The invention relates to the field of flags and other display devices; more particularly, it relates to an apparatus for a tethered display device.
Flags and display banners of some type have probably flown, unchanged, for over 5000 years. The conventional flag and banner design has two serious flaws: at low wind velocities, the flag or banner hangs limp or flutters listlessly around its pole; at higher wind velocities, the flag pops and snaps disagreeably, and frays and tatters the end of the flag, promoting relatively short useful life.
So far as I am aware, no one has ever adequately addressed either of these two problems. While there exist a variety of flag hanging apparati, and numerous approaches to dealing with flag drape and tangle problems, there has been no solution proposed for the problems identified above.
US-A-1,270,813 discloses a flag with two vertical panels at the outer edge, the two panels being connected at a top seam and a bottom seam. The panels and seams defined between them a plurality of pockets which extend horizontally and are stacked vertically when the flag is extended by the wind. GB-A-2,237,674 discloses a flag with a wind sock attached along its upper edge. US-A-1,725,250 discloses a flag pole with a plurality of holes in the vicinity of the position of a raised flag. The base of the flag pole includes a fan which expels air through the holes thereby causing the flag to wave.
What is needed is an improved flag or banner device that, when tethered to an appropriate pole or other anchor, catches or makes use of low velocity wind to fly the device out fully and majestically, while it also stands up to higher velocity winds without snapping or fraying.
Accordingly, it is an object of the invention to provide an improved flag or display banner device that, when tethered to an appropriate pole or other anchor, catches or makes use of low velocity wind to fly the device out fully and majestically.
It is a further object of the invention to provide an improved flag or display banner device that, when tethered to an appropriate pole or other anchor, flies in higher velocity winds without snapping or appreciable fraying.
It is another object of the invention to provide a tethered display device, such as a flag or banner, that makes use of a tubular channel integral to the device and made of vertical panels and top and bottom seams that catches and directs low velocity wind to fly the device.
It is another object of the invention to provide a tethered display device, such as a flag or banner, that makes use of an relatively soft airfoil in a tubular channel, both integral to the device that provides lift to the device so that it flies in low winds.
It is yet another object of the invention to meet any or all of the needs summarized above.
According to the invention in order to achieve the aforementioned objects, there is provided a display device comprising at least two vertical panels connected at a top seam and a bottom seam, the panels and seams defining between them a plurality of tubular channels, and further comprising at least one soft wing-like airfoil horizontally disposed between the two vertical panels, the airfoil defining in part at least one of the tubular channels, wherein an airflow over the airfoil imparts an aerodynamic lift to the airfoil.
The invention represents the first tethered flag or display device that will fly in very low winds, or, with optional windpole, no wind at all. Application of the invention to the needs expressed above is especially beneficial in that the invention is the only system that effectively provides both low wind flyability and high wind stability.
The invention provides in one embodiment a tethered display device with at least two vertical panels connected at a top seam and a bottom seam. The panels are preferably cloth or other soft and flexible material. The panels and seams define at least one tubular channel through which air can flow. The two panels can simply be sewn at top and bottom edges to create the channel, or optionally the panels can be connected, such as by sewing, by a top panel and a bottom panel of some suitable width. Because the vertical panels, and top and bottom panels if any, are soft, the device can still "flutter" in a breeze. Preferred devices will take care that they do not therefore become "engorged" with wind (like a conventional windsock), and so eliminate or undermine their ability to so flutter. One way to avoid such engorgement is to fashion the devices without appreciable taper, or other like end attenuation, so as not to "trap" the wind.
In preferred embodiments there are multiple channels in each device. Preferred embodiments will also have at least one soft airfoil horizontally disposed between, and connected to, the two vertical panels. In the simplest airfoil embodiment, the airfoil defines two tubular channels, the one above the airfoil and the one below it; in each airfoil embodiment, an airfoil so defines in part at least one of the tubular channels.
In some embodiments there are multiple airfoils. The multiple airfoils can take the form of a single layer of multiple horizontal airfoils, arrayed more or less in "waves" from opening to outlet of the device. In other embodiments, a plurality of horizontally disposed airfoils may be vertically stacked (like a biplane's wings) with respect to each other.
In some embodiments, an airfoil is otherwise unsupported and is air filled (like a sail), and may optionally and advantageously have a permanent 'attack angle' 'sewn in' or otherwise fixed. In other embodiments, there are airfoil fasteners at one or both edges of the airfoil, and the fasteners connect the airfoil to the vertical panels so that the airfoil shape is determined by its fasteners, regardless of whether the foil is 'filled' or not. This fixation and connection helps spread out the lift imparted to the device and prevents an 'end lift only' phenomenon, which can cause undue bending of the foil itself and so cause collapse of the foil and loss of lift.
The airfoil may be directly fastened to the vertical panels such as by sewing or stitching, or by use of grommets or the like, as will be appreciated by those skilled in the art. Alternatively, the airfoil may be indirectly fastened so that the airfoil has at least one edge connected to a vertical panel by a plurality of strings, threads, or other soft connectors as will occur to those skilled in the art, each string having differential lengths cut in advance to suit the filled shape of the foil.
Optionally, the vertical panels themselves are cut with a fullness that allows them to serve as foils themselves so as to provide a 'lift' effect normal to the panels, thus to spread the panels and to laterally tension the horizontally disposed airfoils. This may be necessary in specialty higher wind applications, where high velocities through the channels tend to so reduce channel internal pressure, so that the panels might otherwise tend to collapse inwardly on themselves and the airfoil(s). In such embodiments, the horizontal airfoils may be cut so they are full (filled) only when the vertical panels are full (filled).
In such specialty applications, lateral stiffeners may alternatively be employed to hold the vertical panels apart to prevent vertical panel inward collapse at higher internal air velocities.
The display invention may advantageously and optionally be employed in combinations with some kind of artificially enhanced windsource, such as a funneling device for directing ambient wind into or onto the display device. Optionally, the windsource may be artificially induced, such as by a windpole as described herein.
A suitable windpole may comprise a vertical hollow pole, at least one duct, and at least one port. This windpole may be used as a tether for the display device of the invention and in combination with it. It can be passive, or in little or no wind situations, it can provide enough "wind" itself to fly the display device of the invention. The windpole preferably includes a fan, and in some variants the hollow pole is itself the duct. The pole has a plurality of in line ports to vent the wind from the pole onto or into the wind channels of the device.
There may also be a separate duct inside the pole that runs roughly parallel with the axis of the pole, with the fan mounted for moving air along the duct, as from a relatively bottom located intake duct, and the pole may advantageously employ a plurality of ports connected by subducts to the main duct.
Where the hollow pole is itself the duct, a plurality of in line ports in the pole may each have an associated scoop to direct airflow to its port. Optionally these scoops may increase in cross sectional area progressively from a bottom scoop to a top scoop. The pole itself may also be internally tapered from bottom to top.
As an alternative arrangement to the vertical internal duct in the pole discussed above, a plurality of roughly horizontally disposed cross ducts in the pole may be employed, with each cross duct having its own fan at one end, and each cross duct ending in one of the ports. The cross ducts may either be tubular, or the ducts may be open horizontally disposed chambers in the pole, so that with an optional rotatably mounted port sleeve having a plurality of in line exhaust ports, each such port roughly aligned with a chamber, and alike plurality of intake ports, each intake port more or less aligned with a corresponding exhaust port and with a particular chamber, the display device when tethered to the port sleeve will act like a wind vane to rotate the intake and exhaust ports into line with the prevailing wind, while the chamber fans draw air through the intake and expell it from the exhaust port into and onto the device. This option is therefore adaptable to provide an air velocity boost to ambient or prevailing air motion, no matter what direction it comes from.
The pole may optionally and advantageously have a conventional wind sensor and a fan controller receiving a control signal from the wind sensor so that fan powered air can be attenuated or eliminated as ambient air velocities reach a level sufficient to fly the device without assistance.
The invention may be carried into practice in various ways and some embodiments will now be described by way of example with reference to the accompanying drawings in which:
Figure 1 is a schematic elevation of an embodiment of the invention partially showing hidden features.
Figure 2 is a set, of views A and B, showing alternate partial and full sectional views respectively of the invention taken along line 2-2 in Figure 1.
Figure 3 is a set of views A and B, all in partial sectional view of the invention taken along line 3-3 in Figure 1.
Figure 4 is a set of views A to D, all in partial sectional view of the invention taken along line 4-4 in Figure 2A.
Figure 5 is a set of partial cross section views A to F, showing a pole usable with the invention.
Figure 6 is a set of views A and B, in perspective and side elevation (showing hidden details), respectively, of an alternate embodiment of the invention.
Figure 7 is a set of views A and B, in perspective and side elevation (showing hidden details), respectively, of an alternate embodiment of the invention.
Figure 8 is a set of views A and B, in side elevation and cross section, respectively, of an alternate embodiment of the invention.
Figure 9 is a partial perspective view of a detail of the invention taken from Figure 4A.
In this disclosure the following terms will generally have the following meanings. An airfoil refers generally to an airfoil shaped structure of some soft and flexible material which may either be relatively fixed into an airfoil shape; or free to fill and collapse depending on availability of airflow to fill the foil, much like a conventional sail is so dependant. Airfoil is otherwise used in the conventional sense of a "wing"-like structure that imparts lift in a direction normal to the foil in accordance with well known aerodynamic principles. ("Normal" generally has its conventional meaning of more or less perpendicular to the tangent of a given surface.)
Windsource refers to a source of airflow or wind; it may be referred to as enhanced or induced. In a natural sense, ambient breeze or wind may be a windsource; natural wind or breeze may be enhanced, such as by scoops or funnels. In addition to, or instead of, ambient wind, an airflow may be induced, such as by a conventional fan or turbine. A windpole as described herein is a device by which an induced windsource is created to direct an induced airflow toward a display device such as a flag tethered to the pole structure of the windpole.
A tethered display device refers to a broad class of relatively flexible flags and banners, including conventional flags and banners, but also including the flags, banners and other display devices contemplated in the invention, as further disclosed herein.
Turning now to the drawings, the invention will be described in preferred embodiments by reference to the numerals of the drawing figures wherein like numbers indicate like parts.
Figure 1 shows a schematic elevation of an embodiment of the invention partially showing hidden features. Pole 5 may be a conventional pole, such as a conventional flagpole, or may be a windpole such as described herein. Tethered display device 10, comprising in the main display device 11, is connected to pole 5 at top tether 7 and bottom tether 6. Display device 11 flies generally in the direction 9 of an ambient airflow. Optional vents 12 generally distally disposed in display device 11 provide an alternate escape for airflow possibly retarded by turbulent buildup, and possibly aid in airflow characteristics at end of display device 11.
Figure 2, in a set of views a - b, shows a partial sectional view of the invention taken along line 2-2 in Figure 1, to schematically illustrate some of the various positioning possibilities for airfoils 13 between vertical panels 18. In these sectional figures, each airfoil 13 has a lower edge and an upper surface.
Figure 2B is a sectional view of an alternate embodiment of the invention wherein the two vertical panels 18 are simply connected, preferably by stitching, at top seam 14 and bottom seam 15, with two airfoils 13 preferably stitched in place along the vertical panels, more or less as suggested by dotted line airfoil 13 in Figure 1.
Figure 3A and B show sectional aspects of the invention taken along line 3-3 in Figure 1. In particular, optional lateral supports 22 are shown in place providing support for vertical panels 18 to aid in maintaining separation between the panels and promoting optimal airflow through the display device. Care is taken in selecting materials for supports 22 so that furling and other flag-like characteristics are not unduly attenuated. Alternatively, vertical panels 18 may be cut with a fullness so that they can bow or fill to the shape generally and schematically shown in Figure 3B, and optionally serve as airfoils themselves with "lift" forces effective to assist in maintaining separation of the panels. Airflow direction arrow 29 illustrates schematically the airflow through (and around) the device.
Figures 4A and B are alternate schematic sectional views of the invention taken along line 4-4 in Figure 2A to illustrate various positional possibilities and configurations for the airfoils 13 for preferred embodiments. In Figures 4A and 4B, airfoils 13 may be arrayed in series as variously shown, and may be contiguous, or intermittent (shown by dotted line omissions in 4A). Airfoils 13 may optionally be attached to panels 18 by fasteners 16, such as grommets or stitching Figure 9 is a partial perspective view of a detail of the invention taken from Figure 4A showing one grommet positioning. Fasteners 16 may be on either or both edges of airfoil 13, and may be at any spacing along an airfoil edge deemed appropriate by those skilled.in the art. Fasteners 16 can advantageously pro-shape airfoil 13 so that it maintains the same shape in all wind conditions (subject of course to varying sag or droop along the length of the display device, at least under very low winds).
In Figure 4C, a top foil positioning is schematically illustrated, as well as an alternate foil attachment system employing fasteners 16 such as grommets, connecting lines 19 such as string, thread or other line to connect fasteners 16 to an edge of otherwise floating airfoil 13 (attached otherwise to panels 18 only at their airfoil end attachments 17). Lines 19 have differing lengths, as will be appreciated by those skilled in the art, to accommodate the prospective filled shape of the airfoil 13. This latter arrangement serves to allow free wind filling of airfoil 13, while at the same time allowing the airfoil lift to be transferred to the panel (and thus to the display device 11) at positions in addition to the attachment ends 17, so to prevent such sag or other deformations as may occur when lift forces are transferred only at the ends of the foils.
In figure 4D an optional "ramp" or "attack angle" is illustrated as an aid to maintain the airfoils 13 in a filled state in relatively low winds.
Preferred materials for vertical panels 18 and airfoils 13 and for the display device 11 in general will comport with choices generally familiar to those skilled in the art, such as sail cloth and conventional flag cloth for the panels, and nylon for the airfoils. Widths and other dimensions illustrated are for schematic purposes only. Almost any practical dimensions will serve. A preferred embodiment employs manmade materials, such as a ripstop nylon, such as may be purchased from a kit shop, and has a length / height ratio of 1.5 to 1.
Figures 6, 7 and 8 are set of views a - b, in perspective and side elevation (showing hidden details), respectively, of alternate embodiments of the invention. Each embodiment employs a tether tab 33 having top tether point 31 and bottom tether point 32 for tethering display device 11 to some anchor point such as a pole or other vertical structure. Various two panel, multiple channel embodiments are shown. In Figure 6, both vertical panels 18 are the same size, and multiple airfoils 13 divide the space between the panels into multiple channels 25. Airfoil 13 at rest is shown as dotted line 13'.
In Figure 7 one panel 18 is shorter than the other, resulting in shorter channels 25 and shorter airfoils 13. This embodiment is believed to be useful in situations where there are generally steadier and more vigorous winds prevailing. It is thus believed it is sometimes advantageous for panels 18 to be different sizes.
In Figure 8 a variation is shown where a portion of one panel 18 is cut and folded in such a way that, when attached to the other panel, it forms a generally rounded cross section curved tubular channel, the upper and lower surfaces of which are believed to function themselves as airfoils 13.
It should be noted that in any embodiment, there may be more than two vertical panels, and "vertical" does not require absolute verticality. As the airfoils 13 are in general for creating lift to counteract the pull of gravity so that the flag flies in all winds or no wind, it is necessary in general for the panels disposed on either side of the airfoils to be generally vertical (that is, generally parallel to the pull of gravity acting normally to the earth), so that airfoils 13 may thereby be appropriately and generally horizontally disposed. Minor variations can be tolerated, however, as will be appreciated by those skilled in the art.
A preliminary testing of a relatively simple embodiment of the invention at various wind velocities demonstrates that the display device 11 of the invention manifests near constant lift and furl from almost no wind (<5 mph) to relatively stiff breezes (>25 mph). In addition, some waving was also noted even at the greater velocities. A control flag of comparable dimension was also flown near the test flag, and it hung limply until wind velocity became elevated (>10 mph), shortly after which as wind exceeded 20 mph, it began to pop and snap violently, and lost its "'wave".
Figures 5A to F show alternate schematic partial cross section views of a windpole which can be used with the invention. Windpole 50 has optional windsensor 73 and fan controller 72 connected by wire 71 to control optional fan 54. Fan 54 draws air in at pole base 57 and airflow 59 (shown as arrows generally throughout Figure 5) is directed through duct 52 in hollow pole 51 to exhaust at ports 55 via subducts 53. As shown, ports 55 are generally lined up with channels 25 between airfoils 13 of display device 11. Alternatively, pole 51 is hollow and without ducts or subducts, and instead employs scoops 56 to direct airflow 59 to ports 55. It is believed it may be advantageous to have scoops 56 vary in cross sectional area, increasing from bottom scoop to top scoop, to compensate for possibly attenuating airflow velocity as the distance from the fan increases. Alternatively, the pole 51 may be internally tapered as schematically illustrated (exaggerated) in Figure 5D. Poles without scoops or ducts may also optionally be employed.
In an alternative arrangement, instead of vertical ducting or vertically hollow poles, horizontally disposed ducts or chambers 58 may be employed, each having a port 55 aligned with a chamber 25. Each duct 58 may have its own fan 54 mounted within. Where horizontal chambers 58 are employed, an optional pole sleeve 61 may be rotatably mounted encircling pole 51. Pole sleeve 61 has ports 55 and intakes 62 (hidden), both aligned with chambers 58 and with chambers 25 in display device 11. Fan(s) 54 may be mounted inside pole sleeve 61 at intakes 62 and rotatable with it, so that airflow 59 may be drawn in intake 62 by fan 54 to fill chamber 58 (formed in part by chamber 58 in pole 51 and by pole sleeve 61) to exhaust at ports 55. This embodiment allows display device 11 to be tethered at tethers 6 and 7 on pole sleeve 61, so that device 11 is free to swing to the direction of ambient wind, while still able to take maximum advantage of induced airflow from the windpole.
The flag and display device of the invention may be used throughout the world wherever flags are flown, and as well in all places and for all purposes for which flying banners are used, including outdoor and indoor advertising.
1. A display device (11) comprising at least two vertical panels (18) connected at a top seam (14) and a bottom seam (15), the panels (18) and seams (14,15) defining between them a plurality of tubular channels, and further comprising at least one soft wing-like airfoil (13) horizontally disposed between the two vertical panels (18), the airfoil (13) defining in part at least one of the tubular channels, wherein an airflow over the airfoil (13) imparts an aerodynamic lift to the airfoil (13).
2. A display device as claimed in Claim 1, characterised in that it comprises at least one single layer of multiple horizontal airfoils (13).
3. A display device as claimed in Claim 1, characterised in that it comprises a plurality of horizontally disposed airfoils (13) vertically stacked with respect to each other.
4. A display device as claimed in any preceding Claim, characterised by airfoil fasteners (16) at edges of each airfoil (13), the fasteners (16) connecting each airfoil (13) to the vertical panels (18) so that the airfoil shape is determined by its fasteners (16).
5. A display device as claimed in Claim 4, characterised in that each airfoil (13) is directly fastened to the vertical panels (18).
6. A display device as claimed in Claim 5, characterised in that the fasteners comprise stitching and each airfoil (13) is sewn to at least one vertical panel (18).
7. A display device as claimed in Claim 5, characterised in that the fasteners are grommets (16) and each airfoil (13) is grommeted to at least one vertical panel (18).
8. A display device as claimed in Claim 4, characterised in that each airfoil (13) is indirectly fastened, each airfoil (13) having at least one edge connected to a vertical panel (18) by a plurality of strings (19), each having differential lengths.
9. A display device as claimed in any preceding Claim, characterised in that the vertical panels (18) themselves comprise vertical airfoils for a "lift" effect to spread panels (18) and to tension the horizontally disposed airfoils (13) laterally.
10. A display device as claimed in Claim 9, characterised in that the horizontal airfoils (13) are cut so they are full only when the vertical panels (18) are full.
11. A display device as claimed in any preceding Claim, characterised by lateral stiffeners (22) to hold the vertical panels (18) apart to prevent vertical panel inward collapse at higher internal air velocities.
12. A display device as claimed in any preceding Claim, characterised in that the airfoil (15) has an "attack angle" and that angle is "sewn in".
13. A display device as claimed in any preceding Claim, in combination with an artificially enhanced windsource.
14. A display as claimed in Claim 13, characterised in that the artificially enhanced windsource is artificially induced.
1. Anzeigevorrichtung (11), die mindestens zwei vertikale Felder (18) umfasst, die an einer oberen Naht (14) und einer unteren Naht (15) verbunden sind, wobei die Felder (18) und Nähte (14, 15) zwischen sich eine Vielzahl an rohrförmigen Kanälen definieren, und die des Weiteren mindestens ein weiches, flügelartiges Tragflächenprofil (13) umfasst, das zwischen den beiden vertikalen Feldern (18) horizontal angeordnet ist, wobei das Tragflächenprofil (13) teilweise mindestens einen der rohrförmigen Kanäle definiert, wobei eine Luftströmung über das Tragflächenprofil (13) einen aerodynamischen Auflrieb auf das Tragflächenprofil (13) ausübt.
2. Anzeigevorrichtung nach Anspruch 1, dadurch gekennzeichnet, dass sie mindestens eine Einzelschicht mehrerer horizontaler Tragflächenprofile (13) umfasst.
3. Anzeigevorrichtung nach Anspruch 1, dadurch gekennzeichnet, dass sie eine Vielzahl an horizontal angeordneter Tragflächenprofilen (13) umfasst, die vertikal übereinander angeordnet sind.
4. Anzeigevorrichtung nach einem der vorhergehenden Ansprüche, gekennzeichnet durch Befestigungsmittel (16) für die Tragflächenprofile an den Rändern der einzelnen Tragflächenprofile (13), wobei die Befestigungsmittel (16) jedes Tragflächenprofil (13) mit den vertikalen Feldern (18) verbinden, so dass die Form der Tragflächenprofile durch ihre Befestigungsmittel (16) bestimmt wird.
5. Anzeigevorrichtung nach Anspruch 4, dadurch gekennzeichnet, dass jedes Tragflächenprofil (13) direkt an den vertikalen Feldern (18) befestigt ist.
6. Anzeigevorrichtung nach Anspruch 5, dadurch gekennzeichnet, dass die Befestigungsmittel Nähte umfassen und jedes Tragflächenprofil (13) an mindestens ein vertikales Feld (18) genäht ist.
7. Anzeigevorrichtung nach Anspruch 5, dadurch gekennzeichnet, dass die Befestigungsmittel Ösen (16) sind und jedes Tragflächenprofil (13) mit mindestens einem vertikalen Feld (18) mittels Öse verbunden ist.
8. Anzeigevorrichtung nach Anspruch 4, dadurch gekennzeichnet, dass jedes Tragflächenprofil (13) indirekt befestigt ist, wobei jedes Tragflächenprofil (13) mindestens einen Rand aufweist, der mit einem vertikalen Feld (18) über eine Vielzahl an Fäden (18) verbunden ist, die alle unterschiedliche Längen aufweisen.
9. Anzeigevorrichtung nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die vertikalen Felder (18) selbst vertikale Tragflächenprofile für eine "Auftrieb"-Wirkung umfassen, um die Felder (18) auszubreiten und die horizontal angeordneten Tragflächenprofile (13) seitlich zu spannen.
10. Anzeigevorrichtung nach Anspruch 9, dadurch gekennzeichnet, dass die horizontalen Tragflächenprofile (13) so geschnitten werden, dass sie nur dann erfüllt sind, wenn auch die vertikalen Felder (18) erfüllt sind.
11. Anzeigevorrichtung nach einem der vorhergehenden Ansprüche, gekennzeichnet durch seitliche Versteifungsmittel (22), um die vertikalen Felder (18) auseinander zu halten und zu verhindern, dass das vertikale Feld bei höheren internen Luftgeschwindigkeiten nach innen zusammenfällt.
12. Anzeigevorrichtung nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass das Tragflächenprofil (15) einen "Anstellwinkel" aufweist und dass dieser Winkel "eingenäht" ist.
13. Anzeigevorrichtung nach einem der vorhergehenden Ansprüche, kombiniert mit einer künstlich verstärkten Windquelle.
14. Anzeigevorrichtung nach Anspruch 13, dadurch gekennzeichnet, dass die künstlich verstärkte Windquelle künstlich hervorgebracht wird.
1. Dispositif d'affichage (11) comprenant au moins deux panneaux verticaux (18) raccordés par une soudure supérieure (14) et une soudure inférieure (15), les panneaux (18) et les soudures (14, 15) définissant entre eux une pluralité de canaux tubulaires, et comprenant en outre au moins une surface portante (13) en forme d'aile souple disposée horizontalement entre les deux panneaux verticaux (18), la surface portante (13) définissant en partie au moins un des canaux tubulaires, dans lequel un écoulement d'air passant sur la surface portante (13) communique à celle-ci une poussée aérodynamique.
2. Dispositif d'affichage selon la revendication 1, caractérisé en ce qu'il comprend au moins une seule couche de multiples surfaces portantes horizontales (13).
3. Dispositif d'affichage selon la revendication 1, caractérisé en ce qu'il comprend une pluralité de surfaces portantes (13) disposées horizontalement et empilées verticalement l'une par rapport à l'autre.
4. Dispositif d'affichage selon l'une quelconque des revendications précédentes, caractérisé par des attaches de surface portante (16) sur les bords de chaque surface portante (13), les attaches (16) raccordant chaque surface portante (13) aux panneaux verticaux (18) de sorte que la forme de la surface portante soit déterminée par ses attaches (16).
5. Dispositif d'affichage selon la revendication 4, caractérisé en ce que chaque surface portante (13) est directement fixée aux panneaux verticaux (18).
6. Dispositif d'affichage selon la revendication 5, caractérisé en ce que les attaches comprennent des points de couture et chaque surface portante (13) est cousue à au moins un plan vertical (18).
7. Dispositif d'affichage selon la revendication 5, caractérisé en ce que les attaches sont des oeillets (16) et chaque surface portante (13) est joints par oeillet à au moins un panneau vertical (18).
8. Dispositif d'affichage selon la revendication 4, caractérisé en ce que chaque surface portante (13) est indirectement fixée, chaque surface portante (13) ayant au moins un bord raccordé à un panneau vertical (18) par une pluralité de cordons (19), qui ont chacun des longueurs différentes.
9. Dispositif d'affichage selon l'une quelconque des revendications précédentes, caractérisé en ce que les panneaux verticaux (18) eux-mémes comprennent des surfaces portantes verticales pour un effet de "poussée aérodynamique" afin de déployer les panneaux (18) et de tendre les surfaces portantes horizontalement disposées (13) latéralement.
10. Dispositif d'affichage selon la revendication 9, caractérisé en ce que les surfaces portantes horizontales (13) sont coupées de manière à n'être pleines que lorsque les panneaux verticaux (18) sont pleins.
11. Dispositif d'affichage selon une quelconque des revendications précédentes, caractérisé par des raidisseurs latéraux (22) pour maintenir les panneaux verticaux (18) à distance l'un de l'autre afin d'empêcher l'affaissement vers l'intérieur des panneaux verticaux aux vitesses plus élevées de l'air interne.
12. Dispositif d'affichage selon l'une quelconque des revendications précédentes, caractérisé en ce que la surface portante (15) a un "angle d'attaque" et cet angle y est "cousu".
13. Dispositif d'affichage selon l'une quelconque des revendications précédentes en combinaison avec une source de vent artificiellement renforcée.
14. Affichage selon la revendication 13, caractérisé en ce que la source de vent artificiellement renforcée est artificiellement induite.