The present disclosure relates to small watercraft, such as kayaks. More particularly this disclosure relates to seating for small watercraft.
Outdoor enthusiasts embrace watersports. In the category of watercraft fishing, anglers are moving from large and noisy power boats to smaller personal watercraft such as kayaks. Fishermen are rediscovering the accessibility, portability, quiet travel, and lower cost of fishing from canoes and kayaks as was common hundreds of years ago. These small boats can travel into shallow water, marshes, and through narrow passages that larger boats cannot. Kayak fishing provides access to bodies of water that may be off limits to motor driven boats. Traveling in a kayak is also quieter above and below the water to avoid alerting the fish below. Anglers who use kayaks also spend less time and effort transporting, launching, pulling and maintaining their boats, to provide more time on the water catching fish.
To meet the demand from anglers, boat designers and manufacturers have developed open cockpit or sit-on-top kayaks designed for stability on the water, and designed with unique features to accommodate the rods, lures, tools, tanks, paddles, fish finders and other equipment carried by many kayak fishermen. In many cases, fisherman would prefer to stand while fishing. The standing position provides the fisherman with improved sight lines for seeing the fish in the water. The standing position allows for a greater range of motion, and improved control when casting, reeling, or netting the fish because the standing position allows for the use of the angler's legs. Many kayak fishermen also find it more comfortable to stand than remain seated in a customary kayak seated position. Others may become tired when standing for long periods of time, especially when their legs are working to maintain balance within the boat.
Therefore, even with improvements in stability designed into kayak configured for fishing, there remains a need for a device that may help kayak fishermen achieve a balance between the benefits of the sitting and standing positions during a long day on the water.
Some embodiments of the present disclosure include an elevated seat for a kayak. A floor of the kayak generally defines a reference plane. The seat may include a first support bar configured to be releasably attached to the kayak at a first location and a second support bar configured to be releasably attached to the kayak at a second location spaced along a bow-stern direction of the kayak relative to the first location. The seat may also include a seating member extending from a distal end of the first support bar to a distal end of the second support bar. The seating member may be inclined at a non-perpendicular angle relative to the floor. When in use, the first and second support bars are configured to position the seating member above the floor by a sufficient distance to support a user substantially standing on the floor.
Other embodiments of the present disclosure include a seat for a kayak having a floor and a deck, the floor of the kayak generally defining a reference plane. The seat may comprise at least one support and a seating member positioned upon the support. The seat may have an in-use position and a stowed position. In the stowed position, the seating member lies generally parallel to at least one support. In the in-use position, the seating member is inclined at a non-perpendicular angle relative to the reference plane and the at least one support is arranged such that a user seated on the seating member with the feet of the user flat on the floor will have the knees of the user bent by less than 90 degrees.
Still other embodiments of the present disclosure include a kayak comprising a body having a deck, a floor, a bow and a stern. The kayak may also comprise a first seat removably coupled to the body for supporting a user in a seated position. The kayak may also comprise a second seat, wherein the second seat is foldable between an in-use position for supporting the user in a generally standing position, and a stowed position wherein the second seat generally lies along the deck.
These and other aspects of the present invention will become apparent to those skilled in the art after a reading of the following description of the preferred embodiments, when considered in conjunction with the drawings. It should be understood that both the foregoing general description and the following detailed description are explanatory only and are not restrictive of the invention as claimed.
Exemplary embodiments of this disclosure are described below and illustrated in the accompanying figures, in which like numerals refer to like parts throughout the several views. The embodiments described provide examples and should not be interpreted as limiting the scope of the invention. Other embodiments, and modifications and improvements of the described embodiments, will occur to those skilled in the art and all such other embodiments, modifications and improvements are within the scope of the present invention. Features from one embodiment or aspect may be combined with features from any other embodiment or aspect in any appropriate combination. For example, any individual or collective features of method aspects or embodiments may be applied to apparatus, product or component aspects or embodiments and vice versa.
Turning to the figures,
The kayak 100 includes a body 103 having a bow 106 and a stern 109. The body 103 may generally define a cockpit 112 that has a floor 115. The floor 115 may be contoured to facilitate draining of water into one or more scuppers, but may be described as generally planar to define a reference plane. The reference plane may be parallel with the anticipated waterline of the kayak 100, i.e. the line created by the water when an empty boat is floated on calm water. One possible benefit of a generally flat, planar floor 115 is the ability of the user to stand upon the floor 115. The gunwale of the kayak 100 may form a deck 118. A variety of storage compartments 121 and cavities may be formed into the deck 118 of the body 103. Various attachment hardware 124 may be mounted to the deck 118, or elsewhere on the body 103. The compartments 121 and hardware 124 provide for the mounting, storage, or staging of rods, paddles, live-wells, bait, lures, tools, fish finders, personal effects, and other items required for a successful day on the water.
A paddling seat 125 may be removably coupled to the kayak 100 in a position corresponding with the cockpit 112. The paddling seat 125 is configured to support the user in a seated position relatively low to the water. The paddling seat 125 may be used when paddling, pedaling, or trolling to or between fishing spots. A user in the paddling seat 125 can extend their legs toward the bow 106, along the cockpit 112. In some embodiments the paddling seat 125 includes a seat portion 127 and a back portion 129 (see
Exemplary features of the elevated seat 1 will become more apparent with reference to
In the illustrated embodiment, each support bar 4, 7 may lie along a single plane, as best seen in
In the illustrated embodiment, the first support bar 4 and the second support bar 7 may be joined together by at least one pivot joint 30. The pivot joint 30 is configured to allow the first support bar 4 to pivot relative to the second support bar 7. In one embodiment, the second support bar 7 is configured to nest within the first support bar 4 when the support bars 4, 7 are pivoted into a substantially coplanar orientation as seen in
In the illustrated embodiment, the pivot joint 30 is formed where the first support bar 4 crosses the second support bar 7. In the in-use position, the opposite end 20 of each leg 11 is mounted to the kayak 100. The distance D along the bow-stern direction between the legs 11 of the first support bar 4 and the legs 11 of the second support bar 7 is held fixed in the in-use position to help minimize the chance of collapse of the elevated seat 1.
When not in use, the elevated seat 1 may be staged in a folded or stowed position as best seen in
The elevated seat 1 further comprises a seating member 40 that defines a seating surface 44 upon which the user will sit. In some embodiments, the seating member 40 can include a fabric panel, such as a durable mesh, suspended between the cross beams 14 of the first support bar 4 and second support bar 7, respectively. The seat member 40 may include a padding layer. The mesh may be used to hold the cross beams 14 together in tension. The mesh material may be used for its comfort, breathability, and light weight. Alternatively, other fabrics, or even a rigid material may be used to form the seating member 40. The seating member 40 may be attached to the support bars 4, 7 with straps 48 or other known fasteners. In some embodiments the straps 48 may use hook and loop fasteners to removably attach the seating member 40 to the support bars 4, 7. In some embodiments, the straps 48 connect the seating member 40 to the support bars 4, 7 in such a manner that the seating member 40 is able to pivot, slide, or pivot and slide with respect to at least one of the support bars 4, 7. This functionality of the straps 48, or other fasteners, may at least partially facilitate the ability for the support bars 4, 7 to pivot with respect to one another to transition from the in-use position to the stowed position. The pivoting, sliding, or pivoting and sliding of the support bars 4, 7 relative to the seating member 40 may be particularly useful if the seating member 40 is constructed from a material of sufficient rigidity to maintain its shape. As seen in
The elevated seat 1 is configured so that the in-use position results in placement of the seating member 40 at a height above the floor 115 so that a user will be supported by the seating surface 44 while in a generally upright or leaning posture. A user seated on the seating member 40, with the feet of the user flat on the floor 115, will have the knees of the user bent by less than 90 degrees. By comparison a bend of 90 degrees would occur when a user's thighs are parallel with the floor 115 and the user's calves are perpendicular to the floor 115. A bend of more than 90 degrees could be generally described as a squatting position, or where a user's knees are above their hips when their feet on flat on the floor.
The seating member 40 is arranged upon the support bars 4, 7 to accept at least a portion of the user's weight along a vertical direction. Therefore, the seating surface 44 should not be perpendicular to the floor 115 in the in-use position. In some embodiments, the seating member 40 extending from the first support bar 4 to the second support bar 7 can be inclined to be both non-perpendicular and non-parallel relative to the floor 115. Having the seat member 40 parallel to the floor 115 may reduce the stability of the kayak 100 if insufficient weight of the user remains on their feet. The seating member 40 may form an angle of between ten and eighty degrees relative to the floor. For example, the seating member 40 may form a forty-five degree angle with the floor in the in-use position. In some embodiments, the in-use position provides the cross beam 14 of the first support bar 4 at a higher location relative to the floor 115 than the height of the cross beam 14 of the second support bar 7 to provide the incline. The inclined angle is represented by alpha in
In some embodiments, the kayak 100 is provided with brackets 27 at predetermined locations along the bow-stern direction so that the first support bar 4 and the second support bar 7 can be attached to the kayak 100 at locations spaced apart along the bow-stern direction. The brackets 27 at predetermined locations provide a relatively fixed configuration for the elevated seat 1 in the in-use position.
In other embodiments, several extra brackets 27 may be disposed along the deck 118 for selectively attaching to the opposite ends 20 of the legs 11. By selectively attaching the legs 11 to the desired brackets 27, the bow-stern spacing distance D between the legs 11 can be adjusted, resulting in adjustment of the relative height and angle alpha of the seating member 40 in the in-use position. Alternatives may also be used in place of a plurality of brackets 27. For example, a rail may be provided where the opposite ends 20 of each leg 11 may be selectively held in place at selected locations along the rail.
The relative height of the seating member 40 may be adjusted in other ways. In some embodiments, the legs 11 may be configured to telescope. Adjusting the length of one or more of the legs 11 may result in increasing or decreasing the height of the seating member 40 relative to the floor 115 for comfortably positioning the seating member 40 based on the height of the user.
As seen in
In still other embodiments, a storage basket 80 (see
In some embodiments, the support bars 4, 7 may be used to mount additional accessories, such as a camera mount 85 shown in
Although the above disclosure has been presented in the context of exemplary embodiments, it is to be understood that modifications and variations may be utilized without departing from the spirit and scope of the invention, as those skilled in the art will readily understand. Such modifications and variations are considered to be within the purview and scope of the appended claims and their equivalents.