WO2009074730A2

WO2009074730A2 - Reactive-hydrodynamic fin device

Info

Publication number: WO2009074730A2
Application number: PCT/FR2008/001296
Authority: WO
Inventors: Christophe Rouanet
Original assignee: Ruanet Christophe
Priority date: 2007-09-17
Filing date: 2008-09-16
Publication date: 2009-06-18
Also published as: EP2211999A2; FR2920999A1; EP2211999B1; FR2920999B1; WO2009074730A4; WO2009074730A3

Abstract

The invention relates to an underwater self-propulsion device to be worn on the feet, that comprises a "fitting" portion (A) to which is attached a "reactor" portion (B), the latter including a "channelling structure" (1) that comprises two "walls" mounted vertically opposite each other and separated by a limited gap in the axis of which the "fitting portion" (A) is provided. The space between the "walls" having a certain "height" receives the "reactive volumetric assembly" that comprises "plastic stops" (2) connecting the "walls" together. The actuation of the device results in the twisting and in the reaction of the "plastic stops" (2) clamped in the "channelling structure" (1), which generates an acceleration of the water flow sufficient for propelling the user. The device is particularly intended for underwater sports, and for sea rescue or rescue along the coast.

Description

"Reaco-hydrodynamic kicking device"

The present invention relates to a device actuated by. the physical - motor force of an individual and for use in the aquatic environment; This device is a medium dedicated to promoting the propulsion of man in this aquatic environment and intended to be worn on the feet of a user.

The exercise of an amplified displacement in the aquatic environment with regard to the portable pedestrian means operated muscularly is traditionally devolved to the tool - prosthesis called "palm". The palm is therefore the closest reference to the device according to the invention and serves here as a counterpoint, because it constitutes this premium comparison tool useful for a better understanding thereof.

The device according to the invention is a system that allows an action representing an overall improvement to evolve in the aquatic environment and thus, mainly compared to the conventional operating medium known as "palm"; The latter, although offering the man convincing convincing gains in terms of autonomous propulsion, also determines the defects of use that the present device makes it possible to solve by making that it places in recourse as improvement and radical alternative, and this in particular in terms of hydrodynamics, because by its conformation, it prohibits any unnecessary loss and wastage of the aquatic fluid treated for propulsion, and thus decisively optimizes the efficiency from this propulsive point of view ; But still, that it allows to stem all "erratism" and loss of control related to the confrontation with the mechanical resistance of this fluid; All in what the action and movement of a palm, and more generally the movements of two feet shod with palms only allow very imperfectly. The device according to the invention, unlike this classic and usual means that constitutes fins no longer presents itself, (in particular its most characterizing part which is called "wing") of a so to speak "plane - horizontal" and in the plane of the body, but in the opposite way that we could, in analogy opposite comparison, qualify as "vertical" and thus placed on a 90 ° plane different from that of a palm; More specifically, while a palm unfolds and fits in this plane of the body, the device according to the invention, it is deployed and fits in its most characterizing part called "reactor", in the axis from the plane of the articular fold of the leg and its knee and thus, in the axis of the kick and the overall natural movement of ergonomic mobility and hydrodynamic penetration of the whole leg. It is therefore that, given this presentation exactly profiled in relation to the movement of the swimmer's leg in action that the device according to the invention is "split" literally the flows, or more exactly, the water bodies. In addition to providing a clearly improved hydrodynamics without major losses of water flows and, therefore, an increased yield in terms of speed removed by a user, this profile can be a practical improvement to leave a better to penetrate certain contexts such as wrecks, crevices, caves, or any other related obstacles that may arise; but still for example to evolve in places particularly provided with seaweed. Being in this way profiled in the true plan of the movement of the leg and its kick, but still to be worn on both feet in its generic use, allows once the device put into action by each leg and in a classic movement of beats of these, (and thus of return and as "to the kicking"), not to induce an increase of between swirls in the spacing of the 2 feet and their surroundings immediate, swirls that produce in the case of 2 palms in action, an inter and superfluous movement of erratic incidence, with consequences perfectly chaotic and thus simply harmful to the most rational evolution of a user; There is thus laterally more space between each device equipping a pair of feet, which once these put in action together (and so to say "canned"), reduces the possibility of swirls and their parasitic effects and consequently too much lack of control of the aquatic environment. Overall, the device according to the invention consists of a "footwear", the first part of it, continued by a second that is called "reactor". The "reactor" is made up of two "subparts"; one that has been called from a generic generic formula "channeling structure" and the other according to the same generic generic mode "reactive volume assembly".

The "channeling structure" is itself generically composed of 2 parts; These 2 parts are in the form of 2 "walls", which are relatively face and are therefore mounted in relative vis-à-vis vertically relative to each other. The ratio of dimensions characterizing this "channeling structure" and beyond the entire "reactor" is fundamental to the identity of the device according to the invention; This in particular with regard to the dimensions characterizing the "walls" and in particular their "height" which must be sufficient, particularly with respect to the distance which separates them and which must constitute, in view of this "height", a space of separation relatively limited, so to form the "channeling structure", where takes place intermediately "reactive volume assembly" consisting of "plastic stops", the last elements of the "reactor"; "Plastic abutments" which must also determine, according to their length, a relatively "height" of the "walls" of the "channeling structure" of the "reactor"; Likewise, the separation space of the "walls" of the "channeling structure" must provide a distance capable of allowing sufficient latitude for the installation, deployment and internal implementation of this "reactive volume assembly". the description of which follows below. This separation distance between the "walls" can vary between different points and areas thereof.

Similarly, these "walls" are not to be understood as necessarily flat but can adopt different and varied curves and shades and this whatever the direction in which they are taken and are considered, they can also include unevenness, indentations and / or growths of material of all kinds in their structures (striations, grooves, furrows, notches, "bumps", etc.). In the same way the leading edges of these "walls" may not follow axes that continuous, but adopt breaks or hyphenation and other curvatures. These "walls" of the "channeling structure" can determine a different shape relative to each other, and this in particular, both in terms of profiles and in terms of cut. With regard to their length, these "walls" can be of very variable dimensions.

"The reactive volume assembly" as previously mentioned, therefore comes to be located in the internal space separating the 2 "walls" of the "channeling structure" so as to be attached to it in any location deemed useful to allow at least part of it and thus relatively solidarization; This attachment can for example and in particular be transverse to the "walls", particularly in the relatively median part of the "height" thereof. The leading edges of the "walls" are to be understood as possibly constituting, at least in part, a possible basis for their attachment. This "reactive volume assembly" therefore consists of distinct elements, separated from each other but unitarily coherent with one another, generically called "plastic abutments" which react in concert with the aquatic mechanical flows that come to apply thereto and this, due to the physical - mechanical effort generated by the user of the device; These "plastic abutments" are thus presented, and are shaped so as to treat these flows of water, flow of water that is printed to them and to which they are confronted to reorient them relatively to the rear of the direction in which one is heading; Their generic name qualifying them as "plastics" is to be understood in a broad sense and implies in terms of materiality all possible qualities to act towards the environment and therefore from the most flexible material quality to the most rigid, given that their action "plastic" and mechanical operates above all towards this aquatic environment itself and this whatever their reality or material aspect; Thus, these "plastic abutments" can they, and especially as they are more or less related to the "walls" of the "channeling structure" and / or according to their quality in terms of materiality and / or their shape to present themselves and be qualified for example and especially as "palmettes" or else, another relatively "opposite" example, and always according as they are more or less related to the "walls" of the " channeling structure "and / or according to their quality in terms of materiality and / or form always, be qualified and present themselves as" foils "; Several stops of different type can be associated within the same device of course. These "plastic abutments" have a sufficiently "confronting" surface and "catch" profile so that the assembly involved in the operation of the device renders them capable of a sought-after and efficient reaction towards the aquatic environment; Similarly, they will be sufficiently long and / or wide so as to be able to "capture" and interact with the streams of water in general to obtain the desired effect. These "plastic stops" (one or more) can adopt all orientations considered useful and this individually or collectively; And so orientations of the most varied in relation to the general orientation of the rest of the device and in particular the "footwear". They can thus each, all together or several sets orient in a particular direction, likewise and consequently, adopt an angle of attachment and positioning not perpendicular to the average plane of the "walls" of the "channeling structure". They (one or more) can still adopt all locations considered useful and therefore, can in the intermediate space of the "channeling structure" and from there, to be placed at any possible place of its internal surface and in particular in the sense of its "height" (sense of "height" which corresponds to the plane in which the knee of a user articulates and therefore folds and unfolds, and consequently to the orientation plan of the "kick" of the "Footwear"). The "channeling structure" of the "reactor" can thus accommodate in this "height" on several levels or "floors" a variable number of "plastic stops" overlapping completely or in part. The "footwear", according to its plane of support relative to the ground is placed relatively perpendicular to the plane in which are the "walls" to which it is attached and their interval or space separating them. Similarly, this "footwear" is placed along any axis of orientation chosen in this same relatively vertical plane of the "walls"; thus, this axis of orientation of the "footwear" can vary significantly in the vertical plane so as to be placed at a different angle, and this more or less than with that of the average orientation angle of the elements of the "Reactor" and that given in particular to "walls"; concretely, the average general orientation angle of the "reactor" and above all that of the "walls" of the "channeling structure" can in particular determine and make, for the sake of a better ergonomics, that it pursues relatively in terms of extension, the average angle of the slope of the "kick" of "footwear" equipping a user, which necessarily implies for the latter part "footwear" of the device an orientation angle selected in this respect in the vertical plane.

All parts, parts and components characterizing the device can be any possible materials; Similarly, all the parts, parts and components characterizing this device can each be "composite" and thus be formed of several materials associated and / or different mechanical qualities and / or complementary. For example, the "plastic abutments" of the "reactive volume assembly" can thus be "composite" and be formed of several materials with different mechanical qualities such as, for example, flexible and deformable plastic structures under the influence of the applied water, in combination with more rigid bodies less deformable. In a way, and from a global point of view, the "reactor", its elements, treat the flow of water that engulfs there like a raz; Thus, captive water, forced and clamped laterally and relatively lengthwise by the "channeling structure" is thus trapped and constrained by the "reactive volume assembly" and its "plastic stops" that concretely treat it, and finally allow "acceleration". According to particular embodiments:

- the "walls" of the "channeling structure" are divided or subdivided into pieces that are interconnected by

"Joints"; Thus, these "articulations" of pieces of "walls" of "channeling structure", allow to obtain a "twist" effect or rather of "folding" longitudinal in the plane of the "walls", the activation of the device by the user producing the dynamic torsion of the "reactive volume assembly" consisting of "plastic abutments", which simultaneously induces longitudinal folding of the entire "channeling structure" and its "walls" consisting of their joined pieces between them by the joints; this makes it possible to stick ergonomically, mechanically and in a flexible way to the waving movement of vas and come printed by the swimmer and his legs in action. These "articulations" connecting these subdivisions of the "walls" of the "channeling structure" into pieces are particularly indicated to equip the models of "reactors" beyond a certain dimension.

- The "footwear" can be "double" to accommodate two feet grouped together more or less close together.

- the "reactor" and in particular its "walls" of "channeling structure" may include in relation to the "footwear" an elevation difference marked enough to determine a staggered location of the "footwear"; Thus, the "reactor" may include in its junction zone with the "footwear" a height difference in height, taking the appearance of a significant extension of its "walls" of "channeling structures" in relation to the place of the "footwear" so that between others during the use of the device on the surface of the water, the bulk of the "reactor" penetrates it deeper, thus risking to cause less parasitic effects, such as swirl, noise .. etc., with the surface. These unevenness extending the structure of the reactor and in particular its "walls" may take all useful and other aspects including those necessarily related to

"Walls" in question (it may be extensions of "tubular" appearance for example). - the "reactor" can adopt a conformation so that its two major constituents merge with each other to form a single part; so that the "reactive volume assembly" is no longer a remarkable extension and prominence but merged with the "channeling structure" and its "walls".

the two "walls" of the "channeling structure" can be connected together in any place of their structures as well as according to and thanks to all useful types of material extensions connecting them; These connections can be made in particular some continuums and / or parts of their edges of attacks but also between these "walls" from any point thereof and therefore within the space created between them; they may consist of junctions of matter more or less simple, light or important, which may be related in particular to consistent material extensions supporting, linking them, and adopt very varied conformations; This implies that the "walls" can be connected together to the "footwear" (A). The leading edges of the "walls" in particular can connect to each other over lengths that may vary and this, without any prolongations inevitably continue in a continuous and rectilinear manner the surfaces of the "walls".

- the "joints" linking the pieces of "walls" of the "channeling structure" between them can be in the form of "axes", also called "articulatory axes".

- the "walls" of the "channeling structure" of the "reactor" and the "articulations" of their pieces between them can be constituted by an articulatory mode operating "by folding" of material, material resulting from the "walls" themselves according to they consist of one or more associated materials and / or by means of remarkable architectures such as in the form of "articulatory folds" in particular; "Folds" resulting from or associated with the structure of "walls" and their pieces and which may allow them to twist or "bend" in the longitudinal plane. These "articulatory folds", other than coming from the very material of these pieces of "walls", may be again, be of a material nature different from that of the rest of them; they will thus be able to adopt, for example, material qualities capable of favoring more flexibility and thus greater torsional and reactivity yields; The use of textile-type materials and / or soft and / or elastic type coatings can be envisaged, for example.

But again, this articulatory mode operating "by folding" of material in any way that it presents may consist of a zone using in part or in whole a thickness less than that of the average of the rest of the pieces of "walls" of origin.

- The "joints" of the pieces of "walls" of the "channeling structure" can associate "rebound systems" such as "springs", interacting springs and dynamically between the pieces. This principle is particularly devolved to be added to articulatory modes using "axes" or axial principles.

- the "joints" linking the pieces of "walls" of the

"Channeling structure" can be formed and be made effective by "articulations" acting on several eccentric support points for a single articulatory focus articulations of the type "articular axial stops" in particular and for example, presenting in this manner eccentric and in several distinct points of support. - the dividing or subdividing pieces the "walls" of the

"Channeling structure" are provided with one or more "rebound systems" type "elastic frames" associating with the "walls" by connecting two or more pieces together; This system called "elastic reinforcement" can be placed relatively along the pieces of "walls", and aim to induce a dynamic effect to the process of articulation thereof once the entire device is put into action. This system can be in one continuous piece, or in several pieces between several pieces; It can be constituted if necessary in addition to being a "rebound system" only, as a unique articulation system pieces of "walls" of the "channeling structure", but which can also join and / or add to other articulation systems.

- (according to the particular embodiment above)

"Rebound systems" of the "elastic reinforcement" type associating with the "walls" by connecting two or more pieces together can be "adjustable" so as to be able to remove an elastic tension selected according to need and using adjusting and blocking systems such as using the bias of screws or notches for example.

- the "canalizing structure" may include and be equipped with what are called "penetrating spars" or "super hydrodynamic leading edges" and which are placed at the mouth of the water inlet / outlet of the "Channeling structure", and in the separation interval of the "walls" of it. These "penetrating spars" or "super hydrodynamic leading edges" appearing for example in an aspect similar to "rods" or spars will have, in addition to a role destined to especially serve as elements of hydrodynamic penetration and / or parallel elements intended to serve as additional leading edges a protective role to counter external shocks.

These will be fixed in particular to the "channeling structure", thanks to extensions of material in support, but still potentially to the "footwear" itself. They may, in the case where the "walls" of the "channeling structure" are subdivided into pieces and thus provided with "joints", or be of a material nature plastic to constitute in themselves a longitudinal system capable of to be twisted so as to follow and obey the general movement of torsion printed by the activation of the device. Otherwise, an articulatory rendition can also be obtained by means of "articulatory breaks" consisting of hyphenation or zones of less thickness, as permitted by "notches" or even gaps, for example, inscribed in the structure itself. these "penetrating spars" or "super hydrodynamic leading edges" and which, placed along these structures and in particular in the continuum of "joints" assembling the pieces of "walls" of the "structure" channeling "between them, allow and / or facilitate the torsion of these" penetrating longitudinal members "or" super hydrodynamic leading edge ".

- the "canalizing structure" may include "palm - like micro - structures" in the form of "longitudinal members" or "fins" of any possible material nature, which, arranged especially on the outer side of the "walls", will have the function of ability to increase and / or better control the mechanical action induced and / or sought after in the aquatic environment. The "fins" in particular, as "palm-like micro-structures", depending on whether they can be attached in greater or lesser extent to the "walls" in particular or more or less thick, for example, may consequently be related to a large extent the "plastic stops" of the "reactive volume assembly". the set of parts constituting the device and particularly the body of the "walls" of the "channeling structure" may comprise "openings" or "openings", of variable shapes and sizes devolved in particular but not exclusively to let in / take out the streams of water; the "footwear" may for example have at the heel one or more ajourements without it or those are primarily intended for the water to circulate.

- The "footwear" can vary in its footwear and thus be more or less "low" or "high", this, from the level of the feet upwards in the legs, and in particular up to the level of the calves.

- the "footwear" may be "openable - reclosable" and in this way more or less potentially "adjustable", by any appropriate system; the "footwear" may thus include various systems of apertures - closures qualifying a particular attention to the foot and leg, placed in a manner that may vary, but may in particular be positioned on the sides and / or front; Opening - closing systems such as: clips, laces (eg "rubber" or any "plastic" related material), straps, snaps, velcro, zippers, zips, buttons, etc. .

- the "footwear" can also be "adjustable" and adjustable and potentially "openable - reclosable", its rear portion being, for example, relatively left gaping and open, and include an adjustable tab encapsulating and "belting" at and around the regions of the Achilles tendon and heel; This tongue system, removable or not, can finally be adjusted, and this in particular thanks for example to strapping systems and / or clamps (eg type "adjustment loops") adapted, and to maintain the whole foot in the "footwear". - The "footwear" part may allow to respect the physiological specificity and formal form of each foot in particular and therefore, can be conformed to accommodate either a right foot specifically, but still to be able to accommodate a left foot specifically, this to ensure especially more grip and support during the particular use of the device according to the invention. The "footwear" part will thus be able to understand in a specific way all characteristics capable of respecting the formal identity of the feet in their physiological particularities and consequently consequently determining in its structure corresponding forms in part or in full to, in particular, the footprint of a left foot but still a right foot. This "footwear" part will thus be able to respond and be shaped to the image of the specific forms of each of these asymmetrical parts of the human body, while respecting, for example, the recessed shapes of the respective plantar arches punctually.

- all parts and "parts" of the device ("footwear", as well as "walls" of the "channeling structure" and "plastic stops" of the "reactor") are removable between them and to be able to fix or subtract reciprocally each one of the others through one or more attachment points materialized by one or more "fastening systems" adapted, as allowed by one or more "screws" for example or "velcro" systems, "clip" etc. .., and especially for "plastic abutments" for example so that they can be easily interchangeable; "Platinum" type structures can come to base and / or support these "fastening systems" and in particular with regard to the possible "screws".

- the junction of the "footwear" and "reactor" parts perhaps

"Adjustable" according to one or more points or "centers" adjustment - blocking to allow to change the orientation angle of one of these parts relative to each other and therefore to be able to block the respective positions. This junction can therefore be "adjustable" and not fixed and irremovable at the beginning and be constituted by a type of articulation module "bipolar" or "fork" for example, which is currently called "axial connection" "bipolar" ; The term "bipolar" means that it is an articulatory assembly constituted by two points of articulation that are distinct from one another but serve a single axial alignment, and thus give a one and the same coherent whole; This articulatory assembly of the "axial connection" type differs mainly from the "articulations" of the pieces of "walls" of the "channeling structure" of the "reactor", and is therefore differently named by the fact that it supports and intermediates a object "outside" which in this case, the device is here the part

"Footwear". This hinge module or "axial connection""bipolar", is thus made "adjustable" via "fastening systems" such as for example "screws" and that can add concomitant "threads"; Likewise, these "bipolar" and "adjustable" axial connections may be terminated by "fixing washers" devolving in particular to associate the "fastening systems", and thus in this case "screws" for example. This junction between "footwear" and "reactor" can also be made "adjustable", so as not to be fixed at the outset permanently, according to the principle of several "centers" junction and "adjustment" associated in particular to to have the benefits of a better secured fixation while still making it possible to vary the angle of incidence of the "footwear" with respect to the general angle of the "reactor" in the vertical plane. These "centers" or "attachment levels" can be broken down into a first junction such as for example by an "axial connection""bipolar" and "adjustable";"bipolar" because constituted according to two axial points which are distinct from one another and serve the same axis, and made "adjustable" via a suitable "fixing system" such as for example "screw", and which therefore constitutes a first connection or a first "level of attachment" that can be associated with a second junction, such as "connections by notches and cleats" for example which it would ensure the bulk of the "adjustment" while allowing a secure fixation of all ; "Graded system with notches and cleats", associating in itself the presence and the complementary action of "notches" which will be dedicated to welcome "cleats" to block them in their breasts, one or other of these two elements that can be attached alternately from the "footwear" or "reactor". In another way, the junction between "footwear" and "reactor" may be further constituted by an "axial" connection "continuous" and "adjustable" without hyphenation or subdivision (caused in this case by an "obstacle" or an "object", as here, a "footwear"); This type of junction may be assumed by a "ferry" axis, attaching to the passage an extension of material from the "footwear" part which indirectly allows the connection to the "reactor" part. This "axial connection" thus "continuous" through a "ferry" axis is made "adjustable" via a "fastening system", for example by means of a "screw" system, which allows to adjust the angle of incidence of the "footwear" part with respect to the general orientation angle of the "reactor" in the vertical plane. the junction between "footwear" and "reactor" may be "mobile and dynamic" according to one or more points or "centers" of mobility to which one associates one or more "rebound systems" such as for example "springs"; This junction between "footwear" and "reactor" can for example be constituted by a hinge module type "axial connection""bipolar" and nature is not "adjustable" this time, but specifically "mobile" and dynamic; "bipolar" because constituted by two axial points distinct from each other, placed at the service of the same axis, and thus made "mobile" and dynamic through the addition of "rebound systems", such as by example as via "springs", springs joined to the axial mechanisms of these connections and interactants between the "footwear" and "reactor" parts. Similarly, the junction between "footwear" and "reactor" can also be made "mobile" and dynamic according to the principle of several "centers" or "levels" of mobility associated; Thus, an "axial connection""bipolar" and "mobile" may constitute a first "center" junction and articulation; ("bipolar" because constituted by two axial points distinct from one another but put at the service of the same axis, and "mobile", because of being left free of any restraint); This "axial" connection "bipolar" and "mobile" thus forms a first "center" junction and articulation that is associated with a second, constituted for example by "dynamic links pushers", which allow, via "Rebound systems", materialized for example by "springs" and complementarily coupled for example to "pushers" to come in some way

"confront" and interact synergistically with each other and produce a dynamic mobility effect provided to the entire "footwear" juncture - "reactor"; The elements "pushers" and "springs" can be placed and attached alternately from the "footwear" or "reactor". The junction between "footwear" and "reactor" may be further constituted by an "axial" connection "continuous" and "mobile" without hyphenation or subdivisions (caused in this case by an "obstacle" or an "object" as here a "footwear"); This type of junction can be assumed by a "ferry" type axis, attaching to the passage an extension of material from the "footwear" part which indirectly allows the connection to the "reactor" part. This "axial connection" thus "continuous" via a "ferry" axis is also made "mobile" and dynamic by the addition of "rebound systems" such as for example one or more "springs". Mounted in connection with this "axial connection""continuous" assumed via a axis type "ferry". - A part called "armature" can take place on the swimmer's legs and in particular on its calf portion and joins the "footwear" and / or "reactor" parts by being able through one or more extensions solidarisant more or less firmly with the device and according to one or more articulation junction points allow a measured and sufficient mobility effect between this "armature" part and the rest of the device and such as can be present connected and therefore reciprocally so potentially "removable"thereof; This part "frame that can be placed and connect in particular to their junctions, and which can take place mainly on the calves of the swimmer. These "reinforcements" are intended to support and accentuate the general action of the device in terms of control towards the aquatic environment, but also in terms of yield and power released, and this thanks to a reinforced support that they provide the rest of the device globally once the body of the swimmer in action; These "armatures" will have to denote a conformation associating particular mechanical qualities and sufficient in term in particular in part of rigidity and / or which are able to allow a convincing result of action. These "frames" are to be based on the legs, either by fixing them and / or threading them, and can be placed there even in the extreme limits of these, this, from the perimeter of the foot until higher in the legs, calf to be their most obvious generic site home for them to "baste" there. This "armature" part will be connected in support of the device by one or more junction points sufficiently "mobile" and / or flexible to give free rein to the movement while ensuring its mission of reinforced support;

These junction points with the rest of the device may be for example an "axial connection" "bipolar", "bipolar" because constituted by two points of articulation distinct from one another, that separates one or several objects that it supports between its two points of articulation that serve and together determine a single coherent axial alignment. The means they will have to be attached to the leg will vary.

- all joints using axial systems such as "articulations" of the type "articulatory axes" or of the type "Axial connections" or similar, such as "axial stops" can associate their respective axes, one or more mechanisms of the type "bearings", including for example bearings called "ball", in order to to facilitate mechanical mobility; these systems of "bearings" will be nonlimiting especially associated, as is the conventional way, the periphery of these different types of axes to enclose them within them, and without limitation, still be positioned and place themselves just as the axes most often, on and from the "walls" of the "channeling structure" of the "reactor".

These systems of "bearings" may be of a nature not allowing corrosion or mechanical pollution from outside that would come in particular from the marine environment, such as sand, particles, etc ... - "walls" "additional channeling structures" to those of the generic structure can come to join them (and / or "footwear") to somehow complement and interpose and place themselves between them; Therefore, this automatically and simultaneously conditions and authorizes the existence and / or the possibility of a

"multiplication" of the number of "reactive volume assemblies" and their "plastic stops" able to be placed between the new interstitial spaces thus created and / or their division or subdivision into pieces which are interconnected by "articulations" . These "walls" of "additional channeling structure" may also if necessary be superimposed in whole or in part with others or original ones. They can potentially, more specifically and notoriously vary in terms of shapes and dimensions compared to the generic "walls".

- the "joints" can be "traverses" and thus connect from side to side each "wall" of the "channeling structure" and their pieces to the other; These "transverse joints" can therefore also cross "plastic stops" of the "reactive volume assembly" (one or more), in the case of "articulatory axes" in particular, while allowing, if necessary to ensure potentially only the attachment.

- F "reactive volume assembly" can benefit in the internal space of the "channeling structure" of the presence of "bumpers" and / or or "deflectors" for better control of water flows; "Bumpers" which, when the "plastic stops" (one or more) are put into action and close to the end of their course and their maximum bending limit, and this in one way or the other, interpose as obstacles providing a final deformation to the "plastic abutments" (one or more still) that come and "abut" by causing a bulge in their plastic structure, which ultimately leads to a deflection of the water flow even more towards the back. These "bumpers" can be of the "ferry" type, and thus go from one of the "walls" to the other of the "channeling structure". In a very closely related manner, the internal zone of the "channeling structure" and its periphery can therefore be equipped with "baffles" and particularly with "baffle" baffles that are placed and interposed in the width of the "channeling structure" and therefore between the "walls" of the latter where, in addition to acting as "stops" opposing the "plastic abutments" (one or more) of the "reactive volume assembly" as previously, may prolong the deviation the flow of water generated and resulting from the activation of the latter. These "baffles" can be either fixed or mobile, and this in particular being either "adjustable" by the action of man or be influenced in their mobility by the printer action of the water flow once the device put into action; but still, to be more or less flexible or rigid, and thus to associate several materials in their structures, and to benefit from varied cut-outs at their edges or even from internal cuts.

the "walls" of the "channeling structure" of the reactor can be formed from structures of the frame and / or reinforcement type to which are added to complete relatively flat type structures. These structures of the frame and / or armature type can form an architecture resembling a framework or a skeleton and / or a frame on and / or between which are placed these relatively planar type structures; Each of these additional parts may be made of any possible materials or of several materials associated and / or different mechanical qualities and / or complementary; These structures of relatively flat type may include, for example, and be constituted by textile-type materials or plastic double quotes; Similarly, these relatively planar type structures will be able to maintain and / or to fix and / or cover the structures of the frame and / or reinforcement type, this by any corresponding means. these same relatively flat type structures can be of any useful thickness.

- the "plastic abutments" (one or more) of the "reactive volume assembly" may be present in their structures even in conformations of various internal and external forms and cuttings, such as in particular provided with various borders, architectures notched ("split" for example), "valvaires", etc.

- the "plastic abutments" (one or more) of the "reactive volume assembly" can be presented in their structures and their thickness in conformations of "volumic" type presented according to subdivided architectures deployed on different levels and / or directions and thus occupying a notable space in the three dimensions of space as well as potentially, without remarkable imbalances between all these dimensions; This in particular being able to unfold and occupy particularly one or more spaces thanks to remarkable material extensions or because of organized protuberances for example; thus, these "plastic stops" (one or more) can be according to an architecture that is "split" so to speak or "subdivided", that is to say unfolding on different levels and / or in different directions.

- The "reactive volume assembly" may have one or more of the "plastic stops" constituting it which bear only on one of the internal faces or "faces" of the "walls" of the

"Channeling structure". In this way and correlatively to this possibility, two or more "plastic stops" of this type at least can be mounted relatively "in front" of each other so as to "align" relatively, so that the space between them can be reduced to nothing and / or be left free and open more or less widely. These associations of several "plastic abutments" of this type determine and together form unitarily coherent synergetic micro-systems.

the "plastic stops" (one or more) of the "reactive volume assembly" of the reactor are "adjustable" in terms of orientation of their position relative to the rest of the device, for example by means of the addition of one or more screws.

- The "reactive volume assembly" and its "plastic abutments" may be presented "in one piece" in a single unified block in which preformed and / or "cut off" forms with resulting qualities comparable to those of "plastic abutments" Generic, and not so as to be a set of distinct and complementary bodies acting in concert. This more complete homogeneity for an approaching result can thus be obtained and realized concretely from a single block fixed in the range of the "walls" of the "channeling structure", and which can be of a more or less plastic nature. and reactive for example, in which "plastic stops" will initially appear in its mass and which, by their conformation will be able to interact mechanically by the action and the aquatic environment.

- The "reactor" may have a "reactive volume assembly" reduced to a single "plastic stop" and this especially in view of the length chosen for the "reactor". - "plastic abutments" (one or more) of the "reactive volume assembly" may be attached to the "footwear" part, and this in part or only, and in particular at its front part, in order to limit usefully in size and length the entire device and especially its "reactor" part, using a useful space. The indexed drawings illustrate the invention:

Figure 1 shows the device of the invention in perspective. Figure 2 shows a side view of the device of the invention. 3 shows a top view of a variant of the device according to the invention, describing a "footwear" part accommodating two feet.

FIG. 4 is a profile view of the device according to the invention, describing a "footwear" portion oriented in the continuity of the length of the "reactor" portion. FIG. 5 is a side view of a variant of the device according to the invention, describing a height difference in "height", between the "footwear" part and the "reactor" part, due to an extension of the "walls". "Of the" channeling structure "of the latter. FIG. 6 is a perspective view of a variant of the device according to the invention, describing the possibility of joining at certain points the ends of the "walls" of the "reactor". FIGS. 7a, 7b, 7c, 7d and 7e point out FIG. 6 and represent in section according to this same variant, several possibilities and forms that can be adopted by the "walls" of the "channeling structure" of the "reactor" once their ends of "walls" joined at certain points. FIG. 8 represents a top view of a variant of the device according to the invention, describing the possibility of adding to the two initial "walls" of the "channeling structure" of the "reactor", additional "walls".

FIG. 9 represents in profile a variant of the device according to the invention, which describes a section of the "reactor", accounting for the possibility that the "walls" of the "channeling structure" are subdivided into interconnected pieces made mobile by "joints".

FIG. 10 represents and specifies the variant of FIG. 9 and the "articulations" of pieces of "walls" of the "channeling structure" in view from above, and also represents within it the posibility of axial "articulations" of type

"Ferries", allowing to gather from one side a "wall" of "channeling structure" to another, and this, more "directly" only through connections of those obtained by the only "plastic stops".

FIGS. 11 and 12 represent in profile the variant presented in FIGS. 9 and 10 and which describe a "reactor" section whose "walls" of the "channeling structure" are subdivided into pieces interconnected and rendered "mobile" by "Joints"; Figure 11 showing the device "at rest" and Figure 12, once it put "in action". FIGS. 13 and 14 show successively in profile and in plan view, a section of the "reactor" which describes according to FIG. 9 a variant and possible variation of the conformation and the arrangement of the pieces of "walls" of the "structure" channeling "between them. FIG. 15 represents in perspective the device according to the invention equipped with the variant described in FIG. 9, FIG. 9, which accounts for the possibility that the "walls" of the "channeling structure" are subdivided into interconnected pieces made mobile by "joints". FIG. 16 shows in profile the device according to the invention equipped with the variant described in FIG. 9, FIG. 9 which accounts for the possibility that the "walls" of the "channeling structure" are subdivided into interconnected pieces made mobile by "joints". FIG. 17 represents a view, in plan view, of a variant of the device according to the invention, describing a "footwear" part accommodating two feet, associated with a "reactor" equipped with the variant described in FIG. 9, FIG. which accounts for the possibility that the "walls" of the "channeling structure" are subdivided into pieces interconnected and rendered "mobile" by "articulations".

FIG. 18 is a profile view of the device according to the invention describing a "footwear" portion oriented in the continuity of the length of the "reactor" portion and equipped with the variant described in FIG. 9, FIG. possibility that the "walls" of the "channeling structure" are subdivided into pieces interconnected and rendered "mobile" by "articulations". FIG. 19 represents in relation to FIG. 5, in profile view, a variant of the device according to the invention, describing a height difference supported in terms of "height" between the "footwear" part and the "reactor" part, and which presents here the latter part "reactor" associated with the variant described in Figure 9, Figure 9 which reflects the possibility that the "walls" of the "channeling structure" are divided into pieces interconnected and made "mobile" by " joints ". FIG. 20 represents, in relation to FIG. 6, in perspective, a variant of the device according to the invention describing the possibility of joining at certain points the ends of the "walls" of the "reactor", variant here associated with that described in FIG. 9 , figure 9 which accounts for the possibility that the "walls" of the "channeling structure" are subdivided into pieces interconnected and made mobile by "articulations".

FIG. 21 represents, in relation to FIG. 8, a top view of a variant of the device according to the invention, describing the possibility of adding to the two initial "walls" of the "channeling structure" of the "reactor", "walls" »Additional; this variant is here associated with the variant described in Figure 9, Figure 9 which reflects the possibility that the "walls" of the "channeling structure" are subdivided into pieces interconnected and made "mobile" by "joints".

FIGS. 22 and 23 show successively in profile and in plan view a section of the "reactor" of the device according to the invention which shows, with respect to the variant accounting for "walls" of "channeling structure" subdivided into interconnected pieces and made mobile by "articulations" described in Figure 9, the possibility of adding "rebound systems" to these elements, here in this case "springs", interacting between these elements. The representation of "springs" in this figure is left "in transparency" for more readability.

FIGS. 24 and 25 show successively in profile view and in top view a variant of the device according to the invention which shows, with regard to the variant accounting for "walls" of "channeling structure" subdivided into pieces interconnected and rendered "mobile" by "articulations" described in FIG. 9, the possibility of an "articulatory mode" or of Particular "articulation", named by "articulatory axial stops" is seen by several eccentric "articulatory support points", put at the service of one and the same articulatory hearth shared, and which can as is the case here and specified in Figures 22 and 23, add "rebound systems" such as "springs".

Note that this variant is here presented from another variant described in Figures 13 and 14 and shows a way of assembling the pieces of "walls" of the particular "channeling structure". Figures 26, 27 and 28 show successively in profile view and in top view and in profile view again, a variant of the device according to the invention which shows. relative to the variant accounting for "walls" of "channeling structure" subdivided into pieces interconnected and rendered mobile by "articulations" described in FIG. 9, the possibility of a particular "articulatory mode" or "articulation" , operating by means of "articulatory folds" acting according to a principle "by folding" of material, in this case here, the material resulting from the "walls" of the "channeling structure"; Figure 28 shows the same section of this variant in profile view once the device put "in action". FIGS. 29 and 30 show successively in profile and in sectional view a section of the "reactor" of the device according to the invention which shows, with respect to the variant accounting for "walls" of "channeling structure" subdivided into interconnected pieces. and made mobile by "articulations" described in Figure 9, the possibility of adding "rebound systems" to these elements, here in this case a system of "elastic frames" placed relatively along the pieces of " walls, and aiming at inducing a dynamic effect to the articulation process of the latter once the entire device is put into action. FIGS. 31 and 32 successively represent, in section and in profile view, a section of the "reactor" of the device according to the invention, describing a variant equipped with a system of "penetrating beams" also called "super hydrodynamic leading edges";; They can describe by a conformation and plastic material nature, an elastic and therefore dynamic behavior able to support, in the same way as a "rebound system", the possible variant of "articulations" linking the pieces of "walls" of the "canalizing structure" of the "reactor" between them and described above all in FIG. 9. For practical reasons of evocation, this variant of "penetrating spars" or "super hydrodynamic leading edges" is here represented associated with the variant described in FIG. 9 and which thus allows the "walls" of the "channeling structure" to be subdivided into pieces interconnected and made mobile by "articulations". Figures 33, 34 and 35 show in profile examples of the variant of "penetrator longitudinal members" or "super leading edges" already described in Figures 31 and 32, showing these "penetrator longitudinal members" or "super leading edges" may include various "articulatory recesses" or other areas of smaller thickness in their structure, so as to allow or facilitate the torsion during actuation of the device in the case where, according to the variant shown in Figure 9, the "walls" Of the "channeling structure" are subdivided into pieces interconnected and made movable by "joints" Figures 36a and 36b illustrate two drawings to be considered together, and which represent the "reactor" of the device according to the invention in section and the possibility of possible differences, especially in terms of shapes and profiles, between each "wall" of the "channeling structure". FIGS. 37, 38 and 39 represent related variants of the device according to the invention, indicating the possibility of adding to the device according to the invention, "plastic micro-structures" of "stringer" or "fin" type of plastic natures arranged especially outside the "walls" of the "channeling structure" and to help better interact towards the aquatic environment, in particular with a view to using the device during small movements. FIGS. 40, 41 and 42 represent the same variants as before, but they are added to devices according to the invention comprising variants as shown in FIG. 9 which describe "walls" of "channeling structure" subdivided into pieces connected to each other and rendered mobile by "joints"; these allow sizes of "larger reactors. FIG. 43 is a side view of the variant of the device according to the invention as illustrated in particular in FIGS. 37, 38 and 39, showing "plastic micro-structures" such as "fins" or other "longitudinal members", and the possibility of positioning them in various ways on the external surface of the "reactor" in particular.

FIG. 44 represents a side view of the variant of the device according to the invention as illustrated in FIG. 43 and in FIGS. 40, 41 and 42 in particular, showing "palmating microstructures" such as "fins" or other " longitudinal members "of plastic nature, and the possibility of positioning them in a varied manner on the outer surface of the" reactor ", this in the case where, as in the variant described in Figure 9, the" walls "of the "Channeling structure" are subdivided into pieces interconnected and made mobile by "articulations".

FIGS. 45 and 46 represent, in sectional view, the "reactor" of the device according to the invention and variants thereof as presented in principle in FIGS. 37 to 42 and 43, 44 and thus, some of the possible arrangements. of "micro plastic structures" on the outer surfaces of the "walls" of the "channeling structure" of the "reactor". Figures 47 and 48 illustrate in profile a section of "reactor" which each have two known possibilities of locations for the "plastic stops" of F "reactive volume assembly" within the "channeling structure" of the "reactor"s' acting on the variant described in FIG. 9 where the "walls" of the "channeling structure" are subdivided into pieces linked together and made mobile by "articulations".

FIGS. 49, 50, 51, 52, 53 and 54 represent, in profile, various positioning possibilities and orientations for the "plastic stops" of the "reactive volume assembly" within the "reactor" and its "Walls"; These possibilities are represented here from the possibility offered by the variant described in FIG. 9. and which allows "walls" of "channeling structure" subdivided into pieces, linked together and made mobile by "articulations", this for practical evocation reasons related in particular to what in this case, the "reactor" can to be more certainly of an eloquent size. Figures 55 and 56 represent, from the possibility offered by the variant described in Figure 9, and which allows "walls" of "channeling structure" divided into pieces, interconnected and made "mobile" by "joints A variant of the device according to the invention describing in profile, successively, a section of the "reactor" once it is "idle" in Figure 55 and "in action" in Figure 56, and which shows the interior of "Walls" of the "channeling structure" equipped with "bumpers", "bumpers" whose mission is to stop the race of "plastic stops" of the "reactive volume assembly" at the same time as to aim to withdraw from it moment and due to a deformation of their structure, a deflection of the water flow induced by them, and this towards the rear of the device according to the invention. FIGS. 57 and 58 show successively in profile and in plan view, from the possibility offered by the variant described in FIG. 9, and which allows "walls" of "channeling structure" subdivided into pieces, linked together and rendered "mobile" by "joints", a variant of the device according to the invention, describing a section of the "reactor" provided with "deflectors" acting in the manner of "bumpers" shown in Figures 55 and 56, while allowing extend and help to redirect more certainly and more "largely" the flow of water from the "plastic stops" of the "reactive volume assembly" once they put into action. Figures 59, 60, 61, 62, 63, 64, 65 and 66 show in view from above different possible variants of "plastic abutments" for the "reactive volume assembly" of the "reactor" of the device according to the invention; Thus, FIG. 59 shows a "plastic stop""inspatula", FIGS. 60 and 61 show "plastic abutments" with various external cutouts or else, as in FIG. 62, the possibility of "plastic abutments" having internal cutouts, which may be to appear of type "valvaires" in this case there; FIGS. 63 and 64 show possible indentations for these "plastic stops" and, in FIGS. 65 and 66, modulations based on the principle of not connecting some of these "plastic abutments" to only one of the "walls" of the "plastic abutments". 'Reactive volume assembly'. FIGS. 67, 68, 69, 70, 71, 72, 73 and 74 show the sectional "reactor" section and variants of the device according to the invention, describing different models and configurations of "plastic abutments" for F "volume assembly reagent "; FIGS. 67, 68 and 69 being particularly close together and considering according to the variants presented in FIGS. 65 and 66, whereas FIGS. 70 to 74 show possible variants of various "plastic stops" of the "reactive volume assembly" of the type "volume", unfolding according to several levels and / or a large thickness. FIGS. 75 and 76 represent in profile a section of the "reactor" of the device according to the invention and, in particular, variants both describing possible models of "plastic stops" of "reactive volume assembly", appearing on several levels. . FIGS. 77 and 78 successively represent, in plan view and in section, a section of the "reactor" of the device according to the invention and particularly describe a possible "plastic stop" variant, of the "composite" type, thus formed of flexible parts , particularly mechanically deformable. in combination with more rigid parts. FIGS. 79 and 80 show successively in plan view and in section, a section of the "reactor" of the device according to the invention, describing a variant which presents all the "major" elements constituting the "reactor", in this case the "channeling structure" and its "walls", as well as the "reactive volume assembly" and its "plastic abutments", as "in one piece", and therefore intimately associated and somehow "fused" one and the other into a single object.

FIGS. 81 and 82 represent, successively in plan view and in section, a section of the "reactor" of the device according to the invention, describing a variant which presents the "reactive volume assembly" and its "plastic abutments" presenting a single piece ", in a single homogeneous block, and not so as to constitute a set of distinct bodies complementary and acting canned.

FIGS. 83 and 84 show successively in profile view and in top view, a variant of the device according to the invention, describing the junction of the "footwear" and "reactor" parts provided with an "axial" connection "bipolar" and "adjustable"; "bipolar" because constituted by two axial points separate from one another and serving a single axis, and made "adjustable" via a "fixing system" adapted. here, for example, "screws" to vary the angle of incidence of the

"Footwear" in relation to the general angle of the "reactor" in the vertical plane.

FIGS. 85 and 86 represent successively in profile view and in view thereof, a variant of the device according to the invention, having the junction of the "footwear" and "reactor" parts according to an "axial" connection "continuous" and "adjustable" . permitted and materialized in this case and for example here, by a "ferry" axis, taking charge of the "footwear" part by making it possible to adjust the angle of incidence relative to the general angle of the "reactor" in the vertical plane, via a "fixing system" adapted, in this case here "screws" for example. FIGS. 87 and 88 show successively in profile view and in top view, a variant of the device according to the invention, describing the junction of the "footwear" and "reactor" parts made and made effective along several "centers" of junction, in particular in order to have the benefits of "a better secured fixation while still allowing to vary the angle of incidence "footwear" in relation to the general angle of the "reactor" in the vertical plane. These "centers" or "levels of attachment" are decomposed into a first junction such as for example by an "axial connection""bipolar" and "adjustable";"bipolar" because constituted by two axial points distinct from one another and serving on the same axis, and made "adjustable" via a "fixing system" adapted such as for example by "screw", and which constitutes thus a first junction or a first "level of fixation" that one associates with a second junction, such as by "connections by notches and cleats" for example which it, makes it possible to ensure the biggest part of the "setting" while allowing a secure fixation of the whole. One or the other of these two elements can be attached alternately from the "footwear" or the "reactor". FIGS. 89 and 90 show successively in profile view and in top view, a variant of the device according to the invention, describing the junction of the "footwear" and "reactor" parts provided with an "axial" connection "bipolar" and "mobile";"bipolar" because constituted by two axial points distinct from one another and serving the same axis, and thus made "mobile" and reactive through the addition of "rebound systems", such as for example as here "springs" springs joint axial mechanisms of these links. Figures 91 and 92 show successively in profile view and in top view, a variant of the device according to the invention, describing a junction "movable" parts "footwear" and "reactor" made and made effective according to several "centers" associated junctions and "mobile" sets, in particular, in order to have the benefit of "a" mobile "junction and better assured; These "centers" are decomposed into a first junction as formed by an "axial""bipolar" and "mobile"link;"bipolar" because constituted by two axial points distinct from each other and serving the same axis, and "mobile" from being left free of any restraint; This "axial" connection "bipolar" and "mobile" that is associated with another "center" or "level of mobility", constituted for example by "dynamic links pushers" which they allow actually by a set - "rebound system", materialized by "springs" (represented for a better legibility in transparency in the figure), springs coupled to "pushers", to produce a dynamic mobility effect dispensed for the whole of the "footwear" junction -

"Reactor"; These elements "push" and "springs" can be attached alternately from the "footwear" or "reactor" (currently in these figures, the element "push" fits from the "footwear" part while the "springs" "Are listed there since the" reactor "part). Figure 93 shows generically a side view of a variant according to the device of the invention; This describes an "armature" to place on the swimmer's leg, and in particular to "base" on his calf, and which is connected to the rest of the device by a junction which allows, at the same time as a strong hold, also a minimal minimal movement; This junction is constituted for example by an "axial connection" "bipolar"; "bipolar" because constituted by two axial points distinct from one another and serving a same axis. If the junction between the "footwear" and "reactor" parts is not fixed, and is consequently "adjustable" or "mobile", this junction can be connected to the junction points already joining the "footwear" and "reactor" parts Of the device between them.

With reference to these drawings, the device comprises two major parts, a "footwear" part (A) and a "reactor" part (B); The latter comprises a set called "channeling structure" (1) formed by two "walls" each mounted relative to each other and between which is joined the "reactive volume assembly" and the "plastic stops" (2) which the constitute and react dynamically by their mechanically plastic nature when the device is put into action.

In the embodiment according to FIGS. 9 and 15 in particular, the "walls" of the "channeling structure" (1) can be broken down into pieces articulating with each other by means of "articulations" (3) which can be materialized by means of "Articulatory axes"; In the embodiment according to Figure 10, these "articulations" (3) can also be of the "cross" type (4) so as to connect from side to side the "walls" of the "channeling structure" (1) and their pieces between them. The pieces of "walls" of the "canalizing structure" (1) can be rendered remarkable and "legible" by their separation zones also called "articulatory recesses"(5); In the embodiment according to FIGS. 22 and 23, the spring-type rebound system (6) can be associated with the peripheries of the "articulations" (3) and thus with these "articulatory axes" walls "of the" channeling structure "(1).

In the embodiment according to FIGS. 24 and 25, an alternative system of "articulations" (3) of pieces of "walls" of the "channeling structure" (1) between them, referred to as "axial stops" can be used and be provided secondarily "rebound systems" (6), and here in this case, "springs", again allowing, in addition to producing a mechanically significant rebound effect, to allow a better constrained axial tracking and dynamic. In the embodiment according to FIGS. 26 and 27 and incidentally 28, the articulatory mode of the "walls" of the "channeling structure" (1) can vary and be replaced by "articulations" (3) taking the form of a system by structural folding called "system by articulatory folds" or "articulatory folds" subdividing and articulating the pieces of "walls" of the "channeling structure" (1) between them and articulating them. In the embodiment according to FIGS. 29 and 30, another variant of "rebound system" (6) of the "elastic reinforcement" systems type can be added to the "walls" of the "channeling structure" (1). long or fragmentary, and produce and form, in addition to a "rebound system" (6), an articulatory system or "articulations", consistent secondary accompanying the movement printed by the swimmer. These "elastic frameworks" are more or less superficial in their body or interlocking with the "walls" of the "canalizing structure" (1) and their pieces. In the embodiment according to FIGS. 31 and 32, and according to a variant of the According to the invention, "penetrating spars" or "super hydrodynamic leading edges" (7) can take place around the entrances and outflows of the "walls" of the "channeling structure" (1) and serve as bumper protections against the environment that may be encountered, as well as office structures designed to improve the hydrodynamics of the device; These "penetrating spars" or "super hydrodynamic leading edges" (7) can exploit, at least in part, the same qualities in terms of mechanical and dynamic input as those of "rebound systems" (6) said by " Elastic reinforcements "presented above, that is to say that they themselves can constitute by their nature and / or plastic material a dynamic system capable of rebounds; In the embodiment according to FIGS. 33, 34 and 35, their folding can be facilitated by means of "articulatory rupture" consisting of smaller thicknesses and / or truncations inscribed in the structure thereof. . In the embodiment according to FIGS. 37, 38 and 39, plastic "spars" or "fins" of plastic nature, to be understood by "palm-like micro-structures" (8) can be placed along the "walls" of the " channeling structure "(1) and allow a booster mechanical effect and support, able to produce increased control of the device according to the invention to the aquatic environment. In the embodiment according to FIGS. 55 and 56, "bumpers" (9) can be placed in the range of the "walls" of the "channeling structure" (1) of the "reactor" (B) to allow stop the race of the "plastic stops" (2) of F "reactive volume assembly" and, at the same time, by putting in stress due to the presence of these "stops" (9), to generate a residual mechanical deformation of these , so that the flow of water from the action is finally further deviated and channeled backward of the direction towards which the swimmer who uses the device of the invention is headed. In the embodiment according to FIGS. 57 and 58, and for a result similar to that of these "stops" (9), but more consistently in terms of the effect removed from the deflection of the water flows, and still in interval of the "walls" of the "channeling structure" (1), "deflectors" (10) can be placed at the end of the race of "plastic stops" (2) to deviate more fully the flow of water generated by them. If the "plastic abutments" (2) can adopt various shapes, they can also be configurations

"composites" and in the embodiment according to FIGS. 77 and 78, thus to include, in an associated manner, flexible and "deformable" parts (11) and other more "rigid" parts (12) so that in removed an increased mechanical effect. The junction "footwear" (A) and "reactor" (B) may, if it is not fixed and predetermined, be in one or more "adjustable" junction points and / or be in one or more "mobile" junction points; This junction "footwear" (A) - "reactor" (B) is seen by "axial connections" (13), which differ mainly from the "joints" (3) pieces of "walls" of the "channeling structure" (1) of the "reactor" (B), in that they have to take charge of an object "external" to their "origin", and that in this case the device is the "footwear" part ( AT) .

Thus, in the embodiment according to FIGS. 83 and 84, a junction formed by a "bipolar" axial connection (13) constituted by two axial points that are distinct from one another and serve the same axis. , are rendered "adjustable" by a "fastening system" (14) such as for example "screws", which concomitantly join "threads" (15); Likewise, these "bipolar" axial connections (13) may be terminated by "fixing washers" (16) which can be associated in particular with the "fastening systems" (14), and therefore, for example, and in the occurrence of "screws".

These "bipolar" axial connections (13), which thus constitute the same junction constituted by two axial points that are distinct from one another and serve the same axis, can be replaced by a junction consisting of a "continuous" link, which will be called "axial link" (13) "continuous" or

"crossover";"transverse" or "continuous" and without subdivisions in its principle of joining because it is constituted by a axis "ferry" taking care of the passage part

Footwear;

In the embodiment according to FIGS. 85 and 86, this "continuous" or "transverse" "axial connection" (13) can be "adjustable" on the one hand, again a "fastening system" (14) as constituted by example by "screws", which concomitantly join "steps" (15), and again. be completed by "fixing washers" (16) assigned to include in particular the "fastening systems" (14), and therefore in this case and for example "screws".

In the embodiment according to FIGS. 87 and 88, the junction between "footwear" (A) and "reactor" (B) can be made "adjustable" according to the principle of several sets or "centers" or "fixation levels". "and associated setting; Thus an "axial" connection (13) "bipolar", "adjustable", adding a "fastening system" (14) such as for example by "screw" to its principle, can constitute a first set or "center", associating complementarily a second "center" or "level of attachment", for example, via a system that will be called "graded system with notches", associating the presence of "notches" (18) and the complementary action of "cleats" (19) doomed to be welcomed and blocked within them; either of these two elements can alternatively be attached from the "footwear" or "reactor". In the embodiment according to FIGS. 89 and 90, the junction between "footwear" (A) and "reactor" (B) may again be constituted by an "axial connection" (13) "bipolar" no longer "adjustable" but specifically made "mobile" and dynamic, and thus include "rebound systems" (6) as constituted by "springs" associated with this "axial connection" (13) "bipolar", and interacting between "footwear" (A) and "reactor" (B). In the embodiment according to FIGS. 91 and 92, this junction between "footwear" (A) and "reactor" (B) can also, according to this principle, have several "centers" or "mobility levels" associated with it, be made "mobile""anddynamic; Thus, an "axial connection" (13) "bipolar" of a type "no Adjustable "this time, but left free, and therefore with no associated" attachment system ", can constitute a first" center ", associating with a second; This second" center "or" level of mobility "dynamic , includes a set - "rebound system" (6) as permitted for example by "springs", springs coupled complementarily to "pushers" (20) with which they come to somehow "confront" and interact dynamically and synergistically with respect to each other, each of these two elements being alternatively connectable from the "footwear" (A) or the "reactor" (B).

In the embodiment according to FIG. 93, the "footwear" (A) and "reactor" (B) parts can associate a so-called "armature" part (C), joining the "footwear" part (A) and / or " reactor "(B) in particular at their junction, and which is to be placed on the swimmer's leg and in particular to" base "on the calf of the swimmer; This one aims to support and to accentuate the general action of the device in term of yield and power released, thanks to a reinforced maintenance of the device as a whole to the body of the swimmer once this put in action ; This "armature" part (C) is thus connected to the device by one or more junctions, and this in particular in a practical way and associated with the junction points already serving to connect the "footwear" (A) and "reactor" parts (B ) between them, and this in particular via a "bipolar" axial connection (13) which can serve as a junction point; On the other hand, if the junction between the "footwear" (A) and "reactor" (B) parts is fixed, and thus "non-adjustable" or "movable", the junction (s) of this "armature" part (C) the related to the rest of the device is through a junction, for example of the type "axial connection" (13) "bipolar" which must, at the same time as being of a sufficiently "mobile" nature and allowing a minimal movement sufficient, to be able to ensure a strong support, this especially at the level of the articulation of the swimmer's ankle.

The means or means that they will have to be fixed or held in the leg will vary. According to non-illustrated variants, all "articulations" (3) which are related to axial systems (including the "axial stops") and therefore including the "axial connections" (13), can associate with their respective axes a or several mechanisms of the "bearings" type, and in particular so-called "ball bearings", in order to facilitate mechanical mobility.

According to a variant not illustrated, the system of "articulations" (3) pieces of "walls" of the "channeling structure" (1), called "articulatory folds" can see its "folds" to move towards the inside the reactor rather than bulging outward.

According to a non-illustrated variant, the "stops" (9) may be "ferries", in the manner of "articulations" (3) of the "articulatory axes" type of the same principle (4) already mentioned, and therefore, connect a " wall "of the" channeling structure "(1) to the other.

According to a variant not illustrated, the type of junction "footwear" (A) - "reactor" (B) consists of a "axial connection" (13) "continuous" or "cross", can be made "mobile" also and this, via "rebound systems" (6) and for example through one or more "springs" attached and associated with this "axial connection" "continuous" or cross ".

According to a variant not illustrated, and in the case where the junction between "footwear" (A) and "reactor" (B) is made "adjustable" according to the principle of several "centers" or "attachment levels" associated, and this in particular through an "axial connection" (13) "bipolar", "adjustable", complementarily combining a system called "graded system with notches", this "axial connection" (13) "bipolar". "adjustable" can be replaced by a type of "non-adjustable", and therefore having no "fixing systems" associated.

According to a variant not illustrated. the "reactor" part (B) will be specifically "removable" of the "footwear" part (A) and this from a "fastening system" (14) as permitted by "screws" placed at their junction. By way of non-limiting example, the interval between "Walls" of the "channeling structure" may be of the order of 2 to 8 cm (space between the "walls" whose referent (ergonomic and logical) in terms of spacing can in particular correspond to a way again without limitation to a space less than or equal to the width of the "footwear" part), the "height" of these "walls" of the order of 8 to 15 cm, and their length from the "footwear" of the order of 10 cm up to 60 cm see more; The size and the number of "plastic stops" being fixed, even if it is not obligatory, relatively according to the rest of the "reactor" and thus of the "channeling structure" and its "walls";

By way of non-limiting example, these may have an average width of the order of 1.5 to 7.5 cm and a length of the order of 5 to 20 cm for example.

The device according to the invention is particularly intended for underwater sports, but also, rescue at sea and along the coast.

Claims

1) Device for moving in an aquatic environment autonomously and characterized in that constituted by any possible materials or several materials associated and / or distinct mechanical qualities different and / or complementary in one or more of its parts, under parts or components, it comprises a "footwear" part (A) and a "reactor" part (B) joined together; the "reactor" (B) consists of a sub-part "channeling structure" (1) formed of two "walls" mounted relative to vertically which show on average both a significant "height" sufficient, as well as a restricted space of separation, interval of the "walls" of the "channeling structure" (1) where is placed and is attached, another subpart, the "reactive volume assembly" made up of "plastic abutments" (2 ), the "footwear" (A) coming to him, according to his plane of support relative to the ground, to be placed in a relatively perpendicular manner in the extension of the plane in which the "walls" and of this space separating them and that to be positioned according to any axis of orientation chosen in this same relatively vertical plane of the "walls".

2) Device according to claim 1 characterized in that the "walls" of the "channeling structure" (1) of the "reactor" (B) are divided or subdivided into pieces which are interconnected by "joints" (3) . 3) Device according to any one of the preceding claims characterized in that the "footwear" (A) is "double" so as to accommodate two feet grouped together more or less close together.

4) Device according to any one of the preceding claims characterized in that the "reactor" (B) and in particular its "walls" of "channeling structure" (1) comprises relative to the "footwear" (A) an elevation of elevation marked enough to determine a staggered location of the "footwear" (A). 5) Device according to any one of the claims preceding characterized in that the "reactor" (B) adopts a conformation that its two major components melt from the start with each other to form during the manufacture of the device including a single part or mechanical part in one piece and therefore that the "reactive volume assembly" is no longer constituting a remarkable extension and prominence but merged with the "channeling structure" (1) and its "walls".

6) Device according to any one of the preceding claims characterized in that the "walls" of the "channeling structure" (1) connect together in any location of their structures and any useful types of material extensions connecting them.

7) Device according to any one of claims from 2 to 6 characterized in that the "joints" (3) pieces of "walls" of the "channeling structure" (1) of the "reactor" (B) can be present in the form of "articulatory axes".

8) Device according to any one of claims from 2 to 7 characterized in that the "walls" of the

"Channeling structure" (1) of the "reactor" (B) and the "joints" (3) of their pieces are acted and operate according to a principle "by folding" of material, material resulting from the "walls" themselves, according to they are made of one or more associated materials and / or by means of remarkable architectures such as in the form of "articulatory folds" in particular.

9) Device according to any one of claims from 2 to 8 characterized in that the "joints" (3) pieces of "walls" of the "channeling structure" (1) combine "rebound systems" (6). ) such as for example "springs" interacting dynamically with the pieces.

10) Device according to any one of claims from 2 to 9 characterized in that the articulation of the pieces of "walls" of the "channeling structure" (1) is made effective by "articulations" (3) acting according to several eccentric support points for a single articulatory focus, articulations of the type "thrust axial" articulatory for example.

11) Device according to any one of claims from 2 to 10 characterized in that the dividing or subdividing pieces the "walls" of the "channeling structure" (1) are provided with one or more "rebound systems" ( 6) type "elastic frames" to associate with the "walls" by connecting two or more pieces together, this kind of "rebound system" serving as a single articulation system or associated pieces of "walls" of the "canalizing structure" (1).

12) Device according to any one of the preceding claims characterized in that the "channeling structure" (1) comprises and is provided with what are called "penetrator longitudinal members" (7) which are placed at the mouth of the entrances / exits of water and intervals of separation of the "walls" of the "canalizing structure" (1) and to be fixed in particular with the latter thanks to extensions of matter in support, but still which can be connected with the "footwear" ( To himself .

13) Device according to any one of the preceding claims characterized in that it comprises "palm-like micro structures" (8) "in the form of" longitudinal members "or" fins "arranged in particular on the outer side of the" walls " the "channeling structure" (1) of the "reactor" (B).

14) Device according to any one of the preceding claims characterized in that all of the parts constituting the device and particularly the body of the "walls" of the "channeling structure" (1) comprises "openings" or "openings", of varying shapes and sizes, devolved in particular but not exclusively to the entry / exit of water flows.

15) Device according to any one of the preceding claims characterized in that the part "footwear" (A) varies in its footwear and is thus more or less "low" or "high" and this from the level of feet up high in the legs and especially at the level of the calves.

16) Device according to any one of the preceding claims characterized in that the "footwear" (A) is "openable - reclosable" by all appropriate systems. 17) Device according to any one of the preceding claims characterized in that the "footwear" (A) is "adjustable - adjustable" by all appropriate systems, in particular and for example in that the "footwear" (A) is relatively left gaping and open on its rear part, it has a "adjustable" tongue and encircling "belt" around and around the regions of the Achilles tendon and heel.

18) Device according to any one of the preceding claims characterized in that the "footwear" part (A) partially or fully respects the physiological specificity and formal form of each of the feet in particular.

19) Device according to any one of the preceding claims characterized in that the parts "footwear" (A) and "reactor" (B) are removable from each other and to fix or subtract reciprocally each one relative to the other thanks to one or more points of attachment materialized by one or more "fastening systems" (14) adapted, as permitted by one or more "screws" for example.

20) Device according to any one of the preceding claims characterized in that the junction of the parts "footwear" (A) and "reactor" (B) is "adjustable" in one or more points or "centers" of "adjustment - blocking "to allow to change the orientation angle of one of these parts relative to each other and consequently to be able to block the respective positions. 21) Device according to any one of claims 1 to 18 characterized in that the junction between "footwear" (A) and "reactor" (B) is "mobile and dynamic" according to one or more points or "centers" mobility associated with one or more "rebound systems" such as for example "springs".

22) Device according to any one of the preceding claims characterized in that a part called "armature" (C) takes place by attaching or pulling on the swimmer's legs and in particular on its calf part and joins the "footwear" (A) and / or "reactor" (B) parts through one or more extensions solidarisant with the device and according to one or more joint junction points allowing a measured and sufficient mobility effect between this "armature" part (C) and the rest of the device and as being connected and therefore potentially reciprocally " removable "from it. 23) Device according to any one of claims from 2 to 22 characterized in that all joints adjoined thereto and using axial systems such as "articulations" (3) of the type "articulation axes" or type ""Axialconnections" (13), or similar ones, such as "axial stops", can associate with their respective axes, one or more mechanisms of "bearings" type, and in particular for example so-called "ball bearings" so to facilitate mechanical mobility.

24) Device according to any one of the preceding claims characterized in that "walls" of "channeling structure" (1) additional to those of the generic structure are added to them and / or "footwear" (A) and can for example intercalate with each other, thereby potentially automatically allowing the multiplication of interstitial spaces to install "plastic stops" (2) of "reactive volume assembly" and / or their division or subdivision into pieces which are interconnected by "joints" (3).

25) Device according to any one of claims from 2 to 24 characterized in that the "joints" (3) are "traverses" and thus connect from one end to each of "walls" of the "channeling structure" (1). ) and their pieces to each other.

26) Device according to any one of the preceding claims, characterized in that the inner zone of the "channeling structure" (1) in particular and its periphery, are equipped with "stops" (9) and / or "baffles" (10) for better control of water flows, thus dedicated to ensuring a better control of water flows.

27) Device according to any one of the preceding claims characterized in that the "walls" of the "channeling structure" (1) of the "reactor" (B) are formed from structures such as frameworks and / or reinforcements to which to complete the relatively flat type structures, the additional assembly forming "walls".

28) Device according to any one of the preceding claims characterized in that the "plastic stops" (2) of P "reactive volume assembly" (one or more) are in their structures even in conformations such as provided with shapes and various internal and external "cut-outs".

29) Device according to any one of the preceding claims characterized in that the "plastic stops" (2) of P "reactive volume assembly" (one or more) are in their structures, their thickness, in conformations of the type "volume" appearing according to subdivided architectures unfolding on different levels and / or directions. 30) Device according to any one of the preceding claims characterized in that the "plastic stops" (2) of F "reactive volume assembly" (one or more) can be supported only on one of the "faces" internal d one of the "walls" of the "channeling structure" (1). 31) Device according to any one of the preceding claims characterized in that the "plastic stops" (one or more) of the "conducting structure" (1) of the "reactor" (B) are removable and can be fixed or subtracted through at one or more points of attachment materialized by one or more "fastening systems" (14) adapted, as permitted by one or more "screws" for example.

32) Device according to any one of the preceding claims characterized in that the "plastic stops" (one or more) of V "reactive volume assembly" of the reactor (B) are "adjustable" in terms of orientation of their position by relative to the rest of the device, this for example through the addition of one or more "screws". 33) Device according to any one of claims 1 to 29 characterized in that the "plastic stops" (2) of F "reactive volume assembly" can be presented "in one piece" in a single unified block in which are preformed and / or "cut off" forms with resulting qualities comparable to those of "plastic stops" (2) generic.

34) Device according to any one of the claims

1 or 2 and ranging from 3 to 32, characterized in that the "reactor" (B) comprises a "reactive volume assembly" reduced to only one "plastic stop" (2).

35) Device according to any one of the preceding claims, characterized in that "plastic stops" (2)

(one or more) may be attached to the "footwear" (A) and in particular to its front part. 36) Device according to claim 11 characterized in that the "rebound systems" (6) of the type "elastic frames" associating with the "walls" by connecting two or more pieces together are "adjustable" so that to be able to remove a chosen elastic tension according to the need and using adjusting and locking systems such as using the bias of screws or notches for example.