This application claims benefit of Serial No. 200901028, filed 23 Jun. 2009 in Spain and which applications are incorporated herein by reference. To the extent appropriate, a claim of priority is made to the above disclosed application.
The invention refers to a folding structure for kites, based on the installation of a central, longitudinal rod running along the length of the kite and upon which a series of tensing trusses or sliding connectors are mounted. The trusses support rods employed for tensing and pulling the kite's internal section and form arches when assembled or unfolded. The object of the invention is to ensure the total versatility of the folding structure in order to construct different types of kite designs, in such a manner that the structure is assembled automatically by pulling on one of its extremes. When the other extreme is pulled, the structure folds automatically.
As is known, kite design does not only cover flat kites, as kites are designed with different forms and geometries in representation of animals, aeroplanes, etc. Kites are assembled manually by placing, one by one, all the internal rods which make up the kite's structure. In many cases, this process can be confusing and the rods may be installed incorrectly, making the correct assembly of the kite in question impossible and requiring the removal of the rods and their correct reinstallation.
On the other hand, kites are always accompanied by lengthy installation manuals that the user is sometimes unable to understand, which means more problems and inconvenience. That is to say, the assembly and dismantling of a kite involves long periods of time and effort on behalf of the user, which complicates their subsequent use.
The folding structure for kites recommended here, and which has been designed to resolve the above-mentioned problems, is based on the idea that the different parts of the kite, and specifically the external part or fabric, may be quickly and easily folded and unfolded. More specifically, the internal structure of the kite, which logically constitutes the support for the external part of the fabric, is characterized by the incorporation of a central, longitudinal rod which runs throughout the fabric that constitutes the outer part. The rod, in turn, supports an indeterminate number of tensing trusses, which in turn support a multitude of arms to which a similar number of rods are attached. These rods are employed to tense the external part or fabric of the kite to which they are permanently attached. The rods, thus, do not leave their correct position when the kite is folded. The tensing trusses are simultaneously connected to a rope or string that also runs along the kite and the ends of which extend along the external part or fabric, terminating in rings which are manipulated manually. The above-mentioned tensing trusses are freely-mounted and, thus, can be moved in either direction along the longitudinal rod. These tensing rods move simultaneously in the same direction, in accordance with the force applied to either one of the extremes of the above-mentioned string. The pulling of either end of the string enables the kite to be assembled or dismantled, or folded or unfolded, and prepared either for its use or for its storage in a bag or box. When folded, all the tensing trusses remain aligned on one side of the kite, with the connected rods remaining folded and free of tension with respect to the fabric that forms the outer part of the kite. If, in this situation, the ring attached to the string that connects the tensing trusses is pulled from the side towards which the tensing rods are pointed, these rods will move through the longitudinal rod and gradually open up and tense the fabric as they turn over the structural arms, in such a manner that, at a specific point, all the rods are subject to a positive and permanent tension, forming a dome with the rods to hold the outer fabric fully stretched and ready to fly. Similarly, by pulling on the string's other ring, the structure, at a specific point, will lose the positive tension to which it is subject and the trusses will move along the longitudinal rod until they are fully folded, thus reducing their form and allowing the subsequent introduction of the kite into a bag for storage. Obviously, the number of tensing trusses may vary, as well as the number of arms supporting the trusses, in accordance with the size, shape and morphological features of the kite in question.
To complement the following description and in order to facilitate a greater understanding of the invention's features, in accordance with a practical example of the same, a set of indicative drawings has been attached as an integral part of the description, representing the following:
FIG. 1.—Shows a schematic representation of a basic example of kite with an assembled folding structure, i.e., in its unfolded state.
FIG. 2.—Shows the same kite represented in the previous figure in a semi-folded position.
FIG. 3.—Shows a partial representation of the internal folding structure in its unfolded state.
FIG. 4.—Shows the same representation as the previous figure, now in a semi-folded state.
FIG. 5.—Shows the kite fitted with the invention with its exterior fabric unfolded.
FIG. 6.—Shows a similar view to that shown in the previous figure with the outer fabric semi-unfolded.
FIG. 7.—Shows a representation of the kite in the folded position as one of the extremes of the string is pulled to commence the unfolding action.
FIG. 8.—Shows the same kite as represented in the previous figure in the unfolded position.
FIG. 9.—Shows, finally, a perspective view of one of the tensing trusses, with its corresponding associated arms and rods.
As can be seen in figures above, the kite which is the subject of the invention includes, as is conventional, an internal structure that determines the folding and unfolding of the kite, and an outer fabric part (1) which serves as accommodation for mentioned internal structure. The internal structure is composed of a centrally-located longitudinal rod (2) running from one extreme of the structure to the other. The structure's centrally-located longitudinal rod (2) supports a number of tensing trusses (3) upon which a variable number of arms (4) are mounted. These arms may adopt both folded and unfolded positions. The arms (4), in turn, support a further set of rods (5), as shown in
Number | Date | Country | Kind |
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200901028 | Jun 2009 | ES | national |