This invention relates to covers, and more specifically, to adjustable size and shape, openwork, faux foliage-adorned covers to provide an aesthetically appealing appearance to unsightly objects such as outdoor utility boxes, air conditioner condensers and garbage containers.
Owners take pride and go to great effort and expense in providing aesthetically pleasing outdoor appearance for their residential and commercial real properties. Typically they establish well-kept lawns, shrubs, landscaping and other horticultural effects as well as tasteful ornamental design to developed structures.
It is often necessary to place utilitarian objects such as air conditioner condenser units, and trash containers on these properties. Frequently the industrial service aesthetic of such objects is inconsistent with the exterior image of the property that the owner strives to create.
A common solution to this problem is to conceal the unsightly objects from view with pleasing barriers such as plants or fencing. This solution often has shortcomings. Live plants may be expensive, require care and attention, and occasionally may not be possible to cultivate due to local environmental conditions. Fencing may also be expensive and may block service access to the shielded objects and make ongoing maintenance of nearby landscape more difficult.
Many fabricated devices that include use of artificial or simulated foliage to block from view aesthetically displeasing objects have been suggested. Among these are the following.
U.S. Pat. No. 3,170,587 to Beeber discloses devices for concealing and supporting refuse receptacles comprising a panel ornamented to simulate a fir tree or shrub.
U.S. Pat. No. 3,928,712 to Sears discloses a post terminal having a wire support frame with simulated foliage attached to the frame. The post terminal is configured to mount over an existing utility terminal enclosure to conceal the terminal.
U.S. Pat. No. 5,989,656 to Solomon discloses a container cover with foliage to aesthetically cover a container.
U.S. Pat. No. 6,807,782 to Forman et al. discloses a decorative wall having a flat surface indicia or images printed thereon which hides residential equipment.
US Patent Application Publication 2006/0165931 of Gaulrapp et al. discloses a fabric cover for installation on utility boxes and having a non-projecting pattern that functions to reduce the visual impact of the utility boxes on the surrounding landscape.
U.S. Design Pat. D492,758 to Burbridge discloses an ornamental design for surfaces of an air conditioner/heat pump unit.
Conventional solutions to this problem also suffer from drawbacks such as being costly, flimsy, and customized for particular shapes of objects to be hidden. It is desirable to have an aesthetically pleasing way to conceal unattractive objects that is durable, requires minimal maintenance, and which is made of synthetic materials yet closely simulates the appearance of natural foliage. Furthermore, there is advantage for a device that can easily be adapted to effectively shield many differently sized and shaped objects.
Accordingly, the present invention provides a cover for shielding an object from view comprising a skeletal frame comprising (i) an elongated, substantially horizontally oriented top rail positioned at an elevation above the object, (ii) an elongated, substantially horizontally oriented bottom rail positioned below the top rail, and (iii) a plurality of elongated, substantially vertically oriented studs spaced apart along the rail lengths and rigidly connecting the top rail with the bottom rail, and (iv) a plurality of elongated, substantially vertically oriented rods extending from the top rail to the bottom rail and positioned laterally apart from each other, each rod bearing artificial foliage, in which the top rail and bottom rail at least partially surround the object such that the cover blocks view of the object from at least three orthogonal horizontal directions. Optionally, the novel cover further comprises a screen layer of fine mesh material having apertures of size at most about 0.25 square inch, said screen layer being affixed to the rails and covering an area extending in areas of the vertical faces of the cover between the top rail and bottom rail along the rail lengths
The entire disclosures of every U.S. patent document identified in this application is hereby incorporated herein. The term “substantially” as used herein to characterize a property such as “horizontal” and “vertical”, means that the orientation of the referenced element is not restricted to being absolutely horizontal or vertical but may diverge either slightly from horizontal or vertical, or may be largely horizontal or vertical with relatively small portions of the whole deviating even significantly from horizontal or vertical, as the case may be. In the drawings, like parts shown in different figures are identified with the same reference numbers.
The novel utility equipment cover can be understood with reference to
A cap 15 is shown in
Various techniques can be employed to position the cap. For a suitably stable, substantially flat and preferably motionless object, the cap can simply rest upon the top of the object. The cap can optionally be clamped in place by sets of opposing clamps affixed to the cap near the rim and extending downward. The clamps can then be moved inward with conventional mechanisms such as threaded bolts, for example, to bias against the sides of the object. Other options include fastening the cap directly to the top of the object for example with screws. This method has a disadvantage that disassembly of the fasteners is required to gain access to the object from its top. In certain embodiments of the cover more fully described below, the cap is not affixed to the object so that the whole cover or an upper, lid portion of the cover can easily be lifted from the object for inspection or maintenance inside.
The exposed, outer surface of the cover is a flexible shell 30 of openwork material 31 and artificial foliage 32, as seen in
The openwork material 31 is a flexible yet strong and weatherproof mesh with heavy duty strands and significant voids between the strands. The material can be elastic. The flexibility property is to provide enough compliance to enable the cover shell to bend around curves of the cover skeleton, such as the 90 degree curvature between the vertical faces to the horizontal cap of a cover for a box-style air conditioner condenser such as shown in
The foliage density should be high enough to conceal the object from view and to simulate appearance of natural shrubs. A substantial number of foliage elements may be needed to be deployed. For good effect, the cover should also block view of the skeleton of the cover, i.e., the rails, studs, cap etc., as well as the underlying unsightly object. Strands of the openwork material can contribute to the blocking property but the mesh should not be so small as to adversely affect air flow through the cover. The equipment being concealed such as an air conditioner condenser unit usually has manufacturer-specified limits of low intake air flow through the unit case. The openwork material voids should not be so small that the passage of air through the shell, including the foliage, is less than the covered equipment ventilation specifications. Moreover, the mesh voids should be large enough to permit attachment of the foliage pieces. Preferably the nominal mesh voids will be in the range of about ½ inch-2 inches.
The openwork material of the shell can be attached to the skeleton rails, studs, rods etc. using any conventional fastener system. Typical fasteners include wire/cable ties, hook and loop fasteners, elastic cords with hooks, and hose clamps. It is contemplated that the edges of the openwork material can be held to the rim by hooks connected to the openwork material by short lengths of elastic mechanism such as elastic cord or spiral metal springs. The hook and elastic connector method can be used to great advantage to draw the shell over the top of the cap and securing the hooks to the lip of the hole in the cap. When the concealed object includes an exhaust fan with an integrated wire grid fan protection grate, the hooks with elastic cords can be conveniently hooked over the fan protector wires.
Preferably, the cover should not contact the outer surface of the concealed object and there should be a gap of at least 4 inches between the object and the inside of the cover. The novel cover can include an optional, second filtration layer of fine screen inside the cover, that is, between the shell and the concealed object. The filtration layer is intended to keep dirt and debris, such as lawn mowing clippings and fallen leaves from fouling the object. Because the object will normally be out of sight under the cover, it will not be as easy to check that the surface of the object is clear of debris as would be if the object were exposed. The filtration layer should have a mesh with opening size of at most about 0.25 square inches but should not be so fine as to excessively restrict access of ventilation air to the object.
The foliage can be any type of artificial foliage well known in the art. The individual elements can be artificial leaves, flowers, vines, fruit, fronds, stalks, ivy and the like, preferably selected for appearance that simulates foliage complementing the particular environment near the concealed object. The foliage elements can be attached to the openwork shell material individually or the elements can be strung together as in a garland form and the strings of garland affixed to the shell. An example of a typical artificial foliage element suitable for use is a simulated pine branch disclosed by U.S. Pat. No. 3,647,605. It comprises a short length of twisted wire core which retains plastic bristles or “needle-like” leaves. The short length is preferably bent in half in a U-shape and the valley of the “U” can be affixed to the strands of the openwork material, for example by wire wraps. A representative openwork shell material according to this invention is represented in
In a particular embodiment illustrated in
In a particularly preferred embodiment, stiff rubber hose can be used to extend upward from the studs, curve inward across the cover to form an arched canopy frame for the cover. Such a skeleton is shown schematically in
Additional details which provide particularly advantageous features of the novel cover can be understood with reference to
As seen in
In another contemplated embodiment, the rails comprise segments of rail lengths that span between adjacent studs. At each end of the segments are short tubular sleeves adapted to slide vertically on the studs. Thus the height of the rails can be adjusted as a unit by loosening a set screw through the sleeves anchoring the sleeves to the studs, raising or lowering the segment of rail, and retightening the set screws at both ends of the rail length segment.
Any other conventional extension and locking mechanism can be used for this function. For example, components 40 and 41 can have mutually mating threaded ends such that one component screws up or down into the other. Another height adjusting technique contemplated as suitable for this purpose is to have a series of holes drilled at different heights through one stud component and a single hole drilled through the mating stud component such that raising or lowering one component in the other causes particular holes to align and permits inserting a pin to lock the alignment and height of the stud.
It has been noted that a preferred application for this invention is to cover air conditioner condenser units. Such units are commonly mounted on pads erected specifically to hold the unit. More recently, condenser pads are being fabricated as pre-cast plastic platforms. It can be desirable to mount the novel cover on the pad of the unit. Accordingly it is contemplated to provide for the cover plastic or concrete pads with mounts for the cover. In one embodiment the pad can have pre-formed pedestals prepositioned to meet feet of the cover. In another embodiment the pad can have prepositioned cup-shaped receptacles into which cover feet can be inserted.
Still further and similar to the stud construction, the segments of the rails are adjustable in length by telescopically extending a rail member 50 with a mating rail member 55. When the desired length of overlapped rail members 50 and 55 is achieved, the length can be locked by conventional means such as by tightening set screw 56. Each pair of rail members can be adjusted in the same way. This feature enables the lengths of the segments between neighboring studs to be extended or contracted and thereby permits a single cover to fit objects of different footprint area sizes.
Each of the length and angle adjustments for studs and rail members are reversible (i.e., locked to hold condition until unlocked). Thus a kit containing multiple rail members and stud components of standard size can be used to assemble component parts in a way that creates a suitably fitting skeleton of a cover for an object of particular size and shape. The lengths and heights of the components can be fixed by locking the rigid and stiff members in relative position with clamps, set screws, etc. as just described. Later as the need might develop, the skeleton can be disassembled or adjusted by unlocking the length and height adjustments (that is, reversing the locking steps). Later still, the same components can be re-used by adjusting lengths, heights and positions to surround and conceal a different object of different shape, height or footprint area size. Advantageously, the components are interchangeable and additive with other parts from cover kits of standard sizes. Thus covers can be constructed for generally any size or shape of unsightly object by combining adding rail members, joints, and/or studs.
Bowing of the rods is further illustrated in
The rods can be tubular (that is, hollow) or solid. The rods should have enough ductility that they can be bent to at least an obtuse angle (greater than about 90 degrees) without breaking or permanently creasing at the bend. Preferably the rod material is sufficiently elastic such that when compression is released, the rod returns to substantially its original straight conformation. It should also have adequate stiffness to retain its new conformation under ambient stresses to which the cover is subjected during normal use. Representative solid rod material includes thick aluminum or galvanized metal wire, plastic dowels such as fiberglass of about ⅛-½ inch in diameter, and stiffly bendable plastic strips about ⅛-⅜ inch thick and about ½-1 inch wide.
Preferably the rods are installed inside the shell and the openwork shell material is affixed to the rods at one or more positions along the length of each rod. The rods can be attach to the rails by various methods such as with wire ties, screws or bolts, and opposing cup-shaped brackets that can be applied to each rail so as to receive the rod ends. Another contemplated technique is to provide bores or slots drilled into the rails at various longitudinal positions and being operative to accept the ends of the rods. The rods can be supplied to the cover user in standardized excess lengths which are able to be cut to appropriate size for a particular cover application. It is not considered essential that the rods be bent to a non-linear curvature for use according to this application. They may be used in straight line conformation as shown in
It is contemplated that a “starter” kit containing a standardized quantity of studs, rail members, cap material and shell material can be provided as a unit. This standard kit will be suitable to cover an object within a selected general size range. Supplemental parts can be obtained by the user if needed, and/or additional and larger kits can be combined in whole or in part to expand the coverage provided by the starter kit as the user might require.
To accommodate objects of various sizes, the shell material can be supplied in rolls in a range of different standard widths. Once an appropriate skeleton of rails and studs is assembled, the shell material can be cut to size from stock rolls and attached to the skeleton. As mentioned the shell material has sufficient flexibility that it can conform to the curvature demanded by the skeleton. In one embodiment, the shell material can be installed in a single piece extending from the bottom rail, upward along the sides of the cover, curving over the top rail rearward toward the back, hidden side, of the object onto the cap. This type of construction advantageously gives a much more rounded, and therefore natural appearance of the cover at the sharp angle between the vertical sides and typically flat horizontal cap exemplified by an air conditioner condenser unit such as A in
In another embodiment, the cap 60 (
In another contemplated embodiment, the object A air conditioner condenser can have its own guard, usually a coarse, strong and rigid wire mesh spanning over the exhaust port as a safety precaution to prevent people from reaching into the port while the fan operates, for example, to clean away debris that might have fallen into the condenser unit. Typically such guards are attached by prongs on legs of the guard that insert into holes in the top surface G of the condenser near the exhaust port adapted to mate with the prongs. For such an installation, the novel cover can have a cap 60 that optionally includes prongs (not shown) extending from the sleeve end 64 that can be used to anchor and further stabilize the cap on the object. That is, the existing fan guard is removed and the cap is placed on top of the condenser unit A with cap sleeve prongs inserted into the holes. In this embodiment, the cap can have its own integrated safety screen spanning the hole 63 to prevent accidental reaching into the condenser.
The cap can sit on the top surface of the concealed object and maintained in position by gravity and/or by attachment to the top rail members. In a preferred embodiment the cap is clamped to object. Any of various clamp types well known in the art are suitable for use.
In another embodiment shown in
Conventional mechanisms known in the art can be used for the pivotable joints 85. For example, the joints can include a pair of spaced apart tabs 88 and an axle 89 passing through the tabs and the strut providing a pivot axis for the strut. The elevation of the strut end 86 can be fixed by a locking component of the joint. For example, a well known technique for applications such as this includes providing a first set of narrow, acute angled furrows on an inside face of a joint 85 in which each furrow radiates outwardly along the joint face from the pivot axis. There also is a second set of furrows on the strut end within the joint and facing opposite the first furrows. The first and second furrows are sized to mate. When the strut is raised to a desired elevation above the cap top, the tabs 88 are compressed against the strut end within the tab causing the opposing furrows to engage. The angle can be adjusted by releasing compression between tab and strut end, thereby freeing the furrows to rotate relative to each other, moving the strut to a different elevation and then re-compressing the tab against the strut to lock the furrows. Such connectors are found in many known utilities, such as elevating antennas and rods on marine vessels, to name one by way of example.
The openwork material of the shell can be attached to the ends of the struts 83 and/or at any one or more positions intermediate the ends of the struts. The material can be attached with wire ties, staples, or other like fasteners. The placement of struts illustrated in
In another exemplary embodiment of the how the openwork shell material can be supported on the cap is understood with reference to
The struts can be locked to the cap by any of the well known means in the art. For example, the pegs can have spring-activated spheres 99 within sockets having slightly smaller diameter windows. The springs bias the spheres outwardly against the windows such that the overall distance 101 from the tip of the sphere and the opposite side of the peg is larger than the diameter of locator holes 97. As the peg is inserted through a locator hole 97, the sphere detents into the socket allowing the peg to fully insert. When the peg is fully inserted, the sphere is released by the wall of the locator hole and resets to distance 101 thereby preventing the peg from backing out of the locator hole. The struts can have hooked inner ends 98 adapted to mate with the support ring 92 and further secure the struts in place. Outer ends 105 of the strut can clamp to the top rail of the cover skeleton using any well known fastening technique.
The post can have telescoping construction similar to that described for the studs. For example, the post 115, can have plural tubular sections 120,121 adapted to telescope within each other with the degree of telescoping adjusted by screwing one section into the other or similar well known methods. Hence the post can be height adjustable to raise and lower the cover as may be needed by the terrain, the object or the aesthetics of the local environment to most pleasingly conceal the object.
In a preferred embodiment, the head of the post 115 and the rim 118 of the cap are joined by one or more brackets. Preferably the rim is affixed to the bracket at the rear of cover. More preferably the bracket is a hinge 124 adapted to pivot about a horizontal axis such that the cover can swing upward or downward in the direction of arrow 125. With this feature, the cover including the whole openwork shell, the cap and the skeleton of rails and studs can be lifted high as seen in
In a further embodiment shown in
In another embodiment as understood with reference to
Typical objects that can be shielded by the novel container include air conditioner condenser units, telephone and electric utility access cabinets, satellite dishes, outdoor utility meter stations, furnace air intake and exhaust pipes, swimming pool filtration equipment, trash containers and the like. The ability accept ornamentation of natural-looking shrubbery and to conceal such utilitarian objects such that the concealed object blends aesthetically with the surrounding environment can be appreciated by inspection of a novel utility equipment cover 102 deployed in
An especially preferred embodiment of the novel utility equipment cover can be understood with reference to
The sprigs are positioned along the length of the stud and apart from each other. The density of sprigs is intended to spread faux foliage over the outer area and top of the novel utility cover such that the view of the concealed object A is obstructed. However, the number of rods, sprigs, branches and leaves should not be so great that excessively dense faux foliage restricts ambient air flow necessary for proper operation of object A.
Typically, the branches of the sprigs are about ⅛-½ inch in diameter and about 2-6 inches in length. Overall size of the sprigs from the end of the branch at connection to the rod to tip of farthest branch from the rod is about 6-24 inches. Many of the sprigs will cover the front and sides of the framework formed by the rails, studs and rods. That is, they cover the vertical faces of the novel utility equipment cover. Special, relatively long, and preferably flexible, sprigs 230 are disposed near the top of the rods 222. These special sprigs extend upwardly over the top rail 11, covering the upper areas of the cover faces, and then bend substantially horizontally toward the inner hole 19 (
Another distinction from previously disclosed embodiments is that the novel cover may not have a cap 15 in which case the special sprigs can connect directly to the guard of the top surface G of the concealed object or may bridge across the fan opening on top of object A and connect to each other. For example, the branched tips of the sprigs can be fastened with twist ties, plastic cable ties, sheet metal screws, elastic cord and hooks, and the like.
Although this embodiment has no coarse mesh openwork material, it does optionally include a screen layer 221 of fine mesh material mounted inside the rail and stud framework of the cover. The screen layer should have a mesh opening size of at most about 0.25 square inches to protect against intake of debris, dust and dirt into the equipment being concealed, such as air conditioner condenser units. However, the fine screen layer mesh openings should not be so small as to excessively restrict access of ventilation air to the equipment behind the cover.
The fine mesh screen layer provides a concealment purpose in addition to its air-entrained dust, dirt and debris filtration capability. Because the artificial foliage in this embodiment is mounted to the rods constituting the frame of the cover, it is likely that some of the concealed object A can be observed through gaps in the foliage. This can occur more prominently when the foliage density is low, i.e., when there are fewer branches and leaves per unit cover area.
Preferably the mechanism for mounting rods 222 to the top rail 11 and bottom rail 12 allows the rods to be placed laterally along the rails at varied positions. Thus the number of sprig-bearing rods and the density and placement of the faux foliage can be optimized to visually conceal and disguise object A. For example, the underside of top rail 11 and an upperside of bottom rail 12 can each have longitudinal grooves. The upper and lower extremes of the rods can have tongues that mate with the grooves such that the rods can slide laterally to any desired position along the rails.
Although specific forms of the invention have been selected in the preceding disclosure for illustration in specific terms for the purpose of describing these forms of the invention fully and amply for one of average skill in the pertinent art, it should be understood that various substitutions and modifications which bring about substantially equivalent or superior results and/or performance are deemed to be within the scope and spirit of the following claims.
This application is a continuation-in-part of application Ser. No. 12/099,693 filed Apr. 8, 2008, which claims benefit of U.S. provisional patent application No. 60/910,694 filed Apr. 9, 2007.
Number | Date | Country | |
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60910694 | Apr 2007 | US |
Number | Date | Country | |
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Parent | 12099693 | Apr 2008 | US |
Child | 12884333 | US |