The invention relates generally to the field of watercrafts, and more particularly to selectively adding and removing a motor mount to and from such watercrafts.
Various types of watercrafts are commonly used to traverse water. Some such watercrafts include recreational watercrafts, such as paddleboards, surfboards, canoes, kayaks, wake boards, sailboats, skiffs, etc.
Such recreational watercrafts are used by a growing population of people with a wide variety of abilities, e.g. professionals to occasional users, and for a wide variety of purposes, e.g. exercise, fishing, leisure, etc. As the disparity between skill levels of users and consumers of such recreational watercrafts grows, there is a growing need to make such recreational watercrafts desirable and usable by people of many different skill levels. Further, as the number of uses for such recreational watercrafts grows, there is a growing desire to make such recreational watercrafts usable and adaptable to many different uses.
Having a single or low number of different recreational watercraft models be adaptable to people with a variety of skill levels and variety of uses has a number of advantages. For example, such an adaptable recreational watercraft increases the potential target consumer pool and sales of such recreational watercraft. Having a single or low number of different recreational watercraft models decreases the manufacturing cost, e.g. decreasing the number of different parts or manufacturing processes for different watercrafts, the manufacturing learning curve, the number of different promotional materials, etc., and decreases the retail cost, e.g. less floor space, less warehouse space, etc.
As such, there is a need for a convertible or adaptable watercraft that can be used by people with a variety of skill/ability levels and for a variety of uses.
It will be understood by those skilled in the art that one or more aspects of the recreational watercraft and method of assembly can meet certain objectives, while one or more other aspects can lead to certain other objectives. Other objects, features, benefits and advantages of the recreational watercraft and method of assembly will be apparent in this summary and descriptions of the disclosed embodiments, and will be readily apparent to those skilled in the art. Such objects, features, benefits and advantages will be apparent from the above as taken in conjunction with the accompanying figures and all reasonable inferences to be drawn therefrom.
The accompanying drawing figures, which are incorporated in and constitute a part of the description, illustrate several aspects of the recreational watercraft, and together with the description, serve to explain the principles of the recreational watercraft. The following description is based on embodiments of the recreational watercraft and should not be taken as limiting the recreational watercraft with regard to alternative embodiments that are not explicitly described herein. A brief description of the figures is as follows:
In view of the many possible embodiments to which the principles of the present invention may be applied, it should be recognized that the embodiments described herein with respect to the drawing figures are meant to be illustrative only and should not be taken as limiting the scope of the invention.
Referring to
Although the watercraft 10 is illustrated in
The watercraft shown in
The mount 18 can be generally made up of a framework of elements integrally formed or joined together. For example, one of the elements shown in the embodiment illustrated in
As seen in
Although the framework of elements forming the mount 18 shown in
Accessories may also be included in the mount. One example of such accessories is a rod holder 36. In the embodiment of the mount 18′ seen in
The mount 18″ seen in
As seen in
Once the fuel tank 38 is seated on the locator 42, the threaded post 46 with handle 48 can be threaded into the threaded hole 44. As the threaded post 46 is screwed into the threaded hole 44, the handle 48 will come into contact with the fuel tank 38 and hold the fuel tank to the support bar 40 and, thereby, the mount 18″. One advantage of the circular aperture 51 is that the handle 48 is recessed within the aperture when the fuel tank 38 is secured to the mount 18″ and thus out of the way. Further, in the embodiment shown in
When it is desired to have a motorized watercraft 10, e.g. a microskiff, the legs 26 of the mount can be slid into the receptacles 24. With the receptacles 24 being sized slightly larger than the legs 26, the mount 18 will be held with friction with little to no play. The motor mounting bracket 34 of the motor 20 can be slipped onto the plate 32 and the motor clamps and/or screws tightened down to further secure the motor 20 to the mount 18. In this position, the motor 20 is supported by the mount 18. The weight of the motor 20 will further help to hold the mount 18 in the receptacles 24. Once attached to the mount 18, the motor 20 can also be tilted using the motor's trim locks. The watercraft 10 is then ready to be used as a motorized watercraft.
To use the watercraft 10 as a non-motorized watercraft, e.g. a paddleboard, the motor 20 can be disconnected from the plate 32 of the mount 18 and the mount lifted out of the receptacles 24.
The mount 18 can also support a large variety of motors 20, e.g. gas, electric, trolling, etc. As previously discuss, the size and shape of the slot 16 can allow the motor 20 to be selectively used and not used while still attached to the mount 18 and to be used at a number of different angles and thrusts. Different mounts 18 can be used to accommodate different motors, e.g. long shaft and short shaft motors.
The receptacles 24 are set deep enough in the watercraft 10 to sufficiently hold the mount 18 and motor 20 and resist torque and other forces from the motor. The receptacles 24 could simply be holes or openings through the deck 12 of the watercraft 10. However, the receptacles 24 can also be reinforced. For example, the receptacles 24 could be integrally formed in the watercraft 10 using the material forming the deck 12 or shell of the watercraft. The receptacles 24 could also be made from a different material such as wood, fiberglass, plastics, polycarbonate or metal and bonded in the watercraft 10 such as by epoxy, glue, fasteners, friction, snap-fit, etc. Using a polycarbonate material provides a strong, yet light weight receptacle 24. As seen in the embodiment shown in
The receptacles 24 could rise slightly above the deck 12 as seen in
Although the embodiments shown in
At least one company, Sea Eagle Boats, Inc., has offered a selectively attached motor mount to an inflatable stand-up paddleboard called the FishSUP. The board of the FishSUP has a small concave shaped stern. On the board is a pair of lugs, one on each side of the stern concavity, which is at least semi-permanently attached, e.g. by screws into the board. A plate is placed across the concavity and in a slot in each lug. Then a bolt is threaded into the first part of each lug, through the plate and into the second part of each lug to hold the plate to the board.
The FishSUP suffers from a number of disadvantages. First, the plate requires assembly, which may be difficult when the board is in the water, e.g. waves, weight distribution, etc. Second, parts of the FishSUP may be lost. For example, a screw could accidentally be misplaced or dropped into the water. Third, when the motor is not being used, the lugs are attached to the board and provide a surface obstacle, e.g. tripping, loss of board space for accessories, safety hazard, etc. Fourth, the small concavity and small plate permit only a small variety of motors to be used with the FishSUP. Fifth, the small concavity shifts the center of gravity when a motor is attached towards the stern of the board making balancing and use of the board more difficult. Sixth, the FishSUP mount is not aesthetically pleasing. Seventh, although not necessary, the FishSUP has no other accessories, such as a rod holder or gas can mount as compared to some embodiments of the mounts 18′, 18″.
Another company, Pelican International Inc., has offered a microskiff with a motor mount called the Ambush. The Ambush has a rectangular metal panel to which the motor can be mounted or dismounted. From each side of the metal panel is an arcuate metal pipe that extends down to the deck of the microskiff to support the metal panel. Another short straight metal pipe extends downward from the midsection of the arcuate metal pipes to the deck of the microskiff to further support the mount. Each of the two arcuate metal pipes and the two short straight metal pipes ends in a circular flange with four holes therein. Screws are used to attach the mount to the microskiff by inserting the screws through the holes in the circular flange and into the deck of the microskiff. Off the side of each short straight metal pipe is a rod holder.
The Ambush suffers from a number of disadvantages. First, the mount is semi-permanently attached to the microskiff. If it is desired to remove the mount, the screws must be removed, which may be difficult when the microskiff is in the water, e.g. waves, weight distribution, etc. and requires additional tools, e.g. a screwdriver. Second, parts of the Ambush may be lost. For example, a screw could accidentally be misplaced or dropped into the water. Third, the screws actually penetrate the deck of the microskiff. This results in damage to the deck, provides opportunities for water to penetrate the interior of the microskiff and decreases the aesthetics of the microskiff when the mount is not attached. Fourth, the deck alone may not be enough to resist the forces from the motor through repeated use, e.g. vibrations, torqueing, rocking, etc. Fifth, the mount places the motor behind the stern of the microskiff, thereby shifting the center of gravity when a motor is attached towards the stern of the microskiff making balancing and use of the microskiff more difficult. Sixth the location of the rod holders may prevent full mobility of the motor by it or a rod in the rod holder obstructing the steering handle of the motor.
Another product, called the Solo Skiff, is a motorized kayak. The Solo Skiff has a cut out for a motor. At the end of the cut out closest to the bow is a motor mount that is integrally formed with the polyethylene shell of the kayak. The mount is has a pyramidal base that rises from the deck with a thin rectangular portion rising therefrom for receipt by the motor bracket. Support members extend towards the stern from the pyramidal base on each side of the cut out.
The Solo Skiff suffers from a number of disadvantages. First, the mount is integrally formed with the shell of the kayak. Therefore, the mount cannot be removed and the kayak cannot perform as a traditional non-motorized kayak. Second, the mount, when not in use, will create a surface obstacle. This can result in a tripping or other safety hazard and the loss of space for accessories, cargo, equipment, etc. Third, the mount cannot be replaced or adjusted to best position the motor being used. For example, the owner's manual for the Solo Skiff provides “[l]ong shaft engines will not work.”
Although the invention has been herein described in what is perceived to be the most practical and preferred embodiments, it is to be understood that the invention is not intended to be limited to the specific embodiments set forth above. Rather, it is recognized that modifications may be made by one of skill in the art of the invention without departing from the spirit or intent of the invention and, therefore, the invention is to be taken as including all reasonable equivalents to the subject matter of the appended claims and the description of the invention herein. Further, it is to be understood that in at least some embodiments, plurality can include one or more of an element.
Number | Name | Date | Kind |
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2698447 | Potts | Jan 1955 | A |
3434452 | Crow | Mar 1969 | A |
3693577 | Sade | Sep 1972 | A |
3989002 | Peterson | Nov 1976 | A |
4836298 | Laboureau | Jun 1989 | A |
5522338 | Eilert | Jun 1996 | A |
6085678 | Wurzburg | Jul 2000 | A |
7182037 | Otobe | Feb 2007 | B2 |
Number | Date | Country |
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0061878 | Oct 1982 | EP |
Entry |
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Website screenshot of Shallow water skiff pictures Solo Skiff; www.soloskiff.com; Mar. 23, 2016. |
Website screenshot of 2013 Ambush micro skiff 6hp Toatsu; www.microskiff.com; Dec. 11, 2014. |
Website screenshot of Sea Eagle FishSUP 12′6″—Inflatable Fishing iSUP; https://www.youtube.com/watch?v=NP-J_VijrkQ; May 9, 2016. |