The present invention relates to small boats and in particular to a small multi-function boat suitable for recreational use and water rescue.
Known small boats are constructed with a sitting compartment which may fill with water. Such known small boats also often lack stability in rough water, and in the event of rough swells, may fill and sink, or in very cold water, may fill subjecting passengers to hypothermia. Further, beach rescue often requires passing through waves and may prove to be problematic due to difficulty in handling the small boats and may result in injury. Known small boats are also heavy and not easily carried or deployed (e.g., thrown from the deck of a larger ship into the water) by a single person.
Other rescue devices are known, such as flat rescue boards. Unfortunately, such rescue boards have limited utility because they have very little freeboard and a victim carried by the board may be subject to both exposure to cold water, and to attack by marine life. Further, such rescue boards do not provide a stable platform for first aid, such as CPR and/or resuscitation. Therefore, known boats are limited when used in rescue operations.
The present invention addresses the above and other needs by providing a multi-purpose boat which has a two angle V hull with a rounded fore-aft profile and slightly convex deck. The hull has steeply angled edge portions and shallowly angled center portions. The edge portions are sufficiently sloped away from vertical to allow the boat to be lifted and not pushed by waves. The rounded fore-aft profile allows the boat to slide over waves, especially during a beach entry. The boat includes a keel having a horizontal base and separating downward from the hull at the fore and aft of the boat to resist yawing. The dry weight of the boat is about 25 pounds with a foam core with a resin coating and the keel is preferably hollow and includes ports to allow water to enter the keel to add about 25 pounds after entering the water. Approximately four inches of freeboard is provided separating riders from cold water and predators.
In accordance with one aspect of the invention, there is provided a multi-purpose boat having a unique banana shape providing safe stable use in rough water and large swells, and for entering the water from a beach through surf. The boat is able to ride large swells remaining upright, thereby keeping riders safe from cold water and predators until assistance arrives.
In accordance with another aspect of the invention, there is provided a foam filled and thereby unsinkable boat. The boat may be constructed having a foam core inside a layer of fiberglass or similar material with a resin coating. The resulting structure is free of seams thus reducing or eliminating weak points and is designed to withstand crashing waves or rocky coastlines with minimal damage.
In accordance with yet another aspect of the invention, there is provided a boat preferably weighing no more than 25 pounds dry. The boat may be stored on large boats or ships and thrown into the water by a single person if an evacuation becomes necessary. The boat may further be carried by a single person from a storage area along the beach to a water entry point. When the boat is first placed it the water, if the boat is lands upside down, it is easily flipped to being upright because of the light weight.
In accordance with still another aspect of the invention, there is provided a boat having an outside edge and top surface free of sharp protrusion allowing evacuated riders to easily climb onto the boat. The boat has a shallow rounded bottom allowing one side or end the boat to dip into the water to further allow evacuated riders to easily climb onto the boat.
In accordance with another aspect of the invention, there is provided a banana shaped (or rounded convex) hull design which allows the boat to rise when rushed by water, thereby withstanding large swells. Such design allows the boat to sit deeper in the water so that the water resists excessive rolling, providing needed stability.
In accordance with another aspect of the invention, there is provided a grooved deck top. The grooves allow water to spill from the boat, keeping riders dry in rough swells.
In accordance with another aspect of the invention, there is provided a rescue boat having a low, flat design, sitting only one-quarter of its depth above water with no fins or other protrusions. The boat's design makes climbing aboard from the water easy, without risk of injury. As a rescue device, because of the lack of protrusions on the deck, the boat can be easily flipped once thrown in the water by grabbing the keel and pushing down on one edge to leverage the boat to the upright. The boat is further designed so that the weight of an individual standing at the end of the boat will push that end into the water, so that an injured rescue victim can be easily slid on to the boat. The boat's design also allows it be used for rescue in situations where an individual is trapped in broken ice. The boat's design keeps individuals safe from cold water (hypothermia) and predators without the necessity of life jackets until help arrives. The boat is further designed to serve as a stable rescue diving platform and provides a solid foundation for performing CPR. The boat's flat upper surface allows individuals to stand, making it easier to see and be seen by rescuers. The boat is light weight and provides low wind resistant allowing it to be easily transported on top of most cars, for example, to transport for rescue in flood conditions.
In accordance with another aspect of the invention, there is provided a multi-function boat. Multi-functionality is achieved by the boat's design features and accessories which allow it to be rapidly and easily adjusted for multiple uses, including paddling, surfing, working out, diving, motoring, sailing, and fishing. Accessories include attachable seats, sail, mast, tiller, motor mount, utility box and twelve foot long paddle. The boat may be paddled standing up, seated or lying down. Upright paddling provides an aerobic workout, improving balance and coordination. Increased stability provided by the boat's design enables the individual to stay aboard for longer periods in order to achieve greater enjoyment and superior health benefits. The boat is designed so that it can be used in oceans, lakes, rivers, ponds, and public beaches. The boat is light weight and has low wind resistance allowing easy transportation on top of most cars to a recreational location.
In accordance with another aspect of the invention, there is provided a method for manufacturing a rescue boat to obtain strength and light weight. The method includes step of: covering the interiors of a mold top section and a mold bottom section with contact cement; laying fiberglass in the mold sections over the contact cement; applying resin to the fiberglass in keel portions of the mold interiors; laying a barrier over the keel portion to make a hollow keel; adding fiberglass over barrier; inserting plastic tubing sections into the mold top section to mold rope passages into the interior of the rescue boat; placing the mold top section onto the mold bottom section; pouring foam into mold; letting the foam expand, harden, and penetrate into the fiberglass; separating the mold sections; applying a coat of a flexible resin to the exposed fiberglass of the rescue boat. The barrier over the keel portion is preferably convex or half round to increase the empty volume of the keel. The keel is formed with at least one port, and preferably two vertically spaced apart ports to allow water to enter and exit the hollow keel. Using the method, the boat is constructed from only about two pounds of fiberglass, four pounds of resin, and 19 pounds of foam, providing about 15 pounds of weight savings over known methods which use much more resin. Further, the foam impregnated fiberglass is much more resistant to impacts which often crack brittle resin impregnated fiberglass.
In accordance with still another aspect of the invention, there is provided a rescue boat including a vertical passage through the boat to a ballast volume in the keel. The keel includes passages allowing water to enter the keel when the boat is in the water. The vertical passage, combined with the rescue boat buoyancy, allow water collected on the deck to escape into the ballast volume to keep the deck dry.
In accordance with still another aspect of the invention, there is provided a rescue boat including replaceable keels. The keels are removably attachable to the rescue boat allowing modifications for different uses. A shallow keel is preferred for general use, and a deep keep is preferred when greater roll stability is desired, for example, by divers climbing onto the rescue boat carrying heavy air tanks.
In accordance with yet another aspect of the invention, there is provided a rescue boat manufactured in a spin mold. Manufacturing in a spin mold provides a very light rescue boat allowing a user to easily place the rescue boat into the water.
In accordance with another aspect of the invention, there is provided a very light weight rescue boat having a thin shell. The thin shell reduces rigidity of the rescue boat and an air valve is attached or molded to the shell to allow filling with low pressure air to provide a increased rigidity.
The above and other aspects, features and advantages of the present invention will be more apparent from the following more particular description thereof, presented in conjunction with the following drawings wherein:
Corresponding reference characters indicate corresponding components throughout the several views of the drawings.
The following description is of the best mode presently contemplated for carrying out the invention. This description is not to be taken in a limiting sense, but is made merely for the purpose of describing one or more preferred embodiments of the invention. The scope of the invention should be determined with reference to the claims.
A side view of a multi-function boat 10 according to the present invention is shown in
The boat 10 has no fins or sharp objects projecting from the deck 12 which might cause injury and as a result, riders can easily climb onto the deck 12. The shape of the hull 14 allows the boat 10 to ride large swells, thereby keeping riders safe from cold water and predators until assistance arrives. When the boat 10 tilts to one side, the rider 20 can simply shift his weight to the other side to level the boat 10 to keep the boat right. The deck 12 further preferably includes grooves 11 making the boat 10 more rigid and allowing water to channel off of the boat 10 quickly, keeping the deck 12 of the boat 10 dry to provide greater stability for a rider 20.
The multifunction boat 10 provides a stable, safe floating platform. The boat 10 is preferably approximately twelve inches thick in the center, with approximately eight inches submerged in the water and approximately four inches freeboard above the water. Due to light weight construction, the boat 10 is able to carry up to 500 pounds for a variety of uses. The boat 10 is preferably approximately twelve feet long, approximately four feet wide and the keel 15 is preferably approximately two inches wide and approximately two inches below the hull 14 at the center of the boat 10. The keel 15 provides stability and tends to keep the boat 10 running straight. The sides 13 of the hull 14 are preferably between 25 and 40 degrees from vertical. When water rushes toward one of the sides 13, the side 13 is lifted (just as when the wind lifts a kite), and the water also pushes against the side 13 of the boat 10 which makes the opposite side 13 of the boat 10 rise up as well, so that the entire boat 10 rises at once. The unique banana shape of the boat 10 and is twelve inches high in the center (including two inches of keel height), and one inch in the bow and the stern, making the boat 10 capable of handling large swells, waves and storms.
A rider 20 paddling with a two handed paddle 22 is shown in
A more detailed side view of the two handed paddle 22 is shown in
Three riders 20 are shown in
The rider 20 is shown sitting on a chair 26 on the multifunction boat 10 in
The versatility of the boat 10 is further illustrated in
Two riders 20 are shown kneeling on the boat 10 and paddling by hand in
A top view of the boat 10 showing accessory recesses 16 is shown in
A cross-sectional view of the boat 10 taken along line 11-11 of
The detail 12 of
A top perspective view of the boat 10 and a rider 20 preparing to install an accessory 74 onto the boat 10 is shown in
A top perspective view of the boat 10 with wheels 32 attached for easy transporting is shown in
The boat 10 is shown strapped to the top of a car 108 in
A side view of the boat 10 is shown in
A cross-sectional view of the boat 10 with an outboard motor 80 attached to the boat 10 by a motor mount 78 is shown in
A top view of pontoons 70 fitted on the boat 10 is shown in
A top view of the boat 10 rigged for sailing is shown in
A side view of the boat 10 rigged for sailing is shown in
A cleat 88 according to the present invention at the end of a rudder handle 54 is shown in
The boat 10 may be constructed of foam with a plastic coating. The boat preferably weighs approximately 25 pounds, and may be thrown off a larger boat or dock for rescue. A drowning person can easily climb onto the boat and stay safe from cold water and predators on a stable platform. Even a dog is able to climb on the boat. The boat may thus be modified for many purposes.
A preferred embodiment of the multifunction boat 10 is a rescue boat 10a. The rescue boat 10a weighs approximately 25 pounds dry and is preferably approximately 8 feet in length. The rescue boat 10a is preferably constructed as one solid piece with no seams thus having no weak points. In addition, the rescue boat 10a is preferably constructed from a hollow foam core with an epoxy coating. The rescue boat 10a is designed so that it can withstand crashing waves or rocky coastlines with minimal damage. Because of its light weight, the rescue boat 10a may be stored on large boats or ships and used if an evacuation becomes necessary, and can be thrown into the water by one person. Evacuated passengers can easily climb onto the rescue boat 10a which has no fins or sharp objects which can cause injury. The rescue boat 10a is able to ride large swells, thereby keeping riders safe from cold water and sharks until assistance arrive.
A side view of the rescue boat 10a according to the present invention is shown in
Preferably, the boarding rope 102 is stitched along each side, about 2 inches from the edge of the rescue boat 10a. The boarding rope 102 is inserted through holes on each side of the rescue boat 10a. The holes are lines with a plastic tube which is level with the top and bottom of the holes to prevent foam from pulling or tugging at the boarding rope 102. Handles 108 are provided at the blunt bow and stern 109 of the rescue boat 10a for carrying or otherwise moving the rescue boat 10a. The handles 108 are preferably attached through holes through the rescue boat 10a about 4 inches in from the bow and stern similar to the attachment of the boarding rope 102. Oars (or paddles) 106 reside in oar recesses 116 (see
A side view of the rescue boat 10a showing bow and stern boarding ropes 108 and the boarding rope 102 attached by hardware 112 is shown in
The deck 12 of the rescue boat 10a is preferably convex so that any water which passes over the rescue boat 10a water immediately runs off the rescue boat 10a. The rescue boat 10a has a length L, bow and stern widths W1, overall width W2, bow and stern edge tapers A1, side edge tapers A2, hull slope A3, deck height H1, wall height H2, bottom height H3, and keel height H4.
The bow and stern ends of the rescue boat 10a are blunt ends with a height H5 to reduce or prevent both injury to a swimmer who might encounter the boat and to reduce or eliminate damage to the boat from hitting hard objects. The dimensions are preferably approximately:
L is between 6 and 10 feet and is preferably about 8 feet;
W1 is between 1 and 3 feet and is preferably about 2 feet;
W2 is between 3 and 6 feet and is preferably about 4.5 feet;
H1 is between ¼ and 2 inches and is preferably about 1 inch;
H2 is between 6 and 10 inches and is preferably about 8 inches;
H3 is between 1 and 3 inches and is preferably about 2 inch;
H4 is between 1 and 3 inches and is preferably about 2 inch;
H5 is between 1 and 2 inches and is preferably about 1 inch;
A2 is between 25 and 40 degree and is preferably about 30 degrees; and
Another embodiment of the rescue boat 10a is shown in
A cross-sectional view of the boat 10a taken along line 44-44 of
Paddle inserts 202 allow the paddles 206 to be taken apart and attached to the boat for easy storage and transport and hook and loop fasteners 203 secure the paddles into the paddle inserts 202. The paddles 206 may include a paddle sleeve 217 allowing tow paddles 206 to be connected to create a longer paddle. Threaded holes 205a are provided on the deck 241a to facilitate attachment of various accessories. Additional threaded holes 205b are provided on the bottom 214a of the rescue boat 214 for attachment of a removable hollow keel 215. The threaded holes 205a and 205b may be formed by molding nuts, inserts, or the like into the rescue boat 214, and preferably stainless steel nuts or inserts are used to form the threaded holes 205b. The hollow keel 215 includes passages allowing
One embodiment of the boat 10a is constructed using a novel method to provide a light weight and rugged boat. The method includes steps of: covering the interiors of a mold top section and a mold bottom section with contact cement; laying fiberglass in the mold sections over the contact cement; applying resin to the fiberglass in keel portions of the mold interiors; laying a barrier over the keel portion to make a hollow keel; adding fiberglass over barrier; inserting plastic tubing sections into the mold top section to mold rope passages into the interior of the rescue boat; placing the mold top section onto the mold bottom section; pouring foam into mold; letting the foam expand, harden, and penetrate into the fiberglass; separating the mold sections; and applying a coat of a flexible resin to the exposed fiberglass of the rescue boat. The barrier over the keel portion is preferably convex or half round to increase the empty volume of the keel. The keel is formed with at least one port, and preferably two vertically spaced apart ports to allow water to enter and exit the hollow keel. The step of covering the mold interiors with contact cement is preferably performed by spraying the contact cement onto the interior surfaces of the molds. The resin applied to the exterior is preferably a colored resin to color the exterior of the boat. While fiberglass is a preferred cloth molding material, the cloth used may also be graphite cloth, carbon fiber cloth, or any other suitable cloth. A boat constructed according to the present invention is very light and strong because the foam partially saturates the fiberglass reducing the amount of resin in the boat. The foam is preferably a close cell marine foam, referred to as a floatation foam, a two part pour foam, and Coast Guard approved, for example, 1117 foam made by Revchem Plastics in Bloomington, Calif.
Another embodiment of the rescue boat is constructed in a spin mold to provide minimize weight and no seams. The volume inside the rescue boat 214 is approximately four to five cubic feet. About two cubic feet (in solid form) of liquid state foam is poured into the formed rescue boat 214 and expands evenly to cover the bottom of the inside of the rescue boat 214 which provides buoyancy. It is not necessary to fill the rescue boat 214 completely with the foam for two reasons: 1) Additional foam adds unnecessary weight to the boat; and 2) If the rescue boat 214 is filled completely the foam, the deck 214b become warped and indented under the weight of a riders standing on the rescue boat 214.
While the invention herein disclosed has been described by means of specific embodiments and applications thereof, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope of the invention set forth in the claims.
The present application claims the priority of U.S. Provisional Patent Application Ser. No. 61/141,222 filed Dec. 29, 2008, and of U.S. Provisional Patent Application Ser. No. 61/168,147 filed Apr. 9, 2009, and of U.S. patent application Ser. No. 12/646,935 filed Dec. 23, 2009, which applications are incorporated in their entirety herein by reference.
Number | Date | Country | |
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Parent | 12646935 | Dec 2009 | US |
Child | 13666535 | US |