The present invention relates generally to billboards used for advertisement, promotional or informational purposes, and more particularly to billboards with three-dimensional display components.
It has been known in the prior art to add three-dimensional display components to conventional two-dimensional billboards by attaching a foam constructed or inflatable embellishment to the display side of a billboard, whereupon embellishment bulges outward from the remainder of the billboard's flat face to provide a three-dimensional effect. Previously, such installation involved installing a vinyl banner over the facing of a billboard support structure in a conventional manner, then lifting a separate three-dimensional embellishment up to the billboard and assembling suitable auxiliary structure to carry the embellishment on the plywood facing of the billboard frame. In the instance of a foam embellishment, the construction process involved custom-shaping and internally reinforcing a single-piece foam unit of substantial size, and spray-coating the finished foam to protect it from the elements once installed and provide it with the desired colour and appearance to achieve the intended aesthetic effect.
Applicant's prior U.S. Pat. No. 9,483,966, the entirety of which is incorporated herein by reference, disclosed a unique solution for inflatable 3D billboard embellishments, where the vinyl banner is equipped with strips of reinforcement webbing behind a two dimensional area of the flexible banner at which the inflatable embellishment is to be attached, and additional reinforcement webbing on the rear of an inflatable envelope is sewn through the banner into the reinforcement webbing on the backside thereof. Through such reinforcement, the banner itself, when stretched taught over the billboard frame, has sufficient structural integrity to support the inflatable embellishment, thus avoiding the need to directly mount the embellishment to the billboard support structure. The vinyl banner and flexible webbing can be folded flat for efficient transport, as can the flexible envelope of the inflatable embellishment, and no auxiliary structural support components are required.
The present application discloses a further alternative option for three-dimensional billboard displays that similarly enables support of the 3D embellishment purely on the vinyl banner without auxiliary support, but also avoids the need for air inflation equipment or internally reinforced and/or coated foam.
According to a first aspect of the invention, there is provided a three-dimensional billboard display system comprising:
a flexible sheet of banner material having displayed advertisement, promotional or informational content on a display side of said flexible sheet;
a two-dimensional footprint area on the display side of said flexible sheet that is discretely identifiable from the displayed content;
a flexible cover selectively fastenable to the flexible sheet in a position overlying the two-dimensional footprint area on the display side of said flexible sheet to enclose a three-dimensional space between said cover and said flexible sheet; and
one or more inserts forming, or positionable with one another to form, a three-dimensional body of predetermined shape that is placeable at the display side of the flexible sheet in an installed position overlying the two-dimensional footprint area to accept taught placement of the flexible over the three-dimensional body to impart the three-dimensional shape to said three-dimensional space and thereby provide the flexible cover with a three-dimensional form bulging outwardly from the display side of the flexible sheet to create a three-dimensional embellishment on said flexible sheet of banner material.
According to a second aspect of the invention, there is provided a three-dimensional billboard display system comprising:
a flexible sheet of banner material having displayed advertisement, promotional or informational content on a display side of said flexible sheet;
a two-dimensional footprint area on the display side of said flexible sheet that is discretely identifiable from the displayed content;
a flexible cover fastened to the flexible sheet in a position overlying the two-dimensional footprint area on the display side of said flexible sheet and enclosing a three-dimensional space between said cover and said flexible sheet; and
one or more inserts forming a three-dimensional body of predetermined shape inside the three-dimensional space, the flexible cover spanning in taught condition over the three-dimensional body, thereby imparting the predetermined shape to the three-dimensional space and imparting the flexible cover with a three-dimensional form bulging outwardly from the display side of the flexible sheet.
Preferably said one or more inserts comprise foam.
Preferably said one or more inserts comprise a first set of fastening elements thereon by which said one or more inserts are fastenable to the flexible sheet.
Preferably said flexible banner comprises a second set of fastening elements thereon for cooperative engagement with the first of fastening elements to secure the one or more inserts to the flexible sheet.
Preferably the first and second sets of fastening elements comprises hook and loop fastening elements.
Preferably said hook and loop fastening elements comprise flexible belts with mounting portions attached to a first one of either said flexible sheet or said one or more inserts and free portions movable relative to said mounting portions, and mating pieces attached to a second of either said flexible sheet or said one or more inserts for receiving said free portions of the flexible belts to hold said one or more inserts to the flexible sheet.
Preferably the flexible belts are attached to the flexible sheet, and the mating pieces are attached to said one or more inserts.
Preferably said mating pieces comprise elongated strips.
Preferably the flexible belts span across the two-dimensional footprint area, with the mounting portions residing within said mounting area and the free portions reaching beyond said footprint area at opposing sides thereof.
Preferably the mating pieces circumscribe multiple sides of the one or more inserts for mating of the flexible belts with said mating pieces in a manner wrapped around said multiple sides of the one or more inserts.
Preferably the flexible belts are fastened through the flexible sheet to reinforcement members on a backside of the flexible sheet.
Preferably said reinforcement members are flexible members foldable together with the flexible banner.
Preferably said reinforcement members comprise webbing.
Preferably said reinforcement members are arranged in a criss-crossing grid to define a mesh or netting.
Preferably the flexible sheet and the flexible cover comprise mating zipper teeth co-operable with one another to achieved zippered fastening of the flexible cover to the flexible sheet along a perimeter of the two-dimensional footprint area.
Preferably the one or more inserts comprise a plurality of inserts selectively connectable to one another to form the three-dimensional body, and separable to one another for transport and storage.
Preferably the plurality of inserts comprise paired inserts having matable male and female features thereon.
Preferably the mating male and female features define respective halves of a dovetail joint.
According to a third aspect of the invention, there is provided a method of creating a three-dimensional billboard display, the method comprising placing one or more inserts over a two-dimensional footprint area at a display side of a flexible banner such that the one or more inserts project forwardly from the display side of the banner with a predetermined three-dimensional shape, and securing a flexible cover to the flexible banner along a perimeter of the two-dimensional footprint area thereof in a position spanning over the one or inserts in a taught condition imparting said three-dimensional shape to said flexible cover.
Preferably the step of placing said one or more inserts comprises securing the one or more inserts to the flexible banner.
Preferably the method includes strapping said one or more inserts to the flexible banner.
Preferably the method includes strapping said one or more inserts to the flexible banner using flexible belts that are fastened to said flexible banner within the two-dimensional footprint area thereof.
Preferably the method includes strapping said one or more inserts to the flexible banner using flexible belts fastened through said flexible banner to reinforcement members attached to a backside thereof.
Preferably the method includes securing the one or more inserts to the flexible banner with hook and loop fastener material.
Preferably the method includes the one or more inserts comprise a plurality of inserts, and the method comprises assembling said plurality of inserts together to form the predetermined three-dimensional shape.
Preferably the step of assembling said plurality of inserts comprises joining said plurality of inserts together at mating male and female features thereof.
Preferably the step of joining said plurality of inserts together comprises joining together mating halves of a dovetail joint between said inserts.
According to a fourth aspect of the invention, there is provided a reinforced flexible banner for three-dimensional billboard displays, said flexible banner comprising a flexible sheet of banner material a front display side and an opposing rear side, a reinforcement layer attached to the rear side of the flexible sheet and comprising flexible reinforcement members foldable together with the flexible banner.
Preferably the flexible reinforcement members are arranged in criss-crossing fashion to form a mesh or netting.
Preferably said flexible reinforcement members have a greater tear strength than said flexible sheet of banner material.
Preferably said flexible reinforcement members comprise webbing.
Preferably the flexible reinforcement members include a set of flexible reinforcement members running along a height dimension of the banner so as to lie in upright orientations in an installed state of the billboard display, said set of flexible reinforcement members carrying installation loops at opposing top and bottom ends thereof to receive passage of mounting rods through said loops at top and bottom sides of reinforcement layer to enable tensioning of the flexible banner on a billboard support structure behind a display area thereof by use of ratchet straps connected to said mounting rods.
One embodiment of the invention will now be described in conjunction with the accompanying drawings in which:
In the drawings like characters of reference indicate corresponding parts in the different figures.
An outline 20 of a two-dimensional base footprint of the embellishment 18 is provided on the front display side 16 of the banner 12 at an area thereof that is unoccupied by the other advertisement, promotional or informational content 14. The footprint area 24 bound within the confines of the outline 20 denotes the portion of the banner 12 that will be concealed behind the embellishment 18 once installed on the banner 12. The footprint area 24, or at least the outline 20 thereof, may be printed or drawn on the front side 16 of the banner 12, for example being printed at the same time as the printed content 14 thereon. Alternatively, the footprint area 24 may be defined by a separate sheet of vinyl or other flexible material sewn or otherwise affixed to the front display side of the banner to form a discrete layer separate therefrom, in which case the outer perimeter of this separate sheet defines the outline 20 of the footprint area 24. In either case, but especially if printed, the footprint area 24, or at least the perimeter outline 20 thereof, preferably has a visually distinct color from surrounding areas of the banner's front display side 16 so that the footprint area is discretely identifiable from the other areas of the banner to serve as a visual guide for proper placement of the 3D embellishment during installation of the billboard. If the footprint area 24 is distinguished from the banner as a discretely separate layer, the additional color-based distinction of the area may not be necessary, but does provide for more readily apparent visual identification of the footprint area without requiring close, careful inspection of the banner.
With particular reference to
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A plurality of foam blocks 32 each have a front face 32a, an opposing rear face (unnumbered), and peripheral edges joining the front and rear faces together around the perimeter of the block 32. The rear face is flat, being intended for flush placement against the front side of the flexible banner 12 at the footprint area 24 thereof during installation of the foam blocks 32 at the billboard's installation site. The illustrated example features two foam blocks, each of which is also flat-faced at the front thereof and features front and rear faces of identical and aligned shape. The two foam blocks of this illustrated example are used to create a pill-shaped 3D body, for example for advertising a medicinal, vitamin, or supplement product, where assembly of the foam blocks 32 places their flat front faces 32a in coplanar relationship cooperatively forming a pill-like oblong shape. The equal thicknesses of the two blocks between their flat front and rear faces, as defined by the peripheral edges of the blocks, denote the protruding dimension by which the assembled blocks bulge forwardly from the flexible banner 12 when assembled thereon during installation of the billboard.
With reference to
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The peripheral shape of the three-dimensional body assembled from the foam blocks, at least at the flat rear face of the assembled three-dimensional body formed by the coplanar flat rear faces of the foam blocks, conforms with the outline of the footprint area 24 on the flexible banner. More specifically, the body's rear face is sized and shaped to closely match the zipper-bounded center area of the footprint area 24 on the banner 12 so that once the banner has been installed on the billboard support structure, the rear face of assembled three-dimensional body 38 can be conformingly placed within the zippered area to automatically align the three-dimensional body in the appropriate position and orientation on the banner. The flexible belts 30 and the fastening strips 40 are respectively positioned on the banner and the foam blocks so as to automatically align in respective pairs under such aligned placement of the assembled three-dimensional body on the banner.
Accordingly, to secure the three-dimensional body 38 to the installed banner, the blocks are fitted together at their matingly profiled peripheral edges 32b, 32c to assemble the three-dimensional body 38 in a puzzle-like manner. The flat rear face of the assembled three-dimensional body 38 (formed by the coplanar flat rear faces of the foam blocks) is then placed against the conformingly shaped zipper-bound central area of the banner's footprint area 24. At this point, the belts 30 are pulled snugly over the three-dimensional body 38 at the exposed peripheral edges and front faces 32a thereof, where the mating hook and loop fabric of the belts 30 and fastening strips 40 engage together, thereby securely strapping the three-dimensional foam body 38 to the banner 12. The inclusion of hook and loop fabric at the mounting portions 30a of the flexible belts and the rear faces of the foam blocks help initially hold the foam body 38 in place on the banner while the flexible belts are being wrapped over the foam body to further secure the installed position of same.
Strapped onto the banner, the foam body 38 is held in place solely by the belts 30 and hook and loop fasteners, which attach the foam body only to the reinforced banner, with no direct attachment of the foam body to the underlying billboard support structure. Accordingly, the blocks preferably have a pure foam construction free of any internal bars, rods or other reinforcements or rigid attachment components that would otherwise be required to fasten the body directly to the billboard support structure.
The assembled foam body 38 defines the overall three-dimensional shape of the billboard embellishment, but does not define the finished appearance thereof. Instead, a separate flexible cover 42 formed of a suitably weather-proof fabric is shaped for conforming placement over the strapped-on three-dimensional foam body 38. With reference to
The cover serves to both define this final exterior aesthetic of the 3D embellishment, and to protect the concealed foam body 38 from exposure to the elements, thereby avoiding the need to specifically paint, coat or otherwise apply finishing layers directly to the foam blocks 32. In the meantime, the internal foam body 38 is confidently strapped to the reinforced banner 12 by the belts 30, whereby the convenient, visually unobtrusive zippered connection of the cover to the banner is not borne with the physical load of the foam body inside.
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This is schematically illustrated in
The mesh 26 may be provided only at the embellishment carrying area of the banner, since this is where the extra reinforcement of the banner is required to carry the added weight of the 3D embellishment, in which case the tensioning of the mesh may be combined with other conventional means for attaching and tensioning the banner over the facing of the billboard structure to complete the installation of the banner.
The banner may similarly be installed on panel-less billboard display structures that lack a facing panel of plywood or other material, for example as are commonly used in hurricane prone regions where the plywood panels can be ripped loose in extreme weather conditions and become dangerous airborne projectiles. Such panel-less billboard display structures instead simply have an open framework delimiting a rectangular area over which the banner is similarly stretch out and secured in the same manner outlined above. The mesh/netting of the banner of the present invention thus forms an integral structural support for the 3D embellishment, whereby the present invention enables installation of 3D billboards on panel-less billboard structures that could not previously support conventional reinforced foam embellishments due to the absence of structural panels to which reinforced foam embellishment could be fastened.
Once the banner 12 has been installed in the above described manner, then the above described steps of installing the embellishment can be performed, for example, by on-site assembly of the foam blocks 32 to create the overall three-dimensional body 38, placement of the assembled three-dimensional body 38 against the discretely identifiable footprint area of the banner, strapping of the three-dimensional body 38 to the banner using belts 30, slipping of the cover 42 over the strapped-on three-dimensional body 38, zippered fastening of the cover 42 to the banner 12, and folding of the optional concealment flaps 46 over the zippered connection, all of which can be performed at ground level to fully complete the billboard assembly prior to lifting thereof up to the support framework at the top of the billboard support structure. Accordingly, the final installation step performed at the elevated framework of the billboard support structure is a simple one-step installation process of stretching and securing the flexible banner over the paneled or non-paneled display area of the framework. As an alternative, it is also possible to first install the banner, and then separately crane-hoist or otherwise lift the assembled three-dimensional foam body up to the installed banner, and then place and strap three-dimensional body thereon. However, pre-assembling the billboard at ground level is typically preferable from both an efficiency and safety standpoint.
Other than the banner itself, no component of the three-dimensional embellishment requires any fastening to the billboard support structure, and the hook and loop fastening of the belts and the zippered attachment of the cover can all be performed easily in a tool-free manner by an installer of any skill level.
The foam blocks 32, defining the inserts that impart the intended three-dimensional shape to the embellishment 18 once concealed within the external cover 42, are kept to minimal weight and ease of placement by omitting internal reinforcements, and are produced quickly and cost effectively without need for painting or other protective coatings. The illustrated embodiment uses multiple foam insert blocks 32 to assemble to the finished three-dimensional insert body 38, whereby the multiple blocks can be shipped more space and cost efficiently than a singular pre-fabricated body, particularly in the illustrated embodiment where the flat faced front of the embellishment means the blocks can be stacked atop one another in a balanced manner. However, it will be appreciated that other embodiments may use a singular foam body requiring no on-site assembly, while still benefiting from other advantageous aspects of the invention.
While the illustrated embodiment uses a gridded mesh or netting of reinforcement strapping at the rear side of the banner, other embodiments may use the rear-side reinforcement technique disclosed in Applicant's prior patent, referenced and incorporated herein in the background section above, where individual straps of webbing (as opposed to a meshwork or netting of interconnected strap) are instead attached to the rear side of the banner only behind the footprint area at which the embellishment will be installed.
Since various modifications can be made in my invention as herein above described, and many apparently widely different embodiments of same made, it is intended that all matter contained in the accompanying specification shall be interpreted as illustrative only and not in a limiting sense.
This application claims benefit under 35 U.S.C. 119(e) of U.S. Provisional Application No. 62/462,104, filed Feb. 22, 2017, the entirety of which is incorporated herein by reference.
Number | Date | Country | |
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62462104 | Feb 2017 | US |