Field of the Invention
The present invention relates generally to an apparatus and method for deploying, retracting, and storing a sail of a sailboat, and more particularly to an apparatus and method for furling, storing, and unfurling a sail of a sailboat.
Description of the Related Art
Sailboats use sails that catch the wind as their primary or sole source of propulsion. Sails that are used on sailboats may include the mainsail, spinnaker, jib, and headsail, or genoa. The sails are supported by one or more masts, a vertical pole or spar that extends upward from the boat. The mainsail is also supported by a boom, a horizontal spar that attaches to the mast to support the bottom part of the mainsail. The sails are attached to various lines that hold them in place and apply tension to the sails, and that support the mast or other spar. The lines, or wires, have different names depending on their location and attachment, including headstay, backstay, shrouds, sheets, halyards, etc.
The mainsail is the primary source of power for the sailboat and is more easily controlled than other sails because it is attached to the mast and the boom. When not in use, sails are folded or rolled, referred to as furled, for storage. The mainsail may be folded and stored below the deck in a sail storage bag when not in use. Alternately, the mainsail may be folded or rolled on the boom and then covered by a sail cover for storage. After removing the storage bag from the mainsail and attaching the lower edge of the mainsail to the boom, if the sail was stored off the boom, the mainsail is raised, or hoisted, for use. After use, the mainsail is lowered and stored, either by flaking (accordion folding) the sail or by rolling. Rolling the mainsail involves the crew rolling the sail until it sits on the boom in a bundle.
Wind conditions may require that a sail be used with a reduced area. Reducing the area of the sail is referred to as reefing. Taking in the reef (reefing in) or taking out the reef to increase or decrease the sail area may be required as conditions change.
Deploying and retracting for the mainsail may require several crew members who are stationed at, or who move about to, different positions on the boat to handle the various tasks associated with raising and lowering the mainsail and with preparing the sail for use or for storage. Similarly, reefing the mainsail may require that the crew move about to various positions on the boat to accomplish the tasks associated with reefing.
It would be an improvement to provide an apparatus and method that simplifies the deploying, reefing, and stowing of a sail on a sailboat, such as the mainsail, jib or mizzen.
An apparatus and method for furling a sail for reefing or storage and for unfurling a sail for use is provided. In certain embodiments, the furling and unfurling of the sail may be accomplished from the cockpit of the sailboat. Handling the sail is simplified.
Referring first to
In
On the mandrel 40 is a cylinder 42 that is generally co-axial of the mandrel 40. The cylinder 42 of certain embodiments is formed of aluminum or may be of other materials such as carbon fiber, etc. The cylinder 42 may be approximately one foot longer than the sail foot, or bottom edge of the sail, and may be about on foot shorter than the mandrel 40. The cylinder 42 may be hollow and may be mounted on to the mandrel 40 by spacers (not shown) that extend between the mandrel 40 to the interior surface of the cylinder 42. In certain embodiments, a plurality of spacers is provided along the length of the mandrel 40 and cylinder 42. The spacers may be of plastic or hardwood or other materials and may be secured in place within the cylinder 42 by glue, pins, or other fasteners. The fasteners, such as pins, may extend through the wall of the cylinder 42 and into and/or through the mandrel 40. The spacers and fasteners transmit rotational motion of the mandrel 40 to the cylinder 42.
The aft end or clew of the mainsail 22 is attached to the cylinder 42 by a ring, eye, or cringle 44 at the corner of the sail 22. In the illustration, the eye 44 is fastened to the cylinder 42 by a strap 46 that may be applied and tightened for brisk wind conditions. An outhaul line may be threaded through the eye 44 and through an eye or cleat at the aft end of the cylinder 42. The outhaul line 46 permits the tension on the foot of the sail 22 to be adjusted. The sail 22 is shown in its deployed position. Reinforcing stitching 48 may be seen in the sail 22. A clew topping lift line 54 is shown as the slack line in the figure.
In certain embodiments, a sleeve 50 is provided on the cylinder 42. The sleeve 50 may be of foam rubber or other material and may provide a resilient surface on which the sail 22 may be wound. The sleeve 50 may permit even furling of the sail along the mandrel 40 to reduce or prevent creases in the sail when furled. The sleeve 50 may be provided on all or only a portion of the cylinder 42, depending on the cut of the sail 22. The resilient sleeve 50 applies mild tension to the leech or tailing edge of the sail 22 during furling for sails with luff slides at the forward edge of the sail. The tension results in the luff or forward edge of the sail 22 rolling onto the mandrel 40 slightly aft of the mast attachment. This prevents the luff slides from getting caught in the rotational movement of the mandrel. If the sail 22 is fitted with luff tape instead of luff slides, the resilient sleeve 50 may allow for smoother raising and lowering of the sail 22.
The sail furler is shown in the examples mounted parallel to the boom 20 of the sailboat. The sail furler may be mounted at any spar, pole, bar, or other elongated member used for supporting a sail, all of which are encompassed within the term “boom” as used herein. The sail furler is shown in the examples for controlling a lower edge of a mainsail and for rolling the mainsail 22 of the sailboat 10. The sail furler may be used for controlling the lower edge or another edge of another sail and for rolling another sail on the sailboat. The sail furler as shown includes an aft plate to hold the mandrel to the boom or spar. Other devices, structures and means may be provided instead to support the mandrel, all of which are encompassed within the term “aft plate” as used herein. The sail furler is shown configured for retrofit onto the mast, boom, and rigging of an existing sailboat 10. The sail furler may be provided as a kit for installation on a sailboat. The sail furler may be installed, for example, by a retrofitter or boat builder, on a new or existing sailboat. The sail furler may be removed from and reinstalled onto the sailboat as desired. The sail furler may be provided as original equipment on the sail boat when new.
In
In
The bearing 106 includes an outer sleeve 108 and an inner sleeve 110. The bearing 106 may be positioned 3 to 6 inches above the top of the boom 20. The bearing 106 is constructed to permit rotation of the mandrel 40 in the bearing 106 and to permit the inner sleeve 110 to slide along the mandrel 40 as the boom 20 is lifted or lowered. The aft plate 102 is attached to the boom 20 by removing a lower portion 112 from an upper portion 114 using screws 116, positioning the upper and lower portions 114 and 112 on the top and bottom of the boom 20, and then fastening the portions 112 and 114 to one another using the screws 116, such as machine screws, to secure the portions onto the boom 20.
The aft plate may be formed of aluminum, stainless steel, carbon fiber, composite materials, or other material. In certain embodiments, the aft plate 36 is ½ to 1 inch thick. The aft plate 36 is provided with an opening that is shaped to fit the boom 20 or to accommodate inserts that fit the boom. The materials and fastenings of the aft plate 36 are designed to withstand the full upward, sideward, aft and forward forces of the normal clew attachment under full sail and high wind conditions.
In
The clew eye, cringle, or ring 44 of the sail 22 is attached to the cylinder 42 with the line or outhaul 128. A spacer 130 is visible extending between the mandrel 40 and the cylinder 42.
The line 128, which may be an outhaul line, may be wound onto the cylinder 42 as the sail 22 is wound onto the cylinder 42. As an option for example in a smaller boat, the excess outhaul line may be used when the user or sailor 131 wishes to unwind the sail 22, the user may apply tension to the line 128 which results in the cylinder 42 rotating in an unwinding direction. Tension on the line 128 may assist in unwinding or unfurling the sail 22 in conjunction with other unfurling means, such as tension applied to the top or head of the sail 22. The sail 22 may be unfurled from the mandrel 40 without requiring that the user 131 rotate the crank 120 for unfurling. The line 128 may be run through guides and pulleys, for example extending along the boom 20 so that the sail 22 may be unfurled from the cockpit of the sailboat 10 without the need for the user to be positioned at the end 30 of the boom 20. Unfurling of the sail 22 may be performed without connecting the crank 120 to the mandrel 40. Of course, the sail 22 may also be furled and unfurled using the crank 120, or using a furling motor, furling drum, or other means.
With reference to
The sliding movement of the mandrel 40 in the aft plate 36 as the boom 20 is raised and lowered is the result of both the boom 20 and the mandrel 40 being attached to the mast 18, in certain embodiments. In
A universal joint 136 connects the mandrel 40 to a mast plate 138 that is mounted to the mast 18. The mast plate 138 includes a projection 140 onto which the universal joint is fastened, such as by a screw 142. The universal joint 136, mast plate 138 and other parts may be of stainless steel in certain embodiments. The outer sleeve 72 extends about the universal joint to prevent the sail 22 from contacting the universal joint 136. The universal joint allows the mandrel 40 to swing laterally from 90 degrees to port to 90 degrees to starboard of the mast as well as to pivot upward or downward.
Turning to
The boom 20 is shown attached to the mast 18 by a gooseneck 150. The illustrated boom 20 includes a channel 152 running along a top thereof.
With reference to
An end of a line or rope 164 may be seen behind the outer cylinder 72. Various lines and ropes are used on sailboats for a variety of purposes, as will be appreciated by those of skill in this art. A sleeve 166 may be mounted on the cylinder 42.
In
In
The outer cylinder 72 is shown atop the universal joint 136 in a position transverse to the axis of the mandrel 40 for the purposes of illustrating the interior space 172 of the outer cylinder 72. The outer cylinder 72 is used in the generally co-axial position show in
In
In this view, the deck 52 of the sailboat 10 is visible as are the rails 184 that extend from the edges of the deck 52.
In the perpendicular position, the lever 190 contacts the boom 20 so that further rotation of the cylinder 42 and mandrel 40 beyond the position with the lever in contact with the boom is prevented. The mandrel 40 may rotate for a portion of a rotation until the reef brake lever 190 contacts the boom 20. To reef the sail 22, the lever 190 is moved to a position parallel with the cylinder 42, or at least out of contact with the boom 20. The crank 120 is attached to the mandrel 40 if not already attached. The mandrel 40 is rotated to take up excess sail onto the mandrel 40 of the sail furler. After a desired portion of the sail 22 is wound onto the mandrel 40, the lever 190 is pivoted to a position extending perpendicular to the mandrel 40. The sail 22 may be used with the reduced area and unwinding of the sail 22 from the mandrel 40 is prevented by the lever 190 contacting the boom 20. Winding additional sail area onto the mandrel 40 or unwinding some or all of the sail 22 is easily accomplished by pivoting the lever 190 to the parallel position and then winding or unwinding the mandrel 40 as needed.
A single lever 190 is shown which provided reefing in one turn increments. Additional levers may be provided to permit fine tuning of the reefing in increments of less than one turn. The lever 190 may be configured to restrict inadvertent pivoting by the lever such as by a high resistance pivot connection between the collar 188 and the lever 190 or by a lock or other means to hold the lever 190 in a desired position.
The following describes an exemplary method for reefing or furling the sail with luff slides is described below.
For sails with a luff rope or luff tape, the sail can be furled or reefed by slowly rotating the mandrel to the desired number of turns.
In
In
Referring to
The mandrel 40 may be controlled by the crank 120 at the aft end of the boom 20 for furling or unfurling the sail 22, as described above. As an alternative method for furling or unfurling the sail 22, a line may be attached to the aft portion of the mandrel 40 and wound onto the mandrel like twine on a spool. The mandrel 40 may be rotated by pulling on the line. For example, the mandrel 40 may be rotated by pulling on the line to take up excess sail 22 or to completely furl the sail 22 onto the mandrel 40. The line may be wound onto the mandrel 40 as the sail 22 is deployed so that a significant number of wraps is provided on the mandrel 40 when the sail is up.
The line may extend from the mandrel 40 to the boom 20, along the boom 20 to the mast 18 and then down the mast 18 to the deck 52 through an arrangement of pulleys and guides. A sailor may furl the sail 22 onto the mandrel 40 from the deck 52 of the sailboat 10 without the need to move to the aft end of the boom or other location. The sail may be furled from the cockpit of the sailboat 10.
The furler line 226 serves as a control line by which the mandrel 216 may be rotated. For example, the mandrel 216 may be rotated in a sail furling direction by pulling on one side of the furler line loop 226 and may be rotated in a sail unfurling direction by pulling on the other side of the furling line loop 226. The furler line 226 may be as short or as long as desired. In certain embodiments, the furler line 226 is long enough to connect to a winch (not shown) mounted in the deck of the boat 10. The winch may be used to pull the furling line 226 for furling or unfurling the sail 22 and may be able to provide greater pulling force on the line than is possible without the winch.
The furling line 226 permits the sail 22 to be furled or unfurled without using the crank 120. The crank 120 need not be attached if it has been removed.
Turning to
The one way lock guide 248 permits the user to exert a pulling force on the furling line 240 by pulling the length of furling line 240 between the pulley 246 and the locking guide 248 away from the boom 20, for example as shown in
When in the locked condition, the locking guide 248 prevents the line from being pulled through the locking guide during a lateral pull on the line by the user and also prevents the line from being pulled back through the locking guide by tension on the line while still permitting slack line to be taken up. The locking guide 248 may be unlocked by the user to permit free movement of the line 240 in both directions so that the line may pass freely through the guide during unfurling of the sail 22, for example. Other guides and/or line locks may be used instead or in addition to the examples shown.
The furling line 240 may be wound onto the cylinder 234 in a direction so that pulling the furling line results in the sail 22 being furled onto the cylinder 234, retracting the sail. Unfurling of the sail 22 may be accomplished by the force of the wind onto the sail or by hoisting the sail using the halyard. Unfurling forces by the wind may be countered by the user maintaining force on the furling line. It is also possible to wind the furling line 230 onto the cylinder 234 so that pulling on the furling line 240 unwinds or unfurls the sail 22 from the cylinder 234. It is possible that two furling lines may be provided, one for furling the sail and the other for unfurling the sail 22.
Thus, there is shown an apparatus for furling and reefing of the mainsail. In certain embodiments, the furling of the sail may be accomplished without leaving the cockpit of the boat. The sail can be stored in a rolled fashion, which improves the life of the sail. The apparatus may comprise a mandrel that rotates on bearings that are fixed by way of a plate attached to the aft end of a conventional boom and an inner universal joint attached to the back of the mast. The mainsail attaches to the apparatus at two corners, the clew and the tack, and possibly at additional attachment locations along the mandrel. Once attached, the apparatus can furl and/or reef the mainsail by rolling the sail onto the mandrel. This may be done by turning a hand crank attached to the aft of the mandrel, by pulling a rope attached to the boom, by activating an electrical motor that rotates the mandrel, or by other rotating means.
The native boom is fully functional at all points of sail as the apparatus does not interfere with attachments to the boom such as the mainsheet and boom yang. The apparatus can be used to furl any sail that uses a boom and a mast (i.e., jib, mizzen, etc.)
Certain embodiments of the apparatus may comprise four components, the mandrel, the aft plate, the inner mast attachment, and the reefing brake. In certain embodiments, the present sail furler can perform all the functions of the other furler devices at a fraction of the cost. Certain embodiments can be completely removed by removing four machine screws, allowing the owner to restore the original mainsail system. This may be useful for sailors who prefer roller furling for cruising and the conventional system for racing. The apparatus also can be used with the standard mainsail without expensive modifications to the sail.
The following summarizes features of the components according to certain embodiments.
Mandrel:
The mandrel may be an elongated rod to which the mainsail is attached that allows the sail to be rolled. The mandrel may be composed of an inner solid stainless steel or carbon fiber rod of a length that is approximately 6-12 inches longer than the sailboat boom. This extra length allows for the attachment of the hand crank or furling drum on the aft end of the mandrel. The rod may be ½-¾ inch in diameter. Within this inner rod are drilled various small holes for placing of pins. The pins attach the following components to the inner rod: the aft hand crank, the aluminum cylinder, the outer cylinder, and the inner mast attachment. Surrounding the stainless steel rod is an aluminum cylinder which is cut approximately one foot longer than the length of the sail foot (the horizontal base of the sail) and approximately one foot shorter than the stainless steel rod. The cylinder may be fixed to the stainless steel rod with solid spacers made of plastic or hardwood that are placed at intervals along the length of the mandrel. The spacers have an outer diameter equal to the inner diameter of the cylinder and a central hole equal to the diameter of the stainless steel rod. The spacers may be glued and/or pinned transversely though the cylinder, the spacer and the inner stainless steel rod. The spacers provide stiffness to the mandrel so that a rotational force exerted on inner rod is transmitted evenly to the outer cylinder, allowing for furling and/or reefing of the sail.
The mandrel may rotate on two bearings, one located in the aft plate and one in the inner mast attachment. Both bearings can be standard roller bearings or swivel (spherical) bearings. The mandrel may be rotated by a crank handle, by a furling drum or by an electric motor. These devices are located at the aft plate (all devices) or to the mast attachment (electric motor only). Attached to the aft portion of the mandrel is a brake lever, that when placed in the brake position, halts rotation of the mandrel by engaging the boom. The brake lever is used for reefing the sail.
The sail is attached to the mandrel at the clew and tack ends of the sail using the standard eyes (cringles). For the clew end, an outhaul line is threaded through the cringle and through an eye or cleat on the aft end of the mandrel. This allows for adjusting the tension on the foot of the sail. For brisk wind conditions, an additional strap is placed through the cringle around the mandrel and tightened. This prevents upward movement of the clue cringle.
The clew of the sail may be attached to the mandrel. The clew topping lift (the slack line) and the foam rubber outer sleeve may be provided on the mandrel. Depending on the cut of the sail, the foam sleeve can extend the full length of the foot or partial length. The foam sleeve allows for the sail to furl evenly along the mandrel, preventing creases. For sails with luff slides, the foam rubber sleeve places mild tension on the leech of the sail during furling. This tension allows the luff of the sail to roll onto the mandrel slightly aft of the mast attachment. This prevents the luff slides from getting caught in the rotational movement of the mandrel. If the sail is fitted with a luff tape instead of luff slides, this may also allow for smoother raising and lowering of the sail.
The furler does not interfere with the functionality of the boom, such as the boom yang or main sheet.
Outer Cylinder of the Mandrel:
The mast-end of the mandrel may comprise of an outer cylinder made of hardened metal or carbon fiber of 6-12 inches in length. This outer cylinder attaches snugly to the forward end of the mandrel and has hardware that allows for attachment of the tack eye of the sail. This outer cylinder provides sufficient space within the lumen of the cylinder to house the inner universal joint. This allows these parts to rotate freely. This design also allows the tack eye of the sail to be placed within one inch of the back of the mast. The close proximity of the tack connector to the mast may reduce traction on the luff of the sail.
The Aft Plate:
The aft plate is the aft attachment for the mandrel to the boom. The aft plate may be made of aluminum, stainless steel, carbon fiber, or composite of ½ to 1 inch in thickness. The lower aspect of the plate is custom-cut to exactly match the outer shape of the boom (round, oval, hexagonal, etc). This plate tightly attaches to the outer aspect of the boom using machine screws. The upper aspect of the aft plate is cut to hold a bearing through which the stainless steel inner rod is held. The bearing may be placed at a position of 3-6 inches above the top of the boom, facing fore/aft. The bearing may be placed in such a way that the stainless steel rod can both freely rotate within the bearing and can slide forward and aft within the bearing as the boom is lifted or lowered. An alternative aspect of the aft plate is similar to above, but has a hinge placed transversely between the hole for the boom and the bearing. The hinge may allow for bending of the aft plate both forward and aft. This will help reduce stress to the plate when the back of the boom is lifted or lowered and would eliminate the need to have the inner rod of the mandrel to slide through the bearing in the aft plate. The aft plate, if it is hinged, would allow the plate to move forward and aftward by as much as 20 degrees, as illustrated below.
This 20 degree movement would be sufficient for most sailboats and would prevent the need of the stainless steel rod of the mandrel to slide within the bearing of the aft plate with an upward or downward tilt in the boom. A downward boom tilt causes the aft plate to pull the plate forward by x degrees. Similarly, as the boom is elevated, the corresponding angle of the aft plate will increase to 180-x degrees, pushing the plate aftward. A hinged plate that allows 20 degree forward and aft movement will accommodate these motions.
Additionally, using a hinged plate, it is also possible to have the mandrel supported at both the aft and the mast end of the boom—i.e., two-hinged plate. As the boom tilts downward, both hinges would bend forward by the force of the tack attachments of the sail to the mast. As the boom tilts upward, both hinges would bend aft to prevent the mast plate from jamming the mast. The two plates would hold the mandrel.
Another alternative aspect of the aft plate is that several plates can be pre-manufactured for various boom sizes. To accommodate a specific boom, a plastic insert can be custom made to the specific boom. The insert may be then fitted into a groove within a pre-cut hole of the aft plate to make the finished product.
The materials and fastenings of the aft plate are designed to withstand the full upward, sideward, aft and forward forces of the normal clew attachment under full sail and high wind conditions.
In one example the aft plate for a Catalina 27 sailboat includes a oval hole to accommodate the exact shape of a Catalina 27 boom (3.5 vertical×2.75 inches horizontal). For this plate, there is no plastic insert. The hole cut in the top of the plate holds the bearing that accommodates the inner steel rod.
The hand crank may be attached to the back of the mandrel. The crank may be kept in place during furling and may be detached at all other times. The clue eye (cringle) of the sail is attached to the mandrel with non-stretch rope (the outhaul). An aft spacer may be provided inside the aft end of the outer cylinder of the mandrel.
Inner Mast Attachment and Mast Plate:
The inner mast attachment has a universal joint that allows for lateral swing of the mandrel to an angle of 90 degrees to port and starboard of the mast as well as upward and downward swing. The inner mast attachment of certain embodiments comprises the following: a steel barrel that holds the bearing, a bearing; and a steel universal joint.
The forward end of the stainless steel inner rod fits into the bearing of the inner piece of the mast attachment. The bearing may be held within the steel barrel by steel pins. The forward end of stainless steel rod may be held within the inner piece by a metal retaining ring.
The inner universal joint may be attached to the back of the mast with a small plate of stainless steel to which may be attached a “cube” of ½ inch to 1 inch steel. The end of the universal joint fits snugly onto the cube and may be held by a retaining screw.
The vertical distance between the gooseneck of the native boom and the mast attachment may be adjusted to accommodate the needs of the sailor and other conditions. For example, when the sail is fully furled, the distance may be 4 to 12 inches to accommodate the thickness of the furled sail on the mandrel. When the sail is fully raised, the gooseneck may slide upward to closely abut the mandrel. This position may provide more headroom for the sailors. A web strap can also be wrapped and tightened around the mandrel and gooseneck to provide additional stability during windy conditions. The spherical roller bearing in the aft plate allows for such vertical movement.
The outer cylinder according to one embodiment has a large inner diameter of the outer cylinder that allows the inner universal joint to rotate freely within it. The outer cylinder may be cut to a length that completely encloses the universal joint and barrel. This design allows for the tack connector to be placed very close to the back of the mast.
The inner universal joint and mast attachment may also be modified as follows: the mast portion of the mandrel may hold the bearing inside the mandrel and not have an inner steel rod; and/or the attachment of the mandrel to the mast may comprise of a steel rod that pivots on a mast fitting and may insert into the bearing in the mandrel. The mast fitting may allow for 180 degree movement left to right and 20 degree movement up and down of the steel rod. As in the original apparatus, the outer cylinder fits over the mast attachment.
Tack Connector:
The tack connector includes the two metal eyes that may be bolted or welded into the outer cylinder at a distance that allows the tack eye to easily fit between them. The tack eye may be fastened to the connector by a stainless steel screw or pin that is bent to accommodate the curvature of the outer cylinder. The tack eye may also be attached to the connector with non-stretchable rope. The shape of the connector allows for the tack eye of the sail to lie flat onto the outer piece when furled, as seen in this figure. With a partial rotation of the mandrel, the tack eye of the sail falls flat over one of the connector eyes of the outer cylinder, allowing for a snug furl. The design allows for furling either clockwise or counterclockwise direction. The figure also shows the mast attachment plate.
The Reefing Brake:
Reefing the sail provides a smaller sail area that is exposed to the wind. This prevents the sailboat from being overpowered in windy conditions. The reefing brake may be composed of a stainless steel lever and a steel collar that snugly fits around the aft of the mandrel. The lever is a length sufficient to extend from the aft section of the mandrel to the boom. The steel lever can rotate from a position that is parallel to the mandrel to a perpendicular position. When placed in the perpendicular position, the lever engages the boom and prevents further rotation of the mandrel. The brake is used for reefing the sail. To reef the sail, the sail mandrel may be rotated manually to take up (reef) excess sail. After completing the rotations, the brake lever may be rotated from the parallel position to the perpendicular position, as shown in the figure below:
For all components listed above, various materials are contemplated, but this is not meant to be limiting. Any material may be used that can meet the demands of the loads from the sail. It should be apparent to those skilled in the art that many more modifications besides those already described are possible without departing from the inventive concepts herein. The method of manufacture and design is not intended to be limited. The inventive subject matter, therefore, is not to be restricted. Obviously, modifications and alterations will occur to others upon reading and understanding the preceding detailed description. It is intended that the invention be construed as including all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
Thus, there is shown and described a sail furler for a sail boat and method for furling a sail for reefing or storage and for unfurling a sail for use. Furling and unfurling of the sail may be accomplished from the cockpit of the sailboat. A mandrel is mounted to the mast extending generally parallel to the boom and attached to the aft end of boom by an aft plate. The mandrel is mounted in bearings and provided with a removable crank for rotation. The mandrel is connected to the mast by a universal joint and bearing structure over which is provided an outer cylinder. A cylinder and resilient sleeve may be provided on the mandrel. A reef brake extends from the mandrel into contact with the boom to prevent rotation for reefing the sail. A slide guard may be mounted at the mast end of the mandrel.
Although other modifications and changes may be suggested by those skilled in the art, it is the intention of the inventors to embody within the patent warranted hereon all changes and modifications as reasonably and properly come within the scope of their contribution to the art.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 62/216,745, filed Sep. 10, 2015, which is incorporated herein by reference.
Number | Date | Country | |
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62216745 | Sep 2015 | US |