The invention relates generally to flags and flag display devices and more particularly to a vertical flag display apparatus for displaying a flag in a vertical orientation generally parallel to a wall or other location.
There are many methods for hanging and/or displaying a flag currently known. The classic flag pole relies on a generally vertical pole fixed to the ground or other location with a flag attached to a rope apparatus that can be used to raise the flag from the ground to the top of the pole. Generally speaking, flags are rectangular in shape, having two short sides and two long sides defining the perimeter of the flag. Usually, one of the short sides is attached to the rope apparatus. Thus, when the wind blows, it causes the flag to extend outwards, such that the long sides of the flag extend parallel to the ground. The flag is then displayed for all to see. However, when the wind is not blowing, a standard flag display apparatus allows the flag to hang limply from the rope apparatus. Most of the flag is then folded over itself, causing the entire field of the flag not to be viewable.
Flags are basically two dimensional in appearance, comprising a sheet of fabric or other material(s) having a front face and a rear face, both faces surrounded by a rectangular perimeter having two opposite and parallel short sides and two opposite and parallel long sides. The faces display the field of the flag; usually the same field is displayed on both faces of the flag. The field can depict a design, a motto, an emblem, a picture, a phrase, one or more colors, combinations of the aforementioned items, etc. For example, the United States flag has a blue rectangle covered in 50 white stars in the upper left of the field and the remainder of the field has alternating red and white stripes. When a US flag is displayed from a standard flag pole and the wind is not blowing, the configuration of the items displayed in the field can be difficult to discern.
In order to overcome this deficiency in standard flag display devices, other types of devices have begun to grow in popularity. One class of devices holds rectangular flags in a rigid manner so that they extend out from a flagpole or other structure regardless of whether a wind is blowing or not. However, such devices give the flag a stiff, unappealing appearance and are not favored. Instead, many persons display flags in a vertical orientation where the long sides of the flag hang downwards and are perpendicular to the ground. Vertical flag display devices that can display a flag in this manner are varied; but generally, they have a spar or horizontal member which holds one of the short ends of the flag and allows the flag to hang vertically. A problem inherent in most such vertical display devices lies in the attachment of the flag to the spar. Nails, tacks, etc. are often employed which can damage the flag, especially with repeated use.
U.S. Pat. No. 6,402,116 to Northup attempts to overcome the above mentioned deficiency by employing a flag having a channel through which the spar (or dowel) is slid. The flag and spar are then inserted into a sleeve having a slit through which the flag can extend downwards. The sleeve has a threaded opening in its sidewall that accepts a threaded support pole. When the pole is screwed into the opening it places pressure on the flag and dowel, securing the flag to the dowel without puncturing the flag. However, this arrangement has a number of deficiencies itself. First, the end of the support pole that is pushing against the flag wears on the flag each time it is affixed to the sleeve, causing a wear spot to develop on the flag. Such a spot can eventually become a hole in the flag—exactly the problem that the Northup device was designed to avoid. Furthermore, in heavy winds, the dowel, flag and sleeve can be rotated by the wind relative to the support pole, causing the device to separate and the flag to be lost as the support pole no longer puts pressure on the flag. Finally, the Northup device also has no provision for securing the corners of the flag on the ends of the dowel such that a high wind can cause the loose corners to be pushed towards the support pole and the flag then ‘bunches-up’ making it difficult for an observer to see the entire field.
What is needed is a flag display apparatus that can hold a flag in a vertical orientation without damaging the flag and without the possibility of losing the flag in high winds.
One embodiment of the present invention is a device comprising a support bar, a flag spar, a flag pole, locking end caps, securing clips, and an attachment bracket. A vertical flag display apparatus can display various types of flags without damaging them. If the flag to be displayed has a sleeve on one of its edges, the apparatus can use a standard flag spar. The flag spar can be a rod, bar, or other tubular pole that is approximately as long as the sleeve of the flag. In other embodiments, the flag spar is longer or shorter than the length of the sleeve. The flag spar can be threaded through the sleeve so that the flag hangs down from the spar when the spar is held parallel to the ground. Each of the locking end caps then attach to an end of the spar in order to ensure that the flag can not slide off the spar. Securing clips can be placed on each end of the spar and function to hold the flag corners in place under high-wind conditions. The end caps then attach to each end of the support bar securing the spar to the support bar. The support bar extends generally parallel to and above the spar in one embodiment. The flag pole attaches to approximately the center of the support bar and extends generally 45 degrees downwards and perpendicular to the support bar. The flag pole is then placed in the attachment bracket and the bracket is attached to the side of a building or other location so as to hold the flag pole generally 45 degrees out from the side of the building and in an upwards orientation. Other angles besides 45 degrees are contemplated. The described device holds the flag in a vertical orientation so that it is parallel with the side of the building. However, as the flag is only in contact with the device along the length of the flag spar, the remainder of the flag is free to flutter and move with the wind.
If the flag to be displayed does not have a sleeve, the flag spar can be configured to securely hold an edge of a standard flag. Various mechanisms are contemplated including a clamp bar that holds the entire length of the flag to the spar. In another embodiment, the spar contains a channel in which the edge of a flag can be inserted and then the spar closes tightly on the flag ensuring that it is secured therein.
The aforementioned and other features and objects of the present invention and the manner of attaining them will become more apparent and the invention itself will be best understood by reference to the following descriptions of a preferred embodiment and other embodiments taken in conjunction with the accompanying drawings, wherein:
In the following discussion, numerous specific details are set forth to provide a thorough understanding of the present invention. However, those skilled in the art will appreciate that the present invention may be practiced without such specific details.
Referring now to the drawings,
The attachment bracket 110 illustrated in
The pole 120 has a proximal end that rests in the receptacle of the bracket 110. The distal end of the pole 120 attaches to the support bar 130. As illustrated in
The pole 120 is connected to the support bar 130. As shown in
The support bar 130 is shown in
At each end of the support bar 130 is a locking end cap 140 and 150. The end caps are designed to lock securely to the support bar 130 and receive and hold the flag spar 280. See the descriptions of
In order to mount a flag on the vertical flag display apparatus 100, the flag spar 280 is removed from at least one of the locking end caps 140 and 150 and the flag 190 is attached thereto. In the embodiment shown in
Once the flag 190 is affixed to the flag spar 280, the spar 280 is reattached to the locking end caps 140 and 150. In one embodiment, first and second locking clips 160 and 169 can then be secured over the flag 190 to ensure that the flag 190 stays in place on the flag spar 280 even in high-wind conditions. In other embodiments, other means of securing the flag 190 to the spar 280 can be used. In yet another embodiment, no means of securing the flag 190 are used.
The first and second accent caps 170 and 175 attach at either end of the flag spar 280 outside of the first and second locking end caps 140 and 150 in order to secure the flag spar 280 to the end caps 140 and 150. For additional descriptions of the accent caps 170 and 175, see
Once the flag 190 is properly secured to the vertical flag display apparatus 100, the pole 120 can be placed in the attachment bracket 110 and the flag 190 is then on display. As can be seen in
One locking end cap 250 is illustrated in
As illustrated in
The extension component 256 functions to adequately space the support bar 130 from the flag spar 280. This is done for appearances and to allow the flag 290 to be supported by the spar 280 without contacting and rubbing on the support bar 130. Furthermore, the spacing allows room for the locking clips 160 and 169 to secure the flag 290 to the spar 280.
The flag 290 illustrated in
The support bar cap component 342 connects the locking end cap 340 to one end of the support bar 130. In one embodiment, this is accomplished by sliding the support bar flange 343 in one end of the support bar 130. The fit between these two components is such that the locking end cap 340 is tightly held within the support bar 130. Additionally a locking spring button flange 341 also can be utilized; it slides into the support bar 130 as well. The sliding action forces the flange 341 downwards and causes tension as the flange 341 can be made of a springy, resilient material. When the flange 341 is fully seated within the support bar 130, a spring button pops up into a hole in the support bar 130 releasing at least some of the tension on the flange 341 and thereby securing the locking end cap 340 to the support bar 130.
The flag spar cap component 344 connects the locking end cap 340 to one end of the flag spar 280. This is accomplished by inserting one end of the flag spar 280 through the flag spar flange 345. The fit between these components can be made tight enough that no further securing means is necessary. However, in one embodiment, an accent cap 170 having an outside diameter greater than the inside diameter of the flag spar flange 345 can be attached to the end of the flag spar 280 effectively stopping the flag spar 280 from sliding back through the flag spar flange 345. For a more detailed description of the accent cap 170 see
The extension component 346 has two additional flanges as well. The first is a secondary support bar flange 347 that serves to further engage the support bar 130 and ensure that the locking end cap 340 is secured to the support bar 130. The second flange is the rigidity flange 348 which serves to provide strength and rigidity to the extension component 346. Other means of accomplishing these goals are contemplated.
Additionally,
A first locking clip 560 is illustrated in
Likewise, the flag spar 160 is depicted as being a cylindrical dowel, but can be shaped differently in other embodiments.
In one embodiment, the flag spar 280 comprises two or more sections that can be detached or separated from one another for ease of storage. Such sections can attach to one another via screw-type threads, shock-cords and male/female ends, telescoping and locking components, etc.
When fully assembled, the flag pole 120 is attached to the support bar 130. The attachment point is approximately the center of the support bar 130. In other embodiments, other attachment points can be utilized. In yet other embodiments, more than one flag pole 120 can be used to securely hold the support bar 130 in a given position.
In one embodiment, the flag pole 120 comprises two or more sections that can be detached or separated from one another for ease of storage. Such sections can attach to one another via screw-type threads, shock-cords and male/female ends, telescoping and locking components, etc.
Not shown in the FIGs. is an optional flag storage compartment that can be added to the apparatus to store and protect a flag 190 when it is not actively being displayed. In another embodiment, the flag spar 280 can be configured to rotate so that the flag 190 can be wound around the flag spar 280 and the storage compartment can be extended down from the support bar 130 to enclose the stored flag 190 and the flag spar 280. As an example, the rotating flag spar 280 can act in a manner similar to a window shade where the exposed end of a flag 190 is pulled to rotate the spar 280 and extend the flag 190 into displayed position. When the flag 190 is to be stored, a sharp downwards tug releases the roll-up mechanism allowing the spar 280 to rotate and roll-up the flag 190 into a stored position.
Also not shown in
It is contemplated that in some embodiments, the support bar 130 could be in close proximity to the spar 280 in order to securely hold the flag 190 between them.
The above specification, examples and data provide a description of the structure and use of exemplary embodiments of the described articles of manufacture and methods. It will further be understood from the foregoing description that various modifications and changes may be made in the embodiments of the present invention without departing from its true spirit. This description is intended for purposes of illustration only and should not be construed in a limiting sense. The scope of this invention should be limited only by the language of the following claims.
This application claims the benefit of U.S. Provisional Application No. 61/279,943 entitled “Improved Apparatus for Displaying a Flag Vertically” and filed on Oct. 28, 2009.
Number | Date | Country | |
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61279943 | Oct 2009 | US |