CROSS-REFERENCE TO RELATED APPLICATION n/a
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT n/a
FIELD OF THE INVENTION The present invention relates to a tower fan apparatus and more specifically to a vertical axis tower fan assembly having a telescopic support column.
BACKGROUND OF THE INVENTION Typical fixed-height floor fans are comprised of a base, support column, and a large, circular grill that encloses revolving fan blades. The fan is therefore at a fixed height, and though it usually provides an oscillation mechanism to allow the grill and fan blades to rotate thereby cooling an area in a region substantially in front of the fan, the height of the column is fixed. This limitation prevents a user from raising or lowering the column in order to cool a wider target region.
Floor fans of the type described above are also heavy and cumbersome, due to the large circumference of their grill. This is to contain the large fan blades therein. If a fan is manufactured with a smaller circumference grill, in order to provide a fan that is easier to maneuver and transport, the fan blades must be smaller, leading to a fan that may not sufficiently cool a larger area. If the fan blades are larger, a larger cooling region might be obtained, but the result is a fan that is large, unsightly and difficult to maneuver and/or transport. Finally, no matter how one may tilt the grill of the typical floor fan, there is an inherent limitation based upon the fixed height of the column supporting the grill. A non-adjustable column results in a fan that has a limited cooling range. A floor fan with a very long fixed column may cool a wider area but is ineffective for small target regions, i.e. cooling a person sitting at a desk. On the other hand, a floor fan with a short, fixed support column may be effective when targeting a small region and when it is placed on a desk or table, but is ineffective in cooling off a larger, or higher target area when placed directly on the floor.
Height-adjustable grill fans have limitations due to fact that grill fans do not direct the flow of cooled air in a specific, narrow region. The grill represents the fan “housing” and does nothing to direct the flow of air. Even though some grill fans may be manually raised or lowered, they lack the general effectiveness of tower fans, which provide a direct stream of cooled air to a specific, targeted region.
Tower fans provide the benefit of a streamline housing, which takes up significantly less space than typical circular grill fans, and also provide a concentrated stream of directed cooled air flow. Tower fans include vertical-axis propellers that rotate about an axis perpendicular with the floor. However, tower fans possess the same limitation as circular grill fans in that their height is restricted due to the fixed height of its support column. Typical tower fans with fixed-height fan blades project a narrow stream of cool air, but only to a limited target region. In order to target a greater region, the fan must be lifted and repositioned at a precise location in order to change the cooled target region. The user is without means to alter the height of the propeller blades with respect to the floor.
What is therefore needed is a tower fan with vertical-axis propeller blades that is height adjustable in order to provide a user with a quick and easy way to target a wide range regions that can receive cooled air.
SUMMARY OF THE INVENTION The present invention advantageously provides a tower fan apparatus with an extendable and retractable support column to allow a user to selectively adjust the column in order to vary and target a variety of effective cooling regions proximate the fan assembly.
According to one aspect of the present invention, a tower fan is provided. The tower fan comprises a height adjustable pedestal, a fan assembly rotationally coupled to the pedestal, and a housing enclosing the fan assembly.
In another aspect of the present invention, a height adjustable tower fan is provided. The height adjustable tower fan includes a base assembly, a height-adjustable support column extendable from the base assembly, a housing assembly rotatably mounted upon the support column, a vertical axis fan assembly enclosed within the housing assembly and rotatably mounted therein, and a motor assembly enclosed within the housing for actuating the fan assembly from an inoperative to an operative orientation. The height-adjustable support column has a first upper end rotatably coupled to the housing assembly and a lower second end insertable within the base assembly, the support column movable between fixed, retracted position and extended positions.
In another aspect of the present invention, a method of adjusting the height of a tower fan assembly is provided. The method includes the steps of providing an adjustable support column rotatably supporting a vertical axis fan assembly, the support column including an extendable member slidably insertable within a pillar member, retracting or extending the extendable member to a desired height, and locking the support column at the desired height thereby maintaining the fan assembly in a fixed position.
BRIEF DESCRIPTION OF THE DRAWINGS A more complete understanding of the present invention, and the attendant advantages and features thereof, will be more readily understood by reference to the following detailed description when considered in conjunction with the accompanying drawings wherein:
FIG. 1 is a perspective view of the tower fan assembly of the present invention in a retracted position;
FIG. 2 is a perspective view of the tower fan assembly of the present invention in a extended position;
FIG. 3 is an exploded view of the tower fan assembly of the present invention;
FIG. 4 is a front view of the motor housing and power supply subassemblies of the present invention; and
FIG. 5 is a front view of the decorative ring of the housing assembly of the present invention.
DETAILED DESCRIPTION OF THE INVENTION The present invention is a tower fan apparatus with a telescopic support column that allows for a user to selectively extend or retract the support column in order to raise or lower the fan such that an appropriate range of target regions may be reached. The apparatus includes a fan assembly having of a plurality of vertical axis propeller blades disposed around a spindle, wherein the spindle is rotatably mounted within a housing. The housing is supported and rotatably mounted on the adjustable column, which is itself supported by a base. Keypad control buttons situated on the top of the housing allow the user to selectively operate the fan and select from a variety of operating modes. Functions include activation of the fan, the activation of an oscillation mode, the activation of a timer, and the selection of propeller speeds and wind patterns.
Referring toFIG. 1, the tower fan assembly of the present invention can be seen.Tower fan assembly10 includes abase12, a height-adjustable support column14, and a verticalaxis fan assembly16 within ahousing18. The fan assembly includes vertical axis propeller blades situated around a spindle. The spindle is rotatably mounted within the housing, and when activated, spins about a vertical axis perpendicular with the floor.FIG. 1 shows the assembledtower assembly10 in a fully retracted position.Housing18, containingfan assembly16, may be raised or lowered by the manual raising or lowering ofcolumn14. This provides the user with the unique capability of directing the blades of thefan assembly16 at various target heights in a given area. In the orientation shown inFIG. 1, for example, asfan assembly16 spins about its vertical axis withinhousing18, cooling air may be directed towards a target lower to the floor at, for example, a person seated at a desk or sleeping in a bed, due to the retracted position ofcolumn14.
InFIG. 2,housing18 has been raised to its maximum height.Column14 can be seen in its fully extended position. This configuration may be beneficial to a user that wants to cool the air in a larger area, for example, in a room where people are standing. It should be noted here that housing18 (and therefore the propeller blades offan assembly16 therein) may be raised or lowered to any position between the fully retracted position (FIG. 1) and the fully extended position (FIG. 2) by raising or loweringcolumn14. This provides a wide range of target regions.Housing18 may also oscillate about its vertical axis via use ofkeypad controls46 located incover40 ofhousing18. Alternately a remote control unit may be used to control oscillation ofhousing18. The remote control unit may be stored beneath aretractable door48 in acover40 ofhousing18. The telescopic features ofsupport column14 will be discussed below.
It is within the scope of the present invention to provide a tower fan that may be supported by any substantially flat surface, such as a floor, table, nightstand or desk. Further, thefan assembly10 of the present invention may come in all sizes and dimensions, and may be made of any sturdy material. For example, thebase12,support column14 andhousing18 may be made of Polypropylene plastic or ABS Acrylonitrile Butadiene Styrene (ABS) plastic.Base12 may also be made of chrome plated aluminum or steel. The material that comprises the components ofassembly10 is not critical to the operation and function of the invention.
Referring now toFIG. 3, an exploded view oftower fan assembly10 can be seen.Base12 provides support forfan assembly10.Base12 includes anaperture19 into which the lower end ofcolumn14 may be inserted and secured.Base12 may also include weights embedded between its upper and lower surfaces in order to provide additional ballast to the base in order to prevent the fan assembly from toppling over due to the application of unwanted tangential forces to its upper portion. Screws or other securing devices may be used to fullysecure column14 withinbase12.Column14 includes of a number of components.Elongated pillar22 forms the lower section ofcolumn14. The lower end ofpillar22 is inserted into and secured withinbase12.Pillar22 is hollow and comprised of sturdy material such as steel or hard plastic.Pillar22 must have an inner diameter of sufficient size in order to receive bothelongated extension member24 and power cord26 (shown inFIG. 4). In an alternate embodiment,power cord26 exits not through the bottom ofbase12 but through the bottom ofhousing18.
Cover28 fits over the top ofpillar22.Cover28 is cylindrical and includes an aperture to allow for the insertion ofextension member24 and other components, includingpower cord26, intopillar22. A connectingflange30 is comprised of two components, a connecting cylinder31 and a connectingplug33.Plug33 fits overcover28 and receives cylinder31. Connectingflange30 allows for the connection betweenextension member24 andpillar22, which forms the prime components of thetelescoping support column14 ofassembly10.
Column14 includes a rotatable, cylindrical lockingsleeve32 that receivespillar22.Extension member24 is a hollow column with an inner diameter smaller than the inner diameter ofpillar22.Extension member24 is insertable withinpillar22 and freely movable therein. However,sleeve32 may be tightened or loosened to prevent or enable (respectively) movement ofmember24 withinpillar22. For example, whensleeve32 is turned and loosened,extension member24 may be moved downward, i.e. retracted further withinpillar22, thereby loweringhousing18, which containsfan assembly16. Additionally, withsleeve32 loosened,extension member24 may also be extended upward, i.e. extracted from withinpillar22, thereby raisinghousing18 andfan assembly16. After the user properly adjusts the height ofhousing18 in this manner,sleeve32 may be turned, in the opposite direction, and tightened aroundpillar22 thereby trapping the portion ofextension member24 that is withinpillar22. The result is thatmember24 remains fixed andhousing18, and thereforefan assembly16, becomes locked into a fixed, desired position.
Housing18 is comprised of afront enclosure34, aback enclosure36, a grill orfilter38, atop cover40, abottom cover50, and adecorative ring44.Bottom cover50 also acts as a support for amotor52, which drives thefan assembly16.Housing18 encloses a verticalaxis fan assembly16. Fan assembly is comprised of a plurality ofvertical axis blades51 about aspindle53. When activated, thepropeller blades51 offan assembly16 rotate about a vertical axis, which is perpendicular to the floor. Amotor52 is situated at the bottom ofhousing18 betweenfan assembly16 and amotor housing42 and is electrically connected to fanassembly16. Thespindle53 of thefan assembly16 is rotatably mounted withinmotor housing42. Upon activation,motor52 drivesfan assembly16, causing the spindle and blades to rotate about its vertical axis, withinhousing18.Grill38 is situated over an aperture withinhousing18. The aperture allows air to be cooled by thespinning blades51.Grill38 offers protection tofan assembly16 from unwanted debris, while at the same time preventing fingers or other objects from contacting theblades51 offan assembly16.Motor52 may be any type of motor capable of drivingfan assembly16 with enough speed to sufficiently cool a target area. For example, the specifications of a typical motor powerful enough to be used in the present invention may be 120 V AC, 60 Hz., 0.45 amps, 53 watts.
The speed of rotation offan assembly16 can be controlled via akeypad46 situated onhousing cover40. Electrically conductive wires connect the buttons ofkeypad46 to themotor52. In addition to controlling the speed of rotation offan assembly16, buttons onkeypad46 may also activate or deactivateassembly10, activate and deactivate the oscillation mode, activate and set a timer, and control wind patterns created byfan assembly16. During oscillation mode, thehousing18 itself rotates back and forth about the top ofmember24 at pre-determined time intervals. During the wind pattern mode, a variety of varying fan rotation speeds may be programmed. A microcontroller, enclosed withinhousing18, receives input signals via thekeypad46 and controls the various modes of operation offan assembly16 andhousing18. AnLED display44 oncover40, receives signals from the microcontroller and allows the user to view and set the different modes of operation. Finally, cover40 includes adoor40 that can be opened and used to cover a compartment which can house, among other things, a remote control that can perform all of the operations of the manual keypad.
Turning now toFIG. 4, the motor and power subassembly of the present invention can be seen.Power cord26 extends down from the bottom ofmotor52 throughmotor housing42 and through the interior ofmember24 andpillar22 where it protrudes from its bottom ofbase12 for connection to an AC power source. Alternatively,power cord26 may exitmotor52 and exit from the bottom ofhousing18. Tighteningsleeve32 can be seen clearly inFIG. 4, enclosing a portion ofpillar22.Extension member24 can be seen protruding just abovepillar22, in a retracted position.Motor housing42 receivesmotor52 andfan assembly16. Housing18 (not shown inFIG. 4) completely enclosesfan assembly16, motor,52 andmotor housing42.Sleeve32 may be turned in one direction (for example counter-clockwise) in order to loosen the sleeve and allowmember24 to slide either up or down in relation topillar22, thereby raising or lowering thehousing18 andfan assembly16 therein. Turningsleeve32 in the opposite direction prevents further movement ofmember24 thereby lockinghousing18 andfan assembly16 at a fixed height.
It should be noted that the present invention is not limited to the tighteningsleeve32 described above as the only means of providing or prohibiting the height adjustment ofcolumn14. Other similar methods of achieving a telescopic relationship betweenmember24 andpillar22 may be used. For example, a cylindrical locking sleeve may encirclepillar22 and instead of twisting the sleeve to lockextension member24 at a fixed height, a lever may be pressed, that maintainsextension member24 withinpillar22.
FIG. 5 illustrates thedecorative ring44 that includes one or more LED displays45 about its periphery. Each LED represents a different setting for varying speeds, time designations, Sleep Mode, or wind patterns. As described, these settings may be set via use of the keypad controls46 incover40 or via a wireless remote control unit, preferably stored underdoor48 incover40.
To use the tower fan assembly of the present invention,assembly10 is placed in a desired location on a substantially flat surface such as the floor, a table, a night stand, a desk or the like. The user may then activate thefan assembly16 my pressing the desired button onkeypad26, or by removing the remote control unit from withincover40 and pressing the proper button. The user then loosenssleeve32 and raises or lowerscolumn14 by either raising or loweringhousing18 itself or by retracting or extendingextension member24. Oncehousing18 is at a desired height, the user twistssleeve32 in a direction opposite to the direction used for allowingextension member24 to retract or extend. This preventsextension member24 for retracting or extending further by applying pressure onpillar22, which, in turn, applies pressure againstextension member24. This applied pressure prevents any further movement ofcolumn14. The user may now activate any of the optional functions such as wind patterns and/or oscillation mode. If the user wants to redirect cooling air exiting thehousing18, he or she may simply repeat the steps above to readjust the height ofhousing18 to a new desired target area.
It will be appreciated by persons skilled in the art that the present invention is not limited to what has been particularly shown and described herein above. In addition, unless mention was made above to the contrary, it should be noted that all of the accompanying drawings are not to scale. A variety of modifications and variations are possible in light of the above teachings without departing from the scope and spirit of the invention, which is limited only by the following claims.