CROSS-REFERENCE TO RELATED APPLICATIONThis application claims the benefit of U.S. Provisional Patent Application Ser. No. 61/871,746, filed Aug. 29, 2013, which is incorporated herein by reference.
FIELDThis disclosure relates generally to a multifunction utility cart, and more particularly to a utility cart having a tool chest or tool box, or beverage cooler.
BACKGROUNDIn warmer environments, users utilizing a utility cart, tool chest, entertainment center, beverage or food cooler, or other portable cart may experience uncomfortable heat levels. It would be beneficial if the users could be cooled while using the portable cart. There is a need for a multifunction portable utility cart, that is both capable of cooling environmental air in the immediate close surrounding area of the cart while also being used as a portable beverage cooler (i.e. a rolling patio cooler cart), a tool chest or tool box, or other such uses for a portable utility cart.
SUMMARYDisclosed is a utility cart having an integrated evaporative cooling system disposed therein, as well as an additional function or feature for the cart. In certain embodiments of the disclosure herein, the portable utility cart includes an insulated chest cooler for cooling food and/or beverages or other items to be cooled. The portable utility cart also includes an evaporative cooling system integrally disposed below the chest cooler that is operable for cooling the area around the cart. The cart may be used as a portable patio chest cooler and air cooling/conditioning unit.
In another aspect of the present disclosure, the portable utility cart includes a tool chest or tool box integrally disposed above an evaporative cooling system for use in warm or hot work environments requiring accessibility to a large tool chest, such as a garage for working on cars or other vehicles, for example, that would also benefit by the presence of an air cooling unit. Such tool chest may have a plurality of sliding tool drawers, and may include an electric power supply and power strip, permitting corded electric tools or other corded appliances or electronics to be plugged therein and powered thereby. Such tool chest may also include a built-in audio system, such as a stereo having an AM/FM radio, CD and MP3 playback functionality, phone and MP3 charging capability, and one or more speakers built-in to a wall of the tool chest.
BRIEF DESCRIPTION OF THE DRAWINGSThe present invention is described in detail below with reference to the attached drawing figures, wherein:
FIG. 1 is a front, partial cut away view of an embodiment of a utility cart having an integrated evaporative cooler in a portion of the cart;
FIG. 2 is an isometric view of an embodiment of a utility cart with a built in evaporative cooler; and
FIG. 3 is a partial front-top isometric view of the utility cart with a built in evaporative cooler ofFIG. 2, showing the lid of the utility cart in an open position.
DETAILED DESCRIPTIONWhile the present disclosure is capable of being embodied in various forms, for simplicity and illustrative purposes, the principles of the disclosure are described by referring to several embodiments thereof. It is understood, however, that the present disclosure is to be considered as an exemplification of the claimed subject matter, and is not intended to limit the appended claims to the specific embodiments illustrated. It will be apparent to one of ordinary skill in the art that the disclosure may be practiced without limitation to these specific details. In other instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the present disclosure.
Referring toFIGS. 1-3 in general and toFIG. 1 specifically, autility cart10 having a built-inevaporative cooler12 is disclosed. In general, theutility cart10 may be any type of stand, cart, counter, or cabinet that can benefit by the inclusion of an evaporative cooler disposed therein. Theutility cart10 is generally a closedcabinet14 comprised of at least a plurality ofside walls16 affixed to afloor panel18 and having aninterior space20 for the cabinet defined therein, whichspace20 is divided by aninternal panel22 to define at least two separated containers. Afirst container24 is configured as an evaporative cooler containing the components of an evaporative cooling system for generating air that is cooler than that of the immediate surrounding environment. Asecond container26 may be configured as any number of useful utility compartments, which may be used concurrently with the evaporative cooler of thefirst container24.
In one embodiment, thefirst container24 forms the outer housing of anevaporative cooling system28. Thefirst container24 is formed by the plurality ofside walls30 being affixed to thefloor panel18 and extending upward therefrom, and theinternal panel22 being affixed to the sidewalls within the interior of thecart10, at a distance spaced from and above thefloor panel18. Theinternal panel22 is affixed within the interior of theutility cart10 in a substantially horizontal manner such that thefirst container24 is a lower container and thesecond container26 is an upper container, each of the containers having a separate chamber defined therein. Theinternal wall panel22 is both a floor for theupper container26, and a ceiling for thelower container24. Theinternal panel22 may be horizontal, or slightly angled with respect to a horizontal plane. In alternate embodiments the internal panel may be vertical or significantly angled with respect to the horizontal and may divide the cart into two containers that are positioned in a side-by-side configuration or another shaped dual-chambered configuration as needed, without departing from the scope of the present disclosure.
Theside walls16 and30,floor18, and internal panel(s)22 may be affixed directly to each other to form the lower andupper containers24 and26 of thecart10, or they may be affixed to a frame structure (as will be understood by those of skill in the art) without departing from the scope of the disclosure herein. Alternatively, thefloor18 andsidewalls16 and30 of the cart may be formed of a single integral body, such as from a single mechanically drawn piece of sheet metal or from an injection molding process, or in a roll molding process or other process, similar to the respective processes used to produce soda cans or plastic cups, coolers, metal cabinets, or the like, without departing from the scope of the present disclosure. In still alternate embodiments, additional manufacturing techniques for forming the cart are contemplated herein.
Lower Utility ContainerThelower container24 forms a housing for an evaporative cooling system and houses therein at least: anevaporative medium32; awater distributor34 for wetting the evaporative medium; a cooling fan orblower36 for both drawing warm external air into the housing, and either blowing or drawing that warm air through the wetevaporative medium32 and back out to the surrounding environment as cooled air; and afan motor38 for driving the fan orblower36. In addition, the evaporative cooling system may include awater reservoir40 to supply water to thewater distributor34, and awater pump42 for pumping the water from thewater reservoir40 through awater line44 to thewater distributor34, and apower supply46, such as an electric cord or batteries, for powering the water pump and fan motor. Other additional components of evaporative coolers, such as incoming water supply lines and float valves disposed in the water reservoir for selectively filling the water reservoir, may also be included without departing from the scope of the disclosure herein.
In connection with thelower container24 being configured as an evaporative cooling system, at least a first48 of the plurality ofsidewalls30 defines an air inlet through which warm external air is drawn into thelower container24, or housing of the evaporative cooler, by thecooling fan36. The warm air is forced, either by pushing or drawing/pulling, through theevaporative medium32 that has been wetted by thewater distributor34, where it is cooled and picks up moisture as it passes there through. The cooled and moist conditioned air is then expelled by the cooling fan orblower36 from within the lower chamber (or evaporative cooler housing)24 back out to the exterior surrounding environment through anair outlet50 defined in asecond sidewall52. In this manner, the warm exterior air is drawn into the evaporative cooler where it picks up moisture, is cooled and conditioned, and is then expelled to the surrounding environment to cool the air of the surrounding environment. Each of theair inlet48 andoutlet52 may be configured to be as simple as a large hole defined in the respective sidewall or floor panel and covered by a grate, or a bi-directional grill, or one or both of the air inlet and outlet may be a series of vents or moveable louvers, that help direct the path of airflow into and out of the evaporative cooling system. The evaporative cooler may be configured to deliver approximately 3,000 cubic feet of air per minute (CFM), or other such predetermined air flow volumes as are desired.
Thewater reservoir40, from which water is pumped to thewater distributor34, may be formed substantially by thefloor panel18 having a water tight seal with the plurality ofsidewalls30, such that thefloor panel18 and affixedsidewalls30 are themselves the water reservoir disposed at the bottom oflower container24 of theutility cart10. In this manner, the water simply collects at the bottom of theutility cart10. Alternatively, a separate internal container, such as a plastic bucket, deep walled tray, or other such bin, may be positioned to rest on the floor panel inside thelower container24, or otherwise be disposed within the interior of the lower container.
Thewater reservoir40 may be filled manually by hand, by opening an access panel disposed in asidewall30 of the lower container (or sidewall of the housing of the evaporative cooling unit) and filling thewater reservoir40 through the access panel each time the water in the reservoir gets low. Alternatively, thewater reservoir40 may be filled automatically by connecting a water hose from an external water source to a hose fitting disposed in the side or bottom of the lower container, wherein a float valve in communication with the hose fitting will open and permit the inflow of water from the water hose into the reservoir when the water in the reservoir drops below a predetermined level. Any known evaporative cooler system may be provided in thecart10.
Upper Utility ContainerIn one embodiment, thesecond container26, or upper container, of theutility cart10 is configured as an insulated chest cooler used for holding ice or keeping items such as bottled beverages or food cold on ice without the need for mechanical refrigeration. In such embodiment, the plurality ofouter walls16 extend upward from theinternal panel22 that separates theupper container26 from thelower container24. Theouter walls16 and theinternal panel22 that forms the floor of the insulated cooler may be insulated, for example with insulation56. Such insulated walls and panel can be constructed so as to be double-walled vacuum insulated walls, or they may be double-walls filled with an insulating material, such as rigid foam, spray foam, fiberglass insulation, air, or any other insulating material or gas that is capable of being used as an insulating thermal barrier between an exterior environment and an interior space of theupper container26 of the insulated chest cooler. In alternate embodiments, each of theouter walls16 andinternal panel22 may be a single sheet of a rigid material and have an insulating layer affixed thereto. In still alternate embodiments, theupper container26 that acts as a beverage cooler may also be an un-insulated container in which the walls and floor are single walled, such as a single wall of stainless steel, aluminum, plastic, or other such rigid material as would be suitable for holding ice cubes, water, beverages or food, or other such items meant to be kept cold by being placed in a container of ice and/or water.
The chest cooler may be provided with abottle cap opener58 and acatch receptacle60 to catch the bottle caps. The chest cooler may be provided with adrain62 by which water from melted ice in the cooler drains into thewater reservoir40 in the evaporative cooler. Thedrain62 may first pass the water over theevaporative media32.
While theupper container26 may be configured to be an integrated chest cooler as disclosed above and as shown inFIG. 1, in alternate embodiments it may also be configured so as to permit the removal of the chest cooler26 from theevaporative cooler24 of the lower container so that the chest cooler26 may be used as a separate stand-alone insulated chest cooler.
In certain embodiments, theupper container26 further includes alid64 configured to cover an open upper end of theupper container26. Thelid64 may be a single-piece lid, split panel lid, or other multi-piece lid. Thelid64 may be affixed by one or more hinges66 to a single side of the upper container, and configured to be selectably moveable between an opened or closed position with respect to the open upper end of the upper container. Thelid66 may be configured to sealingly close against, or within, the open upper end of the upper container, thereby preventing warm outer air from infiltrating the cooled interior insulated space of the chest cooler. In alternate embodiments, the lid may be a gull-wing type lid whereby the lid comprises a pair of lids or lid halves that are hingedly affixed to either each other, or a central lid support affixed to the walls of the upper container that spans across the open upper end of the upper container. In an embodiment wherein the lid halves are affixed to a central support, each of the two lid halves are oriented in generally opposite directions relative to the central support such that they are rotated in opposite directions about their hinge as they are respectively moved from a closed position to an open position.
In an embodiment wherein thelid64 is a gull-wing lid with lid halves hingedly connected to each other, the lid is not otherwise affixed to the upper container. Rather, in the closed position, a perimeter of the gull-wing lid rests under its own weight in a complementary perimeter lip of the upper container that is disposed at the top of the sidewalls of the upper container. In such an embodiment, the perimeter of the lid and the lip of the upper container may maintain a low-force friction fit that is easily overcome by pulling force of a user. In such embodiment, one of the lid panels of the gull-wing lid may be hingedly rotated back onto the other panel of the gull-wing lid when access to the interior chamber of the upper container is needed.
In still further embodiments, thelid64 may be a dual panel lid whereby the separate panels are hingedly affixed to respective opposite side walls of the upper container, similar to that of French doors. In yet additional alternate embodiments, the upper container may have any other alternate lid configuration that permits a lid or lids to selectably close over or onto the open upper end of the upper container, such as for example, a lid that rotates to a closed or open position about a rotational axis directed through a center area of opposing sidewalls.
Another example of an alternate lid embodiment includes alid64 configured as a sliding door, or a pair of sliding doors. The door, or doors, would slide in a side-to-side manner to either close or open the lid and thereby prevent or provide access to interior of the upper container. An embodiment having a single sliding door may have a fixed lid panel covering a portion of the open upper end of the upper container, with the sliding door covering the remaining portion of the open upper end of the upper container. The single sliding door would then be configured to either slide over, under, or into the fixed panel when opened to provide access to the interior space of the upper container. In an embodiment having a pair of sliding doors may be configured such that each door covers a half, or slightly more than a half, of the open upper end of the upper container. Still additional alternate lid embodiments are contemplated without departing from the scope of the present disclosure.
The lid orlids64, as the case may be, may include a knob, handle, finger ledge or other such known mechanical device affixed thereto, or integrated therein, to facilitate the opening and/or closing of the lid of the upper container. The upper container, which may be configured as an insulated chest cooler, may also contain abottle cap opener58 affixed to an outer surface of a sidewall of the upper container, and may also include a bottlecap collection bin60 also affixed to the outer surface of a sidewall of the upper container, positioned directly below the bottle cap opener. In an alternate embodiment, a bottle cap opener may be integrally disposed, or formed, within a bottom side of the lid, such that when the lid is in a closed position the bottle opener is located inside of the interior space of the upper container.
Furthermore, thebottle cap opener58 of the present disclosure may optionally include a magnetic catcher disposed with the bottle opener that magnetically holds onto the bottle cap after the bottle has been opened. Such a magnetic catcher prevents the bottle cap from falling onto the ground outside of the utility cart, or falling into the inner container in embodiments in which the bottle cap opener is disposed on the underside of the lid.
Theinternal panel22 of the utility cart, which acts as the floor of theupper container26 and the ceiling of the lower container, may include adrain hole62 defined therein, which drainhole62 may be configured to provide passage from the upper container (insulated cooler) to the lower container (evaporative cooling system). Thedrain hole62 is a water drain port for permitting the resulting water from melted ice held in the insulated cooler of the upper container to drain out therefrom. The drain hole may have a drain hose attached thereto at the underside thereof located in the internal chamber of the lower evaporative cooler container. The drain hose permits the melt water from melted ice in the upper container to pass into the upper end of the drain hose and flow along the length of the drain hose where it exits at the lower end of the drain hose into the reservoir of the evaporative cooler. In alternate embodiments, the drain hose may be connected at its lower end to the water distributor, such that the ice-cold melt water flows from the insulated cooler of the upper container directly into the water distributor where it is immediately dispensed into the evaporative medium of the evaporative cooling system.
Theutility cart10 may also include a plurality of wheels orcasters68 affixed to the bottom side of the frame or the bottom of thefloor panel18 so as to permit easy movement of the utility cart. The casters orwheels68 may be swivel wheels or casters, locking wheels or casters, or any other type of caster, wheel, or the like that provides for ease of moving the utility cart.
In still alternate embodiments, as opposed to an insulated chest cooler, the utility cart may be configured as a tool chest or tool box80 as shown inFIG. 2 having an integratedevaporative cooling system82 disposed therein. In such an embodiment, theupper container84 may be configured as a tool chest having a plurality of sliding drawers86 and/or a hingedtop88, for storing hand tools and small electric tools, such as cordless or corded drills, circular saws, and the like. Thetoolbox84 may also contain a hinged lid coupled to a sidewall of the toolbox and/or a lock mechanism in communication with any of the lid and/or sliding drawers for locking any of the lid and/or drawers in a closed position. Such a toolbox would be useful for working in a garage, small shop, or the like, where both tools are needed and cooled environmental air is desired.
As with the utility cart configured as an insulated chest cooler previously disclosed, thelower container82 is configured as an evaporative cooling system. The same or similar features to those disclosed above for the evaporative cooler or any known evaporative cooler system may be provide therein. However, in alternate embodiments, the utility cart may be divided such that the evaporative cooler may be positioned in a side-by-side configuration with respect to the tool chest (or with respect to the chest cooler in embodiments wherein the chest cooler is the upper container), or have any other fractional or positional configuration between the first and second containers without departing from the scope of the present disclosure.
Theupper container84 that forms the toolbox includes one or more drawers86 for storing tools and other items. The drawers86 may include a plurality of drawer glides disposed between the sides of the drawers and the interior of the toolbox to facilitate easy sliding or gliding of the drawers between an open and closed position with respect to an outer cabinet of the toolbox. The toolbox may further include a fold-up, retractable, or removable shelf to use as a work surface with the toolbox.
Furthermore, in embodiments containing apower source90 necessary to power theevaporative cooling system82, the toolbox may further include anintegral power strip92 disposed in asidewall94 thereof. Thepower strip82 may be disposed on either the exterior or interior surface of a sidewall, or the power strip may be disposed in a slot defined through a sidewall of the upper container that forms the cabinet of the toolbox. In embodiments wherein thepower strip92 is affixed to the surface of a sidewall of the toolbox, thepower strip92 may be configured such that the electrical outlets disposed therein are accessible from either the outside of the toolbox or the inside of the toolbox, depending on the placement of the power strip. In embodiments in which thepower strip92 is positioned in a through slot in the sidewall of the toolbox cabinet, the power strip may be selectively rotated to face inward or outward with respect to the toolbox to provide access to the electrical outlets from either the interior or exterior of the toolbox.Switches96 for thepower strip94 and/or for theevaporative cooler82 may be provided on the cart, such as at thepower strip92.
As shown inFIG. 3, thetoolbox100 may include an integrated audio system102, such as a stereo system, disposed therein, and one or moreintegrated speakers104 disposed in a sidewall or lid thereof, both powered either by the power source that powers the evaporative cooling system, or a second, alternate power source. The stereo system102 may include aradio component106 having AM/FM radio and/or satellite radio functionality and a CD player, as well as various integrated connections or docking ports108, such as for USB, firewire, MP3 players, Bluetooth, or other wired or wireless connection, to permit MP3 playback from any of a dedicated MP3 player, computer, smartphone, or other electronic device. Thetoolbox100 may further include charging capability for a phone, MP3 player, computer, or other such electronic device by USB or other corded or wireless connection, either directly from thepower strip110 or from an alternate connection directly to the stereo system.
The tool box ortool chest100 hasdrawers112 for storing tools such as wrenches, screwdrivers, or other tools that may be used while the user is listening to music or other entertainment from the audio system. The lower portion of the tool chest, indicated in abbreviated fashion in this view, contains theevaporative cooler114 to cool the area around the tool chest and audio system.
In either of the toolbox or chest cooler embodiments disclosed herein, or any other alternate embodiment, the utility cart may also be operated by remote control. For an embodiment of the utility cart configured as a toolbox, a remote control may be used to control all functional aspects of the stereo, such as turning the stereo on/off, selecting the audio source input, adjusting the stereo volume, changing the audio equalizer settings, and any other such functionality associated with a stereo. For any and all embodiments herein disclosed or contemplated, the remote control may control any/all operational aspects of the evaporative cooling system. Such controllable aspects may include, but are not limited to: selectively turning the entire evaporative cooler system “on”/“off;” independently turning either the fan/blower or the water circulation pump “on”/“off;” adjusting the fan/blower speed in the system, thereby changing the air flow volume and/or air output temperature of the system; and any other operation aspect of the evaporative cooler system disclosed herein. In operation, the entire evaporative cooling system may be turned on by the remote control. Alternatively, the water pump may be powered on first to pre-soak the evaporative medium prior to running the full system. Furthermore, the fan/blower may be turned on without the water pump running, so as to use the system as a typical fan to achieve airflow, as opposed to generating an evaporatively cooled airflow.
In still further alternate embodiments, the upper container may be divided so as to be both an insulated beverage cooler as previously described herein, as well as a tool box as previously disclosed herein, with an evaporative cooling system still being disposed in the lower container, without departing from the scope of the present disclosure.
In still alternate embodiments, the utility cart may be configured as a garden cart, with the second container (or upper container), being configured to carry, hold, or display a plurality of gardening tools and or consumables. In one embodiment, the upper container may have a plurality of drawers, pull out trays, tool hooks and holders, and/or deep containers for holding tools, plants, and consumable supplies.