Watercraft such as stand-up paddle boards, surfboards, kayaks, kite boards, wake boards, and other such watercraft are used in water sports and allow a user to navigate a body of water. A single or multiple fin/skeg (hereinafter “fin”) is traditionally used on watercraft to improve directional stability and tracking. They are typically mounted near the aft of a watercraft. Most of these types of watercraft incorporate a fin mounting box which is permanently mounted and embedded into cavities drilled or routed into the underside of the watercraft body. Or in some cases, such as with inflatable watercraft, the fin mounting box is adhered to the underside exterior of the watercraft body. The fin mounting box is designed in such a way that fins can be quickly and conveniently disconnected from a fin mounting box typically with a screw(s) or sometimes with a quick connect latch or other such mechanism and replaced by different fins or moved forward or aft within the fin mounting box for different stability and maneuverability characteristics.
The drawback with these prior art fin mounting box systems is that the fins are mounted to the fin mounting box in a rigid fashion and cannot retract when coming into contact with subsurface objects. This can be problematic when traveling in shallow waters. When the rigid mount fin comes in contact with and subsurface object, the watercraft can abruptly jerk or stop suddenly. This can result in an uncomfortable experience for the watercraft occupant. In the case of a standing occupant, this could involve falling to one's knees or possibly falling from the watercraft.
Additionally, it is possible that after striking an object, the fin and/or fin mounting box can become damaged. Damage to the marine ecosystems could also occur if the fin was to strike an object such as a coral reef or marine life. The rigid mount fin also has a tendency to catch kelp and other marine debris on its forward edge thereby slowing the watercraft.
Accordingly, there exists a need for a retractable fin system. The prior art has recognized a need for a retractable fin system, as evidenced by several patents disclosing different types of retractable fin systems. Retractable fin system prior art is typically permanently affixed to the watercraft and manufactured integral to the body of the watercraft at the time of initial watercraft assembly. This is because retractable fin system prior art can only operate with a unique fin box mechanism that is custom designed to operate with one specific retractable fin. Other retractable fin system prior art requires expert/professional installation such as drilling, epoxy or gluing. None of the retractable fin prior art can be affixed to the rigid fin mounting box prior art. Additionally, the retractable fin system prior art does not provide the interchangeability benefits that the rigid fin mounting box prior art systems provide such as the ability to be conveniently disconnected from a fin mounting box and replaced by different fins or moved about the fin mounting box for different stability and maneuverability characteristics.
In order to enjoy the benefits of the retractable fin prior art, the watercraft user is either required to purchase an entire watercraft with this feature already fabricated into the hull or they are required to hire an expert/professional to permanently fasten the retractable fin system to a watercraft in some way. Both of these options can be costly and do not provide the versatility of a quick connect, interchangeable and adjustable fin mounting box that the rigid fin prior art provides and is common place in the industry. In both options, the watercraft is permanently modified in order to retain the retractable fin feature.
The present invention is a retractable fin watercraft accessory that is generally comprised of a fin and bracket apparatus and sometimes, but not always, is further comprised of a position-urging mechanism. The fin provides tracking for a watercraft using a retractable/rotatable vertical blade. The bracket apparatus provides a connection between the fin and the watercraft's existing fin mounting box. Additionally, the bracket apparatus provides a pivot point for the fin. The position-urging mechanism generally consists of a spring or another elastic device which is connected to the fin and to the bracket apparatus. The present invention addresses the shortcoming in the existing rigid fin mount prior art by allowing the fin to gently retract as it comes in contact with subsurface objects such as rocks, logs, coral reef and such, allowing the watercraft to freely pass over the object. By doing so, the occupant experiences little to no unsettledness, allowing them to proceed in comfort and confidence. Potential damage to the present invention, fin mounting box and marine ecosystem is also minimized. Trapping of kelp and other marine debris is also minimized. Storage or transport of watercraft is also simplified as multiple watercraft can be stacked adjacent each other without the need to remove the fin.
Additionally, the present invention addresses the shortcomings of retractable fin prior art by the ease in which it can be attached and detached from watercraft. The present invention attaches directly to the watercraft's existing fin mounting box and can be removed from the watercraft without altering the original state of the watercraft prior to being attached. The present invention acts as an accessory to existing watercraft which may have been originally designed to accommodate only rigid mount fins. No drilling, welding, gluing or other such custom fabrication is required. It is intended to be an attachment to a watercraft and not an integral member, allowing the benefits of the present invention without the need to alter or customize the watercraft. The system allows for quick interchangeability between the retractable fin and various rigid style fins, depending on the user's preferences.
The accompanying drawings illustrate prior art related to the present invention and various example embodiments of the present invention itself which serve to provide context and further clarify the advantages, principles and features of the present invention:
The components included in
The first illustrated embodiment of the present invention is shown in
The position-urging mechanism 35 generally consists of a stainless-steel tension spring or other elastic device which is connected to the fin 25 and to the bracket apparatus 30. The fin 25 connection is via a screw eye hook 48 which is mounted to the fin 25. The position-urging mechanism 35 connection to the bracket apparatus 30 is described in detail in the following bracket apparatus 30 paragraphs.
The bracket apparatus 30 provides a connection between the fin 25 and the watercraft's fin mounting box 15. Additionally, the bracket apparatus 30 includes a pivot hole 60 to provide a pivot point for the fin 25.
Additionally, the bracket apparatus 30 includes two position-urging mechanism mounting holes 40, one of which retain the position-urging mechanism mounting hardware 45. The position-urging mechanism mounting hardware 45 consists of a screw 46 with two nuts 47 which are used to retain one end of the position-urging mechanism 35. The second position-urging mechanism mounting hole 40 allows for alternative mounting of the screw 46 and two nuts 47, providing for alternative position-urging mechanism 35 tension.
Additionally, the bracket apparatus 30 includes a bracket apparatus fin slot 70. The purpose of the bracket apparatus fin slot 70 is to allow the position-urging mechanism 35 to remain in the fin mounting box slot 16 and at the same time allow the fin 25 to rotate between the upright position 26 and the retracted position 27. Allowing the position-urging mechanism 35 to remain in the fin mounting box slot 16 minimizes the potential for position-urging mechanism 35 damage due to foreign object impact and also minimizes the risk of bodily injury.
Additionally, the bracket apparatus 30 includes two bracket apparatus fin notches 75. In addition to the pivot mounting hardware 65, the purpose of the two bracket apparatus fin notches 75 is to fit securely around the fin 25 to provide stability to the fin 25 when it is in the upright position 26. The stability minimizes fin 25 vibration and wobble which are undesirable fin attributes.
Furthermore, the bracket apparatus 30 includes two bracket apparatus mounting holes 50 to retain the bracket apparatus mounting hardware 55. The bracket apparatus mounting hardware 55 consists of two screws 56 and two square nuts 57, one set for each bracket apparatus mounting hole 50. The square nuts 57 are inserted into the fin mounting box 15, within the square nut slot 17. Skilled persons will readily recognize the that designation of element 90 as the “forward portion of the leading edge” indicates a directional scheme with, in
Furthermore, the forward portion of the leading edge 90 of the bracket apparatus 30 is sloped in such a way as to deflect objects. This shape allows the watercraft to “slide over” objects with less resistance following an impact. The bracket apparatus 30 is generally channel shaped in the cross-section view. The shape and depth of the bracket apparatus 30 can vary depending on the user's preferences.
Furthermore, the bracket apparatus 30 is generally rigid in nature consisting of a variety of materials including but not limited to, plastic, fiber reinforcement, carbon fiber, aluminum, steel, wood or a combination thereof.
Having described the structure and components of the first illustrated embodiment, operation will now be explained. The present invention is mounted to the watercraft body 10 via the fin mounting box 15. This is done by placing two square nuts 57 into either end of the square nut slot 17. The present invention is then placed on the fin mounting box 15 with the base of the bracket apparatus resting on the fin mounting box 15. The bracket apparatus mounting holes 50 are then lined up with the square nuts 57. Two screws 56 are inserted through the bracket apparatus mounting holes 50, the two square nuts 57 and then the two screws 56 are tightened. At this point the present invention is fully mounted to the fin mounting box 15 and ready for use.
While under use, if the fin 25 comes into contact with an object, the fin rotates, causing further tension in the position-urging mechanism 35. The fin 25 will either partially rotate or fully rotate into the retracted position 27 and then stop rotation. After the fin 25 is no longer in contact with the object, the position-urging mechanism 35 will compress, causing the fin 25 to rotate back to its full upright position 26 and then stop rotation as it comes in contact with the bracket apparatus fin notch 75.
The second illustrated embodiment of the present invention is shown in
Furthermore, the forward portion of the leading edge 90 of the bracket apparatus 30 includes a shallower slope than that of the first illustrated embodiment providing less resistance and improved deflection capabilities. The fin 25 shape can complement the leading edge 90 of the bracket apparatus 30 in such a way that it forms a continuous slope when in the retracted position 27 as viewed from the side. With no abrupt angle along the leading edge 90, both the bracket apparatus 30 and the fin 25 smoothly slide past subsurface objects.
The third illustrated embodiment of the present invention is shown in
In another embodiment, the present invention could be altered in such a way as to mate the present invention with fin mounting boxes shaped differently from that illustrated in
Various types of springs placed in various different locations and configurations around the pivot hole 60 and could include compression, tension and torsion which could operate in either tension, compression or torsion.
At least one embodiment of the present invention produces a simple and effective device for a retractable watercraft fin. While a number of embodiments and variations of the present invention have been described in detail herein, these should not be construed as limitations on the scope, but rather as an exemplification of one or more embodiments thereof. Many other variations of size, material, shape, and configurations are possible. For example, the bracket apparatus 30 can take a variety of shapes and sizes and can be adapted to mount to various different types of fin mounting boxes 15 and assemblies. The size of many components can vary. A variety of suitable structural materials could be employed, including steel, aluminum, plastic, wood, composites, and carbon fiber. A variety of fin types, styles, shapes and numbers could be utilized. The present invention could be attached to various types and configurations of watercraft, including stand-up paddle boards, surfboards, kayaks, kite boards, wake boards, rowing shells, crew boats, and various other types of boats, pontoons or floats.
Accordingly, the scope should be determined not by the embodiments identified herein, but by the appended claims and their legal equivalents.
This application is a continuation of application U.S. Ser. No. 15/449,899, filed Mar. 3, 2017 which claims benefit of provisional application No. 62/389,826 filed on Mar. 11, 2016, all of which are incorporated by reference as if fully set forth herein.
Number | Date | Country | |
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62389826 | Mar 2016 | US |
Number | Date | Country | |
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Parent | 15449899 | Mar 2017 | US |
Child | 16402479 | US |