The present invention relates to a device for stabilizing an inflatable structure and in particular an inflatable structure intended to be pulled along in the inflated state by a motor boat.
A floating inflated structure of cylindrical or similar shape does not have an inherent stability. It requires some sort of ballast in order to be able to take and hold its position, either in a static situation or even in a dynamic situation, during its movement over the water.
In certain conditions of use outside the water such as during periods of transport, for example, the ballast can constitute an inconvenience owing to its bulk and weight.
This problem can equally be found again on classic motor boats such as that described in the document FR 2 633 581. In this document the motor boat comprises a longitudinal keel which is mounted beneath and in the centre of the hull, the said keel being provided in the form of a cylindrical pocket formed with a deformable watertight flexible material which comprises at one of its ends an orifice acting as a vent, and at its other end a fitment in the form of a scoop in order to allow automatic refilling of this pocket with water and this as soon as the boat starts to move.
The present invention proposes a fitment of this type, but for an elongated inflatable structure in the form of a large cylinder which is intended to be pulled along, in the inflated state, by a boat. The inflated structure having a diameter in the order of 2 metres or more, for example, and it has to be stabilised on the water, notably when it is moved, pulled along by a motor boat.
The present invention proposes a simple efficient means enabling ballasting of this inflatable structure so as to rapidly obtain sufficient stability which enables it to follow a safe trajectory, corresponding to that of a more classic type of motor boat, for example as described in the aforementioned French document.
The stabilizing device according to the invention is linked to an inflatable structure of a generally substantially elongated cylindrical shape, capable of being inflated with a view to its displacement and pulled along by a motorised engine. It comprises at least one pair of flexible ballasts which extend laterally along the length of the said inflatable structure and which are mounted on the structure in such a way as to be able to sink in the water simultaneously. The ballasts each comprise an orifice acting as a vent, located at the front, and a scoop system, located at the rear, with, between the rear ends of these ballasts, at the rear of the said scoop system, a pipe which links the cavities of the said ballasts in order to equalize the load and/or the total pressure of the water which reigns in the said cavities when the structure is pulled along. The cavities, when filling with water, act the role of a keel and are able to play the part of a hull in the manner of a catamaran or other, without necessarily playing the part of floats, which remains in any case with the said inflatable structure.
The ballasts are provided in the form of elongated fenders which are integral with the inflatable structure, over at least a part of their length. The ballasts are made of a flexible watertight fabric having, for example, a diameter in the order of 30 to 40 cm, in relation with that of the inflatable structure. Each fender can comprise one or more compartments, the compartments being each provided with their own scoop system. The cavities of each pair of compartments are located at the same level over the length of the said structure and are connected by a pipe to equalize the pressure and the refilling level.
According to the present invention, the junction between each equalizing pipe and the compartment of the corresponding ballast comprises a non-return valve in such a way as to place, at the level of the said equalizing pipes, elements which are capable of maintaining a geometrical shape which is adapted to their function.
According to a first embodiment of the invention, the scoop system is comprised of a scoop moulded from a rigid or semi-rigid thermoplastic material. The scoop is bonded and/or welded at the level of an orifice formed in the fabric of each ballast or each compartment, at its rear part.
According to the invention, the scoop which is made of thermoplastic material is provided in the form of a bent part which may comprise a non-return valve located at its inlet, for example.
According to another embodiment of the invention, the scoop system is comprised of an assembly of cut-outs made from a flexible material of the watertight fabric type, and more particularly several cut-out templates which are firstly assembled together by bonding and/or by welding;
Still according to the invention, the first cut-out template comprises three parts:
The second cut-out template comprises three parts;
According to another design of the invention, the third cut-out template, of substantially rectangular shape, has a surface area which corresponds to twice the surface area of the downstream part of the large sill of the first cut-out template.
According to the invention, the scoop system comprises, in the ballast, covering the orifice of the scoop proper, a non-return valve comprised of a flexible member which is fixed on the interior surface of the wall of the said ballast, the flexible member, of fabric, is fitted at the level of the orifice, welded or bonded just upstream of this orifice.
The invention equally relates to the process of producing this scoop system, of flexible material as detailed above. The process consisting of:
Still according to the invention, the process consists in:
In order to be able to be implemented, the invention is explained in a sufficiently clear and complete manner in the following description which is also accompanied by the drawings in which:
In order to stabilize this inflatable structure 1 on water, there are ballasts 3 which extend over all or part of the length of the cylinder and in particular along the generatrices of this cylinder. The ballasts 3 are for example two in number and they are spaced out transversally.
The ballasts 3 may have a fender-type shape whose cover is equally formed from a watertight flexible fabric, preferably from the same fabric as that used to make the inflatable structure.
The ballasts 3 may be fitted on the wall of the cylinder forming the inflatable structure 1 by bonding or the like. These ballasts 3 are for example installed on the inflatable structure 1 according to the generatrices whose angular position a, in relation to the centre of the cylinder, is in the order of 90°, as shown in
In this embodiment, the two ballasts 3 are in fact placed on the external surface of the inflatable structure 1 in such a way that they can both sink simultaneously in the water.
As shown in
The connection between the ballasts 3 and the inflatable structure 1 is formed by bonding or by any other suitable assembly means.
In order to fulfil their function of ballast and stabilization, the ballasts 3 comprise, as shown in
The cavities of the two ballasts 3 can preferably be connected to one another at their rear end by a pipe 5. This pipe 5 allows in particular their level of fill to be equalized as well as the total pressure of the water which prevails in the cavities of the ballasts 3 in order to stabilize the inflatable structure 1 on the water when it is being moved, pulled along by the motorboat 2.
As illustrated in
Still in the case of
The equalizing pipes 5, 5′ which connect the ballasts 3 can be of different shapes, as detailed later on in conjunction with
The stabilizing device shown in
The scoop system 4 which is comprised of the scoop 9, as detailed in the following
In order to make this scoop system 4, the three pieces of the first cut-out template 15, 15′ as shown in
The first cut-out template 15, 15′ comprises two triangular zones which correspond respectively to the sides 20 and 21 of the scoop 9 proper, the said sides 20 and 21 being connected to one another by a common web 22. A large sill 23 extends along the side 20 with a common web 24 and a small sill 25 extends along the side 21 with a common web 26. The large sill 23 extends upstream and downstream of the side 20 whilst the sill 25 extends solely upstream of the side 21, that is to say upstream of that which corresponds to the inlet of the scoop 9.
The second cut-out template 16, shown in
The sills 27 of this second cut-out template 16 extend solely upstream of the sides 20 and 21 and their surface area is substantially greater than that of the small sills 25 of the first cut-out template 15, 15′.
The first cut-out templates 15, 15′ are assembled together flat as shown in
In this configuration,
This first regrouping of the first cut-out templates 15 and 15′ is then completed with the second cut-out template 16, as shown in
The volumizing of this regrouping of the first and second cut-out templates, as shown in
The third cut-out template 17 is bonded over the downstream parts of the large sills 23 of the first cut-out templates 15, 15′ in order to reinforce this part which is located at the rear of the scoop 9.
At the front of the scoop 9, the upstream parts of the sills 23, 24 and 27 can be bonded and/or welded to fix the shape of the scoop 9 proper.
By being made from cut-outs of a flexible and watertight fabric of the type which makes up the ballasts 3, the scoop system 4 is relatively flexible which enables the said ballasts 3 likewise to maintain a certain flexibility, particularly when they are totally inactive away from the water.
The embodiments above are intended to be illustrative and not limiting. Additional embodiments may be within the claims. Although the present invention has been described with reference to particular embodiments, workers skilled in the art will recognize that changes may be made in form and detail without departing from the spirit and scope of the invention.
Various modifications to the invention may be apparent to one of skill in the art upon reading this disclosure. For example, persons of ordinary skill in the relevant art will recognize that the various features described for the different embodiments of the invention can be suitably combined, un-combined, and re-combined with other features, alone, or in different combinations, within the spirit of the invention. Likewise, the various features described above should all be regarded as example embodiments, rather than limitations to the scope or spirit of the invention. Therefore, the above is not contemplated to limit the scope of the present invention.
Number | Date | Country | Kind |
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10 58956 | Oct 2010 | FR | national |
The present application is a National Phase entry of PCT Application No. PCT/FR2011/050227, filed Feb. 4, 2011, which claims priority from FR Application No. 10 58956 filed Oct. 29, 2010, which applications are incorporated by reference herein in their entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR2011/050227 | 2/4/2011 | WO | 00 | 4/25/2013 |