FR3016340A1 - PROPULSION WING FOR VERTICALLY WINDABLE WING VESSEL - Google Patents

Abstract

Wing (2) for propelling a ship (1), comprising a mast (5) defining a leading edge (6), a lower spar (7), an upper spar (8) and a wing (9) which can be deployed between a high position, in which the wing extends between the lower spar (7) and the upper spar (8), and a lower position, in which the wing (9) is gathered in the vicinity of the spar (7), in which the propulsion wing (2) comprises a nose (10) defining a trailing edge (11), the wing (9) then extending between the mast (5) and the nose ( 10), and a system (12) for winding the wing (9), housed in the spar (7) lower so as to wind the wing (9) when the latter is in the low position.

Description

The invention relates to the propulsion of ships and more particularly to the propulsion of ships. One of the first sources of propulsion for ships was the use of sailing forces. The sails work in two ways, either in unhooked flow, ie by directing the sail perpendicular to the direction of the wind, or in flow attached, ie in a direction substantially parallel to the wind direction, creating and a lift force able to move the boat. It is known to use rigid sails in place of flexible sails due to the advantages that such rigid sails have compared to soft sails, especially in terms of efficiency. In fact, rigid sails allow ships to come closer to the wind and induce a drag lower than that of a flexible wing. We generally try to reduce the drag, which by definition is opposed to advancement.

The document EP 1 520 781 (MORANDI) proposes a propulsion wing for a ship, comprising a mast, an upper boom at the masthead, a lower boom at the foot of the mast and a wing that can be deployed between a high position in which it s extends between the upper boom and the lower boom and a lower position in which the wing is spaced from the upper boom. Unfortunately, this document does not describe how the sail is stored in its low position. However, an unsealed wing can be dangerous: it increases the manual interventions of the crew, clutters the deck of the ship, and presents a risk of accident for crew members. In addition, not (or badly) stowing a sail reduces its longevity.

D018 B002 EN - TQD An unsecured canopy can also hold deck breaking blades in water, resulting in an overweight that is detrimental to the vessel's performance and stability.

A first objective is to provide a propulsion wing for ship, to store the wing safely when it is not or partially used. A second objective is to provide a propulsion wing for ship, to reduce the wind gain of the wing when the ship is docked. A third objective is to provide a ship propulsion wing, adaptable to different wind and weather conditions. A fourth objective is to provide a propulsion wing for ship, to lower the center of gravity of the ship. A fifth objective is to provide a ship propulsion wing, easy to use. For this purpose, it is proposed, in the first place, a propulsion wing of a ship, comprising a mast defining a leading edge, a lower spar, an upper spar and a wing that can be deployed between a high position, wherein the wing extends between the lower spar and the upper spar, and a low position, wherein the wing is gathered in the vicinity of the lower spar, wherein the propulsion wing comprises a nose defining an edge. the wing then extending between the mast and the nose, and a winding system of the wing, housed in the lower spar so as to wind the wing in its lower position. The housing of the winding system in the lower spar makes it possible to reduce the weight in the upper wing and thus improve the stability of the ship when it is en route. D018 B002 EN - TQD Various additional features may be provided, alone or in combination: the wing comprises a reinforcing beam extending between the upper spar and the lower spar. ; - The reinforcing beam comprises a slide extending between the upper spar and the lower spar; - The wing comprises a wing support defining a lower plane, adapted to bear on an upper surface of the lower spar in the lower position of the wing, and an upper plane, adapted to come into contact with a lower surface of the upper spar in the upper position of the wing; - The wing support comprises an opening, in which the beam is received, and at least one finger adapted to cooperate with the slide of the reinforcing beam; the wing comprises two flaps connected to each other by the wing support; the lower spar comprises a box in which is housed the winding system of the wing; the wing comprises reinforcing bars, extending between the mast and the nose of the wing, and the wing support comprises a groove through which the reinforcing bars pass through the wing support when the wing is displaced from the wing; one position to another; the wing comprises a main wing and a secondary wing connected to the main wing by means of an upper arm and an upper arm, the secondary wing being orientable relative to the main wing. It is proposed, secondly, a vessel equipped with a propulsion wing as presented above. Other characteristics and advantages of the invention will appear more clearly and concretely on reading the following description of embodiments, which is made with reference to the appended drawings in which: D018 B002 FR - TQD - FIG. 1 is a perspective view from above of a ship comprising a propulsion wing with a wing; - Figure 2 is a perspective view from above of a propulsion wing, the wing being in a high position; Figure 3 is a view similar to that of Figure 2 wherein the wing is in an intermediate position, this view including, inset, a detail showing the guidance of the wing on the wing; Figure 4 is a perspective view from above of a variant of the propulsion wing in which the wing is in the lower position; Figure 5 is a schematic sectional view showing the wing and a winding mechanism of the wing; Figure 6 is a top view of a wing support.

In Figure 1 is shown a vessel 1 comprising a wing 2 propulsion. The wing 2 is rotatably mounted on a deck 3 of the ship 1, substantially perpendicular to it, by means of a base 4 secured to the deck 3. The wing 2 is thus pivotable about an axis substantially perpendicular to the deck 3 of the ship 1.

The propulsion wing 2 comprises a mast 5 defining a leading edge 6, a lower spar 7, an upper spar 8 and a wing 9 that can be deployed between a high position, in which the wing extends between the spar. 7 and lower spar 8, and a low position, in which the wing 9 is collected in the vicinity of the spar 7 lower. The propulsion wing 2 also comprises a nose 10 which defines a trailing edge 11 of the wing 2. The wing 9 thus extends between the mast 5 and the nose 10. The wing 2 further comprises a system 12 winding of the wing 9, housed in the lower spar 7 so as to wind the wing 9 in its lower position.

The mast 5 comprises a hollow section, substantially in the form of a half-ellipse forming a cavity 13, which defines the leading edge 6 of the wing 2. D018 B002 FR - TQD On the mast 5 are mounted respectively at the head of mast 5 and at the bottom of the mast 5, the upper spar 8 and the lower spar 7. The spars 7, 8 have a substantially triangular shape and are integral with the mast 5 so as to accompany it in its rotation, which allows to orient the wing 2 at will. The nose 10, which extends at one end of the spars 7, 8 opposite the mast 5, has in horizontal section a gutter shape elliptical profile delimiting a gutter 14. In order to structurally strengthen the wing 2 propulsion, ci comprises a reinforcement beam 15 extending between the upper spar 8 and the lower spar 7.

According to a particular embodiment shown in FIG. 4, the wing 2 comprises bars 16 which extend between the mast 5 and the nose 10, the bars 16 coming through the beam 15.

According to one embodiment shown in the figures, the beam comprises a substantially parallelepiped profile and has, on faces parallel to a plane defined between the mast 5 and the nose 10, a slide 17 which extends between the upper spar 8 and the lower spar 7.

In the embodiment shown in the figures, in order to reduce the weight of the wing 2 to lower the center of gravity of the ship 1 to ensure greater stability, the beam 15 and the reinforcement bars 16 are formed of hollow profiles offering good mechanical strength while having a weight content.

The wing 9 comprises two flaps 18 (only one of which is visible in the figures) placed on either side of the spars 7, 8, these flaps 18 being connected by a support 19 of wing 9 slidably mounted on the beam 15.

The support 19 (shown in FIG. 6) is in the form of a substantially trapezoidal rounded dish and, at its two opposite ends, has rounded shapes capable of cooperating with the cavity 13 of the mast respectively. 5 and with the channel 14 of the nose 10. The support 19 is delimited vertically by an upper plane 20 and a lower plane 21.

The support 19 also comprises at least one opening 22 in which the beam 15 is received, and at least one finger 23 adapted to cooperate with the slide 17 of the reinforcement beam 15, the support 19 being in this way movable in translation along of the reinforcement beam.

Finally, the support 19 may comprise a groove 24 (as shown in dashed lines in FIG. 6) to allow the passage of the bars 16 through the support 19 when the blade 9 is moved from one position to another.

The wing 9 can then be deployed between its high position and its low position along the reinforcement beam. Thus, when the wing 9 is in the up position (FIG. 2), the upper plane comes into contact with a lower surface of the upper spar 8, whereas, when the wing 9 is in the lower position (FIG. 4), the lower plane bears on an upper surface of the lower spar. In addition, the wing 9 can adopt any intermediate position (Figure 3) between its low position and its high position so as to adapt the windward catch of the wing 2 propulsion depending on the wind force. The support 19 prevents, when the wing 9 is in the intermediate position, that the air does not rush between the two flaps 18 of the sail 9, which could cause an increase in pressure between the two flaps 18 and thus, a tear of the wing 9. The wing is moved between its different positions by means of a system (not shown), for example a winch, to move the support 19 along the beam 15 reinforcement. The winding system 12 is stored in the lower spar 7 as can be seen in FIG. 5. For this purpose, the lower spar 7 comprises at least one caisson 27 (and in this case two caissons 27, part and D018 B002 FR - TQD 30 other of the lower spar 7) in which is received the system 12 winding of the wing 9. As seen in Figure 5, the spar 7 inferior comprises a slot 28 by which the flap 17 of the wing 9 enters or leaves the casing 27.

The winding system 12 comprises an axis 29 and a motor (not shown) for driving the axis 29 in rotation, the motor control of the winding system 12 of the blade 9 being coupled to the displacement control of the support 19 of the wing 9.

Thus, when the wing 9 is moved to reach the desired position, the winding system 12 of the wing 9 winds or unwinds the wing 9 so that it does not come clutter the deck 3 of the ship. According to a particular embodiment, the ship 1 may be equipped with a multiple propulsion wing 30, as illustrated in FIGS. 7 and 8. This multiple propulsion wing 30 comprises a main wing 2 and a secondary wing 2 of smaller dimensions. . The wings 2 are connected to each other by means of an upper arm 31 and a lower arm 32. The arms 31, 32 are fixed relative to the main wing 2, while the secondary wing 2 is pivotally mounted on the arms 31, 32. The wing 30 can thus be bent so as to improve the wind resistance, for the benefit of the effectiveness of the propulsion of the vessel 1.

Figure 7 illustrates the movements of an air flow 33 on a multiple propulsion wing 30. This wing 30 comprises an additional wing 2 (called tertiary wing). Breccias formed between the wings 2 make it possible to accelerate the air flows 33 on the extrados, that is to say on the outer part of the wing 2 when the latter is bent, thus increasing the lift and, by way of consequence, the output of wing 2, based on the principle of Venturi. A ship 1 can thus be equipped with one or more wing (s) 2 of single propulsion (s) (as shown in Figures 1 to 4), one or more wing (s) 2 double propulsion (s). or triple (s) (such as D018 B002 FR - TQD shown in Figures 7 and 8) or a combination of wings 2 single and double or triple. Finally, a wing 2 can be used on ships 1 of different tonnages or types, only its dimensions will be adapted to the size of the ship 1 on which the wing will be mounted. Among the advantages provided by the propulsion wing 2 presented above, there may be mentioned: the storage of the wing 9 in the box 27 of the lower spar 7, allowing easy circulation around the wing 2 propulsion without risk of tripping on wing 9; the adaptation of the sail surface 9 exposed to the wind depending on the meteorological conditions and / or the need for propulsion, the sail 9 being able to adopt different positions; the improvement of the stability of the ship 1, the wing 2 comprising only very few heavy elements in its upper part, and the ease of use, the winding or unwinding control of the sail being coupled to the movement control of the support 19 of wing. D018 B002 FR - TQD

Claims (10)

REVENDICATIONS1. Wing (2) for propelling a ship (1), comprising a mast (5) defining a leading edge (6), a lower spar (7), an upper spar (8) and a wing (9) which can be deployed between a high position, in which the wing extends between the lower spar (7) and the upper spar (8), and a lower position, in which the wing (9) is gathered in the vicinity of the spar (7) lower, characterized in that the propulsion wing (2) comprises a nose (10) defining a trailing edge (11), the wing (9) then extending between the mast (5) and the nose (10), and a system (12) for winding the wing (9), housed in the spar (7) lower so as to wind the wing (9) in its lower position. 2. Wing (2) according to claim 1 characterized in that it comprises a beam (15) of reinforcement extending between the spar (8) and the upper spar (7) lower. 3. Wing (2) according to claim 2, characterized in that the beam (15) reinforcing comprises a slide (17) extending between the spar (8) and the upper espar (7) lower. 4. Wing (2) according to any one of the preceding claims, characterized in that the wing (9) comprises a support (19) of wing (9) defining a plane (21) lower, able to bear against a upper surface (26) of the lower spar (7) in the lower position of the wing (9), and an upper plane (20) capable of coming into contact with a lower surface (25) of the spar (8). ) upper in the upper position of the wing (9). 5. Wing (2) according to claim 4, characterized in that the support (19) of wing (9) comprises an opening (22), wherein the beam (15) is received, and at least one finger (23) adapted to cooperate with the slide (17) of the beam (15) of reinforcement. D018 B002 FR - TQD 6. Wing (2) according to claim 4 or claim 5, characterized in that the wing (9) comprises two flaps (18) connected to each other by the support (19) wing (9). 7. Wing (2) according to any one of the preceding claims, characterized in that the spar (7) below comprises a box (27) in which is housed the system (12) winding of the wing (9) . 8. Wing (2) according to any one of claims 4 to 7, characterized in that the wing (2) comprises reinforcing bars (16) extending between the mast (5) and the nose (10). ) of the wing, and the support (19) of wing (9) comprises a groove (24) through which the bars (16) of reinforcement pass through the support (19) of wing (9) when the wing (9) is moved from one position to another. 9. Wing (2) according to any one of the preceding claims, characterized in that the wing (2) comprises a main wing (2) and a wing (2) secondary connected to the main wing (2) by means an upper arm (31) and an upper arm (31), the secondary wing (2) being orientable relative to the main wing (2). 10. Ship (1) equipped with a wing (2) for propulsion according to any one of the preceding claims. D018 B002 FR - TQD