WO1984002319A1 - Sail system intended to the propulsion of ships or land vehicles - Google Patents

Sail system intended to the propulsion of ships or land vehicles Download PDF

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Publication number
WO1984002319A1
WO1984002319A1 PCT/FR1983/000248 FR8300248W WO8402319A1 WO 1984002319 A1 WO1984002319 A1 WO 1984002319A1 FR 8300248 W FR8300248 W FR 8300248W WO 8402319 A1 WO8402319 A1 WO 8402319A1
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WIPO (PCT)
Prior art keywords
wing
airfoil
yards
rotation
constituted
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PCT/FR1983/000248
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French (fr)
Inventor
Pierre Estoueig
Original Assignee
Pierre Estoueig
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Publication date
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Publication of WO1984002319A1 publication Critical patent/WO1984002319A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63HMARINE PROPULSION OR STEERING
    • B63H9/00Marine propulsion provided directly by wind power
    • B63H9/04Marine propulsion provided directly by wind power using sails or like wind-catching surfaces
    • B63H9/06Types of sail; Constructional features of sails; Arrangements thereof on vessels

Definitions

  • the present invention relates to devices called wings intended to propel ships or even land vehicles from wind energy.
  • Local variations in wind speed due to the presence of the airfoil produce pressure differences between the faces of the airfoil. These pressure differences result in a force directly transmitted to the mobile by the wing supports.
  • the state of the art is as follows: there are flexible canopies whose implementation is long and complicated and whose operation can present dangers (risk of untimely jibe).
  • the reduction of the airfoil may require perilous maneuvers (on the deck of a ship).
  • Furling jibs represent an improvement: they are easier to implement but this is paid for by a lower efficiency and, moreover, this does not concern the whole wing.
  • the object of the present invention constitutes an ultimate outcome of this type of wing (of which it retains reliability) before the use of rotary wings used to actuate propellers.
  • the airfoil system according to the present invention aims to completely eliminate the risk of jibe and, more generally, to allow adjustments and variations of airfoil surface accessible to a single man without effort or dangerous maneuver or easily mechanized.
  • the reduction of the forces and the aptitude for mechanization are obtained by the following arrangements: the whole of the airfoil is substantially symmetrical with respect to the axis of rotation therefore very grouped around this axis, implemented in a manner unique, and largely self-compensated. Elimination of the risk of jibe is obtained thanks to a device which can be a wind vane and such that during operation, the center of thrust of the wing is always slightly to the wind from the axis of rotation.
  • the wing according to the present invention comprises two half-wings 8 and 9 (FIG. 2). It is established between two upper yards 6 and 7 arranged in X and two lower yards 4 and 5 arranged in the same way.
  • Each yard can pivot in its middle around the mast (axis of rotation) and supports at one end a winding tube (10 or 11) and at the other end, the trailing edge profile (14 or 15).
  • the leading edges can be constituted by rigid fairings 12 and 13 including the winding tubes.
  • the orientation of the blade is obtained by an identical rotation of the four yards.
  • the variation of sail area is obtained by opposite rotations of yards of the same X, of the two X being modified in the same way.
  • the half-wings are substantially parallel and practically symmetrical with respect to the axis of rotation (or of the mast, in this case).
  • the maximum reduction in airfoil can give a rigid structure with a small surface area (Figure 4).
  • the maximum sail area can be obtained when the yards of the same X are diagonals-of a square or perpendicular to each other.
  • the spacing of the half-wings is then substantially equal to their rope. Under these conditions, there is practically no harmful interference between the two half-wings (see aerodynamic works).
  • the airfoil according to the invention is such that its center of thrust is constantly, during operation, slightly upwind of the axis of rotation and in particular such that, left in free rotation, it becomes feathered, edges of attack against the wind. This result can be obtained by a wind vane 18, designed to remain constantly in the plane of symmetry of the airfoil.
  • the wing support can consist of a mast I fitted with a bracket 2, held by shrouds 3.
  • the clearance thus obtained allows the rotation of the wing over 360 degrees (FIG. 3).
  • the wing At rest, the wing can be folded inside the rigid structure (Figure 4), in the upright or lying position ( Figure 5). The implementation is thus greatly facilitated.
  • the control assembly 21 (FIG. I) is detailed in FIGS. 6 and 7. It consists of two parts which allow the orientation and the surface variation of the wing.
  • Orientation control a ring gear 24, centered on the axis of rotation, is secured to the lower yard 4. It can mesh on another gear ring 25 secured to a flywheel 26. The assembly formed by 25 and 26 can be moved to engage or disengage the control. The steering wheel 26 can be locked in rotation by a brake 27 (engaged position).
  • a ring gear 28, centered on the axis of rotation, is rotationally integral with two pulleys 29 and 30; it can mesh on another ring gear 31 secured to a flywheel 32.
  • the assembly formed by 31 and 32 can be translated in order to disengage or engage the control.
  • the rotational movement of the pulleys 29 and 30 is transmitted by belts 22 and 23 to the pulleys 19 and 20 actuating the winding tubes.
  • 33 is a locking finger acting on the grooves of the grooved crown integral with 28 (see FIG. 6).
  • 34 is a spring.
  • Figure 6 corresponds to a configuration: disengaged controls, free wing in rotation.
  • Figure 7 corresponds to a configuration for adjusting the surface.
  • This wing system can provide main or auxiliary propulsion for pleasure or regatta boats, sand yachts, merchant ships or trawlers.

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Sustainable Development (AREA)
  • Sustainable Energy (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • Ocean & Marine Engineering (AREA)
  • Structures Of Non-Positive Displacement Pumps (AREA)
  • Wind Motors (AREA)
  • Toys (AREA)

Abstract

The sail system is so designed that the action of the wind on the sail is directly transmitted to the moving body by means of supports in order to generate a propulsion force. It is comprised of one mast (1) serving as a pivot for two upper yards (6 and 7) arranged to form an X and for two lower yards (4 and 5) arranged in the same way. Two rectangular half sails (8 and 9), arranged on either side of the mast (1) are set between said yards. An identical rotation of the four yards provides a change of orientation of the sail. An opposite rotation of the yards of each X gives a change of sail surface area. A specific actuation device is provided either for an effortless manual control or for an automatic control. It may provide for a main or auxiliary propulsion for regata or leisure sailing boats, sailing carts, merchant vessels or trawlers.

Description

SYSTEME DE VOILURE DESTINE A LA PROPULSION DES NAVIRES OU DES VEHICULES TERRESTRES La présente invention concerne les dispositifs appelés voilures destinés à assurer la propulsion de navires ou même de véhicules terrestres à partir de l'énergie éolienne. Les variations locales de vitesse du vent dues à la présence de la voilure produisent des différences de pression entre les faces de la voilure. Ces différences de pression se traduisent par une force directement transmise au mobile par les supports de la voilure. Dans ce secteur, l'état de la technique est le suivant : il existe des voilures souples dont la mise en oeuvre est longue et compliquée et dont la manoeuvre peut présenter des dangers (risque d'empannage intempestif). De plus la réduction de voilure peut nécessiter des manoeuvres périlleuses (sur le pont d'un navire). Des focs à enrouleur représentent un progrès : ils sont plus faciles à mettre en oeuvre mais cela se paie par un moins bon rendement et, de plus, cela ne concerne pas toute la voilure. The present invention relates to devices called wings intended to propel ships or even land vehicles from wind energy. Local variations in wind speed due to the presence of the airfoil produce pressure differences between the faces of the airfoil. These pressure differences result in a force directly transmitted to the mobile by the wing supports. In this sector, the state of the art is as follows: there are flexible canopies whose implementation is long and complicated and whose operation can present dangers (risk of untimely jibe). In addition, the reduction of the airfoil may require perilous maneuvers (on the deck of a ship). Furling jibs represent an improvement: they are easier to implement but this is paid for by a lower efficiency and, moreover, this does not concern the whole wing.
En outre la manoeuvre des voilures souples classiques est difficilement mécanisable et très rapidement inaccessible à un homme seul, à partir d'une certaine taille.In addition, the operation of conventional flexible canopies is difficult to mechanize and very quickly inaccessible to a single man, from a certain size.
Il existe aussi des voilures rigides qui sont plus facilement mécanisables mais elles présentent un inconvénient majeur : la variation de surface est très difficile sinon impossible à prévoir. L'objet de la présente invention constitue un aboutissement ultime de ce type de voilure (dont il conserve la fiabilité) avant l'utilisation de voilures tournantes servant à actionner des hélices. Le système de voilure suivant la présente invention a pour but d'éliminer totalement le risque d'empannage et, plus généralement, de permettre des réglages et variations de surface de voilure accessiblés à un homme seul sans efforts ni manoeuvre dangereuse ou facilement mécanisables.There are also rigid canopies which are more easily mechanized, but they have a major drawback: the surface variation is very difficult if not impossible to predict. The object of the present invention constitutes an ultimate outcome of this type of wing (of which it retains reliability) before the use of rotary wings used to actuate propellers. The airfoil system according to the present invention aims to completely eliminate the risk of jibe and, more generally, to allow adjustments and variations of airfoil surface accessible to a single man without effort or dangerous maneuver or easily mechanized.
La réduction des efforts et l'aptitude à la mécanisation sont obtenues par les dispositions suivantes : l'ensemble de la voilure est sensiblement symétrique par rapport à l'axe de rotation donc très regroupé autour de cet axe, mis en oeuvre d'une manière unique, et en grande partie autocompensé. L'élimination du risque d'empannage est obtenue grâce a un dispositif qui peut être une girouette et tel qu'en cours de fonctionnement, le centre de poussée de la voilure soit toujours légèrement au vent de l'axe de rotation. La voilure selon la présente invention comporte deux demivoilures 8 et 9 (figure 2). Elle est établie entre deux vergues supérieures 6 et 7 disposées en X et deux vergues inférieures 4 et 5 disposées de la même manière.The reduction of the forces and the aptitude for mechanization are obtained by the following arrangements: the whole of the airfoil is substantially symmetrical with respect to the axis of rotation therefore very grouped around this axis, implemented in a manner unique, and largely self-compensated. Elimination of the risk of jibe is obtained thanks to a device which can be a wind vane and such that during operation, the center of thrust of the wing is always slightly to the wind from the axis of rotation. The wing according to the present invention comprises two half-wings 8 and 9 (FIG. 2). It is established between two upper yards 6 and 7 arranged in X and two lower yards 4 and 5 arranged in the same way.
Chaque vergue peut pivoter en son milieu autour du mât (axe de rotation) et supporte à une extrémité un tube enrouleur (10 ou 11) et à l'autre extrémité, le profilé de bord de fuite (14 ou 15).Each yard can pivot in its middle around the mast (axis of rotation) and supports at one end a winding tube (10 or 11) and at the other end, the trailing edge profile (14 or 15).
Les bords d'attaque peuvent être constitués par des carénages rigides 12 et 13 englobant les tubes enrouleurs.The leading edges can be constituted by rigid fairings 12 and 13 including the winding tubes.
L'orientation de la voilure est obtenue par une rotation identique des quatre vergues.The orientation of the blade is obtained by an identical rotation of the four yards.
La variation de surface de voilure est obtenue par rotations opposées des vergues du même X, des deux X étant modifiés de la même manière.The variation of sail area is obtained by opposite rotations of yards of the same X, of the two X being modified in the same way.
Quelle que soit la surface de voilure choisie, les demi-voilures sont sensiblement parallèles et pratiquement symétriques par rapport à l'axe de rotation (ou du mât, dans ce cas).Whatever the sail area chosen, the half-wings are substantially parallel and practically symmetrical with respect to the axis of rotation (or of the mast, in this case).
La réduction maximale de voilure peut donner une structure rigide de faible surface (figure 4). La surface maximale de voilure peut être obtenue quand les vergues d'un même X sont les diagonales-d'un carré ou perpendiculaires entre elles. L'espacement des demi-voilures est alors sensiblement égal à leur corde. Dans ces conditions, il n'y à pratiquement pas d'interférence nuisible entre les deux demi-voilures (voir ouvrages d'aérodynamique). La voilure selon l'invention est telle que son centre de poussée soit constamment, en cours de fonctionnement, légèrement au vent de l'axe de rotation et en particulier telle que, laissée en rotation libre, elle se mette en drapeau, bords d'attaque face au vent. Ce résultat peut être obtenu par une girouette 18, prévue pour rester constamment dans le plan de symétrie de la voilure. Le support de la voilure peut être constitué par un mât I équipé d'une potence 2, tenue par des haubans 3. Le dégagement ainsi obtenu permet la rotation de la voilure sur 360 degrés (figure 3). Au repos, la voilure peut être repliée à l'intérieur de la structure rigide (figure 4), en position dressée ou couchée (figure 5). La mise en oeuvre est ainsi grandement facilitée.The maximum reduction in airfoil can give a rigid structure with a small surface area (Figure 4). The maximum sail area can be obtained when the yards of the same X are diagonals-of a square or perpendicular to each other. The spacing of the half-wings is then substantially equal to their rope. Under these conditions, there is practically no harmful interference between the two half-wings (see aerodynamic works). The airfoil according to the invention is such that its center of thrust is constantly, during operation, slightly upwind of the axis of rotation and in particular such that, left in free rotation, it becomes feathered, edges of attack against the wind. This result can be obtained by a wind vane 18, designed to remain constantly in the plane of symmetry of the airfoil. The wing support can consist of a mast I fitted with a bracket 2, held by shrouds 3. The clearance thus obtained allows the rotation of the wing over 360 degrees (FIG. 3). At rest, the wing can be folded inside the rigid structure (Figure 4), in the upright or lying position (Figure 5). The implementation is thus greatly facilitated.
A titre indicatif, l'étarquage de la voilure peut être as- sure par des ressorts 16 et 17 ou tout autre système tel des vérins. L'ensemble de commande 21 (figure I) est détaillé sur les figures 6 et 7. Il est constitué de deux parties qui permettent l'orientation et la variation de surface de la voilure.As an indication, the spreading of the airfoil can be ensured by springs 16 and 17 or any other system such as jacks. The control assembly 21 (FIG. I) is detailed in FIGS. 6 and 7. It consists of two parts which allow the orientation and the surface variation of the wing.
La variante représentée est manuelle mais elle peut facilement être mécanisée et même automatisée moyennant des modifications mineures. Commande d'orientation : une couronne dentée 24, centrée sur l'axe de rotation, est solidaire de la vergue inférieure 4. Elle peut engrener sur une autre couronne dentée 25 solidaire d'un volant 26. L'ensemble formé par 25 et 26 peut être translaté en vue d'embrayer ou de débrayer la commande. Le volant 26 peut être bloqué en rotation par un frein 27 (position embrayée).The variant shown is manual but it can easily be mechanized and even automated with minor modifications. Orientation control: a ring gear 24, centered on the axis of rotation, is secured to the lower yard 4. It can mesh on another gear ring 25 secured to a flywheel 26. The assembly formed by 25 and 26 can be moved to engage or disengage the control. The steering wheel 26 can be locked in rotation by a brake 27 (engaged position).
Commande de variation de surface : une couronne dentée 28, centrée sur l'axe de rotation, est solidaire en rotation de deux poulies 29 et 30 ; elle peut engrener sur une autre couronne dentée 31 solidaire d'un volant 32. L'ensemble formé par 31 et 32 peut être translaté en vue de débrayer ou d'embrayer la commande. Le mouvement de rotation des poulies 29 et 30 est transmis par des courroies 22 et 23 aux poulies 19 et 20 actionnant les tubes enrouleurs.33 est un doigt de verrouillage agissant sur les cannelures de la couronne cannelée solidaire de 28 (voir figure 6). Il existe aussi des cannelures entre 28 et la pièce de révolution portant les poulies 29 et 30. Sur les figures 6 et 7 ces cannelures sont indiquées par un trait interrompu. 34 est un ressort.Surface variation control: a ring gear 28, centered on the axis of rotation, is rotationally integral with two pulleys 29 and 30; it can mesh on another ring gear 31 secured to a flywheel 32. The assembly formed by 31 and 32 can be translated in order to disengage or engage the control. The rotational movement of the pulleys 29 and 30 is transmitted by belts 22 and 23 to the pulleys 19 and 20 actuating the winding tubes. 33 is a locking finger acting on the grooves of the grooved crown integral with 28 (see FIG. 6). There are also grooves between 28 and the part of revolution carrying the pulleys 29 and 30. In Figures 6 and 7 these grooves are indicated by a dashed line. 34 is a spring.
Toutes les pièces représentées figures 6 et 7, exceptés le doigt 33, la vergue 4, le frein 27, sont de révolution autour d'un axe. La figure 6 correspond à une configuration : commandes débrayées, voilure libre en rotation. La figure 7 correspond à une configuration permettant le réglage de la surface.All the parts shown in Figures 6 and 7, except finger 33, yard 4, brake 27, are of revolution about an axis. Figure 6 corresponds to a configuration: disengaged controls, free wing in rotation. Figure 7 corresponds to a configuration for adjusting the surface.
Ce système de voilure peut assurer la propulsion principale ou d'appoint de bateaux de plaisance ou régate, de chars à voile, de navires marchands ou de chalutiers. This wing system can provide main or auxiliary propulsion for pleasure or regatta boats, sand yachts, merchant ships or trawlers.

Claims

REVENDICATIONS 1) Système de voilure destiné à la propulsion des navires ou des véhicules terrestres, caractérisé par les faits suivants. Il comporte deux demi-voilures 8 et 9 sensiblement parallèles entre elles. Chaque demi-voilure est équipée d'un enrouleur (10 ou 11) côté bord d'attaque. Le bord de fuite de chaque demi-voilure est constitué par un profilé rigide (14 ou 15). Le système de voilure comporte des supports de voilure permettant la rotation des demi-voilures autour de l'axe 1 d'une part et une variation de la distance entre un enrouleur et un profilé de bord de fuite (par exemple 11 et 15) progressive et sensiblement identique sur les deux demi-voilures d'autre part. Il comporte un dispositif destiné à reculer le centre de poussée. Il comporte un dispositif d'étarquage. Il comporte un dispositif destiné à commander l'orientation de la voilure. Il comporte un dispositif destiné à commander la variation de surface de la voilure. 2) Système de voilure selon la renvendication 1 caractérisé par le fait que les supports de la voilure comprennent un mât disposé suivant l'axe 1, équipé d'une potence 2 elle-même étayée par les haubans 3, deux vergues supérieures 6 et 7 disposées en X, deux vergues inférieures 4 et 5 disposées en X. Une extrémité de chaque vergue supporte une extrémité de tube enrouleur (10 ou 11). L'autre extrémité supporte une extrémité de profilé de bord de fuite (14 ou 15). Chaque vergue pivote en son milieu autour du mât : une rotation identique des quatre vergues change l'orientation de la voilure ; une rotation opposée des vergues de chaque X change la surface de la voilure. 3) Système de voilure selon la revendication 1 caractérisé par le fait que les enrouleurs (10 et 11) sont disposés à l'intérieur de carénages rigides (12 et 13) constituant respectivement les bords d'attaque de chaque demi-voilure.CLAIMS 1) Wing system intended for the propulsion of ships or land vehicles, characterized by the following facts. It comprises two half-wings 8 and 9 substantially parallel to one another. Each half-wing is equipped with a furler (10 or 11) on the leading edge. The trailing edge of each half-wing consists of a rigid profile (14 or 15). The airfoil system includes airfoil supports allowing the rotation of the half airfoils around the axis 1 on the one hand and a progressive variation of the distance between a reel and a trailing edge profile (for example 11 and 15) and substantially identical on the two half-wings on the other hand. It includes a device intended to move the center of thrust back. It includes a stretching device. It includes a device intended to control the orientation of the wing. It includes a device intended to control the variation in surface area of the airfoil. 2) Wing system according to claim 1 characterized in that the wing supports comprise a mast arranged along the axis 1, equipped with a bracket 2 itself supported by the shrouds 3, two upper yards 6 and 7 arranged in X, two lower yards 4 and 5 arranged in X. One end of each yard supports one end of the winding tube (10 or 11). The other end supports one end of the trailing edge profile (14 or 15). Each yard pivots in its middle around the mast: an identical rotation of the four yards changes the orientation of the wing; an opposite rotation of the yards of each X changes the surface of the blade. 3) Wing system according to claim 1 characterized in that the reels (10 and 11) are arranged inside rigid fairings (12 and 13) respectively constituting the leading edges of each half-wing.
4) Système de voilure selon les revendications 1 et 3. caractérisé par le fait que le carénage rigide de bord d'attaque et le profilé rigide de bord de fuite de l'une ou l'autre des demi-voilures sont prévus pour s'emboiter en vue de former une structure rigide correspondant à la surface minimale de voilure.4) Wing system according to claims 1 and 3. characterized in that the rigid leading edge fairing and the rigid trailing edge section of one or the other of the half-wings are provided for interlock to form a rigid structure corresponding to the minimum airfoil area.
5) Système de voilure selon la revendication 1 caractérisé par le fait que le dispositif destiné à reculer le centre de poussée est constitué par la girouette 18 et les biellettes lui servant de support articulées de manière à ce que la girouette reste constamment parallèle et équidistante aux deux demi-voilures et de manière à ce que la distance du centre de poussée de 18 à l'axe de rotation 1 varie dans le même sens que la surface de voilure.5) wing system according to claim 1 characterized in that the device for reversing the center of thrust is constituted by the vane 18 and the rods serving as an articulated support so that the vane remains constantly parallel and equidistant to the two half-wings and in such a way that the distance from the center of thrust of 18 to the axis of rotation 1 varies in the same direction as the surface of the wing.
6) Système de voilure selon la revendication 1 caractérisé par le fait que le système d'étarquage est constitué par des ressorts (tels6) Wing system according to claim 1 characterized in that the stretching system is constituted by springs (such
16 ou 17) ou des vérins (électriques ou hydrauliques).16 or 17) or cylinders (electric or hydraulic).
7) Système de voilure selon la revendication 1 caractérisé par le fait que le dispositif de commande d'orientation de voilure est constitué par un couple conique débrayable comprenant un engrenage conique 25 actionné par un système d'actionnement d'une part et par un engrenage conique 24, concentrique à l'axe de rotation 1 de voilure et solidaire d'un support mobile de la voilure, d'autre part.7) blade system according to claim 1 characterized in that the blade orientation control device is constituted by a disengageable bevel torque comprising a bevel gear 25 actuated by an actuation system on the one hand and by a gear conical 24, concentric to the axis of rotation 1 of the airfoil and integral with a mobile support of the airfoil, on the other hand.
8) Système de voilure selon la revendication 1 et la revendication 7 caractérisé par le fait que le système d'actionnement est constitué par le volant 26 ou tout système mécanisé ou automatisé. Un frein 27 est associé au volant 26 pour permettre de bloquer l'engrenage 25 dans une position donnée.8) Wing system according to claim 1 and claim 7 characterized in that the actuation system is constituted by the flywheel 26 or any mechanized or automated system. A brake 27 is associated with the flywheel 26 in order to block the gear 25 in a given position.
9) Système de voilure selon la revendication 1 caractérisé par le fait que le dispositif de commande de variation de surface de voilure est constitué par un couple conique débrayable comprenant un engrenage conique 31 relié à des moyens d'actionnement d'une part et par un engrenage conique 28, concentrique à l'axe de rotation de voilure 1 et solidaire en rotation d'une pièce de révolution portant les poulies 29 et 30. d'autre part. Le mouvement de rotation des poulies 29 et 30 est transmis par des courroies 22 et 23 aux poulies 19 et 20 actionnant respectivement les tubes enrouleurs 10 et 11. Le dispositif de commande de variation de surface de voilure est aussi constitué par un dispositif de verrouillage destiné à bloquer dans une postion donnée les poulies 29 et 30 donc les enrouleurs (commande de variation de surface débrayée) et à permettre le mouvement du couple conique 28-31 quand la commande est embrayée.9) blade system according to claim 1 characterized in that the blade surface variation control device is constituted by a disengageable bevel couple comprising a bevel gear 31 connected to actuation means on the one hand and by a bevel gear 28, concentric with the airfoil rotation axis 1 and integral in rotation with a part of revolution carrying the pulleys 29 and 30. on the other hand. The rotational movement of the pulleys 29 and 30 is transmitted by belts 22 and 23 to the pulleys 19 and 20 respectively actuating the winding tubes 10 and 11. The device for controlling the variation of the airfoil surface is also constituted by a locking device intended to block in a given position the pulleys 29 and 30 therefore the reels (disengaged surface variation control) and to allow the movement of the bevel torque 28-31 when the control is engaged.
10) Système de voilure selon les revendications 1 et 9 caractérisé par le fait que le dispositif de verrouillage est constitué par un doigt de verrouillage 33. une couronne cannelée solidaire de 28. des cannelures entre 28 et la pièce de révolution portant les poulies 29 et 30. et un ressort 34. 10) Wing system according to claims 1 and 9 characterized in that the locking device is constituted by a locking finger 33. a splined crown integral with 28. splines between 28 and the part of revolution carrying the pulleys 29 and 30. and a spring 34.
PCT/FR1983/000248 1982-12-14 1983-12-09 Sail system intended to the propulsion of ships or land vehicles WO1984002319A1 (en)

Applications Claiming Priority (1)

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FR8221279A FR2537540A1 (en) 1982-12-14 1982-12-14 SAIL SYSTEM FOR PROPULSION OF SHIPS OR LAND VEHICLES

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CN103264723A (en) * 2013-05-17 2013-08-28 上海大学 Wind-driven sled type polar region rover

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Publication number Priority date Publication date Assignee Title
DE405701C (en) * 1924-11-06 Inst Voor Aero En Hydro Dynami Setting up sail areas, especially ships
CH179641A (en) * 1935-03-05 1935-09-15 Ryter William Sail of boat.
DE1556467A1 (en) * 1968-01-13 1970-02-26 Heinz Klopotek Sailboat

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2010012373A2 (en) * 2008-07-28 2010-02-04 Burghardt Burandt Sailing device, especially for deep-sea cargo ships, yachts, or the like
WO2010012373A3 (en) * 2008-07-28 2010-04-08 Burghardt Burandt Sailing device, especially for deep-sea cargo ships, yachts, or the like
JP2011529009A (en) * 2008-07-28 2011-12-01 ブラント ブルクハルト Sailing system dedicated to ocean-going cargo ships and yachts
US8424477B2 (en) 2008-07-28 2013-04-23 Burghardt Burandt Sailing device for deep-sea vessels
CN103264723A (en) * 2013-05-17 2013-08-28 上海大学 Wind-driven sled type polar region rover
CN103264723B (en) * 2013-05-17 2017-02-01 上海大学 Wind-driven sled type polar region rover

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FR2537540B1 (en) 1985-04-26
FR2537540A1 (en) 1984-06-15
EP0129558A1 (en) 1985-01-02

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