WO2007077269A1 - Elevated inflatable poster support system and production method thereof - Google Patents

Abstract

The invention relates to an elevated inflatable poster support system and to the production method thereof. According to the invention, the frame (f) is formed by a continuous tubular body (tb) which is inflated with lighter-than-air gases and which is crimped by means of transverse seals (msc, msd) or by means of constrictions with transverse rings (r), by moving the ends thereof closer together, such as to form geometric bodies that vary depending on the number used and the distance between the transverse constrictions. At least one of the tubular bodies is provided with an attachment (6) for inflating and deflating same using a sealed tubular body (13) with a valve mechanism (18). The posters comprise fine, resistant sheets which take the form a single piece (p) or which include a plurality of thin laminar tubes (pm). Stabilisers (8, 9, 12) are used to connect the frames to a wire element (10) which is secured to a fixed point (11). Wind resistance is reduced in posters that are provided with perforations (20) or spaces between the components (21) thereof and between the components and the frame (22). In order for the assembly to move in a light wind, a flat body (31) or a similar moving body (32) is fixed between the stabilising bar (12) and the wire connector (10) and a remote-controlled movement mechanism (33) is affixed thereto. The length of the wire connector element is provided with systems for absorbing the force of the wind (23) and for enabling same to rotate freely about the axis (26) thereof in order to prevent any damage that could be caused by excessive twisting owing to the wind. In addition, a light bag having a rigid ring at the edge thereof is joined to the inflatable body closest to the ground using stabilising means (8, 9, 12).

Description

INFLATABLE SYSTEM OF LIFTING SUSTAINATION OF POSTERS AND THEIR METHOD OF

MANUFACTURING

5 DESCRIPTION

Field of the Invention

This invention relates to a frame system

10 inflatable for captive aerial signs, linked and fixed to fixed points, that rise in the air without the need of the wind, the signs being fixed to these frames, part of them or all their periphery. This flexible tubular body, must be manufactured with thin and resistant sheets of

15 gas-impermeable thermoplastic material, formed by sheets consisting of a single material or several coextruded materials simultaneously. The manufacturing method starts, in the various forms of frames, of a continuous elongated tubular body, with parallel edges,

20 closed at both longitudinal edges and at its ends, which in the deflated state has a virtual central cavity, and in the inflated state its cross section is substantially circular. This tubular body can thus be manufactured by means of the conventional extrusion method-

25 blowing of sheets of bi-oriented thermoplastic material, forming tubes, or being manufactured by means of two sheets of superimposed thermoplastic material sealed by their longitudinal edges. It can also be manufactured by a single sheet of thermoplastic, folded in its middle part and

30 continuously sealed longitudinally by their coincident edges of equal length, or by the sealing of their overlapping edges. This variant of continuous tubular body formation can be done manually, or by by means of the use of automatic machines such as those used for the manufacture of flexible laminar packages "sachets", which are formed by a tubular body that is continuously sealed, from sheets of thermoplastic material conditioned in rolls located in said machine. The sheet is folded and sealed thus forming the longitudinal tube continuously.

From these continuous longitudinal tubular bodies, incorporating seals or transverse narrowings to their longitudinal axis, inflatable bodies can be manufactured that, joining or approaching their ends, in an inflated state, determine their folding in those places, forming frames with a variety of shapes geometric, to which the posters will be attached. In any of its geometric forms, the manufacturing method is very fast and practical with great production capacity and minimal costs. There is no discarding of surplus material as is the case with manufacturing by conventional techniques in which complex and expensive design, cutting and sealing technology is also necessary. The folding form by decreasing the diameter of the tubular body by external compression by means of rings of flattened walls of smaller diameter offers greater versatility, since the same continuous tubular body can be used to form a wide variety of tubular frames, varying the number and the ring distribution. These rings can be manufactured with resistant thermoplastic sheet materials or by rings of elastomeric materials.

These tubular frames are very light due to the low weight of the thin sheets used, so they need a minimum volume of inflation gases, as well as a smaller quantity and weight of all the complementary elements of this advertising system. The simplest form of tubular support of aerial sign provided for in this invention consists of a continuous continuous tubular body, sealed at both ends, to which the aerial sign is fixed and suspended. In this manufacturing variant, a plurality of tubular bodies can be linked, by means of posters interposed between them, fixed by their upper and lower edges, to the respective longitudinal tubular bodies.

The continuous tubular bodies can be folded by means of a plurality of unique seals, or by several adjacent seals. These seals can be continuous or discontinuous, transverse to the longitudinal axis of the tubular body. The narrowing and sealing of the diameter of the tubular body, when approaching or joining the ends of the tubular body, in an inflated state, produces the folding of the tube in those sectors. According to the number and distances between said narrowings, the inflatable frame thus manufactured may adopt multiple geometric shapes. If there is only one seal or narrowing in the middle of the tubular body, when approaching its ends, the tubular frame will have an angular shape. If two seals or narrowings are made at an equal distance from each other, when approximating its ends the frame will adopt an angular shape and when joining its ends it adopts a triangular shape. The sides of the geometric figure will increase according to the amount of additional seals. If the distance between them is equal, the geometric figures will be regular; if they are uneven they will be irregular.

This invention is ideal for an original and spectacular aerial advertising on public roads, in large recreational areas, in open spaces with a large concentration of public, such as sports tournaments, beaches and spas, recreation centers, theme parks and in any place outdoors where you can see directly and In the distance this spectacular publicity. This new modality of advertising is multiplied progressively, because the places where it will be implemented are a center of obligatory concentration of television, radio and graphic media that will repeatedly reproduce this advertising. With the necessary anchors fixed at the end of your linking system, you can get these aerial signs to levitate on water mirrors, advertising variant not implemented so far. Fixed air advertising currently used on public roads is expensive, due to the complex structures to support them, due to the high cost of manufacturing the posters and lighting systems that are essential, to which the costs are added of maintenance and the rent of the places where they are installed, that must be of special location. This invention only requires an elongated and rigid element, of resistance provided to the size of the sign, nailed to the ground, sufficient to anchor the sign. It can also be fixed to buildings or any other fixed structure, which has sufficient strength to withstand the force exerted by the wind.

Advertising systems consist of airships or self-propelled airships with advertising messages printed on their surface or through electronic billboards and sound. This advertising is also of very high cost of manufacturing and maintenance, being in addition to a small range of action. Another type of advertising commonly used in summer spaces, consists of aerial signs carried by airplanes.

Currently the airspace is barely used for advertising, so this proposal offers great commercial possibilities for an original, agile, practical and low-cost system with massive features.

Prior art

When the hot air balloons inflated with hot air were invented at the end of the 18th century, and later the large airships inflated with hydrogen and then with helium, the aerial advertising printed on their surfaces or on posters suspended from them began. Then, with the rise of aviation and air shows, advertising messages were dragged by airplanes, or in auspicious climatic conditions, were formed with smoke of different color, by means of the movements of the plane, which were quickly disintegrated by the wind . Aerial advertising offers great possibilities, as evidenced by documents DE 3327944 Al, RF 8413756, RF 9110594, GB 10295; 10,349; 12,102; 12,802 and 374,990, UK GB 2 206 971 A, 2,297 532 A, PCT WO 99/54863, PCT WO 03/027571 Al, US 496,177, US 507,165, US 580,596, US 635,697, US 653,241, US 739,127, US 829,640, US 854,461, US 976,179, US 1,039,476, US 1,478,034, US 1,551,425, US 1,560,906, US 1,568,011, US 1,598,211, US 1,619,565, US 1,627,505, US 1,642,022, US 1,648,934, US 1,652,996, US 1,652,997, US 1,658,275, US 1,800,981, US 1,917,678, US 1,924,236, US 1,944,448, US 1,945,785, US 1,994,535, US 2,557,383, US 2,589,472, US 2,592,444, US 3,358,398, US 4,077,588, US 4,125,233, US 4,447,974, US 4,624,648, US 4,787,575, US 4,802,734, US 4,837,947, US 4,837,947, US 4,837,947, , US 5,102,364, US 5,117,344, US 5,254,026, US 6,148,551, US 6,575,805 Bl and US 2002/0171927, among many others. All the documents consulted are substantially different and perfected in many aspects, as proposed in the present invention. Summary of the invention

As explained above, the present invention is intended for the display of aerial signs fixed in part of its perimeter or in all its periphery, to flexible tubular frames, made of thin sheets of thermoplastic material impervious to gases that can be swollen with lighter gases than air, for example helium. The tubular frames are manufactured from a continuous tubular body sealed at both ends. The simplest form of manufacturing consists of a straight tube sealed at its ends, to which the advertising sign is fixed, suspended by its upper edge. The poster is fixed by its lower edge to stabilizing elements that link it directly to the filiform body, or by means of a stabilizer bar, consisting of a lightweight rigid tubular body, of cross-section, preferably circular. The end of said filiform body is attached to a fixed point, which holds the captive poster.

The various geometric shapes of frames are achieved by sealing and approximating or joining their ends, and multiple intermediate seals or decreasing their diameter by means of rings formed by tapes or filiform bodies, which compress them externally, all of them in transverse position. to its major axis. In the inflated state they form a circular cross-section cavity, in which, by approaching or joining the ends of the tubular body, the transverse seals and decreases in diameter, determine folding zones thereof, which form the support frame. According to the quantity of seals and of according to the distance between them, multiple geometric figures are formed.

The tubular body can also have longitudinal seals parallel to each other, which determine the same amount of bodies that in the inflated state are also of circular cross-section. If the seals are equidistant apart from each other, the formed bodies are of the same circular diameter, determining the tangential lines at their edges, the formation of a rectangular shaped body. If the distance between the longitudinal seals is different and in progressive increase, the formed bodies will also be of different diameters in progressive increase, and the lines that join their edges tangentially, will determine the formation of a triangular shaped figure, being able to reach agreement to the distribution of said seals, to imitate the aerodynamic profile of the wings of the aircraft.

The posters for the inflatable frame should also be as light as possible. One way of manufacturing is that they are made with laminar elements similar to those that form the tubular bodies, in which the advertising message will be printed or attached. To reduce wind resistance and to reduce its weight, the poster must have multiple perforations on its surface that allow the wind to pass, reducing its resistance to it. It can also be built by two or more deflated laminated tubular sectors parallel to each other, with free space between them and also with the inflatable body, to allow the wind to pass. The fixing of these sheets to the tubular frame is done by linking them with filiform or tape-shaped elements that cross transversely to the tubular body, to which they are attached or sealed, or they can be fixed with laminar bodies with a of its surfaces with adhesive substances. The resistance of the poster is complemented by structural reinforcements at the perimeter edges, and also by longitudinally or transversely sealed laminar reinforcements. Another method of fixing the poster consists of a reticular structure, fixed to the frame, on which the components of the advertising message are secured. In the inflatable frames of greater size luminous or electronic signs of mobile types can be placed, by means of computerized systems.

The flexible tubular body is fixed to the linkage element at a fixed point, by a plurality of filiform stabilizer bodies or in the form of straps connected directly or through a light stabilizer bar, formed by a rigid straight tubular body, preferably circular section . If the stabilizing elements are fixed to one of the sides of the tubular body of a flattened major surface figure, it will rise with its major plane in an upright position, if they are fixed on two or more opposite sides, its major plane is positioned horizontally, and if the stabilizing means are of different length, their major plane will adopt different degrees of obliqueness in space. On at least one of the sides of the inflatable frame, a closed or perforated tubular laminar body is fixed, with a thin rigid frame on its edge, which aims to pocket the wind, and stabilize the frame and the poster in space.

To dampen the intensity of the wind, this invention provides that in the bond of attachment to the fixed point, there are, regularly spaced, a plurality of elongated elastic bodies, of different diameters and hardnesses that determine different degrees of stretching before the force of the wind, whose ends are fixed to the fixing element, to a distance greater than that of the elastomer body, so that the binding element is gathered and the damping elastomers withstand the force of the wind, which can be stretched to equalize their fixing distance in the linking element. Once the damping capacity of these elastomer bodies is exhausted, by means of a switch placed at the fixed point, an alarm is triggered indicating that the sign must be lowered immediately, since that intensity of wind force can damage it .

The linking element can be an electrical conductor cable that serves to illuminate the sign, which can also be placed adjacent to the linking element. To prevent the longitudinal torsion caused by the sign due to the effect of the wind, there are interposed elements in the ground link and the electric conductor cable, which allow free rotation on its longitudinal axis.

In order to give movement to the cartel in the days without wind, in the stabilizer bar a mobile flattened body is provided, operated from the ground by remote control, so that functioning as a rudder, it gives movements. On windy days, this movement is achieved by means of a fixed curved or angled rudder driven by the wind.

Objectives and advantages of the invention.

One of the main advantages is to carry out a novel form of aerial advertising with spectacular visual and movement characteristics. Another advantage of this invention consists in the ease and speed of manufacturing flexible tubular bodies, which in addition to their minimum thicknesses and the lack of Disposal materials significantly reduce their manufacturing cost, making it possible to use them massively.

Another advantage is that its cost also decreases because its low weight requires low volumes of light gases for air support, also optimizing the costs of all other elements that make up the bonding and anchoring system.

Another advantage is that, by means of the use of rings that decrease their diameter by compression, varying their quantity and distribution, the same tubular body can be used repeatedly, forming frames of different geometric shapes.

Another advantage is that due to its low weight and volume in a deflated state, it can be sent by mail to the user company, being able to send an inflatable flexible tubular frame, with several different hoops and interchangeable posters.

Another advantage is that its easy anchorage can be carried out in strategic places for advertising, with very low rental cost, and without the need for expensive structures.

Another advantage is that, in activities in which the influence of the wind is important, such as golf, tennis, skydiving, paragliding, etc., in addition to their main advertising function, these aerial signs serve as an important visual means to determine the wind intensity and its direction.

Another advantage is the great diversity of geometric shapes of flexible tubular bodies, which are achieved from a single longitudinal tubular body.

Another advantage is that the tubular body in a deflated and detached state of the poster adopts the longitudinal tubular shape, which can be easily screwed into a body cylindrical with turning movements, reducing the volume and the costs of transfer, protecting it in addition to possible deterioration.

Another advantage is that the flexible tubular body can be positioned in space with its largest plane in the necessary position.

Another advantage is that the wind intensity damping systems protect the cartel from possible deterioration. Another advantage is that, according to the size and volume of helium, inflatable frames can raise various and complex varieties of aerial signs.

Another advantage is that it is intended to give active mobility by means of a flat body with rudder function, with an attached device to give it movement, operated remotely by radio.

Another advantage is that it can be given passive mobility, by means of a curved flattened body, which acts as a fixed rudder, the movements being determined by the action of the wind.

Another advantage is that systems are provided to prevent deterioration of the element that links it to the fixed point, by placing in its length systems that allow free rotation on its longitudinal axis. Another advantage is that by means of the valve system provided in the inflation and deflation appendix, helium or other gas inside can be recycled several times.

Another advantage is that in cases of deterioration of the tubular frame or the poster, they can be repaired or quickly replaced with low cost.

Brief description of the drawings For greater understanding and clarity of the object of the invention, it is illustrated with several figures in which it has been represented in one of its preferred embodiments, all by way of illustrative, non-limiting example:

Figure IA is a cross-sectional view of an integral continuous tubular body in a deflated state.

Figure IB is a cross-sectional view of an integral continuous tubular body, in an inflated state. Figure 2A is a cross-sectional view of a continuous tubular body, composed of two overlapping sheets, with longitudinal seals on two of its edges, in a deflated state.

Figure 2B is a cross-sectional view of a continuous tubular body, composed of two overlapping sheets with longitudinal seals on two of its edges, in an inflated state.

Figure 3A is a cross-sectional view of a continuous tubular body with a longitudinal seal of its edges of equal length, in a deflated state.

Figure 3B is a cross-sectional view of a continuous tubular body with a longitudinal seal at its superimposed edges, in an inflated state.

Figure 4A is a cross-sectional view of a continuous tubular body, with longitudinal sealing on overlapping edges, in a deflated state.

Figure 4B is a panoramic view of a continuous tubular body with longitudinal sealing on overlapping edges, in an inflated state. Figure 5A shows the end of a tubular body with a continuous transverse seal which forms three elongated appendages. Figure 5B shows the end of a tubular body with a continuous transverse seal.

Figure 5C shows a tubular body with a continuous intermediate transverse seal. Figure 6A is a front view of a continuous tubular body, showing a discontinuous transverse seal, in a deflated state.

Figure 6B is a panoramic view of a continuous tubular body, with a discontinuous transverse seal, in an inflated state.

Figure 7A is a front panoramic view of a straight longitudinal tubular frame in an inflated state, holding a sign and bar and stabilizing and bonding and fixing means. Figure 7B is an x-x lateral panoramic view of a straight longitudinal tubular frame in an inflated state, holding a sign and bar and stabilizing and bonding and fixing means.

Figure 8A is a front panoramic view of a straight longitudinal tubular body, with longitudinal seals equidistant from each other.

Figure 8B is a cross-sectional view AA-AA in an inflated state, showing the formed bodies of equal diameter. Figure 8C is a front panoramic view of a straight longitudinal tubular body in an inflated state, with continuous longitudinal seals, progressively spaced apart.

Figure 8D is a panoramic view in cross-section BB-BB of a straight tubular body showing the bodies formed of circular section in progressive increase.

Figure 8E is a front panoramic view of a straight longitudinal tubular body with longitudinal seals continuous parallel to each other, progressively increasing and decreasing distance from each other.

Figure 8F is a CC-CC front sectional view of a straight longitudinal tubular body, with continuous longitudinal seals parallel to each other, progressively increasing and decreasing distance from each other in the same progression, showing the formation of circular section bodies, of progressively increasing and decreasing diameters.

Figure 9A is a front panoramic view of a straight tubular body, they are continuous longitudinal seals, parallel to each other, in an inflated state, holding a sign, with stabilizer bar and stabilizing means.

Figure 9B is a side view y-y, showing three circular section bodies of equal diameter, located in an upright position.

Figure 9C is a cross-sectional view of another form of manufacturing, in which by means of continuous longitudinal seals, three bodies of the same circular section are formed, arranged horizontally. Figure 10 shows a triangular frame, in an inflated state.

Figure HA is a front view of a tubular body in an inflated state, with a continuous transverse seal.

Figure HB is a front view of a tubular body with a continuous transverse seal, folded thereon.

Figure 12A is a front panoramic view showing a quadrangular frame and an aerial sign formed by two sectors.

Figure 12B is a front panoramic view showing a quadrangular frame and an integral aerial sign with space for the passage of wind, at two of its ends.

Figure 12C is a front panoramic view showing a quadrangular frame with integral aerial sign with space for the passage of wind at two of its ends, and a plurality of perforations inside.

Figure 13A is a perspective view, showing a ring of smaller diameter than that of the tubular body of adjacent figure 13B.

Figure 13C is a partial panoramic view, showing a section of a tubular body in an inflated state, of narrowed diameter by the introduction of the smaller diameter ring. Figure 13D is a partial panoramic view showing the tubular body folded in place of the decrease in its diameter, by the external action of the ring.

Figure 14 is a panoramic view showing two straight tubular bodies in an inflated state, which raise two posters, the lower one, the stabilizer bar and the stabilizing means linked to the fixing means. Figure 15A is a front view of the tubular body that allows inflation and deflation of the tubular frames.

Figure 15B is a front and sectional view of the lid that seals the tubular body.

Figure 15C is a sectional view ZZ-ZZ, showing its circular cross section.

Figure 16 is a panoramic and sectional view of a manufacturing variant of the inflated and deflated tubular body, by incorporating a valve mechanism.

Figure 17A is an H-H view of the steering rudder attached to the stabilizer bar.

Figure 17B is a front view of the stabilizer rudder and its fixation to the stabilizer bar.

Figure 17C is a front view of a mobile directional rudder, operated remotely by means of a radio-controlled device. Figures 18A and 18B show individual details of the damping body fixing element to the corresponding link.

Figure 19 is a panoramic and sectional view of a device that allows free rotation on the longitudinal axis of the linkage element.

Figure 2OA is an oblique panoramic view of a quadrangular frame in which a multiple poster is seen, with spaces for the passage of wind, and the stabilizing means fixed to two of its opposite sides.

Figure 2OB is an oblique view showing the way in which a sector of the poster wraps around the tubular body of the frame.

Figure 2OC is a cross-sectional view showing the poster sector surrounding the tubular body to which it is fixed.

Figure 21 is a front panoramic view showing a circular-shaped frame, to which a reticular body for fixing the poster is attached. Figure 22 is an oblique panoramic view showing a quadrangular frame positioned in the space obliquely by the difference in length of its stabilization means, in its lower part a tubular body is seen that pockets in wind and stabilizes the frame. Figure 23 is a lateral panoramic view showing a frame positioned horizontally by the same distance of its stabilizing elements, which are connected to the linkage element, fixed to a fixed point.

Figure 24 is a front panoramic view showing an oval shaped frame.

Detailed description of the invention In general terms, the present invention relates to frames (f), inflated with light gases that serve as a means of fixing to aerial posters that raise them in the air, manufactured from a continuous tubular body (tb), which by sealing means transverse to its longitudinal axis (msc, msd) or by decreasing its diameter by external compression by means of outer rings (r), causes that in inflated state, when approaching or joining its ends, these narrowed sectors act as folding means of the tubular body. The frames, thus manufactured, can be of various geometric shapes, according to the quantity and distribution of the transverse narrowings forming the inflatable tubular body (f), to which it is fixed throughout its perimeter or in part thereof, at least one full sign (p), which has a plurality of perforations (p ') or that may be constituted by two or more segments (pin), with a gap between them (21) and between their perimeter edges and the tubular frame (22) , to allow the wind to pass. The tubular frames can be of single circular cross-section (fl) or by means of longitudinal seals, be composed of a plurality of adjacent tubular bodies of the same circular section (f2), or progressively increasing and / or decreasing (f3). Its ends are closed by transverse seals (s) from which at least one tubular appendage is removed for inflation and deflation (6). This appendix can be closed by means of its knotting or by introducing inside it a tubular body (13) that closes it tightly by means of a threaded cover (16), with an elastomeric sealing washer (19) or by means of a system valve (18). From both ends a plurality of tubular appendages of virtual cavity are also detached, for the union of the ends with each other. The fixing of the inflatable frames to the posters is done by means of ribbon-shaped laminar elements (pin ') surrounding the diameter of the tubular bodies, their ends being tied, or fixed by the seal between contact surfaces (36). The laminar sign has in its perimeter and its central part structural reinforcement zones (pin ') determined by longitudinal seals. The tubular frames with the posters are positioned in the space by means of stabilizing means in the form of tape (8) or filiform (9), which are fixed directly to the poster or by means of rigid stabilizer bars (12). Said stabilizing bodies converge and are fixed to the filiform bond (10) that holds it captive, by means of the fixed point (11). In the path of the filiform bond (10) there is a plurality of elongated elastomeric bodies (23) fixed thereto, at their ends in a portion of the filiform body (10) so that it exceeds its length so that its gathering and elastomeric bodies, in response to the effects of the wind are elongated (25), in a length equal to the fixing distance in the filiform body (10), damping the wind force. In the path of the filiform body (10) there are also interposed free systems

^• rotation (26) to allow its free movement on its longitudinal axis avoiding its tormentation with possible deterioration. In order for the inflatable frame and its aerial sign to have regular movements in space, it is planned to interpose between the stabilizer bar (12), fixed to it and the filiform link (10), at least one flattened and angled body (31), with Fixed rudder function, in another manufacturing variant this flattened body can be mobile (32) operated by an automatic mechanism (33) remotely controlled by radio. So that the frame and its poster are positioned in the space in a stable way, of the tubular body closer to the ground, a laminar bag (34, with a rigid ring (34 '), which keeps it open is suspended.

List of the main references:

tb) Continuous tubular body that forms the inflatable frame (f) of the aerial sign (p) (pin). es) Seals of the ends of the tubular body (ct). j) Zone of union of the ends (s), forming the frames

(f) • msc) Continuous transverse intermediate seals of the continuous tubular body (ct). msd) Discontinuous transverse intermediate seals of the continuous tubular body (ct).

Is) Longitudinal seals. r) External annular bodies that decrease the diameter of the continuous tubular body (ct) f) Inflatable frame, consisting of (tb), seals (se), seals (sm), longitudinal seals (Is) or annular bodies ( r). fl) Straight inflatable tubular frame. f2) Straight inflatable tubular frame with multiple equal longitudinal bodies. f3) Inflatable tubular frame with multiple longitudinal bodies of increasing or decreasing diameters.

F4) -Inflatable triangular tubular frame. F5) Inflatable tubular frames of quadrangular shape.

Fβ) Circular inflatable tubular frame.

F7) Oval shaped inflatable tubular frame. p) Full aerial sign. p ") Wind holes through the sign (p). pm) Aerial sign formed by two or more segments. pm ') Perimeter and interior longitudinal structural reinforcements. 1) Continuous tubular body (tb) integral in deflated state.

Ii) Continuous tubular body (tb) integral in inflated state.

2) Continuous tubular body (tb) made of two superimposed sheets, with longitudinal seals on both sides, in a deflated state.

2i) Continuous tubular body (tb) made of two superimposed sheets, with longitudinal seals on both sides, in an inflated state. 3) Continuous tubular body (tb) manufactured with a folded sheet, with its parallel longitudinal edges sealed, in a deflated state.

3i) Continuous tubular body (tb) manufactured with a folded sheet, with its parallel longitudinal edges sealed, in an inflated state.

4) Continuous tubular body (tb) manufactured with a folded sheet, with its sealed longitudinal edges superimposed, in a deflated state.

4i) Continuous tubular body (tb) manufactured with a folded sheet, with its sealed longitudinal edges superimposed, in an inflated state.

5) Reduction of the diameter of the continuous tubular body (tb), by external compression by the annular body (r).

6) Tubular frame appendages (f) for inflation and deflation.

7) Tubular frame appendages for joining its ends.

8) Stabilizing means in the form of belts, of the inflatable frame (f).

9) Filiform stabilizing means of the inflatable frame (f).

10) Filiform body linking to a fixed point (11).

11) Fixed anchor point of the inflatable frame (f).

12) Rigid stabilizer bar. 13) Tubular sealing body of the appendix (6).

14) Annular grooves of tubular body tightness (13).

15) External thread at the end of the sealing body (13) of the appendix (6).

16) Seal cap with internal thread of the sealing body (c).

17) Internal thread of the sealing cap (16).

18) Valve system for inflation and deflation at the end of the tubular sealing body (13).

19) Sealing cap elastomeric sealing washer (16).

20) Holes for the passage of the wind, of the integral aerial sign (p). 21) Spaces for wind passage between sectors of the multiple cartel (pm).

22) Spaces for wind passage between the posters (p) (pm) and the frames (f).

23) Elastomeric body damping the force of the wind, in the filiform bond (10).

24) Fixing elements of the damping body (23), to the link (10).

25) Elastomeric body (23), at its maximum stretching capacity. 26) Free rotation system on its longitudinal axis, of the link (10).

27) Retaining stops at both ends of the link (10), inside the free rotation system (26).

28) Bond fixing holes (10), of the end of the retention stop (27).

29) Openings in opposite diameters of (26) for the passage of the fixing hole (28). 30) Threaded edges on both connecting parts of the free rotation system (26).

31) Fixed directional tiller of the stabilizer bar (12).

32) Mobile directional tiller of the stabilizer bar (12). 33) Automatic directional rudder device (32), for remote control operation.

34) Stabilizing laminar bag by means of wind retention.

34 ') Rigid ring to keep the stabilizer bag open (34).

35) Reticular system for fixing poster elements.

36) Film with adhesive for fixing the poster to the frame (f) •

Claims

Claims 1.- Inflatable frame with lighter gases than the air for air support of advertising posters and the like, comprising at least one flexible tubular frame (f) inflatable with lighter gases than air, which is intended to serve as a support for fixing for at least one air sign (p, pm); characterized in that: a) the inflatable frame (f), which has different geometric shapes, is manufactured from a continuous elongated tubular body (tb), to which the posters are connected by fixing means (36); b) The posters (p, pm), have special manufacturing characteristics that allow them to be resistant with minimum weight and allow the wind to pass through them; c) the inflatable frame (f) and its corresponding posters (p, pm) are linked by stabilizing means (8, 9) to at least one filiform element (10) that link them to a fixed point (11); d) The filiform linkage element (10) is provided with means that allow free rotation (26) on its longitudinal axis; e) The filiform linkage element (10) is provided with systems for attenuating the effects of wind force (23); f) The stabilizing means (8, 9, 12) are provided with means that give directional movement to the system (31, 32, 33). 2. Frame according to claim 1 characterized in that the tubular body (tb), sealed at its ends is adopts a section in an inflated state transverse circular shape (fl), its walls being straight. 3. - Frame according to claim 2 characterized in that the tubular body, with a plurality of parallel longitudinal seals (f2) and equidistant from each other, adopts in an inflated state, a cross section constituted by the same number of circular shapes of the same diameter. 4. - Frame according to claim 2 characterized in that the tubular body, with a plurality of parallel longitudinal seals and in progressive increase in the distance between them, adopts, in an inflated state, a cross-section constituted by an equal amount of circular shapes whose ( f3) diameters increase in equal progression to the distances between the seals. 5. Framework according to claim 1; characterized in that at the seals of the ends of the tubular frame, there is at least one tubular appendage (6) for inflation and deflation of the frame. 6. Framework according to claim 5; characterized in that said appendix is sealed by a rigid tubular body (13) which is inserted therein whose outer edge has a threaded surface (15) for closing with a matching thread on the inner surface of a cover (16) with washer elastomeric inner seal (19). 7. Frame according to claim 5, characterized in that the tubular sealing body of the tubular appendix, has at its end, a valve system (18) that allows its inflation and deflation and the recycling of gases. 8. Frame according to claim 1, characterized in that in the seals of the ends of the frame, There is at least one non-inflatable tubular appendix (7), for fixing these ends together. 9. - Frame according to claim 1, characterized in that the aerial signs are constituted by a plurality of thin parallel tubular sheets (1), of virtual space, whose walls contact each other, on which the advertising is printed, between those that have spaces (21) that allow the wind to pass, between them and the tubular frame bodies parallel to them there are spaces (22) for the same purpose. 10. Framework according to claim 9; characterized in that said posters have a plurality of longitudinal seals in their perimeter edges and in their internal part that constitute structural reinforcements (pm /). 11. Frame according to claim 1, characterized in that the aerial posters are fixed by means of laminar elements with adhesives on one of their surfaces (36), which adhere to their surface and to the tubular bodies that make up the frame inflatable 12. Framework according to claim 1; characterized in that it is linked to the filiform fixing element by a plurality of stabilizing filiform elements (9). 13. Framework according to claim 1; characterized in that the aerial posters are linked to the filiform fixing element by means of narrow stabilizing laminar bodies, (8) between which a rigid stabilizer bar (12) is interposed. 14. Framework according to claim 1; characterized in that between the stabilizer bar and the filiform link, a flattened body is fixed (31) longitudinally curved, to give circular movements to the poster due to the effect of the wind. 15. Framework according to claim 1; characterized in that between the stabilizer bar and the filiform link, a straight flattened body (32) is fixed, which gives active movements to the poster, by means of an attached mechanical device (33), operated by radio with remote control. 16. Frame according to claim 1; characterized in that in the length of the filiform linkage body, there are, in such a body, a plurality of elongated elastomeric bodies (23) of different degrees of elasticity, to dampen the effects of wind force. 17. Framework according to claim 1; characterized in that the filiform linkage element has, in its path, at least one device that allows free rotation on its longitudinal axis (26), to prevent being twisted and deteriorated by the effect of the wind. 18. Framework according to claim 1; characterized in that, on at least one of the sides of the tubular frame, a laminar tubular body (34) is suspended, with a rigid ring at its edge (34 ") to which stabilizing filiform elements are fixed, which pocket the wind, positioning the Frame and poster in airspace. 19. Framework according to claim 1; characterized in that to the tubular bodies of the frame (f), a reticular structure (35) is fixed, in which a plurality of rigid laminar bodies, which make up the poster, with space between them for the passage of wind can be fixed. 20. Method for configuring frames according to at least one of the preceding claims, characterized because the sealing ends (7, is) opposite the tubular body (ct) approach and then join together. 21. Method according to claim 20, characterized in that additionally the tubular body (ct) bends through at least one of its transverse seals (rase, msd). 22. Method according to claim 20, characterized in that additionally the tubular body (ct) bends through throttles formed by annular elements (r) that decrease the cross section of said tubular body (ct). 23. Method according to at least one of claims 20 to 22; characterized in that, the tubular body with its sealed ends and with three intermediate seals, in an inflated state, determines the formation of a frame, which by approaching and joining its ends, contacting each other, at one of its angles, determines the formation of ^' a quadrangular geometric body (f5). 24. Method according to at least one of claims 20 to 22; characterized in that the tubular body, with its sealed ends, and with a plurality of adjacent sectors at an equal distance from each other, transverse to its longitudinal axis, in an inflated state forms frames of circular cross-section, which when joining and fixing its ends by contacting between Yes, they determine the formation of frames with different regular polygonal geometric shapes, according to the number of sealing sectors. 25. Method according to claim 24; characterized in that the tubular body, with its sealed ends and with a plurality of transverse seals to its longitudinal axis, at different distances from each other, in an inflated state form frames of circular cross-section, which when joining their ends contacting each other, will fold over said sealing sectors, determining different irregular geometric shapes, according to the number of sealing sectors. 26.- Method according to at least one of claims 21 to 25, characterized in that the seals are continuous (msc). 27.- Method according to claims 21 to 25, characterized in that the seals are discontinuous (msd).