Claims
- 1. A sail system for a sailing craft, for example a sailboard, of the type in which an operator rides in standing position, and manipulates the sail system in order to effect propulsion of the board, the sail system comprising a mast (13), sail means connected to the mast (13), the sail means including an upper sail component (18) and a lower sail component (19), a single boom (100) extending generally transversely away from the mast (13) to the vicinity of the clews (150,155) of the sail components (18,19), adapted to be held by the operator when sailing, having mast connecting means (120) and aft bearing and clew connecting means (140) adapted to permit free rotary motion between the boom (100) and the sail components (18,19), the aft bearing and clew connecting means including a loose-fitting, short-length bearing assembly comprising a pivot pin (141) mounted coaxially in the aft end of the boom (100) and extending through the substantially larger inner diameter of at least one clew connecting annulus (146,147), the annulus (146,147) being free to move a substantial distance both radially and axially so as to prevent the entrapping of sand and resulting seizure.
- 2. A sail system according to claim 1, wherein the mast connecting means (120) includes forward boom bearing means (112a,126) coaxial with the boom (100), whereby, in combination with aft boom bearing means, the boom (100) may be rotated between the upper and lower sail components (18,19) when tacking and gybing.
- 3. A sail system according to claim 2, wherein the boom (100) is curved for at least a portion of its length.
- 4. A sail system according to claim 3, wherein the diameter of the pivot pin (141) is small in comparison to that of the boom (100), whereby the geometric distortions of sail pull caused by rotation of the curved boom (100) are minimized.
- 5. A sail system according to claims 3 or 4, wherein the forward end of the boom (100) is set at a small angle to the chord of the boom, said small angle being less than about 30 degrees, and preferably less than about 15 degrees.
- 6. A sail system according to claim 3, wherein at least one bearing means includes a pivot pin (126 or 141) insertable by hand.
- 7. A sail system according to claim 6, wherein the pivot pin (126) is insertable by hand into a hole (112,112a) in the fore end of the boom (100).
- 8. A sail system according to claim 7, wherein the forward pivot pin (126) is provided with a trunnion-shaped head set at a right angle to the shank, the trunnion-shaped head being set in loose, short bearing rings (126a) retained in a transverse bore (128) in the mast clamp body (121), thereby allowing free vertical rotation of the forward pivot pin (126) and preventing the retention of sand therebetween and resulting seizure.
- 9. A sail system according to claim 7, wherein the forward pivot pin (126) is flexibly connected to the mast connecting means (120) such that the pivot pin (126) is permitted to rotate vertically.
- 10. A sail system according to claim 6, wherein the pivot pin (141) is insertable by hand into a hole in the aft of the boom (100).
- 11. A sail system according to claim 1, wherein the mast connecting means (120) includes mast clamp means comprising a mast clamp body (121) having a central opening (129) through which the mast (13) is passed, and a slide (125) which clamps the mast (13) against the walls of the central opening (129) when the slide (125) is moved inwards along a mortise (126) by rotation of a thumbwheel (123) contained in a slot (122) and turning on the threaded tang (124) of the slide (125); whereby the boom (100) is connected to the mast (13) without the use of tools.
- 12. A sail system according to claim 1, including means for changing the total length of the boom.
- 13. A sail system according to claim 12, wherein the means for changing the total length of the boom is located along the boom (100) within reach of the operator and operable by the operator while the sail means (18, 19) are filled with wind and drawing and while suspending a significant proportion of his weight from the boom (100).
- 14. A sail system according to claim 13, wherein the means for changing the total length of the boom is a camber control means (110) located in the forward portion of the boom within reach of the operator's forward hand, and by which the operator may cause the change in total length of the boom (100) to change the curvature of the sail means (18, 19) responsive to changes in the wind, while the sail means (18, 19) are filled and drawing, and while the operator is suspending a significant proportion of his weight from the boom (100).
- 15. A sail system according to claim 14, wherein the camber control means includes a jackscrew (115) and a mating nut (114).
- 16. A sail system according to claim 15, wherein the jackscrew (115) is connected to an external cylindrical grip tube (116) by which the jackscrew (115) may be rotated, and further wherein the nut (114) is fastened to the forward end (102) of the boom (100) whereby the nut (114) may be counterrotated.
- 17. A sail system according to claim 12, wherein the means for changing the total length of the boom includes boom extension means to change and fix the total length of the boom (100) when changing from sails of one length along the boom to another, the boom extension means being independent of any means to control sail means (18, 19) camber or shape.
- 18. A sail system according to claim 17, wherein the boom extension means (130) includes an extension tube (131) connected to eccentric locking means (134, 135) internal to the boom (100).
- 19. A sail system according to claim 17, wherein the boom extension means (230) includes an extension tube (231) having a plurality of holes (234) spaced at desired intervals along the length of the extension tube (231), and retaining means (233) insertable through any desired hole (234), whereby the extension tube (231) is retained in position by contact of the retaining means (233) with the aft end (103) of the boom, under the inward forces exerted by the sail means (18, 19).
- 20. A sail system according to claims 18 or 19, wherein the extension tube (131, 231) is filled with foam, to provide flotation.
- 21. A sail system according to claim 12, including wiping means to prevent the entry of sand, grit, and other particles into the interior of the boom (100) during operation of the means for changing the total length of the boom.
- 22. A sail system according to claim 21, wherein the wiping means includes a ring composed of compressible material (118, 132).
- 23. A sail system according to claim 22, including heat-shrinkable tubing (119, 139) in intimate contact with the outer periphery of the wiping ring (118, 132), whereby the wiping ring (118, 132) is retained in its intended relationship with the means for changing the total length of the boom (110, 130) during operation, and further whereby the wiping ring (118, 130) is compressed into intimate contact with the surface it wipes.
- 24. A sail system according to claim 1, wherein the boom (100) is filled with foam, to provide flotation.
- 25. A Sail system according to claim 1, including means to match the lengths along the boom (100) of the upper sail component (18) and the lower sail component (19), when the sail components (18, 19) are not being stretched by wind, whereby mismatches in manufacture and permanent deformations may be corrected.
- 26. A sail system according to claim 25, including means to compensate for the greater stretch along the boom (100) caused by wind loading of a larger sail component (18) compared to the stretch of a smaller sail component (19).
- 27. A sail system according to claim 26 wherein the means to compensate for mismatches during manufacture and permanent deformations includes a wingscrew (153) acting upon a clew connecting means (148).
- 28. A sail system according to claim 27, wherein the larger sail component (18) is made of a film-and-cloth composite material, whereby its tendency to stretch is reduced.
- 29. A sail system according to claim 26, wherein the means to compensate for stretch caused by wind loading include a resilient stretchable member (149) connected between the aft end of the boom (100) and the clew (155) of the smaller sail component (19), and a non-stretchable member (147, 148) connected between the aft end of the boom (100) and the clew (150, G) of the larger sail component (18); whereby the tension induced by the wind in the smaller sail component (19) stretches the resilient stretchable member (149).
- 30. A sail system according to claim 29, wherein the larger sail component is cut and sewn with seams radiating from the clew corner (150, G) with threads laid parallel to the axis of rotation of the boom (100), whereby its tendency to stretch along the axis of rotation of the boom is reduced.
- 31. A sail system according to claim 1, wherein the upper sail component (18) is secured in fixed relationship to the lower sail component (19) by luff joining means (31) which are adapted to permit free rotation of the mast sleeves of the sail means (18, 19) around the mast (13) and the mast connecting means (120).
- 32. A sail system according to claim 31, wherein the luff joining means include at least one D-ring (31) capable of being rotated aside to permit access to a thumbwheel (123) in the mast connecting means (120).
- 33. A sail system according to claim 1, in which adjacent edge portions of the upper and lower sail components are lapped relative to each other.
- 34. A method for sailing a craft which includes a mast (13) pivotally mounted on the craft, upper and lower sail portions mounted on the mast and connected to a boom (100), a lower edge (21) of the upper sail portion (18) and an upper edge (22) of the lower sail portion (19) being lapped, the sail portions having mast sleeves at their luffs for connecting to the mast, and links (146, 147) connected to clew attachments (150, 155) at the clew corners of the sail portions, the boom having an aft pivot (141) for connecting to the links, and a forward bearing sleeve (112a) for connecting to the fore pivot (126) mounted in a mast clamp (120), the mast clamp having a thumbwheel (123) and a slide (125) for clamping to the mast, and a D-ring (31) for connecting the mast sleeves of the sail portions together by means of grommets (32, 33) set in adjacent locations in the mast sleeves; the method comprising connecting the upper and lower sail portions by hooking the D-ring (31) through the grommets (32, 33) in adjacent locations in the mast sleeves, inserting the mast (13) into the mast sleeves and the central opening (129) of the mast clamp (120), turning the thumbwheel (123) until the slide (125) bears against the mast (13), inserting the aft pivot (141) through the links (146, 147) and into the aft end of the boom (100), and sailing the craft with the lower edge (21) of the upper sail portion (18) lapped relative to the upper edge (22) of the lower sail portion (19).
- 35. The method of sailing according to claim 34, wherein at least one clew attachment (150) has an adjusting wingscrew (153), including the step of turning the wingscrew (153) to match the lengths along the boom of the upper and lower sail portions, thereby eliminating any mismatches in length incurred in manufacture or resulting from deformation from use.
- 36. The method of sailing according to claim 34, wherein at least one clew attachment (15) is connected to a link (146) by a line (149), including the step of tying the line (149) to the link (146) at the proper length to match the lengths along the boom of the upper and lower sail portions, thereby eliminating any mismatches in length incurred in manufacture or resulting from deformation from use.
- 37. The method of sailing according to claim 34, wherein the clew attachment (155) of the smaller sail portion (19) is connected to a link (146) by a resilient member (149), whereby the greater stretch along the boom of the larger sail portion (18) may be compensated.
- 38. The method of sailing according to claim 34, wherein the boom (100) has an internal jackscrew outhaul mechanism (110) located in the forward portion of the boom within reach of an operator's forward hand even when suspending a significant part of his weight from the boom; including the steps of adjusting the outhaul mechanism (110) to achieve a desired sail curvature, sailing on the port tack and readjusting the outhaul (110) with the left hand responsive to changes in wind speed, changing to the starboard tack and readjusting the outhaul (110) with the right hand responsive to any further changes in the wind speed.
CROSS-REFERENCE TO RELATED APPLICATIONS
The present application is a continuation-in-part of my U.S. patent application Ser. No. 06/371,226, filed Apr. 23, 1982 now abandoned. Said application is a continuation-in-part of U.S. application Ser. No. 304,113, filed Sept. 23, 1981, now U.S. Pat. No. 4,365,570. The latter patent application is a continuation-in-part of U.S. application Ser. No. 289,386, filed Aug. 3, 1981, now abandoned. The disclosures of these applications (and said issued patent) are incorporated by this reference as though set forth in full herein. U.S. Pat. No. 4,365,570 corresponds to PCT patent application Ser. No. PCT/US82/01039, which PCT application is also incorporated by reference herein.
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
102e Date |
371c Date |
PCT/US83/00616 |
4/21/1983 |
|
|
12/23/1983 |
12/23/1983 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO83/03805 |
11/10/1983 |
|
|
US Referenced Citations (6)
Foreign Referenced Citations (8)
Number |
Date |
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2233006 |
Jan 1974 |
DEX |
7421380 |
Dec 1974 |
DEX |
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Jul 1980 |
DEX |
2941134 |
Apr 1981 |
DEX |
3032631 |
Apr 1982 |
DEX |
2252950 |
Aug 1975 |
FRX |
63595 |
Apr 1983 |
JPX |
620645 |
Dec 1980 |
CHX |
Continuation in Parts (3)
|
Number |
Date |
Country |
Parent |
371226 |
Apr 1982 |
|
Parent |
304113 |
Sep 1981 |
|
Parent |
289386 |
Aug 1981 |
|