EP0192688A1

EP0192688A1 - Symmetrical rigging.

Info

Publication number: EP0192688A1
Application number: EP85904247A
Authority: EP
Inventors: Peter Plica
Original assignee: Individual
Current assignee: Individual
Priority date: 1984-08-31
Filing date: 1985-08-28
Publication date: 1986-09-03
Also published as: ES8701644A1; WO1986001481A1; AU4775385A; DK197986A; DK197986D0; EP0192688B1; ES546614A0

Abstract

Une voilure symétrique pour planches de surf à voile et autres véhicules à voile susceptible d'être pivotée et inclinée à sa base comprend une surface de voile de forme concave et de contour oval (1), présentant dans la région de l'axe de la voile des espars longitudinaux droits (2) et des supports (3, 6) transversaux à ceux-ci qui sont connectés aux bords de la voile, reposent sur le côté du vent de la surface de la voile et forment, avec la surface de la voile, en élément concave de connexion. La surface de la voile, essentiellement libre de déformations, et l'absence d'un mât susceptible de créer des tourbillons, augmentent l'efficacité aérodynamique de la voilure. Aucun mât ni fentes pour lattes ne sont nécessaires. En outre, le maniement est facilité lors du démarrage et le transport est simplifié par les unités de barres droites et courtes.A symmetrical blade for sailboards and other sailing vehicles capable of being pivoted and tilted at its base comprises a sail surface of concave shape and oval contour (1), having in the region of the axis of the sail of the right longitudinal spars (2) and of the supports (3, 6) transverse to these which are connected to the edges of the sail, rest on the wind side of the surface of the sail and form, with the surface of the veil, as a concave connecting element. The surface of the sail, essentially free of deformations, and the absence of a mast capable of creating vortices, increase the aerodynamic efficiency of the wing. No mast or slat slots are required. In addition, handling is facilitated during start-up and transportation is simplified by the straight and short bar units.

Description

Symmetrical rig

description

The invention relates to a rig according to the preamble of claim 1. Such a rig is known from the specialist literature (DE magazine "Surf", issue 12/83, page 49). The mast-like spars of the rig specified there form a circumferential frame which comprises a bowl-shaped, oval sail surface. The cloth sail is continuously attached to the frame at the edges and apparently has no shaping elements such as battens or special spars. Furthermore, a rig of the same construction is mentioned in DE magazine "Surf", issue 7/84, page 10. In addition, further proposals for such rigs are known, in which only the two longitudinal edges of the sail are held by mast-like, straight or curved spars (eg DE-OS 29 29 884, DE-OS 31 07 097, DE-OS 30 17 362, DE -OS 3040 218). The advantage of symmetrical rigs is that they can be flown against from two directions, so that in certain maneuvers there is no need to write or change sides. Accordingly, a handle bar for holding the rig is only required on the windward side. In addition, an aerodynamically advantageous, elliptical sail outline is structurally easy to implement. A disadvantage is that the two mast-like spars generate air swirls through their cross-section and thus reduce the propulsion of the sail. At the same time, it is difficult to control the curvature of the sail, since the curved spars bend under wind load and the shape of the sail is changed significantly.

The curved shape of the mast spars also has a disadvantage. Either they adapt to the curved sail outline as slender, straight rods and are deformed very strongly under wind pressure, or they are pre-curved in a stronger design, which in turn leads to higher costs and storage problems. The formation of a symmetrical rig without mast-like spars on the longitudinal edges of the sail is known from US Pat. No. 4,369,724. Here, the longitudinal edges of the sail are held by wire ropes, which in turn are attached to a load-bearing mast-boom combination. A double sail is stretched between the wire ropes, inside which there is the mast and half of the boom. Although this proposal avoids the edge vertebrae at the longitudinal edges of the sail, it does not allow an oval sail outline due to the forcibly curved wire ropes. The shape of the free-hanging double sail is largely influenced by wind forces and is therefore difficult to control. A symmetrical rig without mast-like spars on the longitudinal edges of the sail is also known from the international application PCT / CH 84/00104. To reduce the air resistance, the mast arranged in the middle is held in the plane of the sail area by a mast pocket, the cross section of the mast being designed such that it partially follows the deformations of the sail area. Although this solution avoids the vortex-forming mast, the sail profile in the transverse direction, that is to say parallel to the air flow, it remains uncontrollable since shape-retaining components are missing in the transverse direction. The invention is based on the object of designing a rig of the type mentioned in such a way that longitudinal spars on the sail edges are eliminated and the sail area is made largely free of deformation by suitable additional components. In addition, the bowl-shaped sail area with the stiffening elements is to form a composite component by expedient arrangement and connection of all parts to one another, which, due to its favorable load-bearing behavior, enables a reduction in the dimensions of the individual elements, in particular the longitudinal spars. The object is achieved in the generic rig by the characterizing features of claim 1. Appropriate embodiments of the invention result from the subclaims.

The advantages achieved by the invention are as follows: 1. By eliminating the edge spars, the vortex losses are reduced. The flat, aerodynamically shaped longitudinal spars generate only a fraction of the previous losses in the middle of the sail.

2. Due to the stiffening effect of the dimensionally stable cross frame, the sail area, which is under tension from all sides, is largely free of deformation. Uncontrollable changes in the curvature of the sail are eliminated. The rig thus acts like a rigid profile sail with the known aerodynamic advantages, as can be achieved with asymmetrical profile sails only by multi-part profile parts which can be rotated relative to one another. 3. There are no longer any curved, mast-like spars on the edges of the sail. They are replaced by straight, easy-to-store longitudinal spars, which can also be divided at the longitudinal bend of the sail and thus lead to shorter pack lengths. The dimensions and weight of the longitudinal spars decrease due to the composite effect between the sail surface and the stiffening elements.

4. Elaborate, water-filling mast and batten pockets are eliminated, since the longitudinal spars and cross frames are pressed against the sail due to the curvature of the sail surface.

5. Pulling the rig out of the water is considerably easier compared to known sail shapes for sailing boards. While water is displaced and displaced in the conventional canvas sail by wandering belly formation, the symmetrical profile rig floats on the surface or can be easily pulled out of the water in a rotating motion thanks to the rigid shape. 6. The aerodynamically advantageous, elliptical sail outline is very easy to implement.

The invention is explained below with reference to the embodiments shown in the drawings. Show it

1 shows the view of the rig in perspective with a cross frame consisting of elastic cross spars and adjustable drawstrings. FIG. 2 shows the view of the cross frame consisting of elastic cross spars and adjustable drawstrings in perspective

Figure 3 shows the longitudinal section through the rig as a basic illustration Figure 4 shows the top view of the rig as a basic illustration Figure 5 shows the view of the rig in a perspective view

6, the view of a typical rib, seen in the longitudinal direction of the rig, FIG. 7, sections a-a and b-b to FIGS. 6 and 8

Figure 9 shows the view of the rib connected to the handle, seen in the longitudinal direction of the rig.

Figure 1 shows an overview of the various components of the rig in an advantageous embodiment with a longitudinal spar 2 and three transverse frames 1,3,6, one of which is provided with a handle bar. The sail surface 1, which is doubly curved and preformed during manufacture, is made of high-strength material and is only connected to the longitudinal spars and transverse frames at the edges via short insertion tabs or straps. When rigging, the rig gets its final shape by tensioning the sail area 1 against the longitudinal spar 2 at the base of the rig.

Between the cross frame 5 battens of known type are arranged as needed, which are also held only on the sail edges.

The rig is guided by the sailor with the handle bar 4. At the start, the line 7 is used in a known manner for pulling up the rig with the special feature that the upper end of the line 7 can be moved over a ring on the tension band 6 of the holding frame. This allows the rig to be pulled up on one side or the other as desired. The cross frame shown in Figure 2 consists of the cross spar 3, the associated drawstring 6 and the sail area 1 located in the area of the cross frame. The three elements form a structural unit. The intended circular curvature of the transverse spars 3 and the necessary dimensional stability of the transverse frame only come about after tensioning the adjustable tension band 6. The drawstring 6 in turn is attached to eyelets of the sail area 1, so that ^* when tensioning the sail is put under tension and abuts the crossbar 3.

The stronger cross frame with the handle 4 because of the load transmission from the longitudinal spar 2 has the same construction as the normal cross frame. The ends of the curved grip strip 4 are articulated to the cross frame. Figure 3 shows in longitudinal section of the rig, the longitudinal spar 2, which follows the apex line A-C-D of the sail area 1. The significant kink of the longitudinal spars 2 and the sail area 1 at the level of the grip strip 4 considerably reduces the stress and thus the deformation of the longitudinal spars 2 as a result of the pressure force and is necessary in order to keep the dimensions of the longitudinal spars 2 within limits.

A slight longitudinal curvature is also formed in sections A-C and C-D in sail area 1. If the straight longitudinal spar 2 is tensioned against the sail surface 1 during construction, it must follow the curvature and develop restoring forces which, according to FIG. 4, generate tensile stresses in the sail surface 1 essentially along the lines A-B-D and A-B-D, i.e. along the sail edges. As a result, the rig is dimensionally stable and self-supporting without external load.

Under the influence of the planned wind load, which is directed to the left in FIG. 3, the tensile forces specified above increase in the sail area 1. The more the wind load increases, the better the rigidity of the rig.

Conversely, with opposite, unscheduled wind loads, the tensile forces in the sail area 1 are lower. The dimensional stability decreases until the edges of the sail start to flutter. This condition is harmless to the construction and can be ended by turning the rig into the wind.

The mode of operation of the rig described here is not limited to the combination of a longitudinal spar 2 with three transverse frames. Depending on the size and special requirements, these parts can be used in any number and combination.

A reinforcement of the sail area 1 in highly stressed areas by tapes, ropes or other suitable materials is also useful in special cases. A further preferred embodiment of the rig is shown in FIG. 5. The multi-part cross frames 1, 3, 6 of the embodiment described in FIGS. 1-4 are replaced in FIG. 5 by one-piece, stiffer and more manageable ribs 8. The advantages of this type of construction lie in the faster and simplified assembly and disassembly of the rig. In addition, the previously necessary trimming of each transverse frame 1, 3, 6 with the aid of the drawstrings 6 is eliminated. Furthermore, the deformation of the transverse frame due to the wind pressure is reduced thanks to the better distribution of the stiffness of the ribs.

For reasons of comparison, FIG. 5 shows the preferred embodiment of the rig with a longitudinal spar 2 and a plurality of transverse frames consisting of the ribs 8. For design reasons, the mutual spacing of the ribs 8 is significantly reduced compared to the arrangement of the cross frame 1,3,6. There is no need to use conventional battens between the ribs 8.

The longitudinal spar 2 is guided according to FIG. 6 through openings 9 in the ribs 8. This results in a simple, non-positive and in the assembled state uhverschiebbar connection between the ribs 8 and the ^' longitudinal spar 2. - The ends of the ribs 8 are connected to the sail area 1 in a known manner by short insertion tabs 13. When building the rig, the ribs 8 are first laid flat on the spread sail surface 1, the stretched width of which corresponds to the arc length of the rib 8 between the insertion tabs 13. Since only the shorter chord length between the rib ends is required to insert the rib 8, the rib 8 can be easily inserted into the insertion tabs 13. Thereafter, the rib 8 is turned 90 into the final position, the sail surface 1 lies against the leeward, curved rear side of the rib 8 and is tensioned at the same time. The longitudinal spar 2 then passed through the opening 9 secures the rib 8 against unintentional turning back.

The formation of the variable rib cross section in FIG. 6 is evident from the associated cuts in FIGS. 7 and 8. The approximately flat-triangular cross-sectional shape according to section aa is approximately retained in the outer quarters of the rib length. From the quarter point on, the cross-sectional height then increases progressively up to the center of the rib according to section bb, the cross-section being in a narrow rectangle transforms.

The full cross sections shown in FIGS. 7 and 8 apply when wood is used as a building material. In the case of a design in plastic or aluminum, open or closed profile cross sections with or without foaming are preferred, depending on the manufacturing process, while preserving the outer contour.

The design of the ribs 8 described here is on the one hand adapted to the stress caused by the wind forces and thus leads to less rib deformation. On the other hand, it enables the formation of the rib opening 9 for the advantageous, simple connection of the rib 8 to the longitudinal spar 2.

FIG. 9 shows further improvements in the details of the rib 8 connected to the handle bar 4. Since in this cross frame the full sail force occurring in the longitudinal spar 2 must be transmitted to the surfer via the handle bar 4, an adjustable drawstring 10 becomes between the center of the rib 8 and the middle of the handle bar 4, which largely reduces the stress and thus the deformation of the rib 8 and the handle bar 4. Furthermore, the tension band 6 present in FIG. 1 for guiding the starting sheet 7 is retained with the change that the ends of the tension band 6 are fastened to the articulation points 11 of the grip strip 4.

In the area of the rib 8 connected to the grip strip 4, an oval opening 12 shown in FIG. 5 is also provided in the sail area 1. It serves as a sail window and at the same time as an expansion compensator for sail area 1.

The highly stressed areas of the sail area 1 on both sides of the opening 12 suffer over time a plastic, irreversible deformation ("sail bar") in the longitudinal direction of the sail, which in turn leads to a reduction in the kink formed in the sail area 1 at the level of the handle bar 4 leads. This undesirable effect can be eliminated by the fact that the sail surface 1 in the area of the longitudinal spars 2 is also stretched in the longitudinal direction. The opening 12 is closed by an easily deformable material which yields when the longitudinal spars 2 are tightened against the sail surface 1 and thus leads to the required expansion. It is important to ensure that reinforcement strips made of canvas or other low-stretch material running parallel to the longitudinal axis of the sail are avoided within the opening 12.

Claims

Symmetrical rig patent claims

1. Symmetrical to the longitudinal axis, rotatable and tiltable at the base point, provided on the windward side with a handle bar rig with a bowl-shaped, oval-shaped sail surface, which is held open by mast-like spars, characterized in that the straight, mast-like longitudinal spars (2 ) are arranged in the area of the longitudinal axis of the sail and transverse frames (1, 3, 6) extending transversely thereto are provided, the longitudinal spars (2) and the transverse frames (1, 3, 6) being connected at their ends to the edges of the sail by straps or insert tabs are, lie along the entire length of the sail surface (1) on the windward side and together with the sail surface (1) form a bowl-shaped composite component.

2. Rig according to claim 1, characterized in that the transverse frame (1,3,6) consist of elastic cross spars (3) and adjustable drawstrings (6). 3. Rig according to claim 1 or 2, characterized in that on one of the cross frames (1,

3,6) the handle (4) is articulated.

4. Rig according to claim 2 or 3, characterized in that between the cross spars (3) additional battens (5) without Latten¬ pockets are arranged.

5. Rig according to claim 3 or 4, characterized in that the longitudinal spars (2) at the level of the handle bar (4) provided with the transverse frame (1,3,6) have a clear, with the tip directed to Lee kink.

6. Rig according to one of claims 1 to 3, characterized in that the longitudinal spars (2) have a flat, aerodynamically favorable cross-section.

7. Rig according to one of claims 3 to 6, characterized in that for pulling the rig out of the water a line (7) is used, on the one hand firmly on the mast foot and on the other hand slidably on the drawstring (6) of the crossbar provided with the handle (4) (-1,3,6) is attached.

8. Rig according to claim 1,3,5,6 and 7, characterized in that the transverse frame (1,3,6) consist of rigid, with variable cross-section, curved ribs (8).

9. Rig according to claim 8, characterized in that the ribs (8) have openings (9) for carrying out the longitudinal spars.

10. Rig according to claim 8 and 9, characterized in that the rib (8) connected to the handle bar (4) has an adjustable drawstring (10) which connects the center of the rib (8) to the center of the handle bar (4).

11. Rig according to claim 10, characterized in that an additional tie band (6) connects the articulation points (11) of the handle bar (4).

12. Rig according to claim 10 and 11, characterized in that the sail surface (1) in the region of the rib (8) connected to the handle bar (8) has an oval, arranged in the longitudinal axis of the opening (12), the diameter of which is more than half Corresponds to sail width,

13. Rig according to claim 12, characterized in that the

Opening (12) is closed by a material whose expansion modulus is considerably less than that of the surrounding sail area (1).

14. Rig according to claim 12 and 13, characterized in that the opening (12) has only reinforcing strips made of canvas or other low-stretch material running perpendicular to the longitudinal axis of the sail.