features from a claimed combination can in some cases be excised from the combination, and the claimed combination may be directed to a subcombination or variation of a subcombination. It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.
This application claims priority under 35 U.S.C. § 120 to, and is a continuation of, U.S. patent application Ser. No. 16/572,392 filed Sep. 16, 2019, which claims priority under 35 U.S.C. § 120 to, and is a continuation of, U.S. patent application Ser. No. 14/537,164, filed Nov. 10, 2014, which issued as U.S. Pat. No. 10,415,176, which application claims priority under 35 U.S.C. § 120 to, and is a continuation of, U.S. patent application Ser. No. 12/862,908, filed Aug. 25, 2010, which issued as U.S. Pat. No. 8,881,422, all of which applications and patents are incorporated by reference herein in their entireties.
Number | Name | Date | Kind |
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5664340 | Brown | Sep 1997 | A |
6449876 | Pursell | Sep 2002 | B1 |
6877248 | Cross | Apr 2005 | B1 |
Number | Date | Country | |
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20220064847 A1 | Mar 2022 | US |
Number | Date | Country | |
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Parent | 16572392 | Sep 2019 | US |
Child | 17500695 | US | |
Parent | 14537164 | Nov 2014 | US |
Child | 16572392 | US | |
Parent | 12862908 | Aug 2010 | US |
Child | 14537164 | US |